diff --git a/.editorconfig b/.editorconfig index eebdfb046db52d..a42e2e3ff51519 100644 --- a/.editorconfig +++ b/.editorconfig @@ -16,12 +16,13 @@ end_of_line = crlf indent_size = 8 indent_style = tab -[{deps}/**] +[deps/**] charset = unset end_of_line = unset indent_size = unset indent_style = unset +insert_final_newline = unset trim_trailing_whitespace = unset -[{test/fixtures,deps,tools/eslint/node_modules,tools/gyp,tools/icu,tools/msvs}/**] +[{test/fixtures,tools/eslint/node_modules,tools/gyp,tools/icu,tools/msvs}/**] insert_final_newline = false diff --git a/.github/CODEOWNERS b/.github/CODEOWNERS index 0164937307a770..bf9c77b92b3dad 100644 --- a/.github/CODEOWNERS +++ b/.github/CODEOWNERS @@ -86,6 +86,15 @@ /src/node_http2* @nodejs/http2 @nodejs/net /src/node_mem* @nodejs/http2 +# quic + +/deps/ngtcp2/* @nodejs/quic +/doc/api/quic.md @nodejs/quic +/lib/quic.js @nodejs/quic +/lib/internal/quic/* @nodejs/quic +/src/quic/* @nodejs/quic +/test/parallel/test-quic-* @nodejs/quic + # modules, including loaders /doc/api/esm.md @nodejs/loaders diff --git a/.github/actions/undici-wpt-current/action.yml b/.github/actions/undici-wpt-current/action.yml new file mode 100644 index 00000000000000..ffedcaa0fadc92 --- /dev/null +++ b/.github/actions/undici-wpt-current/action.yml @@ -0,0 +1,56 @@ +name: Run undici WPT (current) +description: Runs undici WPT tests for undici >= 7 and merges results into the Node.js WPT report + +inputs: + undici-version: + required: true + description: undici version tag to checkout + wpt-report: + required: true + description: Path to the Node.js WPT report to merge into + +runs: + using: composite + steps: + - name: Checkout undici + uses: actions/checkout@de0fac2e4500dabe0009e67214ff5f5447ce83dd # v6.0.2 + with: + repository: nodejs/undici + persist-credentials: false + path: undici + clean: false + ref: ${{ inputs.undici-version }} + - name: Prepare WPT checkout + shell: bash + run: | + rm -rf undici/test/web-platform-tests/wpt + mv test/fixtures/wpt undici/test/web-platform-tests/wpt + - name: Configure hosts + shell: bash + working-directory: undici/test/web-platform-tests/wpt + run: python3 wpt make-hosts-file | sudo tee -a /etc/hosts + - name: Install dependencies + shell: bash + working-directory: undici + run: npm install + - name: Run WPT + shell: bash + working-directory: undici + env: + CI: 'true' + WPT_REPORT: ${{ github.workspace }}/undici/wptreport.json + run: npm run test:wpt || true + - name: Merge report + shell: bash + env: + NODE_WPT_REPORT: ${{ inputs.wpt-report }} + UNDICI_WPT_REPORT: ${{ github.workspace }}/undici/wptreport.json + run: | + if [ -f "$UNDICI_WPT_REPORT" ]; then + jq -sc ' + .[0].results += .[1].results | + .[0].time_end = .[1].time_end | + .[0] + ' "$NODE_WPT_REPORT" "$UNDICI_WPT_REPORT" > "${NODE_WPT_REPORT}.tmp" + mv "${NODE_WPT_REPORT}.tmp" "$NODE_WPT_REPORT" + fi diff --git a/.github/actions/undici-wpt-legacy/action.yml b/.github/actions/undici-wpt-legacy/action.yml new file mode 100644 index 00000000000000..77a8b3fee46992 --- /dev/null +++ b/.github/actions/undici-wpt-legacy/action.yml @@ -0,0 +1,37 @@ +name: Run undici WPT (legacy) +description: Runs undici WPT tests for undici < 7 and appends results to the Node.js WPT report + +inputs: + undici-version: + required: true + description: undici version tag to checkout + wpt-report: + required: true + description: Path to the Node.js WPT report + +runs: + using: composite + steps: + - name: Checkout undici + uses: actions/checkout@de0fac2e4500dabe0009e67214ff5f5447ce83dd # v6.0.2 + with: + repository: nodejs/undici + persist-credentials: false + path: undici + clean: false + ref: ${{ inputs.undici-version }} + - name: Prepare WPT checkout + shell: bash + run: | + rm -rf undici/test/wpt/tests + mv test/fixtures/wpt undici/test/wpt/tests + - name: Install dependencies + shell: bash + working-directory: undici + run: npm install + - name: Run WPT + shell: bash + working-directory: undici + env: + WPT_REPORT: ${{ inputs.wpt-report }} + run: npm run test:wpt || true diff --git a/.github/dependabot.yml b/.github/dependabot.yml index 37b865597e5d25..c63475dc60f5d2 100644 --- a/.github/dependabot.yml +++ b/.github/dependabot.yml @@ -52,6 +52,8 @@ updates: semver-major-days: 5 semver-minor-days: 5 semver-patch-days: 5 + exclude: + - '@node-core/doc-kit' commit-message: prefix: tools open-pull-requests-limit: 10 diff --git a/.github/label-pr-config.yml b/.github/label-pr-config.yml index 4ff8bee4c56d64..8b36066473f415 100644 --- a/.github/label-pr-config.yml +++ b/.github/label-pr-config.yml @@ -104,6 +104,7 @@ subSystemLabels: /^lib\/internal\/url\.js$/: whatwg-url /^lib\/internal\/modules\/esm/: esm /^lib\/internal\/modules/: module + /^lib\/internal\/source_map/: source maps /^lib\/internal\/webstreams/: web streams /^lib\/internal\/test_runner/: test_runner /^lib\/internal\/v8\//: v8 module @@ -128,6 +129,8 @@ exlusiveLabels: /^test\/report\//: test, report /^test\/fixtures\/es-module/: test, esm /^test\/es-module\//: test, esm + /^test\/fixtures\/source-map/: test, source maps + /^test\/fixtures\/test-426/: test, source maps /^test\/fixtures\/wpt\/streams\//: test, web streams /^test\/fixtures\/typescript/: test, strip-types /^test\/module-hooks\//: test, module, loaders @@ -214,6 +217,7 @@ allJsSubSystems: - url - util - v8 + - vfs - vm - wasi - worker diff --git a/.github/workflows/auto-start-ci.yml b/.github/workflows/auto-start-ci.yml index c6b87840a85418..34488eeed6d72d 100644 --- a/.github/workflows/auto-start-ci.yml +++ b/.github/workflows/auto-start-ci.yml @@ -28,13 +28,13 @@ jobs: - name: Get Pull Requests id: get_prs_for_ci run: > - numbers=$(gh pr list \ - --repo ${{ github.repository }} \ + echo "numbers=$(gh pr list \ + --repo "$GITHUB_REPOSITORY" \ --label 'request-ci' \ --json 'number' \ + --search 'review:approved' \ -t '{{ range . }}{{ .number }} {{ end }}' \ - --limit 5) - echo "numbers=$numbers" >> $GITHUB_OUTPUT + --limit 5)" >> "$GITHUB_OUTPUT" env: GITHUB_TOKEN: ${{ secrets.GITHUB_TOKEN }} start-ci: @@ -45,12 +45,8 @@ jobs: if: needs.get-prs-for-ci.outputs.numbers != '' runs-on: ubuntu-slim steps: - - uses: actions/checkout@08c6903cd8c0fde910a37f88322edcfb5dd907a8 # v5.0.0 - with: - persist-credentials: false - - name: Install Node.js - uses: actions/setup-node@395ad3262231945c25e8478fd5baf05154b1d79f # v6.1.0 + uses: actions/setup-node@48b55a011bda9f5d6aeb4c2d9c7362e8dae4041e # v6.4.0 with: node-version: ${{ env.NODE_VERSION }} @@ -62,15 +58,17 @@ jobs: ncu-config set username "$USERNAME" ncu-config set token "$GH_TOKEN" ncu-config set jenkins_token "$JENKINS_TOKEN" - ncu-config set owner "${{ github.repository_owner }}" - ncu-config set repo "$(echo ${{ github.repository }} | cut -d/ -f2)" + ncu-config set owner "$GITHUB_REPOSITORY_OWNER" + ncu-config set repo "$(echo "$GITHUB_REPOSITORY" | cut -d/ -f2)" env: USERNAME: ${{ secrets.JENKINS_USER }} GH_TOKEN: ${{ secrets.GH_USER_TOKEN }} JENKINS_TOKEN: ${{ secrets.JENKINS_TOKEN }} - name: Start the CI - run: ./tools/actions/start-ci.sh ${{ needs.get-prs-for-ci.outputs.numbers }} + run: | + curl -fsSL "https://github.com/${GITHUB_REPOSITORY}/raw/${GITHUB_SHA}/tools/actions/start-ci.sh" \ + | sh -s -- ${{ needs.get-prs-for-ci.outputs.numbers }} env: GITHUB_TOKEN: ${{ secrets.GITHUB_TOKEN }} GH_REPO: ${{ github.repository }} diff --git a/.github/workflows/build-tarball.yml b/.github/workflows/build-tarball.yml index 2686033d401444..9b4e7684f42fe7 100644 --- a/.github/workflows/build-tarball.yml +++ b/.github/workflows/build-tarball.yml @@ -41,11 +41,11 @@ jobs: if: github.event.pull_request.draft == false runs-on: ubuntu-slim steps: - - uses: actions/checkout@08c6903cd8c0fde910a37f88322edcfb5dd907a8 # v5.0.0 + - uses: actions/checkout@de0fac2e4500dabe0009e67214ff5f5447ce83dd # v6.0.2 with: persist-credentials: false - name: Set up Python ${{ env.PYTHON_VERSION }} - uses: actions/setup-python@83679a892e2d95755f2dac6acb0bfd1e9ac5d548 # v6.1.0 + uses: actions/setup-python@a309ff8b426b58ec0e2a45f0f869d46889d02405 # v6.2.0 with: python-version: ${{ env.PYTHON_VERSION }} - name: Environment Information @@ -57,7 +57,7 @@ jobs: export COMMIT=$(git rev-parse --short=10 "$GITHUB_SHA") ./configure && make tar -j4 SKIP_XZ=1 - name: Upload tarball artifact - uses: actions/upload-artifact@330a01c490aca151604b8cf639adc76d48f6c5d4 # v5.0.0 + uses: actions/upload-artifact@bbbca2ddaa5d8feaa63e36b76fdaad77386f024f # v7.0.0 with: name: tarballs path: '*.tar.gz' @@ -71,24 +71,24 @@ jobs: SCCACHE_GHA_ENABLED: ${{ github.base_ref == 'main' || github.ref_name == 'main' }} SCCACHE_IDLE_TIMEOUT: '0' steps: - - uses: actions/checkout@08c6903cd8c0fde910a37f88322edcfb5dd907a8 # v5.0.0 + - uses: actions/checkout@de0fac2e4500dabe0009e67214ff5f5447ce83dd # v6.0.2 with: persist-credentials: false sparse-checkout: .github/actions/install-clang sparse-checkout-cone-mode: false - name: Set up Python ${{ env.PYTHON_VERSION }} - uses: actions/setup-python@83679a892e2d95755f2dac6acb0bfd1e9ac5d548 # v6.1.0 + uses: actions/setup-python@a309ff8b426b58ec0e2a45f0f869d46889d02405 # v6.2.0 with: python-version: ${{ env.PYTHON_VERSION }} - name: Set up sccache if: github.base_ref == 'main' || github.ref_name == 'main' - uses: Mozilla-Actions/sccache-action@7d986dd989559c6ecdb630a3fd2557667be217ad # v0.0.9 + uses: Mozilla-Actions/sccache-action@9e7fa8a12102821edf02ca5dbea1acd0f89a2696 # v0.0.10 with: version: v0.12.0 - name: Environment Information run: npx envinfo - name: Download tarball - uses: actions/download-artifact@018cc2cf5baa6db3ef3c5f8a56943fffe632ef53 # v6.0.0 + uses: actions/download-artifact@3e5f45b2cfb9172054b4087a40e8e0b5a5461e7c # v8.0.1 with: name: tarballs path: tarballs diff --git a/.github/workflows/close-stale-feature-requests.yml b/.github/workflows/close-stale-feature-requests.yml deleted file mode 100644 index b992696079884c..00000000000000 --- a/.github/workflows/close-stale-feature-requests.yml +++ /dev/null @@ -1,56 +0,0 @@ -name: Close stale feature requests -on: - workflow_dispatch: - schedule: - # Run every day at 1:00 AM UTC. - - cron: 0 1 * * * - -# yamllint disable rule:empty-lines -env: - CLOSE_MESSAGE: > - There has been no activity on this feature request - and it is being closed. If you feel closing this issue is not the - right thing to do, please leave a comment. - - - For more information on how the project manages - feature requests, please consult the - [feature request management document](https://github.com/nodejs/node/blob/HEAD/doc/contributing/feature-request-management.md). - - WARN_MESSAGE: > - There has been no activity on this feature request for - 5 months. To help maintain relevant open issues, please - add the https://github.com/nodejs/node/labels/never-stale - label or close this issue if it should be closed. If not, - the issue will be automatically closed 6 months after the - last non-automated comment. - - For more information on how the project manages - feature requests, please consult the - [feature request management document](https://github.com/nodejs/node/blob/HEAD/doc/contributing/feature-request-management.md). -# yamllint enable - -permissions: - contents: read - -jobs: - stale: - permissions: - issues: write # for actions/stale to close stale issues - pull-requests: write # for actions/stale to close stale PRs - if: github.repository == 'nodejs/node' - runs-on: ubuntu-slim - steps: - - uses: actions/stale@5f858e3efba33a5ca4407a664cc011ad407f2008 # v10.1.0 - with: - repo-token: ${{ secrets.GITHUB_TOKEN }} - days-before-stale: 180 - days-before-close: 30 - stale-issue-label: stale - close-issue-message: ${{ env.CLOSE_MESSAGE }} - stale-issue-message: ${{ env.WARN_MESSAGE }} - only-labels: feature request - exempt-issue-labels: never-stale - # max requests it will send per run to the GitHub API before it deliberately exits to avoid hitting API rate limits - operations-per-run: 500 - remove-stale-when-updated: true diff --git a/.github/workflows/close-stale-pull-requests.yml b/.github/workflows/close-stale-pull-requests.yml deleted file mode 100644 index de565c9051328d..00000000000000 --- a/.github/workflows/close-stale-pull-requests.yml +++ /dev/null @@ -1,59 +0,0 @@ -name: Close stale pull requests -on: - workflow_dispatch: - inputs: - endDate: - description: stop processing PRs after this date - required: false - type: string - -# yamllint disable rule:empty-lines -env: - CLOSE_MESSAGE: > - This pull request was opened more than a year ago and there has - been no activity in the last 6 months. We value your contribution - but since it has not progressed in the last 6 months it is being - closed. If you feel closing this pull request is not the right thing - to do, please leave a comment. - - WARN_MESSAGE: > - This pull request was opened more than a year ago and there has - been no activity in the last 5 months. We value your contribution - but since it has not progressed in the last 5 months it is being - marked stale and will be closed if there is no progress in the - next month. If you feel that is not the right thing to do please - comment on the pull request. -# yamllint enable - -permissions: - contents: read - -jobs: - stale: - permissions: - pull-requests: write # for actions/stale to close stale PRs - if: github.repository == 'nodejs/node' - runs-on: ubuntu-slim - steps: - - name: Set default end date which is 1 year ago - run: echo "END_DATE=$(date --date='525600 minutes ago' --rfc-2822)" >> "$GITHUB_ENV" - - name: if date set in event override the default end date - env: - END_DATE_INPUT_VALUE: ${{ github.event.inputs.endDate }} - if: ${{ github.event.inputs.endDate != '' }} - run: echo "END_DATE=$END_DATE_INPUT_VALUE" >> "$GITHUB_ENV" - - uses: mhdawson/stale@453d6581568dc43dbe345757f24408d7b451c651 # PR to add support for endDate - with: - repo-token: ${{ secrets.GITHUB_TOKEN }} - end-date: ${{ env.END_DATE }} - days-before-issue-stale: -1 - days-before-issue-close: -1 - days-before-stale: 150 - days-before-close: 30 - stale-issue-label: stale - close-issue-message: ${{ env.CLOSE_MESSAGE }} - stale-issue-message: ${{ env.WARN_MESSAGE }} - exempt-pr-labels: never-stale - # max requests it will send per run to the GitHub API before it deliberately exits to avoid hitting API rate limits - operations-per-run: 500 - remove-stale-when-updated: true diff --git a/.github/workflows/close-stalled.yml b/.github/workflows/close-stalled.yml index 5d2ee0bebfd69b..4d36d9e93cbc23 100644 --- a/.github/workflows/close-stalled.yml +++ b/.github/workflows/close-stalled.yml @@ -20,7 +20,7 @@ jobs: if: github.repository == 'nodejs/node' runs-on: ubuntu-slim steps: - - uses: actions/stale@5f858e3efba33a5ca4407a664cc011ad407f2008 # v10.1.0 + - uses: actions/stale@b5d41d4e1d5dceea10e7104786b73624c18a190f # v10.2.0 with: repo-token: ${{ secrets.GITHUB_TOKEN }} days-before-close: 30 diff --git a/.github/workflows/codeql.yml b/.github/workflows/codeql.yml index 7c0887b568e908..01d7f37e38149e 100644 --- a/.github/workflows/codeql.yml +++ b/.github/workflows/codeql.yml @@ -9,6 +9,7 @@ permissions: jobs: analyze: + if: github.repository == 'nodejs/node' name: Analyze runs-on: ubuntu-slim permissions: @@ -23,19 +24,19 @@ jobs: steps: - name: Checkout repository - uses: actions/checkout@08c6903cd8c0fde910a37f88322edcfb5dd907a8 # v5.0.0 + uses: actions/checkout@de0fac2e4500dabe0009e67214ff5f5447ce83dd # v6.0.2 # Initializes the CodeQL tools for scanning. - name: Initialize CodeQL - uses: github/codeql-action/init@5d4e8d1aca955e8d8589aabd499c5cae939e33c7 # v4.31.9 + uses: github/codeql-action/init@e46ed2cbd01164d986452f91f178727624ae40d7 # v4.35.3 with: languages: ${{ matrix.language }} config-file: ./.github/codeql-config.yml - name: Autobuild - uses: github/codeql-action/autobuild@5d4e8d1aca955e8d8589aabd499c5cae939e33c7 # v4.31.9 + uses: github/codeql-action/autobuild@e46ed2cbd01164d986452f91f178727624ae40d7 # v4.35.3 - name: Perform CodeQL Analysis - uses: github/codeql-action/analyze@5d4e8d1aca955e8d8589aabd499c5cae939e33c7 # v4.31.9 + uses: github/codeql-action/analyze@e46ed2cbd01164d986452f91f178727624ae40d7 # v4.35.3 with: category: /language:${{matrix.language}} diff --git a/.github/workflows/commit-lint.yml b/.github/workflows/commit-lint.yml index ca90c9bbb9f0b8..75ace50d2a071f 100644 --- a/.github/workflows/commit-lint.yml +++ b/.github/workflows/commit-lint.yml @@ -1,6 +1,9 @@ name: First commit message adheres to guidelines -on: [pull_request] +on: + pull_request: + branches: + - main env: NODE_VERSION: lts/* @@ -17,13 +20,13 @@ jobs: run: | echo "plusOne=$((${{ github.event.pull_request.commits }} + 1))" >> $GITHUB_OUTPUT echo "minusOne=$((${{ github.event.pull_request.commits }} - 1))" >> $GITHUB_OUTPUT - - uses: actions/checkout@08c6903cd8c0fde910a37f88322edcfb5dd907a8 # v5.0.0 + - uses: actions/checkout@de0fac2e4500dabe0009e67214ff5f5447ce83dd # v6.0.2 with: fetch-depth: ${{ steps.nb-of-commits.outputs.plusOne }} persist-credentials: false - run: git reset HEAD^2 - name: Install Node.js - uses: actions/setup-node@395ad3262231945c25e8478fd5baf05154b1d79f # v6.1.0 + uses: actions/setup-node@48b55a011bda9f5d6aeb4c2d9c7362e8dae4041e # v6.4.0 with: node-version: ${{ env.NODE_VERSION }} - name: Validate commit message diff --git a/.github/workflows/commit-queue.yml b/.github/workflows/commit-queue.yml index 747d9cbac6637c..dda452bed46f92 100644 --- a/.github/workflows/commit-queue.yml +++ b/.github/workflows/commit-queue.yml @@ -59,7 +59,7 @@ jobs: if: needs.get_mergeable_prs.outputs.numbers != '' runs-on: ubuntu-slim steps: - - uses: actions/checkout@08c6903cd8c0fde910a37f88322edcfb5dd907a8 # v5.0.0 + - uses: actions/checkout@de0fac2e4500dabe0009e67214ff5f5447ce83dd # v6.0.2 with: # A personal token is required because pushing with GITHUB_TOKEN will # prevent commits from running CI after they land. It needs @@ -69,7 +69,7 @@ jobs: # Install dependencies - name: Install Node.js - uses: actions/setup-node@395ad3262231945c25e8478fd5baf05154b1d79f # v6.1.0 + uses: actions/setup-node@48b55a011bda9f5d6aeb4c2d9c7362e8dae4041e # v6.4.0 with: node-version: ${{ env.NODE_VERSION }} - name: Install @node-core/utils diff --git a/.github/workflows/coverage-linux-without-intl.yml b/.github/workflows/coverage-linux-without-intl.yml index 197ba34fc750df..99e1b8e88c1f59 100644 --- a/.github/workflows/coverage-linux-without-intl.yml +++ b/.github/workflows/coverage-linux-without-intl.yml @@ -50,16 +50,16 @@ jobs: if: false runs-on: ubuntu-24.04 steps: - - uses: actions/checkout@08c6903cd8c0fde910a37f88322edcfb5dd907a8 # v5.0.0 + - uses: actions/checkout@de0fac2e4500dabe0009e67214ff5f5447ce83dd # v6.0.2 with: persist-credentials: false - name: Set up Python ${{ env.PYTHON_VERSION }} - uses: actions/setup-python@83679a892e2d95755f2dac6acb0bfd1e9ac5d548 # v6.1.0 + uses: actions/setup-python@a309ff8b426b58ec0e2a45f0f869d46889d02405 # v6.2.0 with: python-version: ${{ env.PYTHON_VERSION }} - name: Set up sccache if: github.base_ref == 'main' || github.ref_name == 'main' - uses: Mozilla-Actions/sccache-action@7d986dd989559c6ecdb630a3fd2557667be217ad # v0.0.9 + uses: Mozilla-Actions/sccache-action@9e7fa8a12102821edf02ca5dbea1acd0f89a2696 # v0.0.10 with: version: v0.12.0 - name: Environment Information @@ -82,6 +82,6 @@ jobs: - name: Clean tmp run: rm -rf coverage/tmp && rm -rf out - name: Upload - uses: codecov/codecov-action@671740ac38dd9b0130fbe1cec585b89eea48d3de # v5.5.2 + uses: codecov/codecov-action@57e3a136b779b570ffcdbf80b3bdc90e7fab3de2 # v6.0.0 with: directory: ./coverage diff --git a/.github/workflows/coverage-linux.yml b/.github/workflows/coverage-linux.yml index 966d91fc9442b8..d853d4055c67b4 100644 --- a/.github/workflows/coverage-linux.yml +++ b/.github/workflows/coverage-linux.yml @@ -50,16 +50,16 @@ jobs: if: false runs-on: ubuntu-24.04-arm steps: - - uses: actions/checkout@08c6903cd8c0fde910a37f88322edcfb5dd907a8 # v5.0.0 + - uses: actions/checkout@de0fac2e4500dabe0009e67214ff5f5447ce83dd # v6.0.2 with: persist-credentials: false - name: Set up Python ${{ env.PYTHON_VERSION }} - uses: actions/setup-python@83679a892e2d95755f2dac6acb0bfd1e9ac5d548 # v6.1.0 + uses: actions/setup-python@a309ff8b426b58ec0e2a45f0f869d46889d02405 # v6.2.0 with: python-version: ${{ env.PYTHON_VERSION }} - name: Set up sccache if: github.base_ref == 'main' || github.ref_name == 'main' - uses: Mozilla-Actions/sccache-action@7d986dd989559c6ecdb630a3fd2557667be217ad # v0.0.9 + uses: Mozilla-Actions/sccache-action@9e7fa8a12102821edf02ca5dbea1acd0f89a2696 # v0.0.10 with: version: v0.12.0 - name: Environment Information @@ -82,6 +82,6 @@ jobs: - name: Clean tmp run: rm -rf coverage/tmp && rm -rf out - name: Upload - uses: codecov/codecov-action@671740ac38dd9b0130fbe1cec585b89eea48d3de # v5.5.2 + uses: codecov/codecov-action@57e3a136b779b570ffcdbf80b3bdc90e7fab3de2 # v6.0.0 with: directory: ./coverage diff --git a/.github/workflows/coverage-windows.yml b/.github/workflows/coverage-windows.yml index fe3cc7179c2c45..dabb3e9eba3bff 100644 --- a/.github/workflows/coverage-windows.yml +++ b/.github/workflows/coverage-windows.yml @@ -3,31 +3,55 @@ name: Coverage Windows on: pull_request: types: [opened, synchronize, reopened, ready_for_review] - paths: - - lib/**/*.js - - vcbuild.bat - - src/**/*.cc - - src/**/*.h - - test/** - - tools/gyp/** - - tools/test.py - - .github/workflows/coverage-windows.yml - - codecov.yml - - .nycrc + paths-ignore: + - '**.md' + - '**.nix' + - eslint.config.mjs + - '**/eslint.config_partial.mjs' + - android-configure + - android-configure.py + - android-patches/** + - benchmarks/** + - doc/** + - pyproject.yml + - tsconfig.json + - test/internet/** + - tools/actions/** + - tools/bootstrap/** + - tools/dep_updaters/** + - tools/doc/** + - tools/eslint-rules/** + - tools/eslint/** + - tools/lint-md/** + - typings/** + - .** + - '!.github/workflows/coverage-windows.yml' push: branches: - main - paths: - - lib/**/*.js - - vcbuild.bat - - src/**/*.cc - - src/**/*.h - - test/** - - tools/gyp/** - - tools/test.py - - .github/workflows/coverage-windows.yml - - codecov.yml - - .nycrc + paths-ignore: + - '**.md' + - '**.nix' + - eslint.config.mjs + - '**/eslint.config_partial.mjs' + - android-configure + - android-configure.py + - android-patches/** + - benchmarks/** + - doc/** + - pyproject.yml + - tsconfig.json + - test/internet/** + - tools/actions/** + - tools/bootstrap/** + - tools/dep_updaters/** + - tools/doc/** + - tools/eslint-rules/** + - tools/eslint/** + - tools/lint-md/** + - typings/** + - .** + - '!.github/workflows/coverage-windows.yml' concurrency: group: ${{ github.workflow }}-${{ github.head_ref || github.run_id }} @@ -45,11 +69,11 @@ jobs: if: github.event.pull_request.draft == false runs-on: windows-2022 steps: - - uses: actions/checkout@08c6903cd8c0fde910a37f88322edcfb5dd907a8 # v5.0.0 + - uses: actions/checkout@de0fac2e4500dabe0009e67214ff5f5447ce83dd # v6.0.2 with: persist-credentials: false - name: Set up Python ${{ env.PYTHON_VERSION }} - uses: actions/setup-python@83679a892e2d95755f2dac6acb0bfd1e9ac5d548 # v6.1.0 + uses: actions/setup-python@a309ff8b426b58ec0e2a45f0f869d46889d02405 # v6.2.0 with: python-version: ${{ env.PYTHON_VERSION }} - name: Install deps @@ -71,6 +95,6 @@ jobs: - name: Clean tmp run: npx rimraf ./coverage/tmp - name: Upload - uses: codecov/codecov-action@671740ac38dd9b0130fbe1cec585b89eea48d3de # v5.5.2 + uses: codecov/codecov-action@57e3a136b779b570ffcdbf80b3bdc90e7fab3de2 # v6.0.0 with: directory: ./coverage diff --git a/.github/workflows/create-release-proposal.yml b/.github/workflows/create-release-proposal.yml index 399da244cc4fe0..3c1437e0ac76fd 100644 --- a/.github/workflows/create-release-proposal.yml +++ b/.github/workflows/create-release-proposal.yml @@ -33,14 +33,14 @@ jobs: RELEASE_LINE: ${{ inputs.release-line }} runs-on: ubuntu-slim steps: - - uses: actions/checkout@08c6903cd8c0fde910a37f88322edcfb5dd907a8 # v5.0.0 + - uses: actions/checkout@de0fac2e4500dabe0009e67214ff5f5447ce83dd # v6.0.2 with: ref: ${{ env.STAGING_BRANCH }} persist-credentials: false # Install dependencies - name: Install Node.js - uses: actions/setup-node@395ad3262231945c25e8478fd5baf05154b1d79f # v6.1.0 + uses: actions/setup-node@48b55a011bda9f5d6aeb4c2d9c7362e8dae4041e # v6.4.0 with: node-version: ${{ env.NODE_VERSION }} diff --git a/.github/workflows/daily-wpt-fyi.yml b/.github/workflows/daily-wpt-fyi.yml index 6c28e70e6d949c..ef602095471167 100644 --- a/.github/workflows/daily-wpt-fyi.yml +++ b/.github/workflows/daily-wpt-fyi.yml @@ -39,7 +39,7 @@ jobs: runs-on: ubuntu-24.04-arm steps: - name: Set up Python ${{ env.PYTHON_VERSION }} - uses: actions/setup-python@83679a892e2d95755f2dac6acb0bfd1e9ac5d548 # v6.1.0 + uses: actions/setup-python@a309ff8b426b58ec0e2a45f0f869d46889d02405 # v6.2.0 with: python-version: ${{ env.PYTHON_VERSION }} - name: Environment Information @@ -48,10 +48,10 @@ jobs: # install a version and checkout - name: Get latest nightly if: matrix.node-version == 'latest-nightly' - run: echo "NIGHTLY=$(curl -s https://nodejs.org/download/nightly/index.json | jq -r '[.[] | select(.files[] | contains("linux-x64"))][0].version')" >> $GITHUB_ENV + run: echo "NIGHTLY=$(curl -s https://nodejs.org/download/nightly/index.json | jq -r '[.[] | select(.files[] | contains("linux-arm64"))][0].version')" >> $GITHUB_ENV - name: Install Node.js id: setup-node - uses: actions/setup-node@395ad3262231945c25e8478fd5baf05154b1d79f # v6.1.0 + uses: actions/setup-node@48b55a011bda9f5d6aeb4c2d9c7362e8dae4041e # v6.4.0 with: node-version: ${{ env.NIGHTLY || matrix.node-version }} check-latest: true @@ -63,7 +63,7 @@ jobs: SHORT_SHA=$(node -p 'process.version.split(/-nightly\d{8}/)[1]') echo "NIGHTLY_REF=$(gh api /repos/nodejs/node/commits/$SHORT_SHA --jq '.sha')" >> $GITHUB_ENV - name: Checkout ${{ steps.setup-node.outputs.node-version }} - uses: actions/checkout@08c6903cd8c0fde910a37f88322edcfb5dd907a8 # v5.0.0 + uses: actions/checkout@de0fac2e4500dabe0009e67214ff5f5447ce83dd # v6.0.2 with: persist-credentials: false ref: ${{ env.NIGHTLY_REF || steps.setup-node.outputs.node-version }} @@ -79,7 +79,7 @@ jobs: run: rm -rf wpt working-directory: test/fixtures - name: Checkout epochs/daily WPT - uses: actions/checkout@08c6903cd8c0fde910a37f88322edcfb5dd907a8 # v5.0.0 + uses: actions/checkout@de0fac2e4500dabe0009e67214ff5f5447ce83dd # v6.0.2 with: repository: web-platform-tests/wpt persist-credentials: false @@ -95,6 +95,48 @@ jobs: echo "WPT_REPORT=$(pwd)/out/wpt/wptreport.json" >> $GITHUB_ENV fi + # undici WPT Runner + - name: Set env.UNDICI_VERSION + if: ${{ env.WPT_REPORT != '' }} + run: | + UNDICI_VERSION=$(jq -r '.version' < deps/undici/src/package.json) + echo "UNDICI_VERSION=v$UNDICI_VERSION" >> $GITHUB_ENV + if [ "${UNDICI_VERSION%%.*}" -ge 7 ]; then + echo "UNDICI_WPT=current" >> $GITHUB_ENV + else + echo "UNDICI_WPT=legacy" >> $GITHUB_ENV + fi + # Checkout composite actions from the default branch since the + # version-specific checkout above overwrites .github/actions/ + - name: Checkout undici WPT actions + if: ${{ env.WPT_REPORT != '' }} + uses: actions/checkout@de0fac2e4500dabe0009e67214ff5f5447ce83dd # v6.0.2 + with: + sparse-checkout: | + .github/actions/undici-wpt-current + .github/actions/undici-wpt-legacy + sparse-checkout-cone-mode: false + persist-credentials: false + path: _wpt_actions + clean: false + - name: Place undici WPT actions + if: ${{ env.WPT_REPORT != '' }} + run: | + mkdir -p .github/actions + cp -r _wpt_actions/.github/actions/undici-wpt-* .github/actions/ + - name: Run undici WPT (current) + if: ${{ env.UNDICI_WPT == 'current' }} + uses: ./.github/actions/undici-wpt-current + with: + undici-version: ${{ env.UNDICI_VERSION }} + wpt-report: ${{ env.WPT_REPORT }} + - name: Run undici WPT (legacy) + if: ${{ env.UNDICI_WPT == 'legacy' }} + uses: ./.github/actions/undici-wpt-legacy + with: + undici-version: ${{ env.UNDICI_VERSION }} + wpt-report: ${{ env.WPT_REPORT }} + # Upload artifacts - name: Clone report for upload if: ${{ env.WPT_REPORT != '' }} @@ -102,7 +144,7 @@ jobs: run: cp wptreport.json wptreport-${{ steps.setup-node.outputs.node-version }}.json - name: Upload GitHub Actions artifact if: ${{ env.WPT_REPORT != '' }} - uses: actions/upload-artifact@330a01c490aca151604b8cf639adc76d48f6c5d4 # v5.0.0 + uses: actions/upload-artifact@bbbca2ddaa5d8feaa63e36b76fdaad77386f024f # v7.0.0 with: path: out/wpt/wptreport-*.json name: WPT Report for ${{ steps.setup-node.outputs.node-version }} diff --git a/.github/workflows/daily.yml b/.github/workflows/daily.yml index 199896f6d442fc..0b82dd2aac04c7 100644 --- a/.github/workflows/daily.yml +++ b/.github/workflows/daily.yml @@ -13,13 +13,14 @@ permissions: jobs: build-lto: + if: github.repository == 'nodejs/node' || github.event_name == 'workflow_dispatch' runs-on: ubuntu-24.04-arm steps: - - uses: actions/checkout@08c6903cd8c0fde910a37f88322edcfb5dd907a8 # v5.0.0 + - uses: actions/checkout@de0fac2e4500dabe0009e67214ff5f5447ce83dd # v6.0.2 with: persist-credentials: false - name: Use Node.js ${{ env.NODE_VERSION }} - uses: actions/setup-node@395ad3262231945c25e8478fd5baf05154b1d79f # v6.1.0 + uses: actions/setup-node@48b55a011bda9f5d6aeb4c2d9c7362e8dae4041e # v6.4.0 with: node-version: ${{ env.NODE_VERSION }} - name: Environment Information diff --git a/.github/workflows/doc.yml b/.github/workflows/doc.yml index f77aa4057994f8..f2281dc7e71ea5 100644 --- a/.github/workflows/doc.yml +++ b/.github/workflows/doc.yml @@ -24,18 +24,18 @@ jobs: if: github.event.pull_request.draft == false runs-on: ubuntu-slim steps: - - uses: actions/checkout@08c6903cd8c0fde910a37f88322edcfb5dd907a8 # v5.0.0 + - uses: actions/checkout@de0fac2e4500dabe0009e67214ff5f5447ce83dd # v6.0.2 with: persist-credentials: false - name: Use Node.js ${{ env.NODE_VERSION }} - uses: actions/setup-node@395ad3262231945c25e8478fd5baf05154b1d79f # v6.1.0 + uses: actions/setup-node@48b55a011bda9f5d6aeb4c2d9c7362e8dae4041e # v6.4.0 with: node-version: ${{ env.NODE_VERSION }} - name: Environment Information run: npx envinfo - name: Build run: NODE=$(command -v node) make doc-only - - uses: actions/upload-artifact@330a01c490aca151604b8cf639adc76d48f6c5d4 # v5.0.0 + - uses: actions/upload-artifact@bbbca2ddaa5d8feaa63e36b76fdaad77386f024f # v7.0.0 with: name: docs path: out/doc diff --git a/.github/workflows/find-inactive-collaborators.yml b/.github/workflows/find-inactive-collaborators.yml index 2e5290d5d121dc..ba9ce0c2e18826 100644 --- a/.github/workflows/find-inactive-collaborators.yml +++ b/.github/workflows/find-inactive-collaborators.yml @@ -19,13 +19,13 @@ jobs: runs-on: ubuntu-slim steps: - - uses: actions/checkout@08c6903cd8c0fde910a37f88322edcfb5dd907a8 # v5.0.0 + - uses: actions/checkout@de0fac2e4500dabe0009e67214ff5f5447ce83dd # v6.0.2 with: fetch-depth: 0 persist-credentials: false - name: Use Node.js ${{ env.NODE_VERSION }} - uses: actions/setup-node@395ad3262231945c25e8478fd5baf05154b1d79f # v6.1.0 + uses: actions/setup-node@48b55a011bda9f5d6aeb4c2d9c7362e8dae4041e # v6.4.0 with: node-version: ${{ env.NODE_VERSION }} @@ -33,7 +33,7 @@ jobs: run: tools/find-inactive-collaborators.mjs - name: Open pull request - uses: gr2m/create-or-update-pull-request-action@77596e3166f328b24613f7082ab30bf2d93079d5 + uses: gr2m/create-or-update-pull-request-action@b65137ca591da0b9f43bad7b24df13050ea45d1b # v1.10.1 # Creates a PR or update the Action's existing PR, or # no-op if the base branch is already up-to-date. env: diff --git a/.github/workflows/find-inactive-tsc.yml b/.github/workflows/find-inactive-tsc.yml index 0638a097065875..eb09e4e94a8ad4 100644 --- a/.github/workflows/find-inactive-tsc.yml +++ b/.github/workflows/find-inactive-tsc.yml @@ -20,13 +20,13 @@ jobs: steps: - name: Checkout the repo - uses: actions/checkout@08c6903cd8c0fde910a37f88322edcfb5dd907a8 # v5.0.0 + uses: actions/checkout@de0fac2e4500dabe0009e67214ff5f5447ce83dd # v6.0.2 with: fetch-depth: 0 persist-credentials: false - name: Clone nodejs/TSC repository - uses: actions/checkout@08c6903cd8c0fde910a37f88322edcfb5dd907a8 # v5.0.0 + uses: actions/checkout@de0fac2e4500dabe0009e67214ff5f5447ce83dd # v6.0.2 with: fetch-depth: 0 path: .tmp @@ -34,7 +34,7 @@ jobs: repository: nodejs/TSC - name: Use Node.js ${{ env.NODE_VERSION }} - uses: actions/setup-node@395ad3262231945c25e8478fd5baf05154b1d79f # v6.1.0 + uses: actions/setup-node@48b55a011bda9f5d6aeb4c2d9c7362e8dae4041e # v6.4.0 with: node-version: ${{ env.NODE_VERSION }} @@ -42,7 +42,7 @@ jobs: run: tools/find-inactive-tsc.mjs >> $GITHUB_ENV - name: Open pull request - uses: gr2m/create-or-update-pull-request-action@77596e3166f328b24613f7082ab30bf2d93079d5 + uses: gr2m/create-or-update-pull-request-action@b65137ca591da0b9f43bad7b24df13050ea45d1b # v1.10.1 # Creates a PR or update the Action's existing PR, or # no-op if the base branch is already up-to-date. env: diff --git a/.github/workflows/license-builder.yml b/.github/workflows/license-builder.yml index 3d87cb09ead472..83b7cea221b0f5 100644 --- a/.github/workflows/license-builder.yml +++ b/.github/workflows/license-builder.yml @@ -17,11 +17,11 @@ jobs: if: github.repository == 'nodejs/node' runs-on: ubuntu-slim steps: - - uses: actions/checkout@08c6903cd8c0fde910a37f88322edcfb5dd907a8 # v5.0.0 + - uses: actions/checkout@de0fac2e4500dabe0009e67214ff5f5447ce83dd # v6.0.2 with: persist-credentials: false - run: ./tools/license-builder.sh # Run the license builder tool - - uses: gr2m/create-or-update-pull-request-action@86ec1766034c8173518f61d2075cc2a173fb8c97 # v1.9.4 + - uses: gr2m/create-or-update-pull-request-action@b65137ca591da0b9f43bad7b24df13050ea45d1b # v1.10.1 # Creates a PR or update the Action's existing PR, or # no-op if the base branch is already up-to-date. env: diff --git a/.github/workflows/lint-release-proposal.yml b/.github/workflows/lint-release-proposal.yml index 689580a717350f..68e316fbc4330d 100644 --- a/.github/workflows/lint-release-proposal.yml +++ b/.github/workflows/lint-release-proposal.yml @@ -23,7 +23,7 @@ jobs: contents: read pull-requests: read steps: - - uses: actions/checkout@08c6903cd8c0fde910a37f88322edcfb5dd907a8 # v5.0.0 + - uses: actions/checkout@de0fac2e4500dabe0009e67214ff5f5447ce83dd # v6.0.2 with: persist-credentials: false fetch-depth: 2 @@ -73,8 +73,9 @@ jobs: ':(exclude)CHANGELOG.md' \ ':(exclude)src/node_version.h' \ ':(exclude)test/parallel/test-process-release.js' \ + ':(exclude)doc/abi_version_registry.json' \ ':(exclude)doc/api/' \ - ":(exclude)doc/changelogs/CHANGELOG_V$MAJOR.md")" ] + ":(exclude)doc/changelogs/")" ] - name: Validate CHANGELOG id: releaser-info run: | diff --git a/.github/workflows/linters.yml b/.github/workflows/linters.yml index faa28d5ce7dba3..4fbdb480e32be0 100644 --- a/.github/workflows/linters.yml +++ b/.github/workflows/linters.yml @@ -25,11 +25,11 @@ jobs: if: github.event.pull_request.draft == false runs-on: ubuntu-slim steps: - - uses: actions/checkout@08c6903cd8c0fde910a37f88322edcfb5dd907a8 # v5.0.0 + - uses: actions/checkout@de0fac2e4500dabe0009e67214ff5f5447ce83dd # v6.0.2 with: persist-credentials: false - name: Use Node.js ${{ env.NODE_VERSION }} - uses: actions/setup-node@395ad3262231945c25e8478fd5baf05154b1d79f # v6.1.0 + uses: actions/setup-node@48b55a011bda9f5d6aeb4c2d9c7362e8dae4041e # v6.4.0 with: node-version: ${{ env.NODE_VERSION }} - name: Environment Information @@ -40,11 +40,11 @@ jobs: if: github.event.pull_request.draft == false runs-on: ubuntu-slim steps: - - uses: actions/checkout@08c6903cd8c0fde910a37f88322edcfb5dd907a8 # v5.0.0 + - uses: actions/checkout@de0fac2e4500dabe0009e67214ff5f5447ce83dd # v6.0.2 with: persist-credentials: false - name: Set up Python ${{ env.PYTHON_VERSION }} - uses: actions/setup-python@83679a892e2d95755f2dac6acb0bfd1e9ac5d548 # v6.1.0 + uses: actions/setup-python@a309ff8b426b58ec0e2a45f0f869d46889d02405 # v6.2.0 with: python-version: ${{ env.PYTHON_VERSION }} - name: Environment Information @@ -55,16 +55,16 @@ jobs: if: ${{ github.event.pull_request && github.event.pull_request.draft == false && github.base_ref == github.event.repository.default_branch }} runs-on: ubuntu-slim steps: - - uses: actions/checkout@08c6903cd8c0fde910a37f88322edcfb5dd907a8 # v5.0.0 + - uses: actions/checkout@de0fac2e4500dabe0009e67214ff5f5447ce83dd # v6.0.2 with: fetch-depth: 0 persist-credentials: false - name: Use Node.js ${{ env.NODE_VERSION }} - uses: actions/setup-node@395ad3262231945c25e8478fd5baf05154b1d79f # v6.1.0 + uses: actions/setup-node@48b55a011bda9f5d6aeb4c2d9c7362e8dae4041e # v6.4.0 with: node-version: ${{ env.NODE_VERSION }} - name: Set up Python ${{ env.PYTHON_VERSION }} - uses: actions/setup-python@83679a892e2d95755f2dac6acb0bfd1e9ac5d548 # v6.1.0 + uses: actions/setup-python@a309ff8b426b58ec0e2a45f0f869d46889d02405 # v6.2.0 with: python-version: ${{ env.PYTHON_VERSION }} - name: Environment Information @@ -93,11 +93,11 @@ jobs: if: github.event.pull_request.draft == false runs-on: ubuntu-slim steps: - - uses: actions/checkout@08c6903cd8c0fde910a37f88322edcfb5dd907a8 # v5.0.0 + - uses: actions/checkout@de0fac2e4500dabe0009e67214ff5f5447ce83dd # v6.0.2 with: persist-credentials: false - name: Use Node.js ${{ env.NODE_VERSION }} - uses: actions/setup-node@395ad3262231945c25e8478fd5baf05154b1d79f # v6.1.0 + uses: actions/setup-node@48b55a011bda9f5d6aeb4c2d9c7362e8dae4041e # v6.4.0 with: node-version: ${{ env.NODE_VERSION }} - name: Environment Information @@ -142,7 +142,7 @@ jobs: if: github.event.pull_request.draft == false runs-on: ubuntu-slim steps: - - uses: actions/checkout@08c6903cd8c0fde910a37f88322edcfb5dd907a8 # v5.0.0 + - uses: actions/checkout@de0fac2e4500dabe0009e67214ff5f5447ce83dd # v6.0.2 with: persist-credentials: false sparse-checkout: | @@ -156,7 +156,7 @@ jobs: *.py sparse-checkout-cone-mode: false - name: Set up Python ${{ env.PYTHON_VERSION }} - uses: actions/setup-python@83679a892e2d95755f2dac6acb0bfd1e9ac5d548 # v6.1.0 + uses: actions/setup-python@a309ff8b426b58ec0e2a45f0f869d46889d02405 # v6.2.0 with: python-version: ${{ env.PYTHON_VERSION }} - name: Environment Information @@ -169,7 +169,7 @@ jobs: if: github.event.pull_request.draft == false runs-on: ubuntu-slim steps: - - uses: actions/checkout@08c6903cd8c0fde910a37f88322edcfb5dd907a8 # v5.0.0 + - uses: actions/checkout@de0fac2e4500dabe0009e67214ff5f5447ce83dd # v6.0.2 with: persist-credentials: false sparse-checkout: | @@ -179,7 +179,7 @@ jobs: *.yaml sparse-checkout-cone-mode: false - name: Use Python ${{ env.PYTHON_VERSION }} - uses: actions/setup-python@83679a892e2d95755f2dac6acb0bfd1e9ac5d548 # v6.1.0 + uses: actions/setup-python@a309ff8b426b58ec0e2a45f0f869d46889d02405 # v6.2.0 with: python-version: ${{ env.PYTHON_VERSION }} - name: Environment Information @@ -193,7 +193,7 @@ jobs: if: github.event.pull_request.draft == false runs-on: ubuntu-slim steps: - - uses: actions/checkout@08c6903cd8c0fde910a37f88322edcfb5dd907a8 # v5.0.0 + - uses: actions/checkout@de0fac2e4500dabe0009e67214ff5f5447ce83dd # v6.0.2 with: persist-credentials: false sparse-checkout: | @@ -209,7 +209,7 @@ jobs: # cannot use ubuntu-24.04-arm here because the docker image is x86 only runs-on: ubuntu-latest steps: - - uses: actions/checkout@08c6903cd8c0fde910a37f88322edcfb5dd907a8 # v5.0.0 + - uses: actions/checkout@de0fac2e4500dabe0009e67214ff5f5447ce83dd # v6.0.2 with: persist-credentials: false - uses: mszostok/codeowners-validator@7f3f5e28c6d7b8dfae5731e54ce2272ca384592f @@ -219,7 +219,7 @@ jobs: if: ${{ github.event.pull_request }} runs-on: ubuntu-slim steps: - - uses: actions/checkout@08c6903cd8c0fde910a37f88322edcfb5dd907a8 # v5.0.0 + - uses: actions/checkout@de0fac2e4500dabe0009e67214ff5f5447ce83dd # v6.0.2 with: fetch-depth: 2 persist-credentials: false @@ -232,7 +232,7 @@ jobs: lint-readme: runs-on: ubuntu-slim steps: - - uses: actions/checkout@08c6903cd8c0fde910a37f88322edcfb5dd907a8 # v5.0.0 + - uses: actions/checkout@de0fac2e4500dabe0009e67214ff5f5447ce83dd # v6.0.2 with: persist-credentials: false sparse-checkout: | diff --git a/.github/workflows/notify-on-push.yml b/.github/workflows/notify-on-push.yml index 1e57b9993097f9..9ca33943c968c5 100644 --- a/.github/workflows/notify-on-push.yml +++ b/.github/workflows/notify-on-push.yml @@ -7,6 +7,9 @@ name: Notify on Push permissions: contents: read +env: + NODE_VERSION: lts/* + jobs: notifyOnForcePush: name: Notify on Force Push on `main` @@ -30,20 +33,20 @@ jobs: validateCommitMessage: name: Notify on Push on `main` with invalid message - if: github.repository == 'nodejs/node' # cannot use ubuntu-slim here because rtCamp/action-slack-notify is dockerized runs-on: ubuntu-24.04-arm steps: - - uses: actions/checkout@08c6903cd8c0fde910a37f88322edcfb5dd907a8 # v5.0.0 + - name: Install Node.js + uses: actions/setup-node@48b55a011bda9f5d6aeb4c2d9c7362e8dae4041e # v6.4.0 with: - persist-credentials: false - - name: Check commit message + node-version: ${{ env.NODE_VERSION }} + - name: Validate commits + run: echo "$COMMITS" | npx -q core-validate-commit - id: commit-check - run: npx -q core-validate-commit "$COMMIT" env: - COMMIT: ${{ github.event.after }} + COMMITS: ${{ toJSON(github.event.commits) }} - name: Slack Notification - if: ${{ failure() && steps.commit-check.conclusion == 'failure' }} + if: ${{ failure() && steps.commit-check.conclusion == 'failure' && github.repository == 'nodejs/node' }} uses: rtCamp/action-slack-notify@e31e87e03dd19038e411e38ae27cbad084a90661 # 2.3.3 env: SLACK_COLOR: '#DE512A' diff --git a/.github/workflows/scorecard.yml b/.github/workflows/scorecard.yml index 16dd17dbc41bd0..fbd12b76548854 100644 --- a/.github/workflows/scorecard.yml +++ b/.github/workflows/scorecard.yml @@ -20,9 +20,11 @@ permissions: read-all jobs: analysis: + if: github.repository == 'nodejs/node' || github.event_name == 'workflow_dispatch' name: Scorecard analysis # cannot use ubuntu-slim here because ossf/scorecard-action is dockerized - runs-on: ubuntu-24.04-arm + # cannot use ubuntu-24.04-arm here because the docker image is x86 only + runs-on: ubuntu-latest permissions: # Needed to upload the results to code-scanning dashboard. security-events: write @@ -34,12 +36,12 @@ jobs: steps: - name: Harden Runner - uses: step-security/harden-runner@20cf305ff2072d973412fa9b1e3a4f227bda3c76 # v2.14.0 + uses: step-security/harden-runner@8d3c67de8e2fe68ef647c8db1e6a09f647780f40 # v2.19.0 with: egress-policy: audit # TODO: change to 'egress-policy: block' after couple of runs - name: Checkout code - uses: actions/checkout@08c6903cd8c0fde910a37f88322edcfb5dd907a8 # v5.0.0 + uses: actions/checkout@de0fac2e4500dabe0009e67214ff5f5447ce83dd # v6.0.2 with: persist-credentials: false @@ -66,7 +68,7 @@ jobs: # Upload the results as artifacts (optional). Commenting out will disable uploads of run results in SARIF # format to the repository Actions tab. - name: Upload artifact - uses: actions/upload-artifact@330a01c490aca151604b8cf639adc76d48f6c5d4 # v5.0.0 + uses: actions/upload-artifact@bbbca2ddaa5d8feaa63e36b76fdaad77386f024f # v7.0.0 with: name: SARIF file path: results.sarif @@ -74,6 +76,6 @@ jobs: # Upload the results to GitHub's code scanning dashboard. - name: Upload to code-scanning - uses: github/codeql-action/upload-sarif@5d4e8d1aca955e8d8589aabd499c5cae939e33c7 # v4.31.9 + uses: github/codeql-action/upload-sarif@e46ed2cbd01164d986452f91f178727624ae40d7 # v4.35.3 with: sarif_file: results.sarif diff --git a/.github/workflows/stale.yml b/.github/workflows/stale.yml new file mode 100644 index 00000000000000..704967c24e62ec --- /dev/null +++ b/.github/workflows/stale.yml @@ -0,0 +1,50 @@ +name: Close stale +on: + workflow_dispatch: + schedule: + # Run every day at 1:00 AM UTC. + - cron: 0 1 * * * + +# yamllint disable rule:empty-lines +env: + CLOSE_MESSAGE: > + This {0} has been automatically closed after 30 days of inactivity + following its stale status (no activity for a total of 240 days). + + If this is still relevant, feel free to reopen it or leave a comment + with additional details so we can continue the discussion. + + WARN_MESSAGE: > + This {0} has been marked as stale due to 210 days of inactivity. + + It will be automatically closed in 30 days if no further activity occurs. + If this is still relevant, please leave a comment or update it to keep it open. +# yamllint enable + +permissions: + contents: read + +jobs: + stale: + permissions: + issues: write # for actions/stale to close stale issues + pull-requests: write # for actions/stale to close stale PRs + if: github.repository == 'nodejs/node' + runs-on: ubuntu-slim + steps: + - uses: actions/stale@b5d41d4e1d5dceea10e7104786b73624c18a190f # v10.2.0 + with: + repo-token: ${{ secrets.GITHUB_TOKEN }} + days-before-stale: 210 + days-before-close: 30 + stale-issue-label: stale + exempt-issue-labels: never-stale, confirmed-bug + close-issue-message: ${{ format(env.CLOSE_MESSAGE, 'issue') }} + stale-issue-message: ${{ format(env.WARN_MESSAGE, 'issue') }} + stale-pr-label: stale + exempt-pr-labels: never-stale + close-pr-message: ${{ format(env.CLOSE_MESSAGE, 'pull request') }} + stale-pr-message: ${{ format(env.WARN_MESSAGE, 'pull request') }} + # max requests it will send per run to the GitHub API before it deliberately exits to avoid hitting API rate limits + operations-per-run: 500 + remove-stale-when-updated: true diff --git a/.github/workflows/test-internet.yml b/.github/workflows/test-internet.yml index 67c097ad0ae708..1dd835b5f199a9 100644 --- a/.github/workflows/test-internet.yml +++ b/.github/workflows/test-internet.yml @@ -42,19 +42,19 @@ permissions: contents: read jobs: test-internet: - if: github.event_name == 'schedule' && github.repository == 'nodejs/node' || github.event.pull_request.draft == false + if: (github.event_name == 'schedule' && github.repository == 'nodejs/node') || (github.event.pull_request && github.event.pull_request.draft == false) runs-on: ubuntu-24.04-arm steps: - - uses: actions/checkout@08c6903cd8c0fde910a37f88322edcfb5dd907a8 # v5.0.0 + - uses: actions/checkout@de0fac2e4500dabe0009e67214ff5f5447ce83dd # v6.0.2 with: persist-credentials: false - name: Set up Python ${{ env.PYTHON_VERSION }} - uses: actions/setup-python@83679a892e2d95755f2dac6acb0bfd1e9ac5d548 # v6.1.0 + uses: actions/setup-python@a309ff8b426b58ec0e2a45f0f869d46889d02405 # v6.2.0 with: python-version: ${{ env.PYTHON_VERSION }} - name: Set up sccache if: github.base_ref == 'main' || github.ref_name == 'main' - uses: Mozilla-Actions/sccache-action@7d986dd989559c6ecdb630a3fd2557667be217ad # v0.0.9 + uses: Mozilla-Actions/sccache-action@9e7fa8a12102821edf02ca5dbea1acd0f89a2696 # v0.0.10 with: version: v0.12.0 - name: Environment Information diff --git a/.github/workflows/test-linux.yml b/.github/workflows/test-linux.yml index 505ffafe9cf00f..397498a7e1dfb6 100644 --- a/.github/workflows/test-linux.yml +++ b/.github/workflows/test-linux.yml @@ -6,6 +6,9 @@ on: - .mailmap - README.md - vcbuild.bat + - tools/actions/** + - tools/clang-format/** + - tools/dep_updaters/** - test/internet/** - .github/** - '!.github/workflows/test-linux.yml' @@ -20,6 +23,9 @@ on: - .mailmap - README.md - vcbuild.bat + - tools/actions/** + - tools/clang-format/** + - tools/dep_updaters/** - test/internet/** - .github/** - '!.github/workflows/test-linux.yml' @@ -48,25 +54,30 @@ jobs: matrix: os: [ubuntu-24.04, ubuntu-24.04-arm] steps: - - uses: actions/checkout@08c6903cd8c0fde910a37f88322edcfb5dd907a8 # v5.0.0 + - uses: actions/checkout@de0fac2e4500dabe0009e67214ff5f5447ce83dd # v6.0.2 with: persist-credentials: false path: node - name: Set up Python ${{ env.PYTHON_VERSION }} - uses: actions/setup-python@83679a892e2d95755f2dac6acb0bfd1e9ac5d548 # v6.1.0 + uses: actions/setup-python@a309ff8b426b58ec0e2a45f0f869d46889d02405 # v6.2.0 with: python-version: ${{ env.PYTHON_VERSION }} - name: Set up sccache if: github.base_ref == 'main' || github.ref_name == 'main' - uses: Mozilla-Actions/sccache-action@7d986dd989559c6ecdb630a3fd2557667be217ad # v0.0.9 + uses: Mozilla-Actions/sccache-action@9e7fa8a12102821edf02ca5dbea1acd0f89a2696 # v0.0.10 with: version: v0.12.0 - name: Environment Information run: npx envinfo - name: Build - run: make -C node build-ci -j4 V=1 CONFIG_FLAGS="--error-on-warn" + working-directory: node + run: make build-ci -j4 V=1 CONFIG_FLAGS="--error-on-warn" - name: Test - run: make -C node test-ci -j1 V=1 TEST_CI_ARGS="-p actions --measure-flakiness 9" + working-directory: node + run: make test-ci -j1 V=1 TEST_CI_ARGS="-p actions --measure-flakiness 9" + - name: Ensure running tests did not cause any change in the tree + working-directory: node + run: git add -A && git diff --name-only --exit-code --staged - name: Re-run test in a folder whose name contains unusual chars run: | mv node "$DIR" diff --git a/.github/workflows/test-macos.yml b/.github/workflows/test-macos.yml index 2c167a55a80803..9059a9b5c62cf5 100644 --- a/.github/workflows/test-macos.yml +++ b/.github/workflows/test-macos.yml @@ -50,19 +50,19 @@ jobs: SCCACHE_GHA_ENABLED: ${{ github.base_ref == 'main' || github.ref_name == 'main' }} SCCACHE_IDLE_TIMEOUT: '0' steps: - - uses: actions/checkout@08c6903cd8c0fde910a37f88322edcfb5dd907a8 # v5.0.0 + - uses: actions/checkout@de0fac2e4500dabe0009e67214ff5f5447ce83dd # v6.0.2 with: persist-credentials: false path: node - name: Set up Python ${{ env.PYTHON_VERSION }} - uses: actions/setup-python@83679a892e2d95755f2dac6acb0bfd1e9ac5d548 # v6.1.0 + uses: actions/setup-python@a309ff8b426b58ec0e2a45f0f869d46889d02405 # v6.2.0 with: python-version: ${{ env.PYTHON_VERSION }} - name: Set up Xcode ${{ env.XCODE_VERSION }} run: sudo xcode-select -s /Applications/Xcode_${{ env.XCODE_VERSION }}.app - name: Set up sccache if: github.base_ref == 'main' || github.ref_name == 'main' - uses: Mozilla-Actions/sccache-action@7d986dd989559c6ecdb630a3fd2557667be217ad # v0.0.9 + uses: Mozilla-Actions/sccache-action@9e7fa8a12102821edf02ca5dbea1acd0f89a2696 # v0.0.10 with: version: v0.12.0 - name: Environment Information diff --git a/.github/workflows/timezone-update.yml b/.github/workflows/timezone-update.yml index 6032e52eaf7456..5e90d16c1b1dd4 100644 --- a/.github/workflows/timezone-update.yml +++ b/.github/workflows/timezone-update.yml @@ -16,16 +16,17 @@ jobs: pull-requests: write # to create a PR (gr2m/create-or-update-pull-request-action) if: github.repository == 'nodejs/node' - runs-on: ubuntu-slim + # cannot use ubuntu-slim here because it does not have icupkg + runs-on: ubuntu-latest steps: - name: Checkout nodejs/node - uses: actions/checkout@08c6903cd8c0fde910a37f88322edcfb5dd907a8 # v5.0.0 + uses: actions/checkout@de0fac2e4500dabe0009e67214ff5f5447ce83dd # v6.0.2 with: persist-credentials: false - name: Checkout unicode-org/icu-data - uses: actions/checkout@08c6903cd8c0fde910a37f88322edcfb5dd907a8 # v5.0.0 + uses: actions/checkout@de0fac2e4500dabe0009e67214ff5f5447ce83dd # v6.0.2 with: path: icu-data persist-credentials: false @@ -41,7 +42,7 @@ jobs: run: | echo "Comparing current version ${{ env.current_version }} to new version ${{ env.new_version }}" - - run: ./tools/update-timezone.mjs + - run: ./tools/dep_updaters/update-timezone.mjs if: ${{ env.new_version != env.current_version }} - name: Update the expected timezone version in test @@ -50,13 +51,14 @@ jobs: - name: Open Pull Request if: ${{ env.new_version != env.current_version }} - uses: gr2m/create-or-update-pull-request-action@77596e3166f328b24613f7082ab30bf2d93079d5 # Create a PR or update the Action's existing PR + # Create a PR or update the Action's existing PR + uses: gr2m/create-or-update-pull-request-action@b65137ca591da0b9f43bad7b24df13050ea45d1b # v1.10.1 env: GITHUB_TOKEN: ${{ secrets.GH_USER_TOKEN }} with: author: Node.js GitHub Bot body: | - This PR was generated by tools/timezone-update.yml. + This PR was generated by `.github/workflows/timezone-update.yml` and `tools/dep_updaters/update-timezone.mjs`. Updates the ICU files as per the instructions present in https://github.com/nodejs/node/blob/main/doc/contributing/maintaining/maintaining-icu.md#time-zone-data diff --git a/.github/workflows/tools.yml b/.github/workflows/tools.yml index a1f8cde900b469..d027376ebccfc7 100644 --- a/.github/workflows/tools.yml +++ b/.github/workflows/tools.yml @@ -25,6 +25,7 @@ on: - gyp-next - histogram - icu + - inspector_protocol - libuv - llhttp - minimatch @@ -37,6 +38,7 @@ on: - simdjson - simdutf - sqlite + - test426-fixtures - undici - uvwasi - zlib @@ -151,6 +153,14 @@ jobs: cat temp-output tail -n1 temp-output | grep "NEW_VERSION=" >> "$GITHUB_ENV" || true rm temp-output + - id: inspector_protocol + subsystem: deps + label: dependencies, inspector + run: | + ./tools/dep_updaters/update-inspector-protocol.sh > temp-output + cat temp-output + tail -n1 temp-output | grep "NEW_VERSION=" >> "$GITHUB_ENV" || true + rm temp-output - id: libuv subsystem: deps label: dependencies @@ -244,6 +254,14 @@ jobs: cat temp-output tail -n1 temp-output | grep "NEW_VERSION=" >> "$GITHUB_ENV" || true rm temp-output + - id: test426-fixtures + subsystem: test + label: test + run: | + bash tools/dep_updaters/update-test426-fixtures.sh > temp-output + cat temp-output + tail -n1 temp-output | grep "NEW_VERSION=" >> "$GITHUB_ENV" || true + rm temp-output - id: undici subsystem: deps label: dependencies @@ -277,11 +295,7 @@ jobs: tail -n1 temp-output | grep "NEW_VERSION=" >> "$GITHUB_ENV" || true rm temp-output steps: - - name: Setup Git config - run: | - git config --global user.name "Node.js GitHub Bot" - git config --global user.email "github-bot@iojs.org" - - uses: actions/checkout@08c6903cd8c0fde910a37f88322edcfb5dd907a8 # v5.0.0 + - uses: actions/checkout@de0fac2e4500dabe0009e67214ff5f5447ce83dd # v6.0.2 if: github.event_name == 'schedule' || inputs.id == 'all' || inputs.id == matrix.id with: persist-credentials: false @@ -289,7 +303,7 @@ jobs: if: | (matrix.id == 'icu' || matrix.id == 'inspector_protocol') && (github.event_name == 'schedule' || inputs.id == 'all' || inputs.id == matrix.id) - uses: actions/setup-python@83679a892e2d95755f2dac6acb0bfd1e9ac5d548 # v6.1.0 + uses: actions/setup-python@a309ff8b426b58ec0e2a45f0f869d46889d02405 # v6.2.0 with: python-version: ${{ env.PYTHON_VERSION }} - run: ${{ matrix.run }} @@ -300,15 +314,17 @@ jobs: if: env.COMMIT_MSG == '' && (github.event_name == 'schedule' || inputs.id == 'all' || inputs.id == matrix.id) run: | echo "COMMIT_MSG=${{ matrix.subsystem }}: update ${{ matrix.id }} to ${{ env.NEW_VERSION }}" >> "$GITHUB_ENV" - - uses: peter-evans/create-pull-request@98357b18bf14b5342f975ff684046ec3b2a07725 # v8.0.0 + - uses: peter-evans/create-pull-request@5f6978faf089d4d20b00c7766989d076bb2fc7f1 # v8.1.1 if: github.event_name == 'schedule' || inputs.id == 'all' || inputs.id == matrix.id # Creates a PR or update the Action's existing PR, or # no-op if the base branch is already up-to-date. with: token: ${{ secrets.GH_USER_TOKEN }} - branch: actions/tools-update-${{ matrix.id }} # Custom branch *just* for this Action. + branch: actions/${{ github.ref_name == 'main' || format('{0}/', github.ref_name) }}tools-update-${{ matrix.id }} # Custom branch *just* for this Action. delete-branch: true commit-message: ${{ env.COMMIT_MSG }} labels: ${{ matrix.label }} title: '${{ matrix.subsystem }}: update ${{ matrix.id }} to ${{ env.NEW_VERSION }}' body: This is an automated update of ${{ matrix.id }} to ${{ env.NEW_VERSION }}. + committer: ${{ github.actor }} <${{ github.actor_id }}+${{ github.actor }}@users.noreply.github.com> + author: Node.js GitHub Bot diff --git a/.github/workflows/update-openssl.yml b/.github/workflows/update-openssl.yml index ec5237a456956a..b93e37e7f4b3bc 100644 --- a/.github/workflows/update-openssl.yml +++ b/.github/workflows/update-openssl.yml @@ -12,9 +12,10 @@ permissions: jobs: openssl-update: if: github.repository == 'nodejs/node' - runs-on: ubuntu-slim + # Cannot use ubuntu-slim here because the update script requires Docker + runs-on: ubuntu-latest steps: - - uses: actions/checkout@08c6903cd8c0fde910a37f88322edcfb5dd907a8 # v5.0.0 + - uses: actions/checkout@de0fac2e4500dabe0009e67214ff5f5447ce83dd # v6.0.2 with: persist-credentials: false - name: Check and download new OpenSSL version @@ -27,7 +28,7 @@ jobs: GITHUB_TOKEN: ${{ secrets.GH_USER_TOKEN }} - name: Create PR with first commit if: env.NEW_VERSION - uses: gr2m/create-or-update-pull-request-action@77596e3166f328b24613f7082ab30bf2d93079d5 + uses: gr2m/create-or-update-pull-request-action@b65137ca591da0b9f43bad7b24df13050ea45d1b # v1.10.1 # Creates a PR with the new OpenSSL source code committed env: GITHUB_TOKEN: ${{ secrets.GH_USER_TOKEN }} @@ -43,14 +44,14 @@ jobs: - name: Regenerate platform specific files if: env.NEW_VERSION run: | - sudo apt install -y nasm libtext-template-perl + sudo apt update && sudo apt install -y nasm libtext-template-perl ./tools/dep_updaters/update-openssl.sh regenerate env: GITHUB_TOKEN: ${{ secrets.GH_USER_TOKEN }} - name: Add second commit # Adds a second commit to the PR with the generated platform-dependent files if: env.NEW_VERSION - uses: gr2m/create-or-update-pull-request-action@77596e3166f328b24613f7082ab30bf2d93079d5 + uses: gr2m/create-or-update-pull-request-action@b65137ca591da0b9f43bad7b24df13050ea45d1b # v1.10.1 env: GITHUB_TOKEN: ${{ secrets.GH_USER_TOKEN }} with: diff --git a/.github/workflows/update-v8.yml b/.github/workflows/update-v8.yml index c5e28d29a11fb7..8d2db8261cf455 100644 --- a/.github/workflows/update-v8.yml +++ b/.github/workflows/update-v8.yml @@ -16,11 +16,11 @@ jobs: if: github.repository == 'nodejs/node' runs-on: ubuntu-slim steps: - - uses: actions/checkout@08c6903cd8c0fde910a37f88322edcfb5dd907a8 # v5.0.0 + - uses: actions/checkout@de0fac2e4500dabe0009e67214ff5f5447ce83dd # v6.0.2 with: persist-credentials: false - name: Cache node modules and update-v8 - uses: actions/cache@9255dc7a253b0ccc959486e2bca901246202afeb # v5.0.1 + uses: actions/cache@668228422ae6a00e4ad889ee87cd7109ec5666a7 # v5.0.4 id: cache-v8-npm env: cache-name: cache-v8-npm @@ -30,7 +30,7 @@ jobs: ~/.npm key: ${{ runner.os }}-build-${{ env.cache-name }} - name: Install Node.js - uses: actions/setup-node@395ad3262231945c25e8478fd5baf05154b1d79f # v6.1.0 + uses: actions/setup-node@48b55a011bda9f5d6aeb4c2d9c7362e8dae4041e # v6.4.0 with: node-version: ${{ env.NODE_VERSION }} - name: Install @node-core/utils @@ -45,7 +45,7 @@ jobs: cat temp-output tail -n1 temp-output | grep "NEW_VERSION=" >> "$GITHUB_ENV" || true rm temp-output - - uses: peter-evans/create-pull-request@98357b18bf14b5342f975ff684046ec3b2a07725 # v8.0.0 + - uses: peter-evans/create-pull-request@5f6978faf089d4d20b00c7766989d076bb2fc7f1 # v8.1.1 # Creates a PR or update the Action's existing PR, or # no-op if the base branch is already up-to-date. with: diff --git a/.github/workflows/update-wpt.yml b/.github/workflows/update-wpt.yml index 355f2780f23b3b..f7a832f58bf9e7 100644 --- a/.github/workflows/update-wpt.yml +++ b/.github/workflows/update-wpt.yml @@ -27,12 +27,12 @@ jobs: subsystem: ${{ fromJSON(github.event.inputs.subsystems || '["url", "WebCryptoAPI"]') }} steps: - - uses: actions/checkout@08c6903cd8c0fde910a37f88322edcfb5dd907a8 # v5.0.0 + - uses: actions/checkout@de0fac2e4500dabe0009e67214ff5f5447ce83dd # v6.0.2 with: persist-credentials: false - name: Install Node.js - uses: actions/setup-node@395ad3262231945c25e8478fd5baf05154b1d79f # v6.1.0 + uses: actions/setup-node@48b55a011bda9f5d6aeb4c2d9c7362e8dae4041e # v6.4.0 with: node-version: ${{ env.NODE_VERSION }} @@ -68,7 +68,7 @@ jobs: SUBSYSTEM: ${{ matrix.subsystem }} - name: Open or update PR for the subsystem update - uses: gr2m/create-or-update-pull-request-action@77596e3166f328b24613f7082ab30bf2d93079d5 + uses: gr2m/create-or-update-pull-request-action@b65137ca591da0b9f43bad7b24df13050ea45d1b # v1.10.1 with: # The create-or-update-pull-request-action matches the branch name by prefix, # which is why we need to add the -wpt suffix. If we dont do that, we risk matching wrong PRs, diff --git a/.gitignore b/.gitignore index bf839aa91c86e1..a6c6b30d5e9620 100644 --- a/.gitignore +++ b/.gitignore @@ -31,6 +31,7 @@ /tags /tags.* /doc/api.xml +/docs/ /node /node_g /gon-config.json @@ -157,6 +158,10 @@ cmake_install.cmake install_manifest.txt *.cbp +# === Rules for AI assistants === +CLAUDE.md +AGENTS.md + # === Global Rules === # Keep last to avoid being excluded *.pyc diff --git a/.mailmap b/.mailmap index 0422fba4472601..0860e8e0147889 100644 --- a/.mailmap +++ b/.mailmap @@ -350,7 +350,7 @@ Mathias Buus Mathias Pettersson Matt Lang Matt Reed -Matteo Collina +Matteo Collina Matthew Lye Matthew Turner Matthias Bastian diff --git a/BUILDING.md b/BUILDING.md index f5c2608eea0a61..16bdeb5613e72a 100644 --- a/BUILDING.md +++ b/BUILDING.md @@ -97,7 +97,7 @@ and libc version. The table below lists the support tier for each supported combination. A list of [supported compile toolchains](#supported-toolchains) is also supplied for tier 1 platforms. -**For production applications, run Node.js on supported platforms only.** +**For production applications, run Node.js on supported platforms only (Tier 1 or 2).** Node.js does not support a platform version if a vendor has expired support for it. In other words, Node.js does not support running on End-of-Life (EoL) @@ -222,12 +222,11 @@ If compiling without one of the above, use `configure` with the ### Previous versions of this document Supported platforms and toolchains change with each major version of Node.js. -This document is only valid for the current major version of Node.js. -Consult previous versions of this document for older versions of Node.js: +This document is only valid for the current version of Node.js, and is expected +to be valid for the entire lifetime of this release line. -* [Node.js 24](https://github.com/nodejs/node/blob/v24.x/BUILDING.md) -* [Node.js 22](https://github.com/nodejs/node/blob/v22.x/BUILDING.md) -* [Node.js 20](https://github.com/nodejs/node/blob/v20.x/BUILDING.md) +To consult the version of this document for another version, download its source +tarball and/or browse the git repository checked out at the relevant tag. ## Building Node.js on supported platforms @@ -331,11 +330,9 @@ If you are running tests before submitting a pull request, use: make -j4 test ``` -`make -j4 test` does a full check on the codebase, including running linters and -documentation tests. +`make -j4 test` does a full check on the codebase, including documentation tests. -To run the linter without running tests, use -`make lint`/`vcbuild lint`. It will lint JavaScript, C++, and Markdown files. +To run the linter, use `make lint`/`vcbuild lint`. It will lint JavaScript, C++, and Markdown files. To fix auto fixable JavaScript linting errors, use `make lint-js-fix`. diff --git a/CHANGELOG.md b/CHANGELOG.md index ae538a2dbe5bfb..360bfd3fc92b29 100644 --- a/CHANGELOG.md +++ b/CHANGELOG.md @@ -37,7 +37,8 @@ release. -22.23.1
+22.24.0
+22.23.1
22.23.0
22.22.3
22.22.2
diff --git a/CONTRIBUTING.md b/CONTRIBUTING.md index ae787bc6d8e84f..e22f23543e5ccc 100644 --- a/CONTRIBUTING.md +++ b/CONTRIBUTING.md @@ -19,6 +19,7 @@ works. * [Code of Conduct](#code-of-conduct) * [Issues](#issues) * [Pull Requests](#pull-requests) +* [Automation and bots](#automation-and-bots) * [Developer's Certificate of Origin 1.1](#developers-certificate-of-origin-11) ## [Code of Conduct](./doc/contributing/code-of-conduct.md) @@ -45,8 +46,21 @@ dependencies, and tools contained in the `nodejs/node` repository. * [Setting up your local environment](./doc/contributing/pull-requests.md#setting-up-your-local-environment) * [The Process of Making Changes](./doc/contributing/pull-requests.md#the-process-of-making-changes) * [Reviewing Pull Requests](./doc/contributing/pull-requests.md#reviewing-pull-requests) +* [Large Pull Requests](./doc/contributing/large-pull-requests.md) * [Notes](./doc/contributing/pull-requests.md#notes) +## Automation and bots + +An automation tool or bot that is not managed by the Node.js project +must seek explicit authorization by opening an issue with their owner +in [nodejs/admin](https://github.com/nodejs/admin) before interacting +with the project. + +Interactions (including Issues, Comments, Pull Requests and Reviews) made +by an automation that was not authorized by Node.js collaborators are +subject to immediate moderation enforcement on the automation and owner +without notice. + ## Developer's Certificate of Origin 1.1 ```text diff --git a/Makefile b/Makefile index 2e6d957a8ea4d3..0d6c042eb0b66c 100644 --- a/Makefile +++ b/Makefile @@ -339,7 +339,7 @@ coverage-run-js: ## Run JavaScript tests with coverage. .PHONY: test # This does not run tests of third-party libraries inside deps. -test: all ## Run default tests, linters, and build docs. +test: all ## Run default tests and build docs. $(MAKE) -s tooltest $(MAKE) -s test-doc $(MAKE) -s build-addons @@ -350,7 +350,7 @@ test: all ## Run default tests, linters, and build docs. $(MAKE) -s jstest .PHONY: test-only -test-only: all ## Run default tests, without linters or building the docs. +test-only: all ## Run default tests without building the docs. $(MAKE) build-addons $(MAKE) build-js-native-api-tests $(MAKE) build-node-api-tests @@ -1406,7 +1406,7 @@ else LINT_MD_NEWER = -newer tools/.mdlintstamp endif -LINT_MD_TARGETS = doc src lib benchmark test tools/doc tools/icu $(wildcard *.md) +LINT_MD_TARGETS = doc src lib benchmark test tools/doc tools/icu $(filter-out CLAUDE.md AGENTS.md,$(wildcard *.md)) LINT_MD_FILES = $(shell $(FIND) $(LINT_MD_TARGETS) -type f \ ! -path '*node_modules*' ! -path 'test/fixtures/*' -name '*.md' \ $(LINT_MD_NEWER)) diff --git a/README.md b/README.md index f3281edebf852b..14523ea5c04afc 100644 --- a/README.md +++ b/README.md @@ -105,7 +105,7 @@ curl -fsLo "/path/to/nodejs-keyring.kbx" "https://github.com/nodejs/release-keys ``` Alternatively, you can import the releaser keys in your default keyring, see -[Release keys](#release-keys) for commands to how to do that. +[Release keys](#release-keys) for commands on how to do that. Then, you can verify the files you've downloaded locally (if you're using your default keyring, pass `--keyring="${GNUPGHOME:-~/.gnupg}/pubring.kbx"`): @@ -317,8 +317,6 @@ For information about the governance of the Node.js project, see **Daeyeon Jeong** <> (he/him) * [dario-piotrowicz](https://github.com/dario-piotrowicz) - **Dario Piotrowicz** <> (he/him) -* [debadree25](https://github.com/debadree25) - - **Debadree Chatterjee** <> (he/him) * [deokjinkim](https://github.com/deokjinkim) - **Deokjin Kim** <> (he/him) * [edsadr](https://github.com/edsadr) - @@ -365,8 +363,6 @@ For information about the governance of the Node.js project, see **James M Snell** <> (he/him) * [jazelly](https://github.com/jazelly) - **Jason Zhang** <> (he/him) -* [JonasBa](https://github.com/JonasBa) - - **Jonas Badalic** <> (he/him) * [joyeecheung](https://github.com/joyeecheung) - **Joyee Cheung** <> (she/her) * [juanarbol](https://github.com/juanarbol) - @@ -397,8 +393,6 @@ For information about the governance of the Node.js project, see **Matteo Collina** <> (he/him) - [Support me](https://github.com/sponsors/mcollina) * [meixg](https://github.com/meixg) - **Xuguang Mei** <> (he/him) -* [mhdawson](https://github.com/mhdawson) - - **Michael Dawson** <> (he/him) * [MoLow](https://github.com/MoLow) - **Moshe Atlow** <> (he/him) * [MrJithil](https://github.com/MrJithil) - @@ -453,12 +447,8 @@ For information about the governance of the Node.js project, see **Ulises Gascón** <> (he/him) * [vmoroz](https://github.com/vmoroz) - **Vladimir Morozov** <> (he/him) -* [VoltrexKeyva](https://github.com/VoltrexKeyva) - - **Mohammed Keyvanzadeh** <> (he/him) * [watilde](https://github.com/watilde) - **Daijiro Wachi** <> (he/him) -* [zcbenz](https://github.com/zcbenz) - - **Cheng Zhao** <> (he/him) * [ZYSzys](https://github.com/ZYSzys) - **Yongsheng Zhang** <> (he/him) @@ -513,6 +503,8 @@ For information about the governance of the Node.js project, see **David Cai** <> (he/him) * [davisjam](https://github.com/davisjam) - **Jamie Davis** <> (he/him) +* [debadree25](https://github.com/debadree25) - + **Debadree Chatterjee** <> (he/him) * [devnexen](https://github.com/devnexen) - **David Carlier** <> * [devsnek](https://github.com/devsnek) - @@ -577,6 +569,8 @@ For information about the governance of the Node.js project, see **João Reis** <> * [joesepi](https://github.com/joesepi) - **Joe Sepi** <> (he/him) +* [JonasBa](https://github.com/JonasBa) - + **Jonas Badalic** <> (he/him) * [joshgav](https://github.com/joshgav) - **Josh Gavant** <> * [julianduque](https://github.com/julianduque) - @@ -611,6 +605,8 @@ For information about the governance of the Node.js project, see **Matthew Loring** <> * [Mesteery](https://github.com/Mesteery) - **Mestery** <> (he/him) +* [mhdawson](https://github.com/mhdawson) - + **Michael Dawson** <> (he/him) * [micnic](https://github.com/micnic) - **Nicu Micleușanu** <> (he/him) * [mikeal](https://github.com/mikeal) - @@ -717,6 +713,8 @@ For information about the governance of the Node.js project, see **Vladimir de Turckheim** <> (he/him) * [vkurchatkin](https://github.com/vkurchatkin) - **Vladimir Kurchatkin** <> +* [VoltrexKeyva](https://github.com/VoltrexKeyva) - + **Mohammed Keyvanzadeh** <> (he/him) * [vsemozhetbyt](https://github.com/vsemozhetbyt) - **Vse Mozhet Byt** <> (he/him) * [watson](https://github.com/watson) - @@ -733,6 +731,8 @@ For information about the governance of the Node.js project, see **Yorkie Liu** <> * [yosuke-furukawa](https://github.com/yosuke-furukawa) - **Yosuke Furukawa** <> +* [zcbenz](https://github.com/zcbenz) - + **Cheng Zhao** <> (he/him) @@ -745,44 +745,24 @@ maintaining the Node.js project. * [1ilsang](https://github.com/1ilsang) - **Sangchul Lee** <<1ilsang.dev@gmail.com>> (he/him) -* [atlowChemi](https://github.com/atlowChemi) - - **Chemi Atlow** <> (he/him) -* [Ayase-252](https://github.com/Ayase-252) - - **Qingyu Deng** <> * [bjohansebas](https://github.com/bjohansebas) - **Sebastian Beltran** <> * [bmuenzenmeyer](https://github.com/bmuenzenmeyer) - **Brian Muenzenmeyer** <> (he/him) -* [CanadaHonk](https://github.com/CanadaHonk) - - **Oliver Medhurst** <> (they/them) -* [daeyeon](https://github.com/daeyeon) - - **Daeyeon Jeong** <> (he/him) * [efekrskl](https://github.com/efekrskl) - **Efe Karasakal** <> (he/him) * [gireeshpunathil](https://github.com/gireeshpunathil) - **Gireesh Punathil** <> (he/him) -* [gurgunday](https://github.com/gurgunday) - - **Gürgün Dayıoğlu** <> * [haramj](https://github.com/haramj) - **Haram Jeong** <> * [HBSPS](https://github.com/HBSPS) - **Wiyeong Seo** <> * [iam-frankqiu](https://github.com/iam-frankqiu) - **Frank Qiu** <> (he/him) -* [KevinEady](https://github.com/KevinEady) - - **Kevin Eady** <> (he/him) -* [marsonya](https://github.com/marsonya) - - **Akhil Marsonya** <> (he/him) -* [meixg](https://github.com/meixg) - - **Xuguang Mei** <> (he/him) * [milesguicent](https://github.com/milesguicent) - **Miles Guicent** <> (he/him) * [preveen-stack](https://github.com/preveen-stack) - **Preveen Padmanabhan** <> (he/him) -* [RaisinTen](https://github.com/RaisinTen) - - **Darshan Sen** <> (he/him) -* [VoltrexKeyva](https://github.com/VoltrexKeyva) - - **Mohammed Keyvanzadeh** <> (he/him) Triagers follow the [Triage Guide](./doc/contributing/issues.md#triaging-a-bug-report) when responding to new issues. @@ -805,6 +785,8 @@ Primary GPG keys for Node.js Releasers (some Releasers sign with subkeys): `C82FA3AE1CBEDC6BE46B9360C43CEC45C17AB93C` * **Ruy Adorno** <> `108F52B48DB57BB0CC439B2997B01419BD92F80A` +* **Stewart X Addison** <> + `655F3B5C1FB3FA8D1A0CA6BDE4A7D232B936D2FD` * **Ulises Gascón** <> `A363A499291CBBC940DD62E41F10027AF002F8B0` @@ -822,6 +804,7 @@ gpg --keyserver hkps://keys.openpgp.org --recv-keys 8FCCA13FEF1D0C2E91008E09770F gpg --keyserver hkps://keys.openpgp.org --recv-keys 890C08DB8579162FEE0DF9DB8BEAB4DFCF555EF4 # Rafael Gonzaga gpg --keyserver hkps://keys.openpgp.org --recv-keys C82FA3AE1CBEDC6BE46B9360C43CEC45C17AB93C # Richard Lau gpg --keyserver hkps://keys.openpgp.org --recv-keys 108F52B48DB57BB0CC439B2997B01419BD92F80A # Ruy Adorno +gpg --keyserver hkps://keys.openpgp.org --recv-keys 655F3B5C1FB3FA8D1A0CA6BDE4A7D232B936D2FD # Stewart X Addison gpg --keyserver hkps://keys.openpgp.org --recv-keys A363A499291CBBC940DD62E41F10027AF002F8B0 # Ulises Gascón ``` diff --git a/SECURITY.md b/SECURITY.md index 34d8633cf1f27d..022edce4f88a88 100644 --- a/SECURITY.md +++ b/SECURITY.md @@ -24,9 +24,7 @@ response or engagement within 14 days, escalation is also appropriate. ### Node.js bug bounty program -The Node.js project engages in an official bug bounty program for security -researchers and responsible public disclosures. The program is managed through -the HackerOne platform. See for further details. +The Node.js project no longer has a bug bounty program. ## Reporting a bug in a third-party module @@ -87,6 +85,7 @@ When reporting security vulnerabilities, reporters must adhere to the following 4. **Report Quality** * Provide clear, detailed steps to reproduce the vulnerability. + * Include reproducible code written in JavaScript. * Include only the minimum proof of concept required to demonstrate the issue. * Remove any malicious payloads or components that could cause harm. @@ -152,28 +151,33 @@ does not trust is considered a vulnerability: the correct use of Node.js APIs. * The unavailability of the runtime, including the unbounded degradation of its performance. -* Memory leaks qualify as vulnerabilities when all of the following criteria are met: - * The API is being correctly used. - * The API doesn't have a warning against its usage in a production environment. - * The API is public and documented. - * The API is on stable (2.0) status. - * The memory leak is significant enough to cause a denial of service quickly - or in a context not controlled by the user (for example, HTTP parsing). - * The memory leak is directly exploitable by an untrusted source without requiring application mistakes. - * The leak cannot be reasonably mitigated through standard operational practices (like process recycling). - * The leak occurs deterministically under normal usage patterns rather than edge cases. - * The leak occurs at a rate that would cause practical resource exhaustion within a practical timeframe under - typical workloads. - * The attack demonstrates [asymmetric resource consumption](https://cwe.mitre.org/data/definitions/405.html), - where the attacker expends significantly fewer resources than what's required by the server to process the - attack. Attacks requiring comparable resources on the attacker's side (which can be mitigated through common - practices like rate limiting) may not qualify. If Node.js loads configuration files or runs code by default (without a specific request from the user), and this is not documented, it is considered a vulnerability. Vulnerabilities related to this case may be fixed by a documentation update. +#### Denial of Service (DoS) vulnerabilities + +For a behavior to be considered a DoS vulnerability, the PoC must meet the following criteria: + +* The API is being correctly used. +* The API doesn't have a warning against its usage in a production environment. +* The API is public and documented. If the API comes from JavaScript, the behavior must be + well-defined in the [ECMAScript specification](https://tc39.es/ecma262/). +* The API has stable (2.0) status. +* The behavior is significant enough to cause a denial of service quickly + or in a context not controlled by the Node.js application developer (for example, HTTP parsing). +* The behavior is directly exploitable by an untrusted source without requiring application mistakes. +* The behavior cannot be reasonably mitigated through standard operational practices (like process recycling). +* The behavior occurs deterministically under normal usage patterns rather than edge cases. +* The behavior occurs at a rate that would cause practical resource exhaustion within a practical timeframe under + typical workloads. +* The attack demonstrates [asymmetric resource consumption](https://cwe.mitre.org/data/definitions/405.html), + where the attacker expends significantly fewer resources than what's required by the server to process the + attack. Attacks requiring comparable resources on the attacker's side (which can be mitigated through common + practices like rate limiting) may not qualify. + **Node.js does NOT trust**: * Data received from the remote end of inbound network connections @@ -320,9 +324,17 @@ the community they pose. * Avoid exposing low-level or dangerous APIs directly to untrusted users. * Examples of scenarios that are **not** Node.js vulnerabilities: - * Allowing untrusted users to register SQLite user-defined functions that can - perform arbitrary operations (e.g., closing database connections during query - execution, causing crashes or use-after-free conditions). + * Allowing untrusted users to register SQLite user-defined functions via + `node:sqlite` (`DatabaseSync`) that can perform arbitrary operations + (e.g., closing database connections during query execution, causing crashes + or use-after-free conditions). + * Loading SQLite extensions using the `allowExtension` option in + `DatabaseSync` — this option must be explicitly set to `true` by the + application, and enabling it is the application operator's responsibility. + * Using `node:sqlite` built-in SQL functions or pragmas (e.g., + `ATTACH DATABASE`) to read or write files — `DatabaseSync` operates with + the same file-system access as the process itself, and it is the + application's responsibility to restrict what SQL is executed. * Exposing `child_process.exec()` or similar APIs to untrusted users without proper input validation, allowing command injection. * Allowing untrusted users to control file paths passed to file system APIs @@ -335,6 +347,83 @@ the community they pose. proper security boundaries between trusted application logic and untrusted user input. +#### Build System Attacks Requiring Control of the Build Environment (CWE-78, CWE-114, CWE-276) + +* The Node.js build system (e.g., `configure`, `configure.py`, `Makefile`, + `vcbuild.bat`) is designed to run in a trusted build environment. + The build environment, including environment variables, the file system, + and locally installed tools, is a trusted element in the Node.js threat model. +* Reports about command injection via environment variables in build scripts + (e.g., `CC`, `CXX`, `PKG_CONFIG`, `RUSTC`), path hijacking in build output + directories, or file permissions of build artifacts are **not** considered + vulnerabilities. These scenarios require the attacker to already have control + over the build environment, which means the system is already compromised. +* Build scripts are not a security boundary. They are expected to execute + tools and scripts specified by the environment, and to trust the + file system they operate on. + +#### Unhandled 'error' Events on EventEmitters (CWE-248) + +* EventEmitters that can emit `'error'` events require the application to + attach an `'error'` event handler. This includes HTTP streams and other + Node.js core streams. If the application fails to attach an `'error'` + handler, the EventEmitter will throw an uncaught exception, which may + crash the process. +* Crashes resulting from missing `'error'` handlers are not considered + denial-of-service vulnerabilities in Node.js. It is the application's + responsibility to properly handle errors by attaching appropriate + `'error'` event listeners to EventEmitters that may emit errors. + +#### Permission Model Boundaries (`--permission`) + +The Node.js [Permission Model](https://nodejs.org/api/permissions.html) +(`--permission`) is an opt-in mechanism that limits which +resources a Node.js process may access. It is designed to reduce the blast +radius of mistakes in trusted application code, **not** to act as a security +boundary against intentional misuse or a compromised process. + +The following are **not** vulnerabilities in Node.js: + +* **Operator-controlled flags**: Behavior unlocked by flags the operator + explicitly passes (e.g., `--localstorage-file`) is the operator's + responsibility. The permission model does not restrict how Node.js behaves + when the operator intentionally configures it. + +* **`node:sqlite` and the permission model**: `DatabaseSync` operates with the + same file-system privileges as the process. Using SQL pragmas or built-in + SQLite mechanisms (e.g., `ATTACH DATABASE`) to access files does not bypass + the permission model — the permission model does not intercept SQL-level + file operations. + +* **Path resolution and symlinks**: `fs.realpathSync()`, `fs.realpath()`, and + similar functions resolve a path to its canonical form before the permission + check is applied. Accessing a file through a symlink that resolves to an + allowed path is the intended behavior, not a bypass. TOCTOU races on + symlinks that resolve within the allowed list are similarly not considered + permission model bypasses. + +* **`worker_threads` with modified `execArgv`**: Workers inherit the permission + restrictions of their parent process. Passing an empty or modified `execArgv` + to a worker does not grant it additional permissions. + +#### V8 Sandbox + +The V8 sandbox is an in-process isolation mechanism internal to V8 that is not +a Node.js security boundary. Node.js does not guarantee or document the V8 +sandbox as a security feature, and it is not enabled in a way that provides +security guarantees in production Node.js builds. Reports about escaping the V8 +sandbox are not considered Node.js vulnerabilities; they should be reported +directly to the [V8 project](https://v8.dev/docs/security-bugs). + +#### CRLF Injection in `writeEarlyHints()` + +`ServerResponse.writeEarlyHints()` accepts a `link` header value that is set +by the application. Passing arbitrary strings, including CRLF sequences, as +the `link` value is an application-level misuse of the API, not a Node.js +vulnerability. Node.js validates the structure of Early Hints per the HTTP spec +but does not sanitize free-form application data passed to it; that is the +application's responsibility. + ## Assessing experimental features reports Experimental features are eligible for security reports just like any other diff --git a/benchmark/buffers/buffer-transcode.js b/benchmark/buffers/buffer-transcode.js index cbb3b2e9b16374..4f985ac408459b 100644 --- a/benchmark/buffers/buffer-transcode.js +++ b/benchmark/buffers/buffer-transcode.js @@ -8,7 +8,7 @@ const encodings = ['latin1', 'ascii', 'ucs2', 'utf8']; if (!hasIntl) { console.log('Skipping: `transcode` is only available on platforms that support i18n`'); - process.exit(0); + return; } const bench = common.createBenchmark(main, { diff --git a/benchmark/crypto/hash-stream-creation.js b/benchmark/crypto/hash-stream-creation.js index 5143be03263d74..0adb7d87f93959 100644 --- a/benchmark/crypto/hash-stream-creation.js +++ b/benchmark/crypto/hash-stream-creation.js @@ -5,7 +5,7 @@ const common = require('../common.js'); const crypto = require('crypto'); const bench = common.createBenchmark(main, { - writes: [500], + n: [500], algo: [ 'sha256', 'md5' ], type: ['asc', 'utf', 'buf'], out: ['hex', 'binary', 'buffer'], @@ -13,7 +13,7 @@ const bench = common.createBenchmark(main, { api: ['legacy', 'stream'], }); -function main({ api, type, len, out, writes, algo }) { +function main({ api, type, len, out, n, algo }) { if (api === 'stream' && /^v0\.[0-8]\./.test(process.version)) { console.error('Crypto streams not available until v0.10'); // Use the legacy, just so that we can compare them. @@ -41,15 +41,15 @@ function main({ api, type, len, out, writes, algo }) { const fn = api === 'stream' ? streamWrite : legacyWrite; bench.start(); - fn(algo, message, encoding, writes, len, out); + fn(algo, message, encoding, n, len, out); } -function legacyWrite(algo, message, encoding, writes, len, outEnc) { - const written = writes * len; +function legacyWrite(algo, message, encoding, n, len, outEnc) { + const written = n * len; const bits = written * 8; const gbits = bits / (1024 * 1024 * 1024); - while (writes-- > 0) { + while (n-- > 0) { const h = crypto.createHash(algo); h.update(message, encoding); h.digest(outEnc); @@ -58,12 +58,12 @@ function legacyWrite(algo, message, encoding, writes, len, outEnc) { bench.end(gbits); } -function streamWrite(algo, message, encoding, writes, len, outEnc) { - const written = writes * len; +function streamWrite(algo, message, encoding, n, len, outEnc) { + const written = n * len; const bits = written * 8; const gbits = bits / (1024 * 1024 * 1024); - while (writes-- > 0) { + while (n-- > 0) { const h = crypto.createHash(algo); if (outEnc !== 'buffer') diff --git a/benchmark/crypto/hash-stream-throughput.js b/benchmark/crypto/hash-stream-throughput.js index db10c439e0e446..4a5dbbd440ba16 100644 --- a/benchmark/crypto/hash-stream-throughput.js +++ b/benchmark/crypto/hash-stream-throughput.js @@ -5,14 +5,14 @@ const common = require('../common.js'); const crypto = require('crypto'); const bench = common.createBenchmark(main, { - writes: [500], + n: [500], algo: ['sha1', 'sha256', 'sha512'], type: ['asc', 'utf', 'buf'], len: [2, 1024, 102400, 1024 * 1024], api: ['legacy', 'stream'], }); -function main({ api, type, len, algo, writes }) { +function main({ api, type, len, algo, n }) { if (api === 'stream' && /^v0\.[0-8]\./.test(process.version)) { console.error('Crypto streams not available until v0.10'); // Use the legacy, just so that we can compare them. @@ -40,16 +40,16 @@ function main({ api, type, len, algo, writes }) { const fn = api === 'stream' ? streamWrite : legacyWrite; bench.start(); - fn(algo, message, encoding, writes, len); + fn(algo, message, encoding, n, len); } -function legacyWrite(algo, message, encoding, writes, len) { - const written = writes * len; +function legacyWrite(algo, message, encoding, n, len) { + const written = n * len; const bits = written * 8; const gbits = bits / (1024 * 1024 * 1024); const h = crypto.createHash(algo); - while (writes-- > 0) + while (n-- > 0) h.update(message, encoding); h.digest(); @@ -57,13 +57,13 @@ function legacyWrite(algo, message, encoding, writes, len) { bench.end(gbits); } -function streamWrite(algo, message, encoding, writes, len) { - const written = writes * len; +function streamWrite(algo, message, encoding, n, len) { + const written = n * len; const bits = written * 8; const gbits = bits / (1024 * 1024 * 1024); const h = crypto.createHash(algo); - while (writes-- > 0) + while (n-- > 0) h.write(message, encoding); h.end(); diff --git a/benchmark/crypto/rsa-sign-verify-throughput.js b/benchmark/crypto/rsa-sign-verify-throughput.js index ceaa2942780a8e..8cdd1378b359dc 100644 --- a/benchmark/crypto/rsa-sign-verify-throughput.js +++ b/benchmark/crypto/rsa-sign-verify-throughput.js @@ -17,20 +17,20 @@ keylen_list.forEach((key) => { }); const bench = common.createBenchmark(main, { - writes: [500], + n: [500], algo: ['SHA1', 'SHA224', 'SHA256', 'SHA384', 'SHA512'], keylen: keylen_list, len: [1024, 102400, 2 * 102400, 3 * 102400, 1024 * 1024], }); -function main({ len, algo, keylen, writes }) { +function main({ len, algo, keylen, n }) { const message = Buffer.alloc(len, 'b'); bench.start(); - StreamWrite(algo, keylen, message, writes, len); + StreamWrite(algo, keylen, message, n, len); } -function StreamWrite(algo, keylen, message, writes, len) { - const written = writes * len; +function StreamWrite(algo, keylen, message, n, len) { + const written = n * len; const bits = written * 8; const kbits = bits / (1024); @@ -38,7 +38,7 @@ function StreamWrite(algo, keylen, message, writes, len) { const s = crypto.createSign(algo); const v = crypto.createVerify(algo); - while (writes-- > 0) { + while (n-- > 0) { s.update(message); v.update(message); } diff --git a/benchmark/dgram/single-buffer.js b/benchmark/dgram/single-buffer.js index bab8cee1594f24..9ac41d15da8d20 100644 --- a/benchmark/dgram/single-buffer.js +++ b/benchmark/dgram/single-buffer.js @@ -5,7 +5,7 @@ const common = require('../common.js'); const dgram = require('dgram'); const PORT = common.PORT; -// `num` is the number of send requests to queue up each time. +// `n` is the number of send requests to queue up each time. // Keep it reasonably high (>10) otherwise you're benchmarking the speed of // event loop cycles more than anything else. const bench = common.createBenchmark(main, { @@ -15,7 +15,7 @@ const bench = common.createBenchmark(main, { dur: [5], }); -function main({ dur, len, num: n, type }) { +function main({ dur, len, n, type }) { const chunk = Buffer.allocUnsafe(len); let sent = 0; let received = 0; diff --git a/test/fixtures/wpt/FileAPI/BlobURL/support/file_test2.txt b/benchmark/fixtures/empty.mjs similarity index 100% rename from test/fixtures/wpt/FileAPI/BlobURL/support/file_test2.txt rename to benchmark/fixtures/empty.mjs diff --git a/benchmark/fixtures/import-builtins.mjs b/benchmark/fixtures/import-builtins.mjs new file mode 100644 index 00000000000000..03feaa4887c362 --- /dev/null +++ b/benchmark/fixtures/import-builtins.mjs @@ -0,0 +1,34 @@ +import 'node:async_hooks'; +import 'node:assert'; +import 'node:buffer'; +import 'node:child_process'; +import 'node:console'; +import 'node:constants'; +import 'node:crypto'; +import 'node:cluster'; +import 'node:dgram'; +import 'node:dns'; +import 'node:domain'; +import 'node:events'; +import 'node:fs'; +import 'node:http'; +import 'node:http2'; +import 'node:https'; +import 'node:module'; +import 'node:net'; +import 'node:os'; +import 'node:path'; +import 'node:perf_hooks'; +import 'node:process'; +import 'node:querystring'; +import 'node:readline'; +import 'node:repl'; +import 'node:stream'; +import 'node:string_decoder'; +import 'node:timers'; +import 'node:tls'; +import 'node:tty'; +import 'node:url'; +import 'node:util'; +import 'node:vm'; +import 'node:zlib'; diff --git a/benchmark/http/bench-parser-fragmented.js b/benchmark/http/bench-parser-fragmented.js new file mode 100644 index 00000000000000..6dd8f332a7ffad --- /dev/null +++ b/benchmark/http/bench-parser-fragmented.js @@ -0,0 +1,67 @@ +'use strict'; + +const common = require('../common'); + +const bench = common.createBenchmark(main, { + len: [8, 16], + frags: [2, 4, 8], + n: [1e5], +}, { + flags: ['--expose-internals', '--no-warnings'], +}); + +function main({ len, frags, n }) { + const { HTTPParser } = common.binding('http_parser'); + const REQUEST = HTTPParser.REQUEST; + const kOnHeaders = HTTPParser.kOnHeaders | 0; + const kOnHeadersComplete = HTTPParser.kOnHeadersComplete | 0; + const kOnBody = HTTPParser.kOnBody | 0; + const kOnMessageComplete = HTTPParser.kOnMessageComplete | 0; + + function processHeaderFragmented(fragments, n) { + const parser = newParser(REQUEST); + + bench.start(); + for (let i = 0; i < n; i++) { + // Send header in fragments + for (const frag of fragments) { + parser.execute(frag, 0, frag.length); + } + parser.initialize(REQUEST, {}); + } + bench.end(n); + } + + function newParser(type) { + const parser = new HTTPParser(); + parser.initialize(type, {}); + + parser.headers = []; + + parser[kOnHeaders] = function() { }; + parser[kOnHeadersComplete] = function() { }; + parser[kOnBody] = function() { }; + parser[kOnMessageComplete] = function() { }; + + return parser; + } + + // Build the header + let header = `GET /hello HTTP/1.1\r\nContent-Type: text/plain\r\n`; + + for (let i = 0; i < len; i++) { + header += `X-Filler${i}: ${Math.random().toString(36).substring(2)}\r\n`; + } + header += '\r\n'; + + // Split header into fragments + const headerBuf = Buffer.from(header); + const fragSize = Math.ceil(headerBuf.length / frags); + const fragments = []; + + for (let i = 0; i < headerBuf.length; i += fragSize) { + fragments.push(headerBuf.slice(i, Math.min(i + fragSize, headerBuf.length))); + } + + processHeaderFragmented(fragments, n); +} diff --git a/benchmark/misc/startup-core.js b/benchmark/misc/startup-core.js index 053a1ec0cbff8f..414b00176ad2c2 100644 --- a/benchmark/misc/startup-core.js +++ b/benchmark/misc/startup-core.js @@ -7,9 +7,11 @@ let Worker; // Lazy loaded in main const bench = common.createBenchmark(main, { script: [ - 'benchmark/fixtures/require-builtins', - 'test/fixtures/semicolon', - 'test/fixtures/snapshot/typescript', + 'benchmark/fixtures/empty.mjs', + 'benchmark/fixtures/import-builtins.mjs', + 'benchmark/fixtures/require-builtins.js', + 'test/fixtures/semicolon.js', + 'test/fixtures/snapshot/typescript.js', ], mode: ['process', 'worker'], n: [30], @@ -58,7 +60,7 @@ function spawnWorker(script, bench, state) { } function main({ n, script, mode }) { - script = path.resolve(__dirname, '../../', `${script}.js`); + script = path.resolve(__dirname, '../../', `${script}`); const warmup = 3; const state = { n, finished: -warmup }; if (mode === 'worker') { diff --git a/benchmark/napi/create_object_with_properties/.gitignore b/benchmark/napi/create_object_with_properties/.gitignore new file mode 100644 index 00000000000000..567609b1234a9b --- /dev/null +++ b/benchmark/napi/create_object_with_properties/.gitignore @@ -0,0 +1 @@ +build/ diff --git a/benchmark/napi/create_object_with_properties/binding.cc b/benchmark/napi/create_object_with_properties/binding.cc new file mode 100644 index 00000000000000..d7fae01d1659f9 --- /dev/null +++ b/benchmark/napi/create_object_with_properties/binding.cc @@ -0,0 +1,116 @@ +#include +#include +#include + +struct BenchmarkParams { + napi_value count_val; + napi_value bench_obj; + napi_value start_fn; + napi_value end_fn; + uint32_t count; +}; + +static BenchmarkParams ParseBenchmarkArgs(napi_env env, + const napi_callback_info info) { + BenchmarkParams params; + size_t argc = 4; + napi_value args[4]; + napi_get_cb_info(env, info, &argc, args, nullptr, nullptr); + + params.count_val = args[0]; + params.bench_obj = args[1]; + params.start_fn = args[2]; + params.end_fn = args[3]; + + napi_get_value_uint32(env, params.count_val, ¶ms.count); + return params; +} + +static napi_value global_names[20]; +static napi_value global_values[20]; +static bool global_properties_initialized = false; + +// Creating with many options because complains are when ~20 properties +static void InitializeTestProperties(napi_env env) { + if (global_properties_initialized) return; + + for (int i = 0; i < 20; i++) { + std::string name = "foo" + std::to_string(i); + napi_create_string_utf8( + env, name.c_str(), NAPI_AUTO_LENGTH, &global_names[i]); + napi_create_string_utf8( + env, name.c_str(), NAPI_AUTO_LENGTH, &global_values[i]); + } + global_properties_initialized = true; +} + +static napi_value CreateObjectWithPropertiesNew(napi_env env, + napi_callback_info info) { + BenchmarkParams params = ParseBenchmarkArgs(env, info); + + InitializeTestProperties(env); + + napi_value null_prototype; + napi_get_null(env, &null_prototype); + + napi_call_function( + env, params.bench_obj, params.start_fn, 0, nullptr, nullptr); + + for (uint32_t i = 0; i < params.count; i++) { + napi_value obj; + napi_create_object_with_properties( + env, null_prototype, global_names, global_values, 20, &obj); + } + + napi_call_function( + env, params.bench_obj, params.end_fn, 1, ¶ms.count_val, nullptr); + + return nullptr; +} + +static napi_value CreateObjectWithPropertiesOld(napi_env env, + napi_callback_info info) { + BenchmarkParams params = ParseBenchmarkArgs(env, info); + + InitializeTestProperties(env); + + napi_call_function( + env, params.bench_obj, params.start_fn, 0, nullptr, nullptr); + + for (uint32_t i = 0; i < params.count; i++) { + napi_value obj; + napi_create_object(env, &obj); + for (int j = 0; j < 20; j++) { + napi_set_property(env, obj, global_names[j], global_values[j]); + } + } + + napi_call_function( + env, params.bench_obj, params.end_fn, 1, ¶ms.count_val, nullptr); + + return nullptr; +} + +NAPI_MODULE_INIT() { + napi_property_descriptor desc[] = { + {"createObjectWithPropertiesNew", + 0, + CreateObjectWithPropertiesNew, + 0, + 0, + 0, + napi_default, + 0}, + {"createObjectWithPropertiesOld", + 0, + CreateObjectWithPropertiesOld, + 0, + 0, + 0, + napi_default, + 0}, + }; + + napi_define_properties(env, exports, sizeof(desc) / sizeof(desc[0]), desc); + return exports; +} diff --git a/benchmark/napi/create_object_with_properties/binding.gyp b/benchmark/napi/create_object_with_properties/binding.gyp new file mode 100644 index 00000000000000..125b7d4cbf91cf --- /dev/null +++ b/benchmark/napi/create_object_with_properties/binding.gyp @@ -0,0 +1,9 @@ +{ + 'targets': [ + { + 'target_name': 'binding', + 'sources': [ 'binding.cc' ], + 'defines': ['NAPI_EXPERIMENTAL'] + } + ] +} diff --git a/benchmark/napi/create_object_with_properties/index.js b/benchmark/napi/create_object_with_properties/index.js new file mode 100644 index 00000000000000..b099697dd0188f --- /dev/null +++ b/benchmark/napi/create_object_with_properties/index.js @@ -0,0 +1,24 @@ +'use strict'; + +const common = require('../../common.js'); + +let binding; +try { + binding = require(`./build/${common.buildType}/binding`); +} catch { + console.error(`${__filename}: Binding failed to load`); + process.exit(0); +} + +const bench = common.createBenchmark(main, { + n: [1e2, 1e3, 1e4, 1e5, 1e6], + method: ['new', 'old'], +}); + +function main({ n, method }) { + if (method === 'new') { + binding.createObjectWithPropertiesNew(n, bench, bench.start, bench.end); + } else { + binding.createObjectWithPropertiesOld(n, bench, bench.start, bench.end); + } +} diff --git a/benchmark/process/handled-rejections.js b/benchmark/process/handled-rejections.js new file mode 100644 index 00000000000000..ff816549c7ef7b --- /dev/null +++ b/benchmark/process/handled-rejections.js @@ -0,0 +1,43 @@ +'use strict'; + +const common = require('../common.js'); + +// Benchmarks the throughput of processing many promise rejections that are +// initially unhandled, get warned, and then handled asynchronously, exercising +// asyncHandledRejections + processPromiseRejections. +// +// Note: This benchmark uses --unhandled-rejections=warn to avoid crashing +// when promises are temporarily unhandled. + +const bench = common.createBenchmark(main, { + n: [1e4, 5e4, 1e5], +}, { + flags: ['--unhandled-rejections=warn'], +}); + +function main({ n }) { + const rejections = []; + + // Suppress warning output during the benchmark + process.removeAllListeners('warning'); + + for (let i = 0; i < n; i++) { + rejections.push(Promise.reject(i)); + } + + // Wait for them to be processed as unhandled and warned. + setImmediate(() => { + setImmediate(() => { + bench.start(); + + for (let i = 0; i < n; i++) { + rejections[i].catch(() => {}); + } + + // Let processPromiseRejections drain asyncHandledRejections. + setImmediate(() => { + bench.end(n); + }); + }); + }); +} diff --git a/benchmark/streams/compose.js b/benchmark/streams/compose.js index b98596ffbd1411..283ad8b7e30b32 100644 --- a/benchmark/streams/compose.js +++ b/benchmark/streams/compose.js @@ -9,16 +9,35 @@ const { } = require('node:stream'); const bench = common.createBenchmark(main, { - n: [1e3], + type: ['creation', 'throughput'], + n: [1, 1e3], + streams: [100], + chunks: [1e4], +}, { + combinationFilter({ type, n }) { + return type === 'creation' ? n === 1e3 : n === 1; + }, + test: { + n: [1, 1e3], + type: ['creation', 'throughput'], + }, }); -function main({ n }) { +function main({ type, n, streams, chunks }) { + switch (type) { + case 'creation': + return benchCreation(n, streams); + case 'throughput': + return benchThroughput(n, streams, chunks); + } +} + +function benchCreation(n, numberOfPassThroughs) { const cachedPassThroughs = []; const cachedReadables = []; const cachedWritables = []; for (let i = 0; i < n; i++) { - const numberOfPassThroughs = 100; const passThroughs = []; for (let i = 0; i < numberOfPassThroughs; i++) { @@ -40,3 +59,41 @@ function main({ n }) { } bench.end(n); } + +function benchThroughput(n, numberOfPassThroughs, chunks) { + const chunk = Buffer.alloc(1024); + + let i = 0; + bench.start(); + + function run() { + if (i++ === n) { + bench.end(n * chunks); + return; + } + + const passThroughs = []; + for (let i = 0; i < numberOfPassThroughs; i++) { + passThroughs.push(new PassThrough()); + } + + let remaining = chunks; + const composed = compose(...passThroughs); + composed.on('data', () => {}); + composed.on('end', run); + + write(); + + function write() { + while (remaining-- > 0) { + if (!composed.write(chunk)) { + composed.once('drain', write); + return; + } + } + composed.end(); + } + } + + run(); +} diff --git a/benchmark/url/url-searchparams-mutation.js b/benchmark/url/url-searchparams-mutation.js new file mode 100644 index 00000000000000..cb01793037437e --- /dev/null +++ b/benchmark/url/url-searchparams-mutation.js @@ -0,0 +1,43 @@ +'use strict'; +const common = require('../common.js'); + +const bench = common.createBenchmark(main, { + method: ['set', 'delete'], + type: ['unique', 'duplicates'], + count: [10, 1000], + n: [1e4], +}); + +function buildSeed(type, count) { + const parts = new Array(count); + + if (type === 'duplicates') { + for (let i = 0; i < count; i++) { + parts[i] = `dup=${i}`; + } + } else { + for (let i = 0; i < count; i++) { + parts[i] = `k${i}=${i}`; + } + } + + return new URLSearchParams(parts.join('&')); +} + +function main({ method, type, count, n }) { + const seed = buildSeed(type, count); + const key = type === 'duplicates' ? 'dup' : 'k0'; + const mutate = method === 'set' ? + (params) => params.set(key, 'updated') : + (params) => params.delete(key); + + for (let i = 0; i < 1e3; i++) { + mutate(new URLSearchParams(seed)); + } + + bench.start(); + for (let i = 0; i < n; i++) { + mutate(new URLSearchParams(seed)); + } + bench.end(n); +} diff --git a/benchmark/util/strip-vt-control-characters.js b/benchmark/util/strip-vt-control-characters.js new file mode 100644 index 00000000000000..a83b03bb2bb26d --- /dev/null +++ b/benchmark/util/strip-vt-control-characters.js @@ -0,0 +1,36 @@ +'use strict'; + +const common = require('../common.js'); + +const { stripVTControlCharacters } = require('node:util'); +const assert = require('node:assert'); + +const bench = common.createBenchmark(main, { + input: ['noAnsi-short', 'noAnsi-long', 'ansi-short', 'ansi-long'], + n: [1e6], +}); + +function main({ input, n }) { + let str; + switch (input) { + case 'noAnsi-short': + str = 'This is a plain text string without any ANSI codes'; + break; + case 'noAnsi-long': + str = 'Long plain text without ANSI. '.repeat(333); + break; + case 'ansi-short': + str = '\u001B[31mHello\u001B[39m'; + break; + case 'ansi-long': + str = ('\u001B[31m' + 'colored text '.repeat(10) + '\u001B[39m').repeat(10); + break; + } + + bench.start(); + for (let i = 0; i < n; i++) { + const result = stripVTControlCharacters(str); + assert.ok(typeof result === 'string'); + } + bench.end(n); +} diff --git a/benchmark/util/text-decoder-stream.js b/benchmark/util/text-decoder-stream.js new file mode 100644 index 00000000000000..16293b5b1375de --- /dev/null +++ b/benchmark/util/text-decoder-stream.js @@ -0,0 +1,55 @@ +'use strict'; + +const common = require('../common.js'); + +const bench = common.createBenchmark(main, { + encoding: ['utf-8', 'utf-16le'], + ignoreBOM: [0, 1], + fatal: [0, 1], + unicode: [0, 1], + len: [256, 1024 * 16, 1024 * 128], + chunks: [10], + n: [1e3], + type: ['SharedArrayBuffer', 'ArrayBuffer', 'Buffer'], +}); + +const UNICODE_ALPHA = 'Blåbærsyltetøy'; +const ASCII_ALPHA = 'Blueberry jam'; + +function main({ encoding, len, unicode, chunks, n, ignoreBOM, type, fatal }) { + const decoder = new TextDecoder(encoding, { ignoreBOM, fatal }); + let buf; + + const fill = Buffer.from(unicode ? UNICODE_ALPHA : ASCII_ALPHA, encoding); + + switch (type) { + case 'SharedArrayBuffer': { + buf = new SharedArrayBuffer(len); + Buffer.from(buf).fill(fill); + break; + } + case 'ArrayBuffer': { + buf = new ArrayBuffer(len); + Buffer.from(buf).fill(fill); + break; + } + case 'Buffer': { + buf = Buffer.alloc(len, fill); + break; + } + } + + const chunk = Math.ceil(len / chunks); + const max = len - chunk; + bench.start(); + for (let i = 0; i < n; i++) { + let pos = 0; + while (pos < max) { + decoder.decode(buf.slice(pos, pos + chunk), { stream: true }); + pos += chunk; + } + + decoder.decode(buf.slice(pos)); + } + bench.end(n); +} diff --git a/benchmark/util/type-check.js b/benchmark/util/type-check.js index 269c2a4e9c1374..0815dd70061c14 100644 --- a/benchmark/util/type-check.js +++ b/benchmark/util/type-check.js @@ -23,6 +23,11 @@ const args = { 'false-primitive': true, 'false-object': int32Array, }, + DataView: { + 'true': dataView, + 'false-primitive': true, + 'false-object': uint8Array, + }, }; const bench = common.createBenchmark(main, { diff --git a/benchmark/v8/startup-snapshot-callbacks.js b/benchmark/v8/startup-snapshot-callbacks.js new file mode 100644 index 00000000000000..7ff245e29758df --- /dev/null +++ b/benchmark/v8/startup-snapshot-callbacks.js @@ -0,0 +1,58 @@ +'use strict'; + +// Benchmarks startup time when deserialize callbacks are registered in a +// startup snapshot, measuring real binary execution with --snapshot-blob. + +const common = require('../common.js'); +const { spawnSync } = require('child_process'); +const { mkdtempSync, writeFileSync, rmSync } = require('fs'); +const { tmpdir } = require('os'); +const path = require('path'); + +const bench = common.createBenchmark(main, { + count: [10, 100, 1000, 10000], + n: [30], +}); + +function buildSnapshot(snapshotBlob, fixtureScript, count) { + writeFileSync(fixtureScript, ` +'use strict'; +const v8 = require('node:v8'); +for (let i = 0; i < ${count}; i++) { + v8.startupSnapshot.addDeserializeCallback(() => {}); +} +v8.startupSnapshot.setDeserializeMainFunction(() => {}); +`); + const result = spawnSync(process.execPath, [ + '--snapshot-blob', snapshotBlob, + '--build-snapshot', fixtureScript, + ]); + if (result.status !== 0) { + throw new Error(`Failed to build snapshot:\n${result.stderr}`); + } +} + +function main({ n, count }) { + const dir = mkdtempSync(path.join(tmpdir(), 'node-bench-snapshot-')); + const snapshotBlob = path.join(dir, 'snapshot.blob'); + const fixtureScript = path.join(dir, 'build.js'); + + try { + buildSnapshot(snapshotBlob, fixtureScript, count); + + const warmup = 3; + let finished = -warmup; + + while (finished < n) { + const child = spawnSync(process.execPath, ['--snapshot-blob', snapshotBlob]); + if (child.status !== 0) { + throw new Error(`Snapshot run failed:\n${child.stderr}`); + } + finished++; + if (finished === 0) bench.start(); + if (finished === n) bench.end(n); + } + } finally { + rmSync(dir, { recursive: true, force: true }); + } +} diff --git a/benchmark/webstreams/readable-read-buffered.js b/benchmark/webstreams/readable-read-buffered.js new file mode 100644 index 00000000000000..653d5577ef1e95 --- /dev/null +++ b/benchmark/webstreams/readable-read-buffered.js @@ -0,0 +1,54 @@ +'use strict'; +const common = require('../common.js'); +const { ReadableStream } = require('node:stream/web'); + +// Benchmark for reading from a pre-buffered ReadableStream. +// This measures the fast path optimization where data is already +// queued in the controller, avoiding DefaultReadRequest allocation. + +const bench = common.createBenchmark(main, { + n: [1e5], + bufferSize: [1, 10, 100, 1000], +}); + +async function main({ n, bufferSize }) { + let enqueued = 0; + + const rs = new ReadableStream({ + start(controller) { + // Pre-fill the buffer + for (let i = 0; i < bufferSize; i++) { + controller.enqueue('a'); + enqueued++; + } + }, + pull(controller) { + // Refill buffer when pulled + const toEnqueue = Math.min(bufferSize, n - enqueued); + for (let i = 0; i < toEnqueue; i++) { + controller.enqueue('a'); + enqueued++; + } + if (enqueued >= n) { + controller.close(); + } + }, + }, { + // Use buffer size as high water mark to allow pre-buffering + highWaterMark: bufferSize, + }); + + const reader = rs.getReader(); + let x = null; + let reads = 0; + + bench.start(); + while (reads < n) { + const { value, done } = await reader.read(); + if (done) break; + x = value; + reads++; + } + bench.end(reads); + console.assert(x); +} diff --git a/common.gypi b/common.gypi index 0ffa5b13719515..c26553a3dfd461 100644 --- a/common.gypi +++ b/common.gypi @@ -38,7 +38,7 @@ # Reset this number to 0 on major V8 upgrades. # Increment by one for each non-official patch applied to deps/v8. - 'v8_embedder_string': '-node.56', + 'v8_embedder_string': '-node.58', ##### V8 defaults for Node.js ##### @@ -192,7 +192,7 @@ ['clang==1', { 'lto': ' -flto ', # Clang }, { - 'lto': ' -flto=4 -fuse-linker-plugin -ffat-lto-objects ', # GCC + 'lto': ' -flto=4 -ffat-lto-objects ', # GCC }], ], }, diff --git a/configure.py b/configure.py index 77c87f5a953971..fca451047dbe29 100755 --- a/configure.py +++ b/configure.py @@ -107,6 +107,12 @@ default=None, help='build the Node.js part of the binary with debugging symbols') +parser.add_argument('--debug-symbols', + action='store_true', + dest='debug_symbols', + default=None, + help='add debugging symbols to release builds (adds -g without enabling DCHECKs)') + parser.add_argument('--dest-cpu', action='store', dest='dest_cpu', @@ -1457,6 +1463,9 @@ def configure_node(o): o['variables']['control_flow_guard'] = b(options.enable_cfg) o['variables']['node_use_amaro'] = b(not options.without_amaro) o['variables']['debug_node'] = b(options.debug_node) + o['variables']['debug_symbols'] = b(options.debug_symbols) + if options.debug_symbols: + o['cflags'] += ['-g'] o['default_configuration'] = 'Debug' if options.debug else 'Release' if options.error_on_warn and options.suppress_all_error_on_warn: raise Exception('--error_on_warn is incompatible with --suppress_all_error_on_warn.') @@ -1699,10 +1708,9 @@ def configure_library(lib, output, pkgname=None): output['libraries'] += [pkg_libpath] default_libs = getattr(options, shared_lib + '_libname') - default_libs = [f'-l{l}' for l in default_libs.split(',')] if default_libs: - output['libraries'] += default_libs + output['libraries'] += [f'-l{l}' for l in default_libs.split(',')] elif pkg_libs: output['libraries'] += pkg_libs.split() @@ -1713,7 +1721,16 @@ def configure_v8(o, configs): o['variables']['v8_enable_webassembly'] = 0 if options.v8_lite_mode else 1 o['variables']['v8_enable_javascript_promise_hooks'] = 1 o['variables']['v8_enable_lite_mode'] = 1 if options.v8_lite_mode else 0 - o['variables']['v8_enable_gdbjit'] = 1 if options.gdb else 0 + is_gdbjit_supported_arch = ( + 'x64' in o['variables']['target_arch'] or + 'ia32' in o['variables']['target_arch'] or + 'ppc64' in o['variables']['target_arch'] + ) + is_linux = flavor == 'linux' + if (options.gdb is not None): + o['variables']['v8_enable_gdbjit'] = 1 if options.gdb else 0 + else: + o['variables']['v8_enable_gdbjit'] = 1 if is_gdbjit_supported_arch and is_linux else 0 o['variables']['v8_optimized_debug'] = 0 if options.v8_non_optimized_debug else 1 o['variables']['dcheck_always_on'] = 1 if options.v8_with_dchecks else 0 o['variables']['v8_enable_object_print'] = 0 if options.v8_disable_object_print else 1 diff --git a/deps/amaro/README.md b/deps/amaro/README.md index 75653766de7a6b..44c44c4dc6ad4a 100644 --- a/deps/amaro/README.md +++ b/deps/amaro/README.md @@ -67,10 +67,6 @@ node --watch ./bootstrap.mjs For transform mode, swap `amaro/strip` with `amaro/transform` and run Node with `--enable-source-maps`. -#### Type stripping in dependencies - -Contrary to the Node.js [TypeScript support](https://nodejs.org/docs/latest/api/typescript.html#type-stripping-in-dependencies), when used as a loader, Amaro handles TypeScript files inside folders under a `node_modules` path. - ### Monorepo usage Amaro makes working in monorepos smoother by removing the need to rebuild internal packages during development. When used with the [`--conditions`](https://nodejs.org/docs/latest/api/cli.html#-c-condition---conditionscondition) flag, you can reference TypeScript source files directly in exports: diff --git a/deps/amaro/dist/index.js b/deps/amaro/dist/index.js index b0f6fd4d108780..8ee217cd4903df 100644 --- a/deps/amaro/dist/index.js +++ b/deps/amaro/dist/index.js @@ -244,7 +244,7 @@ ${val.stack}`; function __wbg_adapter_50(arg0, arg1, arg2) { wasm.__wbindgen_export_4(arg0, arg1, addHeapObject(arg2)); } - function __wbg_adapter_95(arg0, arg1, arg2, arg3) { + function __wbg_adapter_79(arg0, arg1, arg2, arg3) { wasm.__wbindgen_export_5(arg0, arg1, addHeapObject(arg2), addHeapObject(arg3)); } module2.exports.__wbg_buffer_609cc3eee51ed158 = function(arg0) { @@ -342,7 +342,7 @@ ${val.stack}`; const a = state0.a; state0.a = 0; try { - return __wbg_adapter_95(a, state0.b, arg02, arg12); + return __wbg_adapter_79(a, state0.b, arg02, arg12); } finally { state0.a = a; } @@ -456,8 +456,8 @@ ${val.stack}`; const ret = false; return ret; }; - module2.exports.__wbindgen_closure_wrapper5029 = function(arg0, arg1, arg2) { - const ret = makeMutClosure(arg0, arg1, 668, __wbg_adapter_50); + module2.exports.__wbindgen_closure_wrapper5442 = function(arg0, arg1, arg2) { + const ret = makeMutClosure(arg0, arg1, 900, __wbg_adapter_50); return addHeapObject(ret); }; module2.exports.__wbindgen_debug_string = function(arg0, arg1) { @@ -545,7 +545,7 @@ ${val.stack}`; throw new Error(getStringFromWasm0(arg0, arg1)); }; var { Buffer: Buffer2 } = require("node:buffer"); - var bytes = Buffer2.from("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KjPFTP5R0e/OyKoHBgt36NzEspQ1+lJTuorciMOGXesL+e8xO3Du9JEtn6r4b+Fd04Q3hsMmk1bqvH/C0Uvy2KBVSWB3/DwkmW+Xs52S65rAfpe8ledDPc+/fah49659ekce09uyigaf3a6LSZrPCGDc5oDeoyCMS8ESMiwNesqJEBw5CkPwr1K9arKrAN2NL74HnaxmcmedtlqxqOCMeDOVkYkbgBcFdSP1ahscq4pIdvXrUmAkztJs+rCV795s21BVsxWIFPVHhhC8ZaXrCAIsexPa5hY2nWOY538XXcoOo4Hs0ZOrwDTMhx1W2TE8kkx2VAoEirBF86zkpJeFj7d5w/KGQN62J75MDOLUsXnZWDTzK90KU7mh1xQvkdXcR6ZON+7ESPygBlDZN3ZXT1zB5OzxOLmX4gX+i7ar9omX+mIcPY7T+e6HbiakXvwr8fEOrzTunPxaIUm8UWq7PvE0pyWNHxobvl7IA77krQlZjcjq5FbooqHyhhyqldRLu+kzIa1wkt9SZy+TwUdRXqV5xfcCYmPFlY5xumLGlNkm2DdwywL4tvLuGiz3fD4LZIZJUPnPttC3qZi8NV9JjkrV69iUG9JEfsPzeatZjfjli2LOyR7O1Y5w/FAON+l7Lu4zdntmcpL+FT9sCbXj3fde6CANLgeb1s9JlYIVuGixKqo4AGWdjsh3HArunxZ66WlMwgSG8O6OmNcBpk7gHa3tx/FI0FCTGyWIaQ/jRBiBbUn1nwRku93u6nND6CUaobyQdwrBiebJbq0cHN4uXUsd0ExmvP4gOeMiOZwK0PhR0VhrdGg9uERf9rvzCZU6ZkmmdlGGQS5hb/Ru98f+jPf8BgP49+y09uX4wVrk/xgZ7wOA8zXr7jSXfvmpmjbaLGLAfTv/WtXBxVqwGADAnL9/fIxy9z2XNjKhYCoE/L/fua3dz952coftpNAcQRn565ARVU/eGBsh1RoQE11kbGJ0IaqXxaIh9lpQlCwovY91lpsOmNeHUzXwdGaVlX55qvgxxksdZSADeJl8MvLaHBm6QjvV2MZ8CEa320e3gJ8uFGNpa6t0D4MmPOUE3rRZeZ2MM7qeVQtv/7AaUgZhe9v860ihMf5aP/ekLOqD9d7DgBsTZsM2/G34zpgMlHupOFQV1ERwALuBfwI+G72ai45pF0FVnADaYd7GzZKhDT5jDbaK03mMiHkhPkxxrqQ5D8EcOYRb66KXcY3Xmh5FS0e9bz/tZtKfSUXlTYyR1q4Q1mWF+m5JkYHbs0J55S4oyQfy73z13AXuTpAbFF5xqwdB/69EN1cHZdZEIdF6Eh3KlTHHlKSQZqun5Jcq4ElYmTaGMXnduHBGne2w7aRfqrt0I8XYTSqUUD1pKSUNf41rOpRbqSI4oLwsWbW5KGW4YfFNdod6xsjjK3gvI2aPKnJ9kMQ5XXBzL/ZCOvRALv0bkH6Em95kR/Hx927WphNYOnCWKcbCAWX+em06jFuQKkEIx6w4eo2zahkAgTN2gDzYqXLNpUSUnCZFrlayIhIoBtvbcQqpvb8v2w3gZrqSqgyKzllJSCkm89XZbIxVM1yPoXH7o5I3fLjPS7OreoQvr8blMUBHYq/9d4tYRyqWmcu0poGYUT9f4N1+IlzxOEw2pdwl9mWLJ+0Yxb78IYZfRietn7P3cv7wI4mdV5L7+Y+9jP+g9V+6oDhv9KWPvuvjnPg/lTKrqVhGe/XS66qu6EYfJ7dFqU3bKgl/pctCqV5fnumhFx+ZTfiD05dGF1ul64qgFWzTd6F+uMR9G5Euk7swrBVeBirO4SuMwitKuRCmBNMWuYe1eqF+Z/K6EWtgy4oP2FflrtlJ3fX3ZJnOMIc4S+E49YFH3C6/vprUGOyY8lrtiyblkcs+Z6ZBnSsbzzrtmOX8pv41+gmb2fRt5VWA1IuXveJe47BIDWI+yKa64QmqcaVq/pSgUgzCynrQXalIBRoSsbpJ0GKP/3ENlDCF3w0kT7kIYiBHn/mqqHVEp0rAcWOjUoK0VXv0GVqelckZeJm4hC8nUWLS+S+tMS2rr+NWGVabcJLnxdm3yElpBpfoO5+kMljDnbNMKbpbz0A17kZ/mULu8HEsKyAs/2eMK67uAbHX31REu5r2GBMxdzaSrZYmTcMhaepxu6of/czwN1j3t9k7+bhZGiKMo/1MNEUnPaXHivAuc1y7L8qGT6ahOICDqrrWGwAb/vndH9uEUYqooIFhl6HMKua8VGPSdXnlStilufmKNymsb2TIZ49uJUrDaZYz+mhyA8mt6nFrQbaleEfzzPj6koy8DWURyhokRtZZ8Lw/PT8v3wJrOxpOVKZJ9D51l4xLeelu8f3g2fXT2HFGFwlrVlRrzrp1XRBrUMqVl5DPwi/1fr84jVQiTxpwnYy4fddf8WkzDrilNt7REMzr7pVFO/3Lf7pW2oyGgWj4EuJCoo79PlvYdEaX0BbvkQnVYaeXWkj62plcPcgck3VUTsYNeSjbMYFHv0U+K7hWpVJzmN93Dgj+zMeHRtlZNilbhDuJpGjLMnAJfRyHo4u7qmVGZBWK+fMcD8BXuZBmpp0Om/US7bBB/4vePsH0TiQSLyF/P8iMQmdq0c6CfVWtKq7t0vPKt1sNPYI+JxivGGVWrVOwvWSk6EZ1Yth/ZWdHViZQXHhdxhZQGs+Ci0bNESu77GOKdTur4B1zYz4ceF12lu+AbRdDQXYUYCwOycsyYCRVukgpEBXfnXAvAnhGCwQhZyTaP1QbT3jQPsMaV4XNObziDMclKhdXEEZ37OljPIQgIp/4fThOnGYgAPQT4gvWmheZ9pCOajeHvAUtFNaCzECVjHg4rfzFaacKdFYYI3NQwu+ZK2C0B2YKaIy3yxQqHHvJs2pA7Qk/jPav7bXZOJ+avCRE0SxLj2gwX+UjX46/dW80twi3ozenLD3lMhe/NaFphdTC5ZwBhPdNao6Vmw8Ru+dN95b/DeYhEME2RwHO6i7akrrEVWy92K54s+xtHUhZSTNhfXKz6VbeEuzjcGSqe5OATdzLaN+siZusHFhxwR6KMiCkCSmJwdoBSZ29SxCpFMqwzQtr4DJchZfxJKXk21HtYPhGSuRC46MB+X3LWg4tPlidL+7OpcJH5z3qlxpI1IXyyHPqgldK1dEFYUjg2xGnf3KE4SL9EYdZRrmfFQ3XCqmtlwa72CL8k84/+WUooMVQEQTcZsY3v7C9y/POesT6oBVOD3Rzxa+g7T7wsh2HIKgTTs+qxleFzp43WnFIcOTaFBpzkYf5az41xT0dmoUaAJEhFI3h58oBw0qEUQ0zMERqsK7UqTTeSRIIkr6oNAhRdWTagd+GBdtmhrtuSkj2adq2ASJTa59ONCBuQdzhpgQmt8K9fB83jO6YOu0oAg+BKGW/ZMsjAXQuQkWgehKLaXZ/Iz4N78nFIdrjBJybKjfQHvQJgWPESnpNl8m/tPhu5glSgfjqWK6AYILkGd4ycqubrypvFOraIIinmRxNyxdGdprxCuoljLiuzXtfUq76jgoW3KrGUXv9bzppGZ9CrTWAoJ/Rc/3W7MsBD2v7H1B+9MS/zdjpSK/9yU8++P+WQVEK+9Stmcth8KPfiV8je+GtQabZ0PRKSnTEx2u+7FbSGJYciEE1WN0V/fU+q1m+S09Tz9MixV+OKba3SSosIdIjOMvD93arbbgoYRt0szpeo/r6sPFQWkkiPo1eQPQKfyh03LKS2DpjsWsQWPExBR7+kgPnT4I5DKWx3HshdUJWskqU2R9iw0vbLkeN+PVPfCtonQGhqcQLbvjquLsim1cySshKEgw9Cjq3KWrh90opAt1+XJ6PPEjFYPPNqTiGV6fKYvfnEY+xeWiWWIuOr+mBuQu92N3vmd++t+qmalPn8idCpVMVZ4hfqmHtVgJ4ePlYg61d41a5NcKDOFOPFo87oqiYpWA0a4c/J/poYtQ7BpdSstLIRXphDvH9B0/CkOYik7nJuy9mdq9ROCkHu0kbrzSYNCX/QBxfKYonSaITapcBwkE3dxQnYvP8sRAaqD04wj7dfUDdNT+w7+q0BKMgQ4NvQGpehjFF3JntbQ3D4FxkOxSM7ifFm0e8YLBZSOhreU3dqBG9xvoRr4J4McGbTyfMooMZHp5aQQm/GjYx9hLxz9cn31Yx/O1MHtjDxnOTtjvM/c8jynAUryFNiF4AMFvtUByheGCEFulxlOp9hEhi1Lgrydp0rRSb2fIdEO1uf43aIrhVGdRZzsBLVCyeWQu8pFO/NSgqvhk0RikzsfdWo9Fwqw52IW2rjVOngKZxLFDJ0MnKH7mxDnxiSLZoAr+yfihwFFfWFqkPftLYBg9vmx2ulBltz5hLR0aTmg+HN4XlFk0rtTOKbh6eEjZHtIC9uyfmNVNOMHjWPaLD2aGs6RX168agHcSbD8EHjMQKFBdvd1a8UBU1zcngrLf8gE6am6KWMb4bO5iUXNvZ/6RWNUKfQ7YtkgKKyWQK1HeRd8qTPxyroPKTLXXkjMzKuO7UnA1r7UqVl/hnVa/79W8mhccIzuSRQwH6gSMf9v7C6Dc4wvalwZ/CbSrH7/xVP9Mci3XcLZj11Yg1Zef7eofD66JfUy0PN0LqTsNV/l0hvOKG+yP8QwEjrNtIFbz2PRgHmFz6d6XktEgCBiMsO8BeHXZsNRGTZeVaCo+v7zK0fZjUA0pp/DtWrIUrn+8PaYT7FQwY+HNGOF+tQzn1aav9Fu0ti51ABek5zJAEfsgC+GCgdP6AmBNbjD+8BYJ2G7J83IYmJM4UKm9J14l7gc1TiAvX29z8zp55jEVr3mYwpH4CzdrANA5CG/daxs4PzMWBh4FJgEUF3q7snrQwwegDcPywzfAlJ6UpW75lSPJWAF0/3PloPmGKe6aiAq8y64xkf9g3wkIN9Q6UJU+lcdM9xMftLNFnSL0pFT6fit5D8T4B1HgRxRLke2pyN32d0PGFjlmKFj5fnY40l26qfqCQ9Xj/9EXi+cZ47bE+VRZc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KA4ID3KUwECgQCgxFETD2AwjwGAQRVBRs0AoEOLARkDFYKgK44HQ0sBAkHAg4GgJqD2QMRAw0DgNoGDAQBDwwEOAgKBigILAQCDgkngVgIHQMLAzsEHgQKB4D7hAUAAQMFBQYGAgcGCAcJEQocCxkMGQ0QDgwPBBADEhITCRYBFwQYARkDGgkbARwCHxYgAysCLQsuATAEMQIyAakCqgSrCPoC+wX+A/8JrXh5i42iMFdYi4yQHN0OD0tM+/wuLz9cXV/ihI2OkZKpsbq7xcbJyt7k5f8ABBESKTE0Nzo7PUlKXYSOkqmxtLq7xsrOz+TlAAQNDhESKTE0OjtFRklKXmRlhJGbncnOzw0RKTo7RUlXW15fZGWNkam0urvFyd/k5fANEUVJZGWAhLK8vr/V1/Dxg4WLpKa+v8XHz9rbSJi9zcbOz0lOT1dZXl+Jjo+xtre/wcbH1xEWF1tc9vf+/4Btcd7fDh9ubxwdX31+rq/e3027vBYXHh9GR05PWFpcXn5/tcXU1dzw8fVyc490dSYuL6evt7/Hz9ffmgBAl5gwjx/O/05PWlsHCA8QJy/u725vNz0/QkVTZ3XIydDR2Nnn/v8AIF8igt8EgkQIGwQGEYGsDoCrBSAHgRwDGQgBBC8ENAQHAwEHBgcRClAPEgdVBwMEHAoJAwgDBwMCAwMDDAQFAwsGAQ4VBU4HGwdXBwIFGAxQBEMDLQMBBBEGDww6BB0lXyBtBGolgMgFgrADGgaC/QNZBxYJGAkUDBQMagYKBhoGWQcrBUYKLAQMBAEDMQssBBoGCwOArAYKBkwUgPQIPAMPAz4FOAgrBYL/ERgILxEtAyIOIQ+AjASCmhYLFYiUBS8FOwcCDhgJgL4idAyA1hqBEAWA4QnyngM3CYFcFIC4CIDdFDwDCgY4CEYIDAZ0Cx4DWgRZCYCDGBwKFglMBICKBqukDBcEMaEEgdomBwwFBYKzICoGTASAjQSAvgMbAw8Ncz0gAFUAAAAKAAAAKwAAAHM9IABVAAAAGgAAADYAAABhdHRlbXB0IHRvIGNhbGN1bGF0ZSB0aGUgcmVtYWluZGVyIHdpdGggYSBkaXZpc29yIG9mIHplcm9gYXN5bmMgZm5gIHJlc3VtZWQgYWZ0ZXIgY29tcGxldGlvbmFzc2VydGlvbiBmYWlsZWQ6ICFidWYuaXNfZW1wdHkoKQAAAP5HIABXAAAAtwAAAAUAAABhc3NlcnRpb24gZmFpbGVkOiBidWZbMF0gPiBiJzAnAP5HIABXAAAAuAAAAAUAAAD+RyAAVwAAAAkBAAAFAAAA/kcgAFcAAAAKAQAABQAAAGVlLQDCAgAASRKAAW0WwDMWH4A4tiQARQAs4E0FMCBOADTgUsBN4FWNpABWDaZAVqTXwFYA+UBhbvrgYT79AGKAAsFkNwfhaeAewW+aIyGYkC+BmTA0IZr7Q4GaR0YBmwBhQZsAaGGbOWqhm0BtwZvWjKGd8K9BoCOx4aD8ssGhALwBowDUIaOm1mGkAN8BqZDi4avQ5OGuAO5hrzDx4bIAACK74Kbiux64AryuzkK84euCvF7uwrwA+AK9HvoivQAAQ71LE2O9ejSDvXo01L0AAwAAgwQgAJEFYABdE6AAEhcgHwwgYB/vLGArKjDgK2+moCwCqCAtHvsgLgD+YDae/6A2/QEhNwEKYTckDSE4qw6hOS8YITrzHiFLQDShUx5h4VTwamFVT2/hVZ28YVYAz2FXZdGhVwDaIVgA4KFZruIhW+zk4VzQ6GFdIADuXvABf19gBgAAZgngAEAQoAFpE+AF7hZgBkYZoAZwIKAHYCSgCXYn4Ar9LGALBzCgC5Ix4AsgpqAMMKggDvCroA4Q/yAQBwFhEOECoRBYCGER+gzhEmAOoRZQFGEXUBbhGeAYYRrwG2EbUB/hGwAkIR0wYaEdYGrhHXBtIR6AbiEf9G9hH/DMoR/A0uEfztchIEDh4SDw4iEh8ORhIcfooSFx7CEiAPGhIvD74SP6+zIk2yggAF8AAAD2AAAAFQAAANsoIABfAAAAAQEAABgAAAAAAAAIAQgDCAYQCRANEBIYFxgdGCQgKyAzIDwgRihQKFsoZzBzMIAwjjicOKs4uzjMQN1A70ACSRVJKUk+UVNRaVGAUZhZsFnJWeNh/WEYYjRqUGptaotqqnLJculyCnsre017cIOTg7eD3IMCjCiMT4x3lJ+UyJTynBwFHAUcBRwFBQIFAQIFBgIFAwECBQEFBgIFBwgBAgUDCQAGAgUBCQUDAQIFCQcGBQYCBQQICAIIAQIFAgQEAQQABgIFAQICAAcAAwECBQYBAAMFAQUGAgUDAAUBBwUHCAECBQEFAgUIBwgJAAYCBQcGAgkDCQQFAwECBQMIAQQGCQcCBgUGAgUBCQAHAwQIBgMCCAECBQkFAwYHBAMBBgQABgIFBAcGCAMHAQUIAgADAQIFAgMIBAEIBQcJAQABBQYCBQEBCQIACQIICQUFAAcIAQIFBQkGAAQGBAQHBwUDCQAGAgUCCQgAAgMCAgMIBwYJBQMBAgUBBAkAAQEGAQEJAwgEBwYFBgIFBwQFAAUIAAUJBgkCAwgCCAECBQMHAgUCCQACCQgEBgEJAQQABgIFAQgGAgYEBQEECQIDAAkFBwADAQIFCQMBAwICBQcEBgEFBAcIBQEFBgIFBAYFBgYBAggHAwAHBwMJAgUHCAECBQIDAggDAAYEAwYFAwgGCQYCCAkABgIFAQEGBAEFAwIBCAIGCQMECAEEBAUDAQIFBQgCAAcGBgAJAQMEBgcEAAcCAgYFBgIFAgkBAAMIAwAEBQYHAwMHAAMGAQMCCAECBQEEBQUBCQEFAgIIAwYGCAUBCAAGBgQABgIFBwIHBQkFBwYBBAEIAwQCBQkAAwMCAAMBAgUDBgMHCQcICAAHAAkBBwECCQUBBgYAAQUGAgUBCAEICQgJBAADBQQFCAUGBAcFCAMAAAcIAQIFCQAJBAkEBwABBwcCCQIIAgMHCQEFAAMJAAYCBQQFBAcEBwMFAAgIBgQGBAEBCAkFBwUBCQUDAQIFAgIHAwcDBgcFBAQDAgMCAAUJBAcIBwUJBwYFBgIFAQEDBggGCAMHBwIBBgEGAAIJBwMJAwcJCAgCCAECBQUGCAQDBAEICAYACAAIAAEECAYJBggJCQQBBAAGAgUCCAQCAQcACQQDAAQABAAABwQDBAgEBAkHAAcAAwECBQEEAgEACAUEBwEFAgACAAADBwEHBAICBAgFAwUBBQYCBQcBAAUEAgcDBQcGAAEAAAEIBQgHAQECBAIGBwUHCAECBQMFBQIHAQMGBwgIAAAFAAAJAgkDBQUGAgEDAwcICQAGAgUBBwcGAwUGCAMJBAAAAgUABAYEBgcHCAEABgYICQQFAwECBQgICAEHCAQBCQcAAAECBQIDAgMDCAkABQMDBAQHAgYFBgIFBAQEAAgJAgAJCAUAAAYCBgEGAQYJBAUCBgYHAgMGAwIIAQIFAgICAAQEBgAECQIFAAMBAwAIAAgEBwIGAwMDBgEIAQYEAAYCBQEBAQACAgMAAgQGAgUBBQYFBAAEAgMGAwEGBggACQAIAgADAQIFBQUFAQEBBQECAwECBQcIAgcAAgEBCAEFCAMEAAQFBAEAAQUGAgUCBwcFBQUHBQYBBQYCCAkBAwUBAAUJAAcJAQcAAgIHAAUABwgBAgUBAwgHBwcIBwgABwgBBAQFBgcFBQIJBQMJBQgFAQEDBQIFAwkABgIFBgkDCAgJAwkAAwkABwICCAMHBwYEBwYJBwkCBQUGBwYCBgkFAwECBQMEBgkEBAYJBQEJBQMGAQQBCAgIAgMIBAgJBgIHCAMIAQMEBwYFBgIFAQcDBAcCAwQHBQkHBggABwAJBAQBAQkCBAQIAQMJAQkABgcDCAIIAQIFCAYHAwYBBwMHCQgIBAADBQQHAgAFCQYCAgQABgkFCQUDAwYJAQQABgIFAADbKCAAXwAAAHMBAAATAAAAEzsgAFkAAACuAAAAEwAAAAAAAABa1juS1lP07j87oQYpqj8R+GVlG2a0WJUHxSSkWcrHSna/PqJ/4a66SfYtDfC8eV1Tb86K35la6dxzeRAsLNj0lAXBtiug2JFp6EuKmxsHeflGcaQ2yE62hOLebILiSJe3mI1NRHri4yWbFggjGxv9cn94sGqMbY73IA7l9fAw/k+fllyF7wiyNalRXjMtvb0jR7yzZiuL3oIT5jWAeCytdqxVMCD7FosxzK8hUMs7TJMXazzoudytPb8bKiS+St943YVLYuhT2Q2vojStbR3Xa6ozbz1x1IdoreVAjGRyhgaVAMuMjcmpwhgfUa/9DmhIusD97/A71PLeZiUbvRICbXSY/pV2pYRXS2D3MLZLAYiRPn471M6lLV44Nb2jnkHqNc5dSolCz7l1hoKsTAZSsuGges6ViYGTCZTR6+9Dcx8aSRlC++uh+Av5xebrFBCmYJufEvpmyvZOd3fgJhrU0DiCR5e4AP20IlWVmLAgiYJjsYxecyCesDVVXV9utFVivN0vNpCoxR2DqjT3iSHreyvVu0O0EvfkI9UBdezppS07ZVWqsGuabjYlIckzskf4ib7q1JwGwQqEbmm7wJ6ZdixuJQpESPENJcpD6nAGwMrbZFeGKs2WKFdeapIGBDi8Ej7tJ3WAvPLs9QQ3CAXGa5eN6HGSoOsuaDPGREqG96N+WDGHW0STHSHg+2rus3pMnq79aHIVuGQp2LoF6mBZ30UaPQPPGua9M44phyS5b6trMAZiwdCPVuD4edS206WWhryHuvHEs2wYd5iJpEiPPKirKSkutuCH3pT+q80aMyVJC7rZ3HGMFAsdf4vA8J9vG44oEFSOr9lN5F6u8OwHSqKxMhTpcdtQYZ322SzoyW4Fr5+sMSeJ0lwiOggcMb7KxprHF/5wqwb0qkgKY71tfXiBuZ09TdYIsdXazLssCU7r8JOCRvCFpY7FCGD1uyUhJu04I1hsp07y9gq48iqvqm8oByxuR9HhrrQNZq/1GspFeYTbpMyCTe2QyJ+N2VA8l5dlEs5/o6AotboH8Q/lDH39/pbBX8zIcmKpSe1THk/cvL78sXf/eg+7E5zo6CWxCTb3Pc+qn6zpVIxhkbF3HYwDdQ2DlccXJGrvufWd1SVvRNLQ43r5Ha1EayhzBUt3xWqDYs7smzLsCkP5Z+NO1XZFJPsB6MI/p82T90GcIorUVu15AqLzDxHBeHVSQ2vWRFY0jEFFmKmqeGuJEwqDDNZrQe+RVr5T1VbGa5jMI4/LxhFrNuztqIrst4a+vyw5PxzrAqKzlKnW8zIU1/d7B0/jpYOK4LlTzLA/2cz12skiXI8krVjoaP+cjw9As9G+lZnZNmw3kaEfwrkJCBAjLfv/j0RHhbWKpzIoDArUq/n5/7MVmebibFE/Mo8MyRY7/H+QrR/QjeOSZ3/Zpz2uSvuf9JgnRLGcd0HfzxHNmR36xzF/MZXdg9UR10NWQEBS/Bx/7z59inIla2bqNShIZjvkXquOHK3P7gUAZUMy2kBKnTZWsmPYgmoHQD7UvpBoTiLidU8+h5GiBOimRHdaAuKqWlPjDak2ywWi0BUVcYOaVTEoXFHTAz6HykRbWg2RgNUemdkShMKGlP4KeVjotuCKZv+PF6VyqDm+TZduYuOYLUD/c13OjxLILSE9CvuOfxyIf2j6gJkLnbw0ZuZ8cp8jap8COaGATsTrwf8fHE6HrERHQ4fJIGK1ZrL/J6MiqdcVGRTp+6i6YgCf//FLtcmmrY+scZ2ptD1gwz93byJ8EJmzF87E0yFNOLQPVcsrm1R/oJ0B9khqYEahUyp+++CUT4QCwZltQvzLRHTaLjkZemMlQzHACFP7/lURkfqIn1i87pM98Monun6rVTV5tWO3NXV8JpbeWDQvi1XBS6I8JYOSG7C7Fm8B++2qsZ7Li+4jdyKc6tzKwXmpFV5GXxd1doqVoZLJHhnsic36CzZdEhTt+km3e2YfZ+yA+c6E9BZZqHkc5RpA54An4beC0liuNwnMMY8QiJCwuOyy0QfvmYULP/6yFaq03OanH4bJagBnzs6935rU4ZPgkadnvUJgAEGh1ovgJG1cLLvI4G1TeECRScyuGG6Ic/fp+lhIaJaQ9Vt/2p6JalB1pDmvLQFeenmZj4gDlkJSyQaEbXiB9djXf7OqgzvTpnsI5cjW4TLPzV9g1WQKiJCaSh77Js1/oeA7XIV/BlWaoO7yXG/A38nYSrOmHkjqwEiqL/SLsFf8jh1g0CbaJPHalDvxV862XXkSPIJYCLfWCD3Fdu2BJLUXF8uibspkDEuMdlRoom2i3dx9ywn9fc9dL5SpAgsJCxVUXf5MfF1DNTv50+Gm5SaNVPqer20aSgHFe8SaEJ9wsOm4xhsJoZxBtpo1wNTGjBwkZ/hiS8kD0mMBw/hE/NeRdkCbHc9dQmPe4Hk2VvtNNpQQwuRC9RL8FVmYxCt64UO5lPKdk7IXe1tvPlpb7GzK85yXQpzP7iyZBacxcicIvTCEvVODgyp4/8ZQvU4xSuw85ewoZCQ1Vr/4pDbRXq4TRg+Umb424ZV3G4eEhfaZmBcTuT9uhFl7VeIo5SZ0wH7dV+fPieUv2uoaM0+YSDhv6paQIXbvXcjS8D9jvloGC6W8tKlTa3V6B+0P+23xx03O6+GUKMYSWUno073k9pzwYDONXNm7q9ctcWTsnTTELDmAsLPPqpZNeY29Z8VB9XdHoNygg1X8oNfw7GAbSfmqLOSJRHK1ncSGFvQ5Ypu31TddrNXOIsV1KBwxxzqCJcuFdNeLgms2kzJjfbxkcfee06iGlzEDApz/Xa7rvU21hghTqPz9gwKDf/XZZi2hYqjKZ9J7/STDY99y0GC8pD2p3oCDbR73WZ7LR0J46w2NUxZhpAjmdPCFvtlSVmZRcOhbec2LH5JsJy6QZ/bfMkZx2WuAtlPbo9gcugDzl7+Xzc+GoKQo0swOpOiA8H2v/cCDqMjNsgaAEs0iYWxdGz2xpNL6gV8IIFeAa3ljGjHG7qbDnLA7BXQ2MOPL/GC9d6qQ9MOcigYRRPzbvju5rBXVtPH0RC1IFVX7ku7F84stBREXmUocTS0V3Rt1tvDueEbVXL9dY6B4WtRi0uSsKheYCjTvNHzIFnGJ+4YOrHoOn4aAlaBNPa7mNV3UElcZ0kao4LoJocxZYIN0idesn4ZY0pjpS8k/cDik0SsGzCNUd4P/kc/dJ0ajBmN7CL8sKVVkf7ZC1bEXTMg7Gsrud3NqPR/kk0qeHV+6yiA+9SqIYoaTjpzugnJ7tH5UjbI1KvtnOLJDqiNPmmGe6TEfw/T5gcbe1JTs4gD6BWR+8/k4PBE8iwTd041AvIPeXnA4R4sVC65F1EixUKsklnaMBhnu2o3ZVwmb3STWrTvJF6TP1Kj4h9blgArXpUzlvB2NAwrT9qlMHyHNTM+fXitlcITMh3TUH2dpACDDR3Y7P8bS39TIhHPgQQD02ewpCc93xxcK+6WQWFIAcRBo9MzCVbmdzHnPtO5mQI0UgnG/mdWT4h+sgTBVQEjYTPHGLwDLONsnF6J8alBaDqCtuDvA/QbS8ZzKHIXk8BEI2aZKML2IRi5E/WOmHW0WSo+QLj52FeycSp7+hzIETo5ZmrrN0xonRN3F/Sk/heHx70AowYjhMJVU93z0juZZ7ivRuXj1jD7dlJrOWBkw+HS7gufWMjCOFDrBAa8fPDZSauOhjD+8sZmI8cGaJ8vD5kTc5benFQ9g9Za5wPheOhCrKd6lEdsSuLK85/C29kjUFXRWD9aRF2bf6yGtZDRbSRsRlcklu86fa5M07L4A2Q2xyvs772nCh0a4QqfuQE9RXT36CmsEsylY5hJRKhGjpbQM3ObC4g8a94+rcrrqhefwR5Ogc9uT4PSzVg9pZWch7Vm4iFDSuBjy4CxTwz7BaWgwc1Vyg3NPl4z7EzrHGEJBHs/qTmRQI72v+pgI+Z6S0eWDpWJ9JGys2zm/SrdG90XfcqddzpbDS4mDt44yjLqLa08R9YF8tJ6rZGUyPy+pbgaiVXKim2GG1r3+/g57UwrIhXWHRQH9E4Y2X1/pLHQGvedS6ZZB/JinBDe3IzgRSCygp6P8UTt/0cUEpSyGFVr3xEjmPROF74L7Iufbc02YmvXaXw1YZqujuuvg0tBgPsGz0bcQ7j+WzKgmmQcF+Y0xH8bllOnPu/9ScH9JRnfx/dObD/3xYdWfM6bv7Yvqtv7IglN8brrKx8CPa+kupWT+e2NoGwppvfmwc8ajes79PS0+IVGmYRacTghcpgyhvga4jWnlD/obw2IK889PSW5IJvHD3pP44vP6zO/Do9uJWrd2Omtc222YHOB1WkYplvhlFAmGM1KJviNYE/GXs7v2f1mLZ8CmK+4sLljtfaBqdO8Xt0A4SNuU3BxXtE6kwqjr3eRQRhoSuhPkbGFiTfOSZhUe5deglugXHcj5uiCwd2DNMu+GJF6RLhId3HQUzgq4gP+qqK21tbpWJBOSmYEN5mC/1RIZI+NpbO2X9v/hEI+cl8Wr7/WNwWP0Hvo/jcqzg/22lmtzsbJ8sab4jzC9oOS8ZHxG0N3e213Q9rN8rOQO9r4NLKKKa6k6QnrwzWudkrMuEbdKrcZTydKYbMGGRHdgetVkndi3qHsHv8dx6ItKfGwFX2KHckmtZNccRxEtXZvHxvY6qc+b2D0N5JjVeTSCeXi0idPDwk6NEB3/Sstg8UvLEDaEujlRWCpy387+uO0e/pRDpSiIZe60TpfCPieppj16lM4y6v4pYiI9c4e4KYhmzByBX1I/Wn01BgioJjQqgP9jofcmz7DcwgfKUjDBNGD/vMm18ALdk7OJ/Gd88UE4Pyz84qxD1HggrLvA7TYpg6ebnQ1MqoRLlEvVMamE82ORAsUR39RlXnmeCn3TZfC8NUP21RZK/7UXRk0upD8WlgHqmUVOjr/RzktQOY3Pm/uBZMDW4XEvhsJe5Ihww4J6on3wTFpOuydzdl1VJrqRjIVOlm/4ENX4B2o66q8otu8m4ruLNlUK94kEieXbsqOrsNrqLoTqzHSsRStvyU9Ga67Ikp2SEgDJiws7y7vjFwbaerdENxdAu27OCb2q3J2HkFnlFQUdEGoKQsy26qnCVPpXjy0jEkqCRqmfZGVU8+n4LbP5q5bcIpiTR71+KXAkd/nf91a8kyt+eFk27xnGdur7i1q2VTzbTutXA2ugdxTl+q7xI2sLkiLm7cSFiJVZnrna7exFjjarX+mbU3X99wK0iBS06xgCy9sRgajS/LUD4aoZoSafwr1S1qJSB3yjRJnVX0nwRjNt50ulk4Qt5sp/hdstVgxApHBvjrjluJ+936ZSuWsPUM1My7ImH6cHrZfQp6dGE6QAIH4veHPIJMxegsgoDIxmANSOO1aQ+i1/9qL6Mg8vgACJcsprNHn5HrTLuf/SOqBAK0+8hoHXtyah/qi/h0nIEPbiNvSw5jK4JJ/J1/QtfcrZDUMxXaA/5u3Guw1yeRw9UJGUfXSIz1+p+CqRzpdjTKR1fM5IteHbaZu6GuE+vq+GyRsCmyLaUkTCaGGZzq1b6PuiwkGrkGfV8sO5P0KZcuL6pRkJa7pgxZca1GfJn4fN3A9gywXpuLa9IMnBu4fpAFQTOD5HI2ck7Wg7sqrpIwEpC+OGDHbANpQhZa8Kcrag+c6bqI+TcES5aT5bjQ7kCPjCwpJzuIyV5wQOsjASHQu2ubk7SPN3vZDCSG9eK/LGsSioShrw1ey08xoLNrauOB4yUt0gbAso4rDhjcNj2sYlX1OKlCMHWY0OrThafkicVzforHnsSK+wUdjG8J1agy1EIhiYJxvb3GWO+GxFMeT4axUPv/jwCIr/WBtky56OG8Xa0u42LYusPy8iPX5GcuJ3kYeqhPit1w+7aswd2A5b6rqU6lK7zIbptMKfEkfpmKXpOaUn6n+oJGKzR9eYIz8OZIiOseSf0q06oBkNf+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"base64"); var wasmModule = new WebAssembly.Module(bytes); var wasmInstance = new WebAssembly.Instance(wasmModule, imports); wasm = wasmInstance.exports; diff --git a/deps/amaro/dist/package.json b/deps/amaro/dist/package.json index 99a1362b1c6682..bf2f6c48412160 100644 --- a/deps/amaro/dist/package.json +++ b/deps/amaro/dist/package.json @@ -4,7 +4,7 @@ "강동윤 " ], "description": "wasm module for swc", - "version": "1.15.18", + "version": "1.15.30", "license": "Apache-2.0", "repository": { "type": "git", diff --git a/deps/amaro/package.json b/deps/amaro/package.json index d8d5c9f497b90d..fd8d0d9e9ae9ff 100644 --- a/deps/amaro/package.json +++ b/deps/amaro/package.json @@ -1,6 +1,6 @@ { "name": "amaro", - "version": "1.1.8", + "version": "1.1.9", "description": "Node.js TypeScript wrapper", "license": "MIT", "type": "commonjs", diff --git a/deps/corepack/CHANGELOG.md b/deps/corepack/CHANGELOG.md index dfc1dddd7b6a32..be8dfa5c8cb8df 100644 --- a/deps/corepack/CHANGELOG.md +++ b/deps/corepack/CHANGELOG.md @@ -1,5 +1,36 @@ # Changelog +## [0.35.0](https://github.com/nodejs/corepack/compare/v0.34.7...v0.35.0) (2026-05-15) + + +### ⚠ BREAKING CHANGES + +* Drop support for Node.js 20 and Node.js 25. +* Switching to Node.js built-in proxy support, meaning that proxy support is now + gated by having `NODE_USE_ENV_PROXY` set as an environment variable. + +### Features + +* update package manager versions ([#820](https://github.com/nodejs/corepack/issues/820)) ([fdbd751](https://github.com/nodejs/corepack/commit/fdbd751d9851a50730925de053e9722963c2e135)) + + +### Bug Fixes + +* target node 22.22.2 in esbuild ([#845](https://github.com/nodejs/corepack/issues/845)) ([0f01502](https://github.com/nodejs/corepack/commit/0f01502fd8832649a573bc68e1851128f547646d)) + + +### Miscellaneous Chores + +* **deps:** bump engine support matrix ([88c602a](https://github.com/nodejs/corepack/commit/88c602a6ea3f75bf30dc1d071bdb488fae2c8276)) +* **deps:** drop Undici and `proxy-from-env` ([8167b0d](https://github.com/nodejs/corepack/commit/8167b0d65acc091af464ead019f7485cb512082f)) + +## [0.34.7](https://github.com/nodejs/corepack/compare/v0.34.6...v0.34.7) (2026-04-17) + + +### Bug Fixes + +* update package manager versions ([#790](https://github.com/nodejs/corepack/issues/790)) ([e8961d6](https://github.com/nodejs/corepack/commit/e8961d6bdc14b8141fbda008febdd3649022862c)) + ## [0.34.6](https://github.com/nodejs/corepack/compare/v0.34.5...v0.34.6) (2026-01-23) diff --git a/deps/corepack/README.md b/deps/corepack/README.md index 1920174797a5dc..dd32b4ad09f139 100644 --- a/deps/corepack/README.md +++ b/deps/corepack/README.md @@ -328,8 +328,6 @@ same major line. Should you need to upgrade to a new major, use an explicit Only keys that start with `COREPACK_` and are not in the exception list (`COREPACK_ENABLE_DOWNLOAD_PROMPT` and `COREPACK_ENV_FILE` are ignored) will be taken into account. - For Node.js 18.x users, this setting has no effect as that version doesn't - support parsing of `.env` files. - `COREPACK_HOME` can be set in order to define where Corepack should install the package managers. By default it is set to `%LOCALAPPDATA%\node\corepack` @@ -352,7 +350,7 @@ same major line. Should you need to upgrade to a new major, use an explicit empty password, explicitly set `COREPACK_NPM_PASSWORD` to an empty string. - `HTTP_PROXY`, `HTTPS_PROXY`, and `NO_PROXY` are supported through - [`proxy-from-env`](https://github.com/Rob--W/proxy-from-env). + [`NODE_USE_ENV_PROXY=1`](https://nodejs.org/api/cli.html#node_use_env_proxy1). - `COREPACK_INTEGRITY_KEYS` can be set to an empty string or `0` to instruct Corepack to skip integrity checks, or to a JSON string containing diff --git a/deps/corepack/dist/lib/corepack.cjs b/deps/corepack/dist/lib/corepack.cjs index 2d570f7b70233c..478389c3e2d04e 100644 --- a/deps/corepack/dist/lib/corepack.cjs +++ b/deps/corepack/dist/lib/corepack.cjs @@ -33,7 +33,248 @@ var __toESM = (mod, isNodeMode, target) => (target = mod != null ? __create(__ge )); var __toCommonJS = (mod) => __copyProps(__defProp({}, "__esModule", { value: true }), mod); -// .yarn/cache/typanion-npm-3.14.0-8af344c436-8b03b19844.zip/node_modules/typanion/lib/index.mjs +// node_modules/clipanion/lib/constants.js +var require_constants = __commonJS({ + "node_modules/clipanion/lib/constants.js"(exports2) { + "use strict"; + Object.defineProperty(exports2, "__esModule", { value: true }); + var NODE_INITIAL = 0; + var NODE_SUCCESS = 1; + var NODE_ERRORED = 2; + var START_OF_INPUT = ``; + var END_OF_INPUT = `\0`; + var HELP_COMMAND_INDEX = -1; + var HELP_REGEX = /^(-h|--help)(?:=([0-9]+))?$/; + var OPTION_REGEX = /^(--[a-z]+(?:-[a-z]+)*|-[a-zA-Z]+)$/; + var BATCH_REGEX = /^-[a-zA-Z]{2,}$/; + var BINDING_REGEX = /^([^=]+)=([\s\S]*)$/; + var DEBUG = process.env.DEBUG_CLI === `1`; + exports2.BATCH_REGEX = BATCH_REGEX; + exports2.BINDING_REGEX = BINDING_REGEX; + exports2.DEBUG = DEBUG; + exports2.END_OF_INPUT = END_OF_INPUT; + exports2.HELP_COMMAND_INDEX = HELP_COMMAND_INDEX; + exports2.HELP_REGEX = HELP_REGEX; + exports2.NODE_ERRORED = NODE_ERRORED; + exports2.NODE_INITIAL = NODE_INITIAL; + exports2.NODE_SUCCESS = NODE_SUCCESS; + exports2.OPTION_REGEX = OPTION_REGEX; + exports2.START_OF_INPUT = START_OF_INPUT; + } +}); + +// node_modules/clipanion/lib/errors.js +var require_errors = __commonJS({ + "node_modules/clipanion/lib/errors.js"(exports2) { + "use strict"; + Object.defineProperty(exports2, "__esModule", { value: true }); + var constants2 = require_constants(); + var UsageError16 = class extends Error { + constructor(message) { + super(message); + this.clipanion = { type: `usage` }; + this.name = `UsageError`; + } + }; + var UnknownSyntaxError = class extends Error { + constructor(input, candidates) { + super(); + this.input = input; + this.candidates = candidates; + this.clipanion = { type: `none` }; + this.name = `UnknownSyntaxError`; + if (this.candidates.length === 0) { + this.message = `Command not found, but we're not sure what's the alternative.`; + } else if (this.candidates.every((candidate) => candidate.reason !== null && candidate.reason === candidates[0].reason)) { + const [{ reason }] = this.candidates; + this.message = `${reason} + +${this.candidates.map(({ usage }) => `$ ${usage}`).join(` +`)}`; + } else if (this.candidates.length === 1) { + const [{ usage }] = this.candidates; + this.message = `Command not found; did you mean: + +$ ${usage} +${whileRunning(input)}`; + } else { + this.message = `Command not found; did you mean one of: + +${this.candidates.map(({ usage }, index) => { + return `${`${index}.`.padStart(4)} ${usage}`; + }).join(` +`)} + +${whileRunning(input)}`; + } + } + }; + var AmbiguousSyntaxError = class extends Error { + constructor(input, usages) { + super(); + this.input = input; + this.usages = usages; + this.clipanion = { type: `none` }; + this.name = `AmbiguousSyntaxError`; + this.message = `Cannot find which to pick amongst the following alternatives: + +${this.usages.map((usage, index) => { + return `${`${index}.`.padStart(4)} ${usage}`; + }).join(` +`)} + +${whileRunning(input)}`; + } + }; + var whileRunning = (input) => `While running ${input.filter((token) => { + return token !== constants2.END_OF_INPUT; + }).map((token) => { + const json = JSON.stringify(token); + if (token.match(/\s/) || token.length === 0 || json !== `"${token}"`) { + return json; + } else { + return token; + } + }).join(` `)}`; + exports2.AmbiguousSyntaxError = AmbiguousSyntaxError; + exports2.UnknownSyntaxError = UnknownSyntaxError; + exports2.UsageError = UsageError16; + } +}); + +// node_modules/clipanion/lib/format.js +var require_format = __commonJS({ + "node_modules/clipanion/lib/format.js"(exports2) { + "use strict"; + Object.defineProperty(exports2, "__esModule", { value: true }); + var MAX_LINE_LENGTH = 80; + var richLine = Array(MAX_LINE_LENGTH).fill(`\u2501`); + for (let t = 0; t <= 24; ++t) + richLine[richLine.length - t] = `\x1B[38;5;${232 + t}m\u2501`; + var richFormat = { + header: (str) => `\x1B[1m\u2501\u2501\u2501 ${str}${str.length < MAX_LINE_LENGTH - 5 ? ` ${richLine.slice(str.length + 5).join(``)}` : `:`}\x1B[0m`, + bold: (str) => `\x1B[1m${str}\x1B[22m`, + error: (str) => `\x1B[31m\x1B[1m${str}\x1B[22m\x1B[39m`, + code: (str) => `\x1B[36m${str}\x1B[39m` + }; + var textFormat = { + header: (str) => str, + bold: (str) => str, + error: (str) => str, + code: (str) => str + }; + function dedent(text) { + const lines = text.split(` +`); + const nonEmptyLines = lines.filter((line) => line.match(/\S/)); + const indent = nonEmptyLines.length > 0 ? nonEmptyLines.reduce((minLength, line) => Math.min(minLength, line.length - line.trimStart().length), Number.MAX_VALUE) : 0; + return lines.map((line) => line.slice(indent).trimRight()).join(` +`); + } + function formatMarkdownish(text, { format, paragraphs }) { + text = text.replace(/\r\n?/g, ` +`); + text = dedent(text); + text = text.replace(/^\n+|\n+$/g, ``); + text = text.replace(/^(\s*)-([^\n]*?)\n+/gm, `$1-$2 + +`); + text = text.replace(/\n(\n)?\n*/g, ($0, $1) => $1 ? $1 : ` `); + if (paragraphs) { + text = text.split(/\n/).map((paragraph) => { + const bulletMatch = paragraph.match(/^\s*[*-][\t ]+(.*)/); + if (!bulletMatch) + return paragraph.match(/(.{1,80})(?: |$)/g).join(` +`); + const indent = paragraph.length - paragraph.trimStart().length; + return bulletMatch[1].match(new RegExp(`(.{1,${78 - indent}})(?: |$)`, `g`)).map((line, index) => { + return ` `.repeat(indent) + (index === 0 ? `- ` : ` `) + line; + }).join(` +`); + }).join(` + +`); + } + text = text.replace(/(`+)((?:.|[\n])*?)\1/g, ($0, $1, $2) => { + return format.code($1 + $2 + $1); + }); + text = text.replace(/(\*\*)((?:.|[\n])*?)\1/g, ($0, $1, $2) => { + return format.bold($1 + $2 + $1); + }); + return text ? `${text} +` : ``; + } + exports2.formatMarkdownish = formatMarkdownish; + exports2.richFormat = richFormat; + exports2.textFormat = textFormat; + } +}); + +// node_modules/clipanion/lib/advanced/options/utils.js +var require_utils = __commonJS({ + "node_modules/clipanion/lib/advanced/options/utils.js"(exports2) { + "use strict"; + Object.defineProperty(exports2, "__esModule", { value: true }); + var errors = require_errors(); + var isOptionSymbol = /* @__PURE__ */ Symbol(`clipanion/isOption`); + function makeCommandOption(spec) { + return { ...spec, [isOptionSymbol]: true }; + } + function rerouteArguments(a, b) { + if (typeof a === `undefined`) + return [a, b]; + if (typeof a === `object` && a !== null && !Array.isArray(a)) { + return [void 0, a]; + } else { + return [a, b]; + } + } + function cleanValidationError(message, { mergeName = false } = {}) { + const match = message.match(/^([^:]+): (.*)$/m); + if (!match) + return `validation failed`; + let [, path16, line] = match; + if (mergeName) + line = line[0].toLowerCase() + line.slice(1); + line = path16 !== `.` || !mergeName ? `${path16.replace(/^\.(\[|$)/, `$1`)}: ${line}` : `: ${line}`; + return line; + } + function formatError(message, errors$1) { + if (errors$1.length === 1) { + return new errors.UsageError(`${message}${cleanValidationError(errors$1[0], { mergeName: true })}`); + } else { + return new errors.UsageError(`${message}: +${errors$1.map((error) => ` +- ${cleanValidationError(error)}`).join(``)}`); + } + } + function applyValidator(name2, value, validator) { + if (typeof validator === `undefined`) + return value; + const errors2 = []; + const coercions = []; + const coercion = (v) => { + const orig = value; + value = v; + return coercion.bind(null, orig); + }; + const check = validator(value, { errors: errors2, coercions, coercion }); + if (!check) + throw formatError(`Invalid value for ${name2}`, errors2); + for (const [, op] of coercions) + op(); + return value; + } + exports2.applyValidator = applyValidator; + exports2.cleanValidationError = cleanValidationError; + exports2.formatError = formatError; + exports2.isOptionSymbol = isOptionSymbol; + exports2.makeCommandOption = makeCommandOption; + exports2.rerouteArguments = rerouteArguments; + } +}); + +// node_modules/typanion/lib/index.mjs var lib_exports = {}; __export(lib_exports, { KeyRelationship: () => KeyRelationship, @@ -946,7 +1187,7 @@ function hasKeyRelationship(subject, relationship, others, options) { } var simpleKeyRegExp, colorStringRegExp, colorStringAlphaRegExp, base64RegExp, uuid4RegExp, iso8601RegExp, BOOLEAN_COERCIONS, isInstanceOf, isOneOf, TypeAssertionError, checks, KeyRelationship, keyRelationships; var init_lib = __esm({ - ".yarn/cache/typanion-npm-3.14.0-8af344c436-8b03b19844.zip/node_modules/typanion/lib/index.mjs"() { + "node_modules/typanion/lib/index.mjs"() { simpleKeyRegExp = /^[a-zA-Z_][a-zA-Z0-9_]*$/; colorStringRegExp = /^#[0-9a-f]{6}$/i; colorStringAlphaRegExp = /^#[0-9a-f]{6}([0-9a-f]{2})?$/i; @@ -1037,20675 +1278,11295 @@ var init_lib = __esm({ } }); -// .yarn/__virtual__/clipanion-virtual-dbbb3cfe27/0/cache/clipanion-patch-1b1b878e9f-a833a30963.zip/node_modules/clipanion/lib/platform/node.js -var require_node = __commonJS({ - ".yarn/__virtual__/clipanion-virtual-dbbb3cfe27/0/cache/clipanion-patch-1b1b878e9f-a833a30963.zip/node_modules/clipanion/lib/platform/node.js"(exports2) { +// node_modules/clipanion/lib/advanced/Command.js +var require_Command = __commonJS({ + "node_modules/clipanion/lib/advanced/Command.js"(exports2) { "use strict"; Object.defineProperty(exports2, "__esModule", { value: true }); - var tty2 = require("tty"); - function _interopDefaultLegacy(e) { - return e && typeof e === "object" && "default" in e ? e : { "default": e }; - } - var tty__default = /* @__PURE__ */ _interopDefaultLegacy(tty2); - function getDefaultColorDepth2() { - if (tty__default["default"] && `getColorDepth` in tty__default["default"].WriteStream.prototype) - return tty__default["default"].WriteStream.prototype.getColorDepth(); - if (process.env.FORCE_COLOR === `0`) - return 1; - if (process.env.FORCE_COLOR === `1`) - return 8; - if (typeof process.stdout !== `undefined` && process.stdout.isTTY) - return 8; - return 1; - } - var gContextStorage; - function getCaptureActivator2(context) { - let contextStorage = gContextStorage; - if (typeof contextStorage === `undefined`) { - if (context.stdout === process.stdout && context.stderr === process.stderr) - return null; - const { AsyncLocalStorage: LazyAsyncLocalStorage } = require("async_hooks"); - contextStorage = gContextStorage = new LazyAsyncLocalStorage(); - const origStdoutWrite = process.stdout._write; - process.stdout._write = function(chunk, encoding, cb) { - const context2 = contextStorage.getStore(); - if (typeof context2 === `undefined`) - return origStdoutWrite.call(this, chunk, encoding, cb); - return context2.stdout.write(chunk, encoding, cb); - }; - const origStderrWrite = process.stderr._write; - process.stderr._write = function(chunk, encoding, cb) { - const context2 = contextStorage.getStore(); - if (typeof context2 === `undefined`) - return origStderrWrite.call(this, chunk, encoding, cb); - return context2.stderr.write(chunk, encoding, cb); - }; + var advanced_options_utils = require_utils(); + function _interopNamespace(e) { + if (e && e.__esModule) return e; + var n = /* @__PURE__ */ Object.create(null); + if (e) { + Object.keys(e).forEach(function(k) { + if (k !== "default") { + var d = Object.getOwnPropertyDescriptor(e, k); + Object.defineProperty(n, k, d.get ? d : { + enumerable: true, + get: function() { + return e[k]; + } + }); + } + }); } - return (fn2) => { - return contextStorage.run(context, fn2); - }; + n["default"] = e; + return Object.freeze(n); } - exports2.getCaptureActivator = getCaptureActivator2; - exports2.getDefaultColorDepth = getDefaultColorDepth2; - } -}); - -// .yarn/cache/semver-npm-7.7.3-9cf7b3b46c-4afe5c9865.zip/node_modules/semver/internal/debug.js -var require_debug = __commonJS({ - ".yarn/cache/semver-npm-7.7.3-9cf7b3b46c-4afe5c9865.zip/node_modules/semver/internal/debug.js"(exports2, module2) { - "use strict"; - var debug2 = typeof process === "object" && process.env && process.env.NODE_DEBUG && /\bsemver\b/i.test(process.env.NODE_DEBUG) ? (...args) => console.error("SEMVER", ...args) : () => { - }; - module2.exports = debug2; - } -}); - -// .yarn/cache/semver-npm-7.7.3-9cf7b3b46c-4afe5c9865.zip/node_modules/semver/internal/constants.js -var require_constants = __commonJS({ - ".yarn/cache/semver-npm-7.7.3-9cf7b3b46c-4afe5c9865.zip/node_modules/semver/internal/constants.js"(exports2, module2) { - "use strict"; - var SEMVER_SPEC_VERSION = "2.0.0"; - var MAX_LENGTH = 256; - var MAX_SAFE_INTEGER = Number.MAX_SAFE_INTEGER || /* istanbul ignore next */ - 9007199254740991; - var MAX_SAFE_COMPONENT_LENGTH = 16; - var MAX_SAFE_BUILD_LENGTH = MAX_LENGTH - 6; - var RELEASE_TYPES = [ - "major", - "premajor", - "minor", - "preminor", - "patch", - "prepatch", - "prerelease" - ]; - module2.exports = { - MAX_LENGTH, - MAX_SAFE_COMPONENT_LENGTH, - MAX_SAFE_BUILD_LENGTH, - MAX_SAFE_INTEGER, - RELEASE_TYPES, - SEMVER_SPEC_VERSION, - FLAG_INCLUDE_PRERELEASE: 1, - FLAG_LOOSE: 2 - }; - } -}); - -// .yarn/cache/semver-npm-7.7.3-9cf7b3b46c-4afe5c9865.zip/node_modules/semver/internal/re.js -var require_re = __commonJS({ - ".yarn/cache/semver-npm-7.7.3-9cf7b3b46c-4afe5c9865.zip/node_modules/semver/internal/re.js"(exports2, module2) { - "use strict"; - var { - MAX_SAFE_COMPONENT_LENGTH, - MAX_SAFE_BUILD_LENGTH, - MAX_LENGTH - } = require_constants(); - var debug2 = require_debug(); - exports2 = module2.exports = {}; - var re = exports2.re = []; - var safeRe = exports2.safeRe = []; - var src = exports2.src = []; - var safeSrc = exports2.safeSrc = []; - var t = exports2.t = {}; - var R = 0; - var LETTERDASHNUMBER = "[a-zA-Z0-9-]"; - var safeRegexReplacements = [ - ["\\s", 1], - ["\\d", MAX_LENGTH], - [LETTERDASHNUMBER, MAX_SAFE_BUILD_LENGTH] - ]; - var makeSafeRegex = (value) => { - for (const [token, max] of safeRegexReplacements) { - value = value.split(`${token}*`).join(`${token}{0,${max}}`).split(`${token}+`).join(`${token}{1,${max}}`); - } - return value; - }; - var createToken = (name2, value, isGlobal) => { - const safe = makeSafeRegex(value); - const index = R++; - debug2(name2, index, value); - t[name2] = index; - src[index] = value; - safeSrc[index] = safe; - re[index] = new RegExp(value, isGlobal ? "g" : void 0); - safeRe[index] = new RegExp(safe, isGlobal ? "g" : void 0); - }; - createToken("NUMERICIDENTIFIER", "0|[1-9]\\d*"); - createToken("NUMERICIDENTIFIERLOOSE", "\\d+"); - createToken("NONNUMERICIDENTIFIER", `\\d*[a-zA-Z-]${LETTERDASHNUMBER}*`); - createToken("MAINVERSION", `(${src[t.NUMERICIDENTIFIER]})\\.(${src[t.NUMERICIDENTIFIER]})\\.(${src[t.NUMERICIDENTIFIER]})`); - createToken("MAINVERSIONLOOSE", `(${src[t.NUMERICIDENTIFIERLOOSE]})\\.(${src[t.NUMERICIDENTIFIERLOOSE]})\\.(${src[t.NUMERICIDENTIFIERLOOSE]})`); - createToken("PRERELEASEIDENTIFIER", `(?:${src[t.NONNUMERICIDENTIFIER]}|${src[t.NUMERICIDENTIFIER]})`); - createToken("PRERELEASEIDENTIFIERLOOSE", `(?:${src[t.NONNUMERICIDENTIFIER]}|${src[t.NUMERICIDENTIFIERLOOSE]})`); - createToken("PRERELEASE", `(?:-(${src[t.PRERELEASEIDENTIFIER]}(?:\\.${src[t.PRERELEASEIDENTIFIER]})*))`); - createToken("PRERELEASELOOSE", `(?:-?(${src[t.PRERELEASEIDENTIFIERLOOSE]}(?:\\.${src[t.PRERELEASEIDENTIFIERLOOSE]})*))`); - createToken("BUILDIDENTIFIER", `${LETTERDASHNUMBER}+`); - createToken("BUILD", `(?:\\+(${src[t.BUILDIDENTIFIER]}(?:\\.${src[t.BUILDIDENTIFIER]})*))`); - createToken("FULLPLAIN", `v?${src[t.MAINVERSION]}${src[t.PRERELEASE]}?${src[t.BUILD]}?`); - createToken("FULL", `^${src[t.FULLPLAIN]}$`); - createToken("LOOSEPLAIN", `[v=\\s]*${src[t.MAINVERSIONLOOSE]}${src[t.PRERELEASELOOSE]}?${src[t.BUILD]}?`); - createToken("LOOSE", `^${src[t.LOOSEPLAIN]}$`); - createToken("GTLT", "((?:<|>)?=?)"); - createToken("XRANGEIDENTIFIERLOOSE", `${src[t.NUMERICIDENTIFIERLOOSE]}|x|X|\\*`); - createToken("XRANGEIDENTIFIER", `${src[t.NUMERICIDENTIFIER]}|x|X|\\*`); - createToken("XRANGEPLAIN", `[v=\\s]*(${src[t.XRANGEIDENTIFIER]})(?:\\.(${src[t.XRANGEIDENTIFIER]})(?:\\.(${src[t.XRANGEIDENTIFIER]})(?:${src[t.PRERELEASE]})?${src[t.BUILD]}?)?)?`); - createToken("XRANGEPLAINLOOSE", `[v=\\s]*(${src[t.XRANGEIDENTIFIERLOOSE]})(?:\\.(${src[t.XRANGEIDENTIFIERLOOSE]})(?:\\.(${src[t.XRANGEIDENTIFIERLOOSE]})(?:${src[t.PRERELEASELOOSE]})?${src[t.BUILD]}?)?)?`); - createToken("XRANGE", `^${src[t.GTLT]}\\s*${src[t.XRANGEPLAIN]}$`); - createToken("XRANGELOOSE", `^${src[t.GTLT]}\\s*${src[t.XRANGEPLAINLOOSE]}$`); - createToken("COERCEPLAIN", `${"(^|[^\\d])(\\d{1,"}${MAX_SAFE_COMPONENT_LENGTH}})(?:\\.(\\d{1,${MAX_SAFE_COMPONENT_LENGTH}}))?(?:\\.(\\d{1,${MAX_SAFE_COMPONENT_LENGTH}}))?`); - createToken("COERCE", `${src[t.COERCEPLAIN]}(?:$|[^\\d])`); - createToken("COERCEFULL", src[t.COERCEPLAIN] + `(?:${src[t.PRERELEASE]})?(?:${src[t.BUILD]})?(?:$|[^\\d])`); - createToken("COERCERTL", src[t.COERCE], true); - createToken("COERCERTLFULL", src[t.COERCEFULL], true); - createToken("LONETILDE", "(?:~>?)"); - createToken("TILDETRIM", `(\\s*)${src[t.LONETILDE]}\\s+`, true); - exports2.tildeTrimReplace = "$1~"; - createToken("TILDE", `^${src[t.LONETILDE]}${src[t.XRANGEPLAIN]}$`); - createToken("TILDELOOSE", `^${src[t.LONETILDE]}${src[t.XRANGEPLAINLOOSE]}$`); - createToken("LONECARET", "(?:\\^)"); - createToken("CARETTRIM", `(\\s*)${src[t.LONECARET]}\\s+`, true); - exports2.caretTrimReplace = "$1^"; - createToken("CARET", `^${src[t.LONECARET]}${src[t.XRANGEPLAIN]}$`); - createToken("CARETLOOSE", `^${src[t.LONECARET]}${src[t.XRANGEPLAINLOOSE]}$`); - createToken("COMPARATORLOOSE", `^${src[t.GTLT]}\\s*(${src[t.LOOSEPLAIN]})$|^$`); - createToken("COMPARATOR", `^${src[t.GTLT]}\\s*(${src[t.FULLPLAIN]})$|^$`); - createToken("COMPARATORTRIM", `(\\s*)${src[t.GTLT]}\\s*(${src[t.LOOSEPLAIN]}|${src[t.XRANGEPLAIN]})`, true); - exports2.comparatorTrimReplace = "$1$2$3"; - createToken("HYPHENRANGE", `^\\s*(${src[t.XRANGEPLAIN]})\\s+-\\s+(${src[t.XRANGEPLAIN]})\\s*$`); - createToken("HYPHENRANGELOOSE", `^\\s*(${src[t.XRANGEPLAINLOOSE]})\\s+-\\s+(${src[t.XRANGEPLAINLOOSE]})\\s*$`); - createToken("STAR", "(<|>)?=?\\s*\\*"); - createToken("GTE0", "^\\s*>=\\s*0\\.0\\.0\\s*$"); - createToken("GTE0PRE", "^\\s*>=\\s*0\\.0\\.0-0\\s*$"); - } -}); - -// .yarn/cache/semver-npm-7.7.3-9cf7b3b46c-4afe5c9865.zip/node_modules/semver/internal/parse-options.js -var require_parse_options = __commonJS({ - ".yarn/cache/semver-npm-7.7.3-9cf7b3b46c-4afe5c9865.zip/node_modules/semver/internal/parse-options.js"(exports2, module2) { - "use strict"; - var looseOption = Object.freeze({ loose: true }); - var emptyOpts = Object.freeze({}); - var parseOptions = (options) => { - if (!options) { - return emptyOpts; + var Command12 = class { + constructor() { + this.help = false; } - if (typeof options !== "object") { - return looseOption; + /** + * Defines the usage information for the given command. + */ + static Usage(usage) { + return usage; } - return options; - }; - module2.exports = parseOptions; - } -}); - -// .yarn/cache/semver-npm-7.7.3-9cf7b3b46c-4afe5c9865.zip/node_modules/semver/internal/identifiers.js -var require_identifiers = __commonJS({ - ".yarn/cache/semver-npm-7.7.3-9cf7b3b46c-4afe5c9865.zip/node_modules/semver/internal/identifiers.js"(exports2, module2) { - "use strict"; - var numeric = /^[0-9]+$/; - var compareIdentifiers = (a, b) => { - if (typeof a === "number" && typeof b === "number") { - return a === b ? 0 : a < b ? -1 : 1; + /** + * Standard error handler which will simply rethrow the error. Can be used + * to add custom logic to handle errors from the command or simply return + * the parent class error handling. + */ + async catch(error) { + throw error; } - const anum = numeric.test(a); - const bnum = numeric.test(b); - if (anum && bnum) { - a = +a; - b = +b; + async validateAndExecute() { + const commandClass = this.constructor; + const cascade2 = commandClass.schema; + if (Array.isArray(cascade2)) { + const { isDict: isDict2, isUnknown: isUnknown2, applyCascade: applyCascade2 } = await Promise.resolve().then(function() { + return /* @__PURE__ */ _interopNamespace((init_lib(), __toCommonJS(lib_exports))); + }); + const schema = applyCascade2(isDict2(isUnknown2()), cascade2); + const errors = []; + const coercions = []; + const check = schema(this, { errors, coercions }); + if (!check) + throw advanced_options_utils.formatError(`Invalid option schema`, errors); + for (const [, op] of coercions) { + op(); + } + } else if (cascade2 != null) { + throw new Error(`Invalid command schema`); + } + const exitCode = await this.execute(); + if (typeof exitCode !== `undefined`) { + return exitCode; + } else { + return 0; + } } - return a === b ? 0 : anum && !bnum ? -1 : bnum && !anum ? 1 : a < b ? -1 : 1; - }; - var rcompareIdentifiers = (a, b) => compareIdentifiers(b, a); - module2.exports = { - compareIdentifiers, - rcompareIdentifiers }; + Command12.isOption = advanced_options_utils.isOptionSymbol; + Command12.Default = []; + exports2.Command = Command12; } }); -// .yarn/cache/semver-npm-7.7.3-9cf7b3b46c-4afe5c9865.zip/node_modules/semver/classes/semver.js -var require_semver = __commonJS({ - ".yarn/cache/semver-npm-7.7.3-9cf7b3b46c-4afe5c9865.zip/node_modules/semver/classes/semver.js"(exports2, module2) { +// node_modules/clipanion/lib/core.js +var require_core = __commonJS({ + "node_modules/clipanion/lib/core.js"(exports2) { "use strict"; - var debug2 = require_debug(); - var { MAX_LENGTH, MAX_SAFE_INTEGER } = require_constants(); - var { safeRe: re, t } = require_re(); - var parseOptions = require_parse_options(); - var { compareIdentifiers } = require_identifiers(); - var SemVer3 = class _SemVer { - constructor(version2, options) { - options = parseOptions(options); - if (version2 instanceof _SemVer) { - if (version2.loose === !!options.loose && version2.includePrerelease === !!options.includePrerelease) { - return version2; - } else { - version2 = version2.version; + Object.defineProperty(exports2, "__esModule", { value: true }); + var constants2 = require_constants(); + var errors = require_errors(); + function debug(str) { + if (constants2.DEBUG) { + console.log(str); + } + } + var basicHelpState = { + candidateUsage: null, + requiredOptions: [], + errorMessage: null, + ignoreOptions: false, + path: [], + positionals: [], + options: [], + remainder: null, + selectedIndex: constants2.HELP_COMMAND_INDEX + }; + function makeStateMachine() { + return { + nodes: [makeNode(), makeNode(), makeNode()] + }; + } + function makeAnyOfMachine(inputs) { + const output = makeStateMachine(); + const heads = []; + let offset = output.nodes.length; + for (const input of inputs) { + heads.push(offset); + for (let t = 0; t < input.nodes.length; ++t) + if (!isTerminalNode(t)) + output.nodes.push(cloneNode(input.nodes[t], offset)); + offset += input.nodes.length - 2; + } + for (const head of heads) + registerShortcut(output, constants2.NODE_INITIAL, head); + return output; + } + function injectNode(machine, node) { + machine.nodes.push(node); + return machine.nodes.length - 1; + } + function simplifyMachine(input) { + const visited = /* @__PURE__ */ new Set(); + const process5 = (node) => { + if (visited.has(node)) + return; + visited.add(node); + const nodeDef = input.nodes[node]; + for (const transitions of Object.values(nodeDef.statics)) + for (const { to } of transitions) + process5(to); + for (const [, { to }] of nodeDef.dynamics) + process5(to); + for (const { to } of nodeDef.shortcuts) + process5(to); + const shortcuts = new Set(nodeDef.shortcuts.map(({ to }) => to)); + while (nodeDef.shortcuts.length > 0) { + const { to } = nodeDef.shortcuts.shift(); + const toDef = input.nodes[to]; + for (const [segment, transitions] of Object.entries(toDef.statics)) { + const store = !Object.prototype.hasOwnProperty.call(nodeDef.statics, segment) ? nodeDef.statics[segment] = [] : nodeDef.statics[segment]; + for (const transition of transitions) { + if (!store.some(({ to: to2 }) => transition.to === to2)) { + store.push(transition); + } + } + } + for (const [test, transition] of toDef.dynamics) + if (!nodeDef.dynamics.some(([otherTest, { to: to2 }]) => test === otherTest && transition.to === to2)) + nodeDef.dynamics.push([test, transition]); + for (const transition of toDef.shortcuts) { + if (!shortcuts.has(transition.to)) { + nodeDef.shortcuts.push(transition); + shortcuts.add(transition.to); + } } - } else if (typeof version2 !== "string") { - throw new TypeError(`Invalid version. Must be a string. Got type "${typeof version2}".`); - } - if (version2.length > MAX_LENGTH) { - throw new TypeError( - `version is longer than ${MAX_LENGTH} characters` - ); - } - debug2("SemVer", version2, options); - this.options = options; - this.loose = !!options.loose; - this.includePrerelease = !!options.includePrerelease; - const m = version2.trim().match(options.loose ? re[t.LOOSE] : re[t.FULL]); - if (!m) { - throw new TypeError(`Invalid Version: ${version2}`); } - this.raw = version2; - this.major = +m[1]; - this.minor = +m[2]; - this.patch = +m[3]; - if (this.major > MAX_SAFE_INTEGER || this.major < 0) { - throw new TypeError("Invalid major version"); + }; + process5(constants2.NODE_INITIAL); + } + function debugMachine(machine, { prefix = `` } = {}) { + if (constants2.DEBUG) { + debug(`${prefix}Nodes are:`); + for (let t = 0; t < machine.nodes.length; ++t) { + debug(`${prefix} ${t}: ${JSON.stringify(machine.nodes[t])}`); + } + } + } + function runMachineInternal(machine, input, partial = false) { + debug(`Running a vm on ${JSON.stringify(input)}`); + let branches = [{ node: constants2.NODE_INITIAL, state: { + candidateUsage: null, + requiredOptions: [], + errorMessage: null, + ignoreOptions: false, + options: [], + path: [], + positionals: [], + remainder: null, + selectedIndex: null + } }]; + debugMachine(machine, { prefix: ` ` }); + const tokens = [constants2.START_OF_INPUT, ...input]; + for (let t = 0; t < tokens.length; ++t) { + const segment = tokens[t]; + debug(` Processing ${JSON.stringify(segment)}`); + const nextBranches = []; + for (const { node, state } of branches) { + debug(` Current node is ${node}`); + const nodeDef = machine.nodes[node]; + if (node === constants2.NODE_ERRORED) { + nextBranches.push({ node, state }); + continue; + } + console.assert(nodeDef.shortcuts.length === 0, `Shortcuts should have been eliminated by now`); + const hasExactMatch = Object.prototype.hasOwnProperty.call(nodeDef.statics, segment); + if (!partial || t < tokens.length - 1 || hasExactMatch) { + if (hasExactMatch) { + const transitions = nodeDef.statics[segment]; + for (const { to, reducer } of transitions) { + nextBranches.push({ node: to, state: typeof reducer !== `undefined` ? execute(reducers, reducer, state, segment) : state }); + debug(` Static transition to ${to} found`); + } + } else { + debug(` No static transition found`); + } + } else { + let hasMatches = false; + for (const candidate of Object.keys(nodeDef.statics)) { + if (!candidate.startsWith(segment)) + continue; + if (segment === candidate) { + for (const { to, reducer } of nodeDef.statics[candidate]) { + nextBranches.push({ node: to, state: typeof reducer !== `undefined` ? execute(reducers, reducer, state, segment) : state }); + debug(` Static transition to ${to} found`); + } + } else { + for (const { to } of nodeDef.statics[candidate]) { + nextBranches.push({ node: to, state: { ...state, remainder: candidate.slice(segment.length) } }); + debug(` Static transition to ${to} found (partial match)`); + } + } + hasMatches = true; + } + if (!hasMatches) { + debug(` No partial static transition found`); + } + } + if (segment !== constants2.END_OF_INPUT) { + for (const [test, { to, reducer }] of nodeDef.dynamics) { + if (execute(tests, test, state, segment)) { + nextBranches.push({ node: to, state: typeof reducer !== `undefined` ? execute(reducers, reducer, state, segment) : state }); + debug(` Dynamic transition to ${to} found (via ${test})`); + } + } + } } - if (this.minor > MAX_SAFE_INTEGER || this.minor < 0) { - throw new TypeError("Invalid minor version"); + if (nextBranches.length === 0 && segment === constants2.END_OF_INPUT && input.length === 1) { + return [{ + node: constants2.NODE_INITIAL, + state: basicHelpState + }]; } - if (this.patch > MAX_SAFE_INTEGER || this.patch < 0) { - throw new TypeError("Invalid patch version"); + if (nextBranches.length === 0) { + throw new errors.UnknownSyntaxError(input, branches.filter(({ node }) => { + return node !== constants2.NODE_ERRORED; + }).map(({ state }) => { + return { usage: state.candidateUsage, reason: null }; + })); } - if (!m[4]) { - this.prerelease = []; - } else { - this.prerelease = m[4].split(".").map((id) => { - if (/^[0-9]+$/.test(id)) { - const num = +id; - if (num >= 0 && num < MAX_SAFE_INTEGER) { - return num; - } - } - return id; - }); + if (nextBranches.every(({ node }) => node === constants2.NODE_ERRORED)) { + throw new errors.UnknownSyntaxError(input, nextBranches.map(({ state }) => { + return { usage: state.candidateUsage, reason: state.errorMessage }; + })); } - this.build = m[5] ? m[5].split(".") : []; - this.format(); + branches = trimSmallerBranches(nextBranches); } - format() { - this.version = `${this.major}.${this.minor}.${this.patch}`; - if (this.prerelease.length) { - this.version += `-${this.prerelease.join(".")}`; + if (branches.length > 0) { + debug(` Results:`); + for (const branch of branches) { + debug(` - ${branch.node} -> ${JSON.stringify(branch.state)}`); } - return this.version; + } else { + debug(` No results`); } - toString() { - return this.version; + return branches; + } + function checkIfNodeIsFinished(node, state) { + if (state.selectedIndex !== null) + return true; + if (Object.prototype.hasOwnProperty.call(node.statics, constants2.END_OF_INPUT)) { + for (const { to } of node.statics[constants2.END_OF_INPUT]) + if (to === constants2.NODE_SUCCESS) + return true; } - compare(other) { - debug2("SemVer.compare", this.version, this.options, other); - if (!(other instanceof _SemVer)) { - if (typeof other === "string" && other === this.version) { - return 0; + return false; + } + function suggestMachine(machine, input, partial) { + const prefix = partial && input.length > 0 ? [``] : []; + const branches = runMachineInternal(machine, input, partial); + const suggestions = []; + const suggestionsJson = /* @__PURE__ */ new Set(); + const traverseSuggestion = (suggestion, node, skipFirst = true) => { + let nextNodes = [node]; + while (nextNodes.length > 0) { + const currentNodes = nextNodes; + nextNodes = []; + for (const node2 of currentNodes) { + const nodeDef = machine.nodes[node2]; + const keys = Object.keys(nodeDef.statics); + for (const key of Object.keys(nodeDef.statics)) { + const segment = keys[0]; + for (const { to, reducer } of nodeDef.statics[segment]) { + if (reducer !== `pushPath`) + continue; + if (!skipFirst) + suggestion.push(segment); + nextNodes.push(to); + } + } } - other = new _SemVer(other, this.options); - } - if (other.version === this.version) { - return 0; - } - return this.compareMain(other) || this.comparePre(other); - } - compareMain(other) { - if (!(other instanceof _SemVer)) { - other = new _SemVer(other, this.options); - } - if (this.major < other.major) { - return -1; - } - if (this.major > other.major) { - return 1; - } - if (this.minor < other.minor) { - return -1; + skipFirst = false; } - if (this.minor > other.minor) { - return 1; + const json = JSON.stringify(suggestion); + if (suggestionsJson.has(json)) + return; + suggestions.push(suggestion); + suggestionsJson.add(json); + }; + for (const { node, state } of branches) { + if (state.remainder !== null) { + traverseSuggestion([state.remainder], node); + continue; } - if (this.patch < other.patch) { - return -1; + const nodeDef = machine.nodes[node]; + const isFinished = checkIfNodeIsFinished(nodeDef, state); + for (const [candidate, transitions] of Object.entries(nodeDef.statics)) + if (isFinished && candidate !== constants2.END_OF_INPUT || !candidate.startsWith(`-`) && transitions.some(({ reducer }) => reducer === `pushPath`)) + traverseSuggestion([...prefix, candidate], node); + if (!isFinished) + continue; + for (const [test, { to }] of nodeDef.dynamics) { + if (to === constants2.NODE_ERRORED) + continue; + const tokens = suggest(test, state); + if (tokens === null) + continue; + for (const token of tokens) { + traverseSuggestion([...prefix, token], node); + } } - if (this.patch > other.patch) { - return 1; + } + return [...suggestions].sort(); + } + function runMachine(machine, input) { + const branches = runMachineInternal(machine, [...input, constants2.END_OF_INPUT]); + return selectBestState(input, branches.map(({ state }) => { + return state; + })); + } + function trimSmallerBranches(branches) { + let maxPathSize = 0; + for (const { state } of branches) + if (state.path.length > maxPathSize) + maxPathSize = state.path.length; + return branches.filter(({ state }) => { + return state.path.length === maxPathSize; + }); + } + function selectBestState(input, states) { + const terminalStates = states.filter((state) => { + return state.selectedIndex !== null; + }); + if (terminalStates.length === 0) + throw new Error(); + const requiredOptionsSetStates = terminalStates.filter((state) => state.selectedIndex === constants2.HELP_COMMAND_INDEX || state.requiredOptions.every((names) => names.some((name2) => state.options.find((opt) => opt.name === name2)))); + if (requiredOptionsSetStates.length === 0) { + throw new errors.UnknownSyntaxError(input, terminalStates.map((state) => ({ + usage: state.candidateUsage, + reason: null + }))); + } + let maxPathSize = 0; + for (const state of requiredOptionsSetStates) + if (state.path.length > maxPathSize) + maxPathSize = state.path.length; + const bestPathBranches = requiredOptionsSetStates.filter((state) => { + return state.path.length === maxPathSize; + }); + const getPositionalCount = (state) => state.positionals.filter(({ extra }) => { + return !extra; + }).length + state.options.length; + const statesWithPositionalCount = bestPathBranches.map((state) => { + return { state, positionalCount: getPositionalCount(state) }; + }); + let maxPositionalCount = 0; + for (const { positionalCount } of statesWithPositionalCount) + if (positionalCount > maxPositionalCount) + maxPositionalCount = positionalCount; + const bestPositionalStates = statesWithPositionalCount.filter(({ positionalCount }) => { + return positionalCount === maxPositionalCount; + }).map(({ state }) => { + return state; + }); + const fixedStates = aggregateHelpStates(bestPositionalStates); + if (fixedStates.length > 1) + throw new errors.AmbiguousSyntaxError(input, fixedStates.map((state) => state.candidateUsage)); + return fixedStates[0]; + } + function aggregateHelpStates(states) { + const notHelps = []; + const helps = []; + for (const state of states) { + if (state.selectedIndex === constants2.HELP_COMMAND_INDEX) { + helps.push(state); + } else { + notHelps.push(state); } - return 0; } - comparePre(other) { - if (!(other instanceof _SemVer)) { - other = new _SemVer(other, this.options); + if (helps.length > 0) { + notHelps.push({ + ...basicHelpState, + path: findCommonPrefix(...helps.map((state) => state.path)), + options: helps.reduce((options, state) => options.concat(state.options), []) + }); + } + return notHelps; + } + function findCommonPrefix(firstPath, secondPath, ...rest) { + if (secondPath === void 0) + return Array.from(firstPath); + return findCommonPrefix(firstPath.filter((segment, i) => segment === secondPath[i]), ...rest); + } + function makeNode() { + return { + dynamics: [], + shortcuts: [], + statics: {} + }; + } + function isTerminalNode(node) { + return node === constants2.NODE_SUCCESS || node === constants2.NODE_ERRORED; + } + function cloneTransition(input, offset = 0) { + return { + to: !isTerminalNode(input.to) ? input.to > 2 ? input.to + offset - 2 : input.to + offset : input.to, + reducer: input.reducer + }; + } + function cloneNode(input, offset = 0) { + const output = makeNode(); + for (const [test, transition] of input.dynamics) + output.dynamics.push([test, cloneTransition(transition, offset)]); + for (const transition of input.shortcuts) + output.shortcuts.push(cloneTransition(transition, offset)); + for (const [segment, transitions] of Object.entries(input.statics)) + output.statics[segment] = transitions.map((transition) => cloneTransition(transition, offset)); + return output; + } + function registerDynamic(machine, from, test, to, reducer) { + machine.nodes[from].dynamics.push([ + test, + { to, reducer } + ]); + } + function registerShortcut(machine, from, to, reducer) { + machine.nodes[from].shortcuts.push({ to, reducer }); + } + function registerStatic(machine, from, test, to, reducer) { + const store = !Object.prototype.hasOwnProperty.call(machine.nodes[from].statics, test) ? machine.nodes[from].statics[test] = [] : machine.nodes[from].statics[test]; + store.push({ to, reducer }); + } + function execute(store, callback, state, segment) { + if (Array.isArray(callback)) { + const [name2, ...args] = callback; + return store[name2](state, segment, ...args); + } else { + return store[callback](state, segment); + } + } + function suggest(callback, state) { + const fn2 = Array.isArray(callback) ? tests[callback[0]] : tests[callback]; + if (typeof fn2.suggest === `undefined`) + return null; + const args = Array.isArray(callback) ? callback.slice(1) : []; + return fn2.suggest(state, ...args); + } + var tests = { + always: () => { + return true; + }, + isOptionLike: (state, segment) => { + return !state.ignoreOptions && (segment !== `-` && segment.startsWith(`-`)); + }, + isNotOptionLike: (state, segment) => { + return state.ignoreOptions || segment === `-` || !segment.startsWith(`-`); + }, + isOption: (state, segment, name2, hidden) => { + return !state.ignoreOptions && segment === name2; + }, + isBatchOption: (state, segment, names) => { + return !state.ignoreOptions && constants2.BATCH_REGEX.test(segment) && [...segment.slice(1)].every((name2) => names.includes(`-${name2}`)); + }, + isBoundOption: (state, segment, names, options) => { + const optionParsing = segment.match(constants2.BINDING_REGEX); + return !state.ignoreOptions && !!optionParsing && constants2.OPTION_REGEX.test(optionParsing[1]) && names.includes(optionParsing[1]) && options.filter((opt) => opt.names.includes(optionParsing[1])).every((opt) => opt.allowBinding); + }, + isNegatedOption: (state, segment, name2) => { + return !state.ignoreOptions && segment === `--no-${name2.slice(2)}`; + }, + isHelp: (state, segment) => { + return !state.ignoreOptions && constants2.HELP_REGEX.test(segment); + }, + isUnsupportedOption: (state, segment, names) => { + return !state.ignoreOptions && segment.startsWith(`-`) && constants2.OPTION_REGEX.test(segment) && !names.includes(segment); + }, + isInvalidOption: (state, segment) => { + return !state.ignoreOptions && segment.startsWith(`-`) && !constants2.OPTION_REGEX.test(segment); + } + }; + tests.isOption.suggest = (state, name2, hidden = true) => { + return !hidden ? [name2] : null; + }; + var reducers = { + setCandidateState: (state, segment, candidateState) => { + return { ...state, ...candidateState }; + }, + setSelectedIndex: (state, segment, index) => { + return { ...state, selectedIndex: index }; + }, + pushBatch: (state, segment) => { + return { ...state, options: state.options.concat([...segment.slice(1)].map((name2) => ({ name: `-${name2}`, value: true }))) }; + }, + pushBound: (state, segment) => { + const [, name2, value] = segment.match(constants2.BINDING_REGEX); + return { ...state, options: state.options.concat({ name: name2, value }) }; + }, + pushPath: (state, segment) => { + return { ...state, path: state.path.concat(segment) }; + }, + pushPositional: (state, segment) => { + return { ...state, positionals: state.positionals.concat({ value: segment, extra: false }) }; + }, + pushExtra: (state, segment) => { + return { ...state, positionals: state.positionals.concat({ value: segment, extra: true }) }; + }, + pushExtraNoLimits: (state, segment) => { + return { ...state, positionals: state.positionals.concat({ value: segment, extra: NoLimits }) }; + }, + pushTrue: (state, segment, name2 = segment) => { + return { ...state, options: state.options.concat({ name: segment, value: true }) }; + }, + pushFalse: (state, segment, name2 = segment) => { + return { ...state, options: state.options.concat({ name: name2, value: false }) }; + }, + pushUndefined: (state, segment) => { + return { ...state, options: state.options.concat({ name: segment, value: void 0 }) }; + }, + pushStringValue: (state, segment) => { + var _a; + const copy = { ...state, options: [...state.options] }; + const lastOption = state.options[state.options.length - 1]; + lastOption.value = ((_a = lastOption.value) !== null && _a !== void 0 ? _a : []).concat([segment]); + return copy; + }, + setStringValue: (state, segment) => { + const copy = { ...state, options: [...state.options] }; + const lastOption = state.options[state.options.length - 1]; + lastOption.value = segment; + return copy; + }, + inhibateOptions: (state) => { + return { ...state, ignoreOptions: true }; + }, + useHelp: (state, segment, command) => { + const [ + , + /* name */ + , + index + ] = segment.match(constants2.HELP_REGEX); + if (typeof index !== `undefined`) { + return { ...state, options: [{ name: `-c`, value: String(command) }, { name: `-i`, value: index }] }; + } else { + return { ...state, options: [{ name: `-c`, value: String(command) }] }; } - if (this.prerelease.length && !other.prerelease.length) { - return -1; - } else if (!this.prerelease.length && other.prerelease.length) { - return 1; - } else if (!this.prerelease.length && !other.prerelease.length) { - return 0; + }, + setError: (state, segment, errorMessage) => { + if (segment === constants2.END_OF_INPUT) { + return { ...state, errorMessage: `${errorMessage}.` }; + } else { + return { ...state, errorMessage: `${errorMessage} ("${segment}").` }; } - let i = 0; - do { - const a = this.prerelease[i]; - const b = other.prerelease[i]; - debug2("prerelease compare", i, a, b); - if (a === void 0 && b === void 0) { - return 0; - } else if (b === void 0) { - return 1; - } else if (a === void 0) { - return -1; - } else if (a === b) { - continue; - } else { - return compareIdentifiers(a, b); - } - } while (++i); + }, + setOptionArityError: (state, segment) => { + const lastOption = state.options[state.options.length - 1]; + return { ...state, errorMessage: `Not enough arguments to option ${lastOption.name}.` }; + } + }; + var NoLimits = /* @__PURE__ */ Symbol(); + var CommandBuilder = class { + constructor(cliIndex, cliOpts) { + this.allOptionNames = []; + this.arity = { leading: [], trailing: [], extra: [], proxy: false }; + this.options = []; + this.paths = []; + this.cliIndex = cliIndex; + this.cliOpts = cliOpts; + } + addPath(path16) { + this.paths.push(path16); + } + setArity({ leading = this.arity.leading, trailing = this.arity.trailing, extra = this.arity.extra, proxy = this.arity.proxy }) { + Object.assign(this.arity, { leading, trailing, extra, proxy }); + } + addPositional({ name: name2 = `arg`, required = true } = {}) { + if (!required && this.arity.extra === NoLimits) + throw new Error(`Optional parameters cannot be declared when using .rest() or .proxy()`); + if (!required && this.arity.trailing.length > 0) + throw new Error(`Optional parameters cannot be declared after the required trailing positional arguments`); + if (!required && this.arity.extra !== NoLimits) { + this.arity.extra.push(name2); + } else if (this.arity.extra !== NoLimits && this.arity.extra.length === 0) { + this.arity.leading.push(name2); + } else { + this.arity.trailing.push(name2); + } + } + addRest({ name: name2 = `arg`, required = 0 } = {}) { + if (this.arity.extra === NoLimits) + throw new Error(`Infinite lists cannot be declared multiple times in the same command`); + if (this.arity.trailing.length > 0) + throw new Error(`Infinite lists cannot be declared after the required trailing positional arguments`); + for (let t = 0; t < required; ++t) + this.addPositional({ name: name2 }); + this.arity.extra = NoLimits; + } + addProxy({ required = 0 } = {}) { + this.addRest({ required }); + this.arity.proxy = true; + } + addOption({ names, description, arity = 0, hidden = false, required = false, allowBinding = true }) { + if (!allowBinding && arity > 1) + throw new Error(`The arity cannot be higher than 1 when the option only supports the --arg=value syntax`); + if (!Number.isInteger(arity)) + throw new Error(`The arity must be an integer, got ${arity}`); + if (arity < 0) + throw new Error(`The arity must be positive, got ${arity}`); + this.allOptionNames.push(...names); + this.options.push({ names, description, arity, hidden, required, allowBinding }); + } + setContext(context) { + this.context = context; } - compareBuild(other) { - if (!(other instanceof _SemVer)) { - other = new _SemVer(other, this.options); + usage({ detailed = true, inlineOptions = true } = {}) { + const segments = [this.cliOpts.binaryName]; + const detailedOptionList = []; + if (this.paths.length > 0) + segments.push(...this.paths[0]); + if (detailed) { + for (const { names, arity, hidden, description, required } of this.options) { + if (hidden) + continue; + const args = []; + for (let t = 0; t < arity; ++t) + args.push(` #${t}`); + const definition = `${names.join(`,`)}${args.join(``)}`; + if (!inlineOptions && description) { + detailedOptionList.push({ definition, description, required }); + } else { + segments.push(required ? `<${definition}>` : `[${definition}]`); + } + } + segments.push(...this.arity.leading.map((name2) => `<${name2}>`)); + if (this.arity.extra === NoLimits) + segments.push(`...`); + else + segments.push(...this.arity.extra.map((name2) => `[${name2}]`)); + segments.push(...this.arity.trailing.map((name2) => `<${name2}>`)); + } + const usage = segments.join(` `); + return { usage, options: detailedOptionList }; + } + compile() { + if (typeof this.context === `undefined`) + throw new Error(`Assertion failed: No context attached`); + const machine = makeStateMachine(); + let firstNode = constants2.NODE_INITIAL; + const candidateUsage = this.usage().usage; + const requiredOptions = this.options.filter((opt) => opt.required).map((opt) => opt.names); + firstNode = injectNode(machine, makeNode()); + registerStatic(machine, constants2.NODE_INITIAL, constants2.START_OF_INPUT, firstNode, [`setCandidateState`, { candidateUsage, requiredOptions }]); + const positionalArgument = this.arity.proxy ? `always` : `isNotOptionLike`; + const paths = this.paths.length > 0 ? this.paths : [[]]; + for (const path16 of paths) { + let lastPathNode = firstNode; + if (path16.length > 0) { + const optionPathNode = injectNode(machine, makeNode()); + registerShortcut(machine, lastPathNode, optionPathNode); + this.registerOptions(machine, optionPathNode); + lastPathNode = optionPathNode; + } + for (let t = 0; t < path16.length; ++t) { + const nextPathNode = injectNode(machine, makeNode()); + registerStatic(machine, lastPathNode, path16[t], nextPathNode, `pushPath`); + lastPathNode = nextPathNode; + } + if (this.arity.leading.length > 0 || !this.arity.proxy) { + const helpNode = injectNode(machine, makeNode()); + registerDynamic(machine, lastPathNode, `isHelp`, helpNode, [`useHelp`, this.cliIndex]); + registerDynamic(machine, helpNode, `always`, helpNode, `pushExtra`); + registerStatic(machine, helpNode, constants2.END_OF_INPUT, constants2.NODE_SUCCESS, [`setSelectedIndex`, constants2.HELP_COMMAND_INDEX]); + this.registerOptions(machine, lastPathNode); + } + if (this.arity.leading.length > 0) + registerStatic(machine, lastPathNode, constants2.END_OF_INPUT, constants2.NODE_ERRORED, [`setError`, `Not enough positional arguments`]); + let lastLeadingNode = lastPathNode; + for (let t = 0; t < this.arity.leading.length; ++t) { + const nextLeadingNode = injectNode(machine, makeNode()); + if (!this.arity.proxy || t + 1 !== this.arity.leading.length) + this.registerOptions(machine, nextLeadingNode); + if (this.arity.trailing.length > 0 || t + 1 !== this.arity.leading.length) + registerStatic(machine, nextLeadingNode, constants2.END_OF_INPUT, constants2.NODE_ERRORED, [`setError`, `Not enough positional arguments`]); + registerDynamic(machine, lastLeadingNode, `isNotOptionLike`, nextLeadingNode, `pushPositional`); + lastLeadingNode = nextLeadingNode; + } + let lastExtraNode = lastLeadingNode; + if (this.arity.extra === NoLimits || this.arity.extra.length > 0) { + const extraShortcutNode = injectNode(machine, makeNode()); + registerShortcut(machine, lastLeadingNode, extraShortcutNode); + if (this.arity.extra === NoLimits) { + const extraNode = injectNode(machine, makeNode()); + if (!this.arity.proxy) + this.registerOptions(machine, extraNode); + registerDynamic(machine, lastLeadingNode, positionalArgument, extraNode, `pushExtraNoLimits`); + registerDynamic(machine, extraNode, positionalArgument, extraNode, `pushExtraNoLimits`); + registerShortcut(machine, extraNode, extraShortcutNode); + } else { + for (let t = 0; t < this.arity.extra.length; ++t) { + const nextExtraNode = injectNode(machine, makeNode()); + if (!this.arity.proxy || t > 0) + this.registerOptions(machine, nextExtraNode); + registerDynamic(machine, lastExtraNode, positionalArgument, nextExtraNode, `pushExtra`); + registerShortcut(machine, nextExtraNode, extraShortcutNode); + lastExtraNode = nextExtraNode; + } + } + lastExtraNode = extraShortcutNode; + } + if (this.arity.trailing.length > 0) + registerStatic(machine, lastExtraNode, constants2.END_OF_INPUT, constants2.NODE_ERRORED, [`setError`, `Not enough positional arguments`]); + let lastTrailingNode = lastExtraNode; + for (let t = 0; t < this.arity.trailing.length; ++t) { + const nextTrailingNode = injectNode(machine, makeNode()); + if (!this.arity.proxy) + this.registerOptions(machine, nextTrailingNode); + if (t + 1 < this.arity.trailing.length) + registerStatic(machine, nextTrailingNode, constants2.END_OF_INPUT, constants2.NODE_ERRORED, [`setError`, `Not enough positional arguments`]); + registerDynamic(machine, lastTrailingNode, `isNotOptionLike`, nextTrailingNode, `pushPositional`); + lastTrailingNode = nextTrailingNode; + } + registerDynamic(machine, lastTrailingNode, positionalArgument, constants2.NODE_ERRORED, [`setError`, `Extraneous positional argument`]); + registerStatic(machine, lastTrailingNode, constants2.END_OF_INPUT, constants2.NODE_SUCCESS, [`setSelectedIndex`, this.cliIndex]); } - let i = 0; - do { - const a = this.build[i]; - const b = other.build[i]; - debug2("build compare", i, a, b); - if (a === void 0 && b === void 0) { - return 0; - } else if (b === void 0) { - return 1; - } else if (a === void 0) { - return -1; - } else if (a === b) { - continue; + return { + machine, + context: this.context + }; + } + registerOptions(machine, node) { + registerDynamic(machine, node, [`isOption`, `--`], node, `inhibateOptions`); + registerDynamic(machine, node, [`isBatchOption`, this.allOptionNames], node, `pushBatch`); + registerDynamic(machine, node, [`isBoundOption`, this.allOptionNames, this.options], node, `pushBound`); + registerDynamic(machine, node, [`isUnsupportedOption`, this.allOptionNames], constants2.NODE_ERRORED, [`setError`, `Unsupported option name`]); + registerDynamic(machine, node, [`isInvalidOption`], constants2.NODE_ERRORED, [`setError`, `Invalid option name`]); + for (const option of this.options) { + const longestName = option.names.reduce((longestName2, name2) => { + return name2.length > longestName2.length ? name2 : longestName2; + }, ``); + if (option.arity === 0) { + for (const name2 of option.names) { + registerDynamic(machine, node, [`isOption`, name2, option.hidden || name2 !== longestName], node, `pushTrue`); + if (name2.startsWith(`--`) && !name2.startsWith(`--no-`)) { + registerDynamic(machine, node, [`isNegatedOption`, name2], node, [`pushFalse`, name2]); + } + } } else { - return compareIdentifiers(a, b); + let lastNode = injectNode(machine, makeNode()); + for (const name2 of option.names) + registerDynamic(machine, node, [`isOption`, name2, option.hidden || name2 !== longestName], lastNode, `pushUndefined`); + for (let t = 0; t < option.arity; ++t) { + const nextNode = injectNode(machine, makeNode()); + registerStatic(machine, lastNode, constants2.END_OF_INPUT, constants2.NODE_ERRORED, `setOptionArityError`); + registerDynamic(machine, lastNode, `isOptionLike`, constants2.NODE_ERRORED, `setOptionArityError`); + const action = option.arity === 1 ? `setStringValue` : `pushStringValue`; + registerDynamic(machine, lastNode, `isNotOptionLike`, nextNode, action); + lastNode = nextNode; + } + registerShortcut(machine, lastNode, node); } - } while (++i); - } - // preminor will bump the version up to the next minor release, and immediately - // down to pre-release. premajor and prepatch work the same way. - inc(release, identifier, identifierBase) { - if (release.startsWith("pre")) { - if (!identifier && identifierBase === false) { - throw new Error("invalid increment argument: identifier is empty"); - } - if (identifier) { - const match = `-${identifier}`.match(this.options.loose ? re[t.PRERELEASELOOSE] : re[t.PRERELEASE]); - if (!match || match[1] !== identifier) { - throw new Error(`invalid identifier: ${identifier}`); - } - } - } - switch (release) { - case "premajor": - this.prerelease.length = 0; - this.patch = 0; - this.minor = 0; - this.major++; - this.inc("pre", identifier, identifierBase); - break; - case "preminor": - this.prerelease.length = 0; - this.patch = 0; - this.minor++; - this.inc("pre", identifier, identifierBase); - break; - case "prepatch": - this.prerelease.length = 0; - this.inc("patch", identifier, identifierBase); - this.inc("pre", identifier, identifierBase); - break; - // If the input is a non-prerelease version, this acts the same as - // prepatch. - case "prerelease": - if (this.prerelease.length === 0) { - this.inc("patch", identifier, identifierBase); - } - this.inc("pre", identifier, identifierBase); - break; - case "release": - if (this.prerelease.length === 0) { - throw new Error(`version ${this.raw} is not a prerelease`); - } - this.prerelease.length = 0; - break; - case "major": - if (this.minor !== 0 || this.patch !== 0 || this.prerelease.length === 0) { - this.major++; - } - this.minor = 0; - this.patch = 0; - this.prerelease = []; - break; - case "minor": - if (this.patch !== 0 || this.prerelease.length === 0) { - this.minor++; - } - this.patch = 0; - this.prerelease = []; - break; - case "patch": - if (this.prerelease.length === 0) { - this.patch++; - } - this.prerelease = []; - break; - // This probably shouldn't be used publicly. - // 1.0.0 'pre' would become 1.0.0-0 which is the wrong direction. - case "pre": { - const base = Number(identifierBase) ? 1 : 0; - if (this.prerelease.length === 0) { - this.prerelease = [base]; - } else { - let i = this.prerelease.length; - while (--i >= 0) { - if (typeof this.prerelease[i] === "number") { - this.prerelease[i]++; - i = -2; - } - } - if (i === -1) { - if (identifier === this.prerelease.join(".") && identifierBase === false) { - throw new Error("invalid increment argument: identifier already exists"); - } - this.prerelease.push(base); - } - } - if (identifier) { - let prerelease = [identifier, base]; - if (identifierBase === false) { - prerelease = [identifier]; - } - if (compareIdentifiers(this.prerelease[0], identifier) === 0) { - if (isNaN(this.prerelease[1])) { - this.prerelease = prerelease; - } - } else { - this.prerelease = prerelease; - } - } - break; - } - default: - throw new Error(`invalid increment argument: ${release}`); - } - this.raw = this.format(); - if (this.build.length) { - this.raw += `+${this.build.join(".")}`; } + } + }; + var CliBuilder = class _CliBuilder { + constructor({ binaryName = `...` } = {}) { + this.builders = []; + this.opts = { binaryName }; + } + static build(cbs, opts = {}) { + return new _CliBuilder(opts).commands(cbs).compile(); + } + getBuilderByIndex(n) { + if (!(n >= 0 && n < this.builders.length)) + throw new Error(`Assertion failed: Out-of-bound command index (${n})`); + return this.builders[n]; + } + commands(cbs) { + for (const cb of cbs) + cb(this.command()); return this; } + command() { + const builder = new CommandBuilder(this.builders.length, this.opts); + this.builders.push(builder); + return builder; + } + compile() { + const machines = []; + const contexts = []; + for (const builder of this.builders) { + const { machine: machine2, context } = builder.compile(); + machines.push(machine2); + contexts.push(context); + } + const machine = makeAnyOfMachine(machines); + simplifyMachine(machine); + return { + machine, + contexts, + process: (input) => { + return runMachine(machine, input); + }, + suggest: (input, partial) => { + return suggestMachine(machine, input, partial); + } + }; + } }; - module2.exports = SemVer3; - } -}); - -// .yarn/cache/semver-npm-7.7.3-9cf7b3b46c-4afe5c9865.zip/node_modules/semver/functions/compare.js -var require_compare = __commonJS({ - ".yarn/cache/semver-npm-7.7.3-9cf7b3b46c-4afe5c9865.zip/node_modules/semver/functions/compare.js"(exports2, module2) { - "use strict"; - var SemVer3 = require_semver(); - var compare = (a, b, loose) => new SemVer3(a, loose).compare(new SemVer3(b, loose)); - module2.exports = compare; - } -}); - -// .yarn/cache/semver-npm-7.7.3-9cf7b3b46c-4afe5c9865.zip/node_modules/semver/functions/rcompare.js -var require_rcompare = __commonJS({ - ".yarn/cache/semver-npm-7.7.3-9cf7b3b46c-4afe5c9865.zip/node_modules/semver/functions/rcompare.js"(exports2, module2) { - "use strict"; - var compare = require_compare(); - var rcompare = (a, b, loose) => compare(b, a, loose); - module2.exports = rcompare; + exports2.CliBuilder = CliBuilder; + exports2.CommandBuilder = CommandBuilder; + exports2.NoLimits = NoLimits; + exports2.aggregateHelpStates = aggregateHelpStates; + exports2.cloneNode = cloneNode; + exports2.cloneTransition = cloneTransition; + exports2.debug = debug; + exports2.debugMachine = debugMachine; + exports2.execute = execute; + exports2.injectNode = injectNode; + exports2.isTerminalNode = isTerminalNode; + exports2.makeAnyOfMachine = makeAnyOfMachine; + exports2.makeNode = makeNode; + exports2.makeStateMachine = makeStateMachine; + exports2.reducers = reducers; + exports2.registerDynamic = registerDynamic; + exports2.registerShortcut = registerShortcut; + exports2.registerStatic = registerStatic; + exports2.runMachineInternal = runMachineInternal; + exports2.selectBestState = selectBestState; + exports2.simplifyMachine = simplifyMachine; + exports2.suggest = suggest; + exports2.tests = tests; + exports2.trimSmallerBranches = trimSmallerBranches; + } +}); + +// node_modules/clipanion/lib/platform/node.mjs +var node_exports = {}; +__export(node_exports, { + getCaptureActivator: () => getCaptureActivator, + getDefaultColorDepth: () => getDefaultColorDepth +}); +function getDefaultColorDepth() { + if (import_tty.default && `getColorDepth` in import_tty.default.WriteStream.prototype) + return import_tty.default.WriteStream.prototype.getColorDepth(); + if (process.env.FORCE_COLOR === `0`) + return 1; + if (process.env.FORCE_COLOR === `1`) + return 8; + if (typeof process.stdout !== `undefined` && process.stdout.isTTY) + return 8; + return 1; +} +function getCaptureActivator(context) { + let contextStorage = gContextStorage; + if (typeof contextStorage === `undefined`) { + if (context.stdout === process.stdout && context.stderr === process.stderr) + return null; + const { AsyncLocalStorage: LazyAsyncLocalStorage } = require("async_hooks"); + contextStorage = gContextStorage = new LazyAsyncLocalStorage(); + const origStdoutWrite = process.stdout._write; + process.stdout._write = function(chunk, encoding, cb) { + const context2 = contextStorage.getStore(); + if (typeof context2 === `undefined`) + return origStdoutWrite.call(this, chunk, encoding, cb); + return context2.stdout.write(chunk, encoding, cb); + }; + const origStderrWrite = process.stderr._write; + process.stderr._write = function(chunk, encoding, cb) { + const context2 = contextStorage.getStore(); + if (typeof context2 === `undefined`) + return origStderrWrite.call(this, chunk, encoding, cb); + return context2.stderr.write(chunk, encoding, cb); + }; + } + return (fn2) => { + return contextStorage.run(context, fn2); + }; +} +var import_tty, gContextStorage; +var init_node = __esm({ + "node_modules/clipanion/lib/platform/node.mjs"() { + import_tty = __toESM(require("tty"), 1); } }); -// .yarn/cache/semver-npm-7.7.3-9cf7b3b46c-4afe5c9865.zip/node_modules/semver/functions/parse.js -var require_parse = __commonJS({ - ".yarn/cache/semver-npm-7.7.3-9cf7b3b46c-4afe5c9865.zip/node_modules/semver/functions/parse.js"(exports2, module2) { +// node_modules/clipanion/lib/advanced/HelpCommand.js +var require_HelpCommand = __commonJS({ + "node_modules/clipanion/lib/advanced/HelpCommand.js"(exports2) { "use strict"; - var SemVer3 = require_semver(); - var parse4 = (version2, options, throwErrors = false) => { - if (version2 instanceof SemVer3) { - return version2; + Object.defineProperty(exports2, "__esModule", { value: true }); + var advanced_Command = require_Command(); + var HelpCommand = class _HelpCommand extends advanced_Command.Command { + constructor(contexts) { + super(); + this.contexts = contexts; + this.commands = []; + } + static from(state, contexts) { + const command = new _HelpCommand(contexts); + command.path = state.path; + for (const opt of state.options) { + switch (opt.name) { + case `-c`: + { + command.commands.push(Number(opt.value)); + } + break; + case `-i`: + { + command.index = Number(opt.value); + } + break; + } + } + return command; } - try { - return new SemVer3(version2, options); - } catch (er) { - if (!throwErrors) { - return null; + async execute() { + let commands = this.commands; + if (typeof this.index !== `undefined` && this.index >= 0 && this.index < commands.length) + commands = [commands[this.index]]; + if (commands.length === 0) { + this.context.stdout.write(this.cli.usage()); + } else if (commands.length === 1) { + this.context.stdout.write(this.cli.usage(this.contexts[commands[0]].commandClass, { detailed: true })); + } else if (commands.length > 1) { + this.context.stdout.write(`Multiple commands match your selection: +`); + this.context.stdout.write(` +`); + let index = 0; + for (const command of this.commands) + this.context.stdout.write(this.cli.usage(this.contexts[command].commandClass, { prefix: `${index++}. `.padStart(5) })); + this.context.stdout.write(` +`); + this.context.stdout.write(`Run again with -h= to see the longer details of any of those commands. +`); } - throw er; } }; - module2.exports = parse4; - } -}); - -// .yarn/cache/semver-npm-7.7.3-9cf7b3b46c-4afe5c9865.zip/node_modules/semver/functions/valid.js -var require_valid = __commonJS({ - ".yarn/cache/semver-npm-7.7.3-9cf7b3b46c-4afe5c9865.zip/node_modules/semver/functions/valid.js"(exports2, module2) { - "use strict"; - var parse4 = require_parse(); - var valid = (version2, options) => { - const v = parse4(version2, options); - return v ? v.version : null; - }; - module2.exports = valid; + exports2.HelpCommand = HelpCommand; } }); -// .yarn/cache/semver-npm-7.7.3-9cf7b3b46c-4afe5c9865.zip/node_modules/semver/internal/lrucache.js -var require_lrucache = __commonJS({ - ".yarn/cache/semver-npm-7.7.3-9cf7b3b46c-4afe5c9865.zip/node_modules/semver/internal/lrucache.js"(exports2, module2) { +// node_modules/clipanion/lib/advanced/Cli.js +var require_Cli = __commonJS({ + "node_modules/clipanion/lib/advanced/Cli.js"(exports2) { "use strict"; - var LRUCache = class { - constructor() { - this.max = 1e3; - this.map = /* @__PURE__ */ new Map(); + Object.defineProperty(exports2, "__esModule", { value: true }); + var constants2 = require_constants(); + var core = require_core(); + var format = require_format(); + var platform5 = (init_node(), __toCommonJS(node_exports)); + var advanced_Command = require_Command(); + var advanced_HelpCommand = require_HelpCommand(); + var errorCommandSymbol = /* @__PURE__ */ Symbol(`clipanion/errorCommand`); + async function runExit(...args) { + const { resolvedOptions, resolvedCommandClasses, resolvedArgv, resolvedContext } = resolveRunParameters(args); + const cli = Cli2.from(resolvedCommandClasses, resolvedOptions); + return cli.runExit(resolvedArgv, resolvedContext); + } + async function run(...args) { + const { resolvedOptions, resolvedCommandClasses, resolvedArgv, resolvedContext } = resolveRunParameters(args); + const cli = Cli2.from(resolvedCommandClasses, resolvedOptions); + return cli.run(resolvedArgv, resolvedContext); + } + function resolveRunParameters(args) { + let resolvedOptions; + let resolvedCommandClasses; + let resolvedArgv; + let resolvedContext; + if (typeof process !== `undefined` && typeof process.argv !== `undefined`) + resolvedArgv = process.argv.slice(2); + switch (args.length) { + case 1: + { + resolvedCommandClasses = args[0]; + } + break; + case 2: + { + if (args[0] && args[0].prototype instanceof advanced_Command.Command || Array.isArray(args[0])) { + resolvedCommandClasses = args[0]; + if (Array.isArray(args[1])) { + resolvedArgv = args[1]; + } else { + resolvedContext = args[1]; + } + } else { + resolvedOptions = args[0]; + resolvedCommandClasses = args[1]; + } + } + break; + case 3: + { + if (Array.isArray(args[2])) { + resolvedOptions = args[0]; + resolvedCommandClasses = args[1]; + resolvedArgv = args[2]; + } else if (args[0] && args[0].prototype instanceof advanced_Command.Command || Array.isArray(args[0])) { + resolvedCommandClasses = args[0]; + resolvedArgv = args[1]; + resolvedContext = args[2]; + } else { + resolvedOptions = args[0]; + resolvedCommandClasses = args[1]; + resolvedContext = args[2]; + } + } + break; + default: + { + resolvedOptions = args[0]; + resolvedCommandClasses = args[1]; + resolvedArgv = args[2]; + resolvedContext = args[3]; + } + break; } - get(key) { - const value = this.map.get(key); - if (value === void 0) { - return void 0; - } else { - this.map.delete(key); - this.map.set(key, value); - return value; - } + if (typeof resolvedArgv === `undefined`) + throw new Error(`The argv parameter must be provided when running Clipanion outside of a Node context`); + return { + resolvedOptions, + resolvedCommandClasses, + resolvedArgv, + resolvedContext + }; + } + var Cli2 = class _Cli { + constructor({ binaryLabel, binaryName: binaryNameOpt = `...`, binaryVersion, enableCapture = false, enableColors } = {}) { + this.registrations = /* @__PURE__ */ new Map(); + this.builder = new core.CliBuilder({ binaryName: binaryNameOpt }); + this.binaryLabel = binaryLabel; + this.binaryName = binaryNameOpt; + this.binaryVersion = binaryVersion; + this.enableCapture = enableCapture; + this.enableColors = enableColors; } - delete(key) { - return this.map.delete(key); + /** + * Creates a new Cli and registers all commands passed as parameters. + * + * @param commandClasses The Commands to register + * @returns The created `Cli` instance + */ + static from(commandClasses, options = {}) { + const cli = new _Cli(options); + const resolvedCommandClasses = Array.isArray(commandClasses) ? commandClasses : [commandClasses]; + for (const commandClass of resolvedCommandClasses) + cli.register(commandClass); + return cli; } - set(key, value) { - const deleted = this.delete(key); - if (!deleted && value !== void 0) { - if (this.map.size >= this.max) { - const firstKey = this.map.keys().next().value; - this.delete(firstKey); + /** + * Registers a command inside the CLI. + */ + register(commandClass) { + var _a; + const specs = /* @__PURE__ */ new Map(); + const command = new commandClass(); + for (const key in command) { + const value = command[key]; + if (typeof value === `object` && value !== null && value[advanced_Command.Command.isOption]) { + specs.set(key, value); + } + } + const builder = this.builder.command(); + const index = builder.cliIndex; + const paths = (_a = commandClass.paths) !== null && _a !== void 0 ? _a : command.paths; + if (typeof paths !== `undefined`) + for (const path16 of paths) + builder.addPath(path16); + this.registrations.set(commandClass, { specs, builder, index }); + for (const [key, { definition }] of specs.entries()) + definition(builder, key); + builder.setContext({ + commandClass + }); + } + process(input, userContext) { + const { contexts, process: process5 } = this.builder.compile(); + const state = process5(input); + const context = { + ..._Cli.defaultContext, + ...userContext + }; + switch (state.selectedIndex) { + case constants2.HELP_COMMAND_INDEX: { + const command = advanced_HelpCommand.HelpCommand.from(state, contexts); + command.context = context; + return command; } - this.map.set(key, value); + default: + { + const { commandClass } = contexts[state.selectedIndex]; + const record = this.registrations.get(commandClass); + if (typeof record === `undefined`) + throw new Error(`Assertion failed: Expected the command class to have been registered.`); + const command = new commandClass(); + command.context = context; + command.path = state.path; + try { + for (const [key, { transformer }] of record.specs.entries()) + command[key] = transformer(record.builder, key, state, context); + return command; + } catch (error) { + error[errorCommandSymbol] = command; + throw error; + } + } + break; } - return this; } - }; - module2.exports = LRUCache; - } -}); - -// .yarn/cache/semver-npm-7.7.3-9cf7b3b46c-4afe5c9865.zip/node_modules/semver/functions/eq.js -var require_eq = __commonJS({ - ".yarn/cache/semver-npm-7.7.3-9cf7b3b46c-4afe5c9865.zip/node_modules/semver/functions/eq.js"(exports2, module2) { - "use strict"; - var compare = require_compare(); - var eq = (a, b, loose) => compare(a, b, loose) === 0; - module2.exports = eq; - } -}); - -// .yarn/cache/semver-npm-7.7.3-9cf7b3b46c-4afe5c9865.zip/node_modules/semver/functions/neq.js -var require_neq = __commonJS({ - ".yarn/cache/semver-npm-7.7.3-9cf7b3b46c-4afe5c9865.zip/node_modules/semver/functions/neq.js"(exports2, module2) { - "use strict"; - var compare = require_compare(); - var neq = (a, b, loose) => compare(a, b, loose) !== 0; - module2.exports = neq; + async run(input, userContext) { + var _a, _b; + let command; + const context = { + ..._Cli.defaultContext, + ...userContext + }; + const colored = (_a = this.enableColors) !== null && _a !== void 0 ? _a : context.colorDepth > 1; + if (!Array.isArray(input)) { + command = input; + } else { + try { + command = this.process(input, context); + } catch (error) { + context.stdout.write(this.error(error, { colored })); + return 1; + } + } + if (command.help) { + context.stdout.write(this.usage(command, { colored, detailed: true })); + return 0; + } + command.context = context; + command.cli = { + binaryLabel: this.binaryLabel, + binaryName: this.binaryName, + binaryVersion: this.binaryVersion, + enableCapture: this.enableCapture, + enableColors: this.enableColors, + definitions: () => this.definitions(), + error: (error, opts) => this.error(error, opts), + format: (colored2) => this.format(colored2), + process: (input2, subContext) => this.process(input2, { ...context, ...subContext }), + run: (input2, subContext) => this.run(input2, { ...context, ...subContext }), + usage: (command2, opts) => this.usage(command2, opts) + }; + const activate = this.enableCapture ? (_b = platform5.getCaptureActivator(context)) !== null && _b !== void 0 ? _b : noopCaptureActivator : noopCaptureActivator; + let exitCode; + try { + exitCode = await activate(() => command.validateAndExecute().catch((error) => command.catch(error).then(() => 0))); + } catch (error) { + context.stdout.write(this.error(error, { colored, command })); + return 1; + } + return exitCode; + } + async runExit(input, context) { + process.exitCode = await this.run(input, context); + } + suggest(input, partial) { + const { suggest } = this.builder.compile(); + return suggest(input, partial); + } + definitions({ colored = false } = {}) { + const data = []; + for (const [commandClass, { index }] of this.registrations) { + if (typeof commandClass.usage === `undefined`) + continue; + const { usage: path16 } = this.getUsageByIndex(index, { detailed: false }); + const { usage, options } = this.getUsageByIndex(index, { detailed: true, inlineOptions: false }); + const category = typeof commandClass.usage.category !== `undefined` ? format.formatMarkdownish(commandClass.usage.category, { format: this.format(colored), paragraphs: false }) : void 0; + const description = typeof commandClass.usage.description !== `undefined` ? format.formatMarkdownish(commandClass.usage.description, { format: this.format(colored), paragraphs: false }) : void 0; + const details = typeof commandClass.usage.details !== `undefined` ? format.formatMarkdownish(commandClass.usage.details, { format: this.format(colored), paragraphs: true }) : void 0; + const examples = typeof commandClass.usage.examples !== `undefined` ? commandClass.usage.examples.map(([label, cli]) => [format.formatMarkdownish(label, { format: this.format(colored), paragraphs: false }), cli.replace(/\$0/g, this.binaryName)]) : void 0; + data.push({ path: path16, usage, category, description, details, examples, options }); + } + return data; + } + usage(command = null, { colored, detailed = false, prefix = `$ ` } = {}) { + var _a; + if (command === null) { + for (const commandClass2 of this.registrations.keys()) { + const paths = commandClass2.paths; + const isDocumented = typeof commandClass2.usage !== `undefined`; + const isExclusivelyDefault = !paths || paths.length === 0 || paths.length === 1 && paths[0].length === 0; + const isDefault = isExclusivelyDefault || ((_a = paths === null || paths === void 0 ? void 0 : paths.some((path16) => path16.length === 0)) !== null && _a !== void 0 ? _a : false); + if (isDefault) { + if (command) { + command = null; + break; + } else { + command = commandClass2; + } + } else { + if (isDocumented) { + command = null; + continue; + } + } + } + if (command) { + detailed = true; + } + } + const commandClass = command !== null && command instanceof advanced_Command.Command ? command.constructor : command; + let result = ``; + if (!commandClass) { + const commandsByCategories = /* @__PURE__ */ new Map(); + for (const [commandClass2, { index }] of this.registrations.entries()) { + if (typeof commandClass2.usage === `undefined`) + continue; + const category = typeof commandClass2.usage.category !== `undefined` ? format.formatMarkdownish(commandClass2.usage.category, { format: this.format(colored), paragraphs: false }) : null; + let categoryCommands = commandsByCategories.get(category); + if (typeof categoryCommands === `undefined`) + commandsByCategories.set(category, categoryCommands = []); + const { usage } = this.getUsageByIndex(index); + categoryCommands.push({ commandClass: commandClass2, usage }); + } + const categoryNames = Array.from(commandsByCategories.keys()).sort((a, b) => { + if (a === null) + return -1; + if (b === null) + return 1; + return a.localeCompare(b, `en`, { usage: `sort`, caseFirst: `upper` }); + }); + const hasLabel = typeof this.binaryLabel !== `undefined`; + const hasVersion = typeof this.binaryVersion !== `undefined`; + if (hasLabel || hasVersion) { + if (hasLabel && hasVersion) + result += `${this.format(colored).header(`${this.binaryLabel} - ${this.binaryVersion}`)} + +`; + else if (hasLabel) + result += `${this.format(colored).header(`${this.binaryLabel}`)} +`; + else + result += `${this.format(colored).header(`${this.binaryVersion}`)} +`; + result += ` ${this.format(colored).bold(prefix)}${this.binaryName} +`; + } else { + result += `${this.format(colored).bold(prefix)}${this.binaryName} +`; + } + for (const categoryName of categoryNames) { + const commands = commandsByCategories.get(categoryName).slice().sort((a, b) => { + return a.usage.localeCompare(b.usage, `en`, { usage: `sort`, caseFirst: `upper` }); + }); + const header = categoryName !== null ? categoryName.trim() : `General commands`; + result += ` +`; + result += `${this.format(colored).header(`${header}`)} +`; + for (const { commandClass: commandClass2, usage } of commands) { + const doc = commandClass2.usage.description || `undocumented`; + result += ` +`; + result += ` ${this.format(colored).bold(usage)} +`; + result += ` ${format.formatMarkdownish(doc, { format: this.format(colored), paragraphs: false })}`; + } + } + result += ` +`; + result += format.formatMarkdownish(`You can also print more details about any of these commands by calling them with the \`-h,--help\` flag right after the command name.`, { format: this.format(colored), paragraphs: true }); + } else { + if (!detailed) { + const { usage } = this.getUsageByRegistration(commandClass); + result += `${this.format(colored).bold(prefix)}${usage} +`; + } else { + const { description = ``, details = ``, examples = [] } = commandClass.usage || {}; + if (description !== ``) { + result += format.formatMarkdownish(description, { format: this.format(colored), paragraphs: false }).replace(/^./, ($0) => $0.toUpperCase()); + result += ` +`; + } + if (details !== `` || examples.length > 0) { + result += `${this.format(colored).header(`Usage`)} +`; + result += ` +`; + } + const { usage, options } = this.getUsageByRegistration(commandClass, { inlineOptions: false }); + result += `${this.format(colored).bold(prefix)}${usage} +`; + if (options.length > 0) { + result += ` +`; + result += `${this.format(colored).header(`Options`)} +`; + const maxDefinitionLength = options.reduce((length, option) => { + return Math.max(length, option.definition.length); + }, 0); + result += ` +`; + for (const { definition, description: description2 } of options) { + result += ` ${this.format(colored).bold(definition.padEnd(maxDefinitionLength))} ${format.formatMarkdownish(description2, { format: this.format(colored), paragraphs: false })}`; + } + } + if (details !== ``) { + result += ` +`; + result += `${this.format(colored).header(`Details`)} +`; + result += ` +`; + result += format.formatMarkdownish(details, { format: this.format(colored), paragraphs: true }); + } + if (examples.length > 0) { + result += ` +`; + result += `${this.format(colored).header(`Examples`)} +`; + for (const [description2, example] of examples) { + result += ` +`; + result += format.formatMarkdownish(description2, { format: this.format(colored), paragraphs: false }); + result += `${example.replace(/^/m, ` ${this.format(colored).bold(prefix)}`).replace(/\$0/g, this.binaryName)} +`; + } + } + } + } + return result; + } + error(error, _a) { + var _b; + var { colored, command = (_b = error[errorCommandSymbol]) !== null && _b !== void 0 ? _b : null } = _a === void 0 ? {} : _a; + if (!error || typeof error !== `object` || !(`stack` in error)) + error = new Error(`Execution failed with a non-error rejection (rejected value: ${JSON.stringify(error)})`); + let result = ``; + let name2 = error.name.replace(/([a-z])([A-Z])/g, `$1 $2`); + if (name2 === `Error`) + name2 = `Internal Error`; + result += `${this.format(colored).error(name2)}: ${error.message} +`; + const meta = error.clipanion; + if (typeof meta !== `undefined`) { + if (meta.type === `usage`) { + result += ` +`; + result += this.usage(command); + } + } else { + if (error.stack) { + result += `${error.stack.replace(/^.*\n/, ``)} +`; + } + } + return result; + } + format(colored) { + var _a; + return ((_a = colored !== null && colored !== void 0 ? colored : this.enableColors) !== null && _a !== void 0 ? _a : _Cli.defaultContext.colorDepth > 1) ? format.richFormat : format.textFormat; + } + getUsageByRegistration(klass, opts) { + const record = this.registrations.get(klass); + if (typeof record === `undefined`) + throw new Error(`Assertion failed: Unregistered command`); + return this.getUsageByIndex(record.index, opts); + } + getUsageByIndex(n, opts) { + return this.builder.getBuilderByIndex(n).usage(opts); + } + }; + Cli2.defaultContext = { + env: process.env, + stdin: process.stdin, + stdout: process.stdout, + stderr: process.stderr, + colorDepth: platform5.getDefaultColorDepth() + }; + function noopCaptureActivator(fn2) { + return fn2(); + } + exports2.Cli = Cli2; + exports2.run = run; + exports2.runExit = runExit; } }); -// .yarn/cache/semver-npm-7.7.3-9cf7b3b46c-4afe5c9865.zip/node_modules/semver/functions/gt.js -var require_gt = __commonJS({ - ".yarn/cache/semver-npm-7.7.3-9cf7b3b46c-4afe5c9865.zip/node_modules/semver/functions/gt.js"(exports2, module2) { +// node_modules/clipanion/lib/advanced/builtins/definitions.js +var require_definitions = __commonJS({ + "node_modules/clipanion/lib/advanced/builtins/definitions.js"(exports2) { "use strict"; - var compare = require_compare(); - var gt = (a, b, loose) => compare(a, b, loose) > 0; - module2.exports = gt; + Object.defineProperty(exports2, "__esModule", { value: true }); + var advanced_Command = require_Command(); + var DefinitionsCommand = class extends advanced_Command.Command { + async execute() { + this.context.stdout.write(`${JSON.stringify(this.cli.definitions(), null, 2)} +`); + } + }; + DefinitionsCommand.paths = [[`--clipanion=definitions`]]; + exports2.DefinitionsCommand = DefinitionsCommand; } }); -// .yarn/cache/semver-npm-7.7.3-9cf7b3b46c-4afe5c9865.zip/node_modules/semver/functions/gte.js -var require_gte = __commonJS({ - ".yarn/cache/semver-npm-7.7.3-9cf7b3b46c-4afe5c9865.zip/node_modules/semver/functions/gte.js"(exports2, module2) { +// node_modules/clipanion/lib/advanced/builtins/help.js +var require_help = __commonJS({ + "node_modules/clipanion/lib/advanced/builtins/help.js"(exports2) { "use strict"; - var compare = require_compare(); - var gte = (a, b, loose) => compare(a, b, loose) >= 0; - module2.exports = gte; + Object.defineProperty(exports2, "__esModule", { value: true }); + var advanced_Command = require_Command(); + var HelpCommand = class extends advanced_Command.Command { + async execute() { + this.context.stdout.write(this.cli.usage()); + } + }; + HelpCommand.paths = [[`-h`], [`--help`]]; + exports2.HelpCommand = HelpCommand; } }); -// .yarn/cache/semver-npm-7.7.3-9cf7b3b46c-4afe5c9865.zip/node_modules/semver/functions/lt.js -var require_lt = __commonJS({ - ".yarn/cache/semver-npm-7.7.3-9cf7b3b46c-4afe5c9865.zip/node_modules/semver/functions/lt.js"(exports2, module2) { +// node_modules/clipanion/lib/advanced/builtins/version.js +var require_version = __commonJS({ + "node_modules/clipanion/lib/advanced/builtins/version.js"(exports2) { "use strict"; - var compare = require_compare(); - var lt = (a, b, loose) => compare(a, b, loose) < 0; - module2.exports = lt; + Object.defineProperty(exports2, "__esModule", { value: true }); + var advanced_Command = require_Command(); + var VersionCommand = class extends advanced_Command.Command { + async execute() { + var _a; + this.context.stdout.write(`${(_a = this.cli.binaryVersion) !== null && _a !== void 0 ? _a : ``} +`); + } + }; + VersionCommand.paths = [[`-v`], [`--version`]]; + exports2.VersionCommand = VersionCommand; } }); -// .yarn/cache/semver-npm-7.7.3-9cf7b3b46c-4afe5c9865.zip/node_modules/semver/functions/lte.js -var require_lte = __commonJS({ - ".yarn/cache/semver-npm-7.7.3-9cf7b3b46c-4afe5c9865.zip/node_modules/semver/functions/lte.js"(exports2, module2) { +// node_modules/clipanion/lib/advanced/builtins/index.js +var require_builtins = __commonJS({ + "node_modules/clipanion/lib/advanced/builtins/index.js"(exports2) { "use strict"; - var compare = require_compare(); - var lte = (a, b, loose) => compare(a, b, loose) <= 0; - module2.exports = lte; + Object.defineProperty(exports2, "__esModule", { value: true }); + var advanced_builtins_definitions = require_definitions(); + var advanced_builtins_help = require_help(); + var advanced_builtins_version = require_version(); + exports2.DefinitionsCommand = advanced_builtins_definitions.DefinitionsCommand; + exports2.HelpCommand = advanced_builtins_help.HelpCommand; + exports2.VersionCommand = advanced_builtins_version.VersionCommand; } }); -// .yarn/cache/semver-npm-7.7.3-9cf7b3b46c-4afe5c9865.zip/node_modules/semver/functions/cmp.js -var require_cmp = __commonJS({ - ".yarn/cache/semver-npm-7.7.3-9cf7b3b46c-4afe5c9865.zip/node_modules/semver/functions/cmp.js"(exports2, module2) { +// node_modules/clipanion/lib/advanced/options/Array.js +var require_Array = __commonJS({ + "node_modules/clipanion/lib/advanced/options/Array.js"(exports2) { "use strict"; - var eq = require_eq(); - var neq = require_neq(); - var gt = require_gt(); - var gte = require_gte(); - var lt = require_lt(); - var lte = require_lte(); - var cmp = (a, op, b, loose) => { - switch (op) { - case "===": - if (typeof a === "object") { - a = a.version; - } - if (typeof b === "object") { - b = b.version; + Object.defineProperty(exports2, "__esModule", { value: true }); + var advanced_options_utils = require_utils(); + function Array2(descriptor, initialValueBase, optsBase) { + const [initialValue, opts] = advanced_options_utils.rerouteArguments(initialValueBase, optsBase !== null && optsBase !== void 0 ? optsBase : {}); + const { arity = 1 } = opts; + const optNames = descriptor.split(`,`); + const nameSet = new Set(optNames); + return advanced_options_utils.makeCommandOption({ + definition(builder) { + builder.addOption({ + names: optNames, + arity, + hidden: opts === null || opts === void 0 ? void 0 : opts.hidden, + description: opts === null || opts === void 0 ? void 0 : opts.description, + required: opts.required + }); + }, + transformer(builder, key, state) { + let usedName; + let currentValue = typeof initialValue !== `undefined` ? [...initialValue] : void 0; + for (const { name: name2, value } of state.options) { + if (!nameSet.has(name2)) + continue; + usedName = name2; + currentValue = currentValue !== null && currentValue !== void 0 ? currentValue : []; + currentValue.push(value); } - return a === b; - case "!==": - if (typeof a === "object") { - a = a.version; + if (typeof currentValue !== `undefined`) { + return advanced_options_utils.applyValidator(usedName !== null && usedName !== void 0 ? usedName : key, currentValue, opts.validator); + } else { + return currentValue; } - if (typeof b === "object") { - b = b.version; + } + }); + } + exports2.Array = Array2; + } +}); + +// node_modules/clipanion/lib/advanced/options/Boolean.js +var require_Boolean = __commonJS({ + "node_modules/clipanion/lib/advanced/options/Boolean.js"(exports2) { + "use strict"; + Object.defineProperty(exports2, "__esModule", { value: true }); + var advanced_options_utils = require_utils(); + function Boolean2(descriptor, initialValueBase, optsBase) { + const [initialValue, opts] = advanced_options_utils.rerouteArguments(initialValueBase, optsBase !== null && optsBase !== void 0 ? optsBase : {}); + const optNames = descriptor.split(`,`); + const nameSet = new Set(optNames); + return advanced_options_utils.makeCommandOption({ + definition(builder) { + builder.addOption({ + names: optNames, + allowBinding: false, + arity: 0, + hidden: opts.hidden, + description: opts.description, + required: opts.required + }); + }, + transformer(builer, key, state) { + let currentValue = initialValue; + for (const { name: name2, value } of state.options) { + if (!nameSet.has(name2)) + continue; + currentValue = value; } - return a !== b; - case "": - case "=": - case "==": - return eq(a, b, loose); - case "!=": - return neq(a, b, loose); - case ">": - return gt(a, b, loose); - case ">=": - return gte(a, b, loose); - case "<": - return lt(a, b, loose); - case "<=": - return lte(a, b, loose); - default: - throw new TypeError(`Invalid operator: ${op}`); - } - }; - module2.exports = cmp; + return currentValue; + } + }); + } + exports2.Boolean = Boolean2; } }); -// .yarn/cache/semver-npm-7.7.3-9cf7b3b46c-4afe5c9865.zip/node_modules/semver/classes/comparator.js -var require_comparator = __commonJS({ - ".yarn/cache/semver-npm-7.7.3-9cf7b3b46c-4afe5c9865.zip/node_modules/semver/classes/comparator.js"(exports2, module2) { +// node_modules/clipanion/lib/advanced/options/Counter.js +var require_Counter = __commonJS({ + "node_modules/clipanion/lib/advanced/options/Counter.js"(exports2) { "use strict"; - var ANY = Symbol("SemVer ANY"); - var Comparator = class _Comparator { - static get ANY() { - return ANY; - } - constructor(comp, options) { - options = parseOptions(options); - if (comp instanceof _Comparator) { - if (comp.loose === !!options.loose) { - return comp; - } else { - comp = comp.value; + Object.defineProperty(exports2, "__esModule", { value: true }); + var advanced_options_utils = require_utils(); + function Counter(descriptor, initialValueBase, optsBase) { + const [initialValue, opts] = advanced_options_utils.rerouteArguments(initialValueBase, optsBase !== null && optsBase !== void 0 ? optsBase : {}); + const optNames = descriptor.split(`,`); + const nameSet = new Set(optNames); + return advanced_options_utils.makeCommandOption({ + definition(builder) { + builder.addOption({ + names: optNames, + allowBinding: false, + arity: 0, + hidden: opts.hidden, + description: opts.description, + required: opts.required + }); + }, + transformer(builder, key, state) { + let currentValue = initialValue; + for (const { name: name2, value } of state.options) { + if (!nameSet.has(name2)) + continue; + currentValue !== null && currentValue !== void 0 ? currentValue : currentValue = 0; + if (!value) { + currentValue = 0; + } else { + currentValue += 1; + } } + return currentValue; } - comp = comp.trim().split(/\s+/).join(" "); - debug2("comparator", comp, options); - this.options = options; - this.loose = !!options.loose; - this.parse(comp); - if (this.semver === ANY) { - this.value = ""; - } else { - this.value = this.operator + this.semver.version; + }); + } + exports2.Counter = Counter; + } +}); + +// node_modules/clipanion/lib/advanced/options/Proxy.js +var require_Proxy = __commonJS({ + "node_modules/clipanion/lib/advanced/options/Proxy.js"(exports2) { + "use strict"; + Object.defineProperty(exports2, "__esModule", { value: true }); + var advanced_options_utils = require_utils(); + function Proxy2(opts = {}) { + return advanced_options_utils.makeCommandOption({ + definition(builder, key) { + var _a; + builder.addProxy({ + name: (_a = opts.name) !== null && _a !== void 0 ? _a : key, + required: opts.required + }); + }, + transformer(builder, key, state) { + return state.positionals.map(({ value }) => value); } - debug2("comp", this); - } - parse(comp) { - const r = this.options.loose ? re[t.COMPARATORLOOSE] : re[t.COMPARATOR]; - const m = comp.match(r); - if (!m) { - throw new TypeError(`Invalid comparator: ${comp}`); + }); + } + exports2.Proxy = Proxy2; + } +}); + +// node_modules/clipanion/lib/advanced/options/Rest.js +var require_Rest = __commonJS({ + "node_modules/clipanion/lib/advanced/options/Rest.js"(exports2) { + "use strict"; + Object.defineProperty(exports2, "__esModule", { value: true }); + var core = require_core(); + var advanced_options_utils = require_utils(); + function Rest(opts = {}) { + return advanced_options_utils.makeCommandOption({ + definition(builder, key) { + var _a; + builder.addRest({ + name: (_a = opts.name) !== null && _a !== void 0 ? _a : key, + required: opts.required + }); + }, + transformer(builder, key, state) { + const isRestPositional = (index) => { + const positional = state.positionals[index]; + if (positional.extra === core.NoLimits) + return true; + if (positional.extra === false && index < builder.arity.leading.length) + return true; + return false; + }; + let count = 0; + while (count < state.positionals.length && isRestPositional(count)) + count += 1; + return state.positionals.splice(0, count).map(({ value }) => value); } - this.operator = m[1] !== void 0 ? m[1] : ""; - if (this.operator === "=") { - this.operator = ""; + }); + } + exports2.Rest = Rest; + } +}); + +// node_modules/clipanion/lib/advanced/options/String.js +var require_String = __commonJS({ + "node_modules/clipanion/lib/advanced/options/String.js"(exports2) { + "use strict"; + Object.defineProperty(exports2, "__esModule", { value: true }); + var core = require_core(); + var advanced_options_utils = require_utils(); + function StringOption(descriptor, initialValueBase, optsBase) { + const [initialValue, opts] = advanced_options_utils.rerouteArguments(initialValueBase, optsBase !== null && optsBase !== void 0 ? optsBase : {}); + const { arity = 1 } = opts; + const optNames = descriptor.split(`,`); + const nameSet = new Set(optNames); + return advanced_options_utils.makeCommandOption({ + definition(builder) { + builder.addOption({ + names: optNames, + arity: opts.tolerateBoolean ? 0 : arity, + hidden: opts.hidden, + description: opts.description, + required: opts.required + }); + }, + transformer(builder, key, state, context) { + let usedName; + let currentValue = initialValue; + if (typeof opts.env !== `undefined` && context.env[opts.env]) { + usedName = opts.env; + currentValue = context.env[opts.env]; + } + for (const { name: name2, value } of state.options) { + if (!nameSet.has(name2)) + continue; + usedName = name2; + currentValue = value; + } + if (typeof currentValue === `string`) { + return advanced_options_utils.applyValidator(usedName !== null && usedName !== void 0 ? usedName : key, currentValue, opts.validator); + } else { + return currentValue; + } } - if (!m[2]) { - this.semver = ANY; - } else { - this.semver = new SemVer3(m[2], this.options.loose); + }); + } + function StringPositional(opts = {}) { + const { required = true } = opts; + return advanced_options_utils.makeCommandOption({ + definition(builder, key) { + var _a; + builder.addPositional({ + name: (_a = opts.name) !== null && _a !== void 0 ? _a : key, + required: opts.required + }); + }, + transformer(builder, key, state) { + var _a; + for (let i = 0; i < state.positionals.length; ++i) { + if (state.positionals[i].extra === core.NoLimits) + continue; + if (required && state.positionals[i].extra === true) + continue; + if (!required && state.positionals[i].extra === false) + continue; + const [positional] = state.positionals.splice(i, 1); + return advanced_options_utils.applyValidator((_a = opts.name) !== null && _a !== void 0 ? _a : key, positional.value, opts.validator); + } + return void 0; } + }); + } + function String2(descriptor, ...args) { + if (typeof descriptor === `string`) { + return StringOption(descriptor, ...args); + } else { + return StringPositional(descriptor); } - toString() { - return this.value; + } + exports2.String = String2; + } +}); + +// node_modules/clipanion/lib/advanced/options/index.js +var require_options = __commonJS({ + "node_modules/clipanion/lib/advanced/options/index.js"(exports2) { + "use strict"; + Object.defineProperty(exports2, "__esModule", { value: true }); + var advanced_options_utils = require_utils(); + var advanced_options_Array = require_Array(); + var advanced_options_Boolean = require_Boolean(); + var advanced_options_Counter = require_Counter(); + var advanced_options_Proxy = require_Proxy(); + var advanced_options_Rest = require_Rest(); + var advanced_options_String = require_String(); + exports2.applyValidator = advanced_options_utils.applyValidator; + exports2.cleanValidationError = advanced_options_utils.cleanValidationError; + exports2.formatError = advanced_options_utils.formatError; + exports2.isOptionSymbol = advanced_options_utils.isOptionSymbol; + exports2.makeCommandOption = advanced_options_utils.makeCommandOption; + exports2.rerouteArguments = advanced_options_utils.rerouteArguments; + exports2.Array = advanced_options_Array.Array; + exports2.Boolean = advanced_options_Boolean.Boolean; + exports2.Counter = advanced_options_Counter.Counter; + exports2.Proxy = advanced_options_Proxy.Proxy; + exports2.Rest = advanced_options_Rest.Rest; + exports2.String = advanced_options_String.String; + } +}); + +// node_modules/clipanion/lib/advanced/index.js +var require_advanced = __commonJS({ + "node_modules/clipanion/lib/advanced/index.js"(exports2) { + "use strict"; + Object.defineProperty(exports2, "__esModule", { value: true }); + var errors = require_errors(); + var format = require_format(); + var advanced_Command = require_Command(); + var advanced_Cli = require_Cli(); + var advanced_builtins_index = require_builtins(); + var advanced_options_index = require_options(); + exports2.UsageError = errors.UsageError; + exports2.formatMarkdownish = format.formatMarkdownish; + exports2.Command = advanced_Command.Command; + exports2.Cli = advanced_Cli.Cli; + exports2.run = advanced_Cli.run; + exports2.runExit = advanced_Cli.runExit; + exports2.Builtins = advanced_builtins_index; + exports2.Option = advanced_options_index; + } +}); + +// node_modules/semver/internal/debug.js +var require_debug = __commonJS({ + "node_modules/semver/internal/debug.js"(exports2, module2) { + "use strict"; + var debug = typeof process === "object" && process.env && process.env.NODE_DEBUG && /\bsemver\b/i.test(process.env.NODE_DEBUG) ? (...args) => console.error("SEMVER", ...args) : () => { + }; + module2.exports = debug; + } +}); + +// node_modules/semver/internal/constants.js +var require_constants2 = __commonJS({ + "node_modules/semver/internal/constants.js"(exports2, module2) { + "use strict"; + var SEMVER_SPEC_VERSION = "2.0.0"; + var MAX_LENGTH = 256; + var MAX_SAFE_INTEGER = Number.MAX_SAFE_INTEGER || /* istanbul ignore next */ + 9007199254740991; + var MAX_SAFE_COMPONENT_LENGTH = 16; + var MAX_SAFE_BUILD_LENGTH = MAX_LENGTH - 6; + var RELEASE_TYPES = [ + "major", + "premajor", + "minor", + "preminor", + "patch", + "prepatch", + "prerelease" + ]; + module2.exports = { + MAX_LENGTH, + MAX_SAFE_COMPONENT_LENGTH, + MAX_SAFE_BUILD_LENGTH, + MAX_SAFE_INTEGER, + RELEASE_TYPES, + SEMVER_SPEC_VERSION, + FLAG_INCLUDE_PRERELEASE: 1, + FLAG_LOOSE: 2 + }; + } +}); + +// node_modules/semver/internal/re.js +var require_re = __commonJS({ + "node_modules/semver/internal/re.js"(exports2, module2) { + "use strict"; + var { + MAX_SAFE_COMPONENT_LENGTH, + MAX_SAFE_BUILD_LENGTH, + MAX_LENGTH + } = require_constants2(); + var debug = require_debug(); + exports2 = module2.exports = {}; + var re = exports2.re = []; + var safeRe = exports2.safeRe = []; + var src = exports2.src = []; + var safeSrc = exports2.safeSrc = []; + var t = exports2.t = {}; + var R = 0; + var LETTERDASHNUMBER = "[a-zA-Z0-9-]"; + var safeRegexReplacements = [ + ["\\s", 1], + ["\\d", MAX_LENGTH], + [LETTERDASHNUMBER, MAX_SAFE_BUILD_LENGTH] + ]; + var makeSafeRegex = (value) => { + for (const [token, max] of safeRegexReplacements) { + value = value.split(`${token}*`).join(`${token}{0,${max}}`).split(`${token}+`).join(`${token}{1,${max}}`); } - test(version2) { - debug2("Comparator.test", version2, this.options.loose); - if (this.semver === ANY || version2 === ANY) { - return true; - } - if (typeof version2 === "string") { - try { - version2 = new SemVer3(version2, this.options); - } catch (er) { - return false; - } - } - return cmp(version2, this.operator, this.semver, this.options); + return value; + }; + var createToken = (name2, value, isGlobal) => { + const safe = makeSafeRegex(value); + const index = R++; + debug(name2, index, value); + t[name2] = index; + src[index] = value; + safeSrc[index] = safe; + re[index] = new RegExp(value, isGlobal ? "g" : void 0); + safeRe[index] = new RegExp(safe, isGlobal ? "g" : void 0); + }; + createToken("NUMERICIDENTIFIER", "0|[1-9]\\d*"); + createToken("NUMERICIDENTIFIERLOOSE", "\\d+"); + createToken("NONNUMERICIDENTIFIER", `\\d*[a-zA-Z-]${LETTERDASHNUMBER}*`); + createToken("MAINVERSION", `(${src[t.NUMERICIDENTIFIER]})\\.(${src[t.NUMERICIDENTIFIER]})\\.(${src[t.NUMERICIDENTIFIER]})`); + createToken("MAINVERSIONLOOSE", `(${src[t.NUMERICIDENTIFIERLOOSE]})\\.(${src[t.NUMERICIDENTIFIERLOOSE]})\\.(${src[t.NUMERICIDENTIFIERLOOSE]})`); + createToken("PRERELEASEIDENTIFIER", `(?:${src[t.NONNUMERICIDENTIFIER]}|${src[t.NUMERICIDENTIFIER]})`); + createToken("PRERELEASEIDENTIFIERLOOSE", `(?:${src[t.NONNUMERICIDENTIFIER]}|${src[t.NUMERICIDENTIFIERLOOSE]})`); + createToken("PRERELEASE", `(?:-(${src[t.PRERELEASEIDENTIFIER]}(?:\\.${src[t.PRERELEASEIDENTIFIER]})*))`); + createToken("PRERELEASELOOSE", `(?:-?(${src[t.PRERELEASEIDENTIFIERLOOSE]}(?:\\.${src[t.PRERELEASEIDENTIFIERLOOSE]})*))`); + createToken("BUILDIDENTIFIER", `${LETTERDASHNUMBER}+`); + createToken("BUILD", `(?:\\+(${src[t.BUILDIDENTIFIER]}(?:\\.${src[t.BUILDIDENTIFIER]})*))`); + createToken("FULLPLAIN", `v?${src[t.MAINVERSION]}${src[t.PRERELEASE]}?${src[t.BUILD]}?`); + createToken("FULL", `^${src[t.FULLPLAIN]}$`); + createToken("LOOSEPLAIN", `[v=\\s]*${src[t.MAINVERSIONLOOSE]}${src[t.PRERELEASELOOSE]}?${src[t.BUILD]}?`); + createToken("LOOSE", `^${src[t.LOOSEPLAIN]}$`); + createToken("GTLT", "((?:<|>)?=?)"); + createToken("XRANGEIDENTIFIERLOOSE", `${src[t.NUMERICIDENTIFIERLOOSE]}|x|X|\\*`); + createToken("XRANGEIDENTIFIER", `${src[t.NUMERICIDENTIFIER]}|x|X|\\*`); + createToken("XRANGEPLAIN", `[v=\\s]*(${src[t.XRANGEIDENTIFIER]})(?:\\.(${src[t.XRANGEIDENTIFIER]})(?:\\.(${src[t.XRANGEIDENTIFIER]})(?:${src[t.PRERELEASE]})?${src[t.BUILD]}?)?)?`); + createToken("XRANGEPLAINLOOSE", `[v=\\s]*(${src[t.XRANGEIDENTIFIERLOOSE]})(?:\\.(${src[t.XRANGEIDENTIFIERLOOSE]})(?:\\.(${src[t.XRANGEIDENTIFIERLOOSE]})(?:${src[t.PRERELEASELOOSE]})?${src[t.BUILD]}?)?)?`); + createToken("XRANGE", `^${src[t.GTLT]}\\s*${src[t.XRANGEPLAIN]}$`); + createToken("XRANGELOOSE", `^${src[t.GTLT]}\\s*${src[t.XRANGEPLAINLOOSE]}$`); + createToken("COERCEPLAIN", `${"(^|[^\\d])(\\d{1,"}${MAX_SAFE_COMPONENT_LENGTH}})(?:\\.(\\d{1,${MAX_SAFE_COMPONENT_LENGTH}}))?(?:\\.(\\d{1,${MAX_SAFE_COMPONENT_LENGTH}}))?`); + createToken("COERCE", `${src[t.COERCEPLAIN]}(?:$|[^\\d])`); + createToken("COERCEFULL", src[t.COERCEPLAIN] + `(?:${src[t.PRERELEASE]})?(?:${src[t.BUILD]})?(?:$|[^\\d])`); + createToken("COERCERTL", src[t.COERCE], true); + createToken("COERCERTLFULL", src[t.COERCEFULL], true); + createToken("LONETILDE", "(?:~>?)"); + createToken("TILDETRIM", `(\\s*)${src[t.LONETILDE]}\\s+`, true); + exports2.tildeTrimReplace = "$1~"; + createToken("TILDE", `^${src[t.LONETILDE]}${src[t.XRANGEPLAIN]}$`); + createToken("TILDELOOSE", `^${src[t.LONETILDE]}${src[t.XRANGEPLAINLOOSE]}$`); + createToken("LONECARET", "(?:\\^)"); + createToken("CARETTRIM", `(\\s*)${src[t.LONECARET]}\\s+`, true); + exports2.caretTrimReplace = "$1^"; + createToken("CARET", `^${src[t.LONECARET]}${src[t.XRANGEPLAIN]}$`); + createToken("CARETLOOSE", `^${src[t.LONECARET]}${src[t.XRANGEPLAINLOOSE]}$`); + createToken("COMPARATORLOOSE", `^${src[t.GTLT]}\\s*(${src[t.LOOSEPLAIN]})$|^$`); + createToken("COMPARATOR", `^${src[t.GTLT]}\\s*(${src[t.FULLPLAIN]})$|^$`); + createToken("COMPARATORTRIM", `(\\s*)${src[t.GTLT]}\\s*(${src[t.LOOSEPLAIN]}|${src[t.XRANGEPLAIN]})`, true); + exports2.comparatorTrimReplace = "$1$2$3"; + createToken("HYPHENRANGE", `^\\s*(${src[t.XRANGEPLAIN]})\\s+-\\s+(${src[t.XRANGEPLAIN]})\\s*$`); + createToken("HYPHENRANGELOOSE", `^\\s*(${src[t.XRANGEPLAINLOOSE]})\\s+-\\s+(${src[t.XRANGEPLAINLOOSE]})\\s*$`); + createToken("STAR", "(<|>)?=?\\s*\\*"); + createToken("GTE0", "^\\s*>=\\s*0\\.0\\.0\\s*$"); + createToken("GTE0PRE", "^\\s*>=\\s*0\\.0\\.0-0\\s*$"); + } +}); + +// node_modules/semver/internal/parse-options.js +var require_parse_options = __commonJS({ + "node_modules/semver/internal/parse-options.js"(exports2, module2) { + "use strict"; + var looseOption = Object.freeze({ loose: true }); + var emptyOpts = Object.freeze({}); + var parseOptions = (options) => { + if (!options) { + return emptyOpts; } - intersects(comp, options) { - if (!(comp instanceof _Comparator)) { - throw new TypeError("a Comparator is required"); - } - if (this.operator === "") { - if (this.value === "") { - return true; - } - return new Range3(comp.value, options).test(this.value); - } else if (comp.operator === "") { - if (comp.value === "") { - return true; - } - return new Range3(this.value, options).test(comp.semver); - } - options = parseOptions(options); - if (options.includePrerelease && (this.value === "<0.0.0-0" || comp.value === "<0.0.0-0")) { - return false; - } - if (!options.includePrerelease && (this.value.startsWith("<0.0.0") || comp.value.startsWith("<0.0.0"))) { - return false; - } - if (this.operator.startsWith(">") && comp.operator.startsWith(">")) { - return true; - } - if (this.operator.startsWith("<") && comp.operator.startsWith("<")) { - return true; - } - if (this.semver.version === comp.semver.version && this.operator.includes("=") && comp.operator.includes("=")) { - return true; - } - if (cmp(this.semver, "<", comp.semver, options) && this.operator.startsWith(">") && comp.operator.startsWith("<")) { - return true; - } - if (cmp(this.semver, ">", comp.semver, options) && this.operator.startsWith("<") && comp.operator.startsWith(">")) { - return true; - } - return false; + if (typeof options !== "object") { + return looseOption; } + return options; }; - module2.exports = Comparator; - var parseOptions = require_parse_options(); - var { safeRe: re, t } = require_re(); - var cmp = require_cmp(); - var debug2 = require_debug(); - var SemVer3 = require_semver(); - var Range3 = require_range(); + module2.exports = parseOptions; } }); -// .yarn/cache/semver-npm-7.7.3-9cf7b3b46c-4afe5c9865.zip/node_modules/semver/classes/range.js -var require_range = __commonJS({ - ".yarn/cache/semver-npm-7.7.3-9cf7b3b46c-4afe5c9865.zip/node_modules/semver/classes/range.js"(exports2, module2) { +// node_modules/semver/internal/identifiers.js +var require_identifiers = __commonJS({ + "node_modules/semver/internal/identifiers.js"(exports2, module2) { "use strict"; - var SPACE_CHARACTERS = /\s+/g; - var Range3 = class _Range { - constructor(range, options) { + var numeric = /^[0-9]+$/; + var compareIdentifiers = (a, b) => { + if (typeof a === "number" && typeof b === "number") { + return a === b ? 0 : a < b ? -1 : 1; + } + const anum = numeric.test(a); + const bnum = numeric.test(b); + if (anum && bnum) { + a = +a; + b = +b; + } + return a === b ? 0 : anum && !bnum ? -1 : bnum && !anum ? 1 : a < b ? -1 : 1; + }; + var rcompareIdentifiers = (a, b) => compareIdentifiers(b, a); + module2.exports = { + compareIdentifiers, + rcompareIdentifiers + }; + } +}); + +// node_modules/semver/classes/semver.js +var require_semver = __commonJS({ + "node_modules/semver/classes/semver.js"(exports2, module2) { + "use strict"; + var debug = require_debug(); + var { MAX_LENGTH, MAX_SAFE_INTEGER } = require_constants2(); + var { safeRe: re, t } = require_re(); + var parseOptions = require_parse_options(); + var { compareIdentifiers } = require_identifiers(); + var SemVer3 = class _SemVer { + constructor(version2, options) { options = parseOptions(options); - if (range instanceof _Range) { - if (range.loose === !!options.loose && range.includePrerelease === !!options.includePrerelease) { - return range; + if (version2 instanceof _SemVer) { + if (version2.loose === !!options.loose && version2.includePrerelease === !!options.includePrerelease) { + return version2; } else { - return new _Range(range.raw, options); + version2 = version2.version; } + } else if (typeof version2 !== "string") { + throw new TypeError(`Invalid version. Must be a string. Got type "${typeof version2}".`); } - if (range instanceof Comparator) { - this.raw = range.value; - this.set = [[range]]; - this.formatted = void 0; - return this; + if (version2.length > MAX_LENGTH) { + throw new TypeError( + `version is longer than ${MAX_LENGTH} characters` + ); } + debug("SemVer", version2, options); this.options = options; this.loose = !!options.loose; this.includePrerelease = !!options.includePrerelease; - this.raw = range.trim().replace(SPACE_CHARACTERS, " "); - this.set = this.raw.split("||").map((r) => this.parseRange(r.trim())).filter((c) => c.length); - if (!this.set.length) { - throw new TypeError(`Invalid SemVer Range: ${this.raw}`); + const m = version2.trim().match(options.loose ? re[t.LOOSE] : re[t.FULL]); + if (!m) { + throw new TypeError(`Invalid Version: ${version2}`); } - if (this.set.length > 1) { - const first = this.set[0]; - this.set = this.set.filter((c) => !isNullSet(c[0])); - if (this.set.length === 0) { - this.set = [first]; - } else if (this.set.length > 1) { - for (const c of this.set) { - if (c.length === 1 && isAny(c[0])) { - this.set = [c]; - break; - } - } - } + this.raw = version2; + this.major = +m[1]; + this.minor = +m[2]; + this.patch = +m[3]; + if (this.major > MAX_SAFE_INTEGER || this.major < 0) { + throw new TypeError("Invalid major version"); } - this.formatted = void 0; - } - get range() { - if (this.formatted === void 0) { - this.formatted = ""; - for (let i = 0; i < this.set.length; i++) { - if (i > 0) { - this.formatted += "||"; - } - const comps = this.set[i]; - for (let k = 0; k < comps.length; k++) { - if (k > 0) { - this.formatted += " "; + if (this.minor > MAX_SAFE_INTEGER || this.minor < 0) { + throw new TypeError("Invalid minor version"); + } + if (this.patch > MAX_SAFE_INTEGER || this.patch < 0) { + throw new TypeError("Invalid patch version"); + } + if (!m[4]) { + this.prerelease = []; + } else { + this.prerelease = m[4].split(".").map((id) => { + if (/^[0-9]+$/.test(id)) { + const num = +id; + if (num >= 0 && num < MAX_SAFE_INTEGER) { + return num; } - this.formatted += comps[k].toString().trim(); } - } + return id; + }); } - return this.formatted; + this.build = m[5] ? m[5].split(".") : []; + this.format(); } format() { - return this.range; + this.version = `${this.major}.${this.minor}.${this.patch}`; + if (this.prerelease.length) { + this.version += `-${this.prerelease.join(".")}`; + } + return this.version; } toString() { - return this.range; + return this.version; } - parseRange(range) { - const memoOpts = (this.options.includePrerelease && FLAG_INCLUDE_PRERELEASE) | (this.options.loose && FLAG_LOOSE); - const memoKey = memoOpts + ":" + range; - const cached = cache2.get(memoKey); - if (cached) { - return cached; - } - const loose = this.options.loose; - const hr = loose ? re[t.HYPHENRANGELOOSE] : re[t.HYPHENRANGE]; - range = range.replace(hr, hyphenReplace(this.options.includePrerelease)); - debug2("hyphen replace", range); - range = range.replace(re[t.COMPARATORTRIM], comparatorTrimReplace); - debug2("comparator trim", range); - range = range.replace(re[t.TILDETRIM], tildeTrimReplace); - debug2("tilde trim", range); - range = range.replace(re[t.CARETTRIM], caretTrimReplace); - debug2("caret trim", range); - let rangeList = range.split(" ").map((comp) => parseComparator(comp, this.options)).join(" ").split(/\s+/).map((comp) => replaceGTE0(comp, this.options)); - if (loose) { - rangeList = rangeList.filter((comp) => { - debug2("loose invalid filter", comp, this.options); - return !!comp.match(re[t.COMPARATORLOOSE]); - }); - } - debug2("range list", rangeList); - const rangeMap = /* @__PURE__ */ new Map(); - const comparators = rangeList.map((comp) => new Comparator(comp, this.options)); - for (const comp of comparators) { - if (isNullSet(comp)) { - return [comp]; + compare(other) { + debug("SemVer.compare", this.version, this.options, other); + if (!(other instanceof _SemVer)) { + if (typeof other === "string" && other === this.version) { + return 0; } - rangeMap.set(comp.value, comp); + other = new _SemVer(other, this.options); } - if (rangeMap.size > 1 && rangeMap.has("")) { - rangeMap.delete(""); + if (other.version === this.version) { + return 0; } - const result = [...rangeMap.values()]; - cache2.set(memoKey, result); - return result; + return this.compareMain(other) || this.comparePre(other); } - intersects(range, options) { - if (!(range instanceof _Range)) { - throw new TypeError("a Range is required"); + compareMain(other) { + if (!(other instanceof _SemVer)) { + other = new _SemVer(other, this.options); } - return this.set.some((thisComparators) => { - return isSatisfiable(thisComparators, options) && range.set.some((rangeComparators) => { - return isSatisfiable(rangeComparators, options) && thisComparators.every((thisComparator) => { - return rangeComparators.every((rangeComparator) => { - return thisComparator.intersects(rangeComparator, options); - }); - }); - }); - }); - } - // if ANY of the sets match ALL of its comparators, then pass - test(version2) { - if (!version2) { - return false; + if (this.major < other.major) { + return -1; } - if (typeof version2 === "string") { - try { - version2 = new SemVer3(version2, this.options); - } catch (er) { - return false; - } + if (this.major > other.major) { + return 1; } - for (let i = 0; i < this.set.length; i++) { - if (testSet(this.set[i], version2, this.options)) { - return true; - } + if (this.minor < other.minor) { + return -1; } - return false; - } - }; - module2.exports = Range3; - var LRU = require_lrucache(); - var cache2 = new LRU(); - var parseOptions = require_parse_options(); - var Comparator = require_comparator(); - var debug2 = require_debug(); - var SemVer3 = require_semver(); - var { - safeRe: re, - t, - comparatorTrimReplace, - tildeTrimReplace, - caretTrimReplace - } = require_re(); - var { FLAG_INCLUDE_PRERELEASE, FLAG_LOOSE } = require_constants(); - var isNullSet = (c) => c.value === "<0.0.0-0"; - var isAny = (c) => c.value === ""; - var isSatisfiable = (comparators, options) => { - let result = true; - const remainingComparators = comparators.slice(); - let testComparator = remainingComparators.pop(); - while (result && remainingComparators.length) { - result = remainingComparators.every((otherComparator) => { - return testComparator.intersects(otherComparator, options); - }); - testComparator = remainingComparators.pop(); + if (this.minor > other.minor) { + return 1; + } + if (this.patch < other.patch) { + return -1; + } + if (this.patch > other.patch) { + return 1; + } + return 0; } - return result; - }; - var parseComparator = (comp, options) => { - comp = comp.replace(re[t.BUILD], ""); - debug2("comp", comp, options); - comp = replaceCarets(comp, options); - debug2("caret", comp); - comp = replaceTildes(comp, options); - debug2("tildes", comp); - comp = replaceXRanges(comp, options); - debug2("xrange", comp); - comp = replaceStars(comp, options); - debug2("stars", comp); - return comp; - }; - var isX = (id) => !id || id.toLowerCase() === "x" || id === "*"; - var replaceTildes = (comp, options) => { - return comp.trim().split(/\s+/).map((c) => replaceTilde(c, options)).join(" "); - }; - var replaceTilde = (comp, options) => { - const r = options.loose ? re[t.TILDELOOSE] : re[t.TILDE]; - return comp.replace(r, (_, M, m, p, pr) => { - debug2("tilde", comp, _, M, m, p, pr); - let ret; - if (isX(M)) { - ret = ""; - } else if (isX(m)) { - ret = `>=${M}.0.0 <${+M + 1}.0.0-0`; - } else if (isX(p)) { - ret = `>=${M}.${m}.0 <${M}.${+m + 1}.0-0`; - } else if (pr) { - debug2("replaceTilde pr", pr); - ret = `>=${M}.${m}.${p}-${pr} <${M}.${+m + 1}.0-0`; - } else { - ret = `>=${M}.${m}.${p} <${M}.${+m + 1}.0-0`; + comparePre(other) { + if (!(other instanceof _SemVer)) { + other = new _SemVer(other, this.options); } - debug2("tilde return", ret); - return ret; - }); - }; - var replaceCarets = (comp, options) => { - return comp.trim().split(/\s+/).map((c) => replaceCaret(c, options)).join(" "); - }; - var replaceCaret = (comp, options) => { - debug2("caret", comp, options); - const r = options.loose ? re[t.CARETLOOSE] : re[t.CARET]; - const z = options.includePrerelease ? "-0" : ""; - return comp.replace(r, (_, M, m, p, pr) => { - debug2("caret", comp, _, M, m, p, pr); - let ret; - if (isX(M)) { - ret = ""; - } else if (isX(m)) { - ret = `>=${M}.0.0${z} <${+M + 1}.0.0-0`; - } else if (isX(p)) { - if (M === "0") { - ret = `>=${M}.${m}.0${z} <${M}.${+m + 1}.0-0`; + if (this.prerelease.length && !other.prerelease.length) { + return -1; + } else if (!this.prerelease.length && other.prerelease.length) { + return 1; + } else if (!this.prerelease.length && !other.prerelease.length) { + return 0; + } + let i = 0; + do { + const a = this.prerelease[i]; + const b = other.prerelease[i]; + debug("prerelease compare", i, a, b); + if (a === void 0 && b === void 0) { + return 0; + } else if (b === void 0) { + return 1; + } else if (a === void 0) { + return -1; + } else if (a === b) { + continue; } else { - ret = `>=${M}.${m}.0${z} <${+M + 1}.0.0-0`; + return compareIdentifiers(a, b); } - } else if (pr) { - debug2("replaceCaret pr", pr); - if (M === "0") { - if (m === "0") { - ret = `>=${M}.${m}.${p}-${pr} <${M}.${m}.${+p + 1}-0`; - } else { - ret = `>=${M}.${m}.${p}-${pr} <${M}.${+m + 1}.0-0`; - } + } while (++i); + } + compareBuild(other) { + if (!(other instanceof _SemVer)) { + other = new _SemVer(other, this.options); + } + let i = 0; + do { + const a = this.build[i]; + const b = other.build[i]; + debug("build compare", i, a, b); + if (a === void 0 && b === void 0) { + return 0; + } else if (b === void 0) { + return 1; + } else if (a === void 0) { + return -1; + } else if (a === b) { + continue; } else { - ret = `>=${M}.${m}.${p}-${pr} <${+M + 1}.0.0-0`; + return compareIdentifiers(a, b); } - } else { - debug2("no pr"); - if (M === "0") { - if (m === "0") { - ret = `>=${M}.${m}.${p}${z} <${M}.${m}.${+p + 1}-0`; - } else { - ret = `>=${M}.${m}.${p}${z} <${M}.${+m + 1}.0-0`; + } while (++i); + } + // preminor will bump the version up to the next minor release, and immediately + // down to pre-release. premajor and prepatch work the same way. + inc(release, identifier, identifierBase) { + if (release.startsWith("pre")) { + if (!identifier && identifierBase === false) { + throw new Error("invalid increment argument: identifier is empty"); + } + if (identifier) { + const match = `-${identifier}`.match(this.options.loose ? re[t.PRERELEASELOOSE] : re[t.PRERELEASE]); + if (!match || match[1] !== identifier) { + throw new Error(`invalid identifier: ${identifier}`); } - } else { - ret = `>=${M}.${m}.${p} <${+M + 1}.0.0-0`; } } - debug2("caret return", ret); - return ret; - }); - }; - var replaceXRanges = (comp, options) => { - debug2("replaceXRanges", comp, options); - return comp.split(/\s+/).map((c) => replaceXRange(c, options)).join(" "); - }; - var replaceXRange = (comp, options) => { - comp = comp.trim(); - const r = options.loose ? re[t.XRANGELOOSE] : re[t.XRANGE]; - return comp.replace(r, (ret, gtlt, M, m, p, pr) => { - debug2("xRange", comp, ret, gtlt, M, m, p, pr); - const xM = isX(M); - const xm = xM || isX(m); - const xp = xm || isX(p); - const anyX = xp; - if (gtlt === "=" && anyX) { - gtlt = ""; - } - pr = options.includePrerelease ? "-0" : ""; - if (xM) { - if (gtlt === ">" || gtlt === "<") { - ret = "<0.0.0-0"; - } else { - ret = "*"; - } - } else if (gtlt && anyX) { - if (xm) { - m = 0; - } - p = 0; - if (gtlt === ">") { - gtlt = ">="; - if (xm) { - M = +M + 1; - m = 0; - p = 0; - } else { - m = +m + 1; - p = 0; + switch (release) { + case "premajor": + this.prerelease.length = 0; + this.patch = 0; + this.minor = 0; + this.major++; + this.inc("pre", identifier, identifierBase); + break; + case "preminor": + this.prerelease.length = 0; + this.patch = 0; + this.minor++; + this.inc("pre", identifier, identifierBase); + break; + case "prepatch": + this.prerelease.length = 0; + this.inc("patch", identifier, identifierBase); + this.inc("pre", identifier, identifierBase); + break; + // If the input is a non-prerelease version, this acts the same as + // prepatch. + case "prerelease": + if (this.prerelease.length === 0) { + this.inc("patch", identifier, identifierBase); } - } else if (gtlt === "<=") { - gtlt = "<"; - if (xm) { - M = +M + 1; + this.inc("pre", identifier, identifierBase); + break; + case "release": + if (this.prerelease.length === 0) { + throw new Error(`version ${this.raw} is not a prerelease`); + } + this.prerelease.length = 0; + break; + case "major": + if (this.minor !== 0 || this.patch !== 0 || this.prerelease.length === 0) { + this.major++; + } + this.minor = 0; + this.patch = 0; + this.prerelease = []; + break; + case "minor": + if (this.patch !== 0 || this.prerelease.length === 0) { + this.minor++; + } + this.patch = 0; + this.prerelease = []; + break; + case "patch": + if (this.prerelease.length === 0) { + this.patch++; + } + this.prerelease = []; + break; + // This probably shouldn't be used publicly. + // 1.0.0 'pre' would become 1.0.0-0 which is the wrong direction. + case "pre": { + const base = Number(identifierBase) ? 1 : 0; + if (this.prerelease.length === 0) { + this.prerelease = [base]; } else { - m = +m + 1; + let i = this.prerelease.length; + while (--i >= 0) { + if (typeof this.prerelease[i] === "number") { + this.prerelease[i]++; + i = -2; + } + } + if (i === -1) { + if (identifier === this.prerelease.join(".") && identifierBase === false) { + throw new Error("invalid increment argument: identifier already exists"); + } + this.prerelease.push(base); + } } - } - if (gtlt === "<") { - pr = "-0"; - } - ret = `${gtlt + M}.${m}.${p}${pr}`; - } else if (xm) { - ret = `>=${M}.0.0${pr} <${+M + 1}.0.0-0`; - } else if (xp) { - ret = `>=${M}.${m}.0${pr} <${M}.${+m + 1}.0-0`; - } - debug2("xRange return", ret); - return ret; - }); - }; - var replaceStars = (comp, options) => { - debug2("replaceStars", comp, options); - return comp.trim().replace(re[t.STAR], ""); - }; - var replaceGTE0 = (comp, options) => { - debug2("replaceGTE0", comp, options); - return comp.trim().replace(re[options.includePrerelease ? t.GTE0PRE : t.GTE0], ""); - }; - var hyphenReplace = (incPr) => ($0, from, fM, fm, fp, fpr, fb, to, tM, tm, tp, tpr) => { - if (isX(fM)) { - from = ""; - } else if (isX(fm)) { - from = `>=${fM}.0.0${incPr ? "-0" : ""}`; - } else if (isX(fp)) { - from = `>=${fM}.${fm}.0${incPr ? "-0" : ""}`; - } else if (fpr) { - from = `>=${from}`; - } else { - from = `>=${from}${incPr ? "-0" : ""}`; - } - if (isX(tM)) { - to = ""; - } else if (isX(tm)) { - to = `<${+tM + 1}.0.0-0`; - } else if (isX(tp)) { - to = `<${tM}.${+tm + 1}.0-0`; - } else if (tpr) { - to = `<=${tM}.${tm}.${tp}-${tpr}`; - } else if (incPr) { - to = `<${tM}.${tm}.${+tp + 1}-0`; - } else { - to = `<=${to}`; - } - return `${from} ${to}`.trim(); - }; - var testSet = (set, version2, options) => { - for (let i = 0; i < set.length; i++) { - if (!set[i].test(version2)) { - return false; - } - } - if (version2.prerelease.length && !options.includePrerelease) { - for (let i = 0; i < set.length; i++) { - debug2(set[i].semver); - if (set[i].semver === Comparator.ANY) { - continue; - } - if (set[i].semver.prerelease.length > 0) { - const allowed = set[i].semver; - if (allowed.major === version2.major && allowed.minor === version2.minor && allowed.patch === version2.patch) { - return true; + if (identifier) { + let prerelease = [identifier, base]; + if (identifierBase === false) { + prerelease = [identifier]; + } + if (compareIdentifiers(this.prerelease[0], identifier) === 0) { + if (isNaN(this.prerelease[1])) { + this.prerelease = prerelease; + } + } else { + this.prerelease = prerelease; + } } + break; } + default: + throw new Error(`invalid increment argument: ${release}`); } - return false; + this.raw = this.format(); + if (this.build.length) { + this.raw += `+${this.build.join(".")}`; + } + return this; } - return true; }; + module2.exports = SemVer3; } }); -// .yarn/cache/semver-npm-7.7.3-9cf7b3b46c-4afe5c9865.zip/node_modules/semver/ranges/valid.js -var require_valid2 = __commonJS({ - ".yarn/cache/semver-npm-7.7.3-9cf7b3b46c-4afe5c9865.zip/node_modules/semver/ranges/valid.js"(exports2, module2) { +// node_modules/semver/functions/compare.js +var require_compare = __commonJS({ + "node_modules/semver/functions/compare.js"(exports2, module2) { "use strict"; - var Range3 = require_range(); - var validRange = (range, options) => { - try { - return new Range3(range, options).range || "*"; - } catch (er) { - return null; + var SemVer3 = require_semver(); + var compare = (a, b, loose) => new SemVer3(a, loose).compare(new SemVer3(b, loose)); + module2.exports = compare; + } +}); + +// node_modules/semver/functions/rcompare.js +var require_rcompare = __commonJS({ + "node_modules/semver/functions/rcompare.js"(exports2, module2) { + "use strict"; + var compare = require_compare(); + var rcompare = (a, b, loose) => compare(b, a, loose); + module2.exports = rcompare; + } +}); + +// node_modules/semver/functions/parse.js +var require_parse = __commonJS({ + "node_modules/semver/functions/parse.js"(exports2, module2) { + "use strict"; + var SemVer3 = require_semver(); + var parse4 = (version2, options, throwErrors = false) => { + if (version2 instanceof SemVer3) { + return version2; + } + try { + return new SemVer3(version2, options); + } catch (er) { + if (!throwErrors) { + return null; + } + throw er; } }; - module2.exports = validRange; + module2.exports = parse4; } }); -// .yarn/cache/ms-npm-2.1.3-81ff3cfac1-d924b57e73.zip/node_modules/ms/index.js -var require_ms = __commonJS({ - ".yarn/cache/ms-npm-2.1.3-81ff3cfac1-d924b57e73.zip/node_modules/ms/index.js"(exports2, module2) { - var s = 1e3; - var m = s * 60; - var h = m * 60; - var d = h * 24; - var w = d * 7; - var y = d * 365.25; - module2.exports = function(val, options) { - options = options || {}; - var type = typeof val; - if (type === "string" && val.length > 0) { - return parse4(val); - } else if (type === "number" && isFinite(val)) { - return options.long ? fmtLong(val) : fmtShort(val); - } - throw new Error( - "val is not a non-empty string or a valid number. val=" + JSON.stringify(val) - ); +// node_modules/semver/functions/valid.js +var require_valid = __commonJS({ + "node_modules/semver/functions/valid.js"(exports2, module2) { + "use strict"; + var parse4 = require_parse(); + var valid = (version2, options) => { + const v = parse4(version2, options); + return v ? v.version : null; }; - function parse4(str) { - str = String(str); - if (str.length > 100) { - return; - } - var match = /^(-?(?:\d+)?\.?\d+) *(milliseconds?|msecs?|ms|seconds?|secs?|s|minutes?|mins?|m|hours?|hrs?|h|days?|d|weeks?|w|years?|yrs?|y)?$/i.exec( - str - ); - if (!match) { - return; - } - var n = parseFloat(match[1]); - var type = (match[2] || "ms").toLowerCase(); - switch (type) { - case "years": - case "year": - case "yrs": - case "yr": - case "y": - return n * y; - case "weeks": - case "week": - case "w": - return n * w; - case "days": - case "day": - case "d": - return n * d; - case "hours": - case "hour": - case "hrs": - case "hr": - case "h": - return n * h; - case "minutes": - case "minute": - case "mins": - case "min": - case "m": - return n * m; - case "seconds": - case "second": - case "secs": - case "sec": - case "s": - return n * s; - case "milliseconds": - case "millisecond": - case "msecs": - case "msec": - case "ms": - return n; - default: - return void 0; - } - } - function fmtShort(ms) { - var msAbs = Math.abs(ms); - if (msAbs >= d) { - return Math.round(ms / d) + "d"; - } - if (msAbs >= h) { - return Math.round(ms / h) + "h"; - } - if (msAbs >= m) { - return Math.round(ms / m) + "m"; - } - if (msAbs >= s) { - return Math.round(ms / s) + "s"; - } - return ms + "ms"; - } - function fmtLong(ms) { - var msAbs = Math.abs(ms); - if (msAbs >= d) { - return plural2(ms, msAbs, d, "day"); - } - if (msAbs >= h) { - return plural2(ms, msAbs, h, "hour"); - } - if (msAbs >= m) { - return plural2(ms, msAbs, m, "minute"); - } - if (msAbs >= s) { - return plural2(ms, msAbs, s, "second"); - } - return ms + " ms"; - } - function plural2(ms, msAbs, n, name2) { - var isPlural = msAbs >= n * 1.5; - return Math.round(ms / n) + " " + name2 + (isPlural ? "s" : ""); - } + module2.exports = valid; } }); -// .yarn/__virtual__/debug-virtual-436baa457e/0/cache/debug-npm-4.4.3-0105c6123a-d79136ec6c.zip/node_modules/debug/src/common.js -var require_common = __commonJS({ - ".yarn/__virtual__/debug-virtual-436baa457e/0/cache/debug-npm-4.4.3-0105c6123a-d79136ec6c.zip/node_modules/debug/src/common.js"(exports2, module2) { - function setup(env2) { - createDebug.debug = createDebug; - createDebug.default = createDebug; - createDebug.coerce = coerce; - createDebug.disable = disable; - createDebug.enable = enable; - createDebug.enabled = enabled; - createDebug.humanize = require_ms(); - createDebug.destroy = destroy; - Object.keys(env2).forEach((key) => { - createDebug[key] = env2[key]; - }); - createDebug.names = []; - createDebug.skips = []; - createDebug.formatters = {}; - function selectColor(namespace) { - let hash = 0; - for (let i = 0; i < namespace.length; i++) { - hash = (hash << 5) - hash + namespace.charCodeAt(i); - hash |= 0; - } - return createDebug.colors[Math.abs(hash) % createDebug.colors.length]; +// node_modules/semver/internal/lrucache.js +var require_lrucache = __commonJS({ + "node_modules/semver/internal/lrucache.js"(exports2, module2) { + "use strict"; + var LRUCache = class { + constructor() { + this.max = 1e3; + this.map = /* @__PURE__ */ new Map(); } - createDebug.selectColor = selectColor; - function createDebug(namespace) { - let prevTime; - let enableOverride = null; - let namespacesCache; - let enabledCache; - function debug2(...args) { - if (!debug2.enabled) { - return; - } - const self2 = debug2; - const curr = Number(/* @__PURE__ */ new Date()); - const ms = curr - (prevTime || curr); - self2.diff = ms; - self2.prev = prevTime; - self2.curr = curr; - prevTime = curr; - args[0] = createDebug.coerce(args[0]); - if (typeof args[0] !== "string") { - args.unshift("%O"); - } - let index = 0; - args[0] = args[0].replace(/%([a-zA-Z%])/g, (match, format) => { - if (match === "%%") { - return "%"; - } - index++; - const formatter = createDebug.formatters[format]; - if (typeof formatter === "function") { - const val = args[index]; - match = formatter.call(self2, val); - args.splice(index, 1); - index--; - } - return match; - }); - createDebug.formatArgs.call(self2, args); - const logFn = self2.log || createDebug.log; - logFn.apply(self2, args); + get(key) { + const value = this.map.get(key); + if (value === void 0) { + return void 0; + } else { + this.map.delete(key); + this.map.set(key, value); + return value; } - debug2.namespace = namespace; - debug2.useColors = createDebug.useColors(); - debug2.color = createDebug.selectColor(namespace); - debug2.extend = extend; - debug2.destroy = createDebug.destroy; - Object.defineProperty(debug2, "enabled", { - enumerable: true, - configurable: false, - get: () => { - if (enableOverride !== null) { - return enableOverride; - } - if (namespacesCache !== createDebug.namespaces) { - namespacesCache = createDebug.namespaces; - enabledCache = createDebug.enabled(namespace); - } - return enabledCache; - }, - set: (v) => { - enableOverride = v; + } + delete(key) { + return this.map.delete(key); + } + set(key, value) { + const deleted = this.delete(key); + if (!deleted && value !== void 0) { + if (this.map.size >= this.max) { + const firstKey = this.map.keys().next().value; + this.delete(firstKey); } - }); - if (typeof createDebug.init === "function") { - createDebug.init(debug2); + this.map.set(key, value); } - return debug2; - } - function extend(namespace, delimiter) { - const newDebug = createDebug(this.namespace + (typeof delimiter === "undefined" ? ":" : delimiter) + namespace); - newDebug.log = this.log; - return newDebug; + return this; } - function enable(namespaces) { - createDebug.save(namespaces); - createDebug.namespaces = namespaces; - createDebug.names = []; - createDebug.skips = []; - const split = (typeof namespaces === "string" ? namespaces : "").trim().replace(/\s+/g, ",").split(",").filter(Boolean); - for (const ns of split) { - if (ns[0] === "-") { - createDebug.skips.push(ns.slice(1)); - } else { - createDebug.names.push(ns); + }; + module2.exports = LRUCache; + } +}); + +// node_modules/semver/functions/eq.js +var require_eq = __commonJS({ + "node_modules/semver/functions/eq.js"(exports2, module2) { + "use strict"; + var compare = require_compare(); + var eq = (a, b, loose) => compare(a, b, loose) === 0; + module2.exports = eq; + } +}); + +// node_modules/semver/functions/neq.js +var require_neq = __commonJS({ + "node_modules/semver/functions/neq.js"(exports2, module2) { + "use strict"; + var compare = require_compare(); + var neq = (a, b, loose) => compare(a, b, loose) !== 0; + module2.exports = neq; + } +}); + +// node_modules/semver/functions/gt.js +var require_gt = __commonJS({ + "node_modules/semver/functions/gt.js"(exports2, module2) { + "use strict"; + var compare = require_compare(); + var gt = (a, b, loose) => compare(a, b, loose) > 0; + module2.exports = gt; + } +}); + +// node_modules/semver/functions/gte.js +var require_gte = __commonJS({ + "node_modules/semver/functions/gte.js"(exports2, module2) { + "use strict"; + var compare = require_compare(); + var gte = (a, b, loose) => compare(a, b, loose) >= 0; + module2.exports = gte; + } +}); + +// node_modules/semver/functions/lt.js +var require_lt = __commonJS({ + "node_modules/semver/functions/lt.js"(exports2, module2) { + "use strict"; + var compare = require_compare(); + var lt = (a, b, loose) => compare(a, b, loose) < 0; + module2.exports = lt; + } +}); + +// node_modules/semver/functions/lte.js +var require_lte = __commonJS({ + "node_modules/semver/functions/lte.js"(exports2, module2) { + "use strict"; + var compare = require_compare(); + var lte = (a, b, loose) => compare(a, b, loose) <= 0; + module2.exports = lte; + } +}); + +// node_modules/semver/functions/cmp.js +var require_cmp = __commonJS({ + "node_modules/semver/functions/cmp.js"(exports2, module2) { + "use strict"; + var eq = require_eq(); + var neq = require_neq(); + var gt = require_gt(); + var gte = require_gte(); + var lt = require_lt(); + var lte = require_lte(); + var cmp = (a, op, b, loose) => { + switch (op) { + case "===": + if (typeof a === "object") { + a = a.version; } - } + if (typeof b === "object") { + b = b.version; + } + return a === b; + case "!==": + if (typeof a === "object") { + a = a.version; + } + if (typeof b === "object") { + b = b.version; + } + return a !== b; + case "": + case "=": + case "==": + return eq(a, b, loose); + case "!=": + return neq(a, b, loose); + case ">": + return gt(a, b, loose); + case ">=": + return gte(a, b, loose); + case "<": + return lt(a, b, loose); + case "<=": + return lte(a, b, loose); + default: + throw new TypeError(`Invalid operator: ${op}`); } - function matchesTemplate(search, template) { - let searchIndex = 0; - let templateIndex = 0; - let starIndex = -1; - let matchIndex = 0; - while (searchIndex < search.length) { - if (templateIndex < template.length && (template[templateIndex] === search[searchIndex] || template[templateIndex] === "*")) { - if (template[templateIndex] === "*") { - starIndex = templateIndex; - matchIndex = searchIndex; - templateIndex++; - } else { - searchIndex++; - templateIndex++; - } - } else if (starIndex !== -1) { - templateIndex = starIndex + 1; - matchIndex++; - searchIndex = matchIndex; + }; + module2.exports = cmp; + } +}); + +// node_modules/semver/classes/comparator.js +var require_comparator = __commonJS({ + "node_modules/semver/classes/comparator.js"(exports2, module2) { + "use strict"; + var ANY = /* @__PURE__ */ Symbol("SemVer ANY"); + var Comparator = class _Comparator { + static get ANY() { + return ANY; + } + constructor(comp, options) { + options = parseOptions(options); + if (comp instanceof _Comparator) { + if (comp.loose === !!options.loose) { + return comp; } else { - return false; + comp = comp.value; } } - while (templateIndex < template.length && template[templateIndex] === "*") { - templateIndex++; + comp = comp.trim().split(/\s+/).join(" "); + debug("comparator", comp, options); + this.options = options; + this.loose = !!options.loose; + this.parse(comp); + if (this.semver === ANY) { + this.value = ""; + } else { + this.value = this.operator + this.semver.version; } - return templateIndex === template.length; + debug("comp", this); } - function disable() { - const namespaces = [ - ...createDebug.names, - ...createDebug.skips.map((namespace) => "-" + namespace) - ].join(","); - createDebug.enable(""); - return namespaces; + parse(comp) { + const r = this.options.loose ? re[t.COMPARATORLOOSE] : re[t.COMPARATOR]; + const m = comp.match(r); + if (!m) { + throw new TypeError(`Invalid comparator: ${comp}`); + } + this.operator = m[1] !== void 0 ? m[1] : ""; + if (this.operator === "=") { + this.operator = ""; + } + if (!m[2]) { + this.semver = ANY; + } else { + this.semver = new SemVer3(m[2], this.options.loose); + } } - function enabled(name2) { - for (const skip of createDebug.skips) { - if (matchesTemplate(name2, skip)) { + toString() { + return this.value; + } + test(version2) { + debug("Comparator.test", version2, this.options.loose); + if (this.semver === ANY || version2 === ANY) { + return true; + } + if (typeof version2 === "string") { + try { + version2 = new SemVer3(version2, this.options); + } catch (er) { return false; } } - for (const ns of createDebug.names) { - if (matchesTemplate(name2, ns)) { + return cmp(version2, this.operator, this.semver, this.options); + } + intersects(comp, options) { + if (!(comp instanceof _Comparator)) { + throw new TypeError("a Comparator is required"); + } + if (this.operator === "") { + if (this.value === "") { + return true; + } + return new Range3(comp.value, options).test(this.value); + } else if (comp.operator === "") { + if (comp.value === "") { return true; } + return new Range3(this.value, options).test(comp.semver); } - return false; - } - function coerce(val) { - if (val instanceof Error) { - return val.stack || val.message; + options = parseOptions(options); + if (options.includePrerelease && (this.value === "<0.0.0-0" || comp.value === "<0.0.0-0")) { + return false; } - return val; - } - function destroy() { - console.warn("Instance method `debug.destroy()` is deprecated and no longer does anything. It will be removed in the next major version of `debug`."); + if (!options.includePrerelease && (this.value.startsWith("<0.0.0") || comp.value.startsWith("<0.0.0"))) { + return false; + } + if (this.operator.startsWith(">") && comp.operator.startsWith(">")) { + return true; + } + if (this.operator.startsWith("<") && comp.operator.startsWith("<")) { + return true; + } + if (this.semver.version === comp.semver.version && this.operator.includes("=") && comp.operator.includes("=")) { + return true; + } + if (cmp(this.semver, "<", comp.semver, options) && this.operator.startsWith(">") && comp.operator.startsWith("<")) { + return true; + } + if (cmp(this.semver, ">", comp.semver, options) && this.operator.startsWith("<") && comp.operator.startsWith(">")) { + return true; + } + return false; } - createDebug.enable(createDebug.load()); - return createDebug; - } - module2.exports = setup; + }; + module2.exports = Comparator; + var parseOptions = require_parse_options(); + var { safeRe: re, t } = require_re(); + var cmp = require_cmp(); + var debug = require_debug(); + var SemVer3 = require_semver(); + var Range3 = require_range(); } }); -// .yarn/__virtual__/debug-virtual-436baa457e/0/cache/debug-npm-4.4.3-0105c6123a-d79136ec6c.zip/node_modules/debug/src/browser.js -var require_browser = __commonJS({ - ".yarn/__virtual__/debug-virtual-436baa457e/0/cache/debug-npm-4.4.3-0105c6123a-d79136ec6c.zip/node_modules/debug/src/browser.js"(exports2, module2) { - exports2.formatArgs = formatArgs; - exports2.save = save; - exports2.load = load; - exports2.useColors = useColors; - exports2.storage = localstorage(); - exports2.destroy = /* @__PURE__ */ (() => { - let warned = false; - return () => { - if (!warned) { - warned = true; - console.warn("Instance method `debug.destroy()` is deprecated and no longer does anything. It will be removed in the next major version of `debug`."); +// node_modules/semver/classes/range.js +var require_range = __commonJS({ + "node_modules/semver/classes/range.js"(exports2, module2) { + "use strict"; + var SPACE_CHARACTERS = /\s+/g; + var Range3 = class _Range { + constructor(range, options) { + options = parseOptions(options); + if (range instanceof _Range) { + if (range.loose === !!options.loose && range.includePrerelease === !!options.includePrerelease) { + return range; + } else { + return new _Range(range.raw, options); + } } - }; - })(); - exports2.colors = [ - "#0000CC", - "#0000FF", - "#0033CC", - "#0033FF", - "#0066CC", - "#0066FF", - "#0099CC", - "#0099FF", - "#00CC00", - "#00CC33", - "#00CC66", - "#00CC99", - "#00CCCC", - "#00CCFF", - "#3300CC", - "#3300FF", - "#3333CC", - "#3333FF", - "#3366CC", - "#3366FF", - "#3399CC", - "#3399FF", - "#33CC00", - "#33CC33", - "#33CC66", - "#33CC99", - "#33CCCC", - "#33CCFF", - "#6600CC", - "#6600FF", - "#6633CC", - "#6633FF", - "#66CC00", - "#66CC33", - "#9900CC", - "#9900FF", - "#9933CC", - "#9933FF", - "#99CC00", - "#99CC33", - "#CC0000", - "#CC0033", - "#CC0066", - "#CC0099", - "#CC00CC", - "#CC00FF", - "#CC3300", - "#CC3333", - "#CC3366", - "#CC3399", - "#CC33CC", - "#CC33FF", - "#CC6600", - "#CC6633", - "#CC9900", - "#CC9933", - "#CCCC00", - "#CCCC33", - "#FF0000", - "#FF0033", - "#FF0066", - "#FF0099", - "#FF00CC", - "#FF00FF", - "#FF3300", - "#FF3333", - "#FF3366", - "#FF3399", - "#FF33CC", - "#FF33FF", - "#FF6600", - "#FF6633", - "#FF9900", - "#FF9933", - "#FFCC00", - "#FFCC33" - ]; - function useColors() { - if (typeof window !== "undefined" && window.process && (window.process.type === "renderer" || window.process.__nwjs)) { - return true; + if (range instanceof Comparator) { + this.raw = range.value; + this.set = [[range]]; + this.formatted = void 0; + return this; + } + this.options = options; + this.loose = !!options.loose; + this.includePrerelease = !!options.includePrerelease; + this.raw = range.trim().replace(SPACE_CHARACTERS, " "); + this.set = this.raw.split("||").map((r) => this.parseRange(r.trim())).filter((c) => c.length); + if (!this.set.length) { + throw new TypeError(`Invalid SemVer Range: ${this.raw}`); + } + if (this.set.length > 1) { + const first = this.set[0]; + this.set = this.set.filter((c) => !isNullSet(c[0])); + if (this.set.length === 0) { + this.set = [first]; + } else if (this.set.length > 1) { + for (const c of this.set) { + if (c.length === 1 && isAny(c[0])) { + this.set = [c]; + break; + } + } + } + } + this.formatted = void 0; } - if (typeof navigator !== "undefined" && navigator.userAgent && navigator.userAgent.toLowerCase().match(/(edge|trident)\/(\d+)/)) { - return false; + get range() { + if (this.formatted === void 0) { + this.formatted = ""; + for (let i = 0; i < this.set.length; i++) { + if (i > 0) { + this.formatted += "||"; + } + const comps = this.set[i]; + for (let k = 0; k < comps.length; k++) { + if (k > 0) { + this.formatted += " "; + } + this.formatted += comps[k].toString().trim(); + } + } + } + return this.formatted; } - let m; - return typeof document !== "undefined" && document.documentElement && document.documentElement.style && document.documentElement.style.WebkitAppearance || // Is firebug? http://stackoverflow.com/a/398120/376773 - typeof window !== "undefined" && window.console && (window.console.firebug || window.console.exception && window.console.table) || // Is firefox >= v31? - // https://developer.mozilla.org/en-US/docs/Tools/Web_Console#Styling_messages - typeof navigator !== "undefined" && navigator.userAgent && (m = navigator.userAgent.toLowerCase().match(/firefox\/(\d+)/)) && parseInt(m[1], 10) >= 31 || // Double check webkit in userAgent just in case we are in a worker - typeof navigator !== "undefined" && navigator.userAgent && navigator.userAgent.toLowerCase().match(/applewebkit\/(\d+)/); - } - function formatArgs(args) { - args[0] = (this.useColors ? "%c" : "") + this.namespace + (this.useColors ? " %c" : " ") + args[0] + (this.useColors ? "%c " : " ") + "+" + module2.exports.humanize(this.diff); - if (!this.useColors) { - return; + format() { + return this.range; } - const c = "color: " + this.color; - args.splice(1, 0, c, "color: inherit"); - let index = 0; - let lastC = 0; - args[0].replace(/%[a-zA-Z%]/g, (match) => { - if (match === "%%") { - return; + toString() { + return this.range; + } + parseRange(range) { + const memoOpts = (this.options.includePrerelease && FLAG_INCLUDE_PRERELEASE) | (this.options.loose && FLAG_LOOSE); + const memoKey = memoOpts + ":" + range; + const cached = cache2.get(memoKey); + if (cached) { + return cached; } - index++; - if (match === "%c") { - lastC = index; + const loose = this.options.loose; + const hr = loose ? re[t.HYPHENRANGELOOSE] : re[t.HYPHENRANGE]; + range = range.replace(hr, hyphenReplace(this.options.includePrerelease)); + debug("hyphen replace", range); + range = range.replace(re[t.COMPARATORTRIM], comparatorTrimReplace); + debug("comparator trim", range); + range = range.replace(re[t.TILDETRIM], tildeTrimReplace); + debug("tilde trim", range); + range = range.replace(re[t.CARETTRIM], caretTrimReplace); + debug("caret trim", range); + let rangeList = range.split(" ").map((comp) => parseComparator(comp, this.options)).join(" ").split(/\s+/).map((comp) => replaceGTE0(comp, this.options)); + if (loose) { + rangeList = rangeList.filter((comp) => { + debug("loose invalid filter", comp, this.options); + return !!comp.match(re[t.COMPARATORLOOSE]); + }); } - }); - args.splice(lastC, 0, c); - } - exports2.log = console.debug || console.log || (() => { - }); - function save(namespaces) { - try { - if (namespaces) { - exports2.storage.setItem("debug", namespaces); - } else { - exports2.storage.removeItem("debug"); + debug("range list", rangeList); + const rangeMap = /* @__PURE__ */ new Map(); + const comparators = rangeList.map((comp) => new Comparator(comp, this.options)); + for (const comp of comparators) { + if (isNullSet(comp)) { + return [comp]; + } + rangeMap.set(comp.value, comp); } - } catch (error) { + if (rangeMap.size > 1 && rangeMap.has("")) { + rangeMap.delete(""); + } + const result = [...rangeMap.values()]; + cache2.set(memoKey, result); + return result; } - } - function load() { - let r; - try { - r = exports2.storage.getItem("debug") || exports2.storage.getItem("DEBUG"); - } catch (error) { + intersects(range, options) { + if (!(range instanceof _Range)) { + throw new TypeError("a Range is required"); + } + return this.set.some((thisComparators) => { + return isSatisfiable(thisComparators, options) && range.set.some((rangeComparators) => { + return isSatisfiable(rangeComparators, options) && thisComparators.every((thisComparator) => { + return rangeComparators.every((rangeComparator) => { + return thisComparator.intersects(rangeComparator, options); + }); + }); + }); + }); } - if (!r && typeof process !== "undefined" && "env" in process) { - r = process.env.DEBUG; + // if ANY of the sets match ALL of its comparators, then pass + test(version2) { + if (!version2) { + return false; + } + if (typeof version2 === "string") { + try { + version2 = new SemVer3(version2, this.options); + } catch (er) { + return false; + } + } + for (let i = 0; i < this.set.length; i++) { + if (testSet(this.set[i], version2, this.options)) { + return true; + } + } + return false; } - return r; - } - function localstorage() { - try { - return localStorage; - } catch (error) { + }; + module2.exports = Range3; + var LRU = require_lrucache(); + var cache2 = new LRU(); + var parseOptions = require_parse_options(); + var Comparator = require_comparator(); + var debug = require_debug(); + var SemVer3 = require_semver(); + var { + safeRe: re, + t, + comparatorTrimReplace, + tildeTrimReplace, + caretTrimReplace + } = require_re(); + var { FLAG_INCLUDE_PRERELEASE, FLAG_LOOSE } = require_constants2(); + var isNullSet = (c) => c.value === "<0.0.0-0"; + var isAny = (c) => c.value === ""; + var isSatisfiable = (comparators, options) => { + let result = true; + const remainingComparators = comparators.slice(); + let testComparator = remainingComparators.pop(); + while (result && remainingComparators.length) { + result = remainingComparators.every((otherComparator) => { + return testComparator.intersects(otherComparator, options); + }); + testComparator = remainingComparators.pop(); } - } - module2.exports = require_common()(exports2); - var { formatters } = module2.exports; - formatters.j = function(v) { - try { - return JSON.stringify(v); - } catch (error) { - return "[UnexpectedJSONParseError]: " + error.message; + return result; + }; + var parseComparator = (comp, options) => { + comp = comp.replace(re[t.BUILD], ""); + debug("comp", comp, options); + comp = replaceCarets(comp, options); + debug("caret", comp); + comp = replaceTildes(comp, options); + debug("tildes", comp); + comp = replaceXRanges(comp, options); + debug("xrange", comp); + comp = replaceStars(comp, options); + debug("stars", comp); + return comp; + }; + var isX = (id) => !id || id.toLowerCase() === "x" || id === "*"; + var replaceTildes = (comp, options) => { + return comp.trim().split(/\s+/).map((c) => replaceTilde(c, options)).join(" "); + }; + var replaceTilde = (comp, options) => { + const r = options.loose ? re[t.TILDELOOSE] : re[t.TILDE]; + return comp.replace(r, (_, M, m, p, pr) => { + debug("tilde", comp, _, M, m, p, pr); + let ret; + if (isX(M)) { + ret = ""; + } else if (isX(m)) { + ret = `>=${M}.0.0 <${+M + 1}.0.0-0`; + } else if (isX(p)) { + ret = `>=${M}.${m}.0 <${M}.${+m + 1}.0-0`; + } else if (pr) { + debug("replaceTilde pr", pr); + ret = `>=${M}.${m}.${p}-${pr} <${M}.${+m + 1}.0-0`; + } else { + ret = `>=${M}.${m}.${p} <${M}.${+m + 1}.0-0`; + } + debug("tilde return", ret); + return ret; + }); + }; + var replaceCarets = (comp, options) => { + return comp.trim().split(/\s+/).map((c) => replaceCaret(c, options)).join(" "); + }; + var replaceCaret = (comp, options) => { + debug("caret", comp, options); + const r = options.loose ? re[t.CARETLOOSE] : re[t.CARET]; + const z = options.includePrerelease ? "-0" : ""; + return comp.replace(r, (_, M, m, p, pr) => { + debug("caret", comp, _, M, m, p, pr); + let ret; + if (isX(M)) { + ret = ""; + } else if (isX(m)) { + ret = `>=${M}.0.0${z} <${+M + 1}.0.0-0`; + } else if (isX(p)) { + if (M === "0") { + ret = `>=${M}.${m}.0${z} <${M}.${+m + 1}.0-0`; + } else { + ret = `>=${M}.${m}.0${z} <${+M + 1}.0.0-0`; + } + } else if (pr) { + debug("replaceCaret pr", pr); + if (M === "0") { + if (m === "0") { + ret = `>=${M}.${m}.${p}-${pr} <${M}.${m}.${+p + 1}-0`; + } else { + ret = `>=${M}.${m}.${p}-${pr} <${M}.${+m + 1}.0-0`; + } + } else { + ret = `>=${M}.${m}.${p}-${pr} <${+M + 1}.0.0-0`; + } + } else { + debug("no pr"); + if (M === "0") { + if (m === "0") { + ret = `>=${M}.${m}.${p}${z} <${M}.${m}.${+p + 1}-0`; + } else { + ret = `>=${M}.${m}.${p}${z} <${M}.${+m + 1}.0-0`; + } + } else { + ret = `>=${M}.${m}.${p} <${+M + 1}.0.0-0`; + } + } + debug("caret return", ret); + return ret; + }); + }; + var replaceXRanges = (comp, options) => { + debug("replaceXRanges", comp, options); + return comp.split(/\s+/).map((c) => replaceXRange(c, options)).join(" "); + }; + var replaceXRange = (comp, options) => { + comp = comp.trim(); + const r = options.loose ? re[t.XRANGELOOSE] : re[t.XRANGE]; + return comp.replace(r, (ret, gtlt, M, m, p, pr) => { + debug("xRange", comp, ret, gtlt, M, m, p, pr); + const xM = isX(M); + const xm = xM || isX(m); + const xp = xm || isX(p); + const anyX = xp; + if (gtlt === "=" && anyX) { + gtlt = ""; + } + pr = options.includePrerelease ? "-0" : ""; + if (xM) { + if (gtlt === ">" || gtlt === "<") { + ret = "<0.0.0-0"; + } else { + ret = "*"; + } + } else if (gtlt && anyX) { + if (xm) { + m = 0; + } + p = 0; + if (gtlt === ">") { + gtlt = ">="; + if (xm) { + M = +M + 1; + m = 0; + p = 0; + } else { + m = +m + 1; + p = 0; + } + } else if (gtlt === "<=") { + gtlt = "<"; + if (xm) { + M = +M + 1; + } else { + m = +m + 1; + } + } + if (gtlt === "<") { + pr = "-0"; + } + ret = `${gtlt + M}.${m}.${p}${pr}`; + } else if (xm) { + ret = `>=${M}.0.0${pr} <${+M + 1}.0.0-0`; + } else if (xp) { + ret = `>=${M}.${m}.0${pr} <${M}.${+m + 1}.0-0`; + } + debug("xRange return", ret); + return ret; + }); + }; + var replaceStars = (comp, options) => { + debug("replaceStars", comp, options); + return comp.trim().replace(re[t.STAR], ""); + }; + var replaceGTE0 = (comp, options) => { + debug("replaceGTE0", comp, options); + return comp.trim().replace(re[options.includePrerelease ? t.GTE0PRE : t.GTE0], ""); + }; + var hyphenReplace = (incPr) => ($0, from, fM, fm, fp, fpr, fb, to, tM, tm, tp, tpr) => { + if (isX(fM)) { + from = ""; + } else if (isX(fm)) { + from = `>=${fM}.0.0${incPr ? "-0" : ""}`; + } else if (isX(fp)) { + from = `>=${fM}.${fm}.0${incPr ? "-0" : ""}`; + } else if (fpr) { + from = `>=${from}`; + } else { + from = `>=${from}${incPr ? "-0" : ""}`; + } + if (isX(tM)) { + to = ""; + } else if (isX(tm)) { + to = `<${+tM + 1}.0.0-0`; + } else if (isX(tp)) { + to = `<${tM}.${+tm + 1}.0-0`; + } else if (tpr) { + to = `<=${tM}.${tm}.${tp}-${tpr}`; + } else if (incPr) { + to = `<${tM}.${tm}.${+tp + 1}-0`; + } else { + to = `<=${to}`; + } + return `${from} ${to}`.trim(); + }; + var testSet = (set, version2, options) => { + for (let i = 0; i < set.length; i++) { + if (!set[i].test(version2)) { + return false; + } + } + if (version2.prerelease.length && !options.includePrerelease) { + for (let i = 0; i < set.length; i++) { + debug(set[i].semver); + if (set[i].semver === Comparator.ANY) { + continue; + } + if (set[i].semver.prerelease.length > 0) { + const allowed = set[i].semver; + if (allowed.major === version2.major && allowed.minor === version2.minor && allowed.patch === version2.patch) { + return true; + } + } + } + return false; } + return true; }; } }); -// .yarn/cache/supports-color-npm-10.2.2-e43ac15f9f-fb28dd7e0c.zip/node_modules/supports-color/index.js -var supports_color_exports = {}; -__export(supports_color_exports, { - createSupportsColor: () => createSupportsColor, - default: () => supports_color_default -}); -function hasFlag(flag, argv = globalThis.Deno ? globalThis.Deno.args : import_node_process.default.argv) { - const prefix = flag.startsWith("-") ? "" : flag.length === 1 ? "-" : "--"; - const position = argv.indexOf(prefix + flag); - const terminatorPosition = argv.indexOf("--"); - return position !== -1 && (terminatorPosition === -1 || position < terminatorPosition); -} -function envForceColor() { - if (!("FORCE_COLOR" in env)) { - return; - } - if (env.FORCE_COLOR === "true") { - return 1; - } - if (env.FORCE_COLOR === "false") { - return 0; - } - if (env.FORCE_COLOR.length === 0) { - return 1; - } - const level = Math.min(Number.parseInt(env.FORCE_COLOR, 10), 3); - if (![0, 1, 2, 3].includes(level)) { - return; +// node_modules/semver/ranges/valid.js +var require_valid2 = __commonJS({ + "node_modules/semver/ranges/valid.js"(exports2, module2) { + "use strict"; + var Range3 = require_range(); + var validRange = (range, options) => { + try { + return new Range3(range, options).range || "*"; + } catch (er) { + return null; + } + }; + module2.exports = validRange; } - return level; -} -function translateLevel(level) { - if (level === 0) { - return false; - } - return { - level, - hasBasic: true, - has256: level >= 2, - has16m: level >= 3 - }; -} -function _supportsColor(haveStream, { streamIsTTY, sniffFlags = true } = {}) { - const noFlagForceColor = envForceColor(); - if (noFlagForceColor !== void 0) { - flagForceColor = noFlagForceColor; - } - const forceColor = sniffFlags ? flagForceColor : noFlagForceColor; - if (forceColor === 0) { - return 0; - } - if (sniffFlags) { - if (hasFlag("color=16m") || hasFlag("color=full") || hasFlag("color=truecolor")) { - return 3; - } - if (hasFlag("color=256")) { - return 2; - } - } - if ("TF_BUILD" in env && "AGENT_NAME" in env) { - return 1; - } - if (haveStream && !streamIsTTY && forceColor === void 0) { - return 0; - } - const min = forceColor || 0; - if (env.TERM === "dumb") { - return min; - } - if (import_node_process.default.platform === "win32") { - const osRelease = import_node_os.default.release().split("."); - if (Number(osRelease[0]) >= 10 && Number(osRelease[2]) >= 10586) { - return Number(osRelease[2]) >= 14931 ? 3 : 2; - } - return 1; - } - if ("CI" in env) { - if (["GITHUB_ACTIONS", "GITEA_ACTIONS", "CIRCLECI"].some((key) => key in env)) { - return 3; +}); + +// node_modules/ms/index.js +var require_ms = __commonJS({ + "node_modules/ms/index.js"(exports2, module2) { + var s = 1e3; + var m = s * 60; + var h = m * 60; + var d = h * 24; + var w = d * 7; + var y = d * 365.25; + module2.exports = function(val, options) { + options = options || {}; + var type = typeof val; + if (type === "string" && val.length > 0) { + return parse4(val); + } else if (type === "number" && isFinite(val)) { + return options.long ? fmtLong(val) : fmtShort(val); + } + throw new Error( + "val is not a non-empty string or a valid number. val=" + JSON.stringify(val) + ); + }; + function parse4(str) { + str = String(str); + if (str.length > 100) { + return; + } + var match = /^(-?(?:\d+)?\.?\d+) *(milliseconds?|msecs?|ms|seconds?|secs?|s|minutes?|mins?|m|hours?|hrs?|h|days?|d|weeks?|w|years?|yrs?|y)?$/i.exec( + str + ); + if (!match) { + return; + } + var n = parseFloat(match[1]); + var type = (match[2] || "ms").toLowerCase(); + switch (type) { + case "years": + case "year": + case "yrs": + case "yr": + case "y": + return n * y; + case "weeks": + case "week": + case "w": + return n * w; + case "days": + case "day": + case "d": + return n * d; + case "hours": + case "hour": + case "hrs": + case "hr": + case "h": + return n * h; + case "minutes": + case "minute": + case "mins": + case "min": + case "m": + return n * m; + case "seconds": + case "second": + case "secs": + case "sec": + case "s": + return n * s; + case "milliseconds": + case "millisecond": + case "msecs": + case "msec": + case "ms": + return n; + default: + return void 0; + } } - if (["TRAVIS", "APPVEYOR", "GITLAB_CI", "BUILDKITE", "DRONE"].some((sign) => sign in env) || env.CI_NAME === "codeship") { - return 1; + function fmtShort(ms) { + var msAbs = Math.abs(ms); + if (msAbs >= d) { + return Math.round(ms / d) + "d"; + } + if (msAbs >= h) { + return Math.round(ms / h) + "h"; + } + if (msAbs >= m) { + return Math.round(ms / m) + "m"; + } + if (msAbs >= s) { + return Math.round(ms / s) + "s"; + } + return ms + "ms"; } - return min; - } - if ("TEAMCITY_VERSION" in env) { - return /^(9\.(0*[1-9]\d*)\.|\d{2,}\.)/.test(env.TEAMCITY_VERSION) ? 1 : 0; - } - if (env.COLORTERM === "truecolor") { - return 3; - } - if (env.TERM === "xterm-kitty") { - return 3; - } - if (env.TERM === "xterm-ghostty") { - return 3; - } - if (env.TERM === "wezterm") { - return 3; - } - if ("TERM_PROGRAM" in env) { - const version2 = Number.parseInt((env.TERM_PROGRAM_VERSION || "").split(".")[0], 10); - switch (env.TERM_PROGRAM) { - case "iTerm.app": { - return version2 >= 3 ? 3 : 2; + function fmtLong(ms) { + var msAbs = Math.abs(ms); + if (msAbs >= d) { + return plural2(ms, msAbs, d, "day"); } - case "Apple_Terminal": { - return 2; + if (msAbs >= h) { + return plural2(ms, msAbs, h, "hour"); + } + if (msAbs >= m) { + return plural2(ms, msAbs, m, "minute"); + } + if (msAbs >= s) { + return plural2(ms, msAbs, s, "second"); } + return ms + " ms"; } - } - if (/-256(color)?$/i.test(env.TERM)) { - return 2; - } - if (/^screen|^xterm|^vt100|^vt220|^rxvt|color|ansi|cygwin|linux/i.test(env.TERM)) { - return 1; - } - if ("COLORTERM" in env) { - return 1; - } - return min; -} -function createSupportsColor(stream, options = {}) { - const level = _supportsColor(stream, { - streamIsTTY: stream && stream.isTTY, - ...options - }); - return translateLevel(level); -} -var import_node_process, import_node_os, import_node_tty, env, flagForceColor, supportsColor, supports_color_default; -var init_supports_color = __esm({ - ".yarn/cache/supports-color-npm-10.2.2-e43ac15f9f-fb28dd7e0c.zip/node_modules/supports-color/index.js"() { - import_node_process = __toESM(require("node:process"), 1); - import_node_os = __toESM(require("node:os"), 1); - import_node_tty = __toESM(require("node:tty"), 1); - ({ env } = import_node_process.default); - if (hasFlag("no-color") || hasFlag("no-colors") || hasFlag("color=false") || hasFlag("color=never")) { - flagForceColor = 0; - } else if (hasFlag("color") || hasFlag("colors") || hasFlag("color=true") || hasFlag("color=always")) { - flagForceColor = 1; + function plural2(ms, msAbs, n, name2) { + var isPlural = msAbs >= n * 1.5; + return Math.round(ms / n) + " " + name2 + (isPlural ? "s" : ""); } - supportsColor = { - stdout: createSupportsColor({ isTTY: import_node_tty.default.isatty(1) }), - stderr: createSupportsColor({ isTTY: import_node_tty.default.isatty(2) }) - }; - supports_color_default = supportsColor; } }); -// .yarn/__virtual__/debug-virtual-436baa457e/0/cache/debug-npm-4.4.3-0105c6123a-d79136ec6c.zip/node_modules/debug/src/node.js -var require_node2 = __commonJS({ - ".yarn/__virtual__/debug-virtual-436baa457e/0/cache/debug-npm-4.4.3-0105c6123a-d79136ec6c.zip/node_modules/debug/src/node.js"(exports2, module2) { - var tty2 = require("tty"); - var util = require("util"); - exports2.init = init; - exports2.log = log2; - exports2.formatArgs = formatArgs; - exports2.save = save; - exports2.load = load; - exports2.useColors = useColors; - exports2.destroy = util.deprecate( - () => { - }, - "Instance method `debug.destroy()` is deprecated and no longer does anything. It will be removed in the next major version of `debug`." - ); - exports2.colors = [6, 2, 3, 4, 5, 1]; - try { - const supportsColor2 = (init_supports_color(), __toCommonJS(supports_color_exports)); - if (supportsColor2 && (supportsColor2.stderr || supportsColor2).level >= 2) { - exports2.colors = [ - 20, - 21, - 26, - 27, - 32, - 33, - 38, - 39, - 40, - 41, - 42, - 43, - 44, - 45, - 56, - 57, - 62, - 63, - 68, - 69, - 74, - 75, - 76, - 77, - 78, - 79, - 80, - 81, - 92, - 93, - 98, - 99, - 112, - 113, - 128, - 129, - 134, - 135, - 148, - 149, - 160, - 161, - 162, - 163, - 164, - 165, - 166, - 167, - 168, - 169, - 170, - 171, - 172, - 173, - 178, - 179, - 184, - 185, - 196, - 197, - 198, - 199, - 200, - 201, - 202, - 203, - 204, - 205, - 206, - 207, - 208, - 209, - 214, - 215, - 220, - 221 - ]; - } - } catch (error) { - } - exports2.inspectOpts = Object.keys(process.env).filter((key) => { - return /^debug_/i.test(key); - }).reduce((obj, key) => { - const prop = key.substring(6).toLowerCase().replace(/_([a-z])/g, (_, k) => { - return k.toUpperCase(); +// node_modules/debug/src/common.js +var require_common = __commonJS({ + "node_modules/debug/src/common.js"(exports2, module2) { + function setup(env2) { + createDebug.debug = createDebug; + createDebug.default = createDebug; + createDebug.coerce = coerce; + createDebug.disable = disable; + createDebug.enable = enable; + createDebug.enabled = enabled; + createDebug.humanize = require_ms(); + createDebug.destroy = destroy; + Object.keys(env2).forEach((key) => { + createDebug[key] = env2[key]; }); - let val = process.env[key]; - if (/^(yes|on|true|enabled)$/i.test(val)) { - val = true; - } else if (/^(no|off|false|disabled)$/i.test(val)) { - val = false; - } else if (val === "null") { - val = null; - } else { - val = Number(val); - } - obj[prop] = val; - return obj; - }, {}); - function useColors() { - return "colors" in exports2.inspectOpts ? Boolean(exports2.inspectOpts.colors) : tty2.isatty(process.stderr.fd); - } - function formatArgs(args) { - const { namespace: name2, useColors: useColors2 } = this; - if (useColors2) { - const c = this.color; - const colorCode = "\x1B[3" + (c < 8 ? c : "8;5;" + c); - const prefix = ` ${colorCode};1m${name2} \x1B[0m`; - args[0] = prefix + args[0].split("\n").join("\n" + prefix); - args.push(colorCode + "m+" + module2.exports.humanize(this.diff) + "\x1B[0m"); - } else { - args[0] = getDate() + name2 + " " + args[0]; - } - } - function getDate() { - if (exports2.inspectOpts.hideDate) { - return ""; - } - return (/* @__PURE__ */ new Date()).toISOString() + " "; - } - function log2(...args) { - return process.stderr.write(util.formatWithOptions(exports2.inspectOpts, ...args) + "\n"); - } - function save(namespaces) { - if (namespaces) { - process.env.DEBUG = namespaces; - } else { - delete process.env.DEBUG; - } - } - function load() { - return process.env.DEBUG; - } - function init(debug2) { - debug2.inspectOpts = {}; - const keys = Object.keys(exports2.inspectOpts); - for (let i = 0; i < keys.length; i++) { - debug2.inspectOpts[keys[i]] = exports2.inspectOpts[keys[i]]; - } - } - module2.exports = require_common()(exports2); - var { formatters } = module2.exports; - formatters.o = function(v) { - this.inspectOpts.colors = this.useColors; - return util.inspect(v, this.inspectOpts).split("\n").map((str) => str.trim()).join(" "); - }; - formatters.O = function(v) { - this.inspectOpts.colors = this.useColors; - return util.inspect(v, this.inspectOpts); - }; - } -}); - -// .yarn/__virtual__/debug-virtual-436baa457e/0/cache/debug-npm-4.4.3-0105c6123a-d79136ec6c.zip/node_modules/debug/src/index.js -var require_src = __commonJS({ - ".yarn/__virtual__/debug-virtual-436baa457e/0/cache/debug-npm-4.4.3-0105c6123a-d79136ec6c.zip/node_modules/debug/src/index.js"(exports2, module2) { - if (typeof process === "undefined" || process.type === "renderer" || process.browser === true || process.__nwjs) { - module2.exports = require_browser(); - } else { - module2.exports = require_node2(); - } - } -}); - -// .yarn/cache/proxy-from-env-npm-1.1.0-c13d07f26b-fe7dd8b1bd.zip/node_modules/proxy-from-env/index.js -var require_proxy_from_env = __commonJS({ - ".yarn/cache/proxy-from-env-npm-1.1.0-c13d07f26b-fe7dd8b1bd.zip/node_modules/proxy-from-env/index.js"(exports2) { - "use strict"; - var parseUrl = require("url").parse; - var DEFAULT_PORTS = { - ftp: 21, - gopher: 70, - http: 80, - https: 443, - ws: 80, - wss: 443 - }; - var stringEndsWith = String.prototype.endsWith || function(s) { - return s.length <= this.length && this.indexOf(s, this.length - s.length) !== -1; - }; - function getProxyForUrl(url) { - var parsedUrl = typeof url === "string" ? parseUrl(url) : url || {}; - var proto = parsedUrl.protocol; - var hostname = parsedUrl.host; - var port = parsedUrl.port; - if (typeof hostname !== "string" || !hostname || typeof proto !== "string") { - return ""; - } - proto = proto.split(":", 1)[0]; - hostname = hostname.replace(/:\d*$/, ""); - port = parseInt(port) || DEFAULT_PORTS[proto] || 0; - if (!shouldProxy(hostname, port)) { - return ""; - } - var proxy = getEnv("npm_config_" + proto + "_proxy") || getEnv(proto + "_proxy") || getEnv("npm_config_proxy") || getEnv("all_proxy"); - if (proxy && proxy.indexOf("://") === -1) { - proxy = proto + "://" + proxy; - } - return proxy; - } - function shouldProxy(hostname, port) { - var NO_PROXY = (getEnv("npm_config_no_proxy") || getEnv("no_proxy")).toLowerCase(); - if (!NO_PROXY) { - return true; - } - if (NO_PROXY === "*") { - return false; - } - return NO_PROXY.split(/[,\s]/).every(function(proxy) { - if (!proxy) { - return true; - } - var parsedProxy = proxy.match(/^(.+):(\d+)$/); - var parsedProxyHostname = parsedProxy ? parsedProxy[1] : proxy; - var parsedProxyPort = parsedProxy ? parseInt(parsedProxy[2]) : 0; - if (parsedProxyPort && parsedProxyPort !== port) { - return true; + createDebug.names = []; + createDebug.skips = []; + createDebug.formatters = {}; + function selectColor(namespace) { + let hash = 0; + for (let i = 0; i < namespace.length; i++) { + hash = (hash << 5) - hash + namespace.charCodeAt(i); + hash |= 0; } - if (!/^[.*]/.test(parsedProxyHostname)) { - return hostname !== parsedProxyHostname; + return createDebug.colors[Math.abs(hash) % createDebug.colors.length]; + } + createDebug.selectColor = selectColor; + function createDebug(namespace) { + let prevTime; + let enableOverride = null; + let namespacesCache; + let enabledCache; + function debug(...args) { + if (!debug.enabled) { + return; + } + const self2 = debug; + const curr = Number(/* @__PURE__ */ new Date()); + const ms = curr - (prevTime || curr); + self2.diff = ms; + self2.prev = prevTime; + self2.curr = curr; + prevTime = curr; + args[0] = createDebug.coerce(args[0]); + if (typeof args[0] !== "string") { + args.unshift("%O"); + } + let index = 0; + args[0] = args[0].replace(/%([a-zA-Z%])/g, (match, format) => { + if (match === "%%") { + return "%"; + } + index++; + const formatter = createDebug.formatters[format]; + if (typeof formatter === "function") { + const val = args[index]; + match = formatter.call(self2, val); + args.splice(index, 1); + index--; + } + return match; + }); + createDebug.formatArgs.call(self2, args); + const logFn = self2.log || createDebug.log; + logFn.apply(self2, args); } - if (parsedProxyHostname.charAt(0) === "*") { - parsedProxyHostname = parsedProxyHostname.slice(1); + debug.namespace = namespace; + debug.useColors = createDebug.useColors(); + debug.color = createDebug.selectColor(namespace); + debug.extend = extend; + debug.destroy = createDebug.destroy; + Object.defineProperty(debug, "enabled", { + enumerable: true, + configurable: false, + get: () => { + if (enableOverride !== null) { + return enableOverride; + } + if (namespacesCache !== createDebug.namespaces) { + namespacesCache = createDebug.namespaces; + enabledCache = createDebug.enabled(namespace); + } + return enabledCache; + }, + set: (v) => { + enableOverride = v; + } + }); + if (typeof createDebug.init === "function") { + createDebug.init(debug); } - return !stringEndsWith.call(hostname, parsedProxyHostname); - }); - } - function getEnv(key) { - return process.env[key.toLowerCase()] || process.env[key.toUpperCase()] || ""; - } - exports2.getProxyForUrl = getProxyForUrl; - } -}); - -// .yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/core/errors.js -var require_errors = __commonJS({ - ".yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/core/errors.js"(exports2, module2) { - "use strict"; - var kUndiciError = Symbol.for("undici.error.UND_ERR"); - var UndiciError = class extends Error { - constructor(message) { - super(message); - this.name = "UndiciError"; - this.code = "UND_ERR"; + return debug; } - static [Symbol.hasInstance](instance) { - return instance && instance[kUndiciError] === true; - } - [kUndiciError] = true; - }; - var kConnectTimeoutError = Symbol.for("undici.error.UND_ERR_CONNECT_TIMEOUT"); - var ConnectTimeoutError = class extends UndiciError { - constructor(message) { - super(message); - this.name = "ConnectTimeoutError"; - this.message = message || "Connect Timeout Error"; - this.code = "UND_ERR_CONNECT_TIMEOUT"; + function extend(namespace, delimiter) { + const newDebug = createDebug(this.namespace + (typeof delimiter === "undefined" ? ":" : delimiter) + namespace); + newDebug.log = this.log; + return newDebug; } - static [Symbol.hasInstance](instance) { - return instance && instance[kConnectTimeoutError] === true; + function enable(namespaces) { + createDebug.save(namespaces); + createDebug.namespaces = namespaces; + createDebug.names = []; + createDebug.skips = []; + const split = (typeof namespaces === "string" ? namespaces : "").trim().replace(/\s+/g, ",").split(",").filter(Boolean); + for (const ns of split) { + if (ns[0] === "-") { + createDebug.skips.push(ns.slice(1)); + } else { + createDebug.names.push(ns); + } + } } - [kConnectTimeoutError] = true; - }; - var kHeadersTimeoutError = Symbol.for("undici.error.UND_ERR_HEADERS_TIMEOUT"); - var HeadersTimeoutError = class extends UndiciError { - constructor(message) { - super(message); - this.name = "HeadersTimeoutError"; - this.message = message || "Headers Timeout Error"; - this.code = "UND_ERR_HEADERS_TIMEOUT"; - } - static [Symbol.hasInstance](instance) { - return instance && instance[kHeadersTimeoutError] === true; - } - [kHeadersTimeoutError] = true; - }; - var kHeadersOverflowError = Symbol.for("undici.error.UND_ERR_HEADERS_OVERFLOW"); - var HeadersOverflowError = class extends UndiciError { - constructor(message) { - super(message); - this.name = "HeadersOverflowError"; - this.message = message || "Headers Overflow Error"; - this.code = "UND_ERR_HEADERS_OVERFLOW"; - } - static [Symbol.hasInstance](instance) { - return instance && instance[kHeadersOverflowError] === true; - } - [kHeadersOverflowError] = true; - }; - var kBodyTimeoutError = Symbol.for("undici.error.UND_ERR_BODY_TIMEOUT"); - var BodyTimeoutError = class extends UndiciError { - constructor(message) { - super(message); - this.name = "BodyTimeoutError"; - this.message = message || "Body Timeout Error"; - this.code = "UND_ERR_BODY_TIMEOUT"; - } - static [Symbol.hasInstance](instance) { - return instance && instance[kBodyTimeoutError] === true; - } - [kBodyTimeoutError] = true; - }; - var kResponseStatusCodeError = Symbol.for("undici.error.UND_ERR_RESPONSE_STATUS_CODE"); - var ResponseStatusCodeError = class extends UndiciError { - constructor(message, statusCode, headers, body) { - super(message); - this.name = "ResponseStatusCodeError"; - this.message = message || "Response Status Code Error"; - this.code = "UND_ERR_RESPONSE_STATUS_CODE"; - this.body = body; - this.status = statusCode; - this.statusCode = statusCode; - this.headers = headers; - } - static [Symbol.hasInstance](instance) { - return instance && instance[kResponseStatusCodeError] === true; - } - [kResponseStatusCodeError] = true; - }; - var kInvalidArgumentError = Symbol.for("undici.error.UND_ERR_INVALID_ARG"); - var InvalidArgumentError = class extends UndiciError { - constructor(message) { - super(message); - this.name = "InvalidArgumentError"; - this.message = message || "Invalid Argument Error"; - this.code = "UND_ERR_INVALID_ARG"; - } - static [Symbol.hasInstance](instance) { - return instance && instance[kInvalidArgumentError] === true; - } - [kInvalidArgumentError] = true; - }; - var kInvalidReturnValueError = Symbol.for("undici.error.UND_ERR_INVALID_RETURN_VALUE"); - var InvalidReturnValueError = class extends UndiciError { - constructor(message) { - super(message); - this.name = "InvalidReturnValueError"; - this.message = message || "Invalid Return Value Error"; - this.code = "UND_ERR_INVALID_RETURN_VALUE"; - } - static [Symbol.hasInstance](instance) { - return instance && instance[kInvalidReturnValueError] === true; - } - [kInvalidReturnValueError] = true; - }; - var kAbortError = Symbol.for("undici.error.UND_ERR_ABORT"); - var AbortError = class extends UndiciError { - constructor(message) { - super(message); - this.name = "AbortError"; - this.message = message || "The operation was aborted"; - this.code = "UND_ERR_ABORT"; - } - static [Symbol.hasInstance](instance) { - return instance && instance[kAbortError] === true; - } - [kAbortError] = true; - }; - var kRequestAbortedError = Symbol.for("undici.error.UND_ERR_ABORTED"); - var RequestAbortedError = class extends AbortError { - constructor(message) { - super(message); - this.name = "AbortError"; - this.message = message || "Request aborted"; - this.code = "UND_ERR_ABORTED"; - } - static [Symbol.hasInstance](instance) { - return instance && instance[kRequestAbortedError] === true; - } - [kRequestAbortedError] = true; - }; - var kInformationalError = Symbol.for("undici.error.UND_ERR_INFO"); - var InformationalError = class extends UndiciError { - constructor(message) { - super(message); - this.name = "InformationalError"; - this.message = message || "Request information"; - this.code = "UND_ERR_INFO"; - } - static [Symbol.hasInstance](instance) { - return instance && instance[kInformationalError] === true; - } - [kInformationalError] = true; - }; - var kRequestContentLengthMismatchError = Symbol.for("undici.error.UND_ERR_REQ_CONTENT_LENGTH_MISMATCH"); - var RequestContentLengthMismatchError = class extends UndiciError { - constructor(message) { - super(message); - this.name = "RequestContentLengthMismatchError"; - this.message = message || "Request body length does not match content-length header"; - this.code = "UND_ERR_REQ_CONTENT_LENGTH_MISMATCH"; - } - static [Symbol.hasInstance](instance) { - return instance && instance[kRequestContentLengthMismatchError] === true; - } - [kRequestContentLengthMismatchError] = true; - }; - var kResponseContentLengthMismatchError = Symbol.for("undici.error.UND_ERR_RES_CONTENT_LENGTH_MISMATCH"); - var ResponseContentLengthMismatchError = class extends UndiciError { - constructor(message) { - super(message); - this.name = "ResponseContentLengthMismatchError"; - this.message = message || "Response body length does not match content-length header"; - this.code = "UND_ERR_RES_CONTENT_LENGTH_MISMATCH"; - } - static [Symbol.hasInstance](instance) { - return instance && instance[kResponseContentLengthMismatchError] === true; - } - [kResponseContentLengthMismatchError] = true; - }; - var kClientDestroyedError = Symbol.for("undici.error.UND_ERR_DESTROYED"); - var ClientDestroyedError = class extends UndiciError { - constructor(message) { - super(message); - this.name = "ClientDestroyedError"; - this.message = message || "The client is destroyed"; - this.code = "UND_ERR_DESTROYED"; - } - static [Symbol.hasInstance](instance) { - return instance && instance[kClientDestroyedError] === true; - } - [kClientDestroyedError] = true; - }; - var kClientClosedError = Symbol.for("undici.error.UND_ERR_CLOSED"); - var ClientClosedError = class extends UndiciError { - constructor(message) { - super(message); - this.name = "ClientClosedError"; - this.message = message || "The client is closed"; - this.code = "UND_ERR_CLOSED"; - } - static [Symbol.hasInstance](instance) { - return instance && instance[kClientClosedError] === true; - } - [kClientClosedError] = true; - }; - var kSocketError = Symbol.for("undici.error.UND_ERR_SOCKET"); - var SocketError = class extends UndiciError { - constructor(message, socket) { - super(message); - this.name = "SocketError"; - this.message = message || "Socket error"; - this.code = "UND_ERR_SOCKET"; - this.socket = socket; - } - static [Symbol.hasInstance](instance) { - return instance && instance[kSocketError] === true; - } - [kSocketError] = true; - }; - var kNotSupportedError = Symbol.for("undici.error.UND_ERR_NOT_SUPPORTED"); - var NotSupportedError = class extends UndiciError { - constructor(message) { - super(message); - this.name = "NotSupportedError"; - this.message = message || "Not supported error"; - this.code = "UND_ERR_NOT_SUPPORTED"; - } - static [Symbol.hasInstance](instance) { - return instance && instance[kNotSupportedError] === true; - } - [kNotSupportedError] = true; - }; - var kBalancedPoolMissingUpstreamError = Symbol.for("undici.error.UND_ERR_BPL_MISSING_UPSTREAM"); - var BalancedPoolMissingUpstreamError = class extends UndiciError { - constructor(message) { - super(message); - this.name = "MissingUpstreamError"; - this.message = message || "No upstream has been added to the BalancedPool"; - this.code = "UND_ERR_BPL_MISSING_UPSTREAM"; - } - static [Symbol.hasInstance](instance) { - return instance && instance[kBalancedPoolMissingUpstreamError] === true; - } - [kBalancedPoolMissingUpstreamError] = true; - }; - var kHTTPParserError = Symbol.for("undici.error.UND_ERR_HTTP_PARSER"); - var HTTPParserError = class extends Error { - constructor(message, code2, data) { - super(message); - this.name = "HTTPParserError"; - this.code = code2 ? `HPE_${code2}` : void 0; - this.data = data ? data.toString() : void 0; - } - static [Symbol.hasInstance](instance) { - return instance && instance[kHTTPParserError] === true; - } - [kHTTPParserError] = true; - }; - var kResponseExceededMaxSizeError = Symbol.for("undici.error.UND_ERR_RES_EXCEEDED_MAX_SIZE"); - var ResponseExceededMaxSizeError = class extends UndiciError { - constructor(message) { - super(message); - this.name = "ResponseExceededMaxSizeError"; - this.message = message || "Response content exceeded max size"; - this.code = "UND_ERR_RES_EXCEEDED_MAX_SIZE"; - } - static [Symbol.hasInstance](instance) { - return instance && instance[kResponseExceededMaxSizeError] === true; - } - [kResponseExceededMaxSizeError] = true; - }; - var kRequestRetryError = Symbol.for("undici.error.UND_ERR_REQ_RETRY"); - var RequestRetryError = class extends UndiciError { - constructor(message, code2, { headers, data }) { - super(message); - this.name = "RequestRetryError"; - this.message = message || "Request retry error"; - this.code = "UND_ERR_REQ_RETRY"; - this.statusCode = code2; - this.data = data; - this.headers = headers; - } - static [Symbol.hasInstance](instance) { - return instance && instance[kRequestRetryError] === true; - } - [kRequestRetryError] = true; - }; - var kResponseError = Symbol.for("undici.error.UND_ERR_RESPONSE"); - var ResponseError = class extends UndiciError { - constructor(message, code2, { headers, data }) { - super(message); - this.name = "ResponseError"; - this.message = message || "Response error"; - this.code = "UND_ERR_RESPONSE"; - this.statusCode = code2; - this.data = data; - this.headers = headers; - } - static [Symbol.hasInstance](instance) { - return instance && instance[kResponseError] === true; - } - [kResponseError] = true; - }; - var kSecureProxyConnectionError = Symbol.for("undici.error.UND_ERR_PRX_TLS"); - var SecureProxyConnectionError = class extends UndiciError { - constructor(cause, message, options) { - super(message, { cause, ...options ?? {} }); - this.name = "SecureProxyConnectionError"; - this.message = message || "Secure Proxy Connection failed"; - this.code = "UND_ERR_PRX_TLS"; - this.cause = cause; - } - static [Symbol.hasInstance](instance) { - return instance && instance[kSecureProxyConnectionError] === true; - } - [kSecureProxyConnectionError] = true; - }; - module2.exports = { - AbortError, - HTTPParserError, - UndiciError, - HeadersTimeoutError, - HeadersOverflowError, - BodyTimeoutError, - RequestContentLengthMismatchError, - ConnectTimeoutError, - ResponseStatusCodeError, - InvalidArgumentError, - InvalidReturnValueError, - RequestAbortedError, - ClientDestroyedError, - ClientClosedError, - InformationalError, - SocketError, - NotSupportedError, - ResponseContentLengthMismatchError, - BalancedPoolMissingUpstreamError, - ResponseExceededMaxSizeError, - RequestRetryError, - ResponseError, - SecureProxyConnectionError - }; - } -}); - -// .yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/core/symbols.js -var require_symbols = __commonJS({ - ".yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/core/symbols.js"(exports2, module2) { - module2.exports = { - kClose: Symbol("close"), - kDestroy: Symbol("destroy"), - kDispatch: Symbol("dispatch"), - kUrl: Symbol("url"), - kWriting: Symbol("writing"), - kResuming: Symbol("resuming"), - kQueue: Symbol("queue"), - kConnect: Symbol("connect"), - kConnecting: Symbol("connecting"), - kKeepAliveDefaultTimeout: Symbol("default keep alive timeout"), - kKeepAliveMaxTimeout: Symbol("max keep alive timeout"), - kKeepAliveTimeoutThreshold: Symbol("keep alive timeout threshold"), - kKeepAliveTimeoutValue: Symbol("keep alive timeout"), - kKeepAlive: Symbol("keep alive"), - kHeadersTimeout: Symbol("headers timeout"), - kBodyTimeout: Symbol("body timeout"), - kServerName: Symbol("server name"), - kLocalAddress: Symbol("local address"), - kHost: Symbol("host"), - kNoRef: Symbol("no ref"), - kBodyUsed: Symbol("used"), - kBody: Symbol("abstracted request body"), - kRunning: Symbol("running"), - kBlocking: Symbol("blocking"), - kPending: Symbol("pending"), - kSize: Symbol("size"), - kBusy: Symbol("busy"), - kQueued: Symbol("queued"), - kFree: Symbol("free"), - kConnected: Symbol("connected"), - kClosed: Symbol("closed"), - kNeedDrain: Symbol("need drain"), - kReset: Symbol("reset"), - kDestroyed: Symbol.for("nodejs.stream.destroyed"), - kResume: Symbol("resume"), - kOnError: Symbol("on error"), - kMaxHeadersSize: Symbol("max headers size"), - kRunningIdx: Symbol("running index"), - kPendingIdx: Symbol("pending index"), - kError: Symbol("error"), - kClients: Symbol("clients"), - kClient: Symbol("client"), - kParser: Symbol("parser"), - kOnDestroyed: Symbol("destroy callbacks"), - kPipelining: Symbol("pipelining"), - kSocket: Symbol("socket"), - kHostHeader: Symbol("host header"), - kConnector: Symbol("connector"), - kStrictContentLength: Symbol("strict content length"), - kMaxRedirections: Symbol("maxRedirections"), - kMaxRequests: Symbol("maxRequestsPerClient"), - kProxy: Symbol("proxy agent options"), - kCounter: Symbol("socket request counter"), - kInterceptors: Symbol("dispatch interceptors"), - kMaxResponseSize: Symbol("max response size"), - kHTTP2Session: Symbol("http2Session"), - kHTTP2SessionState: Symbol("http2Session state"), - kRetryHandlerDefaultRetry: Symbol("retry agent default retry"), - kConstruct: Symbol("constructable"), - kListeners: Symbol("listeners"), - kHTTPContext: Symbol("http context"), - kMaxConcurrentStreams: Symbol("max concurrent streams"), - kNoProxyAgent: Symbol("no proxy agent"), - kHttpProxyAgent: Symbol("http proxy agent"), - kHttpsProxyAgent: Symbol("https proxy agent") - }; - } -}); - -// .yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/core/constants.js -var require_constants2 = __commonJS({ - ".yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/core/constants.js"(exports2, module2) { - "use strict"; - var headerNameLowerCasedRecord = {}; - var wellknownHeaderNames = [ - "Accept", - "Accept-Encoding", - "Accept-Language", - "Accept-Ranges", - "Access-Control-Allow-Credentials", - "Access-Control-Allow-Headers", - "Access-Control-Allow-Methods", - "Access-Control-Allow-Origin", - "Access-Control-Expose-Headers", - "Access-Control-Max-Age", - "Access-Control-Request-Headers", - "Access-Control-Request-Method", - "Age", - "Allow", - "Alt-Svc", - "Alt-Used", - "Authorization", - "Cache-Control", - "Clear-Site-Data", - "Connection", - "Content-Disposition", - "Content-Encoding", - "Content-Language", - "Content-Length", - "Content-Location", - "Content-Range", - "Content-Security-Policy", - "Content-Security-Policy-Report-Only", - "Content-Type", - "Cookie", - "Cross-Origin-Embedder-Policy", - "Cross-Origin-Opener-Policy", - "Cross-Origin-Resource-Policy", - "Date", - "Device-Memory", - "Downlink", - "ECT", - "ETag", - "Expect", - "Expect-CT", - "Expires", - "Forwarded", - "From", - "Host", - "If-Match", - "If-Modified-Since", - "If-None-Match", - "If-Range", - "If-Unmodified-Since", - "Keep-Alive", - "Last-Modified", - "Link", - "Location", - "Max-Forwards", - "Origin", - "Permissions-Policy", - "Pragma", - "Proxy-Authenticate", - "Proxy-Authorization", - "RTT", - "Range", - "Referer", - "Referrer-Policy", - "Refresh", - "Retry-After", - "Sec-WebSocket-Accept", - "Sec-WebSocket-Extensions", - "Sec-WebSocket-Key", - "Sec-WebSocket-Protocol", - "Sec-WebSocket-Version", - "Server", - "Server-Timing", - "Service-Worker-Allowed", - "Service-Worker-Navigation-Preload", - "Set-Cookie", - "SourceMap", - "Strict-Transport-Security", - "Supports-Loading-Mode", - "TE", - "Timing-Allow-Origin", - "Trailer", - "Transfer-Encoding", - "Upgrade", - "Upgrade-Insecure-Requests", - "User-Agent", - "Vary", - "Via", - "WWW-Authenticate", - "X-Content-Type-Options", - "X-DNS-Prefetch-Control", - "X-Frame-Options", - "X-Permitted-Cross-Domain-Policies", - "X-Powered-By", - "X-Requested-With", - "X-XSS-Protection" - ]; - for (let i = 0; i < wellknownHeaderNames.length; ++i) { - const key = wellknownHeaderNames[i]; - const lowerCasedKey = key.toLowerCase(); - headerNameLowerCasedRecord[key] = headerNameLowerCasedRecord[lowerCasedKey] = lowerCasedKey; - } - Object.setPrototypeOf(headerNameLowerCasedRecord, null); - module2.exports = { - wellknownHeaderNames, - headerNameLowerCasedRecord - }; - } -}); - -// .yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/core/tree.js -var require_tree = __commonJS({ - ".yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/core/tree.js"(exports2, module2) { - "use strict"; - var { - wellknownHeaderNames, - headerNameLowerCasedRecord - } = require_constants2(); - var TstNode = class _TstNode { - /** @type {any} */ - value = null; - /** @type {null | TstNode} */ - left = null; - /** @type {null | TstNode} */ - middle = null; - /** @type {null | TstNode} */ - right = null; - /** @type {number} */ - code; - /** - * @param {string} key - * @param {any} value - * @param {number} index - */ - constructor(key, value, index) { - if (index === void 0 || index >= key.length) { - throw new TypeError("Unreachable"); - } - const code2 = this.code = key.charCodeAt(index); - if (code2 > 127) { - throw new TypeError("key must be ascii string"); - } - if (key.length !== ++index) { - this.middle = new _TstNode(key, value, index); - } else { - this.value = value; - } - } - /** - * @param {string} key - * @param {any} value - */ - add(key, value) { - const length = key.length; - if (length === 0) { - throw new TypeError("Unreachable"); - } - let index = 0; - let node = this; - while (true) { - const code2 = key.charCodeAt(index); - if (code2 > 127) { - throw new TypeError("key must be ascii string"); - } - if (node.code === code2) { - if (length === ++index) { - node.value = value; - break; - } else if (node.middle !== null) { - node = node.middle; - } else { - node.middle = new _TstNode(key, value, index); - break; - } - } else if (node.code < code2) { - if (node.left !== null) { - node = node.left; + function matchesTemplate(search, template) { + let searchIndex = 0; + let templateIndex = 0; + let starIndex = -1; + let matchIndex = 0; + while (searchIndex < search.length) { + if (templateIndex < template.length && (template[templateIndex] === search[searchIndex] || template[templateIndex] === "*")) { + if (template[templateIndex] === "*") { + starIndex = templateIndex; + matchIndex = searchIndex; + templateIndex++; } else { - node.left = new _TstNode(key, value, index); - break; + searchIndex++; + templateIndex++; } - } else if (node.right !== null) { - node = node.right; + } else if (starIndex !== -1) { + templateIndex = starIndex + 1; + matchIndex++; + searchIndex = matchIndex; } else { - node.right = new _TstNode(key, value, index); - break; + return false; } } + while (templateIndex < template.length && template[templateIndex] === "*") { + templateIndex++; + } + return templateIndex === template.length; } - /** - * @param {Uint8Array} key - * @return {TstNode | null} - */ - search(key) { - const keylength = key.length; - let index = 0; - let node = this; - while (node !== null && index < keylength) { - let code2 = key[index]; - if (code2 <= 90 && code2 >= 65) { - code2 |= 32; + function disable() { + const namespaces = [ + ...createDebug.names, + ...createDebug.skips.map((namespace) => "-" + namespace) + ].join(","); + createDebug.enable(""); + return namespaces; + } + function enabled(name2) { + for (const skip of createDebug.skips) { + if (matchesTemplate(name2, skip)) { + return false; } - while (node !== null) { - if (code2 === node.code) { - if (keylength === ++index) { - return node; - } - node = node.middle; - break; - } - node = node.code < code2 ? node.left : node.right; + } + for (const ns of createDebug.names) { + if (matchesTemplate(name2, ns)) { + return true; } } - return null; + return false; } - }; - var TernarySearchTree = class { - /** @type {TstNode | null} */ - node = null; - /** - * @param {string} key - * @param {any} value - * */ - insert(key, value) { - if (this.node === null) { - this.node = new TstNode(key, value, 0); - } else { - this.node.add(key, value); + function coerce(val) { + if (val instanceof Error) { + return val.stack || val.message; } + return val; } - /** - * @param {Uint8Array} key - * @return {any} - */ - lookup(key) { - return this.node?.search(key)?.value ?? null; + function destroy() { + console.warn("Instance method `debug.destroy()` is deprecated and no longer does anything. It will be removed in the next major version of `debug`."); } - }; - var tree = new TernarySearchTree(); - for (let i = 0; i < wellknownHeaderNames.length; ++i) { - const key = headerNameLowerCasedRecord[wellknownHeaderNames[i]]; - tree.insert(key, key); + createDebug.enable(createDebug.load()); + return createDebug; } - module2.exports = { - TernarySearchTree, - tree - }; + module2.exports = setup; } }); -// .yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/core/util.js -var require_util = __commonJS({ - ".yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/core/util.js"(exports2, module2) { - "use strict"; - var assert5 = require("node:assert"); - var { kDestroyed, kBodyUsed, kListeners, kBody } = require_symbols(); - var { IncomingMessage } = require("node:http"); - var stream = require("node:stream"); - var net = require("node:net"); - var { Blob: Blob2 } = require("node:buffer"); - var nodeUtil = require("node:util"); - var { stringify } = require("node:querystring"); - var { EventEmitter: EE3 } = require("node:events"); - var { InvalidArgumentError } = require_errors(); - var { headerNameLowerCasedRecord } = require_constants2(); - var { tree } = require_tree(); - var [nodeMajor, nodeMinor] = process.versions.node.split(".").map((v) => Number(v)); - var BodyAsyncIterable = class { - constructor(body) { - this[kBody] = body; - this[kBodyUsed] = false; - } - async *[Symbol.asyncIterator]() { - assert5(!this[kBodyUsed], "disturbed"); - this[kBodyUsed] = true; - yield* this[kBody]; - } - }; - function wrapRequestBody(body) { - if (isStream2(body)) { - if (bodyLength(body) === 0) { - body.on("data", function() { - assert5(false); - }); - } - if (typeof body.readableDidRead !== "boolean") { - body[kBodyUsed] = false; - EE3.prototype.on.call(body, "data", function() { - this[kBodyUsed] = true; - }); - } - return body; - } else if (body && typeof body.pipeTo === "function") { - return new BodyAsyncIterable(body); - } else if (body && typeof body !== "string" && !ArrayBuffer.isView(body) && isIterable(body)) { - return new BodyAsyncIterable(body); - } else { - return body; - } - } - function nop() { - } - function isStream2(obj) { - return obj && typeof obj === "object" && typeof obj.pipe === "function" && typeof obj.on === "function"; - } - function isBlobLike(object) { - if (object === null) { - return false; - } else if (object instanceof Blob2) { - return true; - } else if (typeof object !== "object") { - return false; - } else { - const sTag = object[Symbol.toStringTag]; - return (sTag === "Blob" || sTag === "File") && ("stream" in object && typeof object.stream === "function" || "arrayBuffer" in object && typeof object.arrayBuffer === "function"); - } - } - function buildURL(url, queryParams) { - if (url.includes("?") || url.includes("#")) { - throw new Error('Query params cannot be passed when url already contains "?" or "#".'); - } - const stringified = stringify(queryParams); - if (stringified) { - url += "?" + stringified; - } - return url; - } - function isValidPort(port) { - const value = parseInt(port, 10); - return value === Number(port) && value >= 0 && value <= 65535; - } - function isHttpOrHttpsPrefixed(value) { - return value != null && value[0] === "h" && value[1] === "t" && value[2] === "t" && value[3] === "p" && (value[4] === ":" || value[4] === "s" && value[5] === ":"); - } - function parseURL(url) { - if (typeof url === "string") { - url = new URL(url); - if (!isHttpOrHttpsPrefixed(url.origin || url.protocol)) { - throw new InvalidArgumentError("Invalid URL protocol: the URL must start with `http:` or `https:`."); - } - return url; - } - if (!url || typeof url !== "object") { - throw new InvalidArgumentError("Invalid URL: The URL argument must be a non-null object."); - } - if (!(url instanceof URL)) { - if (url.port != null && url.port !== "" && isValidPort(url.port) === false) { - throw new InvalidArgumentError("Invalid URL: port must be a valid integer or a string representation of an integer."); - } - if (url.path != null && typeof url.path !== "string") { - throw new InvalidArgumentError("Invalid URL path: the path must be a string or null/undefined."); - } - if (url.pathname != null && typeof url.pathname !== "string") { - throw new InvalidArgumentError("Invalid URL pathname: the pathname must be a string or null/undefined."); - } - if (url.hostname != null && typeof url.hostname !== "string") { - throw new InvalidArgumentError("Invalid URL hostname: the hostname must be a string or null/undefined."); - } - if (url.origin != null && typeof url.origin !== "string") { - throw new InvalidArgumentError("Invalid URL origin: the origin must be a string or null/undefined."); - } - if (!isHttpOrHttpsPrefixed(url.origin || url.protocol)) { - throw new InvalidArgumentError("Invalid URL protocol: the URL must start with `http:` or `https:`."); - } - const port = url.port != null ? url.port : url.protocol === "https:" ? 443 : 80; - let origin = url.origin != null ? url.origin : `${url.protocol || ""}//${url.hostname || ""}:${port}`; - let path16 = url.path != null ? url.path : `${url.pathname || ""}${url.search || ""}`; - if (origin[origin.length - 1] === "/") { - origin = origin.slice(0, origin.length - 1); - } - if (path16 && path16[0] !== "/") { - path16 = `/${path16}`; +// node_modules/debug/src/browser.js +var require_browser = __commonJS({ + "node_modules/debug/src/browser.js"(exports2, module2) { + exports2.formatArgs = formatArgs; + exports2.save = save; + exports2.load = load; + exports2.useColors = useColors; + exports2.storage = localstorage(); + exports2.destroy = /* @__PURE__ */ (() => { + let warned = false; + return () => { + if (!warned) { + warned = true; + console.warn("Instance method `debug.destroy()` is deprecated and no longer does anything. It will be removed in the next major version of `debug`."); } - return new URL(`${origin}${path16}`); - } - if (!isHttpOrHttpsPrefixed(url.origin || url.protocol)) { - throw new InvalidArgumentError("Invalid URL protocol: the URL must start with `http:` or `https:`."); - } - return url; - } - function parseOrigin(url) { - url = parseURL(url); - if (url.pathname !== "/" || url.search || url.hash) { - throw new InvalidArgumentError("invalid url"); - } - return url; - } - function getHostname(host) { - if (host[0] === "[") { - const idx2 = host.indexOf("]"); - assert5(idx2 !== -1); - return host.substring(1, idx2); - } - const idx = host.indexOf(":"); - if (idx === -1) return host; - return host.substring(0, idx); - } - function getServerName(host) { - if (!host) { - return null; - } - assert5(typeof host === "string"); - const servername = getHostname(host); - if (net.isIP(servername)) { - return ""; - } - return servername; - } - function deepClone(obj) { - return JSON.parse(JSON.stringify(obj)); - } - function isAsyncIterable(obj) { - return !!(obj != null && typeof obj[Symbol.asyncIterator] === "function"); - } - function isIterable(obj) { - return !!(obj != null && (typeof obj[Symbol.iterator] === "function" || typeof obj[Symbol.asyncIterator] === "function")); - } - function bodyLength(body) { - if (body == null) { - return 0; - } else if (isStream2(body)) { - const state = body._readableState; - return state && state.objectMode === false && state.ended === true && Number.isFinite(state.length) ? state.length : null; - } else if (isBlobLike(body)) { - return body.size != null ? body.size : null; - } else if (isBuffer(body)) { - return body.byteLength; - } - return null; - } - function isDestroyed(body) { - return body && !!(body.destroyed || body[kDestroyed] || stream.isDestroyed?.(body)); - } - function destroy(stream2, err) { - if (stream2 == null || !isStream2(stream2) || isDestroyed(stream2)) { - return; - } - if (typeof stream2.destroy === "function") { - if (Object.getPrototypeOf(stream2).constructor === IncomingMessage) { - stream2.socket = null; - } - stream2.destroy(err); - } else if (err) { - queueMicrotask(() => { - stream2.emit("error", err); - }); - } - if (stream2.destroyed !== true) { - stream2[kDestroyed] = true; - } - } - var KEEPALIVE_TIMEOUT_EXPR = /timeout=(\d+)/; - function parseKeepAliveTimeout(val) { - const m = val.toString().match(KEEPALIVE_TIMEOUT_EXPR); - return m ? parseInt(m[1], 10) * 1e3 : null; - } - function headerNameToString(value) { - return typeof value === "string" ? headerNameLowerCasedRecord[value] ?? value.toLowerCase() : tree.lookup(value) ?? value.toString("latin1").toLowerCase(); - } - function bufferToLowerCasedHeaderName(value) { - return tree.lookup(value) ?? value.toString("latin1").toLowerCase(); - } - function parseHeaders(headers, obj) { - if (obj === void 0) obj = {}; - for (let i = 0; i < headers.length; i += 2) { - const key = headerNameToString(headers[i]); - let val = obj[key]; - if (val) { - if (typeof val === "string") { - val = [val]; - obj[key] = val; - } - val.push(headers[i + 1].toString("utf8")); - } else { - const headersValue = headers[i + 1]; - if (typeof headersValue === "string") { - obj[key] = headersValue; - } else { - obj[key] = Array.isArray(headersValue) ? headersValue.map((x) => x.toString("utf8")) : headersValue.toString("utf8"); - } - } - } - if ("content-length" in obj && "content-disposition" in obj) { - obj["content-disposition"] = Buffer.from(obj["content-disposition"]).toString("latin1"); + }; + })(); + exports2.colors = [ + "#0000CC", + "#0000FF", + "#0033CC", + "#0033FF", + "#0066CC", + "#0066FF", + "#0099CC", + "#0099FF", + "#00CC00", + "#00CC33", + "#00CC66", + "#00CC99", + "#00CCCC", + "#00CCFF", + "#3300CC", + "#3300FF", + "#3333CC", + "#3333FF", + "#3366CC", + "#3366FF", + "#3399CC", + "#3399FF", + "#33CC00", + "#33CC33", + "#33CC66", + "#33CC99", + "#33CCCC", + "#33CCFF", + "#6600CC", + "#6600FF", + "#6633CC", + "#6633FF", + "#66CC00", + "#66CC33", + "#9900CC", + "#9900FF", + "#9933CC", + "#9933FF", + "#99CC00", + "#99CC33", + "#CC0000", + "#CC0033", + "#CC0066", + "#CC0099", + "#CC00CC", + "#CC00FF", + "#CC3300", + "#CC3333", + "#CC3366", + "#CC3399", + "#CC33CC", + "#CC33FF", + "#CC6600", + "#CC6633", + "#CC9900", + "#CC9933", + "#CCCC00", + "#CCCC33", + "#FF0000", + "#FF0033", + "#FF0066", + "#FF0099", + "#FF00CC", + "#FF00FF", + "#FF3300", + "#FF3333", + "#FF3366", + "#FF3399", + "#FF33CC", + "#FF33FF", + "#FF6600", + "#FF6633", + "#FF9900", + "#FF9933", + "#FFCC00", + "#FFCC33" + ]; + function useColors() { + if (typeof window !== "undefined" && window.process && (window.process.type === "renderer" || window.process.__nwjs)) { + return true; } - return obj; - } - function parseRawHeaders(headers) { - const len = headers.length; - const ret = new Array(len); - let hasContentLength = false; - let contentDispositionIdx = -1; - let key; - let val; - let kLen = 0; - for (let n = 0; n < headers.length; n += 2) { - key = headers[n]; - val = headers[n + 1]; - typeof key !== "string" && (key = key.toString()); - typeof val !== "string" && (val = val.toString("utf8")); - kLen = key.length; - if (kLen === 14 && key[7] === "-" && (key === "content-length" || key.toLowerCase() === "content-length")) { - hasContentLength = true; - } else if (kLen === 19 && key[7] === "-" && (key === "content-disposition" || key.toLowerCase() === "content-disposition")) { - contentDispositionIdx = n + 1; - } - ret[n] = key; - ret[n + 1] = val; - } - if (hasContentLength && contentDispositionIdx !== -1) { - ret[contentDispositionIdx] = Buffer.from(ret[contentDispositionIdx]).toString("latin1"); + if (typeof navigator !== "undefined" && navigator.userAgent && navigator.userAgent.toLowerCase().match(/(edge|trident)\/(\d+)/)) { + return false; } - return ret; - } - function isBuffer(buffer) { - return buffer instanceof Uint8Array || Buffer.isBuffer(buffer); + let m; + return typeof document !== "undefined" && document.documentElement && document.documentElement.style && document.documentElement.style.WebkitAppearance || // Is firebug? http://stackoverflow.com/a/398120/376773 + typeof window !== "undefined" && window.console && (window.console.firebug || window.console.exception && window.console.table) || // Is firefox >= v31? + // https://developer.mozilla.org/en-US/docs/Tools/Web_Console#Styling_messages + typeof navigator !== "undefined" && navigator.userAgent && (m = navigator.userAgent.toLowerCase().match(/firefox\/(\d+)/)) && parseInt(m[1], 10) >= 31 || // Double check webkit in userAgent just in case we are in a worker + typeof navigator !== "undefined" && navigator.userAgent && navigator.userAgent.toLowerCase().match(/applewebkit\/(\d+)/); } - function validateHandler(handler, method, upgrade) { - if (!handler || typeof handler !== "object") { - throw new InvalidArgumentError("handler must be an object"); - } - if (typeof handler.onConnect !== "function") { - throw new InvalidArgumentError("invalid onConnect method"); - } - if (typeof handler.onError !== "function") { - throw new InvalidArgumentError("invalid onError method"); - } - if (typeof handler.onBodySent !== "function" && handler.onBodySent !== void 0) { - throw new InvalidArgumentError("invalid onBodySent method"); + function formatArgs(args) { + args[0] = (this.useColors ? "%c" : "") + this.namespace + (this.useColors ? " %c" : " ") + args[0] + (this.useColors ? "%c " : " ") + "+" + module2.exports.humanize(this.diff); + if (!this.useColors) { + return; } - if (upgrade || method === "CONNECT") { - if (typeof handler.onUpgrade !== "function") { - throw new InvalidArgumentError("invalid onUpgrade method"); - } - } else { - if (typeof handler.onHeaders !== "function") { - throw new InvalidArgumentError("invalid onHeaders method"); - } - if (typeof handler.onData !== "function") { - throw new InvalidArgumentError("invalid onData method"); + const c = "color: " + this.color; + args.splice(1, 0, c, "color: inherit"); + let index = 0; + let lastC = 0; + args[0].replace(/%[a-zA-Z%]/g, (match) => { + if (match === "%%") { + return; } - if (typeof handler.onComplete !== "function") { - throw new InvalidArgumentError("invalid onComplete method"); + index++; + if (match === "%c") { + lastC = index; } - } - } - function isDisturbed(body) { - return !!(body && (stream.isDisturbed(body) || body[kBodyUsed])); - } - function isErrored(body) { - return !!(body && stream.isErrored(body)); - } - function isReadable2(body) { - return !!(body && stream.isReadable(body)); - } - function getSocketInfo(socket) { - return { - localAddress: socket.localAddress, - localPort: socket.localPort, - remoteAddress: socket.remoteAddress, - remotePort: socket.remotePort, - remoteFamily: socket.remoteFamily, - timeout: socket.timeout, - bytesWritten: socket.bytesWritten, - bytesRead: socket.bytesRead - }; + }); + args.splice(lastC, 0, c); } - function ReadableStreamFrom(iterable) { - let iterator; - return new ReadableStream( - { - async start() { - iterator = iterable[Symbol.asyncIterator](); - }, - async pull(controller) { - const { done, value } = await iterator.next(); - if (done) { - queueMicrotask(() => { - controller.close(); - controller.byobRequest?.respond(0); - }); - } else { - const buf = Buffer.isBuffer(value) ? value : Buffer.from(value); - if (buf.byteLength) { - controller.enqueue(new Uint8Array(buf)); - } - } - return controller.desiredSize > 0; - }, - async cancel(reason) { - await iterator.return(); - }, - type: "bytes" + exports2.log = console.debug || console.log || (() => { + }); + function save(namespaces) { + try { + if (namespaces) { + exports2.storage.setItem("debug", namespaces); + } else { + exports2.storage.removeItem("debug"); } - ); - } - function isFormDataLike(object) { - return object && typeof object === "object" && typeof object.append === "function" && typeof object.delete === "function" && typeof object.get === "function" && typeof object.getAll === "function" && typeof object.has === "function" && typeof object.set === "function" && object[Symbol.toStringTag] === "FormData"; - } - function addAbortListener(signal, listener) { - if ("addEventListener" in signal) { - signal.addEventListener("abort", listener, { once: true }); - return () => signal.removeEventListener("abort", listener); - } - signal.addListener("abort", listener); - return () => signal.removeListener("abort", listener); - } - var hasToWellFormed = typeof String.prototype.toWellFormed === "function"; - var hasIsWellFormed = typeof String.prototype.isWellFormed === "function"; - function toUSVString(val) { - return hasToWellFormed ? `${val}`.toWellFormed() : nodeUtil.toUSVString(val); - } - function isUSVString(val) { - return hasIsWellFormed ? `${val}`.isWellFormed() : toUSVString(val) === `${val}`; - } - function isTokenCharCode(c) { - switch (c) { - case 34: - case 40: - case 41: - case 44: - case 47: - case 58: - case 59: - case 60: - case 61: - case 62: - case 63: - case 64: - case 91: - case 92: - case 93: - case 123: - case 125: - return false; - default: - return c >= 33 && c <= 126; + } catch (error) { } } - function isValidHTTPToken(characters) { - if (characters.length === 0) { - return false; + function load() { + let r; + try { + r = exports2.storage.getItem("debug") || exports2.storage.getItem("DEBUG"); + } catch (error) { } - for (let i = 0; i < characters.length; ++i) { - if (!isTokenCharCode(characters.charCodeAt(i))) { - return false; - } + if (!r && typeof process !== "undefined" && "env" in process) { + r = process.env.DEBUG; } - return true; - } - var headerCharRegex = /[^\t\x20-\x7e\x80-\xff]/; - function isValidHeaderValue(characters) { - return !headerCharRegex.test(characters); - } - function parseRangeHeader(range) { - if (range == null || range === "") return { start: 0, end: null, size: null }; - const m = range ? range.match(/^bytes (\d+)-(\d+)\/(\d+)?$/) : null; - return m ? { - start: parseInt(m[1]), - end: m[2] ? parseInt(m[2]) : null, - size: m[3] ? parseInt(m[3]) : null - } : null; - } - function addListener(obj, name2, listener) { - const listeners = obj[kListeners] ??= []; - listeners.push([name2, listener]); - obj.on(name2, listener); - return obj; + return r; } - function removeAllListeners(obj) { - for (const [name2, listener] of obj[kListeners] ?? []) { - obj.removeListener(name2, listener); + function localstorage() { + try { + return localStorage; + } catch (error) { } - obj[kListeners] = null; } - function errorRequest(client, request, err) { + module2.exports = require_common()(exports2); + var { formatters } = module2.exports; + formatters.j = function(v) { try { - request.onError(err); - assert5(request.aborted); - } catch (err2) { - client.emit("error", err2); + return JSON.stringify(v); + } catch (error) { + return "[UnexpectedJSONParseError]: " + error.message; } - } - var kEnumerableProperty = /* @__PURE__ */ Object.create(null); - kEnumerableProperty.enumerable = true; - var normalizedMethodRecordsBase = { - delete: "DELETE", - DELETE: "DELETE", - get: "GET", - GET: "GET", - head: "HEAD", - HEAD: "HEAD", - options: "OPTIONS", - OPTIONS: "OPTIONS", - post: "POST", - POST: "POST", - put: "PUT", - PUT: "PUT" - }; - var normalizedMethodRecords = { - ...normalizedMethodRecordsBase, - patch: "patch", - PATCH: "PATCH" - }; - Object.setPrototypeOf(normalizedMethodRecordsBase, null); - Object.setPrototypeOf(normalizedMethodRecords, null); - module2.exports = { - kEnumerableProperty, - nop, - isDisturbed, - isErrored, - isReadable: isReadable2, - toUSVString, - isUSVString, - isBlobLike, - parseOrigin, - parseURL, - getServerName, - isStream: isStream2, - isIterable, - isAsyncIterable, - isDestroyed, - headerNameToString, - bufferToLowerCasedHeaderName, - addListener, - removeAllListeners, - errorRequest, - parseRawHeaders, - parseHeaders, - parseKeepAliveTimeout, - destroy, - bodyLength, - deepClone, - ReadableStreamFrom, - isBuffer, - validateHandler, - getSocketInfo, - isFormDataLike, - buildURL, - addAbortListener, - isValidHTTPToken, - isValidHeaderValue, - isTokenCharCode, - parseRangeHeader, - normalizedMethodRecordsBase, - normalizedMethodRecords, - isValidPort, - isHttpOrHttpsPrefixed, - nodeMajor, - nodeMinor, - safeHTTPMethods: ["GET", "HEAD", "OPTIONS", "TRACE"], - wrapRequestBody }; } }); -// .yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/api/readable.js -var require_readable = __commonJS({ - ".yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/api/readable.js"(exports2, module2) { - "use strict"; - var assert5 = require("node:assert"); - var { Readable: Readable2 } = require("node:stream"); - var { RequestAbortedError, NotSupportedError, InvalidArgumentError, AbortError } = require_errors(); - var util = require_util(); - var { ReadableStreamFrom } = require_util(); - var kConsume = Symbol("kConsume"); - var kReading = Symbol("kReading"); - var kBody = Symbol("kBody"); - var kAbort = Symbol("kAbort"); - var kContentType = Symbol("kContentType"); - var kContentLength = Symbol("kContentLength"); - var noop3 = () => { - }; - var BodyReadable = class extends Readable2 { - constructor({ - resume, - abort, - contentType = "", - contentLength, - highWaterMark = 64 * 1024 - // Same as nodejs fs streams. - }) { - super({ - autoDestroy: true, - read: resume, - highWaterMark - }); - this._readableState.dataEmitted = false; - this[kAbort] = abort; - this[kConsume] = null; - this[kBody] = null; - this[kContentType] = contentType; - this[kContentLength] = contentLength; - this[kReading] = false; - } - destroy(err) { - if (!err && !this._readableState.endEmitted) { - err = new RequestAbortedError(); - } - if (err) { - this[kAbort](); - } - return super.destroy(err); - } - _destroy(err, callback) { - if (!this[kReading]) { - setImmediate(() => { - callback(err); - }); - } else { - callback(err); - } - } - on(ev, ...args) { - if (ev === "data" || ev === "readable") { - this[kReading] = true; - } - return super.on(ev, ...args); - } - addListener(ev, ...args) { - return this.on(ev, ...args); - } - off(ev, ...args) { - const ret = super.off(ev, ...args); - if (ev === "data" || ev === "readable") { - this[kReading] = this.listenerCount("data") > 0 || this.listenerCount("readable") > 0; - } - return ret; - } - removeListener(ev, ...args) { - return this.off(ev, ...args); - } - push(chunk) { - if (this[kConsume] && chunk !== null) { - consumePush(this[kConsume], chunk); - return this[kReading] ? super.push(chunk) : true; - } - return super.push(chunk); - } - // https://fetch.spec.whatwg.org/#dom-body-text - async text() { - return consume(this, "text"); - } - // https://fetch.spec.whatwg.org/#dom-body-json - async json() { - return consume(this, "json"); - } - // https://fetch.spec.whatwg.org/#dom-body-blob - async blob() { - return consume(this, "blob"); - } - // https://fetch.spec.whatwg.org/#dom-body-bytes - async bytes() { - return consume(this, "bytes"); - } - // https://fetch.spec.whatwg.org/#dom-body-arraybuffer - async arrayBuffer() { - return consume(this, "arrayBuffer"); - } - // https://fetch.spec.whatwg.org/#dom-body-formdata - async formData() { - throw new NotSupportedError(); - } - // https://fetch.spec.whatwg.org/#dom-body-bodyused - get bodyUsed() { - return util.isDisturbed(this); - } - // https://fetch.spec.whatwg.org/#dom-body-body - get body() { - if (!this[kBody]) { - this[kBody] = ReadableStreamFrom(this); - if (this[kConsume]) { - this[kBody].getReader(); - assert5(this[kBody].locked); - } - } - return this[kBody]; - } - async dump(opts) { - let limit = Number.isFinite(opts?.limit) ? opts.limit : 128 * 1024; - const signal = opts?.signal; - if (signal != null && (typeof signal !== "object" || !("aborted" in signal))) { - throw new InvalidArgumentError("signal must be an AbortSignal"); - } - signal?.throwIfAborted(); - if (this._readableState.closeEmitted) { - return null; - } - return await new Promise((resolve, reject) => { - if (this[kContentLength] > limit) { - this.destroy(new AbortError()); - } - const onAbort = () => { - this.destroy(signal.reason ?? new AbortError()); - }; - signal?.addEventListener("abort", onAbort); - this.on("close", function() { - signal?.removeEventListener("abort", onAbort); - if (signal?.aborted) { - reject(signal.reason ?? new AbortError()); - } else { - resolve(null); - } - }).on("error", noop3).on("data", function(chunk) { - limit -= chunk.length; - if (limit <= 0) { - this.destroy(); - } - }).resume(); - }); - } - }; - function isLocked(self2) { - return self2[kBody] && self2[kBody].locked === true || self2[kConsume]; - } - function isUnusable(self2) { - return util.isDisturbed(self2) || isLocked(self2); - } - async function consume(stream, type) { - assert5(!stream[kConsume]); - return new Promise((resolve, reject) => { - if (isUnusable(stream)) { - const rState = stream._readableState; - if (rState.destroyed && rState.closeEmitted === false) { - stream.on("error", (err) => { - reject(err); - }).on("close", () => { - reject(new TypeError("unusable")); - }); - } else { - reject(rState.errored ?? new TypeError("unusable")); - } - } else { - queueMicrotask(() => { - stream[kConsume] = { - type, - stream, - resolve, - reject, - length: 0, - body: [] - }; - stream.on("error", function(err) { - consumeFinish(this[kConsume], err); - }).on("close", function() { - if (this[kConsume].body !== null) { - consumeFinish(this[kConsume], new RequestAbortedError()); - } - }); - consumeStart(stream[kConsume]); - }); - } - }); - } - function consumeStart(consume2) { - if (consume2.body === null) { - return; - } - const { _readableState: state } = consume2.stream; - if (state.bufferIndex) { - const start = state.bufferIndex; - const end = state.buffer.length; - for (let n = start; n < end; n++) { - consumePush(consume2, state.buffer[n]); - } - } else { - for (const chunk of state.buffer) { - consumePush(consume2, chunk); - } - } - if (state.endEmitted) { - consumeEnd(this[kConsume]); - } else { - consume2.stream.on("end", function() { - consumeEnd(this[kConsume]); - }); - } - consume2.stream.resume(); - while (consume2.stream.read() != null) { - } - } - function chunksDecode(chunks, length) { - if (chunks.length === 0 || length === 0) { - return ""; - } - const buffer = chunks.length === 1 ? chunks[0] : Buffer.concat(chunks, length); - const bufferLength = buffer.length; - const start = bufferLength > 2 && buffer[0] === 239 && buffer[1] === 187 && buffer[2] === 191 ? 3 : 0; - return buffer.utf8Slice(start, bufferLength); +// node_modules/supports-color/index.js +var supports_color_exports = {}; +__export(supports_color_exports, { + createSupportsColor: () => createSupportsColor, + default: () => supports_color_default +}); +function hasFlag(flag, argv = globalThis.Deno ? globalThis.Deno.args : import_node_process.default.argv) { + const prefix = flag.startsWith("-") ? "" : flag.length === 1 ? "-" : "--"; + const position = argv.indexOf(prefix + flag); + const terminatorPosition = argv.indexOf("--"); + return position !== -1 && (terminatorPosition === -1 || position < terminatorPosition); +} +function envForceColor() { + if (!("FORCE_COLOR" in env)) { + return; + } + if (env.FORCE_COLOR === "true") { + return 1; + } + if (env.FORCE_COLOR === "false") { + return 0; + } + if (env.FORCE_COLOR.length === 0) { + return 1; + } + const level = Math.min(Number.parseInt(env.FORCE_COLOR, 10), 3); + if (![0, 1, 2, 3].includes(level)) { + return; + } + return level; +} +function translateLevel(level) { + if (level === 0) { + return false; + } + return { + level, + hasBasic: true, + has256: level >= 2, + has16m: level >= 3 + }; +} +function _supportsColor(haveStream, { streamIsTTY, sniffFlags = true } = {}) { + const noFlagForceColor = envForceColor(); + if (noFlagForceColor !== void 0) { + flagForceColor = noFlagForceColor; + } + const forceColor = sniffFlags ? flagForceColor : noFlagForceColor; + if (forceColor === 0) { + return 0; + } + if (sniffFlags) { + if (hasFlag("color=16m") || hasFlag("color=full") || hasFlag("color=truecolor")) { + return 3; } - function chunksConcat(chunks, length) { - if (chunks.length === 0 || length === 0) { - return new Uint8Array(0); - } - if (chunks.length === 1) { - return new Uint8Array(chunks[0]); - } - const buffer = new Uint8Array(Buffer.allocUnsafeSlow(length).buffer); - let offset = 0; - for (let i = 0; i < chunks.length; ++i) { - const chunk = chunks[i]; - buffer.set(chunk, offset); - offset += chunk.length; - } - return buffer; + if (hasFlag("color=256")) { + return 2; } - function consumeEnd(consume2) { - const { type, body, resolve, stream, length } = consume2; - try { - if (type === "text") { - resolve(chunksDecode(body, length)); - } else if (type === "json") { - resolve(JSON.parse(chunksDecode(body, length))); - } else if (type === "arrayBuffer") { - resolve(chunksConcat(body, length).buffer); - } else if (type === "blob") { - resolve(new Blob(body, { type: stream[kContentType] })); - } else if (type === "bytes") { - resolve(chunksConcat(body, length)); - } - consumeFinish(consume2); - } catch (err) { - stream.destroy(err); - } + } + if ("TF_BUILD" in env && "AGENT_NAME" in env) { + return 1; + } + if (haveStream && !streamIsTTY && forceColor === void 0) { + return 0; + } + const min = forceColor || 0; + if (env.TERM === "dumb") { + return min; + } + if (import_node_process.default.platform === "win32") { + const osRelease = import_node_os.default.release().split("."); + if (Number(osRelease[0]) >= 10 && Number(osRelease[2]) >= 10586) { + return Number(osRelease[2]) >= 14931 ? 3 : 2; } - function consumePush(consume2, chunk) { - consume2.length += chunk.length; - consume2.body.push(chunk); + return 1; + } + if ("CI" in env) { + if (["GITHUB_ACTIONS", "GITEA_ACTIONS", "CIRCLECI"].some((key) => key in env)) { + return 3; } - function consumeFinish(consume2, err) { - if (consume2.body === null) { - return; - } - if (err) { - consume2.reject(err); - } else { - consume2.resolve(); - } - consume2.type = null; - consume2.stream = null; - consume2.resolve = null; - consume2.reject = null; - consume2.length = 0; - consume2.body = null; + if (["TRAVIS", "APPVEYOR", "GITLAB_CI", "BUILDKITE", "DRONE"].some((sign) => sign in env) || env.CI_NAME === "codeship") { + return 1; } - module2.exports = { Readable: BodyReadable, chunksDecode }; + return min; } -}); - -// .yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/api/util.js -var require_util2 = __commonJS({ - ".yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/api/util.js"(exports2, module2) { - var assert5 = require("node:assert"); - var { - ResponseStatusCodeError - } = require_errors(); - var { chunksDecode } = require_readable(); - var CHUNK_LIMIT = 128 * 1024; - async function getResolveErrorBodyCallback({ callback, body, contentType, statusCode, statusMessage, headers }) { - assert5(body); - let chunks = []; - let length = 0; - try { - for await (const chunk of body) { - chunks.push(chunk); - length += chunk.length; - if (length > CHUNK_LIMIT) { - chunks = []; - length = 0; - break; - } - } - } catch { - chunks = []; - length = 0; - } - const message = `Response status code ${statusCode}${statusMessage ? `: ${statusMessage}` : ""}`; - if (statusCode === 204 || !contentType || !length) { - queueMicrotask(() => callback(new ResponseStatusCodeError(message, statusCode, headers))); - return; - } - const stackTraceLimit = Error.stackTraceLimit; - Error.stackTraceLimit = 0; - let payload; - try { - if (isContentTypeApplicationJson(contentType)) { - payload = JSON.parse(chunksDecode(chunks, length)); - } else if (isContentTypeText(contentType)) { - payload = chunksDecode(chunks, length); - } - } catch { - } finally { - Error.stackTraceLimit = stackTraceLimit; - } - queueMicrotask(() => callback(new ResponseStatusCodeError(message, statusCode, headers, payload))); - } - var isContentTypeApplicationJson = (contentType) => { - return contentType.length > 15 && contentType[11] === "/" && contentType[0] === "a" && contentType[1] === "p" && contentType[2] === "p" && contentType[3] === "l" && contentType[4] === "i" && contentType[5] === "c" && contentType[6] === "a" && contentType[7] === "t" && contentType[8] === "i" && contentType[9] === "o" && contentType[10] === "n" && contentType[12] === "j" && contentType[13] === "s" && contentType[14] === "o" && contentType[15] === "n"; - }; - var isContentTypeText = (contentType) => { - return contentType.length > 4 && contentType[4] === "/" && contentType[0] === "t" && contentType[1] === "e" && contentType[2] === "x" && contentType[3] === "t"; - }; - module2.exports = { - getResolveErrorBodyCallback, - isContentTypeApplicationJson, - isContentTypeText - }; + if ("TEAMCITY_VERSION" in env) { + return /^(9\.(0*[1-9]\d*)\.|\d{2,}\.)/.test(env.TEAMCITY_VERSION) ? 1 : 0; } -}); - -// .yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/api/api-request.js -var require_api_request = __commonJS({ - ".yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/api/api-request.js"(exports2, module2) { - "use strict"; - var assert5 = require("node:assert"); - var { Readable: Readable2 } = require_readable(); - var { InvalidArgumentError, RequestAbortedError } = require_errors(); - var util = require_util(); - var { getResolveErrorBodyCallback } = require_util2(); - var { AsyncResource } = require("node:async_hooks"); - var RequestHandler = class extends AsyncResource { - constructor(opts, callback) { - if (!opts || typeof opts !== "object") { - throw new InvalidArgumentError("invalid opts"); - } - const { signal, method, opaque, body, onInfo, responseHeaders, throwOnError, highWaterMark } = opts; - try { - if (typeof callback !== "function") { - throw new InvalidArgumentError("invalid callback"); - } - if (highWaterMark && (typeof highWaterMark !== "number" || highWaterMark < 0)) { - throw new InvalidArgumentError("invalid highWaterMark"); - } - if (signal && typeof signal.on !== "function" && typeof signal.addEventListener !== "function") { - throw new InvalidArgumentError("signal must be an EventEmitter or EventTarget"); - } - if (method === "CONNECT") { - throw new InvalidArgumentError("invalid method"); - } - if (onInfo && typeof onInfo !== "function") { - throw new InvalidArgumentError("invalid onInfo callback"); - } - super("UNDICI_REQUEST"); - } catch (err) { - if (util.isStream(body)) { - util.destroy(body.on("error", util.nop), err); - } - throw err; - } - this.method = method; - this.responseHeaders = responseHeaders || null; - this.opaque = opaque || null; - this.callback = callback; - this.res = null; - this.abort = null; - this.body = body; - this.trailers = {}; - this.context = null; - this.onInfo = onInfo || null; - this.throwOnError = throwOnError; - this.highWaterMark = highWaterMark; - this.signal = signal; - this.reason = null; - this.removeAbortListener = null; - if (util.isStream(body)) { - body.on("error", (err) => { - this.onError(err); - }); - } - if (this.signal) { - if (this.signal.aborted) { - this.reason = this.signal.reason ?? new RequestAbortedError(); - } else { - this.removeAbortListener = util.addAbortListener(this.signal, () => { - this.reason = this.signal.reason ?? new RequestAbortedError(); - if (this.res) { - util.destroy(this.res.on("error", util.nop), this.reason); - } else if (this.abort) { - this.abort(this.reason); - } - if (this.removeAbortListener) { - this.res?.off("close", this.removeAbortListener); - this.removeAbortListener(); - this.removeAbortListener = null; - } - }); - } - } - } - onConnect(abort, context) { - if (this.reason) { - abort(this.reason); - return; - } - assert5(this.callback); - this.abort = abort; - this.context = context; - } - onHeaders(statusCode, rawHeaders, resume, statusMessage) { - const { callback, opaque, abort, context, responseHeaders, highWaterMark } = this; - const headers = responseHeaders === "raw" ? util.parseRawHeaders(rawHeaders) : util.parseHeaders(rawHeaders); - if (statusCode < 200) { - if (this.onInfo) { - this.onInfo({ statusCode, headers }); - } - return; - } - const parsedHeaders = responseHeaders === "raw" ? util.parseHeaders(rawHeaders) : headers; - const contentType = parsedHeaders["content-type"]; - const contentLength = parsedHeaders["content-length"]; - const res = new Readable2({ - resume, - abort, - contentType, - contentLength: this.method !== "HEAD" && contentLength ? Number(contentLength) : null, - highWaterMark - }); - if (this.removeAbortListener) { - res.on("close", this.removeAbortListener); - } - this.callback = null; - this.res = res; - if (callback !== null) { - if (this.throwOnError && statusCode >= 400) { - this.runInAsyncScope( - getResolveErrorBodyCallback, - null, - { callback, body: res, contentType, statusCode, statusMessage, headers } - ); - } else { - this.runInAsyncScope(callback, null, null, { - statusCode, - headers, - trailers: this.trailers, - opaque, - body: res, - context - }); - } - } - } - onData(chunk) { - return this.res.push(chunk); - } - onComplete(trailers) { - util.parseHeaders(trailers, this.trailers); - this.res.push(null); - } - onError(err) { - const { res, callback, body, opaque } = this; - if (callback) { - this.callback = null; - queueMicrotask(() => { - this.runInAsyncScope(callback, null, err, { opaque }); - }); - } - if (res) { - this.res = null; - queueMicrotask(() => { - util.destroy(res, err); - }); - } - if (body) { - this.body = null; - util.destroy(body, err); - } - if (this.removeAbortListener) { - res?.off("close", this.removeAbortListener); - this.removeAbortListener(); - this.removeAbortListener = null; - } - } - }; - function request(opts, callback) { - if (callback === void 0) { - return new Promise((resolve, reject) => { - request.call(this, opts, (err, data) => { - return err ? reject(err) : resolve(data); - }); - }); - } - try { - this.dispatch(opts, new RequestHandler(opts, callback)); - } catch (err) { - if (typeof callback !== "function") { - throw err; - } - const opaque = opts?.opaque; - queueMicrotask(() => callback(err, { opaque })); - } - } - module2.exports = request; - module2.exports.RequestHandler = RequestHandler; + if (env.COLORTERM === "truecolor") { + return 3; } -}); - -// .yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/api/abort-signal.js -var require_abort_signal = __commonJS({ - ".yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/api/abort-signal.js"(exports2, module2) { - var { addAbortListener } = require_util(); - var { RequestAbortedError } = require_errors(); - var kListener = Symbol("kListener"); - var kSignal = Symbol("kSignal"); - function abort(self2) { - if (self2.abort) { - self2.abort(self2[kSignal]?.reason); - } else { - self2.reason = self2[kSignal]?.reason ?? new RequestAbortedError(); - } - removeSignal(self2); - } - function addSignal(self2, signal) { - self2.reason = null; - self2[kSignal] = null; - self2[kListener] = null; - if (!signal) { - return; + if (env.TERM === "xterm-kitty") { + return 3; + } + if (env.TERM === "xterm-ghostty") { + return 3; + } + if (env.TERM === "wezterm") { + return 3; + } + if ("TERM_PROGRAM" in env) { + const version2 = Number.parseInt((env.TERM_PROGRAM_VERSION || "").split(".")[0], 10); + switch (env.TERM_PROGRAM) { + case "iTerm.app": { + return version2 >= 3 ? 3 : 2; } - if (signal.aborted) { - abort(self2); - return; + case "Apple_Terminal": { + return 2; } - self2[kSignal] = signal; - self2[kListener] = () => { - abort(self2); - }; - addAbortListener(self2[kSignal], self2[kListener]); } - function removeSignal(self2) { - if (!self2[kSignal]) { - return; - } - if ("removeEventListener" in self2[kSignal]) { - self2[kSignal].removeEventListener("abort", self2[kListener]); - } else { - self2[kSignal].removeListener("abort", self2[kListener]); - } - self2[kSignal] = null; - self2[kListener] = null; + } + if (/-256(color)?$/i.test(env.TERM)) { + return 2; + } + if (/^screen|^xterm|^vt100|^vt220|^rxvt|color|ansi|cygwin|linux/i.test(env.TERM)) { + return 1; + } + if ("COLORTERM" in env) { + return 1; + } + return min; +} +function createSupportsColor(stream, options = {}) { + const level = _supportsColor(stream, { + streamIsTTY: stream && stream.isTTY, + ...options + }); + return translateLevel(level); +} +var import_node_process, import_node_os, import_node_tty, env, flagForceColor, supportsColor, supports_color_default; +var init_supports_color = __esm({ + "node_modules/supports-color/index.js"() { + import_node_process = __toESM(require("node:process"), 1); + import_node_os = __toESM(require("node:os"), 1); + import_node_tty = __toESM(require("node:tty"), 1); + ({ env } = import_node_process.default); + if (hasFlag("no-color") || hasFlag("no-colors") || hasFlag("color=false") || hasFlag("color=never")) { + flagForceColor = 0; + } else if (hasFlag("color") || hasFlag("colors") || hasFlag("color=true") || hasFlag("color=always")) { + flagForceColor = 1; } - module2.exports = { - addSignal, - removeSignal + supportsColor = { + stdout: createSupportsColor({ isTTY: import_node_tty.default.isatty(1) }), + stderr: createSupportsColor({ isTTY: import_node_tty.default.isatty(2) }) }; + supports_color_default = supportsColor; } }); -// .yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/api/api-stream.js -var require_api_stream = __commonJS({ - ".yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/api/api-stream.js"(exports2, module2) { - "use strict"; - var assert5 = require("node:assert"); - var { finished, PassThrough } = require("node:stream"); - var { InvalidArgumentError, InvalidReturnValueError } = require_errors(); - var util = require_util(); - var { getResolveErrorBodyCallback } = require_util2(); - var { AsyncResource } = require("node:async_hooks"); - var { addSignal, removeSignal } = require_abort_signal(); - var StreamHandler = class extends AsyncResource { - constructor(opts, factory, callback) { - if (!opts || typeof opts !== "object") { - throw new InvalidArgumentError("invalid opts"); - } - const { signal, method, opaque, body, onInfo, responseHeaders, throwOnError } = opts; - try { - if (typeof callback !== "function") { - throw new InvalidArgumentError("invalid callback"); - } - if (typeof factory !== "function") { - throw new InvalidArgumentError("invalid factory"); - } - if (signal && typeof signal.on !== "function" && typeof signal.addEventListener !== "function") { - throw new InvalidArgumentError("signal must be an EventEmitter or EventTarget"); - } - if (method === "CONNECT") { - throw new InvalidArgumentError("invalid method"); - } - if (onInfo && typeof onInfo !== "function") { - throw new InvalidArgumentError("invalid onInfo callback"); - } - super("UNDICI_STREAM"); - } catch (err) { - if (util.isStream(body)) { - util.destroy(body.on("error", util.nop), err); - } - throw err; - } - this.responseHeaders = responseHeaders || null; - this.opaque = opaque || null; - this.factory = factory; - this.callback = callback; - this.res = null; - this.abort = null; - this.context = null; - this.trailers = null; - this.body = body; - this.onInfo = onInfo || null; - this.throwOnError = throwOnError || false; - if (util.isStream(body)) { - body.on("error", (err) => { - this.onError(err); - }); - } - addSignal(this, signal); - } - onConnect(abort, context) { - if (this.reason) { - abort(this.reason); - return; - } - assert5(this.callback); - this.abort = abort; - this.context = context; - } - onHeaders(statusCode, rawHeaders, resume, statusMessage) { - const { factory, opaque, context, callback, responseHeaders } = this; - const headers = responseHeaders === "raw" ? util.parseRawHeaders(rawHeaders) : util.parseHeaders(rawHeaders); - if (statusCode < 200) { - if (this.onInfo) { - this.onInfo({ statusCode, headers }); - } - return; - } - this.factory = null; - let res; - if (this.throwOnError && statusCode >= 400) { - const parsedHeaders = responseHeaders === "raw" ? util.parseHeaders(rawHeaders) : headers; - const contentType = parsedHeaders["content-type"]; - res = new PassThrough(); - this.callback = null; - this.runInAsyncScope( - getResolveErrorBodyCallback, - null, - { callback, body: res, contentType, statusCode, statusMessage, headers } - ); - } else { - if (factory === null) { - return; - } - res = this.runInAsyncScope(factory, null, { - statusCode, - headers, - opaque, - context - }); - if (!res || typeof res.write !== "function" || typeof res.end !== "function" || typeof res.on !== "function") { - throw new InvalidReturnValueError("expected Writable"); - } - finished(res, { readable: false }, (err) => { - const { callback: callback2, res: res2, opaque: opaque2, trailers, abort } = this; - this.res = null; - if (err || !res2.readable) { - util.destroy(res2, err); - } - this.callback = null; - this.runInAsyncScope(callback2, null, err || null, { opaque: opaque2, trailers }); - if (err) { - abort(); - } - }); - } - res.on("drain", resume); - this.res = res; - const needDrain = res.writableNeedDrain !== void 0 ? res.writableNeedDrain : res._writableState?.needDrain; - return needDrain !== true; - } - onData(chunk) { - const { res } = this; - return res ? res.write(chunk) : true; - } - onComplete(trailers) { - const { res } = this; - removeSignal(this); - if (!res) { - return; - } - this.trailers = util.parseHeaders(trailers); - res.end(); - } - onError(err) { - const { res, callback, opaque, body } = this; - removeSignal(this); - this.factory = null; - if (res) { - this.res = null; - util.destroy(res, err); - } else if (callback) { - this.callback = null; - queueMicrotask(() => { - this.runInAsyncScope(callback, null, err, { opaque }); - }); - } - if (body) { - this.body = null; - util.destroy(body, err); - } - } - }; - function stream(opts, factory, callback) { - if (callback === void 0) { - return new Promise((resolve, reject) => { - stream.call(this, opts, factory, (err, data) => { - return err ? reject(err) : resolve(data); - }); - }); - } - try { - this.dispatch(opts, new StreamHandler(opts, factory, callback)); - } catch (err) { - if (typeof callback !== "function") { - throw err; - } - const opaque = opts?.opaque; - queueMicrotask(() => callback(err, { opaque })); +// node_modules/debug/src/node.js +var require_node = __commonJS({ + "node_modules/debug/src/node.js"(exports2, module2) { + var tty3 = require("tty"); + var util = require("util"); + exports2.init = init; + exports2.log = log2; + exports2.formatArgs = formatArgs; + exports2.save = save; + exports2.load = load; + exports2.useColors = useColors; + exports2.destroy = util.deprecate( + () => { + }, + "Instance method `debug.destroy()` is deprecated and no longer does anything. It will be removed in the next major version of `debug`." + ); + exports2.colors = [6, 2, 3, 4, 5, 1]; + try { + const supportsColor2 = (init_supports_color(), __toCommonJS(supports_color_exports)); + if (supportsColor2 && (supportsColor2.stderr || supportsColor2).level >= 2) { + exports2.colors = [ + 20, + 21, + 26, + 27, + 32, + 33, + 38, + 39, + 40, + 41, + 42, + 43, + 44, + 45, + 56, + 57, + 62, + 63, + 68, + 69, + 74, + 75, + 76, + 77, + 78, + 79, + 80, + 81, + 92, + 93, + 98, + 99, + 112, + 113, + 128, + 129, + 134, + 135, + 148, + 149, + 160, + 161, + 162, + 163, + 164, + 165, + 166, + 167, + 168, + 169, + 170, + 171, + 172, + 173, + 178, + 179, + 184, + 185, + 196, + 197, + 198, + 199, + 200, + 201, + 202, + 203, + 204, + 205, + 206, + 207, + 208, + 209, + 214, + 215, + 220, + 221 + ]; } + } catch (error) { } - module2.exports = stream; - } -}); - -// .yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/api/api-pipeline.js -var require_api_pipeline = __commonJS({ - ".yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/api/api-pipeline.js"(exports2, module2) { - "use strict"; - var { - Readable: Readable2, - Duplex, - PassThrough - } = require("node:stream"); - var { - InvalidArgumentError, - InvalidReturnValueError, - RequestAbortedError - } = require_errors(); - var util = require_util(); - var { AsyncResource } = require("node:async_hooks"); - var { addSignal, removeSignal } = require_abort_signal(); - var assert5 = require("node:assert"); - var kResume = Symbol("resume"); - var PipelineRequest = class extends Readable2 { - constructor() { - super({ autoDestroy: true }); - this[kResume] = null; - } - _read() { - const { [kResume]: resume } = this; - if (resume) { - this[kResume] = null; - resume(); - } + exports2.inspectOpts = Object.keys(process.env).filter((key) => { + return /^debug_/i.test(key); + }).reduce((obj, key) => { + const prop = key.substring(6).toLowerCase().replace(/_([a-z])/g, (_, k) => { + return k.toUpperCase(); + }); + let val = process.env[key]; + if (/^(yes|on|true|enabled)$/i.test(val)) { + val = true; + } else if (/^(no|off|false|disabled)$/i.test(val)) { + val = false; + } else if (val === "null") { + val = null; + } else { + val = Number(val); } - _destroy(err, callback) { - this._read(); - callback(err); + obj[prop] = val; + return obj; + }, {}); + function useColors() { + return "colors" in exports2.inspectOpts ? Boolean(exports2.inspectOpts.colors) : tty3.isatty(process.stderr.fd); + } + function formatArgs(args) { + const { namespace: name2, useColors: useColors2 } = this; + if (useColors2) { + const c = this.color; + const colorCode = "\x1B[3" + (c < 8 ? c : "8;5;" + c); + const prefix = ` ${colorCode};1m${name2} \x1B[0m`; + args[0] = prefix + args[0].split("\n").join("\n" + prefix); + args.push(colorCode + "m+" + module2.exports.humanize(this.diff) + "\x1B[0m"); + } else { + args[0] = getDate() + name2 + " " + args[0]; } - }; - var PipelineResponse = class extends Readable2 { - constructor(resume) { - super({ autoDestroy: true }); - this[kResume] = resume; + } + function getDate() { + if (exports2.inspectOpts.hideDate) { + return ""; } - _read() { - this[kResume](); + return (/* @__PURE__ */ new Date()).toISOString() + " "; + } + function log2(...args) { + return process.stderr.write(util.formatWithOptions(exports2.inspectOpts, ...args) + "\n"); + } + function save(namespaces) { + if (namespaces) { + process.env.DEBUG = namespaces; + } else { + delete process.env.DEBUG; } - _destroy(err, callback) { - if (!err && !this._readableState.endEmitted) { - err = new RequestAbortedError(); - } - callback(err); + } + function load() { + return process.env.DEBUG; + } + function init(debug) { + debug.inspectOpts = {}; + const keys = Object.keys(exports2.inspectOpts); + for (let i = 0; i < keys.length; i++) { + debug.inspectOpts[keys[i]] = exports2.inspectOpts[keys[i]]; } + } + module2.exports = require_common()(exports2); + var { formatters } = module2.exports; + formatters.o = function(v) { + this.inspectOpts.colors = this.useColors; + return util.inspect(v, this.inspectOpts).split("\n").map((str) => str.trim()).join(" "); }; - var PipelineHandler = class extends AsyncResource { - constructor(opts, handler) { - if (!opts || typeof opts !== "object") { - throw new InvalidArgumentError("invalid opts"); - } - if (typeof handler !== "function") { - throw new InvalidArgumentError("invalid handler"); - } - const { signal, method, opaque, onInfo, responseHeaders } = opts; - if (signal && typeof signal.on !== "function" && typeof signal.addEventListener !== "function") { - throw new InvalidArgumentError("signal must be an EventEmitter or EventTarget"); - } - if (method === "CONNECT") { - throw new InvalidArgumentError("invalid method"); - } - if (onInfo && typeof onInfo !== "function") { - throw new InvalidArgumentError("invalid onInfo callback"); - } - super("UNDICI_PIPELINE"); - this.opaque = opaque || null; - this.responseHeaders = responseHeaders || null; - this.handler = handler; - this.abort = null; - this.context = null; - this.onInfo = onInfo || null; - this.req = new PipelineRequest().on("error", util.nop); - this.ret = new Duplex({ - readableObjectMode: opts.objectMode, - autoDestroy: true, - read: () => { - const { body } = this; - if (body?.resume) { - body.resume(); - } - }, - write: (chunk, encoding, callback) => { - const { req } = this; - if (req.push(chunk, encoding) || req._readableState.destroyed) { - callback(); - } else { - req[kResume] = callback; - } - }, - destroy: (err, callback) => { - const { body, req, res, ret, abort } = this; - if (!err && !ret._readableState.endEmitted) { - err = new RequestAbortedError(); - } - if (abort && err) { - abort(); - } - util.destroy(body, err); - util.destroy(req, err); - util.destroy(res, err); - removeSignal(this); - callback(err); - } - }).on("prefinish", () => { - const { req } = this; - req.push(null); - }); - this.res = null; - addSignal(this, signal); - } - onConnect(abort, context) { - const { ret, res } = this; - if (this.reason) { - abort(this.reason); - return; - } - assert5(!res, "pipeline cannot be retried"); - assert5(!ret.destroyed); - this.abort = abort; - this.context = context; - } - onHeaders(statusCode, rawHeaders, resume) { - const { opaque, handler, context } = this; - if (statusCode < 200) { - if (this.onInfo) { - const headers = this.responseHeaders === "raw" ? util.parseRawHeaders(rawHeaders) : util.parseHeaders(rawHeaders); - this.onInfo({ statusCode, headers }); - } - return; - } - this.res = new PipelineResponse(resume); - let body; - try { - this.handler = null; - const headers = this.responseHeaders === "raw" ? util.parseRawHeaders(rawHeaders) : util.parseHeaders(rawHeaders); - body = this.runInAsyncScope(handler, null, { - statusCode, - headers, - opaque, - body: this.res, - context - }); - } catch (err) { - this.res.on("error", util.nop); - throw err; - } - if (!body || typeof body.on !== "function") { - throw new InvalidReturnValueError("expected Readable"); - } - body.on("data", (chunk) => { - const { ret, body: body2 } = this; - if (!ret.push(chunk) && body2.pause) { - body2.pause(); - } - }).on("error", (err) => { - const { ret } = this; - util.destroy(ret, err); - }).on("end", () => { - const { ret } = this; - ret.push(null); - }).on("close", () => { - const { ret } = this; - if (!ret._readableState.ended) { - util.destroy(ret, new RequestAbortedError()); - } - }); - this.body = body; - } - onData(chunk) { - const { res } = this; - return res.push(chunk); - } - onComplete(trailers) { - const { res } = this; - res.push(null); - } - onError(err) { - const { ret } = this; - this.handler = null; - util.destroy(ret, err); - } + formatters.O = function(v) { + this.inspectOpts.colors = this.useColors; + return util.inspect(v, this.inspectOpts); }; - function pipeline(opts, handler) { - try { - const pipelineHandler = new PipelineHandler(opts, handler); - this.dispatch({ ...opts, body: pipelineHandler.req }, pipelineHandler); - return pipelineHandler.ret; - } catch (err) { - return new PassThrough().destroy(err); - } - } - module2.exports = pipeline; } }); -// .yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/api/api-upgrade.js -var require_api_upgrade = __commonJS({ - ".yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/api/api-upgrade.js"(exports2, module2) { - "use strict"; - var { InvalidArgumentError, SocketError } = require_errors(); - var { AsyncResource } = require("node:async_hooks"); - var util = require_util(); - var { addSignal, removeSignal } = require_abort_signal(); - var assert5 = require("node:assert"); - var UpgradeHandler = class extends AsyncResource { - constructor(opts, callback) { - if (!opts || typeof opts !== "object") { - throw new InvalidArgumentError("invalid opts"); - } - if (typeof callback !== "function") { - throw new InvalidArgumentError("invalid callback"); - } - const { signal, opaque, responseHeaders } = opts; - if (signal && typeof signal.on !== "function" && typeof signal.addEventListener !== "function") { - throw new InvalidArgumentError("signal must be an EventEmitter or EventTarget"); - } - super("UNDICI_UPGRADE"); - this.responseHeaders = responseHeaders || null; - this.opaque = opaque || null; - this.callback = callback; - this.abort = null; - this.context = null; - addSignal(this, signal); - } - onConnect(abort, context) { - if (this.reason) { - abort(this.reason); - return; - } - assert5(this.callback); - this.abort = abort; - this.context = null; - } - onHeaders() { - throw new SocketError("bad upgrade", null); - } - onUpgrade(statusCode, rawHeaders, socket) { - assert5(statusCode === 101); - const { callback, opaque, context } = this; - removeSignal(this); - this.callback = null; - const headers = this.responseHeaders === "raw" ? util.parseRawHeaders(rawHeaders) : util.parseHeaders(rawHeaders); - this.runInAsyncScope(callback, null, null, { - headers, - socket, - opaque, - context - }); - } - onError(err) { - const { callback, opaque } = this; - removeSignal(this); - if (callback) { - this.callback = null; - queueMicrotask(() => { - this.runInAsyncScope(callback, null, err, { opaque }); - }); - } - } - }; - function upgrade(opts, callback) { - if (callback === void 0) { - return new Promise((resolve, reject) => { - upgrade.call(this, opts, (err, data) => { - return err ? reject(err) : resolve(data); - }); - }); - } - try { - const upgradeHandler = new UpgradeHandler(opts, callback); - this.dispatch({ - ...opts, - method: opts.method || "GET", - upgrade: opts.protocol || "Websocket" - }, upgradeHandler); - } catch (err) { - if (typeof callback !== "function") { - throw err; - } - const opaque = opts?.opaque; - queueMicrotask(() => callback(err, { opaque })); - } +// node_modules/debug/src/index.js +var require_src = __commonJS({ + "node_modules/debug/src/index.js"(exports2, module2) { + if (typeof process === "undefined" || process.type === "renderer" || process.browser === true || process.__nwjs) { + module2.exports = require_browser(); + } else { + module2.exports = require_node(); } - module2.exports = upgrade; } }); -// .yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/api/api-connect.js -var require_api_connect = __commonJS({ - ".yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/api/api-connect.js"(exports2, module2) { - "use strict"; - var assert5 = require("node:assert"); - var { AsyncResource } = require("node:async_hooks"); - var { InvalidArgumentError, SocketError } = require_errors(); - var util = require_util(); - var { addSignal, removeSignal } = require_abort_signal(); - var ConnectHandler = class extends AsyncResource { - constructor(opts, callback) { - if (!opts || typeof opts !== "object") { - throw new InvalidArgumentError("invalid opts"); - } - if (typeof callback !== "function") { - throw new InvalidArgumentError("invalid callback"); - } - const { signal, opaque, responseHeaders } = opts; - if (signal && typeof signal.on !== "function" && typeof signal.addEventListener !== "function") { - throw new InvalidArgumentError("signal must be an EventEmitter or EventTarget"); - } - super("UNDICI_CONNECT"); - this.opaque = opaque || null; - this.responseHeaders = responseHeaders || null; - this.callback = callback; - this.abort = null; - addSignal(this, signal); - } - onConnect(abort, context) { - if (this.reason) { - abort(this.reason); - return; - } - assert5(this.callback); - this.abort = abort; - this.context = context; - } - onHeaders() { - throw new SocketError("bad connect", null); - } - onUpgrade(statusCode, rawHeaders, socket) { - const { callback, opaque, context } = this; - removeSignal(this); - this.callback = null; - let headers = rawHeaders; - if (headers != null) { - headers = this.responseHeaders === "raw" ? util.parseRawHeaders(rawHeaders) : util.parseHeaders(rawHeaders); - } - this.runInAsyncScope(callback, null, null, { - statusCode, - headers, - socket, - opaque, - context - }); - } - onError(err) { - const { callback, opaque } = this; - removeSignal(this); - if (callback) { - this.callback = null; - queueMicrotask(() => { - this.runInAsyncScope(callback, null, err, { opaque }); - }); - } - } +// node_modules/minipass/dist/esm/index.js +var import_node_events, import_node_stream, import_node_string_decoder, proc, isStream, isReadable, isWritable, EOF, MAYBE_EMIT_END, EMITTED_END, EMITTING_END, EMITTED_ERROR, CLOSED, READ, FLUSH, FLUSHCHUNK, ENCODING, DECODER, FLOWING, PAUSED, RESUME, BUFFER, PIPES, BUFFERLENGTH, BUFFERPUSH, BUFFERSHIFT, OBJECTMODE, DESTROYED, ERROR, EMITDATA, EMITEND, EMITEND2, ASYNC, ABORT, ABORTED, SIGNAL, DATALISTENERS, DISCARDED, defer, nodefer, isEndish, isArrayBufferLike, isArrayBufferView, Pipe, PipeProxyErrors, isObjectModeOptions, isEncodingOptions, Minipass; +var init_esm = __esm({ + "node_modules/minipass/dist/esm/index.js"() { + import_node_events = require("node:events"); + import_node_stream = __toESM(require("node:stream"), 1); + import_node_string_decoder = require("node:string_decoder"); + proc = typeof process === "object" && process ? process : { + stdout: null, + stderr: null }; - function connect(opts, callback) { - if (callback === void 0) { - return new Promise((resolve, reject) => { - connect.call(this, opts, (err, data) => { - return err ? reject(err) : resolve(data); - }); - }); - } - try { - const connectHandler = new ConnectHandler(opts, callback); - this.dispatch({ ...opts, method: "CONNECT" }, connectHandler); - } catch (err) { - if (typeof callback !== "function") { - throw err; - } - const opaque = opts?.opaque; - queueMicrotask(() => callback(err, { opaque })); - } - } - module2.exports = connect; - } -}); - -// .yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/api/index.js -var require_api = __commonJS({ - ".yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/api/index.js"(exports2, module2) { - "use strict"; - module2.exports.request = require_api_request(); - module2.exports.stream = require_api_stream(); - module2.exports.pipeline = require_api_pipeline(); - module2.exports.upgrade = require_api_upgrade(); - module2.exports.connect = require_api_connect(); - } -}); - -// .yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/dispatcher/dispatcher.js -var require_dispatcher = __commonJS({ - ".yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/dispatcher/dispatcher.js"(exports2, module2) { - "use strict"; - var EventEmitter2 = require("node:events"); - var Dispatcher = class extends EventEmitter2 { - dispatch() { - throw new Error("not implemented"); + isStream = (s) => !!s && typeof s === "object" && (s instanceof Minipass || s instanceof import_node_stream.default || isReadable(s) || isWritable(s)); + isReadable = (s) => !!s && typeof s === "object" && s instanceof import_node_events.EventEmitter && typeof s.pipe === "function" && // node core Writable streams have a pipe() method, but it throws + s.pipe !== import_node_stream.default.Writable.prototype.pipe; + isWritable = (s) => !!s && typeof s === "object" && s instanceof import_node_events.EventEmitter && typeof s.write === "function" && typeof s.end === "function"; + EOF = /* @__PURE__ */ Symbol("EOF"); + MAYBE_EMIT_END = /* @__PURE__ */ Symbol("maybeEmitEnd"); + EMITTED_END = /* @__PURE__ */ Symbol("emittedEnd"); + EMITTING_END = /* @__PURE__ */ Symbol("emittingEnd"); + EMITTED_ERROR = /* @__PURE__ */ Symbol("emittedError"); + CLOSED = /* @__PURE__ */ Symbol("closed"); + READ = /* @__PURE__ */ Symbol("read"); + FLUSH = /* @__PURE__ */ Symbol("flush"); + FLUSHCHUNK = /* @__PURE__ */ Symbol("flushChunk"); + ENCODING = /* @__PURE__ */ Symbol("encoding"); + DECODER = /* @__PURE__ */ Symbol("decoder"); + FLOWING = /* @__PURE__ */ Symbol("flowing"); + PAUSED = /* @__PURE__ */ Symbol("paused"); + RESUME = /* @__PURE__ */ Symbol("resume"); + BUFFER = /* @__PURE__ */ Symbol("buffer"); + PIPES = /* @__PURE__ */ Symbol("pipes"); + BUFFERLENGTH = /* @__PURE__ */ Symbol("bufferLength"); + BUFFERPUSH = /* @__PURE__ */ Symbol("bufferPush"); + BUFFERSHIFT = /* @__PURE__ */ Symbol("bufferShift"); + OBJECTMODE = /* @__PURE__ */ Symbol("objectMode"); + DESTROYED = /* @__PURE__ */ Symbol("destroyed"); + ERROR = /* @__PURE__ */ Symbol("error"); + EMITDATA = /* @__PURE__ */ Symbol("emitData"); + EMITEND = /* @__PURE__ */ Symbol("emitEnd"); + EMITEND2 = /* @__PURE__ */ Symbol("emitEnd2"); + ASYNC = /* @__PURE__ */ Symbol("async"); + ABORT = /* @__PURE__ */ Symbol("abort"); + ABORTED = /* @__PURE__ */ Symbol("aborted"); + SIGNAL = /* @__PURE__ */ Symbol("signal"); + DATALISTENERS = /* @__PURE__ */ Symbol("dataListeners"); + DISCARDED = /* @__PURE__ */ Symbol("discarded"); + defer = (fn2) => Promise.resolve().then(fn2); + nodefer = (fn2) => fn2(); + isEndish = (ev) => ev === "end" || ev === "finish" || ev === "prefinish"; + isArrayBufferLike = (b) => b instanceof ArrayBuffer || !!b && typeof b === "object" && b.constructor && b.constructor.name === "ArrayBuffer" && b.byteLength >= 0; + isArrayBufferView = (b) => !Buffer.isBuffer(b) && ArrayBuffer.isView(b); + Pipe = class { + src; + dest; + opts; + ondrain; + constructor(src, dest, opts) { + this.src = src; + this.dest = dest; + this.opts = opts; + this.ondrain = () => src[RESUME](); + this.dest.on("drain", this.ondrain); } - close() { - throw new Error("not implemented"); + unpipe() { + this.dest.removeListener("drain", this.ondrain); } - destroy() { - throw new Error("not implemented"); + // only here for the prototype + /* c8 ignore start */ + proxyErrors(_er) { } - compose(...args) { - const interceptors = Array.isArray(args[0]) ? args[0] : args; - let dispatch = this.dispatch.bind(this); - for (const interceptor of interceptors) { - if (interceptor == null) { - continue; - } - if (typeof interceptor !== "function") { - throw new TypeError(`invalid interceptor, expected function received ${typeof interceptor}`); - } - dispatch = interceptor(dispatch); - if (dispatch == null || typeof dispatch !== "function" || dispatch.length !== 2) { - throw new TypeError("invalid interceptor"); - } - } - return new ComposedDispatcher(this, dispatch); + /* c8 ignore stop */ + end() { + this.unpipe(); + if (this.opts.end) + this.dest.end(); } }; - var ComposedDispatcher = class extends Dispatcher { - #dispatcher = null; - #dispatch = null; - constructor(dispatcher, dispatch) { - super(); - this.#dispatcher = dispatcher; - this.#dispatch = dispatch; - } - dispatch(...args) { - this.#dispatch(...args); - } - close(...args) { - return this.#dispatcher.close(...args); + PipeProxyErrors = class extends Pipe { + unpipe() { + this.src.removeListener("error", this.proxyErrors); + super.unpipe(); } - destroy(...args) { - return this.#dispatcher.destroy(...args); + constructor(src, dest, opts) { + super(src, dest, opts); + this.proxyErrors = (er) => this.dest.emit("error", er); + src.on("error", this.proxyErrors); } }; - module2.exports = Dispatcher; - } -}); - -// .yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/dispatcher/dispatcher-base.js -var require_dispatcher_base = __commonJS({ - ".yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/dispatcher/dispatcher-base.js"(exports2, module2) { - "use strict"; - var Dispatcher = require_dispatcher(); - var { - ClientDestroyedError, - ClientClosedError, - InvalidArgumentError - } = require_errors(); - var { kDestroy, kClose, kClosed, kDestroyed, kDispatch, kInterceptors } = require_symbols(); - var kOnDestroyed = Symbol("onDestroyed"); - var kOnClosed = Symbol("onClosed"); - var kInterceptedDispatch = Symbol("Intercepted Dispatch"); - var DispatcherBase = class extends Dispatcher { - constructor() { + isObjectModeOptions = (o) => !!o.objectMode; + isEncodingOptions = (o) => !o.objectMode && !!o.encoding && o.encoding !== "buffer"; + Minipass = class extends import_node_events.EventEmitter { + [FLOWING] = false; + [PAUSED] = false; + [PIPES] = []; + [BUFFER] = []; + [OBJECTMODE]; + [ENCODING]; + [ASYNC]; + [DECODER]; + [EOF] = false; + [EMITTED_END] = false; + [EMITTING_END] = false; + [CLOSED] = false; + [EMITTED_ERROR] = null; + [BUFFERLENGTH] = 0; + [DESTROYED] = false; + [SIGNAL]; + [ABORTED] = false; + [DATALISTENERS] = 0; + [DISCARDED] = false; + /** + * true if the stream can be written + */ + writable = true; + /** + * true if the stream can be read + */ + readable = true; + /** + * If `RType` is Buffer, then options do not need to be provided. + * Otherwise, an options object must be provided to specify either + * {@link Minipass.SharedOptions.objectMode} or + * {@link Minipass.SharedOptions.encoding}, as appropriate. + */ + constructor(...args) { + const options = args[0] || {}; super(); - this[kDestroyed] = false; - this[kOnDestroyed] = null; - this[kClosed] = false; - this[kOnClosed] = []; - } - get destroyed() { - return this[kDestroyed]; - } - get closed() { - return this[kClosed]; - } - get interceptors() { - return this[kInterceptors]; - } - set interceptors(newInterceptors) { - if (newInterceptors) { - for (let i = newInterceptors.length - 1; i >= 0; i--) { - const interceptor = this[kInterceptors][i]; - if (typeof interceptor !== "function") { - throw new InvalidArgumentError("interceptor must be an function"); - } - } + if (options.objectMode && typeof options.encoding === "string") { + throw new TypeError("Encoding and objectMode may not be used together"); } - this[kInterceptors] = newInterceptors; - } - close(callback) { - if (callback === void 0) { - return new Promise((resolve, reject) => { - this.close((err, data) => { - return err ? reject(err) : resolve(data); - }); - }); + if (isObjectModeOptions(options)) { + this[OBJECTMODE] = true; + this[ENCODING] = null; + } else if (isEncodingOptions(options)) { + this[ENCODING] = options.encoding; + this[OBJECTMODE] = false; + } else { + this[OBJECTMODE] = false; + this[ENCODING] = null; } - if (typeof callback !== "function") { - throw new InvalidArgumentError("invalid callback"); + this[ASYNC] = !!options.async; + this[DECODER] = this[ENCODING] ? new import_node_string_decoder.StringDecoder(this[ENCODING]) : null; + if (options && options.debugExposeBuffer === true) { + Object.defineProperty(this, "buffer", { get: () => this[BUFFER] }); } - if (this[kDestroyed]) { - queueMicrotask(() => callback(new ClientDestroyedError(), null)); - return; + if (options && options.debugExposePipes === true) { + Object.defineProperty(this, "pipes", { get: () => this[PIPES] }); } - if (this[kClosed]) { - if (this[kOnClosed]) { - this[kOnClosed].push(callback); + const { signal } = options; + if (signal) { + this[SIGNAL] = signal; + if (signal.aborted) { + this[ABORT](); } else { - queueMicrotask(() => callback(null, null)); + signal.addEventListener("abort", () => this[ABORT]()); } - return; } - this[kClosed] = true; - this[kOnClosed].push(callback); - const onClosed = () => { - const callbacks = this[kOnClosed]; - this[kOnClosed] = null; - for (let i = 0; i < callbacks.length; i++) { - callbacks[i](null, null); - } - }; - this[kClose]().then(() => this.destroy()).then(() => { - queueMicrotask(onClosed); - }); } - destroy(err, callback) { - if (typeof err === "function") { - callback = err; - err = null; - } - if (callback === void 0) { - return new Promise((resolve, reject) => { - this.destroy(err, (err2, data) => { - return err2 ? ( - /* istanbul ignore next: should never error */ - reject(err2) - ) : resolve(data); - }); - }); - } - if (typeof callback !== "function") { - throw new InvalidArgumentError("invalid callback"); - } - if (this[kDestroyed]) { - if (this[kOnDestroyed]) { - this[kOnDestroyed].push(callback); - } else { - queueMicrotask(() => callback(null, null)); - } - return; - } - if (!err) { - err = new ClientDestroyedError(); - } - this[kDestroyed] = true; - this[kOnDestroyed] = this[kOnDestroyed] || []; - this[kOnDestroyed].push(callback); - const onDestroyed = () => { - const callbacks = this[kOnDestroyed]; - this[kOnDestroyed] = null; - for (let i = 0; i < callbacks.length; i++) { - callbacks[i](null, null); - } - }; - this[kDestroy](err).then(() => { - queueMicrotask(onDestroyed); - }); + /** + * The amount of data stored in the buffer waiting to be read. + * + * For Buffer strings, this will be the total byte length. + * For string encoding streams, this will be the string character length, + * according to JavaScript's `string.length` logic. + * For objectMode streams, this is a count of the items waiting to be + * emitted. + */ + get bufferLength() { + return this[BUFFERLENGTH]; } - [kInterceptedDispatch](opts, handler) { - if (!this[kInterceptors] || this[kInterceptors].length === 0) { - this[kInterceptedDispatch] = this[kDispatch]; - return this[kDispatch](opts, handler); - } - let dispatch = this[kDispatch].bind(this); - for (let i = this[kInterceptors].length - 1; i >= 0; i--) { - dispatch = this[kInterceptors][i](dispatch); - } - this[kInterceptedDispatch] = dispatch; - return dispatch(opts, handler); + /** + * The `BufferEncoding` currently in use, or `null` + */ + get encoding() { + return this[ENCODING]; } - dispatch(opts, handler) { - if (!handler || typeof handler !== "object") { - throw new InvalidArgumentError("handler must be an object"); - } - try { - if (!opts || typeof opts !== "object") { - throw new InvalidArgumentError("opts must be an object."); - } - if (this[kDestroyed] || this[kOnDestroyed]) { - throw new ClientDestroyedError(); - } - if (this[kClosed]) { - throw new ClientClosedError(); - } - return this[kInterceptedDispatch](opts, handler); - } catch (err) { - if (typeof handler.onError !== "function") { - throw new InvalidArgumentError("invalid onError method"); - } - handler.onError(err); - return false; - } + /** + * @deprecated - This is a read only property + */ + set encoding(_enc) { + throw new Error("Encoding must be set at instantiation time"); } - }; - module2.exports = DispatcherBase; - } -}); - -// .yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/dispatcher/fixed-queue.js -var require_fixed_queue = __commonJS({ - ".yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/dispatcher/fixed-queue.js"(exports2, module2) { - "use strict"; - var kSize = 2048; - var kMask = kSize - 1; - var FixedCircularBuffer = class { - constructor() { - this.bottom = 0; - this.top = 0; - this.list = new Array(kSize); - this.next = null; + /** + * @deprecated - Encoding may only be set at instantiation time + */ + setEncoding(_enc) { + throw new Error("Encoding must be set at instantiation time"); } - isEmpty() { - return this.top === this.bottom; + /** + * True if this is an objectMode stream + */ + get objectMode() { + return this[OBJECTMODE]; } - isFull() { - return (this.top + 1 & kMask) === this.bottom; + /** + * @deprecated - This is a read-only property + */ + set objectMode(_om) { + throw new Error("objectMode must be set at instantiation time"); } - push(data) { - this.list[this.top] = data; - this.top = this.top + 1 & kMask; + /** + * true if this is an async stream + */ + get ["async"]() { + return this[ASYNC]; } - shift() { - const nextItem = this.list[this.bottom]; - if (nextItem === void 0) - return null; - this.list[this.bottom] = void 0; - this.bottom = this.bottom + 1 & kMask; - return nextItem; + /** + * Set to true to make this stream async. + * + * Once set, it cannot be unset, as this would potentially cause incorrect + * behavior. Ie, a sync stream can be made async, but an async stream + * cannot be safely made sync. + */ + set ["async"](a) { + this[ASYNC] = this[ASYNC] || !!a; } - }; - module2.exports = class FixedQueue { - constructor() { - this.head = this.tail = new FixedCircularBuffer(); + // drop everything and get out of the flow completely + [ABORT]() { + this[ABORTED] = true; + this.emit("abort", this[SIGNAL]?.reason); + this.destroy(this[SIGNAL]?.reason); } - isEmpty() { - return this.head.isEmpty(); + /** + * True if the stream has been aborted. + */ + get aborted() { + return this[ABORTED]; } - push(data) { - if (this.head.isFull()) { - this.head = this.head.next = new FixedCircularBuffer(); - } - this.head.push(data); + /** + * No-op setter. Stream aborted status is set via the AbortSignal provided + * in the constructor options. + */ + set aborted(_) { } - shift() { - const tail = this.tail; - const next = tail.shift(); - if (tail.isEmpty() && tail.next !== null) { - this.tail = tail.next; + write(chunk, encoding, cb) { + if (this[ABORTED]) + return false; + if (this[EOF]) + throw new Error("write after end"); + if (this[DESTROYED]) { + this.emit("error", Object.assign(new Error("Cannot call write after a stream was destroyed"), { code: "ERR_STREAM_DESTROYED" })); + return true; } - return next; - } - }; - } -}); - -// .yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/dispatcher/pool-stats.js -var require_pool_stats = __commonJS({ - ".yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/dispatcher/pool-stats.js"(exports2, module2) { - var { kFree, kConnected, kPending, kQueued, kRunning, kSize } = require_symbols(); - var kPool = Symbol("pool"); - var PoolStats = class { - constructor(pool) { - this[kPool] = pool; - } - get connected() { - return this[kPool][kConnected]; - } - get free() { - return this[kPool][kFree]; - } - get pending() { - return this[kPool][kPending]; - } - get queued() { - return this[kPool][kQueued]; - } - get running() { - return this[kPool][kRunning]; - } - get size() { - return this[kPool][kSize]; - } - }; - module2.exports = PoolStats; - } -}); - -// .yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/dispatcher/pool-base.js -var require_pool_base = __commonJS({ - ".yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/dispatcher/pool-base.js"(exports2, module2) { - "use strict"; - var DispatcherBase = require_dispatcher_base(); - var FixedQueue = require_fixed_queue(); - var { kConnected, kSize, kRunning, kPending, kQueued, kBusy, kFree, kUrl, kClose, kDestroy, kDispatch } = require_symbols(); - var PoolStats = require_pool_stats(); - var kClients = Symbol("clients"); - var kNeedDrain = Symbol("needDrain"); - var kQueue = Symbol("queue"); - var kClosedResolve = Symbol("closed resolve"); - var kOnDrain = Symbol("onDrain"); - var kOnConnect = Symbol("onConnect"); - var kOnDisconnect = Symbol("onDisconnect"); - var kOnConnectionError = Symbol("onConnectionError"); - var kGetDispatcher = Symbol("get dispatcher"); - var kAddClient = Symbol("add client"); - var kRemoveClient = Symbol("remove client"); - var kStats = Symbol("stats"); - var PoolBase = class extends DispatcherBase { - constructor() { - super(); - this[kQueue] = new FixedQueue(); - this[kClients] = []; - this[kQueued] = 0; - const pool = this; - this[kOnDrain] = function onDrain(origin, targets) { - const queue = pool[kQueue]; - let needDrain = false; - while (!needDrain) { - const item = queue.shift(); - if (!item) { - break; - } - pool[kQueued]--; - needDrain = !this.dispatch(item.opts, item.handler); - } - this[kNeedDrain] = needDrain; - if (!this[kNeedDrain] && pool[kNeedDrain]) { - pool[kNeedDrain] = false; - pool.emit("drain", origin, [pool, ...targets]); - } - if (pool[kClosedResolve] && queue.isEmpty()) { - Promise.all(pool[kClients].map((c) => c.close())).then(pool[kClosedResolve]); + if (typeof encoding === "function") { + cb = encoding; + encoding = "utf8"; + } + if (!encoding) + encoding = "utf8"; + const fn2 = this[ASYNC] ? defer : nodefer; + if (!this[OBJECTMODE] && !Buffer.isBuffer(chunk)) { + if (isArrayBufferView(chunk)) { + chunk = Buffer.from(chunk.buffer, chunk.byteOffset, chunk.byteLength); + } else if (isArrayBufferLike(chunk)) { + chunk = Buffer.from(chunk); + } else if (typeof chunk !== "string") { + throw new Error("Non-contiguous data written to non-objectMode stream"); } - }; - this[kOnConnect] = (origin, targets) => { - pool.emit("connect", origin, [pool, ...targets]); - }; - this[kOnDisconnect] = (origin, targets, err) => { - pool.emit("disconnect", origin, [pool, ...targets], err); - }; - this[kOnConnectionError] = (origin, targets, err) => { - pool.emit("connectionError", origin, [pool, ...targets], err); - }; - this[kStats] = new PoolStats(this); - } - get [kBusy]() { - return this[kNeedDrain]; - } - get [kConnected]() { - return this[kClients].filter((client) => client[kConnected]).length; - } - get [kFree]() { - return this[kClients].filter((client) => client[kConnected] && !client[kNeedDrain]).length; - } - get [kPending]() { - let ret = this[kQueued]; - for (const { [kPending]: pending } of this[kClients]) { - ret += pending; } - return ret; - } - get [kRunning]() { - let ret = 0; - for (const { [kRunning]: running } of this[kClients]) { - ret += running; + if (this[OBJECTMODE]) { + if (this[FLOWING] && this[BUFFERLENGTH] !== 0) + this[FLUSH](true); + if (this[FLOWING]) + this.emit("data", chunk); + else + this[BUFFERPUSH](chunk); + if (this[BUFFERLENGTH] !== 0) + this.emit("readable"); + if (cb) + fn2(cb); + return this[FLOWING]; } - return ret; - } - get [kSize]() { - let ret = this[kQueued]; - for (const { [kSize]: size } of this[kClients]) { - ret += size; + if (!chunk.length) { + if (this[BUFFERLENGTH] !== 0) + this.emit("readable"); + if (cb) + fn2(cb); + return this[FLOWING]; } - return ret; - } - get stats() { - return this[kStats]; - } - async [kClose]() { - if (this[kQueue].isEmpty()) { - await Promise.all(this[kClients].map((c) => c.close())); - } else { - await new Promise((resolve) => { - this[kClosedResolve] = resolve; - }); + if (typeof chunk === "string" && // unless it is a string already ready for us to use + !(encoding === this[ENCODING] && !this[DECODER]?.lastNeed)) { + chunk = Buffer.from(chunk, encoding); } - } - async [kDestroy](err) { - while (true) { - const item = this[kQueue].shift(); - if (!item) { - break; - } - item.handler.onError(err); - } - await Promise.all(this[kClients].map((c) => c.destroy(err))); - } - [kDispatch](opts, handler) { - const dispatcher = this[kGetDispatcher](); - if (!dispatcher) { - this[kNeedDrain] = true; - this[kQueue].push({ opts, handler }); - this[kQueued]++; - } else if (!dispatcher.dispatch(opts, handler)) { - dispatcher[kNeedDrain] = true; - this[kNeedDrain] = !this[kGetDispatcher](); - } - return !this[kNeedDrain]; - } - [kAddClient](client) { - client.on("drain", this[kOnDrain]).on("connect", this[kOnConnect]).on("disconnect", this[kOnDisconnect]).on("connectionError", this[kOnConnectionError]); - this[kClients].push(client); - if (this[kNeedDrain]) { - queueMicrotask(() => { - if (this[kNeedDrain]) { - this[kOnDrain](client[kUrl], [this, client]); - } - }); + if (Buffer.isBuffer(chunk) && this[ENCODING]) { + chunk = this[DECODER].write(chunk); } - return this; - } - [kRemoveClient](client) { - client.close(() => { - const idx = this[kClients].indexOf(client); - if (idx !== -1) { - this[kClients].splice(idx, 1); - } - }); - this[kNeedDrain] = this[kClients].some((dispatcher) => !dispatcher[kNeedDrain] && dispatcher.closed !== true && dispatcher.destroyed !== true); - } - }; - module2.exports = { - PoolBase, - kClients, - kNeedDrain, - kAddClient, - kRemoveClient, - kGetDispatcher - }; - } -}); - -// .yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/core/diagnostics.js -var require_diagnostics = __commonJS({ - ".yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/core/diagnostics.js"(exports2, module2) { - "use strict"; - var diagnosticsChannel = require("node:diagnostics_channel"); - var util = require("node:util"); - var undiciDebugLog = util.debuglog("undici"); - var fetchDebuglog = util.debuglog("fetch"); - var websocketDebuglog = util.debuglog("websocket"); - var isClientSet = false; - var channels = { - // Client - beforeConnect: diagnosticsChannel.channel("undici:client:beforeConnect"), - connected: diagnosticsChannel.channel("undici:client:connected"), - connectError: diagnosticsChannel.channel("undici:client:connectError"), - sendHeaders: diagnosticsChannel.channel("undici:client:sendHeaders"), - // Request - create: diagnosticsChannel.channel("undici:request:create"), - bodySent: diagnosticsChannel.channel("undici:request:bodySent"), - headers: diagnosticsChannel.channel("undici:request:headers"), - trailers: diagnosticsChannel.channel("undici:request:trailers"), - error: diagnosticsChannel.channel("undici:request:error"), - // WebSocket - open: diagnosticsChannel.channel("undici:websocket:open"), - close: diagnosticsChannel.channel("undici:websocket:close"), - socketError: diagnosticsChannel.channel("undici:websocket:socket_error"), - ping: diagnosticsChannel.channel("undici:websocket:ping"), - pong: diagnosticsChannel.channel("undici:websocket:pong") - }; - if (undiciDebugLog.enabled || fetchDebuglog.enabled) { - const debuglog = fetchDebuglog.enabled ? fetchDebuglog : undiciDebugLog; - diagnosticsChannel.channel("undici:client:beforeConnect").subscribe((evt) => { - const { - connectParams: { version: version2, protocol, port, host } - } = evt; - debuglog( - "connecting to %s using %s%s", - `${host}${port ? `:${port}` : ""}`, - protocol, - version2 - ); - }); - diagnosticsChannel.channel("undici:client:connected").subscribe((evt) => { - const { - connectParams: { version: version2, protocol, port, host } - } = evt; - debuglog( - "connected to %s using %s%s", - `${host}${port ? `:${port}` : ""}`, - protocol, - version2 - ); - }); - diagnosticsChannel.channel("undici:client:connectError").subscribe((evt) => { - const { - connectParams: { version: version2, protocol, port, host }, - error - } = evt; - debuglog( - "connection to %s using %s%s errored - %s", - `${host}${port ? `:${port}` : ""}`, - protocol, - version2, - error.message - ); - }); - diagnosticsChannel.channel("undici:client:sendHeaders").subscribe((evt) => { - const { - request: { method, path: path16, origin } - } = evt; - debuglog("sending request to %s %s/%s", method, origin, path16); - }); - diagnosticsChannel.channel("undici:request:headers").subscribe((evt) => { - const { - request: { method, path: path16, origin }, - response: { statusCode } - } = evt; - debuglog( - "received response to %s %s/%s - HTTP %d", - method, - origin, - path16, - statusCode - ); - }); - diagnosticsChannel.channel("undici:request:trailers").subscribe((evt) => { - const { - request: { method, path: path16, origin } - } = evt; - debuglog("trailers received from %s %s/%s", method, origin, path16); - }); - diagnosticsChannel.channel("undici:request:error").subscribe((evt) => { - const { - request: { method, path: path16, origin }, - error - } = evt; - debuglog( - "request to %s %s/%s errored - %s", - method, - origin, - path16, - error.message - ); - }); - isClientSet = true; - } - if (websocketDebuglog.enabled) { - if (!isClientSet) { - const debuglog = undiciDebugLog.enabled ? undiciDebugLog : websocketDebuglog; - diagnosticsChannel.channel("undici:client:beforeConnect").subscribe((evt) => { - const { - connectParams: { version: version2, protocol, port, host } - } = evt; - debuglog( - "connecting to %s%s using %s%s", - host, - port ? `:${port}` : "", - protocol, - version2 - ); - }); - diagnosticsChannel.channel("undici:client:connected").subscribe((evt) => { - const { - connectParams: { version: version2, protocol, port, host } - } = evt; - debuglog( - "connected to %s%s using %s%s", - host, - port ? `:${port}` : "", - protocol, - version2 - ); - }); - diagnosticsChannel.channel("undici:client:connectError").subscribe((evt) => { - const { - connectParams: { version: version2, protocol, port, host }, - error - } = evt; - debuglog( - "connection to %s%s using %s%s errored - %s", - host, - port ? `:${port}` : "", - protocol, - version2, - error.message - ); - }); - diagnosticsChannel.channel("undici:client:sendHeaders").subscribe((evt) => { - const { - request: { method, path: path16, origin } - } = evt; - debuglog("sending request to %s %s/%s", method, origin, path16); - }); + if (this[FLOWING] && this[BUFFERLENGTH] !== 0) + this[FLUSH](true); + if (this[FLOWING]) + this.emit("data", chunk); + else + this[BUFFERPUSH](chunk); + if (this[BUFFERLENGTH] !== 0) + this.emit("readable"); + if (cb) + fn2(cb); + return this[FLOWING]; } - diagnosticsChannel.channel("undici:websocket:open").subscribe((evt) => { - const { - address: { address, port } - } = evt; - websocketDebuglog("connection opened %s%s", address, port ? `:${port}` : ""); - }); - diagnosticsChannel.channel("undici:websocket:close").subscribe((evt) => { - const { websocket, code: code2, reason } = evt; - websocketDebuglog( - "closed connection to %s - %s %s", - websocket.url, - code2, - reason - ); - }); - diagnosticsChannel.channel("undici:websocket:socket_error").subscribe((err) => { - websocketDebuglog("connection errored - %s", err.message); - }); - diagnosticsChannel.channel("undici:websocket:ping").subscribe((evt) => { - websocketDebuglog("ping received"); - }); - diagnosticsChannel.channel("undici:websocket:pong").subscribe((evt) => { - websocketDebuglog("pong received"); - }); - } - module2.exports = { - channels - }; - } -}); - -// .yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/core/request.js -var require_request = __commonJS({ - ".yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/core/request.js"(exports2, module2) { - "use strict"; - var { - InvalidArgumentError, - NotSupportedError - } = require_errors(); - var assert5 = require("node:assert"); - var { - isValidHTTPToken, - isValidHeaderValue, - isStream: isStream2, - destroy, - isBuffer, - isFormDataLike, - isIterable, - isBlobLike, - buildURL, - validateHandler, - getServerName, - normalizedMethodRecords - } = require_util(); - var { channels } = require_diagnostics(); - var { headerNameLowerCasedRecord } = require_constants2(); - var invalidPathRegex = /[^\u0021-\u00ff]/; - var kHandler = Symbol("handler"); - var Request = class { - constructor(origin, { - path: path16, - method, - body, - headers, - query, - idempotent, - blocking, - upgrade, - headersTimeout, - bodyTimeout, - reset, - throwOnError, - expectContinue, - servername - }, handler) { - if (typeof path16 !== "string") { - throw new InvalidArgumentError("path must be a string"); - } else if (path16[0] !== "/" && !(path16.startsWith("http://") || path16.startsWith("https://")) && method !== "CONNECT") { - throw new InvalidArgumentError("path must be an absolute URL or start with a slash"); - } else if (invalidPathRegex.test(path16)) { - throw new InvalidArgumentError("invalid request path"); - } - if (typeof method !== "string") { - throw new InvalidArgumentError("method must be a string"); - } else if (normalizedMethodRecords[method] === void 0 && !isValidHTTPToken(method)) { - throw new InvalidArgumentError("invalid request method"); - } - if (upgrade && typeof upgrade !== "string") { - throw new InvalidArgumentError("upgrade must be a string"); - } - if (headersTimeout != null && (!Number.isFinite(headersTimeout) || headersTimeout < 0)) { - throw new InvalidArgumentError("invalid headersTimeout"); - } - if (bodyTimeout != null && (!Number.isFinite(bodyTimeout) || bodyTimeout < 0)) { - throw new InvalidArgumentError("invalid bodyTimeout"); - } - if (reset != null && typeof reset !== "boolean") { - throw new InvalidArgumentError("invalid reset"); - } - if (expectContinue != null && typeof expectContinue !== "boolean") { - throw new InvalidArgumentError("invalid expectContinue"); - } - this.headersTimeout = headersTimeout; - this.bodyTimeout = bodyTimeout; - this.throwOnError = throwOnError === true; - this.method = method; - this.abort = null; - if (body == null) { - this.body = null; - } else if (isStream2(body)) { - this.body = body; - const rState = this.body._readableState; - if (!rState || !rState.autoDestroy) { - this.endHandler = function autoDestroy() { - destroy(this); - }; - this.body.on("end", this.endHandler); - } - this.errorHandler = (err) => { - if (this.abort) { - this.abort(err); - } else { - this.error = err; - } - }; - this.body.on("error", this.errorHandler); - } else if (isBuffer(body)) { - this.body = body.byteLength ? body : null; - } else if (ArrayBuffer.isView(body)) { - this.body = body.buffer.byteLength ? Buffer.from(body.buffer, body.byteOffset, body.byteLength) : null; - } else if (body instanceof ArrayBuffer) { - this.body = body.byteLength ? Buffer.from(body) : null; - } else if (typeof body === "string") { - this.body = body.length ? Buffer.from(body) : null; - } else if (isFormDataLike(body) || isIterable(body) || isBlobLike(body)) { - this.body = body; - } else { - throw new InvalidArgumentError("body must be a string, a Buffer, a Readable stream, an iterable, or an async iterable"); - } - this.completed = false; - this.aborted = false; - this.upgrade = upgrade || null; - this.path = query ? buildURL(path16, query) : path16; - this.origin = origin; - this.idempotent = idempotent == null ? method === "HEAD" || method === "GET" : idempotent; - this.blocking = blocking == null ? false : blocking; - this.reset = reset == null ? null : reset; - this.host = null; - this.contentLength = null; - this.contentType = null; - this.headers = []; - this.expectContinue = expectContinue != null ? expectContinue : false; - if (Array.isArray(headers)) { - if (headers.length % 2 !== 0) { - throw new InvalidArgumentError("headers array must be even"); - } - for (let i = 0; i < headers.length; i += 2) { - processHeader(this, headers[i], headers[i + 1]); - } - } else if (headers && typeof headers === "object") { - if (headers[Symbol.iterator]) { - for (const header of headers) { - if (!Array.isArray(header) || header.length !== 2) { - throw new InvalidArgumentError("headers must be in key-value pair format"); - } - processHeader(this, header[0], header[1]); - } - } else { - const keys = Object.keys(headers); - for (let i = 0; i < keys.length; ++i) { - processHeader(this, keys[i], headers[keys[i]]); - } - } - } else if (headers != null) { - throw new InvalidArgumentError("headers must be an object or an array"); + /** + * Low-level explicit read method. + * + * In objectMode, the argument is ignored, and one item is returned if + * available. + * + * `n` is the number of bytes (or in the case of encoding streams, + * characters) to consume. If `n` is not provided, then the entire buffer + * is returned, or `null` is returned if no data is available. + * + * If `n` is greater that the amount of data in the internal buffer, + * then `null` is returned. + */ + read(n) { + if (this[DESTROYED]) + return null; + this[DISCARDED] = false; + if (this[BUFFERLENGTH] === 0 || n === 0 || n && n > this[BUFFERLENGTH]) { + this[MAYBE_EMIT_END](); + return null; } - validateHandler(handler, method, upgrade); - this.servername = servername || getServerName(this.host); - this[kHandler] = handler; - if (channels.create.hasSubscribers) { - channels.create.publish({ request: this }); + if (this[OBJECTMODE]) + n = null; + if (this[BUFFER].length > 1 && !this[OBJECTMODE]) { + this[BUFFER] = [ + this[ENCODING] ? this[BUFFER].join("") : Buffer.concat(this[BUFFER], this[BUFFERLENGTH]) + ]; } + const ret = this[READ](n || null, this[BUFFER][0]); + this[MAYBE_EMIT_END](); + return ret; } - onBodySent(chunk) { - if (this[kHandler].onBodySent) { - try { - return this[kHandler].onBodySent(chunk); - } catch (err) { - this.abort(err); + [READ](n, chunk) { + if (this[OBJECTMODE]) + this[BUFFERSHIFT](); + else { + const c = chunk; + if (n === c.length || n === null) + this[BUFFERSHIFT](); + else if (typeof c === "string") { + this[BUFFER][0] = c.slice(n); + chunk = c.slice(0, n); + this[BUFFERLENGTH] -= n; + } else { + this[BUFFER][0] = c.subarray(n); + chunk = c.subarray(0, n); + this[BUFFERLENGTH] -= n; } } + this.emit("data", chunk); + if (!this[BUFFER].length && !this[EOF]) + this.emit("drain"); + return chunk; } - onRequestSent() { - if (channels.bodySent.hasSubscribers) { - channels.bodySent.publish({ request: this }); - } - if (this[kHandler].onRequestSent) { - try { - return this[kHandler].onRequestSent(); - } catch (err) { - this.abort(err); - } + end(chunk, encoding, cb) { + if (typeof chunk === "function") { + cb = chunk; + chunk = void 0; } - } - onConnect(abort) { - assert5(!this.aborted); - assert5(!this.completed); - if (this.error) { - abort(this.error); - } else { - this.abort = abort; - return this[kHandler].onConnect(abort); + if (typeof encoding === "function") { + cb = encoding; + encoding = "utf8"; } + if (chunk !== void 0) + this.write(chunk, encoding); + if (cb) + this.once("end", cb); + this[EOF] = true; + this.writable = false; + if (this[FLOWING] || !this[PAUSED]) + this[MAYBE_EMIT_END](); + return this; } - onResponseStarted() { - return this[kHandler].onResponseStarted?.(); - } - onHeaders(statusCode, headers, resume, statusText) { - assert5(!this.aborted); - assert5(!this.completed); - if (channels.headers.hasSubscribers) { - channels.headers.publish({ request: this, response: { statusCode, headers, statusText } }); - } - try { - return this[kHandler].onHeaders(statusCode, headers, resume, statusText); - } catch (err) { - this.abort(err); + // don't let the internal resume be overwritten + [RESUME]() { + if (this[DESTROYED]) + return; + if (!this[DATALISTENERS] && !this[PIPES].length) { + this[DISCARDED] = true; } + this[PAUSED] = false; + this[FLOWING] = true; + this.emit("resume"); + if (this[BUFFER].length) + this[FLUSH](); + else if (this[EOF]) + this[MAYBE_EMIT_END](); + else + this.emit("drain"); } - onData(chunk) { - assert5(!this.aborted); - assert5(!this.completed); - try { - return this[kHandler].onData(chunk); - } catch (err) { - this.abort(err); - return false; - } + /** + * Resume the stream if it is currently in a paused state + * + * If called when there are no pipe destinations or `data` event listeners, + * this will place the stream in a "discarded" state, where all data will + * be thrown away. The discarded state is removed if a pipe destination or + * data handler is added, if pause() is called, or if any synchronous or + * asynchronous iteration is started. + */ + resume() { + return this[RESUME](); } - onUpgrade(statusCode, headers, socket) { - assert5(!this.aborted); - assert5(!this.completed); - return this[kHandler].onUpgrade(statusCode, headers, socket); + /** + * Pause the stream + */ + pause() { + this[FLOWING] = false; + this[PAUSED] = true; + this[DISCARDED] = false; } - onComplete(trailers) { - this.onFinally(); - assert5(!this.aborted); - this.completed = true; - if (channels.trailers.hasSubscribers) { - channels.trailers.publish({ request: this, trailers }); - } - try { - return this[kHandler].onComplete(trailers); - } catch (err) { - this.onError(err); - } + /** + * true if the stream has been forcibly destroyed + */ + get destroyed() { + return this[DESTROYED]; } - onError(error) { - this.onFinally(); - if (channels.error.hasSubscribers) { - channels.error.publish({ request: this, error }); - } - if (this.aborted) { - return; - } - this.aborted = true; - return this[kHandler].onError(error); + /** + * true if the stream is currently in a flowing state, meaning that + * any writes will be immediately emitted. + */ + get flowing() { + return this[FLOWING]; } - onFinally() { - if (this.errorHandler) { - this.body.off("error", this.errorHandler); - this.errorHandler = null; - } - if (this.endHandler) { - this.body.off("end", this.endHandler); - this.endHandler = null; - } + /** + * true if the stream is currently in a paused state + */ + get paused() { + return this[PAUSED]; } - addHeader(key, value) { - processHeader(this, key, value); - return this; + [BUFFERPUSH](chunk) { + if (this[OBJECTMODE]) + this[BUFFERLENGTH] += 1; + else + this[BUFFERLENGTH] += chunk.length; + this[BUFFER].push(chunk); } - }; - function processHeader(request, key, val) { - if (val && (typeof val === "object" && !Array.isArray(val))) { - throw new InvalidArgumentError(`invalid ${key} header`); - } else if (val === void 0) { - return; + [BUFFERSHIFT]() { + if (this[OBJECTMODE]) + this[BUFFERLENGTH] -= 1; + else + this[BUFFERLENGTH] -= this[BUFFER][0].length; + return this[BUFFER].shift(); } - let headerName = headerNameLowerCasedRecord[key]; - if (headerName === void 0) { - headerName = key.toLowerCase(); - if (headerNameLowerCasedRecord[headerName] === void 0 && !isValidHTTPToken(headerName)) { - throw new InvalidArgumentError("invalid header key"); - } + [FLUSH](noDrain = false) { + do { + } while (this[FLUSHCHUNK](this[BUFFERSHIFT]()) && this[BUFFER].length); + if (!noDrain && !this[BUFFER].length && !this[EOF]) + this.emit("drain"); } - if (Array.isArray(val)) { - const arr = []; - for (let i = 0; i < val.length; i++) { - if (typeof val[i] === "string") { - if (!isValidHeaderValue(val[i])) { - throw new InvalidArgumentError(`invalid ${key} header`); - } - arr.push(val[i]); - } else if (val[i] === null) { - arr.push(""); - } else if (typeof val[i] === "object") { - throw new InvalidArgumentError(`invalid ${key} header`); - } else { - arr.push(`${val[i]}`); - } - } - val = arr; - } else if (typeof val === "string") { - if (!isValidHeaderValue(val)) { - throw new InvalidArgumentError(`invalid ${key} header`); - } - } else if (val === null) { - val = ""; - } else { - val = `${val}`; - } - if (request.host === null && headerName === "host") { - if (typeof val !== "string") { - throw new InvalidArgumentError("invalid host header"); - } - request.host = val; - } else if (request.contentLength === null && headerName === "content-length") { - request.contentLength = parseInt(val, 10); - if (!Number.isFinite(request.contentLength)) { - throw new InvalidArgumentError("invalid content-length header"); - } - } else if (request.contentType === null && headerName === "content-type") { - request.contentType = val; - request.headers.push(key, val); - } else if (headerName === "transfer-encoding" || headerName === "keep-alive" || headerName === "upgrade") { - throw new InvalidArgumentError(`invalid ${headerName} header`); - } else if (headerName === "connection") { - const value = typeof val === "string" ? val.toLowerCase() : null; - if (value !== "close" && value !== "keep-alive") { - throw new InvalidArgumentError("invalid connection header"); - } - if (value === "close") { - request.reset = true; - } - } else if (headerName === "expect") { - throw new NotSupportedError("expect header not supported"); - } else { - request.headers.push(key, val); + [FLUSHCHUNK](chunk) { + this.emit("data", chunk); + return this[FLOWING]; } - } - module2.exports = Request; - } -}); - -// .yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/util/timers.js -var require_timers = __commonJS({ - ".yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/util/timers.js"(exports2, module2) { - "use strict"; - var fastNow = 0; - var RESOLUTION_MS = 1e3; - var TICK_MS = (RESOLUTION_MS >> 1) - 1; - var fastNowTimeout; - var kFastTimer = Symbol("kFastTimer"); - var fastTimers = []; - var NOT_IN_LIST = -2; - var TO_BE_CLEARED = -1; - var PENDING2 = 0; - var ACTIVE = 1; - function onTick() { - fastNow += TICK_MS; - let idx = 0; - let len = fastTimers.length; - while (idx < len) { - const timer = fastTimers[idx]; - if (timer._state === PENDING2) { - timer._idleStart = fastNow - TICK_MS; - timer._state = ACTIVE; - } else if (timer._state === ACTIVE && fastNow >= timer._idleStart + timer._idleTimeout) { - timer._state = TO_BE_CLEARED; - timer._idleStart = -1; - timer._onTimeout(timer._timerArg); - } - if (timer._state === TO_BE_CLEARED) { - timer._state = NOT_IN_LIST; - if (--len !== 0) { - fastTimers[idx] = fastTimers[len]; - } + /** + * Pipe all data emitted by this stream into the destination provided. + * + * Triggers the flow of data. + */ + pipe(dest, opts) { + if (this[DESTROYED]) + return dest; + this[DISCARDED] = false; + const ended = this[EMITTED_END]; + opts = opts || {}; + if (dest === proc.stdout || dest === proc.stderr) + opts.end = false; + else + opts.end = opts.end !== false; + opts.proxyErrors = !!opts.proxyErrors; + if (ended) { + if (opts.end) + dest.end(); } else { - ++idx; - } - } - fastTimers.length = len; - if (fastTimers.length !== 0) { - refreshTimeout(); - } - } - function refreshTimeout() { - if (fastNowTimeout) { - fastNowTimeout.refresh(); - } else { - clearTimeout(fastNowTimeout); - fastNowTimeout = setTimeout(onTick, TICK_MS); - if (fastNowTimeout.unref) { - fastNowTimeout.unref(); + this[PIPES].push(!opts.proxyErrors ? new Pipe(this, dest, opts) : new PipeProxyErrors(this, dest, opts)); + if (this[ASYNC]) + defer(() => this[RESUME]()); + else + this[RESUME](); } + return dest; } - } - var FastTimer = class { - [kFastTimer] = true; /** - * The state of the timer, which can be one of the following: - * - NOT_IN_LIST (-2) - * - TO_BE_CLEARED (-1) - * - PENDING (0) - * - ACTIVE (1) + * Fully unhook a piped destination stream. * - * @type {-2|-1|0|1} - * @private + * If the destination stream was the only consumer of this stream (ie, + * there are no other piped destinations or `'data'` event listeners) + * then the flow of data will stop until there is another consumer or + * {@link Minipass#resume} is explicitly called. */ - _state = NOT_IN_LIST; + unpipe(dest) { + const p = this[PIPES].find((p2) => p2.dest === dest); + if (p) { + if (this[PIPES].length === 1) { + if (this[FLOWING] && this[DATALISTENERS] === 0) { + this[FLOWING] = false; + } + this[PIPES] = []; + } else + this[PIPES].splice(this[PIPES].indexOf(p), 1); + p.unpipe(); + } + } /** - * The number of milliseconds to wait before calling the callback. - * - * @type {number} - * @private + * Alias for {@link Minipass#on} */ - _idleTimeout = -1; + addListener(ev, handler) { + return this.on(ev, handler); + } /** - * The time in milliseconds when the timer was started. This value is used to - * calculate when the timer should expire. + * Mostly identical to `EventEmitter.on`, with the following + * behavior differences to prevent data loss and unnecessary hangs: * - * @type {number} - * @default -1 - * @private - */ - _idleStart = -1; - /** - * The function to be executed when the timer expires. - * @type {Function} - * @private - */ - _onTimeout; - /** - * The argument to be passed to the callback when the timer expires. + * - Adding a 'data' event handler will trigger the flow of data + * + * - Adding a 'readable' event handler when there is data waiting to be read + * will cause 'readable' to be emitted immediately. + * + * - Adding an 'endish' event handler ('end', 'finish', etc.) which has + * already passed will cause the event to be emitted immediately and all + * handlers removed. * - * @type {*} - * @private + * - Adding an 'error' event handler after an error has been emitted will + * cause the event to be re-emitted immediately with the error previously + * raised. */ - _timerArg; + on(ev, handler) { + const ret = super.on(ev, handler); + if (ev === "data") { + this[DISCARDED] = false; + this[DATALISTENERS]++; + if (!this[PIPES].length && !this[FLOWING]) { + this[RESUME](); + } + } else if (ev === "readable" && this[BUFFERLENGTH] !== 0) { + super.emit("readable"); + } else if (isEndish(ev) && this[EMITTED_END]) { + super.emit(ev); + this.removeAllListeners(ev); + } else if (ev === "error" && this[EMITTED_ERROR]) { + const h = handler; + if (this[ASYNC]) + defer(() => h.call(this, this[EMITTED_ERROR])); + else + h.call(this, this[EMITTED_ERROR]); + } + return ret; + } /** - * @constructor - * @param {Function} callback A function to be executed after the timer - * expires. - * @param {number} delay The time, in milliseconds that the timer should wait - * before the specified function or code is executed. - * @param {*} arg + * Alias for {@link Minipass#off} */ - constructor(callback, delay, arg) { - this._onTimeout = callback; - this._idleTimeout = delay; - this._timerArg = arg; - this.refresh(); + removeListener(ev, handler) { + return this.off(ev, handler); } /** - * Sets the timer's start time to the current time, and reschedules the timer - * to call its callback at the previously specified duration adjusted to the - * current time. - * Using this on a timer that has already called its callback will reactivate - * the timer. + * Mostly identical to `EventEmitter.off` * - * @returns {void} + * If a 'data' event handler is removed, and it was the last consumer + * (ie, there are no pipe destinations or other 'data' event listeners), + * then the flow of data will stop until there is another consumer or + * {@link Minipass#resume} is explicitly called. */ - refresh() { - if (this._state === NOT_IN_LIST) { - fastTimers.push(this); - } - if (!fastNowTimeout || fastTimers.length === 1) { - refreshTimeout(); + off(ev, handler) { + const ret = super.off(ev, handler); + if (ev === "data") { + this[DATALISTENERS] = this.listeners("data").length; + if (this[DATALISTENERS] === 0 && !this[DISCARDED] && !this[PIPES].length) { + this[FLOWING] = false; + } } - this._state = PENDING2; + return ret; } /** - * The `clear` method cancels the timer, preventing it from executing. + * Mostly identical to `EventEmitter.removeAllListeners` * - * @returns {void} - * @private + * If all 'data' event handlers are removed, and they were the last consumer + * (ie, there are no pipe destinations), then the flow of data will stop + * until there is another consumer or {@link Minipass#resume} is explicitly + * called. */ - clear() { - this._state = TO_BE_CLEARED; - this._idleStart = -1; + removeAllListeners(ev) { + const ret = super.removeAllListeners(ev); + if (ev === "data" || ev === void 0) { + this[DATALISTENERS] = 0; + if (!this[DISCARDED] && !this[PIPES].length) { + this[FLOWING] = false; + } + } + return ret; } - }; - module2.exports = { - /** - * The setTimeout() method sets a timer which executes a function once the - * timer expires. - * @param {Function} callback A function to be executed after the timer - * expires. - * @param {number} delay The time, in milliseconds that the timer should - * wait before the specified function or code is executed. - * @param {*} [arg] An optional argument to be passed to the callback function - * when the timer expires. - * @returns {NodeJS.Timeout|FastTimer} - */ - setTimeout(callback, delay, arg) { - return delay <= RESOLUTION_MS ? setTimeout(callback, delay, arg) : new FastTimer(callback, delay, arg); - }, /** - * The clearTimeout method cancels an instantiated Timer previously created - * by calling setTimeout. - * - * @param {NodeJS.Timeout|FastTimer} timeout + * true if the 'end' event has been emitted */ - clearTimeout(timeout) { - if (timeout[kFastTimer]) { - timeout.clear(); - } else { - clearTimeout(timeout); + get emittedEnd() { + return this[EMITTED_END]; + } + [MAYBE_EMIT_END]() { + if (!this[EMITTING_END] && !this[EMITTED_END] && !this[DESTROYED] && this[BUFFER].length === 0 && this[EOF]) { + this[EMITTING_END] = true; + this.emit("end"); + this.emit("prefinish"); + this.emit("finish"); + if (this[CLOSED]) + this.emit("close"); + this[EMITTING_END] = false; } - }, - /** - * The setFastTimeout() method sets a fastTimer which executes a function once - * the timer expires. - * @param {Function} callback A function to be executed after the timer - * expires. - * @param {number} delay The time, in milliseconds that the timer should - * wait before the specified function or code is executed. - * @param {*} [arg] An optional argument to be passed to the callback function - * when the timer expires. - * @returns {FastTimer} - */ - setFastTimeout(callback, delay, arg) { - return new FastTimer(callback, delay, arg); - }, + } /** - * The clearTimeout method cancels an instantiated FastTimer previously - * created by calling setFastTimeout. + * Mostly identical to `EventEmitter.emit`, with the following + * behavior differences to prevent data loss and unnecessary hangs: * - * @param {FastTimer} timeout - */ - clearFastTimeout(timeout) { - timeout.clear(); - }, - /** - * The now method returns the value of the internal fast timer clock. + * If the stream has been destroyed, and the event is something other + * than 'close' or 'error', then `false` is returned and no handlers + * are called. + * + * If the event is 'end', and has already been emitted, then the event + * is ignored. If the stream is in a paused or non-flowing state, then + * the event will be deferred until data flow resumes. If the stream is + * async, then handlers will be called on the next tick rather than + * immediately. + * + * If the event is 'close', and 'end' has not yet been emitted, then + * the event will be deferred until after 'end' is emitted. + * + * If the event is 'error', and an AbortSignal was provided for the stream, + * and there are no listeners, then the event is ignored, matching the + * behavior of node core streams in the presense of an AbortSignal. * - * @returns {number} + * If the event is 'finish' or 'prefinish', then all listeners will be + * removed after emitting the event, to prevent double-firing. */ - now() { - return fastNow; - }, - /** - * Trigger the onTick function to process the fastTimers array. - * Exported for testing purposes only. - * Marking as deprecated to discourage any use outside of testing. - * @deprecated - * @param {number} [delay=0] The delay in milliseconds to add to the now value. - */ - tick(delay = 0) { - fastNow += delay - RESOLUTION_MS + 1; - onTick(); - onTick(); - }, - /** - * Reset FastTimers. - * Exported for testing purposes only. - * Marking as deprecated to discourage any use outside of testing. - * @deprecated - */ - reset() { - fastNow = 0; - fastTimers.length = 0; - clearTimeout(fastNowTimeout); - fastNowTimeout = null; - }, - /** - * Exporting for testing purposes only. - * Marking as deprecated to discourage any use outside of testing. - * @deprecated - */ - kFastTimer - }; - } -}); - -// .yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/core/connect.js -var require_connect = __commonJS({ - ".yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/core/connect.js"(exports2, module2) { - "use strict"; - var net = require("node:net"); - var assert5 = require("node:assert"); - var util = require_util(); - var { InvalidArgumentError, ConnectTimeoutError } = require_errors(); - var timers = require_timers(); - function noop3() { - } - var tls; - var SessionCache; - if (global.FinalizationRegistry && !(process.env.NODE_V8_COVERAGE || process.env.UNDICI_NO_FG)) { - SessionCache = class WeakSessionCache { - constructor(maxCachedSessions) { - this._maxCachedSessions = maxCachedSessions; - this._sessionCache = /* @__PURE__ */ new Map(); - this._sessionRegistry = new global.FinalizationRegistry((key) => { - if (this._sessionCache.size < this._maxCachedSessions) { - return; - } - const ref = this._sessionCache.get(key); - if (ref !== void 0 && ref.deref() === void 0) { - this._sessionCache.delete(key); - } - }); - } - get(sessionKey) { - const ref = this._sessionCache.get(sessionKey); - return ref ? ref.deref() : null; - } - set(sessionKey, session) { - if (this._maxCachedSessions === 0) { - return; - } - this._sessionCache.set(sessionKey, new WeakRef(session)); - this._sessionRegistry.register(session, sessionKey); - } - }; - } else { - SessionCache = class SimpleSessionCache { - constructor(maxCachedSessions) { - this._maxCachedSessions = maxCachedSessions; - this._sessionCache = /* @__PURE__ */ new Map(); + emit(ev, ...args) { + const data = args[0]; + if (ev !== "error" && ev !== "close" && ev !== DESTROYED && this[DESTROYED]) { + return false; + } else if (ev === "data") { + return !this[OBJECTMODE] && !data ? false : this[ASYNC] ? (defer(() => this[EMITDATA](data)), true) : this[EMITDATA](data); + } else if (ev === "end") { + return this[EMITEND](); + } else if (ev === "close") { + this[CLOSED] = true; + if (!this[EMITTED_END] && !this[DESTROYED]) + return false; + const ret2 = super.emit("close"); + this.removeAllListeners("close"); + return ret2; + } else if (ev === "error") { + this[EMITTED_ERROR] = data; + super.emit(ERROR, data); + const ret2 = !this[SIGNAL] || this.listeners("error").length ? super.emit("error", data) : false; + this[MAYBE_EMIT_END](); + return ret2; + } else if (ev === "resume") { + const ret2 = super.emit("resume"); + this[MAYBE_EMIT_END](); + return ret2; + } else if (ev === "finish" || ev === "prefinish") { + const ret2 = super.emit(ev); + this.removeAllListeners(ev); + return ret2; } - get(sessionKey) { - return this._sessionCache.get(sessionKey); + const ret = super.emit(ev, ...args); + this[MAYBE_EMIT_END](); + return ret; + } + [EMITDATA](data) { + for (const p of this[PIPES]) { + if (p.dest.write(data) === false) + this.pause(); } - set(sessionKey, session) { - if (this._maxCachedSessions === 0) { - return; - } - if (this._sessionCache.size >= this._maxCachedSessions) { - const { value: oldestKey } = this._sessionCache.keys().next(); - this._sessionCache.delete(oldestKey); + const ret = this[DISCARDED] ? false : super.emit("data", data); + this[MAYBE_EMIT_END](); + return ret; + } + [EMITEND]() { + if (this[EMITTED_END]) + return false; + this[EMITTED_END] = true; + this.readable = false; + return this[ASYNC] ? (defer(() => this[EMITEND2]()), true) : this[EMITEND2](); + } + [EMITEND2]() { + if (this[DECODER]) { + const data = this[DECODER].end(); + if (data) { + for (const p of this[PIPES]) { + p.dest.write(data); + } + if (!this[DISCARDED]) + super.emit("data", data); } - this._sessionCache.set(sessionKey, session); } - }; - } - function buildConnector({ allowH2, maxCachedSessions, socketPath, timeout, session: customSession, ...opts }) { - if (maxCachedSessions != null && (!Number.isInteger(maxCachedSessions) || maxCachedSessions < 0)) { - throw new InvalidArgumentError("maxCachedSessions must be a positive integer or zero"); - } - const options = { path: socketPath, ...opts }; - const sessionCache = new SessionCache(maxCachedSessions == null ? 100 : maxCachedSessions); - timeout = timeout == null ? 1e4 : timeout; - allowH2 = allowH2 != null ? allowH2 : false; - return function connect({ hostname, host, protocol, port, servername, localAddress, httpSocket }, callback) { - let socket; - if (protocol === "https:") { - if (!tls) { - tls = require("node:tls"); - } - servername = servername || options.servername || util.getServerName(host) || null; - const sessionKey = servername || hostname; - assert5(sessionKey); - const session = customSession || sessionCache.get(sessionKey) || null; - port = port || 443; - socket = tls.connect({ - highWaterMark: 16384, - // TLS in node can't have bigger HWM anyway... - ...options, - servername, - session, - localAddress, - // TODO(HTTP/2): Add support for h2c - ALPNProtocols: allowH2 ? ["http/1.1", "h2"] : ["http/1.1"], - socket: httpSocket, - // upgrade socket connection - port, - host: hostname - }); - socket.on("session", function(session2) { - sessionCache.set(sessionKey, session2); - }); - } else { - assert5(!httpSocket, "httpSocket can only be sent on TLS update"); - port = port || 80; - socket = net.connect({ - highWaterMark: 64 * 1024, - // Same as nodejs fs streams. - ...options, - localAddress, - port, - host: hostname - }); + for (const p of this[PIPES]) { + p.end(); } - if (options.keepAlive == null || options.keepAlive) { - const keepAliveInitialDelay = options.keepAliveInitialDelay === void 0 ? 6e4 : options.keepAliveInitialDelay; - socket.setKeepAlive(true, keepAliveInitialDelay); - } - const clearConnectTimeout = setupConnectTimeout(new WeakRef(socket), { timeout, hostname, port }); - socket.setNoDelay(true).once(protocol === "https:" ? "secureConnect" : "connect", function() { - queueMicrotask(clearConnectTimeout); - if (callback) { - const cb = callback; - callback = null; - cb(null, this); - } - }).on("error", function(err) { - queueMicrotask(clearConnectTimeout); - if (callback) { - const cb = callback; - callback = null; - cb(err); - } - }); - return socket; - }; - } - var setupConnectTimeout = process.platform === "win32" ? (socketWeakRef, opts) => { - if (!opts.timeout) { - return noop3; - } - let s1 = null; - let s2 = null; - const fastTimer = timers.setFastTimeout(() => { - s1 = setImmediate(() => { - s2 = setImmediate(() => onConnectTimeout(socketWeakRef.deref(), opts)); + const ret = super.emit("end"); + this.removeAllListeners("end"); + return ret; + } + /** + * Return a Promise that resolves to an array of all emitted data once + * the stream ends. + */ + async collect() { + const buf = Object.assign([], { + dataLength: 0 }); - }, opts.timeout); - return () => { - timers.clearFastTimeout(fastTimer); - clearImmediate(s1); - clearImmediate(s2); - }; - } : (socketWeakRef, opts) => { - if (!opts.timeout) { - return noop3; - } - let s1 = null; - const fastTimer = timers.setFastTimeout(() => { - s1 = setImmediate(() => { - onConnectTimeout(socketWeakRef.deref(), opts); + if (!this[OBJECTMODE]) + buf.dataLength = 0; + const p = this.promise(); + this.on("data", (c) => { + buf.push(c); + if (!this[OBJECTMODE]) + buf.dataLength += c.length; }); - }, opts.timeout); - return () => { - timers.clearFastTimeout(fastTimer); - clearImmediate(s1); - }; - }; - function onConnectTimeout(socket, opts) { - if (socket == null) { - return; - } - let message = "Connect Timeout Error"; - if (Array.isArray(socket.autoSelectFamilyAttemptedAddresses)) { - message += ` (attempted addresses: ${socket.autoSelectFamilyAttemptedAddresses.join(", ")},`; - } else { - message += ` (attempted address: ${opts.hostname}:${opts.port},`; + await p; + return buf; } - message += ` timeout: ${opts.timeout}ms)`; - util.destroy(socket, new ConnectTimeoutError(message)); - } - module2.exports = buildConnector; - } -}); - -// .yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/llhttp/utils.js -var require_utils = __commonJS({ - ".yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/llhttp/utils.js"(exports2) { - "use strict"; - Object.defineProperty(exports2, "__esModule", { value: true }); - exports2.enumToMap = void 0; - function enumToMap(obj) { - const res = {}; - Object.keys(obj).forEach((key) => { - const value = obj[key]; - if (typeof value === "number") { - res[key] = value; + /** + * Return a Promise that resolves to the concatenation of all emitted data + * once the stream ends. + * + * Not allowed on objectMode streams. + */ + async concat() { + if (this[OBJECTMODE]) { + throw new Error("cannot concat in objectMode"); } - }); - return res; - } - exports2.enumToMap = enumToMap; - } -}); - -// .yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/llhttp/constants.js -var require_constants3 = __commonJS({ - ".yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/llhttp/constants.js"(exports2) { - "use strict"; - Object.defineProperty(exports2, "__esModule", { value: true }); - exports2.SPECIAL_HEADERS = exports2.HEADER_STATE = exports2.MINOR = exports2.MAJOR = exports2.CONNECTION_TOKEN_CHARS = exports2.HEADER_CHARS = exports2.TOKEN = exports2.STRICT_TOKEN = exports2.HEX = exports2.URL_CHAR = exports2.STRICT_URL_CHAR = exports2.USERINFO_CHARS = exports2.MARK = exports2.ALPHANUM = exports2.NUM = exports2.HEX_MAP = exports2.NUM_MAP = exports2.ALPHA = exports2.FINISH = exports2.H_METHOD_MAP = exports2.METHOD_MAP = exports2.METHODS_RTSP = exports2.METHODS_ICE = exports2.METHODS_HTTP = exports2.METHODS = exports2.LENIENT_FLAGS = exports2.FLAGS = exports2.TYPE = exports2.ERROR = void 0; - var utils_1 = require_utils(); - var ERROR2; - (function(ERROR3) { - ERROR3[ERROR3["OK"] = 0] = "OK"; - ERROR3[ERROR3["INTERNAL"] = 1] = "INTERNAL"; - ERROR3[ERROR3["STRICT"] = 2] = "STRICT"; - ERROR3[ERROR3["LF_EXPECTED"] = 3] = "LF_EXPECTED"; - ERROR3[ERROR3["UNEXPECTED_CONTENT_LENGTH"] = 4] = "UNEXPECTED_CONTENT_LENGTH"; - ERROR3[ERROR3["CLOSED_CONNECTION"] = 5] = "CLOSED_CONNECTION"; - ERROR3[ERROR3["INVALID_METHOD"] = 6] = "INVALID_METHOD"; - ERROR3[ERROR3["INVALID_URL"] = 7] = "INVALID_URL"; - ERROR3[ERROR3["INVALID_CONSTANT"] = 8] = "INVALID_CONSTANT"; - ERROR3[ERROR3["INVALID_VERSION"] = 9] = "INVALID_VERSION"; - ERROR3[ERROR3["INVALID_HEADER_TOKEN"] = 10] = "INVALID_HEADER_TOKEN"; - ERROR3[ERROR3["INVALID_CONTENT_LENGTH"] = 11] = "INVALID_CONTENT_LENGTH"; - ERROR3[ERROR3["INVALID_CHUNK_SIZE"] = 12] = "INVALID_CHUNK_SIZE"; - ERROR3[ERROR3["INVALID_STATUS"] = 13] = "INVALID_STATUS"; - ERROR3[ERROR3["INVALID_EOF_STATE"] = 14] = "INVALID_EOF_STATE"; - ERROR3[ERROR3["INVALID_TRANSFER_ENCODING"] = 15] = "INVALID_TRANSFER_ENCODING"; - ERROR3[ERROR3["CB_MESSAGE_BEGIN"] = 16] = "CB_MESSAGE_BEGIN"; - ERROR3[ERROR3["CB_HEADERS_COMPLETE"] = 17] = "CB_HEADERS_COMPLETE"; - ERROR3[ERROR3["CB_MESSAGE_COMPLETE"] = 18] = "CB_MESSAGE_COMPLETE"; - ERROR3[ERROR3["CB_CHUNK_HEADER"] = 19] = "CB_CHUNK_HEADER"; - ERROR3[ERROR3["CB_CHUNK_COMPLETE"] = 20] = "CB_CHUNK_COMPLETE"; - ERROR3[ERROR3["PAUSED"] = 21] = "PAUSED"; - ERROR3[ERROR3["PAUSED_UPGRADE"] = 22] = "PAUSED_UPGRADE"; - ERROR3[ERROR3["PAUSED_H2_UPGRADE"] = 23] = "PAUSED_H2_UPGRADE"; - ERROR3[ERROR3["USER"] = 24] = "USER"; - })(ERROR2 = exports2.ERROR || (exports2.ERROR = {})); - var TYPE; - (function(TYPE2) { - TYPE2[TYPE2["BOTH"] = 0] = "BOTH"; - TYPE2[TYPE2["REQUEST"] = 1] = "REQUEST"; - TYPE2[TYPE2["RESPONSE"] = 2] = "RESPONSE"; - })(TYPE = exports2.TYPE || (exports2.TYPE = {})); - var FLAGS; - (function(FLAGS2) { - FLAGS2[FLAGS2["CONNECTION_KEEP_ALIVE"] = 1] = "CONNECTION_KEEP_ALIVE"; - FLAGS2[FLAGS2["CONNECTION_CLOSE"] = 2] = "CONNECTION_CLOSE"; - FLAGS2[FLAGS2["CONNECTION_UPGRADE"] = 4] = "CONNECTION_UPGRADE"; - FLAGS2[FLAGS2["CHUNKED"] = 8] = "CHUNKED"; - FLAGS2[FLAGS2["UPGRADE"] = 16] = "UPGRADE"; - FLAGS2[FLAGS2["CONTENT_LENGTH"] = 32] = "CONTENT_LENGTH"; - FLAGS2[FLAGS2["SKIPBODY"] = 64] = "SKIPBODY"; - FLAGS2[FLAGS2["TRAILING"] = 128] = "TRAILING"; - FLAGS2[FLAGS2["TRANSFER_ENCODING"] = 512] = "TRANSFER_ENCODING"; - })(FLAGS = exports2.FLAGS || (exports2.FLAGS = {})); - var LENIENT_FLAGS; - (function(LENIENT_FLAGS2) { - LENIENT_FLAGS2[LENIENT_FLAGS2["HEADERS"] = 1] = "HEADERS"; - LENIENT_FLAGS2[LENIENT_FLAGS2["CHUNKED_LENGTH"] = 2] = "CHUNKED_LENGTH"; - LENIENT_FLAGS2[LENIENT_FLAGS2["KEEP_ALIVE"] = 4] = "KEEP_ALIVE"; - })(LENIENT_FLAGS = exports2.LENIENT_FLAGS || (exports2.LENIENT_FLAGS = {})); - var METHODS; - (function(METHODS2) { - METHODS2[METHODS2["DELETE"] = 0] = "DELETE"; - METHODS2[METHODS2["GET"] = 1] = "GET"; - METHODS2[METHODS2["HEAD"] = 2] = "HEAD"; - METHODS2[METHODS2["POST"] = 3] = "POST"; - METHODS2[METHODS2["PUT"] = 4] = "PUT"; - METHODS2[METHODS2["CONNECT"] = 5] = "CONNECT"; - METHODS2[METHODS2["OPTIONS"] = 6] = "OPTIONS"; - METHODS2[METHODS2["TRACE"] = 7] = "TRACE"; - METHODS2[METHODS2["COPY"] = 8] = "COPY"; - METHODS2[METHODS2["LOCK"] = 9] = "LOCK"; - METHODS2[METHODS2["MKCOL"] = 10] = "MKCOL"; - METHODS2[METHODS2["MOVE"] = 11] = "MOVE"; - METHODS2[METHODS2["PROPFIND"] = 12] = "PROPFIND"; - METHODS2[METHODS2["PROPPATCH"] = 13] = "PROPPATCH"; - METHODS2[METHODS2["SEARCH"] = 14] = "SEARCH"; - METHODS2[METHODS2["UNLOCK"] = 15] = "UNLOCK"; - METHODS2[METHODS2["BIND"] = 16] = "BIND"; - METHODS2[METHODS2["REBIND"] = 17] = "REBIND"; - METHODS2[METHODS2["UNBIND"] = 18] = "UNBIND"; - METHODS2[METHODS2["ACL"] = 19] = "ACL"; - METHODS2[METHODS2["REPORT"] = 20] = "REPORT"; - METHODS2[METHODS2["MKACTIVITY"] = 21] = "MKACTIVITY"; - METHODS2[METHODS2["CHECKOUT"] = 22] = "CHECKOUT"; - METHODS2[METHODS2["MERGE"] = 23] = "MERGE"; - METHODS2[METHODS2["M-SEARCH"] = 24] = "M-SEARCH"; - METHODS2[METHODS2["NOTIFY"] = 25] = "NOTIFY"; - METHODS2[METHODS2["SUBSCRIBE"] = 26] = "SUBSCRIBE"; - METHODS2[METHODS2["UNSUBSCRIBE"] = 27] = "UNSUBSCRIBE"; - METHODS2[METHODS2["PATCH"] = 28] = "PATCH"; - METHODS2[METHODS2["PURGE"] = 29] = "PURGE"; - METHODS2[METHODS2["MKCALENDAR"] = 30] = "MKCALENDAR"; - METHODS2[METHODS2["LINK"] = 31] = "LINK"; - METHODS2[METHODS2["UNLINK"] = 32] = "UNLINK"; - METHODS2[METHODS2["SOURCE"] = 33] = "SOURCE"; - METHODS2[METHODS2["PRI"] = 34] = "PRI"; - METHODS2[METHODS2["DESCRIBE"] = 35] = "DESCRIBE"; - METHODS2[METHODS2["ANNOUNCE"] = 36] = "ANNOUNCE"; - METHODS2[METHODS2["SETUP"] = 37] = "SETUP"; - METHODS2[METHODS2["PLAY"] = 38] = "PLAY"; - METHODS2[METHODS2["PAUSE"] = 39] = "PAUSE"; - METHODS2[METHODS2["TEARDOWN"] = 40] = "TEARDOWN"; - METHODS2[METHODS2["GET_PARAMETER"] = 41] = "GET_PARAMETER"; - METHODS2[METHODS2["SET_PARAMETER"] = 42] = "SET_PARAMETER"; - METHODS2[METHODS2["REDIRECT"] = 43] = "REDIRECT"; - METHODS2[METHODS2["RECORD"] = 44] = "RECORD"; - METHODS2[METHODS2["FLUSH"] = 45] = "FLUSH"; - })(METHODS = exports2.METHODS || (exports2.METHODS = {})); - exports2.METHODS_HTTP = [ - METHODS.DELETE, - METHODS.GET, - METHODS.HEAD, - METHODS.POST, - METHODS.PUT, - METHODS.CONNECT, - METHODS.OPTIONS, - METHODS.TRACE, - METHODS.COPY, - METHODS.LOCK, - METHODS.MKCOL, - METHODS.MOVE, - METHODS.PROPFIND, - METHODS.PROPPATCH, - METHODS.SEARCH, - METHODS.UNLOCK, - METHODS.BIND, - METHODS.REBIND, - METHODS.UNBIND, - METHODS.ACL, - METHODS.REPORT, - METHODS.MKACTIVITY, - METHODS.CHECKOUT, - METHODS.MERGE, - METHODS["M-SEARCH"], - METHODS.NOTIFY, - METHODS.SUBSCRIBE, - METHODS.UNSUBSCRIBE, - METHODS.PATCH, - METHODS.PURGE, - METHODS.MKCALENDAR, - METHODS.LINK, - METHODS.UNLINK, - METHODS.PRI, - // TODO(indutny): should we allow it with HTTP? - METHODS.SOURCE - ]; - exports2.METHODS_ICE = [ - METHODS.SOURCE - ]; - exports2.METHODS_RTSP = [ - METHODS.OPTIONS, - METHODS.DESCRIBE, - METHODS.ANNOUNCE, - METHODS.SETUP, - METHODS.PLAY, - METHODS.PAUSE, - METHODS.TEARDOWN, - METHODS.GET_PARAMETER, - METHODS.SET_PARAMETER, - METHODS.REDIRECT, - METHODS.RECORD, - METHODS.FLUSH, - // For AirPlay - METHODS.GET, - METHODS.POST - ]; - exports2.METHOD_MAP = utils_1.enumToMap(METHODS); - exports2.H_METHOD_MAP = {}; - Object.keys(exports2.METHOD_MAP).forEach((key) => { - if (/^H/.test(key)) { - exports2.H_METHOD_MAP[key] = exports2.METHOD_MAP[key]; - } - }); - var FINISH; - (function(FINISH2) { - FINISH2[FINISH2["SAFE"] = 0] = "SAFE"; - FINISH2[FINISH2["SAFE_WITH_CB"] = 1] = "SAFE_WITH_CB"; - FINISH2[FINISH2["UNSAFE"] = 2] = "UNSAFE"; - })(FINISH = exports2.FINISH || (exports2.FINISH = {})); - exports2.ALPHA = []; - for (let i = "A".charCodeAt(0); i <= "Z".charCodeAt(0); i++) { - exports2.ALPHA.push(String.fromCharCode(i)); - exports2.ALPHA.push(String.fromCharCode(i + 32)); - } - exports2.NUM_MAP = { - 0: 0, - 1: 1, - 2: 2, - 3: 3, - 4: 4, - 5: 5, - 6: 6, - 7: 7, - 8: 8, - 9: 9 - }; - exports2.HEX_MAP = { - 0: 0, - 1: 1, - 2: 2, - 3: 3, - 4: 4, - 5: 5, - 6: 6, - 7: 7, - 8: 8, - 9: 9, - A: 10, - B: 11, - C: 12, - D: 13, - E: 14, - F: 15, - a: 10, - b: 11, - c: 12, - d: 13, - e: 14, - f: 15 - }; - exports2.NUM = [ - "0", - "1", - "2", - "3", - "4", - "5", - "6", - "7", - "8", - "9" - ]; - exports2.ALPHANUM = exports2.ALPHA.concat(exports2.NUM); - exports2.MARK = ["-", "_", ".", "!", "~", "*", "'", "(", ")"]; - exports2.USERINFO_CHARS = exports2.ALPHANUM.concat(exports2.MARK).concat(["%", ";", ":", "&", "=", "+", "$", ","]); - exports2.STRICT_URL_CHAR = [ - "!", - '"', - "$", - "%", - "&", - "'", - "(", - ")", - "*", - "+", - ",", - "-", - ".", - "/", - ":", - ";", - "<", - "=", - ">", - "@", - "[", - "\\", - "]", - "^", - "_", - "`", - "{", - "|", - "}", - "~" - ].concat(exports2.ALPHANUM); - exports2.URL_CHAR = exports2.STRICT_URL_CHAR.concat([" ", "\f"]); - for (let i = 128; i <= 255; i++) { - exports2.URL_CHAR.push(i); - } - exports2.HEX = exports2.NUM.concat(["a", "b", "c", "d", "e", "f", "A", "B", "C", "D", "E", "F"]); - exports2.STRICT_TOKEN = [ - "!", - "#", - "$", - "%", - "&", - "'", - "*", - "+", - "-", - ".", - "^", - "_", - "`", - "|", - "~" - ].concat(exports2.ALPHANUM); - exports2.TOKEN = exports2.STRICT_TOKEN.concat([" "]); - exports2.HEADER_CHARS = [" "]; - for (let i = 32; i <= 255; i++) { - if (i !== 127) { - exports2.HEADER_CHARS.push(i); + const buf = await this.collect(); + return this[ENCODING] ? buf.join("") : Buffer.concat(buf, buf.dataLength); } - } - exports2.CONNECTION_TOKEN_CHARS = exports2.HEADER_CHARS.filter((c) => c !== 44); - exports2.MAJOR = exports2.NUM_MAP; - exports2.MINOR = exports2.MAJOR; - var HEADER_STATE; - (function(HEADER_STATE2) { - HEADER_STATE2[HEADER_STATE2["GENERAL"] = 0] = "GENERAL"; - HEADER_STATE2[HEADER_STATE2["CONNECTION"] = 1] = "CONNECTION"; - HEADER_STATE2[HEADER_STATE2["CONTENT_LENGTH"] = 2] = "CONTENT_LENGTH"; - HEADER_STATE2[HEADER_STATE2["TRANSFER_ENCODING"] = 3] = "TRANSFER_ENCODING"; - HEADER_STATE2[HEADER_STATE2["UPGRADE"] = 4] = "UPGRADE"; - HEADER_STATE2[HEADER_STATE2["CONNECTION_KEEP_ALIVE"] = 5] = "CONNECTION_KEEP_ALIVE"; - HEADER_STATE2[HEADER_STATE2["CONNECTION_CLOSE"] = 6] = "CONNECTION_CLOSE"; - HEADER_STATE2[HEADER_STATE2["CONNECTION_UPGRADE"] = 7] = "CONNECTION_UPGRADE"; - HEADER_STATE2[HEADER_STATE2["TRANSFER_ENCODING_CHUNKED"] = 8] = "TRANSFER_ENCODING_CHUNKED"; - })(HEADER_STATE = exports2.HEADER_STATE || (exports2.HEADER_STATE = {})); - exports2.SPECIAL_HEADERS = { - "connection": HEADER_STATE.CONNECTION, - "content-length": HEADER_STATE.CONTENT_LENGTH, - "proxy-connection": HEADER_STATE.CONNECTION, - "transfer-encoding": HEADER_STATE.TRANSFER_ENCODING, - "upgrade": HEADER_STATE.UPGRADE - }; - } -}); - -// .yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/llhttp/llhttp-wasm.js -var require_llhttp_wasm = __commonJS({ - ".yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/llhttp/llhttp-wasm.js"(exports2, module2) { - "use strict"; - var { Buffer: Buffer3 } = require("node:buffer"); - module2.exports = Buffer3.from("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", "base64"); - } -}); - -// .yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/llhttp/llhttp_simd-wasm.js -var require_llhttp_simd_wasm = __commonJS({ - ".yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/llhttp/llhttp_simd-wasm.js"(exports2, module2) { - "use strict"; - var { Buffer: Buffer3 } = require("node:buffer"); - module2.exports = Buffer3.from("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", "base64"); - } -}); - -// .yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/web/fetch/constants.js -var require_constants4 = __commonJS({ - ".yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/web/fetch/constants.js"(exports2, module2) { - "use strict"; - var corsSafeListedMethods = ( - /** @type {const} */ - ["GET", "HEAD", "POST"] - ); - var corsSafeListedMethodsSet = new Set(corsSafeListedMethods); - var nullBodyStatus = ( - /** @type {const} */ - [101, 204, 205, 304] - ); - var redirectStatus = ( - /** @type {const} */ - [301, 302, 303, 307, 308] - ); - var redirectStatusSet = new Set(redirectStatus); - var badPorts = ( - /** @type {const} */ - [ - "1", - "7", - "9", - "11", - "13", - "15", - "17", - "19", - "20", - "21", - "22", - "23", - "25", - "37", - "42", - "43", - "53", - "69", - "77", - "79", - "87", - "95", - "101", - "102", - "103", - "104", - "109", - "110", - "111", - "113", - "115", - "117", - "119", - "123", - "135", - "137", - "139", - "143", - "161", - "179", - "389", - "427", - "465", - "512", - "513", - "514", - "515", - "526", - "530", - "531", - "532", - "540", - "548", - "554", - "556", - "563", - "587", - "601", - "636", - "989", - "990", - "993", - "995", - "1719", - "1720", - "1723", - "2049", - "3659", - "4045", - "4190", - "5060", - "5061", - "6000", - "6566", - "6665", - "6666", - "6667", - "6668", - "6669", - "6679", - "6697", - "10080" - ] - ); - var badPortsSet = new Set(badPorts); - var referrerPolicy = ( - /** @type {const} */ - [ - "", - "no-referrer", - "no-referrer-when-downgrade", - "same-origin", - "origin", - "strict-origin", - "origin-when-cross-origin", - "strict-origin-when-cross-origin", - "unsafe-url" - ] - ); - var referrerPolicySet = new Set(referrerPolicy); - var requestRedirect = ( - /** @type {const} */ - ["follow", "manual", "error"] - ); - var safeMethods = ( - /** @type {const} */ - ["GET", "HEAD", "OPTIONS", "TRACE"] - ); - var safeMethodsSet = new Set(safeMethods); - var requestMode = ( - /** @type {const} */ - ["navigate", "same-origin", "no-cors", "cors"] - ); - var requestCredentials = ( - /** @type {const} */ - ["omit", "same-origin", "include"] - ); - var requestCache = ( - /** @type {const} */ - [ - "default", - "no-store", - "reload", - "no-cache", - "force-cache", - "only-if-cached" - ] - ); - var requestBodyHeader = ( - /** @type {const} */ - [ - "content-encoding", - "content-language", - "content-location", - "content-type", - // See https://github.com/nodejs/undici/issues/2021 - // 'Content-Length' is a forbidden header name, which is typically - // removed in the Headers implementation. However, undici doesn't - // filter out headers, so we add it here. - "content-length" - ] - ); - var requestDuplex = ( - /** @type {const} */ - [ - "half" - ] - ); - var forbiddenMethods = ( - /** @type {const} */ - ["CONNECT", "TRACE", "TRACK"] - ); - var forbiddenMethodsSet = new Set(forbiddenMethods); - var subresource = ( - /** @type {const} */ - [ - "audio", - "audioworklet", - "font", - "image", - "manifest", - "paintworklet", - "script", - "style", - "track", - "video", - "xslt", - "" - ] - ); - var subresourceSet = new Set(subresource); - module2.exports = { - subresource, - forbiddenMethods, - requestBodyHeader, - referrerPolicy, - requestRedirect, - requestMode, - requestCredentials, - requestCache, - redirectStatus, - corsSafeListedMethods, - nullBodyStatus, - safeMethods, - badPorts, - requestDuplex, - subresourceSet, - badPortsSet, - redirectStatusSet, - corsSafeListedMethodsSet, - safeMethodsSet, - forbiddenMethodsSet, - referrerPolicySet - }; - } -}); - -// .yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/web/fetch/global.js -var require_global = __commonJS({ - ".yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/web/fetch/global.js"(exports2, module2) { - "use strict"; - var globalOrigin = Symbol.for("undici.globalOrigin.1"); - function getGlobalOrigin() { - return globalThis[globalOrigin]; - } - function setGlobalOrigin(newOrigin) { - if (newOrigin === void 0) { - Object.defineProperty(globalThis, globalOrigin, { - value: void 0, - writable: true, - enumerable: false, - configurable: false + /** + * Return a void Promise that resolves once the stream ends. + */ + async promise() { + return new Promise((resolve, reject) => { + this.on(DESTROYED, () => reject(new Error("stream destroyed"))); + this.on("error", (er) => reject(er)); + this.on("end", () => resolve()); }); - return; - } - const parsedURL = new URL(newOrigin); - if (parsedURL.protocol !== "http:" && parsedURL.protocol !== "https:") { - throw new TypeError(`Only http & https urls are allowed, received ${parsedURL.protocol}`); - } - Object.defineProperty(globalThis, globalOrigin, { - value: parsedURL, - writable: true, - enumerable: false, - configurable: false - }); - } - module2.exports = { - getGlobalOrigin, - setGlobalOrigin - }; - } -}); - -// .yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/web/fetch/data-url.js -var require_data_url = __commonJS({ - ".yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/web/fetch/data-url.js"(exports2, module2) { - "use strict"; - var assert5 = require("node:assert"); - var encoder = new TextEncoder(); - var HTTP_TOKEN_CODEPOINTS = /^[!#$%&'*+\-.^_|~A-Za-z0-9]+$/; - var HTTP_WHITESPACE_REGEX = /[\u000A\u000D\u0009\u0020]/; - var ASCII_WHITESPACE_REPLACE_REGEX = /[\u0009\u000A\u000C\u000D\u0020]/g; - var HTTP_QUOTED_STRING_TOKENS = /^[\u0009\u0020-\u007E\u0080-\u00FF]+$/; - function dataURLProcessor(dataURL) { - assert5(dataURL.protocol === "data:"); - let input = URLSerializer(dataURL, true); - input = input.slice(5); - const position = { position: 0 }; - let mimeType = collectASequenceOfCodePointsFast( - ",", - input, - position - ); - const mimeTypeLength = mimeType.length; - mimeType = removeASCIIWhitespace(mimeType, true, true); - if (position.position >= input.length) { - return "failure"; - } - position.position++; - const encodedBody = input.slice(mimeTypeLength + 1); - let body = stringPercentDecode(encodedBody); - if (/;(\u0020){0,}base64$/i.test(mimeType)) { - const stringBody = isomorphicDecode(body); - body = forgivingBase64(stringBody); - if (body === "failure") { - return "failure"; - } - mimeType = mimeType.slice(0, -6); - mimeType = mimeType.replace(/(\u0020)+$/, ""); - mimeType = mimeType.slice(0, -1); - } - if (mimeType.startsWith(";")) { - mimeType = "text/plain" + mimeType; - } - let mimeTypeRecord = parseMIMEType(mimeType); - if (mimeTypeRecord === "failure") { - mimeTypeRecord = parseMIMEType("text/plain;charset=US-ASCII"); - } - return { mimeType: mimeTypeRecord, body }; - } - function URLSerializer(url, excludeFragment = false) { - if (!excludeFragment) { - return url.href; - } - const href = url.href; - const hashLength = url.hash.length; - const serialized = hashLength === 0 ? href : href.substring(0, href.length - hashLength); - if (!hashLength && href.endsWith("#")) { - return serialized.slice(0, -1); - } - return serialized; - } - function collectASequenceOfCodePoints(condition, input, position) { - let result = ""; - while (position.position < input.length && condition(input[position.position])) { - result += input[position.position]; - position.position++; - } - return result; - } - function collectASequenceOfCodePointsFast(char, input, position) { - const idx = input.indexOf(char, position.position); - const start = position.position; - if (idx === -1) { - position.position = input.length; - return input.slice(start); - } - position.position = idx; - return input.slice(start, position.position); - } - function stringPercentDecode(input) { - const bytes = encoder.encode(input); - return percentDecode(bytes); - } - function isHexCharByte(byte) { - return byte >= 48 && byte <= 57 || byte >= 65 && byte <= 70 || byte >= 97 && byte <= 102; - } - function hexByteToNumber(byte) { - return ( - // 0-9 - byte >= 48 && byte <= 57 ? byte - 48 : (byte & 223) - 55 - ); - } - function percentDecode(input) { - const length = input.length; - const output = new Uint8Array(length); - let j = 0; - for (let i = 0; i < length; ++i) { - const byte = input[i]; - if (byte !== 37) { - output[j++] = byte; - } else if (byte === 37 && !(isHexCharByte(input[i + 1]) && isHexCharByte(input[i + 2]))) { - output[j++] = 37; - } else { - output[j++] = hexByteToNumber(input[i + 1]) << 4 | hexByteToNumber(input[i + 2]); - i += 2; - } - } - return length === j ? output : output.subarray(0, j); - } - function parseMIMEType(input) { - input = removeHTTPWhitespace(input, true, true); - const position = { position: 0 }; - const type = collectASequenceOfCodePointsFast( - "/", - input, - position - ); - if (type.length === 0 || !HTTP_TOKEN_CODEPOINTS.test(type)) { - return "failure"; - } - if (position.position > input.length) { - return "failure"; - } - position.position++; - let subtype = collectASequenceOfCodePointsFast( - ";", - input, - position - ); - subtype = removeHTTPWhitespace(subtype, false, true); - if (subtype.length === 0 || !HTTP_TOKEN_CODEPOINTS.test(subtype)) { - return "failure"; - } - const typeLowercase = type.toLowerCase(); - const subtypeLowercase = subtype.toLowerCase(); - const mimeType = { - type: typeLowercase, - subtype: subtypeLowercase, - /** @type {Map} */ - parameters: /* @__PURE__ */ new Map(), - // https://mimesniff.spec.whatwg.org/#mime-type-essence - essence: `${typeLowercase}/${subtypeLowercase}` - }; - while (position.position < input.length) { - position.position++; - collectASequenceOfCodePoints( - // https://fetch.spec.whatwg.org/#http-whitespace - (char) => HTTP_WHITESPACE_REGEX.test(char), - input, - position - ); - let parameterName = collectASequenceOfCodePoints( - (char) => char !== ";" && char !== "=", - input, - position - ); - parameterName = parameterName.toLowerCase(); - if (position.position < input.length) { - if (input[position.position] === ";") { - continue; - } - position.position++; - } - if (position.position > input.length) { - break; - } - let parameterValue = null; - if (input[position.position] === '"') { - parameterValue = collectAnHTTPQuotedString(input, position, true); - collectASequenceOfCodePointsFast( - ";", - input, - position - ); - } else { - parameterValue = collectASequenceOfCodePointsFast( - ";", - input, - position - ); - parameterValue = removeHTTPWhitespace(parameterValue, false, true); - if (parameterValue.length === 0) { - continue; - } - } - if (parameterName.length !== 0 && HTTP_TOKEN_CODEPOINTS.test(parameterName) && (parameterValue.length === 0 || HTTP_QUOTED_STRING_TOKENS.test(parameterValue)) && !mimeType.parameters.has(parameterName)) { - mimeType.parameters.set(parameterName, parameterValue); - } } - return mimeType; - } - function forgivingBase64(data) { - data = data.replace(ASCII_WHITESPACE_REPLACE_REGEX, ""); - let dataLength = data.length; - if (dataLength % 4 === 0) { - if (data.charCodeAt(dataLength - 1) === 61) { - --dataLength; - if (data.charCodeAt(dataLength - 1) === 61) { - --dataLength; - } - } - } - if (dataLength % 4 === 1) { - return "failure"; - } - if (/[^+/0-9A-Za-z]/.test(data.length === dataLength ? data : data.substring(0, dataLength))) { - return "failure"; - } - const buffer = Buffer.from(data, "base64"); - return new Uint8Array(buffer.buffer, buffer.byteOffset, buffer.byteLength); - } - function collectAnHTTPQuotedString(input, position, extractValue) { - const positionStart = position.position; - let value = ""; - assert5(input[position.position] === '"'); - position.position++; - while (true) { - value += collectASequenceOfCodePoints( - (char) => char !== '"' && char !== "\\", - input, - position - ); - if (position.position >= input.length) { - break; - } - const quoteOrBackslash = input[position.position]; - position.position++; - if (quoteOrBackslash === "\\") { - if (position.position >= input.length) { - value += "\\"; - break; + /** + * Asynchronous `for await of` iteration. + * + * This will continue emitting all chunks until the stream terminates. + */ + [Symbol.asyncIterator]() { + this[DISCARDED] = false; + let stopped = false; + const stop = async () => { + this.pause(); + stopped = true; + return { value: void 0, done: true }; + }; + const next = () => { + if (stopped) + return stop(); + const res = this.read(); + if (res !== null) + return Promise.resolve({ done: false, value: res }); + if (this[EOF]) + return stop(); + let resolve; + let reject; + const onerr = (er) => { + this.off("data", ondata); + this.off("end", onend); + this.off(DESTROYED, ondestroy); + stop(); + reject(er); + }; + const ondata = (value) => { + this.off("error", onerr); + this.off("end", onend); + this.off(DESTROYED, ondestroy); + this.pause(); + resolve({ value, done: !!this[EOF] }); + }; + const onend = () => { + this.off("error", onerr); + this.off("data", ondata); + this.off(DESTROYED, ondestroy); + stop(); + resolve({ done: true, value: void 0 }); + }; + const ondestroy = () => onerr(new Error("stream destroyed")); + return new Promise((res2, rej) => { + reject = rej; + resolve = res2; + this.once(DESTROYED, ondestroy); + this.once("error", onerr); + this.once("end", onend); + this.once("data", ondata); + }); + }; + return { + next, + throw: stop, + return: stop, + [Symbol.asyncIterator]() { + return this; + }, + [Symbol.asyncDispose]: async () => { } - value += input[position.position]; - position.position++; - } else { - assert5(quoteOrBackslash === '"'); - break; - } - } - if (extractValue) { - return value; - } - return input.slice(positionStart, position.position); - } - function serializeAMimeType(mimeType) { - assert5(mimeType !== "failure"); - const { parameters, essence } = mimeType; - let serialization = essence; - for (let [name2, value] of parameters.entries()) { - serialization += ";"; - serialization += name2; - serialization += "="; - if (!HTTP_TOKEN_CODEPOINTS.test(value)) { - value = value.replace(/(\\|")/g, "\\$1"); - value = '"' + value; - value += '"'; - } - serialization += value; - } - return serialization; - } - function isHTTPWhiteSpace(char) { - return char === 13 || char === 10 || char === 9 || char === 32; - } - function removeHTTPWhitespace(str, leading = true, trailing = true) { - return removeChars(str, leading, trailing, isHTTPWhiteSpace); - } - function isASCIIWhitespace(char) { - return char === 13 || char === 10 || char === 9 || char === 12 || char === 32; - } - function removeASCIIWhitespace(str, leading = true, trailing = true) { - return removeChars(str, leading, trailing, isASCIIWhitespace); - } - function removeChars(str, leading, trailing, predicate) { - let lead = 0; - let trail = str.length - 1; - if (leading) { - while (lead < str.length && predicate(str.charCodeAt(lead))) lead++; - } - if (trailing) { - while (trail > 0 && predicate(str.charCodeAt(trail))) trail--; + }; } - return lead === 0 && trail === str.length - 1 ? str : str.slice(lead, trail + 1); - } - function isomorphicDecode(input) { - const length = input.length; - if ((2 << 15) - 1 > length) { - return String.fromCharCode.apply(null, input); + /** + * Synchronous `for of` iteration. + * + * The iteration will terminate when the internal buffer runs out, even + * if the stream has not yet terminated. + */ + [Symbol.iterator]() { + this[DISCARDED] = false; + let stopped = false; + const stop = () => { + this.pause(); + this.off(ERROR, stop); + this.off(DESTROYED, stop); + this.off("end", stop); + stopped = true; + return { done: true, value: void 0 }; + }; + const next = () => { + if (stopped) + return stop(); + const value = this.read(); + return value === null ? stop() : { done: false, value }; + }; + this.once("end", stop); + this.once(ERROR, stop); + this.once(DESTROYED, stop); + return { + next, + throw: stop, + return: stop, + [Symbol.iterator]() { + return this; + }, + [Symbol.dispose]: () => { + } + }; } - let result = ""; - let i = 0; - let addition = (2 << 15) - 1; - while (i < length) { - if (i + addition > length) { - addition = length - i; + /** + * Destroy a stream, preventing it from being used for any further purpose. + * + * If the stream has a `close()` method, then it will be called on + * destruction. + * + * After destruction, any attempt to write data, read data, or emit most + * events will be ignored. + * + * If an error argument is provided, then it will be emitted in an + * 'error' event. + */ + destroy(er) { + if (this[DESTROYED]) { + if (er) + this.emit("error", er); + else + this.emit(DESTROYED); + return this; } - result += String.fromCharCode.apply(null, input.subarray(i, i += addition)); + this[DESTROYED] = true; + this[DISCARDED] = true; + this[BUFFER].length = 0; + this[BUFFERLENGTH] = 0; + const wc = this; + if (typeof wc.close === "function" && !this[CLOSED]) + wc.close(); + if (er) + this.emit("error", er); + else + this.emit(DESTROYED); + return this; + } + /** + * Alias for {@link isStream} + * + * Former export location, maintained for backwards compatibility. + * + * @deprecated + */ + static get isStream() { + return isStream; } - return result; - } - function minimizeSupportedMimeType(mimeType) { - switch (mimeType.essence) { - case "application/ecmascript": - case "application/javascript": - case "application/x-ecmascript": - case "application/x-javascript": - case "text/ecmascript": - case "text/javascript": - case "text/javascript1.0": - case "text/javascript1.1": - case "text/javascript1.2": - case "text/javascript1.3": - case "text/javascript1.4": - case "text/javascript1.5": - case "text/jscript": - case "text/livescript": - case "text/x-ecmascript": - case "text/x-javascript": - return "text/javascript"; - case "application/json": - case "text/json": - return "application/json"; - case "image/svg+xml": - return "image/svg+xml"; - case "text/xml": - case "application/xml": - return "application/xml"; - } - if (mimeType.subtype.endsWith("+json")) { - return "application/json"; - } - if (mimeType.subtype.endsWith("+xml")) { - return "application/xml"; - } - return ""; - } - module2.exports = { - dataURLProcessor, - URLSerializer, - collectASequenceOfCodePoints, - collectASequenceOfCodePointsFast, - stringPercentDecode, - parseMIMEType, - collectAnHTTPQuotedString, - serializeAMimeType, - removeChars, - removeHTTPWhitespace, - minimizeSupportedMimeType, - HTTP_TOKEN_CODEPOINTS, - isomorphicDecode }; } }); -// .yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/web/fetch/webidl.js -var require_webidl = __commonJS({ - ".yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/web/fetch/webidl.js"(exports2, module2) { - "use strict"; - var { types, inspect } = require("node:util"); - var { markAsUncloneable } = require("node:worker_threads"); - var { toUSVString } = require_util(); - var webidl = {}; - webidl.converters = {}; - webidl.util = {}; - webidl.errors = {}; - webidl.errors.exception = function(message) { - return new TypeError(`${message.header}: ${message.message}`); - }; - webidl.errors.conversionFailed = function(context) { - const plural2 = context.types.length === 1 ? "" : " one of"; - const message = `${context.argument} could not be converted to${plural2}: ${context.types.join(", ")}.`; - return webidl.errors.exception({ - header: context.prefix, - message - }); - }; - webidl.errors.invalidArgument = function(context) { - return webidl.errors.exception({ - header: context.prefix, - message: `"${context.value}" is an invalid ${context.type}.` - }); - }; - webidl.brandCheck = function(V, I, opts) { - if (opts?.strict !== false) { - if (!(V instanceof I)) { - const err = new TypeError("Illegal invocation"); - err.code = "ERR_INVALID_THIS"; - throw err; +// node_modules/@isaacs/fs-minipass/dist/esm/index.js +var import_events2, import_fs2, writev, _autoClose, _close, _ended, _fd, _finished, _flags, _flush, _handleChunk, _makeBuf, _mode, _needDrain, _onerror, _onopen, _onread, _onwrite, _open, _path, _pos, _queue, _read, _readSize, _reading, _remain, _size, _write, _writing, _defaultFlag, _errored, ReadStream, ReadStreamSync, WriteStream, WriteStreamSync; +var init_esm2 = __esm({ + "node_modules/@isaacs/fs-minipass/dist/esm/index.js"() { + import_events2 = __toESM(require("events"), 1); + import_fs2 = __toESM(require("fs"), 1); + init_esm(); + writev = import_fs2.default.writev; + _autoClose = /* @__PURE__ */ Symbol("_autoClose"); + _close = /* @__PURE__ */ Symbol("_close"); + _ended = /* @__PURE__ */ Symbol("_ended"); + _fd = /* @__PURE__ */ Symbol("_fd"); + _finished = /* @__PURE__ */ Symbol("_finished"); + _flags = /* @__PURE__ */ Symbol("_flags"); + _flush = /* @__PURE__ */ Symbol("_flush"); + _handleChunk = /* @__PURE__ */ Symbol("_handleChunk"); + _makeBuf = /* @__PURE__ */ Symbol("_makeBuf"); + _mode = /* @__PURE__ */ Symbol("_mode"); + _needDrain = /* @__PURE__ */ Symbol("_needDrain"); + _onerror = /* @__PURE__ */ Symbol("_onerror"); + _onopen = /* @__PURE__ */ Symbol("_onopen"); + _onread = /* @__PURE__ */ Symbol("_onread"); + _onwrite = /* @__PURE__ */ Symbol("_onwrite"); + _open = /* @__PURE__ */ Symbol("_open"); + _path = /* @__PURE__ */ Symbol("_path"); + _pos = /* @__PURE__ */ Symbol("_pos"); + _queue = /* @__PURE__ */ Symbol("_queue"); + _read = /* @__PURE__ */ Symbol("_read"); + _readSize = /* @__PURE__ */ Symbol("_readSize"); + _reading = /* @__PURE__ */ Symbol("_reading"); + _remain = /* @__PURE__ */ Symbol("_remain"); + _size = /* @__PURE__ */ Symbol("_size"); + _write = /* @__PURE__ */ Symbol("_write"); + _writing = /* @__PURE__ */ Symbol("_writing"); + _defaultFlag = /* @__PURE__ */ Symbol("_defaultFlag"); + _errored = /* @__PURE__ */ Symbol("_errored"); + ReadStream = class extends Minipass { + [_errored] = false; + [_fd]; + [_path]; + [_readSize]; + [_reading] = false; + [_size]; + [_remain]; + [_autoClose]; + constructor(path16, opt) { + opt = opt || {}; + super(opt); + this.readable = true; + this.writable = false; + if (typeof path16 !== "string") { + throw new TypeError("path must be a string"); } - } else { - if (V?.[Symbol.toStringTag] !== I.prototype[Symbol.toStringTag]) { - const err = new TypeError("Illegal invocation"); - err.code = "ERR_INVALID_THIS"; - throw err; + this[_errored] = false; + this[_fd] = typeof opt.fd === "number" ? opt.fd : void 0; + this[_path] = path16; + this[_readSize] = opt.readSize || 16 * 1024 * 1024; + this[_reading] = false; + this[_size] = typeof opt.size === "number" ? opt.size : Infinity; + this[_remain] = this[_size]; + this[_autoClose] = typeof opt.autoClose === "boolean" ? opt.autoClose : true; + if (typeof this[_fd] === "number") { + this[_read](); + } else { + this[_open](); } } - }; - webidl.argumentLengthCheck = function({ length }, min, ctx) { - if (length < min) { - throw webidl.errors.exception({ - message: `${min} argument${min !== 1 ? "s" : ""} required, but${length ? " only" : ""} ${length} found.`, - header: ctx - }); + get fd() { + return this[_fd]; } - }; - webidl.illegalConstructor = function() { - throw webidl.errors.exception({ - header: "TypeError", - message: "Illegal constructor" - }); - }; - webidl.util.Type = function(V) { - switch (typeof V) { - case "undefined": - return "Undefined"; - case "boolean": - return "Boolean"; - case "string": - return "String"; - case "symbol": - return "Symbol"; - case "number": - return "Number"; - case "bigint": - return "BigInt"; - case "function": - case "object": { - if (V === null) { - return "Null"; - } - return "Object"; - } + get path() { + return this[_path]; } - }; - webidl.util.markAsUncloneable = markAsUncloneable || (() => { - }); - webidl.util.ConvertToInt = function(V, bitLength, signedness, opts) { - let upperBound; - let lowerBound; - if (bitLength === 64) { - upperBound = Math.pow(2, 53) - 1; - if (signedness === "unsigned") { - lowerBound = 0; - } else { - lowerBound = Math.pow(-2, 53) + 1; - } - } else if (signedness === "unsigned") { - lowerBound = 0; - upperBound = Math.pow(2, bitLength) - 1; - } else { - lowerBound = Math.pow(-2, bitLength) - 1; - upperBound = Math.pow(2, bitLength - 1) - 1; - } - let x = Number(V); - if (x === 0) { - x = 0; - } - if (opts?.enforceRange === true) { - if (Number.isNaN(x) || x === Number.POSITIVE_INFINITY || x === Number.NEGATIVE_INFINITY) { - throw webidl.errors.exception({ - header: "Integer conversion", - message: `Could not convert ${webidl.util.Stringify(V)} to an integer.` - }); - } - x = webidl.util.IntegerPart(x); - if (x < lowerBound || x > upperBound) { - throw webidl.errors.exception({ - header: "Integer conversion", - message: `Value must be between ${lowerBound}-${upperBound}, got ${x}.` - }); - } - return x; + //@ts-ignore + write() { + throw new TypeError("this is a readable stream"); + } + //@ts-ignore + end() { + throw new TypeError("this is a readable stream"); + } + [_open]() { + import_fs2.default.open(this[_path], "r", (er, fd) => this[_onopen](er, fd)); } - if (!Number.isNaN(x) && opts?.clamp === true) { - x = Math.min(Math.max(x, lowerBound), upperBound); - if (Math.floor(x) % 2 === 0) { - x = Math.floor(x); + [_onopen](er, fd) { + if (er) { + this[_onerror](er); } else { - x = Math.ceil(x); + this[_fd] = fd; + this.emit("open", fd); + this[_read](); } - return x; } - if (Number.isNaN(x) || x === 0 && Object.is(0, x) || x === Number.POSITIVE_INFINITY || x === Number.NEGATIVE_INFINITY) { - return 0; + [_makeBuf]() { + return Buffer.allocUnsafe(Math.min(this[_readSize], this[_remain])); } - x = webidl.util.IntegerPart(x); - x = x % Math.pow(2, bitLength); - if (signedness === "signed" && x >= Math.pow(2, bitLength) - 1) { - return x - Math.pow(2, bitLength); + [_read]() { + if (!this[_reading]) { + this[_reading] = true; + const buf = this[_makeBuf](); + if (buf.length === 0) { + return process.nextTick(() => this[_onread](null, 0, buf)); + } + import_fs2.default.read(this[_fd], buf, 0, buf.length, null, (er, br, b) => this[_onread](er, br, b)); + } } - return x; - }; - webidl.util.IntegerPart = function(n) { - const r = Math.floor(Math.abs(n)); - if (n < 0) { - return -1 * r; + [_onread](er, br, buf) { + this[_reading] = false; + if (er) { + this[_onerror](er); + } else if (this[_handleChunk](br, buf)) { + this[_read](); + } } - return r; - }; - webidl.util.Stringify = function(V) { - const type = webidl.util.Type(V); - switch (type) { - case "Symbol": - return `Symbol(${V.description})`; - case "Object": - return inspect(V); - case "String": - return `"${V}"`; - default: - return `${V}`; + [_close]() { + if (this[_autoClose] && typeof this[_fd] === "number") { + const fd = this[_fd]; + this[_fd] = void 0; + import_fs2.default.close(fd, (er) => er ? this.emit("error", er) : this.emit("close")); + } } - }; - webidl.sequenceConverter = function(converter) { - return (V, prefix, argument, Iterable) => { - if (webidl.util.Type(V) !== "Object") { - throw webidl.errors.exception({ - header: prefix, - message: `${argument} (${webidl.util.Stringify(V)}) is not iterable.` - }); + [_onerror](er) { + this[_reading] = true; + this[_close](); + this.emit("error", er); + } + [_handleChunk](br, buf) { + let ret = false; + this[_remain] -= br; + if (br > 0) { + ret = super.write(br < buf.length ? buf.subarray(0, br) : buf); } - const method = typeof Iterable === "function" ? Iterable() : V?.[Symbol.iterator]?.(); - const seq = []; - let index = 0; - if (method === void 0 || typeof method.next !== "function") { - throw webidl.errors.exception({ - header: prefix, - message: `${argument} is not iterable.` - }); + if (br === 0 || this[_remain] <= 0) { + ret = false; + this[_close](); + super.end(); } - while (true) { - const { done, value } = method.next(); - if (done) { - break; - } - seq.push(converter(value, prefix, `${argument}[${index++}]`)); + return ret; + } + emit(ev, ...args) { + switch (ev) { + case "prefinish": + case "finish": + return false; + case "drain": + if (typeof this[_fd] === "number") { + this[_read](); + } + return false; + case "error": + if (this[_errored]) { + return false; + } + this[_errored] = true; + return super.emit(ev, ...args); + default: + return super.emit(ev, ...args); } - return seq; - }; + } }; - webidl.recordConverter = function(keyConverter, valueConverter) { - return (O, prefix, argument) => { - if (webidl.util.Type(O) !== "Object") { - throw webidl.errors.exception({ - header: prefix, - message: `${argument} ("${webidl.util.Type(O)}") is not an Object.` - }); - } - const result = {}; - if (!types.isProxy(O)) { - const keys2 = [...Object.getOwnPropertyNames(O), ...Object.getOwnPropertySymbols(O)]; - for (const key of keys2) { - const typedKey = keyConverter(key, prefix, argument); - const typedValue = valueConverter(O[key], prefix, argument); - result[typedKey] = typedValue; - } - return result; - } - const keys = Reflect.ownKeys(O); - for (const key of keys) { - const desc2 = Reflect.getOwnPropertyDescriptor(O, key); - if (desc2?.enumerable) { - const typedKey = keyConverter(key, prefix, argument); - const typedValue = valueConverter(O[key], prefix, argument); - result[typedKey] = typedValue; + ReadStreamSync = class extends ReadStream { + [_open]() { + let threw = true; + try { + this[_onopen](null, import_fs2.default.openSync(this[_path], "r")); + threw = false; + } finally { + if (threw) { + this[_close](); } } - return result; - }; - }; - webidl.interfaceConverter = function(i) { - return (V, prefix, argument, opts) => { - if (opts?.strict !== false && !(V instanceof i)) { - throw webidl.errors.exception({ - header: prefix, - message: `Expected ${argument} ("${webidl.util.Stringify(V)}") to be an instance of ${i.name}.` - }); - } - return V; - }; - }; - webidl.dictionaryConverter = function(converters) { - return (dictionary, prefix, argument) => { - const type = webidl.util.Type(dictionary); - const dict = {}; - if (type === "Null" || type === "Undefined") { - return dict; - } else if (type !== "Object") { - throw webidl.errors.exception({ - header: prefix, - message: `Expected ${dictionary} to be one of: Null, Undefined, Object.` - }); - } - for (const options of converters) { - const { key, defaultValue, required, converter } = options; - if (required === true) { - if (!Object.hasOwn(dictionary, key)) { - throw webidl.errors.exception({ - header: prefix, - message: `Missing required key "${key}".` - }); - } - } - let value = dictionary[key]; - const hasDefault = Object.hasOwn(options, "defaultValue"); - if (hasDefault && value !== null) { - value ??= defaultValue(); + } + [_read]() { + let threw = true; + try { + if (!this[_reading]) { + this[_reading] = true; + do { + const buf = this[_makeBuf](); + const br = buf.length === 0 ? 0 : import_fs2.default.readSync(this[_fd], buf, 0, buf.length, null); + if (!this[_handleChunk](br, buf)) { + break; + } + } while (true); + this[_reading] = false; } - if (required || hasDefault || value !== void 0) { - value = converter(value, prefix, `${argument}.${key}`); - if (options.allowedValues && !options.allowedValues.includes(value)) { - throw webidl.errors.exception({ - header: prefix, - message: `${value} is not an accepted type. Expected one of ${options.allowedValues.join(", ")}.` - }); - } - dict[key] = value; + threw = false; + } finally { + if (threw) { + this[_close](); } } - return dict; - }; - }; - webidl.nullableConverter = function(converter) { - return (V, prefix, argument) => { - if (V === null) { - return V; - } - return converter(V, prefix, argument); - }; - }; - webidl.converters.DOMString = function(V, prefix, argument, opts) { - if (V === null && opts?.legacyNullToEmptyString) { - return ""; - } - if (typeof V === "symbol") { - throw webidl.errors.exception({ - header: prefix, - message: `${argument} is a symbol, which cannot be converted to a DOMString.` - }); } - return String(V); - }; - webidl.converters.ByteString = function(V, prefix, argument) { - const x = webidl.converters.DOMString(V, prefix, argument); - for (let index = 0; index < x.length; index++) { - if (x.charCodeAt(index) > 255) { - throw new TypeError( - `Cannot convert argument to a ByteString because the character at index ${index} has a value of ${x.charCodeAt(index)} which is greater than 255.` - ); + [_close]() { + if (this[_autoClose] && typeof this[_fd] === "number") { + const fd = this[_fd]; + this[_fd] = void 0; + import_fs2.default.closeSync(fd); + this.emit("close"); } } - return x; - }; - webidl.converters.USVString = toUSVString; - webidl.converters.boolean = function(V) { - const x = Boolean(V); - return x; - }; - webidl.converters.any = function(V) { - return V; - }; - webidl.converters["long long"] = function(V, prefix, argument) { - const x = webidl.util.ConvertToInt(V, 64, "signed", void 0, prefix, argument); - return x; - }; - webidl.converters["unsigned long long"] = function(V, prefix, argument) { - const x = webidl.util.ConvertToInt(V, 64, "unsigned", void 0, prefix, argument); - return x; - }; - webidl.converters["unsigned long"] = function(V, prefix, argument) { - const x = webidl.util.ConvertToInt(V, 32, "unsigned", void 0, prefix, argument); - return x; - }; - webidl.converters["unsigned short"] = function(V, prefix, argument, opts) { - const x = webidl.util.ConvertToInt(V, 16, "unsigned", opts, prefix, argument); - return x; - }; - webidl.converters.ArrayBuffer = function(V, prefix, argument, opts) { - if (webidl.util.Type(V) !== "Object" || !types.isAnyArrayBuffer(V)) { - throw webidl.errors.conversionFailed({ - prefix, - argument: `${argument} ("${webidl.util.Stringify(V)}")`, - types: ["ArrayBuffer"] - }); - } - if (opts?.allowShared === false && types.isSharedArrayBuffer(V)) { - throw webidl.errors.exception({ - header: "ArrayBuffer", - message: "SharedArrayBuffer is not allowed." - }); - } - if (V.resizable || V.growable) { - throw webidl.errors.exception({ - header: "ArrayBuffer", - message: "Received a resizable ArrayBuffer." - }); - } - return V; - }; - webidl.converters.TypedArray = function(V, T, prefix, name2, opts) { - if (webidl.util.Type(V) !== "Object" || !types.isTypedArray(V) || V.constructor.name !== T.name) { - throw webidl.errors.conversionFailed({ - prefix, - argument: `${name2} ("${webidl.util.Stringify(V)}")`, - types: [T.name] - }); - } - if (opts?.allowShared === false && types.isSharedArrayBuffer(V.buffer)) { - throw webidl.errors.exception({ - header: "ArrayBuffer", - message: "SharedArrayBuffer is not allowed." - }); - } - if (V.buffer.resizable || V.buffer.growable) { - throw webidl.errors.exception({ - header: "ArrayBuffer", - message: "Received a resizable ArrayBuffer." - }); - } - return V; }; - webidl.converters.DataView = function(V, prefix, name2, opts) { - if (webidl.util.Type(V) !== "Object" || !types.isDataView(V)) { - throw webidl.errors.exception({ - header: prefix, - message: `${name2} is not a DataView.` - }); - } - if (opts?.allowShared === false && types.isSharedArrayBuffer(V.buffer)) { - throw webidl.errors.exception({ - header: "ArrayBuffer", - message: "SharedArrayBuffer is not allowed." - }); + WriteStream = class extends import_events2.default { + readable = false; + writable = true; + [_errored] = false; + [_writing] = false; + [_ended] = false; + [_queue] = []; + [_needDrain] = false; + [_path]; + [_mode]; + [_autoClose]; + [_fd]; + [_defaultFlag]; + [_flags]; + [_finished] = false; + [_pos]; + constructor(path16, opt) { + opt = opt || {}; + super(opt); + this[_path] = path16; + this[_fd] = typeof opt.fd === "number" ? opt.fd : void 0; + this[_mode] = opt.mode === void 0 ? 438 : opt.mode; + this[_pos] = typeof opt.start === "number" ? opt.start : void 0; + this[_autoClose] = typeof opt.autoClose === "boolean" ? opt.autoClose : true; + const defaultFlag = this[_pos] !== void 0 ? "r+" : "w"; + this[_defaultFlag] = opt.flags === void 0; + this[_flags] = opt.flags === void 0 ? defaultFlag : opt.flags; + if (this[_fd] === void 0) { + this[_open](); + } } - if (V.buffer.resizable || V.buffer.growable) { - throw webidl.errors.exception({ - header: "ArrayBuffer", - message: "Received a resizable ArrayBuffer." - }); + emit(ev, ...args) { + if (ev === "error") { + if (this[_errored]) { + return false; + } + this[_errored] = true; + } + return super.emit(ev, ...args); } - return V; - }; - webidl.converters.BufferSource = function(V, prefix, name2, opts) { - if (types.isAnyArrayBuffer(V)) { - return webidl.converters.ArrayBuffer(V, prefix, name2, { ...opts, allowShared: false }); + get fd() { + return this[_fd]; } - if (types.isTypedArray(V)) { - return webidl.converters.TypedArray(V, V.constructor, prefix, name2, { ...opts, allowShared: false }); + get path() { + return this[_path]; } - if (types.isDataView(V)) { - return webidl.converters.DataView(V, prefix, name2, { ...opts, allowShared: false }); + [_onerror](er) { + this[_close](); + this[_writing] = true; + this.emit("error", er); } - throw webidl.errors.conversionFailed({ - prefix, - argument: `${name2} ("${webidl.util.Stringify(V)}")`, - types: ["BufferSource"] - }); - }; - webidl.converters["sequence"] = webidl.sequenceConverter( - webidl.converters.ByteString - ); - webidl.converters["sequence>"] = webidl.sequenceConverter( - webidl.converters["sequence"] - ); - webidl.converters["record"] = webidl.recordConverter( - webidl.converters.ByteString, - webidl.converters.ByteString - ); - module2.exports = { - webidl - }; - } -}); - -// .yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/web/fetch/util.js -var require_util3 = __commonJS({ - ".yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/web/fetch/util.js"(exports2, module2) { - "use strict"; - var { Transform } = require("node:stream"); - var zlib = require("node:zlib"); - var { redirectStatusSet, referrerPolicySet: referrerPolicyTokens, badPortsSet } = require_constants4(); - var { getGlobalOrigin } = require_global(); - var { collectASequenceOfCodePoints, collectAnHTTPQuotedString, removeChars, parseMIMEType } = require_data_url(); - var { performance } = require("node:perf_hooks"); - var { isBlobLike, ReadableStreamFrom, isValidHTTPToken, normalizedMethodRecordsBase } = require_util(); - var assert5 = require("node:assert"); - var { isUint8Array } = require("node:util/types"); - var { webidl } = require_webidl(); - var supportedHashes = []; - var crypto; - try { - crypto = require("node:crypto"); - const possibleRelevantHashes = ["sha256", "sha384", "sha512"]; - supportedHashes = crypto.getHashes().filter((hash) => possibleRelevantHashes.includes(hash)); - } catch { - } - function responseURL(response) { - const urlList = response.urlList; - const length = urlList.length; - return length === 0 ? null : urlList[length - 1].toString(); - } - function responseLocationURL(response, requestFragment) { - if (!redirectStatusSet.has(response.status)) { - return null; + [_open]() { + import_fs2.default.open(this[_path], this[_flags], this[_mode], (er, fd) => this[_onopen](er, fd)); } - let location = response.headersList.get("location", true); - if (location !== null && isValidHeaderValue(location)) { - if (!isValidEncodedURL(location)) { - location = normalizeBinaryStringToUtf8(location); + [_onopen](er, fd) { + if (this[_defaultFlag] && this[_flags] === "r+" && er && er.code === "ENOENT") { + this[_flags] = "w"; + this[_open](); + } else if (er) { + this[_onerror](er); + } else { + this[_fd] = fd; + this.emit("open", fd); + if (!this[_writing]) { + this[_flush](); + } } - location = new URL(location, responseURL(response)); } - if (location && !location.hash) { - location.hash = requestFragment; + end(buf, enc) { + if (buf) { + this.write(buf, enc); + } + this[_ended] = true; + if (!this[_writing] && !this[_queue].length && typeof this[_fd] === "number") { + this[_onwrite](null, 0); + } + return this; } - return location; - } - function isValidEncodedURL(url) { - for (let i = 0; i < url.length; ++i) { - const code2 = url.charCodeAt(i); - if (code2 > 126 || // Non-US-ASCII + DEL - code2 < 32) { + write(buf, enc) { + if (typeof buf === "string") { + buf = Buffer.from(buf, enc); + } + if (this[_ended]) { + this.emit("error", new Error("write() after end()")); return false; } - } - return true; - } - function normalizeBinaryStringToUtf8(value) { - return Buffer.from(value, "binary").toString("utf8"); - } - function requestCurrentURL(request) { - return request.urlList[request.urlList.length - 1]; - } - function requestBadPort(request) { - const url = requestCurrentURL(request); - if (urlIsHttpHttpsScheme(url) && badPortsSet.has(url.port)) { - return "blocked"; - } - return "allowed"; - } - function isErrorLike(object) { - return object instanceof Error || (object?.constructor?.name === "Error" || object?.constructor?.name === "DOMException"); - } - function isValidReasonPhrase(statusText) { - for (let i = 0; i < statusText.length; ++i) { - const c = statusText.charCodeAt(i); - if (!(c === 9 || // HTAB - c >= 32 && c <= 126 || // SP / VCHAR - c >= 128 && c <= 255)) { + if (this[_fd] === void 0 || this[_writing] || this[_queue].length) { + this[_queue].push(buf); + this[_needDrain] = true; return false; } + this[_writing] = true; + this[_write](buf); + return true; } - return true; - } - var isValidHeaderName = isValidHTTPToken; - function isValidHeaderValue(potentialValue) { - return (potentialValue[0] === " " || potentialValue[0] === " " || potentialValue[potentialValue.length - 1] === " " || potentialValue[potentialValue.length - 1] === " " || potentialValue.includes("\n") || potentialValue.includes("\r") || potentialValue.includes("\0")) === false; - } - function setRequestReferrerPolicyOnRedirect(request, actualResponse) { - const { headersList } = actualResponse; - const policyHeader = (headersList.get("referrer-policy", true) ?? "").split(","); - let policy = ""; - if (policyHeader.length > 0) { - for (let i = policyHeader.length; i !== 0; i--) { - const token = policyHeader[i - 1].trim(); - if (referrerPolicyTokens.has(token)) { - policy = token; - break; - } - } - } - if (policy !== "") { - request.referrerPolicy = policy; - } - } - function crossOriginResourcePolicyCheck() { - return "allowed"; - } - function corsCheck() { - return "success"; - } - function TAOCheck() { - return "success"; - } - function appendFetchMetadata(httpRequest) { - let header = null; - header = httpRequest.mode; - httpRequest.headersList.set("sec-fetch-mode", header, true); - } - function appendRequestOriginHeader(request) { - let serializedOrigin = request.origin; - if (serializedOrigin === "client" || serializedOrigin === void 0) { - return; - } - if (request.responseTainting === "cors" || request.mode === "websocket") { - request.headersList.append("origin", serializedOrigin, true); - } else if (request.method !== "GET" && request.method !== "HEAD") { - switch (request.referrerPolicy) { - case "no-referrer": - serializedOrigin = null; - break; - case "no-referrer-when-downgrade": - case "strict-origin": - case "strict-origin-when-cross-origin": - if (request.origin && urlHasHttpsScheme(request.origin) && !urlHasHttpsScheme(requestCurrentURL(request))) { - serializedOrigin = null; - } - break; - case "same-origin": - if (!sameOrigin(request, requestCurrentURL(request))) { - serializedOrigin = null; - } - break; - default: - } - request.headersList.append("origin", serializedOrigin, true); - } - } - function coarsenTime(timestamp, crossOriginIsolatedCapability) { - return timestamp; - } - function clampAndCoarsenConnectionTimingInfo(connectionTimingInfo, defaultStartTime, crossOriginIsolatedCapability) { - if (!connectionTimingInfo?.startTime || connectionTimingInfo.startTime < defaultStartTime) { - return { - domainLookupStartTime: defaultStartTime, - domainLookupEndTime: defaultStartTime, - connectionStartTime: defaultStartTime, - connectionEndTime: defaultStartTime, - secureConnectionStartTime: defaultStartTime, - ALPNNegotiatedProtocol: connectionTimingInfo?.ALPNNegotiatedProtocol - }; + [_write](buf) { + import_fs2.default.write(this[_fd], buf, 0, buf.length, this[_pos], (er, bw) => this[_onwrite](er, bw)); } - return { - domainLookupStartTime: coarsenTime(connectionTimingInfo.domainLookupStartTime, crossOriginIsolatedCapability), - domainLookupEndTime: coarsenTime(connectionTimingInfo.domainLookupEndTime, crossOriginIsolatedCapability), - connectionStartTime: coarsenTime(connectionTimingInfo.connectionStartTime, crossOriginIsolatedCapability), - connectionEndTime: coarsenTime(connectionTimingInfo.connectionEndTime, crossOriginIsolatedCapability), - secureConnectionStartTime: coarsenTime(connectionTimingInfo.secureConnectionStartTime, crossOriginIsolatedCapability), - ALPNNegotiatedProtocol: connectionTimingInfo.ALPNNegotiatedProtocol - }; - } - function coarsenedSharedCurrentTime(crossOriginIsolatedCapability) { - return coarsenTime(performance.now(), crossOriginIsolatedCapability); - } - function createOpaqueTimingInfo(timingInfo) { - return { - startTime: timingInfo.startTime ?? 0, - redirectStartTime: 0, - redirectEndTime: 0, - postRedirectStartTime: timingInfo.startTime ?? 0, - finalServiceWorkerStartTime: 0, - finalNetworkResponseStartTime: 0, - finalNetworkRequestStartTime: 0, - endTime: 0, - encodedBodySize: 0, - decodedBodySize: 0, - finalConnectionTimingInfo: null - }; - } - function makePolicyContainer() { - return { - referrerPolicy: "strict-origin-when-cross-origin" - }; - } - function clonePolicyContainer(policyContainer) { - return { - referrerPolicy: policyContainer.referrerPolicy - }; - } - function determineRequestsReferrer(request) { - const policy = request.referrerPolicy; - assert5(policy); - let referrerSource = null; - if (request.referrer === "client") { - const globalOrigin = getGlobalOrigin(); - if (!globalOrigin || globalOrigin.origin === "null") { - return "no-referrer"; - } - referrerSource = new URL(globalOrigin); - } else if (request.referrer instanceof URL) { - referrerSource = request.referrer; - } - let referrerURL = stripURLForReferrer(referrerSource); - const referrerOrigin = stripURLForReferrer(referrerSource, true); - if (referrerURL.toString().length > 4096) { - referrerURL = referrerOrigin; - } - const areSameOrigin = sameOrigin(request, referrerURL); - const isNonPotentiallyTrustWorthy = isURLPotentiallyTrustworthy(referrerURL) && !isURLPotentiallyTrustworthy(request.url); - switch (policy) { - case "origin": - return referrerOrigin != null ? referrerOrigin : stripURLForReferrer(referrerSource, true); - case "unsafe-url": - return referrerURL; - case "same-origin": - return areSameOrigin ? referrerOrigin : "no-referrer"; - case "origin-when-cross-origin": - return areSameOrigin ? referrerURL : referrerOrigin; - case "strict-origin-when-cross-origin": { - const currentURL = requestCurrentURL(request); - if (sameOrigin(referrerURL, currentURL)) { - return referrerURL; + [_onwrite](er, bw) { + if (er) { + this[_onerror](er); + } else { + if (this[_pos] !== void 0 && typeof bw === "number") { + this[_pos] += bw; } - if (isURLPotentiallyTrustworthy(referrerURL) && !isURLPotentiallyTrustworthy(currentURL)) { - return "no-referrer"; + if (this[_queue].length) { + this[_flush](); + } else { + this[_writing] = false; + if (this[_ended] && !this[_finished]) { + this[_finished] = true; + this[_close](); + this.emit("finish"); + } else if (this[_needDrain]) { + this[_needDrain] = false; + this.emit("drain"); + } } - return referrerOrigin; - } - case "strict-origin": - // eslint-disable-line - /** - * 1. If referrerURL is a potentially trustworthy URL and - * request’s current URL is not a potentially trustworthy URL, - * then return no referrer. - * 2. Return referrerOrigin - */ - case "no-referrer-when-downgrade": - // eslint-disable-line - /** - * 1. If referrerURL is a potentially trustworthy URL and - * request’s current URL is not a potentially trustworthy URL, - * then return no referrer. - * 2. Return referrerOrigin - */ - default: - return isNonPotentiallyTrustWorthy ? "no-referrer" : referrerOrigin; - } - } - function stripURLForReferrer(url, originOnly) { - assert5(url instanceof URL); - url = new URL(url); - if (url.protocol === "file:" || url.protocol === "about:" || url.protocol === "blank:") { - return "no-referrer"; - } - url.username = ""; - url.password = ""; - url.hash = ""; - if (originOnly) { - url.pathname = ""; - url.search = ""; - } - return url; - } - function isURLPotentiallyTrustworthy(url) { - if (!(url instanceof URL)) { - return false; - } - if (url.href === "about:blank" || url.href === "about:srcdoc") { - return true; - } - if (url.protocol === "data:") return true; - if (url.protocol === "file:") return true; - return isOriginPotentiallyTrustworthy(url.origin); - function isOriginPotentiallyTrustworthy(origin) { - if (origin == null || origin === "null") return false; - const originAsURL = new URL(origin); - if (originAsURL.protocol === "https:" || originAsURL.protocol === "wss:") { - return true; } - if (/^127(?:\.[0-9]+){0,2}\.[0-9]+$|^\[(?:0*:)*?:?0*1\]$/.test(originAsURL.hostname) || (originAsURL.hostname === "localhost" || originAsURL.hostname.includes("localhost.")) || originAsURL.hostname.endsWith(".localhost")) { - return true; - } - return false; - } - } - function bytesMatch(bytes, metadataList) { - if (crypto === void 0) { - return true; - } - const parsedMetadata = parseMetadata(metadataList); - if (parsedMetadata === "no metadata") { - return true; } - if (parsedMetadata.length === 0) { - return true; - } - const strongest = getStrongestMetadata(parsedMetadata); - const metadata = filterMetadataListByAlgorithm(parsedMetadata, strongest); - for (const item of metadata) { - const algorithm = item.algo; - const expectedValue = item.hash; - let actualValue = crypto.createHash(algorithm).update(bytes).digest("base64"); - if (actualValue[actualValue.length - 1] === "=") { - if (actualValue[actualValue.length - 2] === "=") { - actualValue = actualValue.slice(0, -2); - } else { - actualValue = actualValue.slice(0, -1); + [_flush]() { + if (this[_queue].length === 0) { + if (this[_ended]) { + this[_onwrite](null, 0); } - } - if (compareBase64Mixed(actualValue, expectedValue)) { - return true; + } else if (this[_queue].length === 1) { + this[_write](this[_queue].pop()); + } else { + const iovec = this[_queue]; + this[_queue] = []; + writev(this[_fd], iovec, this[_pos], (er, bw) => this[_onwrite](er, bw)); } } - return false; - } - var parseHashWithOptions = /(?sha256|sha384|sha512)-((?[A-Za-z0-9+/]+|[A-Za-z0-9_-]+)={0,2}(?:\s|$)( +[!-~]*)?)?/i; - function parseMetadata(metadata) { - const result = []; - let empty = true; - for (const token of metadata.split(" ")) { - empty = false; - const parsedToken = parseHashWithOptions.exec(token); - if (parsedToken === null || parsedToken.groups === void 0 || parsedToken.groups.algo === void 0) { - continue; - } - const algorithm = parsedToken.groups.algo.toLowerCase(); - if (supportedHashes.includes(algorithm)) { - result.push(parsedToken.groups); + [_close]() { + if (this[_autoClose] && typeof this[_fd] === "number") { + const fd = this[_fd]; + this[_fd] = void 0; + import_fs2.default.close(fd, (er) => er ? this.emit("error", er) : this.emit("close")); } } - if (empty === true) { - return "no metadata"; - } - return result; - } - function getStrongestMetadata(metadataList) { - let algorithm = metadataList[0].algo; - if (algorithm[3] === "5") { - return algorithm; - } - for (let i = 1; i < metadataList.length; ++i) { - const metadata = metadataList[i]; - if (metadata.algo[3] === "5") { - algorithm = "sha512"; - break; - } else if (algorithm[3] === "3") { - continue; - } else if (metadata.algo[3] === "3") { - algorithm = "sha384"; + }; + WriteStreamSync = class extends WriteStream { + [_open]() { + let fd; + if (this[_defaultFlag] && this[_flags] === "r+") { + try { + fd = import_fs2.default.openSync(this[_path], this[_flags], this[_mode]); + } catch (er) { + if (er?.code === "ENOENT") { + this[_flags] = "w"; + return this[_open](); + } else { + throw er; + } + } + } else { + fd = import_fs2.default.openSync(this[_path], this[_flags], this[_mode]); } + this[_onopen](null, fd); } - return algorithm; - } - function filterMetadataListByAlgorithm(metadataList, algorithm) { - if (metadataList.length === 1) { - return metadataList; - } - let pos2 = 0; - for (let i = 0; i < metadataList.length; ++i) { - if (metadataList[i].algo === algorithm) { - metadataList[pos2++] = metadataList[i]; + [_close]() { + if (this[_autoClose] && typeof this[_fd] === "number") { + const fd = this[_fd]; + this[_fd] = void 0; + import_fs2.default.closeSync(fd); + this.emit("close"); } } - metadataList.length = pos2; - return metadataList; - } - function compareBase64Mixed(actualValue, expectedValue) { - if (actualValue.length !== expectedValue.length) { - return false; - } - for (let i = 0; i < actualValue.length; ++i) { - if (actualValue[i] !== expectedValue[i]) { - if (actualValue[i] === "+" && expectedValue[i] === "-" || actualValue[i] === "/" && expectedValue[i] === "_") { - continue; + [_write](buf) { + let threw = true; + try { + this[_onwrite](null, import_fs2.default.writeSync(this[_fd], buf, 0, buf.length, this[_pos])); + threw = false; + } finally { + if (threw) { + try { + this[_close](); + } catch { + } } - return false; } } - return true; - } - function tryUpgradeRequestToAPotentiallyTrustworthyURL(request) { - } - function sameOrigin(A, B) { - if (A.origin === B.origin && A.origin === "null") { - return true; - } - if (A.protocol === B.protocol && A.hostname === B.hostname && A.port === B.port) { - return true; + }; + } +}); + +// node_modules/tar/dist/esm/options.js +var argmap, isSyncFile, isAsyncFile, isSyncNoFile, isAsyncNoFile, dealiasKey, dealias; +var init_options = __esm({ + "node_modules/tar/dist/esm/options.js"() { + argmap = /* @__PURE__ */ new Map([ + ["C", "cwd"], + ["f", "file"], + ["z", "gzip"], + ["P", "preservePaths"], + ["U", "unlink"], + ["strip-components", "strip"], + ["stripComponents", "strip"], + ["keep-newer", "newer"], + ["keepNewer", "newer"], + ["keep-newer-files", "newer"], + ["keepNewerFiles", "newer"], + ["k", "keep"], + ["keep-existing", "keep"], + ["keepExisting", "keep"], + ["m", "noMtime"], + ["no-mtime", "noMtime"], + ["p", "preserveOwner"], + ["L", "follow"], + ["h", "follow"], + ["onentry", "onReadEntry"] + ]); + isSyncFile = (o) => !!o.sync && !!o.file; + isAsyncFile = (o) => !o.sync && !!o.file; + isSyncNoFile = (o) => !!o.sync && !o.file; + isAsyncNoFile = (o) => !o.sync && !o.file; + dealiasKey = (k) => { + const d = argmap.get(k); + if (d) + return d; + return k; + }; + dealias = (opt = {}) => { + if (!opt) + return {}; + const result = {}; + for (const [key, v] of Object.entries(opt)) { + const k = dealiasKey(key); + result[k] = v; } - return false; - } - function createDeferredPromise() { - let res; - let rej; - const promise = new Promise((resolve, reject) => { - res = resolve; - rej = reject; - }); - return { promise, resolve: res, reject: rej }; - } - function isAborted(fetchParams) { - return fetchParams.controller.state === "aborted"; - } - function isCancelled(fetchParams) { - return fetchParams.controller.state === "aborted" || fetchParams.controller.state === "terminated"; - } - function normalizeMethod(method) { - return normalizedMethodRecordsBase[method.toLowerCase()] ?? method; - } - function serializeJavascriptValueToJSONString(value) { - const result = JSON.stringify(value); - if (result === void 0) { - throw new TypeError("Value is not JSON serializable"); + if (result.chmod === void 0 && result.noChmod === false) { + result.chmod = true; } - assert5(typeof result === "string"); + delete result.noChmod; return result; - } - var esIteratorPrototype = Object.getPrototypeOf(Object.getPrototypeOf([][Symbol.iterator]())); - function createIterator(name2, kInternalIterator, keyIndex = 0, valueIndex = 1) { - class FastIterableIterator { - /** @type {any} */ - #target; - /** @type {'key' | 'value' | 'key+value'} */ - #kind; - /** @type {number} */ - #index; - /** - * @see https://webidl.spec.whatwg.org/#dfn-default-iterator-object - * @param {unknown} target - * @param {'key' | 'value' | 'key+value'} kind - */ - constructor(target, kind) { - this.#target = target; - this.#kind = kind; - this.#index = 0; - } - next() { - if (typeof this !== "object" || this === null || !(#target in this)) { - throw new TypeError( - `'next' called on an object that does not implement interface ${name2} Iterator.` - ); + }; + } +}); + +// node_modules/tar/dist/esm/make-command.js +var makeCommand; +var init_make_command = __esm({ + "node_modules/tar/dist/esm/make-command.js"() { + init_options(); + makeCommand = (syncFile, asyncFile, syncNoFile, asyncNoFile, validate) => { + return Object.assign((opt_ = [], entries, cb) => { + if (Array.isArray(opt_)) { + entries = opt_; + opt_ = {}; + } + if (typeof entries === "function") { + cb = entries; + entries = void 0; + } + entries = !entries ? [] : Array.from(entries); + const opt = dealias(opt_); + validate?.(opt, entries); + if (isSyncFile(opt)) { + if (typeof cb === "function") { + throw new TypeError("callback not supported for sync tar functions"); } - const index = this.#index; - const values = this.#target[kInternalIterator]; - const len = values.length; - if (index >= len) { - return { - value: void 0, - done: true - }; + return syncFile(opt, entries); + } else if (isAsyncFile(opt)) { + const p = asyncFile(opt, entries); + return cb ? p.then(() => cb(), cb) : p; + } else if (isSyncNoFile(opt)) { + if (typeof cb === "function") { + throw new TypeError("callback not supported for sync tar functions"); } - const { [keyIndex]: key, [valueIndex]: value } = values[index]; - this.#index = index + 1; - let result; - switch (this.#kind) { - case "key": - result = key; - break; - case "value": - result = value; - break; - case "key+value": - result = [key, value]; - break; + return syncNoFile(opt, entries); + } else if (isAsyncNoFile(opt)) { + if (typeof cb === "function") { + throw new TypeError("callback only supported with file option"); } - return { - value: result, - done: false - }; + return asyncNoFile(opt, entries); } - } - delete FastIterableIterator.prototype.constructor; - Object.setPrototypeOf(FastIterableIterator.prototype, esIteratorPrototype); - Object.defineProperties(FastIterableIterator.prototype, { - [Symbol.toStringTag]: { - writable: false, - enumerable: false, - configurable: true, - value: `${name2} Iterator` - }, - next: { writable: true, enumerable: true, configurable: true } + throw new Error("impossible options??"); + }, { + syncFile, + asyncFile, + syncNoFile, + asyncNoFile, + validate }); - return function(target, kind) { - return new FastIterableIterator(target, kind); - }; - } - function iteratorMixin(name2, object, kInternalIterator, keyIndex = 0, valueIndex = 1) { - const makeIterator = createIterator(name2, kInternalIterator, keyIndex, valueIndex); - const properties = { - keys: { - writable: true, - enumerable: true, - configurable: true, - value: function keys() { - webidl.brandCheck(this, object); - return makeIterator(this, "key"); - } - }, - values: { - writable: true, - enumerable: true, - configurable: true, - value: function values() { - webidl.brandCheck(this, object); - return makeIterator(this, "value"); - } - }, - entries: { - writable: true, - enumerable: true, - configurable: true, - value: function entries() { - webidl.brandCheck(this, object); - return makeIterator(this, "key+value"); - } - }, - forEach: { - writable: true, - enumerable: true, - configurable: true, - value: function forEach(callbackfn, thisArg = globalThis) { - webidl.brandCheck(this, object); - webidl.argumentLengthCheck(arguments, 1, `${name2}.forEach`); - if (typeof callbackfn !== "function") { - throw new TypeError( - `Failed to execute 'forEach' on '${name2}': parameter 1 is not of type 'Function'.` - ); - } - for (const { 0: key, 1: value } of makeIterator(this, "key+value")) { - callbackfn.call(thisArg, value, key, this); - } - } - } - }; - return Object.defineProperties(object.prototype, { - ...properties, - [Symbol.iterator]: { - writable: true, - enumerable: false, - configurable: true, - value: properties.entries.value - } - }); - } - async function fullyReadBody(body, processBody, processBodyError) { - const successSteps = processBody; - const errorSteps = processBodyError; - let reader; - try { - reader = body.stream.getReader(); - } catch (e) { - errorSteps(e); - return; - } - try { - successSteps(await readAllBytes(reader)); - } catch (e) { - errorSteps(e); - } - } - function isReadableStreamLike(stream) { - return stream instanceof ReadableStream || stream[Symbol.toStringTag] === "ReadableStream" && typeof stream.tee === "function"; - } - function readableStreamClose(controller) { - try { - controller.close(); - controller.byobRequest?.respond(0); - } catch (err) { - if (!err.message.includes("Controller is already closed") && !err.message.includes("ReadableStream is already closed")) { - throw err; - } - } - } - var invalidIsomorphicEncodeValueRegex = /[^\x00-\xFF]/; - function isomorphicEncode(input) { - assert5(!invalidIsomorphicEncodeValueRegex.test(input)); - return input; - } - async function readAllBytes(reader) { - const bytes = []; - let byteLength = 0; - while (true) { - const { done, value: chunk } = await reader.read(); - if (done) { - return Buffer.concat(bytes, byteLength); - } - if (!isUint8Array(chunk)) { - throw new TypeError("Received non-Uint8Array chunk"); - } - bytes.push(chunk); - byteLength += chunk.length; - } - } - function urlIsLocal(url) { - assert5("protocol" in url); - const protocol = url.protocol; - return protocol === "about:" || protocol === "blob:" || protocol === "data:"; - } - function urlHasHttpsScheme(url) { - return typeof url === "string" && url[5] === ":" && url[0] === "h" && url[1] === "t" && url[2] === "t" && url[3] === "p" && url[4] === "s" || url.protocol === "https:"; - } - function urlIsHttpHttpsScheme(url) { - assert5("protocol" in url); - const protocol = url.protocol; - return protocol === "http:" || protocol === "https:"; - } - function simpleRangeHeaderValue(value, allowWhitespace) { - const data = value; - if (!data.startsWith("bytes")) { - return "failure"; - } - const position = { position: 5 }; - if (allowWhitespace) { - collectASequenceOfCodePoints( - (char) => char === " " || char === " ", - data, - position - ); - } - if (data.charCodeAt(position.position) !== 61) { - return "failure"; - } - position.position++; - if (allowWhitespace) { - collectASequenceOfCodePoints( - (char) => char === " " || char === " ", - data, - position - ); - } - const rangeStart = collectASequenceOfCodePoints( - (char) => { - const code2 = char.charCodeAt(0); - return code2 >= 48 && code2 <= 57; - }, - data, - position - ); - const rangeStartValue = rangeStart.length ? Number(rangeStart) : null; - if (allowWhitespace) { - collectASequenceOfCodePoints( - (char) => char === " " || char === " ", - data, - position - ); - } - if (data.charCodeAt(position.position) !== 45) { - return "failure"; - } - position.position++; - if (allowWhitespace) { - collectASequenceOfCodePoints( - (char) => char === " " || char === " ", - data, - position - ); - } - const rangeEnd = collectASequenceOfCodePoints( - (char) => { - const code2 = char.charCodeAt(0); - return code2 >= 48 && code2 <= 57; - }, - data, - position - ); - const rangeEndValue = rangeEnd.length ? Number(rangeEnd) : null; - if (position.position < data.length) { - return "failure"; - } - if (rangeEndValue === null && rangeStartValue === null) { - return "failure"; - } - if (rangeStartValue > rangeEndValue) { - return "failure"; - } - return { rangeStartValue, rangeEndValue }; - } - function buildContentRange(rangeStart, rangeEnd, fullLength) { - let contentRange = "bytes "; - contentRange += isomorphicEncode(`${rangeStart}`); - contentRange += "-"; - contentRange += isomorphicEncode(`${rangeEnd}`); - contentRange += "/"; - contentRange += isomorphicEncode(`${fullLength}`); - return contentRange; - } - var InflateStream = class extends Transform { - #zlibOptions; - /** @param {zlib.ZlibOptions} [zlibOptions] */ - constructor(zlibOptions) { - super(); - this.#zlibOptions = zlibOptions; - } - _transform(chunk, encoding, callback) { - if (!this._inflateStream) { - if (chunk.length === 0) { - callback(); - return; - } - this._inflateStream = (chunk[0] & 15) === 8 ? zlib.createInflate(this.#zlibOptions) : zlib.createInflateRaw(this.#zlibOptions); - this._inflateStream.on("data", this.push.bind(this)); - this._inflateStream.on("end", () => this.push(null)); - this._inflateStream.on("error", (err) => this.destroy(err)); - } - this._inflateStream.write(chunk, encoding, callback); - } - _final(callback) { - if (this._inflateStream) { - this._inflateStream.end(); - this._inflateStream = null; - } - callback(); - } - }; - function createInflate(zlibOptions) { - return new InflateStream(zlibOptions); - } - function extractMimeType(headers) { - let charset = null; - let essence = null; - let mimeType = null; - const values = getDecodeSplit("content-type", headers); - if (values === null) { - return "failure"; - } - for (const value of values) { - const temporaryMimeType = parseMIMEType(value); - if (temporaryMimeType === "failure" || temporaryMimeType.essence === "*/*") { - continue; - } - mimeType = temporaryMimeType; - if (mimeType.essence !== essence) { - charset = null; - if (mimeType.parameters.has("charset")) { - charset = mimeType.parameters.get("charset"); - } - essence = mimeType.essence; - } else if (!mimeType.parameters.has("charset") && charset !== null) { - mimeType.parameters.set("charset", charset); - } - } - if (mimeType == null) { - return "failure"; - } - return mimeType; - } - function gettingDecodingSplitting(value) { - const input = value; - const position = { position: 0 }; - const values = []; - let temporaryValue = ""; - while (position.position < input.length) { - temporaryValue += collectASequenceOfCodePoints( - (char) => char !== '"' && char !== ",", - input, - position - ); - if (position.position < input.length) { - if (input.charCodeAt(position.position) === 34) { - temporaryValue += collectAnHTTPQuotedString( - input, - position - ); - if (position.position < input.length) { - continue; - } - } else { - assert5(input.charCodeAt(position.position) === 44); - position.position++; - } - } - temporaryValue = removeChars(temporaryValue, true, true, (char) => char === 9 || char === 32); - values.push(temporaryValue); - temporaryValue = ""; - } - return values; - } - function getDecodeSplit(name2, list2) { - const value = list2.get(name2, true); - if (value === null) { - return null; - } - return gettingDecodingSplitting(value); - } - var textDecoder = new TextDecoder(); - function utf8DecodeBytes(buffer) { - if (buffer.length === 0) { - return ""; - } - if (buffer[0] === 239 && buffer[1] === 187 && buffer[2] === 191) { - buffer = buffer.subarray(3); - } - const output = textDecoder.decode(buffer); - return output; - } - var EnvironmentSettingsObjectBase = class { - get baseUrl() { - return getGlobalOrigin(); - } - get origin() { - return this.baseUrl?.origin; - } - policyContainer = makePolicyContainer(); - }; - var EnvironmentSettingsObject = class { - settingsObject = new EnvironmentSettingsObjectBase(); - }; - var environmentSettingsObject = new EnvironmentSettingsObject(); - module2.exports = { - isAborted, - isCancelled, - isValidEncodedURL, - createDeferredPromise, - ReadableStreamFrom, - tryUpgradeRequestToAPotentiallyTrustworthyURL, - clampAndCoarsenConnectionTimingInfo, - coarsenedSharedCurrentTime, - determineRequestsReferrer, - makePolicyContainer, - clonePolicyContainer, - appendFetchMetadata, - appendRequestOriginHeader, - TAOCheck, - corsCheck, - crossOriginResourcePolicyCheck, - createOpaqueTimingInfo, - setRequestReferrerPolicyOnRedirect, - isValidHTTPToken, - requestBadPort, - requestCurrentURL, - responseURL, - responseLocationURL, - isBlobLike, - isURLPotentiallyTrustworthy, - isValidReasonPhrase, - sameOrigin, - normalizeMethod, - serializeJavascriptValueToJSONString, - iteratorMixin, - createIterator, - isValidHeaderName, - isValidHeaderValue, - isErrorLike, - fullyReadBody, - bytesMatch, - isReadableStreamLike, - readableStreamClose, - isomorphicEncode, - urlIsLocal, - urlHasHttpsScheme, - urlIsHttpHttpsScheme, - readAllBytes, - simpleRangeHeaderValue, - buildContentRange, - parseMetadata, - createInflate, - extractMimeType, - getDecodeSplit, - utf8DecodeBytes, - environmentSettingsObject }; } }); -// .yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/web/fetch/symbols.js -var require_symbols2 = __commonJS({ - ".yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/web/fetch/symbols.js"(exports2, module2) { - "use strict"; - module2.exports = { - kUrl: Symbol("url"), - kHeaders: Symbol("headers"), - kSignal: Symbol("signal"), - kState: Symbol("state"), - kDispatcher: Symbol("dispatcher") - }; +// node_modules/minizlib/dist/esm/constants.js +var import_zlib, realZlibConstants, constants; +var init_constants = __esm({ + "node_modules/minizlib/dist/esm/constants.js"() { + import_zlib = __toESM(require("zlib"), 1); + realZlibConstants = import_zlib.default.constants || { ZLIB_VERNUM: 4736 }; + constants = Object.freeze(Object.assign(/* @__PURE__ */ Object.create(null), { + Z_NO_FLUSH: 0, + Z_PARTIAL_FLUSH: 1, + Z_SYNC_FLUSH: 2, + Z_FULL_FLUSH: 3, + Z_FINISH: 4, + Z_BLOCK: 5, + Z_OK: 0, + Z_STREAM_END: 1, + Z_NEED_DICT: 2, + Z_ERRNO: -1, + Z_STREAM_ERROR: -2, + Z_DATA_ERROR: -3, + Z_MEM_ERROR: -4, + Z_BUF_ERROR: -5, + Z_VERSION_ERROR: -6, + Z_NO_COMPRESSION: 0, + Z_BEST_SPEED: 1, + Z_BEST_COMPRESSION: 9, + Z_DEFAULT_COMPRESSION: -1, + Z_FILTERED: 1, + Z_HUFFMAN_ONLY: 2, + Z_RLE: 3, + Z_FIXED: 4, + Z_DEFAULT_STRATEGY: 0, + DEFLATE: 1, + INFLATE: 2, + GZIP: 3, + GUNZIP: 4, + DEFLATERAW: 5, + INFLATERAW: 6, + UNZIP: 7, + BROTLI_DECODE: 8, + BROTLI_ENCODE: 9, + Z_MIN_WINDOWBITS: 8, + Z_MAX_WINDOWBITS: 15, + Z_DEFAULT_WINDOWBITS: 15, + Z_MIN_CHUNK: 64, + Z_MAX_CHUNK: Infinity, + Z_DEFAULT_CHUNK: 16384, + Z_MIN_MEMLEVEL: 1, + Z_MAX_MEMLEVEL: 9, + Z_DEFAULT_MEMLEVEL: 8, + Z_MIN_LEVEL: -1, + Z_MAX_LEVEL: 9, + Z_DEFAULT_LEVEL: -1, + BROTLI_OPERATION_PROCESS: 0, + BROTLI_OPERATION_FLUSH: 1, + BROTLI_OPERATION_FINISH: 2, + BROTLI_OPERATION_EMIT_METADATA: 3, + BROTLI_MODE_GENERIC: 0, + BROTLI_MODE_TEXT: 1, + BROTLI_MODE_FONT: 2, + BROTLI_DEFAULT_MODE: 0, + BROTLI_MIN_QUALITY: 0, + BROTLI_MAX_QUALITY: 11, + BROTLI_DEFAULT_QUALITY: 11, + BROTLI_MIN_WINDOW_BITS: 10, + BROTLI_MAX_WINDOW_BITS: 24, + BROTLI_LARGE_MAX_WINDOW_BITS: 30, + BROTLI_DEFAULT_WINDOW: 22, + BROTLI_MIN_INPUT_BLOCK_BITS: 16, + BROTLI_MAX_INPUT_BLOCK_BITS: 24, + BROTLI_PARAM_MODE: 0, + BROTLI_PARAM_QUALITY: 1, + BROTLI_PARAM_LGWIN: 2, + BROTLI_PARAM_LGBLOCK: 3, + BROTLI_PARAM_DISABLE_LITERAL_CONTEXT_MODELING: 4, + BROTLI_PARAM_SIZE_HINT: 5, + BROTLI_PARAM_LARGE_WINDOW: 6, + BROTLI_PARAM_NPOSTFIX: 7, + BROTLI_PARAM_NDIRECT: 8, + BROTLI_DECODER_RESULT_ERROR: 0, + BROTLI_DECODER_RESULT_SUCCESS: 1, + BROTLI_DECODER_RESULT_NEEDS_MORE_INPUT: 2, + BROTLI_DECODER_RESULT_NEEDS_MORE_OUTPUT: 3, + BROTLI_DECODER_PARAM_DISABLE_RING_BUFFER_REALLOCATION: 0, + BROTLI_DECODER_PARAM_LARGE_WINDOW: 1, + BROTLI_DECODER_NO_ERROR: 0, + BROTLI_DECODER_SUCCESS: 1, + BROTLI_DECODER_NEEDS_MORE_INPUT: 2, + BROTLI_DECODER_NEEDS_MORE_OUTPUT: 3, + BROTLI_DECODER_ERROR_FORMAT_EXUBERANT_NIBBLE: -1, + BROTLI_DECODER_ERROR_FORMAT_RESERVED: -2, + BROTLI_DECODER_ERROR_FORMAT_EXUBERANT_META_NIBBLE: -3, + BROTLI_DECODER_ERROR_FORMAT_SIMPLE_HUFFMAN_ALPHABET: -4, + BROTLI_DECODER_ERROR_FORMAT_SIMPLE_HUFFMAN_SAME: -5, + BROTLI_DECODER_ERROR_FORMAT_CL_SPACE: -6, + BROTLI_DECODER_ERROR_FORMAT_HUFFMAN_SPACE: -7, + BROTLI_DECODER_ERROR_FORMAT_CONTEXT_MAP_REPEAT: -8, + BROTLI_DECODER_ERROR_FORMAT_BLOCK_LENGTH_1: -9, + BROTLI_DECODER_ERROR_FORMAT_BLOCK_LENGTH_2: -10, + BROTLI_DECODER_ERROR_FORMAT_TRANSFORM: -11, + BROTLI_DECODER_ERROR_FORMAT_DICTIONARY: -12, + BROTLI_DECODER_ERROR_FORMAT_WINDOW_BITS: -13, + BROTLI_DECODER_ERROR_FORMAT_PADDING_1: -14, + BROTLI_DECODER_ERROR_FORMAT_PADDING_2: -15, + BROTLI_DECODER_ERROR_FORMAT_DISTANCE: -16, + BROTLI_DECODER_ERROR_DICTIONARY_NOT_SET: -19, + BROTLI_DECODER_ERROR_INVALID_ARGUMENTS: -20, + BROTLI_DECODER_ERROR_ALLOC_CONTEXT_MODES: -21, + BROTLI_DECODER_ERROR_ALLOC_TREE_GROUPS: -22, + BROTLI_DECODER_ERROR_ALLOC_CONTEXT_MAP: -25, + BROTLI_DECODER_ERROR_ALLOC_RING_BUFFER_1: -26, + BROTLI_DECODER_ERROR_ALLOC_RING_BUFFER_2: -27, + BROTLI_DECODER_ERROR_ALLOC_BLOCK_TYPE_TREES: -30, + BROTLI_DECODER_ERROR_UNREACHABLE: -31 + }, realZlibConstants)); } }); -// .yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/web/fetch/file.js -var require_file = __commonJS({ - ".yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/web/fetch/file.js"(exports2, module2) { - "use strict"; - var { Blob: Blob2, File } = require("node:buffer"); - var { kState } = require_symbols2(); - var { webidl } = require_webidl(); - var FileLike = class _FileLike { - constructor(blobLike, fileName, options = {}) { - const n = fileName; - const t = options.type; - const d = options.lastModified ?? Date.now(); - this[kState] = { - blobLike, - name: n, - type: t, - lastModified: d - }; +// node_modules/minizlib/dist/esm/index.js +var import_assert2, import_buffer, realZlib2, OriginalBufferConcat, desc, noop, passthroughBufferConcat, _superWrite, ZlibError, _flushFlag, ZlibBase, Zlib, Gzip, Unzip, Brotli, BrotliCompress, BrotliDecompress, Zstd, ZstdCompress, ZstdDecompress; +var init_esm3 = __esm({ + "node_modules/minizlib/dist/esm/index.js"() { + import_assert2 = __toESM(require("assert"), 1); + import_buffer = require("buffer"); + init_esm(); + realZlib2 = __toESM(require("zlib"), 1); + init_constants(); + init_constants(); + OriginalBufferConcat = import_buffer.Buffer.concat; + desc = Object.getOwnPropertyDescriptor(import_buffer.Buffer, "concat"); + noop = (args) => args; + passthroughBufferConcat = desc?.writable === true || desc?.set !== void 0 ? (makeNoOp) => { + import_buffer.Buffer.concat = makeNoOp ? noop : OriginalBufferConcat; + } : (_) => { + }; + _superWrite = /* @__PURE__ */ Symbol("_superWrite"); + ZlibError = class extends Error { + code; + errno; + constructor(err, origin) { + super("zlib: " + err.message, { cause: err }); + this.code = err.code; + this.errno = err.errno; + if (!this.code) + this.code = "ZLIB_ERROR"; + this.message = "zlib: " + err.message; + Error.captureStackTrace(this, origin ?? this.constructor); } - stream(...args) { - webidl.brandCheck(this, _FileLike); - return this[kState].blobLike.stream(...args); + get name() { + return "ZlibError"; } - arrayBuffer(...args) { - webidl.brandCheck(this, _FileLike); - return this[kState].blobLike.arrayBuffer(...args); + }; + _flushFlag = /* @__PURE__ */ Symbol("flushFlag"); + ZlibBase = class extends Minipass { + #sawError = false; + #ended = false; + #flushFlag; + #finishFlushFlag; + #fullFlushFlag; + #handle; + #onError; + get sawError() { + return this.#sawError; } - slice(...args) { - webidl.brandCheck(this, _FileLike); - return this[kState].blobLike.slice(...args); + get handle() { + return this.#handle; } - text(...args) { - webidl.brandCheck(this, _FileLike); - return this[kState].blobLike.text(...args); + /* c8 ignore start */ + get flushFlag() { + return this.#flushFlag; } - get size() { - webidl.brandCheck(this, _FileLike); - return this[kState].blobLike.size; - } - get type() { - webidl.brandCheck(this, _FileLike); - return this[kState].blobLike.type; - } - get name() { - webidl.brandCheck(this, _FileLike); - return this[kState].name; - } - get lastModified() { - webidl.brandCheck(this, _FileLike); - return this[kState].lastModified; - } - get [Symbol.toStringTag]() { - return "File"; - } - }; - webidl.converters.Blob = webidl.interfaceConverter(Blob2); - function isFileLike(object) { - return object instanceof File || object && (typeof object.stream === "function" || typeof object.arrayBuffer === "function") && object[Symbol.toStringTag] === "File"; - } - module2.exports = { FileLike, isFileLike }; - } -}); - -// .yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/web/fetch/formdata.js -var require_formdata = __commonJS({ - ".yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/web/fetch/formdata.js"(exports2, module2) { - "use strict"; - var { isBlobLike, iteratorMixin } = require_util3(); - var { kState } = require_symbols2(); - var { kEnumerableProperty } = require_util(); - var { FileLike, isFileLike } = require_file(); - var { webidl } = require_webidl(); - var { File: NativeFile } = require("node:buffer"); - var nodeUtil = require("node:util"); - var File = globalThis.File ?? NativeFile; - var FormData = class _FormData { - constructor(form) { - webidl.util.markAsUncloneable(this); - if (form !== void 0) { - throw webidl.errors.conversionFailed({ - prefix: "FormData constructor", - argument: "Argument 1", - types: ["undefined"] - }); - } - this[kState] = []; - } - append(name2, value, filename = void 0) { - webidl.brandCheck(this, _FormData); - const prefix = "FormData.append"; - webidl.argumentLengthCheck(arguments, 2, prefix); - if (arguments.length === 3 && !isBlobLike(value)) { - throw new TypeError( - "Failed to execute 'append' on 'FormData': parameter 2 is not of type 'Blob'" - ); - } - name2 = webidl.converters.USVString(name2, prefix, "name"); - value = isBlobLike(value) ? webidl.converters.Blob(value, prefix, "value", { strict: false }) : webidl.converters.USVString(value, prefix, "value"); - filename = arguments.length === 3 ? webidl.converters.USVString(filename, prefix, "filename") : void 0; - const entry = makeEntry(name2, value, filename); - this[kState].push(entry); - } - delete(name2) { - webidl.brandCheck(this, _FormData); - const prefix = "FormData.delete"; - webidl.argumentLengthCheck(arguments, 1, prefix); - name2 = webidl.converters.USVString(name2, prefix, "name"); - this[kState] = this[kState].filter((entry) => entry.name !== name2); - } - get(name2) { - webidl.brandCheck(this, _FormData); - const prefix = "FormData.get"; - webidl.argumentLengthCheck(arguments, 1, prefix); - name2 = webidl.converters.USVString(name2, prefix, "name"); - const idx = this[kState].findIndex((entry) => entry.name === name2); - if (idx === -1) { - return null; + /* c8 ignore stop */ + constructor(opts, mode) { + if (!opts || typeof opts !== "object") + throw new TypeError("invalid options for ZlibBase constructor"); + super(opts); + this.#flushFlag = opts.flush ?? 0; + this.#finishFlushFlag = opts.finishFlush ?? 0; + this.#fullFlushFlag = opts.fullFlushFlag ?? 0; + if (typeof realZlib2[mode] !== "function") { + throw new TypeError("Compression method not supported: " + mode); } - return this[kState][idx].value; - } - getAll(name2) { - webidl.brandCheck(this, _FormData); - const prefix = "FormData.getAll"; - webidl.argumentLengthCheck(arguments, 1, prefix); - name2 = webidl.converters.USVString(name2, prefix, "name"); - return this[kState].filter((entry) => entry.name === name2).map((entry) => entry.value); - } - has(name2) { - webidl.brandCheck(this, _FormData); - const prefix = "FormData.has"; - webidl.argumentLengthCheck(arguments, 1, prefix); - name2 = webidl.converters.USVString(name2, prefix, "name"); - return this[kState].findIndex((entry) => entry.name === name2) !== -1; - } - set(name2, value, filename = void 0) { - webidl.brandCheck(this, _FormData); - const prefix = "FormData.set"; - webidl.argumentLengthCheck(arguments, 2, prefix); - if (arguments.length === 3 && !isBlobLike(value)) { - throw new TypeError( - "Failed to execute 'set' on 'FormData': parameter 2 is not of type 'Blob'" - ); + try { + this.#handle = new realZlib2[mode](opts); + } catch (er) { + throw new ZlibError(er, this.constructor); } - name2 = webidl.converters.USVString(name2, prefix, "name"); - value = isBlobLike(value) ? webidl.converters.Blob(value, prefix, "name", { strict: false }) : webidl.converters.USVString(value, prefix, "name"); - filename = arguments.length === 3 ? webidl.converters.USVString(filename, prefix, "name") : void 0; - const entry = makeEntry(name2, value, filename); - const idx = this[kState].findIndex((entry2) => entry2.name === name2); - if (idx !== -1) { - this[kState] = [ - ...this[kState].slice(0, idx), - entry, - ...this[kState].slice(idx + 1).filter((entry2) => entry2.name !== name2) - ]; - } else { - this[kState].push(entry); + this.#onError = (err) => { + if (this.#sawError) + return; + this.#sawError = true; + this.close(); + this.emit("error", err); + }; + this.#handle?.on("error", (er) => this.#onError(new ZlibError(er))); + this.once("end", () => this.close); + } + close() { + if (this.#handle) { + this.#handle.close(); + this.#handle = void 0; + this.emit("close"); } } - [nodeUtil.inspect.custom](depth, options) { - const state = this[kState].reduce((a, b) => { - if (a[b.name]) { - if (Array.isArray(a[b.name])) { - a[b.name].push(b.value); - } else { - a[b.name] = [a[b.name], b.value]; - } - } else { - a[b.name] = b.value; - } - return a; - }, { __proto__: null }); - options.depth ??= depth; - options.colors ??= true; - const output = nodeUtil.formatWithOptions(options, state); - return `FormData ${output.slice(output.indexOf("]") + 2)}`; + reset() { + if (!this.#sawError) { + (0, import_assert2.default)(this.#handle, "zlib binding closed"); + return this.#handle.reset?.(); + } } - }; - iteratorMixin("FormData", FormData, kState, "name", "value"); - Object.defineProperties(FormData.prototype, { - append: kEnumerableProperty, - delete: kEnumerableProperty, - get: kEnumerableProperty, - getAll: kEnumerableProperty, - has: kEnumerableProperty, - set: kEnumerableProperty, - [Symbol.toStringTag]: { - value: "FormData", - configurable: true + flush(flushFlag) { + if (this.ended) + return; + if (typeof flushFlag !== "number") + flushFlag = this.#fullFlushFlag; + this.write(Object.assign(import_buffer.Buffer.alloc(0), { [_flushFlag]: flushFlag })); } - }); - function makeEntry(name2, value, filename) { - if (typeof value === "string") { - } else { - if (!isFileLike(value)) { - value = value instanceof Blob ? new File([value], "blob", { type: value.type }) : new FileLike(value, "blob", { type: value.type }); + end(chunk, encoding, cb) { + if (typeof chunk === "function") { + cb = chunk; + encoding = void 0; + chunk = void 0; } - if (filename !== void 0) { - const options = { - type: value.type, - lastModified: value.lastModified - }; - value = value instanceof NativeFile ? new File([value], filename, options) : new FileLike(value, filename, options); + if (typeof encoding === "function") { + cb = encoding; + encoding = void 0; } - } - return { name: name2, value }; - } - module2.exports = { FormData, makeEntry }; - } -}); - -// .yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/web/fetch/formdata-parser.js -var require_formdata_parser = __commonJS({ - ".yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/web/fetch/formdata-parser.js"(exports2, module2) { - "use strict"; - var { isUSVString, bufferToLowerCasedHeaderName } = require_util(); - var { utf8DecodeBytes } = require_util3(); - var { HTTP_TOKEN_CODEPOINTS, isomorphicDecode } = require_data_url(); - var { isFileLike } = require_file(); - var { makeEntry } = require_formdata(); - var assert5 = require("node:assert"); - var { File: NodeFile } = require("node:buffer"); - var File = globalThis.File ?? NodeFile; - var formDataNameBuffer = Buffer.from('form-data; name="'); - var filenameBuffer = Buffer.from("; filename"); - var dd = Buffer.from("--"); - var ddcrlf = Buffer.from("--\r\n"); - function isAsciiString(chars) { - for (let i = 0; i < chars.length; ++i) { - if ((chars.charCodeAt(i) & ~127) !== 0) { - return false; + if (chunk) { + if (encoding) + this.write(chunk, encoding); + else + this.write(chunk); } + this.flush(this.#finishFlushFlag); + this.#ended = true; + return super.end(cb); } - return true; - } - function validateBoundary(boundary) { - const length = boundary.length; - if (length < 27 || length > 70) { - return false; + get ended() { + return this.#ended; } - for (let i = 0; i < length; ++i) { - const cp = boundary.charCodeAt(i); - if (!(cp >= 48 && cp <= 57 || cp >= 65 && cp <= 90 || cp >= 97 && cp <= 122 || cp === 39 || cp === 45 || cp === 95)) { - return false; - } + // overridden in the gzip classes to do portable writes + [_superWrite](data) { + return super.write(data); } - return true; - } - function multipartFormDataParser(input, mimeType) { - assert5(mimeType !== "failure" && mimeType.essence === "multipart/form-data"); - const boundaryString = mimeType.parameters.get("boundary"); - if (boundaryString === void 0) { - return "failure"; - } - const boundary = Buffer.from(`--${boundaryString}`, "utf8"); - const entryList = []; - const position = { position: 0 }; - while (input[position.position] === 13 && input[position.position + 1] === 10) { - position.position += 2; - } - let trailing = input.length; - while (input[trailing - 1] === 10 && input[trailing - 2] === 13) { - trailing -= 2; - } - if (trailing !== input.length) { - input = input.subarray(0, trailing); - } - while (true) { - if (input.subarray(position.position, position.position + boundary.length).equals(boundary)) { - position.position += boundary.length; - } else { - return "failure"; - } - if (position.position === input.length - 2 && bufferStartsWith(input, dd, position) || position.position === input.length - 4 && bufferStartsWith(input, ddcrlf, position)) { - return entryList; - } - if (input[position.position] !== 13 || input[position.position + 1] !== 10) { - return "failure"; - } - position.position += 2; - const result = parseMultipartFormDataHeaders(input, position); - if (result === "failure") { - return "failure"; - } - let { name: name2, filename, contentType, encoding } = result; - position.position += 2; - let body; - { - const boundaryIndex = input.indexOf(boundary.subarray(2), position.position); - if (boundaryIndex === -1) { - return "failure"; - } - body = input.subarray(position.position, boundaryIndex - 4); - position.position += body.length; - if (encoding === "base64") { - body = Buffer.from(body.toString(), "base64"); + write(chunk, encoding, cb) { + if (typeof encoding === "function") + cb = encoding, encoding = "utf8"; + if (typeof chunk === "string") + chunk = import_buffer.Buffer.from(chunk, encoding); + if (this.#sawError) + return; + (0, import_assert2.default)(this.#handle, "zlib binding closed"); + const nativeHandle = this.#handle._handle; + const originalNativeClose = nativeHandle.close; + nativeHandle.close = () => { + }; + const originalClose = this.#handle.close; + this.#handle.close = () => { + }; + passthroughBufferConcat(true); + let result = void 0; + try { + const flushFlag = typeof chunk[_flushFlag] === "number" ? chunk[_flushFlag] : this.#flushFlag; + result = this.#handle._processChunk(chunk, flushFlag); + passthroughBufferConcat(false); + } catch (err) { + passthroughBufferConcat(false); + this.#onError(new ZlibError(err, this.write)); + } finally { + if (this.#handle) { + ; + this.#handle._handle = nativeHandle; + nativeHandle.close = originalNativeClose; + this.#handle.close = originalClose; + this.#handle.removeAllListeners("error"); } } - if (input[position.position] !== 13 || input[position.position + 1] !== 10) { - return "failure"; - } else { - position.position += 2; - } - let value; - if (filename !== null) { - contentType ??= "text/plain"; - if (!isAsciiString(contentType)) { - contentType = ""; + if (this.#handle) + this.#handle.on("error", (er) => this.#onError(new ZlibError(er, this.write))); + let writeReturn; + if (result) { + if (Array.isArray(result) && result.length > 0) { + const r = result[0]; + writeReturn = this[_superWrite](import_buffer.Buffer.from(r)); + for (let i = 1; i < result.length; i++) { + writeReturn = this[_superWrite](result[i]); + } + } else { + writeReturn = this[_superWrite](import_buffer.Buffer.from(result)); } - value = new File([body], filename, { type: contentType }); - } else { - value = utf8DecodeBytes(Buffer.from(body)); } - assert5(isUSVString(name2)); - assert5(typeof value === "string" && isUSVString(value) || isFileLike(value)); - entryList.push(makeEntry(name2, value, filename)); + if (cb) + cb(); + return writeReturn; } - } - function parseMultipartFormDataHeaders(input, position) { - let name2 = null; - let filename = null; - let contentType = null; - let encoding = null; - while (true) { - if (input[position.position] === 13 && input[position.position + 1] === 10) { - if (name2 === null) { - return "failure"; - } - return { name: name2, filename, contentType, encoding }; - } - let headerName = collectASequenceOfBytes( - (char) => char !== 10 && char !== 13 && char !== 58, - input, - position - ); - headerName = removeChars(headerName, true, true, (char) => char === 9 || char === 32); - if (!HTTP_TOKEN_CODEPOINTS.test(headerName.toString())) { - return "failure"; - } - if (input[position.position] !== 58) { - return "failure"; - } - position.position++; - collectASequenceOfBytes( - (char) => char === 32 || char === 9, - input, - position - ); - switch (bufferToLowerCasedHeaderName(headerName)) { - case "content-disposition": { - name2 = filename = null; - if (!bufferStartsWith(input, formDataNameBuffer, position)) { - return "failure"; - } - position.position += 17; - name2 = parseMultipartFormDataName(input, position); - if (name2 === null) { - return "failure"; - } - if (bufferStartsWith(input, filenameBuffer, position)) { - let check = position.position + filenameBuffer.length; - if (input[check] === 42) { - position.position += 1; - check += 1; - } - if (input[check] !== 61 || input[check + 1] !== 34) { - return "failure"; - } - position.position += 12; - filename = parseMultipartFormDataName(input, position); - if (filename === null) { - return "failure"; - } + }; + Zlib = class extends ZlibBase { + #level; + #strategy; + constructor(opts, mode) { + opts = opts || {}; + opts.flush = opts.flush || constants.Z_NO_FLUSH; + opts.finishFlush = opts.finishFlush || constants.Z_FINISH; + opts.fullFlushFlag = constants.Z_FULL_FLUSH; + super(opts, mode); + this.#level = opts.level; + this.#strategy = opts.strategy; + } + params(level, strategy) { + if (this.sawError) + return; + if (!this.handle) + throw new Error("cannot switch params when binding is closed"); + if (!this.handle.params) + throw new Error("not supported in this implementation"); + if (this.#level !== level || this.#strategy !== strategy) { + this.flush(constants.Z_SYNC_FLUSH); + (0, import_assert2.default)(this.handle, "zlib binding closed"); + const origFlush = this.handle.flush; + this.handle.flush = (flushFlag, cb) => { + if (typeof flushFlag === "function") { + cb = flushFlag; + flushFlag = this.flushFlag; } - break; - } - case "content-type": { - let headerValue = collectASequenceOfBytes( - (char) => char !== 10 && char !== 13, - input, - position - ); - headerValue = removeChars(headerValue, false, true, (char) => char === 9 || char === 32); - contentType = isomorphicDecode(headerValue); - break; - } - case "content-transfer-encoding": { - let headerValue = collectASequenceOfBytes( - (char) => char !== 10 && char !== 13, - input, - position - ); - headerValue = removeChars(headerValue, false, true, (char) => char === 9 || char === 32); - encoding = isomorphicDecode(headerValue); - break; + this.flush(flushFlag); + cb?.(); + }; + try { + ; + this.handle.params(level, strategy); + } finally { + this.handle.flush = origFlush; } - default: { - collectASequenceOfBytes( - (char) => char !== 10 && char !== 13, - input, - position - ); + if (this.handle) { + this.#level = level; + this.#strategy = strategy; } } - if (input[position.position] !== 13 && input[position.position + 1] !== 10) { - return "failure"; - } else { - position.position += 2; - } } - } - function parseMultipartFormDataName(input, position) { - assert5(input[position.position - 1] === 34); - let name2 = collectASequenceOfBytes( - (char) => char !== 10 && char !== 13 && char !== 34, - input, - position - ); - if (input[position.position] !== 34) { - return null; - } else { - position.position++; - } - name2 = new TextDecoder().decode(name2).replace(/%0A/ig, "\n").replace(/%0D/ig, "\r").replace(/%22/g, '"'); - return name2; - } - function collectASequenceOfBytes(condition, input, position) { - let start = position.position; - while (start < input.length && condition(input[start])) { - ++start; - } - return input.subarray(position.position, position.position = start); - } - function removeChars(buf, leading, trailing, predicate) { - let lead = 0; - let trail = buf.length - 1; - if (leading) { - while (lead < buf.length && predicate(buf[lead])) lead++; + }; + Gzip = class extends Zlib { + #portable; + constructor(opts) { + super(opts, "Gzip"); + this.#portable = opts && !!opts.portable; } - if (trailing) { - while (trail > 0 && predicate(buf[trail])) trail--; + [_superWrite](data) { + if (!this.#portable) + return super[_superWrite](data); + this.#portable = false; + data[9] = 255; + return super[_superWrite](data); } - return lead === 0 && trail === buf.length - 1 ? buf : buf.subarray(lead, trail + 1); - } - function bufferStartsWith(buffer, start, position) { - if (buffer.length < start.length) { - return false; + }; + Unzip = class extends Zlib { + constructor(opts) { + super(opts, "Unzip"); } - for (let i = 0; i < start.length; i++) { - if (start[i] !== buffer[position.position + i]) { - return false; - } + }; + Brotli = class extends ZlibBase { + constructor(opts, mode) { + opts = opts || {}; + opts.flush = opts.flush || constants.BROTLI_OPERATION_PROCESS; + opts.finishFlush = opts.finishFlush || constants.BROTLI_OPERATION_FINISH; + opts.fullFlushFlag = constants.BROTLI_OPERATION_FLUSH; + super(opts, mode); } - return true; - } - module2.exports = { - multipartFormDataParser, - validateBoundary }; - } -}); - -// .yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/web/fetch/body.js -var require_body = __commonJS({ - ".yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/web/fetch/body.js"(exports2, module2) { - "use strict"; - var util = require_util(); - var { - ReadableStreamFrom, - isBlobLike, - isReadableStreamLike, - readableStreamClose, - createDeferredPromise, - fullyReadBody, - extractMimeType, - utf8DecodeBytes - } = require_util3(); - var { FormData } = require_formdata(); - var { kState } = require_symbols2(); - var { webidl } = require_webidl(); - var { Blob: Blob2 } = require("node:buffer"); - var assert5 = require("node:assert"); - var { isErrored, isDisturbed } = require("node:stream"); - var { isArrayBuffer } = require("node:util/types"); - var { serializeAMimeType } = require_data_url(); - var { multipartFormDataParser } = require_formdata_parser(); - var random; - try { - const crypto = require("node:crypto"); - random = (max) => crypto.randomInt(0, max); - } catch { - random = (max) => Math.floor(Math.random(max)); - } - var textEncoder = new TextEncoder(); - function noop3() { - } - var hasFinalizationRegistry = globalThis.FinalizationRegistry && process.version.indexOf("v18") !== 0; - var streamRegistry; - if (hasFinalizationRegistry) { - streamRegistry = new FinalizationRegistry((weakRef) => { - const stream = weakRef.deref(); - if (stream && !stream.locked && !isDisturbed(stream) && !isErrored(stream)) { - stream.cancel("Response object has been garbage collected").catch(noop3); - } - }); - } - function extractBody(object, keepalive = false) { - let stream = null; - if (object instanceof ReadableStream) { - stream = object; - } else if (isBlobLike(object)) { - stream = object.stream(); - } else { - stream = new ReadableStream({ - async pull(controller) { - const buffer = typeof source === "string" ? textEncoder.encode(source) : source; - if (buffer.byteLength) { - controller.enqueue(buffer); - } - queueMicrotask(() => readableStreamClose(controller)); - }, - start() { - }, - type: "bytes" - }); - } - assert5(isReadableStreamLike(stream)); - let action = null; - let source = null; - let length = null; - let type = null; - if (typeof object === "string") { - source = object; - type = "text/plain;charset=UTF-8"; - } else if (object instanceof URLSearchParams) { - source = object.toString(); - type = "application/x-www-form-urlencoded;charset=UTF-8"; - } else if (isArrayBuffer(object)) { - source = new Uint8Array(object.slice()); - } else if (ArrayBuffer.isView(object)) { - source = new Uint8Array(object.buffer.slice(object.byteOffset, object.byteOffset + object.byteLength)); - } else if (util.isFormDataLike(object)) { - const boundary = `----formdata-undici-0${`${random(1e11)}`.padStart(11, "0")}`; - const prefix = `--${boundary}\r -Content-Disposition: form-data`; - const escape = (str) => str.replace(/\n/g, "%0A").replace(/\r/g, "%0D").replace(/"/g, "%22"); - const normalizeLinefeeds = (value) => value.replace(/\r?\n|\r/g, "\r\n"); - const blobParts = []; - const rn = new Uint8Array([13, 10]); - length = 0; - let hasUnknownSizeValue = false; - for (const [name2, value] of object) { - if (typeof value === "string") { - const chunk2 = textEncoder.encode(prefix + `; name="${escape(normalizeLinefeeds(name2))}"\r -\r -${normalizeLinefeeds(value)}\r -`); - blobParts.push(chunk2); - length += chunk2.byteLength; - } else { - const chunk2 = textEncoder.encode(`${prefix}; name="${escape(normalizeLinefeeds(name2))}"` + (value.name ? `; filename="${escape(value.name)}"` : "") + `\r -Content-Type: ${value.type || "application/octet-stream"}\r -\r -`); - blobParts.push(chunk2, value, rn); - if (typeof value.size === "number") { - length += chunk2.byteLength + value.size + rn.byteLength; - } else { - hasUnknownSizeValue = true; - } - } - } - const chunk = textEncoder.encode(`--${boundary}--\r -`); - blobParts.push(chunk); - length += chunk.byteLength; - if (hasUnknownSizeValue) { - length = null; - } - source = object; - action = async function* () { - for (const part of blobParts) { - if (part.stream) { - yield* part.stream(); - } else { - yield part; - } - } - }; - type = `multipart/form-data; boundary=${boundary}`; - } else if (isBlobLike(object)) { - source = object; - length = object.size; - if (object.type) { - type = object.type; - } - } else if (typeof object[Symbol.asyncIterator] === "function") { - if (keepalive) { - throw new TypeError("keepalive"); - } - if (util.isDisturbed(object) || object.locked) { - throw new TypeError( - "Response body object should not be disturbed or locked" - ); - } - stream = object instanceof ReadableStream ? object : ReadableStreamFrom(object); - } - if (typeof source === "string" || util.isBuffer(source)) { - length = Buffer.byteLength(source); - } - if (action != null) { - let iterator; - stream = new ReadableStream({ - async start() { - iterator = action(object)[Symbol.asyncIterator](); - }, - async pull(controller) { - const { value, done } = await iterator.next(); - if (done) { - queueMicrotask(() => { - controller.close(); - controller.byobRequest?.respond(0); - }); - } else { - if (!isErrored(stream)) { - const buffer = new Uint8Array(value); - if (buffer.byteLength) { - controller.enqueue(buffer); - } - } - } - return controller.desiredSize > 0; - }, - async cancel(reason) { - await iterator.return(); - }, - type: "bytes" - }); + BrotliCompress = class extends Brotli { + constructor(opts) { + super(opts, "BrotliCompress"); } - const body = { stream, source, length }; - return [body, type]; - } - function safelyExtractBody(object, keepalive = false) { - if (object instanceof ReadableStream) { - assert5(!util.isDisturbed(object), "The body has already been consumed."); - assert5(!object.locked, "The stream is locked."); + }; + BrotliDecompress = class extends Brotli { + constructor(opts) { + super(opts, "BrotliDecompress"); } - return extractBody(object, keepalive); - } - function cloneBody(instance, body) { - const [out1, out2] = body.stream.tee(); - body.stream = out1; - return { - stream: out2, - length: body.length, - source: body.source - }; - } - function throwIfAborted(state) { - if (state.aborted) { - throw new DOMException("The operation was aborted.", "AbortError"); + }; + Zstd = class extends ZlibBase { + constructor(opts, mode) { + opts = opts || {}; + opts.flush = opts.flush || constants.ZSTD_e_continue; + opts.finishFlush = opts.finishFlush || constants.ZSTD_e_end; + opts.fullFlushFlag = constants.ZSTD_e_flush; + super(opts, mode); } - } - function bodyMixinMethods(instance) { - const methods = { - blob() { - return consumeBody(this, (bytes) => { - let mimeType = bodyMimeType(this); - if (mimeType === null) { - mimeType = ""; - } else if (mimeType) { - mimeType = serializeAMimeType(mimeType); - } - return new Blob2([bytes], { type: mimeType }); - }, instance); - }, - arrayBuffer() { - return consumeBody(this, (bytes) => { - return new Uint8Array(bytes).buffer; - }, instance); - }, - text() { - return consumeBody(this, utf8DecodeBytes, instance); - }, - json() { - return consumeBody(this, parseJSONFromBytes, instance); - }, - formData() { - return consumeBody(this, (value) => { - const mimeType = bodyMimeType(this); - if (mimeType !== null) { - switch (mimeType.essence) { - case "multipart/form-data": { - const parsed = multipartFormDataParser(value, mimeType); - if (parsed === "failure") { - throw new TypeError("Failed to parse body as FormData."); - } - const fd = new FormData(); - fd[kState] = parsed; - return fd; - } - case "application/x-www-form-urlencoded": { - const entries = new URLSearchParams(value.toString()); - const fd = new FormData(); - for (const [name2, value2] of entries) { - fd.append(name2, value2); - } - return fd; - } - } - } - throw new TypeError( - 'Content-Type was not one of "multipart/form-data" or "application/x-www-form-urlencoded".' - ); - }, instance); - }, - bytes() { - return consumeBody(this, (bytes) => { - return new Uint8Array(bytes); - }, instance); - } - }; - return methods; - } - function mixinBody(prototype) { - Object.assign(prototype.prototype, bodyMixinMethods(prototype)); - } - async function consumeBody(object, convertBytesToJSValue, instance) { - webidl.brandCheck(object, instance); - if (bodyUnusable(object)) { - throw new TypeError("Body is unusable: Body has already been read"); - } - throwIfAborted(object[kState]); - const promise = createDeferredPromise(); - const errorSteps = (error) => promise.reject(error); - const successSteps = (data) => { - try { - promise.resolve(convertBytesToJSValue(data)); - } catch (e) { - errorSteps(e); - } - }; - if (object[kState].body == null) { - successSteps(Buffer.allocUnsafe(0)); - return promise.promise; + }; + ZstdCompress = class extends Zstd { + constructor(opts) { + super(opts, "ZstdCompress"); } - await fullyReadBody(object[kState].body, successSteps, errorSteps); - return promise.promise; - } - function bodyUnusable(object) { - const body = object[kState].body; - return body != null && (body.stream.locked || util.isDisturbed(body.stream)); - } - function parseJSONFromBytes(bytes) { - return JSON.parse(utf8DecodeBytes(bytes)); - } - function bodyMimeType(requestOrResponse) { - const headers = requestOrResponse[kState].headersList; - const mimeType = extractMimeType(headers); - if (mimeType === "failure") { - return null; + }; + ZstdDecompress = class extends Zstd { + constructor(opts) { + super(opts, "ZstdDecompress"); } - return mimeType; - } - module2.exports = { - extractBody, - safelyExtractBody, - cloneBody, - mixinBody, - streamRegistry, - hasFinalizationRegistry, - bodyUnusable }; } }); -// .yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/dispatcher/client-h1.js -var require_client_h1 = __commonJS({ - ".yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/dispatcher/client-h1.js"(exports2, module2) { - "use strict"; - var assert5 = require("node:assert"); - var util = require_util(); - var { channels } = require_diagnostics(); - var timers = require_timers(); - var { - RequestContentLengthMismatchError, - ResponseContentLengthMismatchError, - RequestAbortedError, - HeadersTimeoutError, - HeadersOverflowError, - SocketError, - InformationalError, - BodyTimeoutError, - HTTPParserError, - ResponseExceededMaxSizeError - } = require_errors(); - var { - kUrl, - kReset, - kClient, - kParser, - kBlocking, - kRunning, - kPending, - kSize, - kWriting, - kQueue, - kNoRef, - kKeepAliveDefaultTimeout, - kHostHeader, - kPendingIdx, - kRunningIdx, - kError, - kPipelining, - kSocket, - kKeepAliveTimeoutValue, - kMaxHeadersSize, - kKeepAliveMaxTimeout, - kKeepAliveTimeoutThreshold, - kHeadersTimeout, - kBodyTimeout, - kStrictContentLength, - kMaxRequests, - kCounter, - kMaxResponseSize, - kOnError, - kResume, - kHTTPContext - } = require_symbols(); - var constants2 = require_constants3(); - var EMPTY_BUF = Buffer.alloc(0); - var FastBuffer = Buffer[Symbol.species]; - var addListener = util.addListener; - var removeAllListeners = util.removeAllListeners; - var extractBody; - async function lazyllhttp() { - const llhttpWasmData = process.env.JEST_WORKER_ID ? require_llhttp_wasm() : void 0; - let mod; - try { - mod = await WebAssembly.compile(require_llhttp_simd_wasm()); - } catch (e) { - mod = await WebAssembly.compile(llhttpWasmData || require_llhttp_wasm()); - } - return await WebAssembly.instantiate(mod, { - env: { - /* eslint-disable camelcase */ - wasm_on_url: (p, at, len) => { - return 0; - }, - wasm_on_status: (p, at, len) => { - assert5(currentParser.ptr === p); - const start = at - currentBufferPtr + currentBufferRef.byteOffset; - return currentParser.onStatus(new FastBuffer(currentBufferRef.buffer, start, len)) || 0; - }, - wasm_on_message_begin: (p) => { - assert5(currentParser.ptr === p); - return currentParser.onMessageBegin() || 0; - }, - wasm_on_header_field: (p, at, len) => { - assert5(currentParser.ptr === p); - const start = at - currentBufferPtr + currentBufferRef.byteOffset; - return currentParser.onHeaderField(new FastBuffer(currentBufferRef.buffer, start, len)) || 0; - }, - wasm_on_header_value: (p, at, len) => { - assert5(currentParser.ptr === p); - const start = at - currentBufferPtr + currentBufferRef.byteOffset; - return currentParser.onHeaderValue(new FastBuffer(currentBufferRef.buffer, start, len)) || 0; - }, - wasm_on_headers_complete: (p, statusCode, upgrade, shouldKeepAlive) => { - assert5(currentParser.ptr === p); - return currentParser.onHeadersComplete(statusCode, Boolean(upgrade), Boolean(shouldKeepAlive)) || 0; - }, - wasm_on_body: (p, at, len) => { - assert5(currentParser.ptr === p); - const start = at - currentBufferPtr + currentBufferRef.byteOffset; - return currentParser.onBody(new FastBuffer(currentBufferRef.buffer, start, len)) || 0; - }, - wasm_on_message_complete: (p) => { - assert5(currentParser.ptr === p); - return currentParser.onMessageComplete() || 0; - } - /* eslint-enable camelcase */ - } - }); - } - var llhttpInstance = null; - var llhttpPromise = lazyllhttp(); - llhttpPromise.catch(); - var currentParser = null; - var currentBufferRef = null; - var currentBufferSize = 0; - var currentBufferPtr = null; - var USE_NATIVE_TIMER = 0; - var USE_FAST_TIMER = 1; - var TIMEOUT_HEADERS = 2 | USE_FAST_TIMER; - var TIMEOUT_BODY = 4 | USE_FAST_TIMER; - var TIMEOUT_KEEP_ALIVE = 8 | USE_NATIVE_TIMER; - var Parser2 = class { - constructor(client, socket, { exports: exports3 }) { - assert5(Number.isFinite(client[kMaxHeadersSize]) && client[kMaxHeadersSize] > 0); - this.llhttp = exports3; - this.ptr = this.llhttp.llhttp_alloc(constants2.TYPE.RESPONSE); - this.client = client; - this.socket = socket; - this.timeout = null; - this.timeoutValue = null; - this.timeoutType = null; - this.statusCode = null; - this.statusText = ""; - this.upgrade = false; - this.headers = []; - this.headersSize = 0; - this.headersMaxSize = client[kMaxHeadersSize]; - this.shouldKeepAlive = false; - this.paused = false; - this.resume = this.resume.bind(this); - this.bytesRead = 0; - this.keepAlive = ""; - this.contentLength = ""; - this.connection = ""; - this.maxResponseSize = client[kMaxResponseSize]; - } - setTimeout(delay, type) { - if (delay !== this.timeoutValue || type & USE_FAST_TIMER ^ this.timeoutType & USE_FAST_TIMER) { - if (this.timeout) { - timers.clearTimeout(this.timeout); - this.timeout = null; - } - if (delay) { - if (type & USE_FAST_TIMER) { - this.timeout = timers.setFastTimeout(onParserTimeout, delay, new WeakRef(this)); - } else { - this.timeout = setTimeout(onParserTimeout, delay, new WeakRef(this)); - this.timeout.unref(); - } - } - this.timeoutValue = delay; - } else if (this.timeout) { - if (this.timeout.refresh) { - this.timeout.refresh(); - } - } - this.timeoutType = type; - } - resume() { - if (this.socket.destroyed || !this.paused) { - return; - } - assert5(this.ptr != null); - assert5(currentParser == null); - this.llhttp.llhttp_resume(this.ptr); - assert5(this.timeoutType === TIMEOUT_BODY); - if (this.timeout) { - if (this.timeout.refresh) { - this.timeout.refresh(); - } - } - this.paused = false; - this.execute(this.socket.read() || EMPTY_BUF); - this.readMore(); - } - readMore() { - while (!this.paused && this.ptr) { - const chunk = this.socket.read(); - if (chunk === null) { - break; - } - this.execute(chunk); - } - } - execute(data) { - assert5(this.ptr != null); - assert5(currentParser == null); - assert5(!this.paused); - const { socket, llhttp } = this; - if (data.length > currentBufferSize) { - if (currentBufferPtr) { - llhttp.free(currentBufferPtr); - } - currentBufferSize = Math.ceil(data.length / 4096) * 4096; - currentBufferPtr = llhttp.malloc(currentBufferSize); - } - new Uint8Array(llhttp.memory.buffer, currentBufferPtr, currentBufferSize).set(data); - try { - let ret; - try { - currentBufferRef = data; - currentParser = this; - ret = llhttp.llhttp_execute(this.ptr, currentBufferPtr, data.length); - } catch (err) { - throw err; - } finally { - currentParser = null; - currentBufferRef = null; - } - const offset = llhttp.llhttp_get_error_pos(this.ptr) - currentBufferPtr; - if (ret === constants2.ERROR.PAUSED_UPGRADE) { - this.onUpgrade(data.slice(offset)); - } else if (ret === constants2.ERROR.PAUSED) { - this.paused = true; - socket.unshift(data.slice(offset)); - } else if (ret !== constants2.ERROR.OK) { - const ptr = llhttp.llhttp_get_error_reason(this.ptr); - let message = ""; - if (ptr) { - const len = new Uint8Array(llhttp.memory.buffer, ptr).indexOf(0); - message = "Response does not match the HTTP/1.1 protocol (" + Buffer.from(llhttp.memory.buffer, ptr, len).toString() + ")"; - } - throw new HTTPParserError(message, constants2.ERROR[ret], data.slice(offset)); - } - } catch (err) { - util.destroy(socket, err); - } - } - destroy() { - assert5(this.ptr != null); - assert5(currentParser == null); - this.llhttp.llhttp_free(this.ptr); - this.ptr = null; - this.timeout && timers.clearTimeout(this.timeout); - this.timeout = null; - this.timeoutValue = null; - this.timeoutType = null; - this.paused = false; - } - onStatus(buf) { - this.statusText = buf.toString(); +// node_modules/tar/dist/esm/large-numbers.js +var encode, encodePositive, encodeNegative, parse, twos, pos, onesComp, twosComp; +var init_large_numbers = __esm({ + "node_modules/tar/dist/esm/large-numbers.js"() { + encode = (num, buf) => { + if (!Number.isSafeInteger(num)) { + throw Error("cannot encode number outside of javascript safe integer range"); + } else if (num < 0) { + encodeNegative(num, buf); + } else { + encodePositive(num, buf); } - onMessageBegin() { - const { socket, client } = this; - if (socket.destroyed) { - return -1; - } - const request = client[kQueue][client[kRunningIdx]]; - if (!request) { - return -1; - } - request.onResponseStarted(); + return buf; + }; + encodePositive = (num, buf) => { + buf[0] = 128; + for (var i = buf.length; i > 1; i--) { + buf[i - 1] = num & 255; + num = Math.floor(num / 256); } - onHeaderField(buf) { - const len = this.headers.length; - if ((len & 1) === 0) { - this.headers.push(buf); + }; + encodeNegative = (num, buf) => { + buf[0] = 255; + var flipped = false; + num = num * -1; + for (var i = buf.length; i > 1; i--) { + var byte = num & 255; + num = Math.floor(num / 256); + if (flipped) { + buf[i - 1] = onesComp(byte); + } else if (byte === 0) { + buf[i - 1] = 0; } else { - this.headers[len - 1] = Buffer.concat([this.headers[len - 1], buf]); + flipped = true; + buf[i - 1] = twosComp(byte); } - this.trackHeader(buf.length); } - onHeaderValue(buf) { - let len = this.headers.length; - if ((len & 1) === 1) { - this.headers.push(buf); - len += 1; - } else { - this.headers[len - 1] = Buffer.concat([this.headers[len - 1], buf]); - } - const key = this.headers[len - 2]; - if (key.length === 10) { - const headerName = util.bufferToLowerCasedHeaderName(key); - if (headerName === "keep-alive") { - this.keepAlive += buf.toString(); - } else if (headerName === "connection") { - this.connection += buf.toString(); - } - } else if (key.length === 14 && util.bufferToLowerCasedHeaderName(key) === "content-length") { - this.contentLength += buf.toString(); - } - this.trackHeader(buf.length); - } - trackHeader(len) { - this.headersSize += len; - if (this.headersSize >= this.headersMaxSize) { - util.destroy(this.socket, new HeadersOverflowError()); - } - } - onUpgrade(head) { - const { upgrade, client, socket, headers, statusCode } = this; - assert5(upgrade); - assert5(client[kSocket] === socket); - assert5(!socket.destroyed); - assert5(!this.paused); - assert5((headers.length & 1) === 0); - const request = client[kQueue][client[kRunningIdx]]; - assert5(request); - assert5(request.upgrade || request.method === "CONNECT"); - this.statusCode = null; - this.statusText = ""; - this.shouldKeepAlive = null; - this.headers = []; - this.headersSize = 0; - socket.unshift(head); - socket[kParser].destroy(); - socket[kParser] = null; - socket[kClient] = null; - socket[kError] = null; - removeAllListeners(socket); - client[kSocket] = null; - client[kHTTPContext] = null; - client[kQueue][client[kRunningIdx]++] = null; - client.emit("disconnect", client[kUrl], [client], new InformationalError("upgrade")); - try { - request.onUpgrade(statusCode, headers, socket); - } catch (err) { - util.destroy(socket, err); - } - client[kResume](); + }; + parse = (buf) => { + const pre = buf[0]; + const value = pre === 128 ? pos(buf.subarray(1, buf.length)) : pre === 255 ? twos(buf) : null; + if (value === null) { + throw Error("invalid base256 encoding"); } - onHeadersComplete(statusCode, upgrade, shouldKeepAlive) { - const { client, socket, headers, statusText } = this; - if (socket.destroyed) { - return -1; - } - const request = client[kQueue][client[kRunningIdx]]; - if (!request) { - return -1; - } - assert5(!this.upgrade); - assert5(this.statusCode < 200); - if (statusCode === 100) { - util.destroy(socket, new SocketError("bad response", util.getSocketInfo(socket))); - return -1; - } - if (upgrade && !request.upgrade) { - util.destroy(socket, new SocketError("bad upgrade", util.getSocketInfo(socket))); - return -1; - } - assert5(this.timeoutType === TIMEOUT_HEADERS); - this.statusCode = statusCode; - this.shouldKeepAlive = shouldKeepAlive || // Override llhttp value which does not allow keepAlive for HEAD. - request.method === "HEAD" && !socket[kReset] && this.connection.toLowerCase() === "keep-alive"; - if (this.statusCode >= 200) { - const bodyTimeout = request.bodyTimeout != null ? request.bodyTimeout : client[kBodyTimeout]; - this.setTimeout(bodyTimeout, TIMEOUT_BODY); - } else if (this.timeout) { - if (this.timeout.refresh) { - this.timeout.refresh(); - } - } - if (request.method === "CONNECT") { - assert5(client[kRunning] === 1); - this.upgrade = true; - return 2; - } - if (upgrade) { - assert5(client[kRunning] === 1); - this.upgrade = true; - return 2; - } - assert5((this.headers.length & 1) === 0); - this.headers = []; - this.headersSize = 0; - if (this.shouldKeepAlive && client[kPipelining]) { - const keepAliveTimeout = this.keepAlive ? util.parseKeepAliveTimeout(this.keepAlive) : null; - if (keepAliveTimeout != null) { - const timeout = Math.min( - keepAliveTimeout - client[kKeepAliveTimeoutThreshold], - client[kKeepAliveMaxTimeout] - ); - if (timeout <= 0) { - socket[kReset] = true; - } else { - client[kKeepAliveTimeoutValue] = timeout; - } - } else { - client[kKeepAliveTimeoutValue] = client[kKeepAliveDefaultTimeout]; - } - } else { - socket[kReset] = true; - } - const pause = request.onHeaders(statusCode, headers, this.resume, statusText) === false; - if (request.aborted) { - return -1; - } - if (request.method === "HEAD") { - return 1; - } - if (statusCode < 200) { - return 1; - } - if (socket[kBlocking]) { - socket[kBlocking] = false; - client[kResume](); - } - return pause ? constants2.ERROR.PAUSED : 0; + if (!Number.isSafeInteger(value)) { + throw Error("parsed number outside of javascript safe integer range"); } - onBody(buf) { - const { client, socket, statusCode, maxResponseSize } = this; - if (socket.destroyed) { - return -1; - } - const request = client[kQueue][client[kRunningIdx]]; - assert5(request); - assert5(this.timeoutType === TIMEOUT_BODY); - if (this.timeout) { - if (this.timeout.refresh) { - this.timeout.refresh(); - } - } - assert5(statusCode >= 200); - if (maxResponseSize > -1 && this.bytesRead + buf.length > maxResponseSize) { - util.destroy(socket, new ResponseExceededMaxSizeError()); - return -1; + return value; + }; + twos = (buf) => { + var len = buf.length; + var sum = 0; + var flipped = false; + for (var i = len - 1; i > -1; i--) { + var byte = Number(buf[i]); + var f; + if (flipped) { + f = onesComp(byte); + } else if (byte === 0) { + f = byte; + } else { + flipped = true; + f = twosComp(byte); } - this.bytesRead += buf.length; - if (request.onData(buf) === false) { - return constants2.ERROR.PAUSED; + if (f !== 0) { + sum -= f * Math.pow(256, len - i - 1); } } - onMessageComplete() { - const { client, socket, statusCode, upgrade, headers, contentLength, bytesRead, shouldKeepAlive } = this; - if (socket.destroyed && (!statusCode || shouldKeepAlive)) { - return -1; - } - if (upgrade) { - return; - } - assert5(statusCode >= 100); - assert5((this.headers.length & 1) === 0); - const request = client[kQueue][client[kRunningIdx]]; - assert5(request); - this.statusCode = null; - this.statusText = ""; - this.bytesRead = 0; - this.contentLength = ""; - this.keepAlive = ""; - this.connection = ""; - this.headers = []; - this.headersSize = 0; - if (statusCode < 200) { - return; - } - if (request.method !== "HEAD" && contentLength && bytesRead !== parseInt(contentLength, 10)) { - util.destroy(socket, new ResponseContentLengthMismatchError()); - return -1; - } - request.onComplete(headers); - client[kQueue][client[kRunningIdx]++] = null; - if (socket[kWriting]) { - assert5(client[kRunning] === 0); - util.destroy(socket, new InformationalError("reset")); - return constants2.ERROR.PAUSED; - } else if (!shouldKeepAlive) { - util.destroy(socket, new InformationalError("reset")); - return constants2.ERROR.PAUSED; - } else if (socket[kReset] && client[kRunning] === 0) { - util.destroy(socket, new InformationalError("reset")); - return constants2.ERROR.PAUSED; - } else if (client[kPipelining] == null || client[kPipelining] === 1) { - setImmediate(() => client[kResume]()); - } else { - client[kResume](); + return sum; + }; + pos = (buf) => { + var len = buf.length; + var sum = 0; + for (var i = len - 1; i > -1; i--) { + var byte = Number(buf[i]); + if (byte !== 0) { + sum += byte * Math.pow(256, len - i - 1); } } + return sum; }; - function onParserTimeout(parser) { - const { socket, timeoutType, client, paused } = parser.deref(); - if (timeoutType === TIMEOUT_HEADERS) { - if (!socket[kWriting] || socket.writableNeedDrain || client[kRunning] > 1) { - assert5(!paused, "cannot be paused while waiting for headers"); - util.destroy(socket, new HeadersTimeoutError()); - } - } else if (timeoutType === TIMEOUT_BODY) { - if (!paused) { - util.destroy(socket, new BodyTimeoutError()); + onesComp = (byte) => (255 ^ byte) & 255; + twosComp = (byte) => (255 ^ byte) + 1 & 255; + } +}); + +// node_modules/tar/dist/esm/types.js +var isCode, name, code; +var init_types = __esm({ + "node_modules/tar/dist/esm/types.js"() { + isCode = (c) => name.has(c); + name = /* @__PURE__ */ new Map([ + ["0", "File"], + // same as File + ["", "OldFile"], + ["1", "Link"], + ["2", "SymbolicLink"], + // Devices and FIFOs aren't fully supported + // they are parsed, but skipped when unpacking + ["3", "CharacterDevice"], + ["4", "BlockDevice"], + ["5", "Directory"], + ["6", "FIFO"], + // same as File + ["7", "ContiguousFile"], + // pax headers + ["g", "GlobalExtendedHeader"], + ["x", "ExtendedHeader"], + // vendor-specific stuff + // skip + ["A", "SolarisACL"], + // like 5, but with data, which should be skipped + ["D", "GNUDumpDir"], + // metadata only, skip + ["I", "Inode"], + // data = link path of next file + ["K", "NextFileHasLongLinkpath"], + // data = path of next file + ["L", "NextFileHasLongPath"], + // skip + ["M", "ContinuationFile"], + // like L + ["N", "OldGnuLongPath"], + // skip + ["S", "SparseFile"], + // skip + ["V", "TapeVolumeHeader"], + // like x + ["X", "OldExtendedHeader"] + ]); + code = new Map(Array.from(name).map((kv) => [kv[1], kv[0]])); + } +}); + +// node_modules/tar/dist/esm/header.js +var import_node_path, Header, splitPrefix, decString, decDate, numToDate, decNumber, nanUndef, decSmallNumber, MAXNUM, encNumber, encSmallNumber, octalString, padOctal, encDate, NULLS, encString; +var init_header = __esm({ + "node_modules/tar/dist/esm/header.js"() { + import_node_path = require("node:path"); + init_large_numbers(); + init_types(); + Header = class { + cksumValid = false; + needPax = false; + nullBlock = false; + block; + path; + mode; + uid; + gid; + size; + cksum; + #type = "Unsupported"; + linkpath; + uname; + gname; + devmaj = 0; + devmin = 0; + atime; + ctime; + mtime; + charset; + comment; + constructor(data, off = 0, ex, gex) { + if (Buffer.isBuffer(data)) { + this.decode(data, off || 0, ex, gex); + } else if (data) { + this.#slurp(data); } - } else if (timeoutType === TIMEOUT_KEEP_ALIVE) { - assert5(client[kRunning] === 0 && client[kKeepAliveTimeoutValue]); - util.destroy(socket, new InformationalError("socket idle timeout")); } - } - async function connectH1(client, socket) { - client[kSocket] = socket; - if (!llhttpInstance) { - llhttpInstance = await llhttpPromise; - llhttpPromise = null; - } - socket[kNoRef] = false; - socket[kWriting] = false; - socket[kReset] = false; - socket[kBlocking] = false; - socket[kParser] = new Parser2(client, socket, llhttpInstance); - addListener(socket, "error", function(err) { - assert5(err.code !== "ERR_TLS_CERT_ALTNAME_INVALID"); - const parser = this[kParser]; - if (err.code === "ECONNRESET" && parser.statusCode && !parser.shouldKeepAlive) { - parser.onMessageComplete(); - return; + decode(buf, off, ex, gex) { + if (!off) { + off = 0; } - this[kError] = err; - this[kClient][kOnError](err); - }); - addListener(socket, "readable", function() { - const parser = this[kParser]; - if (parser) { - parser.readMore(); + if (!buf || !(buf.length >= off + 512)) { + throw new Error("need 512 bytes for header"); } - }); - addListener(socket, "end", function() { - const parser = this[kParser]; - if (parser.statusCode && !parser.shouldKeepAlive) { - parser.onMessageComplete(); - return; + this.path = ex?.path ?? decString(buf, off, 100); + this.mode = ex?.mode ?? gex?.mode ?? decNumber(buf, off + 100, 8); + this.uid = ex?.uid ?? gex?.uid ?? decNumber(buf, off + 108, 8); + this.gid = ex?.gid ?? gex?.gid ?? decNumber(buf, off + 116, 8); + this.size = ex?.size ?? gex?.size ?? decNumber(buf, off + 124, 12); + this.mtime = ex?.mtime ?? gex?.mtime ?? decDate(buf, off + 136, 12); + this.cksum = decNumber(buf, off + 148, 12); + if (gex) + this.#slurp(gex, true); + if (ex) + this.#slurp(ex); + const t = decString(buf, off + 156, 1); + if (isCode(t)) { + this.#type = t || "0"; } - util.destroy(this, new SocketError("other side closed", util.getSocketInfo(this))); - }); - addListener(socket, "close", function() { - const client2 = this[kClient]; - const parser = this[kParser]; - if (parser) { - if (!this[kError] && parser.statusCode && !parser.shouldKeepAlive) { - parser.onMessageComplete(); - } - this[kParser].destroy(); - this[kParser] = null; - } - const err = this[kError] || new SocketError("closed", util.getSocketInfo(this)); - client2[kSocket] = null; - client2[kHTTPContext] = null; - if (client2.destroyed) { - assert5(client2[kPending] === 0); - const requests = client2[kQueue].splice(client2[kRunningIdx]); - for (let i = 0; i < requests.length; i++) { - const request = requests[i]; - util.errorRequest(client2, request, err); - } - } else if (client2[kRunning] > 0 && err.code !== "UND_ERR_INFO") { - const request = client2[kQueue][client2[kRunningIdx]]; - client2[kQueue][client2[kRunningIdx]++] = null; - util.errorRequest(client2, request, err); - } - client2[kPendingIdx] = client2[kRunningIdx]; - assert5(client2[kRunning] === 0); - client2.emit("disconnect", client2[kUrl], [client2], err); - client2[kResume](); - }); - let closed = false; - socket.on("close", () => { - closed = true; - }); - return { - version: "h1", - defaultPipelining: 1, - write(...args) { - return writeH1(client, ...args); - }, - resume() { - resumeH1(client); - }, - destroy(err, callback) { - if (closed) { - queueMicrotask(callback); - } else { - socket.destroy(err).on("close", callback); - } - }, - get destroyed() { - return socket.destroyed; - }, - busy(request) { - if (socket[kWriting] || socket[kReset] || socket[kBlocking]) { - return true; - } - if (request) { - if (client[kRunning] > 0 && !request.idempotent) { - return true; - } - if (client[kRunning] > 0 && (request.upgrade || request.method === "CONNECT")) { - return true; - } - if (client[kRunning] > 0 && util.bodyLength(request.body) !== 0 && (util.isStream(request.body) || util.isAsyncIterable(request.body) || util.isFormDataLike(request.body))) { - return true; - } - } - return false; + if (this.#type === "0" && this.path.slice(-1) === "/") { + this.#type = "5"; } - }; - } - function resumeH1(client) { - const socket = client[kSocket]; - if (socket && !socket.destroyed) { - if (client[kSize] === 0) { - if (!socket[kNoRef] && socket.unref) { - socket.unref(); - socket[kNoRef] = true; - } - } else if (socket[kNoRef] && socket.ref) { - socket.ref(); - socket[kNoRef] = false; + if (this.#type === "5") { + this.size = 0; } - if (client[kSize] === 0) { - if (socket[kParser].timeoutType !== TIMEOUT_KEEP_ALIVE) { - socket[kParser].setTimeout(client[kKeepAliveTimeoutValue], TIMEOUT_KEEP_ALIVE); - } - } else if (client[kRunning] > 0 && socket[kParser].statusCode < 200) { - if (socket[kParser].timeoutType !== TIMEOUT_HEADERS) { - const request = client[kQueue][client[kRunningIdx]]; - const headersTimeout = request.headersTimeout != null ? request.headersTimeout : client[kHeadersTimeout]; - socket[kParser].setTimeout(headersTimeout, TIMEOUT_HEADERS); + this.linkpath = decString(buf, off + 157, 100); + if (buf.subarray(off + 257, off + 265).toString() === "ustar\x0000") { + this.uname = ex?.uname ?? gex?.uname ?? decString(buf, off + 265, 32); + this.gname = ex?.gname ?? gex?.gname ?? decString(buf, off + 297, 32); + this.devmaj = ex?.devmaj ?? gex?.devmaj ?? decNumber(buf, off + 329, 8) ?? 0; + this.devmin = ex?.devmin ?? gex?.devmin ?? decNumber(buf, off + 337, 8) ?? 0; + if (buf[off + 475] !== 0) { + const prefix = decString(buf, off + 345, 155); + this.path = prefix + "/" + this.path; + } else { + const prefix = decString(buf, off + 345, 130); + if (prefix) { + this.path = prefix + "/" + this.path; + } + this.atime = ex?.atime ?? gex?.atime ?? decDate(buf, off + 476, 12); + this.ctime = ex?.ctime ?? gex?.ctime ?? decDate(buf, off + 488, 12); } } - } - } - function shouldSendContentLength(method) { - return method !== "GET" && method !== "HEAD" && method !== "OPTIONS" && method !== "TRACE" && method !== "CONNECT"; - } - function writeH1(client, request) { - const { method, path: path16, host, upgrade, blocking, reset } = request; - let { body, headers, contentLength } = request; - const expectsPayload = method === "PUT" || method === "POST" || method === "PATCH" || method === "QUERY" || method === "PROPFIND" || method === "PROPPATCH"; - if (util.isFormDataLike(body)) { - if (!extractBody) { - extractBody = require_body().extractBody; - } - const [bodyStream, contentType] = extractBody(body); - if (request.contentType == null) { - headers.push("content-type", contentType); - } - body = bodyStream.stream; - contentLength = bodyStream.length; - } else if (util.isBlobLike(body) && request.contentType == null && body.type) { - headers.push("content-type", body.type); - } - if (body && typeof body.read === "function") { - body.read(0); - } - const bodyLength = util.bodyLength(body); - contentLength = bodyLength ?? contentLength; - if (contentLength === null) { - contentLength = request.contentLength; - } - if (contentLength === 0 && !expectsPayload) { - contentLength = null; - } - if (shouldSendContentLength(method) && contentLength > 0 && request.contentLength !== null && request.contentLength !== contentLength) { - if (client[kStrictContentLength]) { - util.errorRequest(client, request, new RequestContentLengthMismatchError()); - return false; + let sum = 8 * 32; + for (let i = off; i < off + 148; i++) { + sum += buf[i]; } - process.emitWarning(new RequestContentLengthMismatchError()); - } - const socket = client[kSocket]; - const abort = (err) => { - if (request.aborted || request.completed) { - return; + for (let i = off + 156; i < off + 512; i++) { + sum += buf[i]; } - util.errorRequest(client, request, err || new RequestAbortedError()); - util.destroy(body); - util.destroy(socket, new InformationalError("aborted")); - }; - try { - request.onConnect(abort); - } catch (err) { - util.errorRequest(client, request, err); - } - if (request.aborted) { - return false; - } - if (method === "HEAD") { - socket[kReset] = true; - } - if (upgrade || method === "CONNECT") { - socket[kReset] = true; - } - if (reset != null) { - socket[kReset] = reset; - } - if (client[kMaxRequests] && socket[kCounter]++ >= client[kMaxRequests]) { - socket[kReset] = true; - } - if (blocking) { - socket[kBlocking] = true; - } - let header = `${method} ${path16} HTTP/1.1\r -`; - if (typeof host === "string") { - header += `host: ${host}\r -`; - } else { - header += client[kHostHeader]; - } - if (upgrade) { - header += `connection: upgrade\r -upgrade: ${upgrade}\r -`; - } else if (client[kPipelining] && !socket[kReset]) { - header += "connection: keep-alive\r\n"; - } else { - header += "connection: close\r\n"; - } - if (Array.isArray(headers)) { - for (let n = 0; n < headers.length; n += 2) { - const key = headers[n + 0]; - const val = headers[n + 1]; - if (Array.isArray(val)) { - for (let i = 0; i < val.length; i++) { - header += `${key}: ${val[i]}\r -`; - } - } else { - header += `${key}: ${val}\r -`; - } + this.cksumValid = sum === this.cksum; + if (this.cksum === void 0 && sum === 8 * 32) { + this.nullBlock = true; } } - if (channels.sendHeaders.hasSubscribers) { - channels.sendHeaders.publish({ request, headers: header, socket }); - } - if (!body || bodyLength === 0) { - writeBuffer(abort, null, client, request, socket, contentLength, header, expectsPayload); - } else if (util.isBuffer(body)) { - writeBuffer(abort, body, client, request, socket, contentLength, header, expectsPayload); - } else if (util.isBlobLike(body)) { - if (typeof body.stream === "function") { - writeIterable(abort, body.stream(), client, request, socket, contentLength, header, expectsPayload); - } else { - writeBlob(abort, body, client, request, socket, contentLength, header, expectsPayload); - } - } else if (util.isStream(body)) { - writeStream(abort, body, client, request, socket, contentLength, header, expectsPayload); - } else if (util.isIterable(body)) { - writeIterable(abort, body, client, request, socket, contentLength, header, expectsPayload); - } else { - assert5(false); + #slurp(ex, gex = false) { + Object.assign(this, Object.fromEntries(Object.entries(ex).filter(([k, v]) => { + return !(v === null || v === void 0 || k === "path" && gex || k === "linkpath" && gex || k === "global"); + }))); } - return true; - } - function writeStream(abort, body, client, request, socket, contentLength, header, expectsPayload) { - assert5(contentLength !== 0 || client[kRunning] === 0, "stream body cannot be pipelined"); - let finished = false; - const writer = new AsyncWriter({ abort, socket, request, contentLength, client, expectsPayload, header }); - const onData = function(chunk) { - if (finished) { - return; - } - try { - if (!writer.write(chunk) && this.pause) { - this.pause(); - } - } catch (err) { - util.destroy(this, err); - } - }; - const onDrain = function() { - if (finished) { - return; + encode(buf, off = 0) { + if (!buf) { + buf = this.block = Buffer.alloc(512); } - if (body.resume) { - body.resume(); + if (this.#type === "Unsupported") { + this.#type = "0"; } - }; - const onClose = function() { - queueMicrotask(() => { - body.removeListener("error", onFinished); - }); - if (!finished) { - const err = new RequestAbortedError(); - queueMicrotask(() => onFinished(err)); + if (!(buf.length >= off + 512)) { + throw new Error("need 512 bytes for header"); } - }; - const onFinished = function(err) { - if (finished) { - return; + const prefixSize = this.ctime || this.atime ? 130 : 155; + const split = splitPrefix(this.path || "", prefixSize); + const path16 = split[0]; + const prefix = split[1]; + this.needPax = !!split[2]; + this.needPax = encString(buf, off, 100, path16) || this.needPax; + this.needPax = encNumber(buf, off + 100, 8, this.mode) || this.needPax; + this.needPax = encNumber(buf, off + 108, 8, this.uid) || this.needPax; + this.needPax = encNumber(buf, off + 116, 8, this.gid) || this.needPax; + this.needPax = encNumber(buf, off + 124, 12, this.size) || this.needPax; + this.needPax = encDate(buf, off + 136, 12, this.mtime) || this.needPax; + buf[off + 156] = Number(this.#type.codePointAt(0)); + this.needPax = encString(buf, off + 157, 100, this.linkpath) || this.needPax; + buf.write("ustar\x0000", off + 257, 8); + this.needPax = encString(buf, off + 265, 32, this.uname) || this.needPax; + this.needPax = encString(buf, off + 297, 32, this.gname) || this.needPax; + this.needPax = encNumber(buf, off + 329, 8, this.devmaj) || this.needPax; + this.needPax = encNumber(buf, off + 337, 8, this.devmin) || this.needPax; + this.needPax = encString(buf, off + 345, prefixSize, prefix) || this.needPax; + if (buf[off + 475] !== 0) { + this.needPax = encString(buf, off + 345, 155, prefix) || this.needPax; + } else { + this.needPax = encString(buf, off + 345, 130, prefix) || this.needPax; + this.needPax = encDate(buf, off + 476, 12, this.atime) || this.needPax; + this.needPax = encDate(buf, off + 488, 12, this.ctime) || this.needPax; } - finished = true; - assert5(socket.destroyed || socket[kWriting] && client[kRunning] <= 1); - socket.off("drain", onDrain).off("error", onFinished); - body.removeListener("data", onData).removeListener("end", onFinished).removeListener("close", onClose); - if (!err) { - try { - writer.end(); - } catch (er) { - err = er; - } + let sum = 8 * 32; + for (let i = off; i < off + 148; i++) { + sum += buf[i]; } - writer.destroy(err); - if (err && (err.code !== "UND_ERR_INFO" || err.message !== "reset")) { - util.destroy(body, err); - } else { - util.destroy(body); + for (let i = off + 156; i < off + 512; i++) { + sum += buf[i]; } - }; - body.on("data", onData).on("end", onFinished).on("error", onFinished).on("close", onClose); - if (body.resume) { - body.resume(); - } - socket.on("drain", onDrain).on("error", onFinished); - if (body.errorEmitted ?? body.errored) { - setImmediate(() => onFinished(body.errored)); - } else if (body.endEmitted ?? body.readableEnded) { - setImmediate(() => onFinished(null)); - } - if (body.closeEmitted ?? body.closed) { - setImmediate(onClose); - } - } - function writeBuffer(abort, body, client, request, socket, contentLength, header, expectsPayload) { - try { - if (!body) { - if (contentLength === 0) { - socket.write(`${header}content-length: 0\r -\r -`, "latin1"); - } else { - assert5(contentLength === null, "no body must not have content length"); - socket.write(`${header}\r -`, "latin1"); - } - } else if (util.isBuffer(body)) { - assert5(contentLength === body.byteLength, "buffer body must have content length"); - socket.cork(); - socket.write(`${header}content-length: ${contentLength}\r -\r -`, "latin1"); - socket.write(body); - socket.uncork(); - request.onBodySent(body); - if (!expectsPayload && request.reset !== false) { - socket[kReset] = true; - } - } - request.onRequestSent(); - client[kResume](); - } catch (err) { - abort(err); + this.cksum = sum; + encNumber(buf, off + 148, 8, this.cksum); + this.cksumValid = true; + return this.needPax; } - } - async function writeBlob(abort, body, client, request, socket, contentLength, header, expectsPayload) { - assert5(contentLength === body.size, "blob body must have content length"); - try { - if (contentLength != null && contentLength !== body.size) { - throw new RequestContentLengthMismatchError(); - } - const buffer = Buffer.from(await body.arrayBuffer()); - socket.cork(); - socket.write(`${header}content-length: ${contentLength}\r -\r -`, "latin1"); - socket.write(buffer); - socket.uncork(); - request.onBodySent(buffer); - request.onRequestSent(); - if (!expectsPayload && request.reset !== false) { - socket[kReset] = true; - } - client[kResume](); - } catch (err) { - abort(err); + get type() { + return this.#type === "Unsupported" ? this.#type : name.get(this.#type); } - } - async function writeIterable(abort, body, client, request, socket, contentLength, header, expectsPayload) { - assert5(contentLength !== 0 || client[kRunning] === 0, "iterator body cannot be pipelined"); - let callback = null; - function onDrain() { - if (callback) { - const cb = callback; - callback = null; - cb(); - } + get typeKey() { + return this.#type; } - const waitForDrain = () => new Promise((resolve, reject) => { - assert5(callback === null); - if (socket[kError]) { - reject(socket[kError]); + set type(type) { + const c = String(code.get(type)); + if (isCode(c) || c === "Unsupported") { + this.#type = c; + } else if (isCode(type)) { + this.#type = type; } else { - callback = resolve; - } - }); - socket.on("close", onDrain).on("drain", onDrain); - const writer = new AsyncWriter({ abort, socket, request, contentLength, client, expectsPayload, header }); - try { - for await (const chunk of body) { - if (socket[kError]) { - throw socket[kError]; - } - if (!writer.write(chunk)) { - await waitForDrain(); - } + throw new TypeError("invalid entry type: " + type); } - writer.end(); - } catch (err) { - writer.destroy(err); - } finally { - socket.off("close", onDrain).off("drain", onDrain); - } - } - var AsyncWriter = class { - constructor({ abort, socket, request, contentLength, client, expectsPayload, header }) { - this.socket = socket; - this.request = request; - this.contentLength = contentLength; - this.client = client; - this.bytesWritten = 0; - this.expectsPayload = expectsPayload; - this.header = header; - this.abort = abort; - socket[kWriting] = true; } - write(chunk) { - const { socket, request, contentLength, client, bytesWritten, expectsPayload, header } = this; - if (socket[kError]) { - throw socket[kError]; - } - if (socket.destroyed) { - return false; - } - const len = Buffer.byteLength(chunk); - if (!len) { - return true; - } - if (contentLength !== null && bytesWritten + len > contentLength) { - if (client[kStrictContentLength]) { - throw new RequestContentLengthMismatchError(); - } - process.emitWarning(new RequestContentLengthMismatchError()); - } - socket.cork(); - if (bytesWritten === 0) { - if (!expectsPayload && request.reset !== false) { - socket[kReset] = true; - } - if (contentLength === null) { - socket.write(`${header}transfer-encoding: chunked\r -`, "latin1"); + }; + splitPrefix = (p, prefixSize) => { + const pathSize = 100; + let pp = p; + let prefix = ""; + let ret = void 0; + const root = import_node_path.posix.parse(p).root || "."; + if (Buffer.byteLength(pp) < pathSize) { + ret = [pp, prefix, false]; + } else { + prefix = import_node_path.posix.dirname(pp); + pp = import_node_path.posix.basename(pp); + do { + if (Buffer.byteLength(pp) <= pathSize && Buffer.byteLength(prefix) <= prefixSize) { + ret = [pp, prefix, false]; + } else if (Buffer.byteLength(pp) > pathSize && Buffer.byteLength(prefix) <= prefixSize) { + ret = [pp.slice(0, pathSize - 1), prefix, true]; } else { - socket.write(`${header}content-length: ${contentLength}\r -\r -`, "latin1"); + pp = import_node_path.posix.join(import_node_path.posix.basename(prefix), pp); + prefix = import_node_path.posix.dirname(prefix); } - } - if (contentLength === null) { - socket.write(`\r -${len.toString(16)}\r -`, "latin1"); - } - this.bytesWritten += len; - const ret = socket.write(chunk); - socket.uncork(); - request.onBodySent(chunk); + } while (prefix !== root && ret === void 0); if (!ret) { - if (socket[kParser].timeout && socket[kParser].timeoutType === TIMEOUT_HEADERS) { - if (socket[kParser].timeout.refresh) { - socket[kParser].timeout.refresh(); - } - } - } - return ret; - } - end() { - const { socket, contentLength, client, bytesWritten, expectsPayload, header, request } = this; - request.onRequestSent(); - socket[kWriting] = false; - if (socket[kError]) { - throw socket[kError]; - } - if (socket.destroyed) { - return; - } - if (bytesWritten === 0) { - if (expectsPayload) { - socket.write(`${header}content-length: 0\r -\r -`, "latin1"); - } else { - socket.write(`${header}\r -`, "latin1"); - } - } else if (contentLength === null) { - socket.write("\r\n0\r\n\r\n", "latin1"); - } - if (contentLength !== null && bytesWritten !== contentLength) { - if (client[kStrictContentLength]) { - throw new RequestContentLengthMismatchError(); - } else { - process.emitWarning(new RequestContentLengthMismatchError()); - } - } - if (socket[kParser].timeout && socket[kParser].timeoutType === TIMEOUT_HEADERS) { - if (socket[kParser].timeout.refresh) { - socket[kParser].timeout.refresh(); - } - } - client[kResume](); - } - destroy(err) { - const { socket, client, abort } = this; - socket[kWriting] = false; - if (err) { - assert5(client[kRunning] <= 1, "pipeline should only contain this request"); - abort(err); + ret = [p.slice(0, pathSize - 1), "", true]; } } + return ret; + }; + decString = (buf, off, size) => buf.subarray(off, off + size).toString("utf8").replace(/\0.*/, ""); + decDate = (buf, off, size) => numToDate(decNumber(buf, off, size)); + numToDate = (num) => num === void 0 ? void 0 : new Date(num * 1e3); + decNumber = (buf, off, size) => Number(buf[off]) & 128 ? parse(buf.subarray(off, off + size)) : decSmallNumber(buf, off, size); + nanUndef = (value) => isNaN(value) ? void 0 : value; + decSmallNumber = (buf, off, size) => nanUndef(parseInt(buf.subarray(off, off + size).toString("utf8").replace(/\0.*$/, "").trim(), 8)); + MAXNUM = { + 12: 8589934591, + 8: 2097151 }; - module2.exports = connectH1; + encNumber = (buf, off, size, num) => num === void 0 ? false : num > MAXNUM[size] || num < 0 ? (encode(num, buf.subarray(off, off + size)), true) : (encSmallNumber(buf, off, size, num), false); + encSmallNumber = (buf, off, size, num) => buf.write(octalString(num, size), off, size, "ascii"); + octalString = (num, size) => padOctal(Math.floor(num).toString(8), size); + padOctal = (str, size) => (str.length === size - 1 ? str : new Array(size - str.length - 1).join("0") + str + " ") + "\0"; + encDate = (buf, off, size, date) => date === void 0 ? false : encNumber(buf, off, size, date.getTime() / 1e3); + NULLS = new Array(156).join("\0"); + encString = (buf, off, size, str) => str === void 0 ? false : (buf.write(str + NULLS, off, size, "utf8"), str.length !== Buffer.byteLength(str) || str.length > size); } }); -// .yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/dispatcher/client-h2.js -var require_client_h2 = __commonJS({ - ".yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/dispatcher/client-h2.js"(exports2, module2) { - "use strict"; - var assert5 = require("node:assert"); - var { pipeline } = require("node:stream"); - var util = require_util(); - var { - RequestContentLengthMismatchError, - RequestAbortedError, - SocketError, - InformationalError - } = require_errors(); - var { - kUrl, - kReset, - kClient, - kRunning, - kPending, - kQueue, - kPendingIdx, - kRunningIdx, - kError, - kSocket, - kStrictContentLength, - kOnError, - kMaxConcurrentStreams, - kHTTP2Session, - kResume, - kSize, - kHTTPContext - } = require_symbols(); - var kOpenStreams = Symbol("open streams"); - var extractBody; - var h2ExperimentalWarned = false; - var http2; - try { - http2 = require("node:http2"); - } catch { - http2 = { constants: {} }; - } - var { - constants: { - HTTP2_HEADER_AUTHORITY, - HTTP2_HEADER_METHOD, - HTTP2_HEADER_PATH, - HTTP2_HEADER_SCHEME, - HTTP2_HEADER_CONTENT_LENGTH, - HTTP2_HEADER_EXPECT, - HTTP2_HEADER_STATUS - } - } = http2; - function parseH2Headers(headers) { - const result = []; - for (const [name2, value] of Object.entries(headers)) { - if (Array.isArray(value)) { - for (const subvalue of value) { - result.push(Buffer.from(name2), Buffer.from(subvalue)); - } - } else { - result.push(Buffer.from(name2), Buffer.from(value)); - } - } - return result; - } - async function connectH2(client, socket) { - client[kSocket] = socket; - if (!h2ExperimentalWarned) { - h2ExperimentalWarned = true; - process.emitWarning("H2 support is experimental, expect them to change at any time.", { - code: "UNDICI-H2" - }); +// node_modules/tar/dist/esm/pax.js +var import_node_path2, Pax, merge, parseKV, parseKVLine; +var init_pax = __esm({ + "node_modules/tar/dist/esm/pax.js"() { + import_node_path2 = require("node:path"); + init_header(); + Pax = class _Pax { + atime; + mtime; + ctime; + charset; + comment; + gid; + uid; + gname; + uname; + linkpath; + dev; + ino; + nlink; + path; + size; + mode; + global; + constructor(obj, global2 = false) { + this.atime = obj.atime; + this.charset = obj.charset; + this.comment = obj.comment; + this.ctime = obj.ctime; + this.dev = obj.dev; + this.gid = obj.gid; + this.global = global2; + this.gname = obj.gname; + this.ino = obj.ino; + this.linkpath = obj.linkpath; + this.mtime = obj.mtime; + this.nlink = obj.nlink; + this.path = obj.path; + this.size = obj.size; + this.uid = obj.uid; + this.uname = obj.uname; } - const session = http2.connect(client[kUrl], { - createConnection: () => socket, - peerMaxConcurrentStreams: client[kMaxConcurrentStreams] - }); - session[kOpenStreams] = 0; - session[kClient] = client; - session[kSocket] = socket; - util.addListener(session, "error", onHttp2SessionError); - util.addListener(session, "frameError", onHttp2FrameError); - util.addListener(session, "end", onHttp2SessionEnd); - util.addListener(session, "goaway", onHTTP2GoAway); - util.addListener(session, "close", function() { - const { [kClient]: client2 } = this; - const { [kSocket]: socket2 } = client2; - const err = this[kSocket][kError] || this[kError] || new SocketError("closed", util.getSocketInfo(socket2)); - client2[kHTTP2Session] = null; - if (client2.destroyed) { - assert5(client2[kPending] === 0); - const requests = client2[kQueue].splice(client2[kRunningIdx]); - for (let i = 0; i < requests.length; i++) { - const request = requests[i]; - util.errorRequest(client2, request, err); - } + encode() { + const body = this.encodeBody(); + if (body === "") { + return Buffer.allocUnsafe(0); } - }); - session.unref(); - client[kHTTP2Session] = session; - socket[kHTTP2Session] = session; - util.addListener(socket, "error", function(err) { - assert5(err.code !== "ERR_TLS_CERT_ALTNAME_INVALID"); - this[kError] = err; - this[kClient][kOnError](err); - }); - util.addListener(socket, "end", function() { - util.destroy(this, new SocketError("other side closed", util.getSocketInfo(this))); - }); - util.addListener(socket, "close", function() { - const err = this[kError] || new SocketError("closed", util.getSocketInfo(this)); - client[kSocket] = null; - if (this[kHTTP2Session] != null) { - this[kHTTP2Session].destroy(err); - } - client[kPendingIdx] = client[kRunningIdx]; - assert5(client[kRunning] === 0); - client.emit("disconnect", client[kUrl], [client], err); - client[kResume](); - }); - let closed = false; - socket.on("close", () => { - closed = true; - }); - return { - version: "h2", - defaultPipelining: Infinity, - write(...args) { - return writeH2(client, ...args); - }, - resume() { - resumeH2(client); - }, - destroy(err, callback) { - if (closed) { - queueMicrotask(callback); - } else { - socket.destroy(err).on("close", callback); - } - }, - get destroyed() { - return socket.destroyed; - }, - busy() { - return false; + const bodyLen = Buffer.byteLength(body); + const bufLen = 512 * Math.ceil(1 + bodyLen / 512); + const buf = Buffer.allocUnsafe(bufLen); + for (let i = 0; i < 512; i++) { + buf[i] = 0; } - }; - } - function resumeH2(client) { - const socket = client[kSocket]; - if (socket?.destroyed === false) { - if (client[kSize] === 0 && client[kMaxConcurrentStreams] === 0) { - socket.unref(); - client[kHTTP2Session].unref(); - } else { - socket.ref(); - client[kHTTP2Session].ref(); + new Header({ + // XXX split the path + // then the path should be PaxHeader + basename, but less than 99, + // prepend with the dirname + /* c8 ignore start */ + path: ("PaxHeader/" + (0, import_node_path2.basename)(this.path ?? "")).slice(0, 99), + /* c8 ignore stop */ + mode: this.mode || 420, + uid: this.uid, + gid: this.gid, + size: bodyLen, + mtime: this.mtime, + type: this.global ? "GlobalExtendedHeader" : "ExtendedHeader", + linkpath: "", + uname: this.uname || "", + gname: this.gname || "", + devmaj: 0, + devmin: 0, + atime: this.atime, + ctime: this.ctime + }).encode(buf); + buf.write(body, 512, bodyLen, "utf8"); + for (let i = bodyLen + 512; i < buf.length; i++) { + buf[i] = 0; } + return buf; } - } - function onHttp2SessionError(err) { - assert5(err.code !== "ERR_TLS_CERT_ALTNAME_INVALID"); - this[kSocket][kError] = err; - this[kClient][kOnError](err); - } - function onHttp2FrameError(type, code2, id) { - if (id === 0) { - const err = new InformationalError(`HTTP/2: "frameError" received - type ${type}, code ${code2}`); - this[kSocket][kError] = err; - this[kClient][kOnError](err); - } - } - function onHttp2SessionEnd() { - const err = new SocketError("other side closed", util.getSocketInfo(this[kSocket])); - this.destroy(err); - util.destroy(this[kSocket], err); - } - function onHTTP2GoAway(code2) { - const err = this[kError] || new SocketError(`HTTP/2: "GOAWAY" frame received with code ${code2}`, util.getSocketInfo(this)); - const client = this[kClient]; - client[kSocket] = null; - client[kHTTPContext] = null; - if (this[kHTTP2Session] != null) { - this[kHTTP2Session].destroy(err); - this[kHTTP2Session] = null; - } - util.destroy(this[kSocket], err); - if (client[kRunningIdx] < client[kQueue].length) { - const request = client[kQueue][client[kRunningIdx]]; - client[kQueue][client[kRunningIdx]++] = null; - util.errorRequest(client, request, err); - client[kPendingIdx] = client[kRunningIdx]; - } - assert5(client[kRunning] === 0); - client.emit("disconnect", client[kUrl], [client], err); - client[kResume](); - } - function shouldSendContentLength(method) { - return method !== "GET" && method !== "HEAD" && method !== "OPTIONS" && method !== "TRACE" && method !== "CONNECT"; - } - function writeH2(client, request) { - const session = client[kHTTP2Session]; - const { method, path: path16, host, upgrade, expectContinue, signal, headers: reqHeaders } = request; - let { body } = request; - if (upgrade) { - util.errorRequest(client, request, new Error("Upgrade not supported for H2")); - return false; - } - const headers = {}; - for (let n = 0; n < reqHeaders.length; n += 2) { - const key = reqHeaders[n + 0]; - const val = reqHeaders[n + 1]; - if (Array.isArray(val)) { - for (let i = 0; i < val.length; i++) { - if (headers[key]) { - headers[key] += `,${val[i]}`; - } else { - headers[key] = val[i]; - } - } - } else { - headers[key] = val; - } + encodeBody() { + return this.encodeField("path") + this.encodeField("ctime") + this.encodeField("atime") + this.encodeField("dev") + this.encodeField("ino") + this.encodeField("nlink") + this.encodeField("charset") + this.encodeField("comment") + this.encodeField("gid") + this.encodeField("gname") + this.encodeField("linkpath") + this.encodeField("mtime") + this.encodeField("size") + this.encodeField("uid") + this.encodeField("uname"); } - let stream; - const { hostname, port } = client[kUrl]; - headers[HTTP2_HEADER_AUTHORITY] = host || `${hostname}${port ? `:${port}` : ""}`; - headers[HTTP2_HEADER_METHOD] = method; - const abort = (err) => { - if (request.aborted || request.completed) { - return; + encodeField(field) { + if (this[field] === void 0) { + return ""; } - err = err || new RequestAbortedError(); - util.errorRequest(client, request, err); - if (stream != null) { - util.destroy(stream, err); + const r = this[field]; + const v = r instanceof Date ? r.getTime() / 1e3 : r; + const s = " " + (field === "dev" || field === "ino" || field === "nlink" ? "SCHILY." : "") + field + "=" + v + "\n"; + const byteLen = Buffer.byteLength(s); + let digits = Math.floor(Math.log(byteLen) / Math.log(10)) + 1; + if (byteLen + digits >= Math.pow(10, digits)) { + digits += 1; } - util.destroy(body, err); - client[kQueue][client[kRunningIdx]++] = null; - client[kResume](); - }; - try { - request.onConnect(abort); - } catch (err) { - util.errorRequest(client, request, err); - } - if (request.aborted) { - return false; + const len = digits + byteLen; + return len + s; } - if (method === "CONNECT") { - session.ref(); - stream = session.request(headers, { endStream: false, signal }); - if (stream.id && !stream.pending) { - request.onUpgrade(null, null, stream); - ++session[kOpenStreams]; - client[kQueue][client[kRunningIdx]++] = null; - } else { - stream.once("ready", () => { - request.onUpgrade(null, null, stream); - ++session[kOpenStreams]; - client[kQueue][client[kRunningIdx]++] = null; - }); - } - stream.once("close", () => { - session[kOpenStreams] -= 1; - if (session[kOpenStreams] === 0) session.unref(); - }); - return true; + static parse(str, ex, g = false) { + return new _Pax(merge(parseKV(str), ex), g); } - headers[HTTP2_HEADER_PATH] = path16; - headers[HTTP2_HEADER_SCHEME] = "https"; - const expectsPayload = method === "PUT" || method === "POST" || method === "PATCH"; - if (body && typeof body.read === "function") { - body.read(0); - } - let contentLength = util.bodyLength(body); - if (util.isFormDataLike(body)) { - extractBody ??= require_body().extractBody; - const [bodyStream, contentType] = extractBody(body); - headers["content-type"] = contentType; - body = bodyStream.stream; - contentLength = bodyStream.length; - } - if (contentLength == null) { - contentLength = request.contentLength; - } - if (contentLength === 0 || !expectsPayload) { - contentLength = null; - } - if (shouldSendContentLength(method) && contentLength > 0 && request.contentLength != null && request.contentLength !== contentLength) { - if (client[kStrictContentLength]) { - util.errorRequest(client, request, new RequestContentLengthMismatchError()); - return false; - } - process.emitWarning(new RequestContentLengthMismatchError()); - } - if (contentLength != null) { - assert5(body, "no body must not have content length"); - headers[HTTP2_HEADER_CONTENT_LENGTH] = `${contentLength}`; - } - session.ref(); - const shouldEndStream = method === "GET" || method === "HEAD" || body === null; - if (expectContinue) { - headers[HTTP2_HEADER_EXPECT] = "100-continue"; - stream = session.request(headers, { endStream: shouldEndStream, signal }); - stream.once("continue", writeBodyH2); - } else { - stream = session.request(headers, { - endStream: shouldEndStream, - signal - }); - writeBodyH2(); - } - ++session[kOpenStreams]; - stream.once("response", (headers2) => { - const { [HTTP2_HEADER_STATUS]: statusCode, ...realHeaders } = headers2; - request.onResponseStarted(); - if (request.aborted) { - const err = new RequestAbortedError(); - util.errorRequest(client, request, err); - util.destroy(stream, err); - return; - } - if (request.onHeaders(Number(statusCode), parseH2Headers(realHeaders), stream.resume.bind(stream), "") === false) { - stream.pause(); - } - stream.on("data", (chunk) => { - if (request.onData(chunk) === false) { - stream.pause(); - } - }); - }); - stream.once("end", () => { - if (stream.state?.state == null || stream.state.state < 6) { - request.onComplete([]); - } - if (session[kOpenStreams] === 0) { - session.unref(); - } - abort(new InformationalError("HTTP/2: stream half-closed (remote)")); - client[kQueue][client[kRunningIdx]++] = null; - client[kPendingIdx] = client[kRunningIdx]; - client[kResume](); - }); - stream.once("close", () => { - session[kOpenStreams] -= 1; - if (session[kOpenStreams] === 0) { - session.unref(); - } - }); - stream.once("error", function(err) { - abort(err); - }); - stream.once("frameError", (type, code2) => { - abort(new InformationalError(`HTTP/2: "frameError" received - type ${type}, code ${code2}`)); - }); - return true; - function writeBodyH2() { - if (!body || contentLength === 0) { - writeBuffer( - abort, - stream, - null, - client, - request, - client[kSocket], - contentLength, - expectsPayload - ); - } else if (util.isBuffer(body)) { - writeBuffer( - abort, - stream, - body, - client, - request, - client[kSocket], - contentLength, - expectsPayload - ); - } else if (util.isBlobLike(body)) { - if (typeof body.stream === "function") { - writeIterable( - abort, - stream, - body.stream(), - client, - request, - client[kSocket], - contentLength, - expectsPayload - ); - } else { - writeBlob( - abort, - stream, - body, - client, - request, - client[kSocket], - contentLength, - expectsPayload - ); - } - } else if (util.isStream(body)) { - writeStream( - abort, - client[kSocket], - expectsPayload, - stream, - body, - client, - request, - contentLength - ); - } else if (util.isIterable(body)) { - writeIterable( - abort, - stream, - body, - client, - request, - client[kSocket], - contentLength, - expectsPayload - ); - } else { - assert5(false); - } - } - } - function writeBuffer(abort, h2stream, body, client, request, socket, contentLength, expectsPayload) { - try { - if (body != null && util.isBuffer(body)) { - assert5(contentLength === body.byteLength, "buffer body must have content length"); - h2stream.cork(); - h2stream.write(body); - h2stream.uncork(); - h2stream.end(); - request.onBodySent(body); - } - if (!expectsPayload) { - socket[kReset] = true; - } - request.onRequestSent(); - client[kResume](); - } catch (error) { - abort(error); - } - } - function writeStream(abort, socket, expectsPayload, h2stream, body, client, request, contentLength) { - assert5(contentLength !== 0 || client[kRunning] === 0, "stream body cannot be pipelined"); - const pipe = pipeline( - body, - h2stream, - (err) => { - if (err) { - util.destroy(pipe, err); - abort(err); - } else { - util.removeAllListeners(pipe); - request.onRequestSent(); - if (!expectsPayload) { - socket[kReset] = true; - } - client[kResume](); - } - } - ); - util.addListener(pipe, "data", onPipeData); - function onPipeData(chunk) { - request.onBodySent(chunk); - } - } - async function writeBlob(abort, h2stream, body, client, request, socket, contentLength, expectsPayload) { - assert5(contentLength === body.size, "blob body must have content length"); - try { - if (contentLength != null && contentLength !== body.size) { - throw new RequestContentLengthMismatchError(); - } - const buffer = Buffer.from(await body.arrayBuffer()); - h2stream.cork(); - h2stream.write(buffer); - h2stream.uncork(); - h2stream.end(); - request.onBodySent(buffer); - request.onRequestSent(); - if (!expectsPayload) { - socket[kReset] = true; - } - client[kResume](); - } catch (err) { - abort(err); - } - } - async function writeIterable(abort, h2stream, body, client, request, socket, contentLength, expectsPayload) { - assert5(contentLength !== 0 || client[kRunning] === 0, "iterator body cannot be pipelined"); - let callback = null; - function onDrain() { - if (callback) { - const cb = callback; - callback = null; - cb(); - } + }; + merge = (a, b) => b ? Object.assign({}, b, a) : a; + parseKV = (str) => str.replace(/\n$/, "").split("\n").reduce(parseKVLine, /* @__PURE__ */ Object.create(null)); + parseKVLine = (set, line) => { + const n = parseInt(line, 10); + if (n !== Buffer.byteLength(line) + 1) { + return set; } - const waitForDrain = () => new Promise((resolve, reject) => { - assert5(callback === null); - if (socket[kError]) { - reject(socket[kError]); - } else { - callback = resolve; - } - }); - h2stream.on("close", onDrain).on("drain", onDrain); - try { - for await (const chunk of body) { - if (socket[kError]) { - throw socket[kError]; - } - const res = h2stream.write(chunk); - request.onBodySent(chunk); - if (!res) { - await waitForDrain(); - } - } - h2stream.end(); - request.onRequestSent(); - if (!expectsPayload) { - socket[kReset] = true; - } - client[kResume](); - } catch (err) { - abort(err); - } finally { - h2stream.off("close", onDrain).off("drain", onDrain); + line = line.slice((n + " ").length); + const kv = line.split("="); + const r = kv.shift(); + if (!r) { + return set; } - } - module2.exports = connectH2; + const k = r.replace(/^SCHILY\.(dev|ino|nlink)/, "$1"); + const v = kv.join("="); + set[k] = /^([A-Z]+\.)?([mac]|birth|creation)time$/.test(k) ? new Date(Number(v) * 1e3) : /^[0-9]+$/.test(v) ? +v : v; + return set; + }; } }); -// .yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/handler/redirect-handler.js -var require_redirect_handler = __commonJS({ - ".yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/handler/redirect-handler.js"(exports2, module2) { - "use strict"; - var util = require_util(); - var { kBodyUsed } = require_symbols(); - var assert5 = require("node:assert"); - var { InvalidArgumentError } = require_errors(); - var EE3 = require("node:events"); - var redirectableStatusCodes = [300, 301, 302, 303, 307, 308]; - var kBody = Symbol("body"); - var BodyAsyncIterable = class { - constructor(body) { - this[kBody] = body; - this[kBodyUsed] = false; - } - async *[Symbol.asyncIterator]() { - assert5(!this[kBodyUsed], "disturbed"); - this[kBodyUsed] = true; - yield* this[kBody]; - } - }; - var RedirectHandler = class { - constructor(dispatch, maxRedirections, opts, handler) { - if (maxRedirections != null && (!Number.isInteger(maxRedirections) || maxRedirections < 0)) { - throw new InvalidArgumentError("maxRedirections must be a positive number"); - } - util.validateHandler(handler, opts.method, opts.upgrade); - this.dispatch = dispatch; - this.location = null; - this.abort = null; - this.opts = { ...opts, maxRedirections: 0 }; - this.maxRedirections = maxRedirections; - this.handler = handler; - this.history = []; - this.redirectionLimitReached = false; - if (util.isStream(this.opts.body)) { - if (util.bodyLength(this.opts.body) === 0) { - this.opts.body.on("data", function() { - assert5(false); - }); - } - if (typeof this.opts.body.readableDidRead !== "boolean") { - this.opts.body[kBodyUsed] = false; - EE3.prototype.on.call(this.opts.body, "data", function() { - this[kBodyUsed] = true; - }); - } - } else if (this.opts.body && typeof this.opts.body.pipeTo === "function") { - this.opts.body = new BodyAsyncIterable(this.opts.body); - } else if (this.opts.body && typeof this.opts.body !== "string" && !ArrayBuffer.isView(this.opts.body) && util.isIterable(this.opts.body)) { - this.opts.body = new BodyAsyncIterable(this.opts.body); - } - } - onConnect(abort) { - this.abort = abort; - this.handler.onConnect(abort, { history: this.history }); - } - onUpgrade(statusCode, headers, socket) { - this.handler.onUpgrade(statusCode, headers, socket); - } - onError(error) { - this.handler.onError(error); - } - onHeaders(statusCode, headers, resume, statusText) { - this.location = this.history.length >= this.maxRedirections || util.isDisturbed(this.opts.body) ? null : parseLocation(statusCode, headers); - if (this.opts.throwOnMaxRedirect && this.history.length >= this.maxRedirections) { - if (this.request) { - this.request.abort(new Error("max redirects")); - } - this.redirectionLimitReached = true; - this.abort(new Error("max redirects")); - return; +// node_modules/tar/dist/esm/normalize-windows-path.js +var platform, normalizeWindowsPath; +var init_normalize_windows_path = __esm({ + "node_modules/tar/dist/esm/normalize-windows-path.js"() { + platform = process.env.TESTING_TAR_FAKE_PLATFORM || process.platform; + normalizeWindowsPath = platform !== "win32" ? (p) => p : (p) => p && p.replaceAll(/\\/g, "/"); + } +}); + +// node_modules/tar/dist/esm/read-entry.js +var ReadEntry; +var init_read_entry = __esm({ + "node_modules/tar/dist/esm/read-entry.js"() { + init_esm(); + init_normalize_windows_path(); + ReadEntry = class extends Minipass { + extended; + globalExtended; + header; + startBlockSize; + blockRemain; + remain; + type; + meta = false; + ignore = false; + path; + mode; + uid; + gid; + uname; + gname; + size = 0; + mtime; + atime; + ctime; + linkpath; + dev; + ino; + nlink; + invalid = false; + absolute; + unsupported = false; + constructor(header, ex, gex) { + super({}); + this.pause(); + this.extended = ex; + this.globalExtended = gex; + this.header = header; + this.remain = header.size ?? 0; + this.startBlockSize = 512 * Math.ceil(this.remain / 512); + this.blockRemain = this.startBlockSize; + this.type = header.type; + switch (this.type) { + case "File": + case "OldFile": + case "Link": + case "SymbolicLink": + case "CharacterDevice": + case "BlockDevice": + case "Directory": + case "FIFO": + case "ContiguousFile": + case "GNUDumpDir": + break; + case "NextFileHasLongLinkpath": + case "NextFileHasLongPath": + case "OldGnuLongPath": + case "GlobalExtendedHeader": + case "ExtendedHeader": + case "OldExtendedHeader": + this.meta = true; + break; + // NOTE: gnutar and bsdtar treat unrecognized types as 'File' + // it may be worth doing the same, but with a warning. + default: + this.ignore = true; } - if (this.opts.origin) { - this.history.push(new URL(this.opts.path, this.opts.origin)); + if (!header.path) { + throw new Error("no path provided for tar.ReadEntry"); } - if (!this.location) { - return this.handler.onHeaders(statusCode, headers, resume, statusText); + this.path = normalizeWindowsPath(header.path); + this.mode = header.mode; + if (this.mode) { + this.mode = this.mode & 4095; } - const { origin, pathname, search } = util.parseURL(new URL(this.location, this.opts.origin && new URL(this.opts.path, this.opts.origin))); - const path16 = search ? `${pathname}${search}` : pathname; - this.opts.headers = cleanRequestHeaders(this.opts.headers, statusCode === 303, this.opts.origin !== origin); - this.opts.path = path16; - this.opts.origin = origin; - this.opts.maxRedirections = 0; - this.opts.query = null; - if (statusCode === 303 && this.opts.method !== "HEAD") { - this.opts.method = "GET"; - this.opts.body = null; + this.uid = header.uid; + this.gid = header.gid; + this.uname = header.uname; + this.gname = header.gname; + this.size = this.remain; + this.mtime = header.mtime; + this.atime = header.atime; + this.ctime = header.ctime; + this.linkpath = header.linkpath ? normalizeWindowsPath(header.linkpath) : void 0; + this.uname = header.uname; + this.gname = header.gname; + if (ex) { + this.#slurp(ex); } - } - onData(chunk) { - if (this.location) { - } else { - return this.handler.onData(chunk); + if (gex) { + this.#slurp(gex, true); } } - onComplete(trailers) { - if (this.location) { - this.location = null; - this.abort = null; - this.dispatch(this.opts, this); - } else { - this.handler.onComplete(trailers); + write(data) { + const writeLen = data.length; + if (writeLen > this.blockRemain) { + throw new Error("writing more to entry than is appropriate"); } - } - onBodySent(chunk) { - if (this.handler.onBodySent) { - this.handler.onBodySent(chunk); + const r = this.remain; + const br = this.blockRemain; + this.remain = Math.max(0, r - writeLen); + this.blockRemain = Math.max(0, br - writeLen); + if (this.ignore) { + return true; } - } - }; - function parseLocation(statusCode, headers) { - if (redirectableStatusCodes.indexOf(statusCode) === -1) { - return null; - } - for (let i = 0; i < headers.length; i += 2) { - if (headers[i].length === 8 && util.headerNameToString(headers[i]) === "location") { - return headers[i + 1]; + if (r >= writeLen) { + return super.write(data); } + return super.write(data.subarray(0, r)); } - } - function shouldRemoveHeader(header, removeContent, unknownOrigin) { - if (header.length === 4) { - return util.headerNameToString(header) === "host"; + #slurp(ex, gex = false) { + if (ex.path) + ex.path = normalizeWindowsPath(ex.path); + if (ex.linkpath) + ex.linkpath = normalizeWindowsPath(ex.linkpath); + Object.assign(this, Object.fromEntries(Object.entries(ex).filter(([k, v]) => { + return !(v === null || v === void 0 || k === "path" && gex); + }))); } - if (removeContent && util.headerNameToString(header).startsWith("content-")) { - return true; + }; + } +}); + +// node_modules/tar/dist/esm/warn-method.js +var warnMethod; +var init_warn_method = __esm({ + "node_modules/tar/dist/esm/warn-method.js"() { + warnMethod = (self2, code2, message, data = {}) => { + if (self2.file) { + data.file = self2.file; } - if (unknownOrigin && (header.length === 13 || header.length === 6 || header.length === 19)) { - const name2 = util.headerNameToString(header); - return name2 === "authorization" || name2 === "cookie" || name2 === "proxy-authorization"; + if (self2.cwd) { + data.cwd = self2.cwd; } - return false; - } - function cleanRequestHeaders(headers, removeContent, unknownOrigin) { - const ret = []; - if (Array.isArray(headers)) { - for (let i = 0; i < headers.length; i += 2) { - if (!shouldRemoveHeader(headers[i], removeContent, unknownOrigin)) { - ret.push(headers[i], headers[i + 1]); - } - } - } else if (headers && typeof headers === "object") { - for (const key of Object.keys(headers)) { - if (!shouldRemoveHeader(key, removeContent, unknownOrigin)) { - ret.push(key, headers[key]); - } + data.code = message instanceof Error && message.code || code2; + data.tarCode = code2; + if (!self2.strict && data.recoverable !== false) { + if (message instanceof Error) { + data = Object.assign(message, data); + message = message.message; } + self2.emit("warn", code2, message, data); + } else if (message instanceof Error) { + self2.emit("error", Object.assign(message, data)); } else { - assert5(headers == null, "headers must be an object or an array"); + self2.emit("error", Object.assign(new Error(`${code2}: ${message}`), data)); } - return ret; - } - module2.exports = RedirectHandler; - } -}); - -// .yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/interceptor/redirect-interceptor.js -var require_redirect_interceptor = __commonJS({ - ".yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/interceptor/redirect-interceptor.js"(exports2, module2) { - "use strict"; - var RedirectHandler = require_redirect_handler(); - function createRedirectInterceptor({ maxRedirections: defaultMaxRedirections }) { - return (dispatch) => { - return function Intercept(opts, handler) { - const { maxRedirections = defaultMaxRedirections } = opts; - if (!maxRedirections) { - return dispatch(opts, handler); - } - const redirectHandler = new RedirectHandler(dispatch, maxRedirections, opts, handler); - opts = { ...opts, maxRedirections: 0 }; - return dispatch(opts, redirectHandler); - }; - }; - } - module2.exports = createRedirectInterceptor; + }; } }); -// .yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/dispatcher/client.js -var require_client = __commonJS({ - ".yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/dispatcher/client.js"(exports2, module2) { - "use strict"; - var assert5 = require("node:assert"); - var net = require("node:net"); - var http = require("node:http"); - var util = require_util(); - var { channels } = require_diagnostics(); - var Request = require_request(); - var DispatcherBase = require_dispatcher_base(); - var { - InvalidArgumentError, - InformationalError, - ClientDestroyedError - } = require_errors(); - var buildConnector = require_connect(); - var { - kUrl, - kServerName, - kClient, - kBusy, - kConnect, - kResuming, - kRunning, - kPending, - kSize, - kQueue, - kConnected, - kConnecting, - kNeedDrain, - kKeepAliveDefaultTimeout, - kHostHeader, - kPendingIdx, - kRunningIdx, - kError, - kPipelining, - kKeepAliveTimeoutValue, - kMaxHeadersSize, - kKeepAliveMaxTimeout, - kKeepAliveTimeoutThreshold, - kHeadersTimeout, - kBodyTimeout, - kStrictContentLength, - kConnector, - kMaxRedirections, - kMaxRequests, - kCounter, - kClose, - kDestroy, - kDispatch, - kInterceptors, - kLocalAddress, - kMaxResponseSize, - kOnError, - kHTTPContext, - kMaxConcurrentStreams, - kResume - } = require_symbols(); - var connectH1 = require_client_h1(); - var connectH2 = require_client_h2(); - var deprecatedInterceptorWarned = false; - var kClosedResolve = Symbol("kClosedResolve"); - var noop3 = () => { - }; - function getPipelining(client) { - return client[kPipelining] ?? client[kHTTPContext]?.defaultPipelining ?? 1; - } - var Client = class extends DispatcherBase { - /** - * - * @param {string|URL} url - * @param {import('../../types/client.js').Client.Options} options - */ - constructor(url, { - interceptors, - maxHeaderSize, - headersTimeout, - socketTimeout, - requestTimeout, - connectTimeout, - bodyTimeout, - idleTimeout, - keepAlive, - keepAliveTimeout, - maxKeepAliveTimeout, - keepAliveMaxTimeout, - keepAliveTimeoutThreshold, - socketPath, - pipelining, - tls, - strictContentLength, - maxCachedSessions, - maxRedirections, - connect: connect2, - maxRequestsPerClient, - localAddress, - maxResponseSize, - autoSelectFamily, - autoSelectFamilyAttemptTimeout, - // h2 - maxConcurrentStreams, - allowH2 - } = {}) { +// node_modules/tar/dist/esm/parse.js +var import_events3, maxMetaEntrySize, gzipHeader, zstdHeader, ZIP_HEADER_LEN, STATE, WRITEENTRY, READENTRY, NEXTENTRY, PROCESSENTRY, EX, GEX, META, EMITMETA, BUFFER2, QUEUE, ENDED, EMITTEDEND, EMIT, UNZIP, CONSUMECHUNK, CONSUMECHUNKSUB, CONSUMEBODY, CONSUMEMETA, CONSUMEHEADER, CONSUMING, BUFFERCONCAT, MAYBEEND, WRITING, ABORTED2, DONE, SAW_VALID_ENTRY, SAW_NULL_BLOCK, SAW_EOF, CLOSESTREAM, noop2, Parser; +var init_parse = __esm({ + "node_modules/tar/dist/esm/parse.js"() { + import_events3 = require("events"); + init_esm3(); + init_header(); + init_pax(); + init_read_entry(); + init_warn_method(); + maxMetaEntrySize = 1024 * 1024; + gzipHeader = Buffer.from([31, 139]); + zstdHeader = Buffer.from([40, 181, 47, 253]); + ZIP_HEADER_LEN = Math.max(gzipHeader.length, zstdHeader.length); + STATE = /* @__PURE__ */ Symbol("state"); + WRITEENTRY = /* @__PURE__ */ Symbol("writeEntry"); + READENTRY = /* @__PURE__ */ Symbol("readEntry"); + NEXTENTRY = /* @__PURE__ */ Symbol("nextEntry"); + PROCESSENTRY = /* @__PURE__ */ Symbol("processEntry"); + EX = /* @__PURE__ */ Symbol("extendedHeader"); + GEX = /* @__PURE__ */ Symbol("globalExtendedHeader"); + META = /* @__PURE__ */ Symbol("meta"); + EMITMETA = /* @__PURE__ */ Symbol("emitMeta"); + BUFFER2 = /* @__PURE__ */ Symbol("buffer"); + QUEUE = /* @__PURE__ */ Symbol("queue"); + ENDED = /* @__PURE__ */ Symbol("ended"); + EMITTEDEND = /* @__PURE__ */ Symbol("emittedEnd"); + EMIT = /* @__PURE__ */ Symbol("emit"); + UNZIP = /* @__PURE__ */ Symbol("unzip"); + CONSUMECHUNK = /* @__PURE__ */ Symbol("consumeChunk"); + CONSUMECHUNKSUB = /* @__PURE__ */ Symbol("consumeChunkSub"); + CONSUMEBODY = /* @__PURE__ */ Symbol("consumeBody"); + CONSUMEMETA = /* @__PURE__ */ Symbol("consumeMeta"); + CONSUMEHEADER = /* @__PURE__ */ Symbol("consumeHeader"); + CONSUMING = /* @__PURE__ */ Symbol("consuming"); + BUFFERCONCAT = /* @__PURE__ */ Symbol("bufferConcat"); + MAYBEEND = /* @__PURE__ */ Symbol("maybeEnd"); + WRITING = /* @__PURE__ */ Symbol("writing"); + ABORTED2 = /* @__PURE__ */ Symbol("aborted"); + DONE = /* @__PURE__ */ Symbol("onDone"); + SAW_VALID_ENTRY = /* @__PURE__ */ Symbol("sawValidEntry"); + SAW_NULL_BLOCK = /* @__PURE__ */ Symbol("sawNullBlock"); + SAW_EOF = /* @__PURE__ */ Symbol("sawEOF"); + CLOSESTREAM = /* @__PURE__ */ Symbol("closeStream"); + noop2 = () => true; + Parser = class extends import_events3.EventEmitter { + file; + strict; + maxMetaEntrySize; + filter; + brotli; + zstd; + writable = true; + readable = false; + [QUEUE] = []; + [BUFFER2]; + [READENTRY]; + [WRITEENTRY]; + [STATE] = "begin"; + [META] = ""; + [EX]; + [GEX]; + [ENDED] = false; + [UNZIP]; + [ABORTED2] = false; + [SAW_VALID_ENTRY]; + [SAW_NULL_BLOCK] = false; + [SAW_EOF] = false; + [WRITING] = false; + [CONSUMING] = false; + [EMITTEDEND] = false; + constructor(opt = {}) { super(); - if (keepAlive !== void 0) { - throw new InvalidArgumentError("unsupported keepAlive, use pipelining=0 instead"); - } - if (socketTimeout !== void 0) { - throw new InvalidArgumentError("unsupported socketTimeout, use headersTimeout & bodyTimeout instead"); - } - if (requestTimeout !== void 0) { - throw new InvalidArgumentError("unsupported requestTimeout, use headersTimeout & bodyTimeout instead"); - } - if (idleTimeout !== void 0) { - throw new InvalidArgumentError("unsupported idleTimeout, use keepAliveTimeout instead"); - } - if (maxKeepAliveTimeout !== void 0) { - throw new InvalidArgumentError("unsupported maxKeepAliveTimeout, use keepAliveMaxTimeout instead"); - } - if (maxHeaderSize != null && !Number.isFinite(maxHeaderSize)) { - throw new InvalidArgumentError("invalid maxHeaderSize"); - } - if (socketPath != null && typeof socketPath !== "string") { - throw new InvalidArgumentError("invalid socketPath"); - } - if (connectTimeout != null && (!Number.isFinite(connectTimeout) || connectTimeout < 0)) { - throw new InvalidArgumentError("invalid connectTimeout"); - } - if (keepAliveTimeout != null && (!Number.isFinite(keepAliveTimeout) || keepAliveTimeout <= 0)) { - throw new InvalidArgumentError("invalid keepAliveTimeout"); - } - if (keepAliveMaxTimeout != null && (!Number.isFinite(keepAliveMaxTimeout) || keepAliveMaxTimeout <= 0)) { - throw new InvalidArgumentError("invalid keepAliveMaxTimeout"); - } - if (keepAliveTimeoutThreshold != null && !Number.isFinite(keepAliveTimeoutThreshold)) { - throw new InvalidArgumentError("invalid keepAliveTimeoutThreshold"); - } - if (headersTimeout != null && (!Number.isInteger(headersTimeout) || headersTimeout < 0)) { - throw new InvalidArgumentError("headersTimeout must be a positive integer or zero"); - } - if (bodyTimeout != null && (!Number.isInteger(bodyTimeout) || bodyTimeout < 0)) { - throw new InvalidArgumentError("bodyTimeout must be a positive integer or zero"); - } - if (connect2 != null && typeof connect2 !== "function" && typeof connect2 !== "object") { - throw new InvalidArgumentError("connect must be a function or an object"); - } - if (maxRedirections != null && (!Number.isInteger(maxRedirections) || maxRedirections < 0)) { - throw new InvalidArgumentError("maxRedirections must be a positive number"); - } - if (maxRequestsPerClient != null && (!Number.isInteger(maxRequestsPerClient) || maxRequestsPerClient < 0)) { - throw new InvalidArgumentError("maxRequestsPerClient must be a positive number"); - } - if (localAddress != null && (typeof localAddress !== "string" || net.isIP(localAddress) === 0)) { - throw new InvalidArgumentError("localAddress must be valid string IP address"); - } - if (maxResponseSize != null && (!Number.isInteger(maxResponseSize) || maxResponseSize < -1)) { - throw new InvalidArgumentError("maxResponseSize must be a positive number"); + this.file = opt.file || ""; + this.on(DONE, () => { + if (this[STATE] === "begin" || this[SAW_VALID_ENTRY] === false) { + this.warn("TAR_BAD_ARCHIVE", "Unrecognized archive format"); + } + }); + if (opt.ondone) { + this.on(DONE, opt.ondone); + } else { + this.on(DONE, () => { + this.emit("prefinish"); + this.emit("finish"); + this.emit("end"); + }); } - if (autoSelectFamilyAttemptTimeout != null && (!Number.isInteger(autoSelectFamilyAttemptTimeout) || autoSelectFamilyAttemptTimeout < -1)) { - throw new InvalidArgumentError("autoSelectFamilyAttemptTimeout must be a positive number"); + this.strict = !!opt.strict; + this.maxMetaEntrySize = opt.maxMetaEntrySize || maxMetaEntrySize; + this.filter = typeof opt.filter === "function" ? opt.filter : noop2; + const isTBR = opt.file && (opt.file.endsWith(".tar.br") || opt.file.endsWith(".tbr")); + this.brotli = !(opt.gzip || opt.zstd) && opt.brotli !== void 0 ? opt.brotli : isTBR ? void 0 : false; + const isTZST = opt.file && (opt.file.endsWith(".tar.zst") || opt.file.endsWith(".tzst")); + this.zstd = !(opt.gzip || opt.brotli) && opt.zstd !== void 0 ? opt.zstd : isTZST ? true : void 0; + this.on("end", () => this[CLOSESTREAM]()); + if (typeof opt.onwarn === "function") { + this.on("warn", opt.onwarn); } - if (allowH2 != null && typeof allowH2 !== "boolean") { - throw new InvalidArgumentError("allowH2 must be a valid boolean value"); + if (typeof opt.onReadEntry === "function") { + this.on("entry", opt.onReadEntry); } - if (maxConcurrentStreams != null && (typeof maxConcurrentStreams !== "number" || maxConcurrentStreams < 1)) { - throw new InvalidArgumentError("maxConcurrentStreams must be a positive integer, greater than 0"); + } + warn(code2, message, data = {}) { + warnMethod(this, code2, message, data); + } + [CONSUMEHEADER](chunk, position) { + if (this[SAW_VALID_ENTRY] === void 0) { + this[SAW_VALID_ENTRY] = false; } - if (typeof connect2 !== "function") { - connect2 = buildConnector({ - ...tls, - maxCachedSessions, - allowH2, - socketPath, - timeout: connectTimeout, - ...autoSelectFamily ? { autoSelectFamily, autoSelectFamilyAttemptTimeout } : void 0, - ...connect2 - }); + let header; + try { + header = new Header(chunk, position, this[EX], this[GEX]); + } catch (er) { + return this.warn("TAR_ENTRY_INVALID", er); } - if (interceptors?.Client && Array.isArray(interceptors.Client)) { - this[kInterceptors] = interceptors.Client; - if (!deprecatedInterceptorWarned) { - deprecatedInterceptorWarned = true; - process.emitWarning("Client.Options#interceptor is deprecated. Use Dispatcher#compose instead.", { - code: "UNDICI-CLIENT-INTERCEPTOR-DEPRECATED" - }); + if (header.nullBlock) { + if (this[SAW_NULL_BLOCK]) { + this[SAW_EOF] = true; + if (this[STATE] === "begin") { + this[STATE] = "header"; + } + this[EMIT]("eof"); + } else { + this[SAW_NULL_BLOCK] = true; + this[EMIT]("nullBlock"); } } else { - this[kInterceptors] = [createRedirectInterceptor({ maxRedirections })]; - } - this[kUrl] = util.parseOrigin(url); - this[kConnector] = connect2; - this[kPipelining] = pipelining != null ? pipelining : 1; - this[kMaxHeadersSize] = maxHeaderSize || http.maxHeaderSize; - this[kKeepAliveDefaultTimeout] = keepAliveTimeout == null ? 4e3 : keepAliveTimeout; - this[kKeepAliveMaxTimeout] = keepAliveMaxTimeout == null ? 6e5 : keepAliveMaxTimeout; - this[kKeepAliveTimeoutThreshold] = keepAliveTimeoutThreshold == null ? 2e3 : keepAliveTimeoutThreshold; - this[kKeepAliveTimeoutValue] = this[kKeepAliveDefaultTimeout]; - this[kServerName] = null; - this[kLocalAddress] = localAddress != null ? localAddress : null; - this[kResuming] = 0; - this[kNeedDrain] = 0; - this[kHostHeader] = `host: ${this[kUrl].hostname}${this[kUrl].port ? `:${this[kUrl].port}` : ""}\r -`; - this[kBodyTimeout] = bodyTimeout != null ? bodyTimeout : 3e5; - this[kHeadersTimeout] = headersTimeout != null ? headersTimeout : 3e5; - this[kStrictContentLength] = strictContentLength == null ? true : strictContentLength; - this[kMaxRedirections] = maxRedirections; - this[kMaxRequests] = maxRequestsPerClient; - this[kClosedResolve] = null; - this[kMaxResponseSize] = maxResponseSize > -1 ? maxResponseSize : -1; - this[kMaxConcurrentStreams] = maxConcurrentStreams != null ? maxConcurrentStreams : 100; - this[kHTTPContext] = null; - this[kQueue] = []; - this[kRunningIdx] = 0; - this[kPendingIdx] = 0; - this[kResume] = (sync) => resume(this, sync); - this[kOnError] = (err) => onError(this, err); - } - get pipelining() { - return this[kPipelining]; - } - set pipelining(value) { - this[kPipelining] = value; - this[kResume](true); - } - get [kPending]() { - return this[kQueue].length - this[kPendingIdx]; - } - get [kRunning]() { - return this[kPendingIdx] - this[kRunningIdx]; - } - get [kSize]() { - return this[kQueue].length - this[kRunningIdx]; - } - get [kConnected]() { - return !!this[kHTTPContext] && !this[kConnecting] && !this[kHTTPContext].destroyed; - } - get [kBusy]() { - return Boolean( - this[kHTTPContext]?.busy(null) || this[kSize] >= (getPipelining(this) || 1) || this[kPending] > 0 - ); - } - /* istanbul ignore: only used for test */ - [kConnect](cb) { - connect(this); - this.once("connect", cb); - } - [kDispatch](opts, handler) { - const origin = opts.origin || this[kUrl].origin; - const request = new Request(origin, opts, handler); - this[kQueue].push(request); - if (this[kResuming]) { - } else if (util.bodyLength(request.body) == null && util.isIterable(request.body)) { - this[kResuming] = 1; - queueMicrotask(() => resume(this)); - } else { - this[kResume](true); - } - if (this[kResuming] && this[kNeedDrain] !== 2 && this[kBusy]) { - this[kNeedDrain] = 2; - } - return this[kNeedDrain] < 2; - } - async [kClose]() { - return new Promise((resolve) => { - if (this[kSize]) { - this[kClosedResolve] = resolve; + this[SAW_NULL_BLOCK] = false; + if (!header.cksumValid) { + this.warn("TAR_ENTRY_INVALID", "checksum failure", { header }); + } else if (!header.path) { + this.warn("TAR_ENTRY_INVALID", "path is required", { header }); } else { - resolve(null); + const type = header.type; + if (/^(Symbolic)?Link$/.test(type) && !header.linkpath) { + this.warn("TAR_ENTRY_INVALID", "linkpath required", { + header + }); + } else if (!/^(Symbolic)?Link$/.test(type) && !/^(Global)?ExtendedHeader$/.test(type) && header.linkpath) { + this.warn("TAR_ENTRY_INVALID", "linkpath forbidden", { + header + }); + } else { + const entry = this[WRITEENTRY] = new ReadEntry(header, this[EX], this[GEX]); + if (!this[SAW_VALID_ENTRY]) { + if (entry.remain) { + const onend = () => { + if (!entry.invalid) { + this[SAW_VALID_ENTRY] = true; + } + }; + entry.on("end", onend); + } else { + this[SAW_VALID_ENTRY] = true; + } + } + if (entry.meta) { + if (entry.size > this.maxMetaEntrySize) { + entry.ignore = true; + this[EMIT]("ignoredEntry", entry); + this[STATE] = "ignore"; + entry.resume(); + } else if (entry.size > 0) { + this[META] = ""; + entry.on("data", (c) => this[META] += c); + this[STATE] = "meta"; + } + } else { + this[EX] = void 0; + entry.ignore = entry.ignore || !this.filter(entry.path, entry); + if (entry.ignore) { + this[EMIT]("ignoredEntry", entry); + this[STATE] = entry.remain ? "ignore" : "header"; + entry.resume(); + } else { + if (entry.remain) { + this[STATE] = "body"; + } else { + this[STATE] = "header"; + entry.end(); + } + if (!this[READENTRY]) { + this[QUEUE].push(entry); + this[NEXTENTRY](); + } else { + this[QUEUE].push(entry); + } + } + } + } } - }); + } + } + [CLOSESTREAM]() { + queueMicrotask(() => this.emit("close")); } - async [kDestroy](err) { - return new Promise((resolve) => { - const requests = this[kQueue].splice(this[kPendingIdx]); - for (let i = 0; i < requests.length; i++) { - const request = requests[i]; - util.errorRequest(this, request, err); + [PROCESSENTRY](entry) { + let go = true; + if (!entry) { + this[READENTRY] = void 0; + go = false; + } else if (Array.isArray(entry)) { + const [ev, ...args] = entry; + this.emit(ev, ...args); + } else { + this[READENTRY] = entry; + this.emit("entry", entry); + if (!entry.emittedEnd) { + entry.on("end", () => this[NEXTENTRY]()); + go = false; } - const callback = () => { - if (this[kClosedResolve]) { - this[kClosedResolve](); - this[kClosedResolve] = null; + } + return go; + } + [NEXTENTRY]() { + do { + } while (this[PROCESSENTRY](this[QUEUE].shift())); + if (this[QUEUE].length === 0) { + const re = this[READENTRY]; + const drainNow = !re || re.flowing || re.size === re.remain; + if (drainNow) { + if (!this[WRITING]) { + this.emit("drain"); } - resolve(null); - }; - if (this[kHTTPContext]) { - this[kHTTPContext].destroy(err, callback); - this[kHTTPContext] = null; } else { - queueMicrotask(callback); + re.once("drain", () => this.emit("drain")); } - this[kResume](); - }); - } - }; - var createRedirectInterceptor = require_redirect_interceptor(); - function onError(client, err) { - if (client[kRunning] === 0 && err.code !== "UND_ERR_INFO" && err.code !== "UND_ERR_SOCKET") { - assert5(client[kPendingIdx] === client[kRunningIdx]); - const requests = client[kQueue].splice(client[kRunningIdx]); - for (let i = 0; i < requests.length; i++) { - const request = requests[i]; - util.errorRequest(client, request, err); } - assert5(client[kSize] === 0); - } - } - async function connect(client) { - assert5(!client[kConnecting]); - assert5(!client[kHTTPContext]); - let { host, hostname, protocol, port } = client[kUrl]; - if (hostname[0] === "[") { - const idx = hostname.indexOf("]"); - assert5(idx !== -1); - const ip = hostname.substring(1, idx); - assert5(net.isIP(ip)); - hostname = ip; - } - client[kConnecting] = true; - if (channels.beforeConnect.hasSubscribers) { - channels.beforeConnect.publish({ - connectParams: { - host, - hostname, - protocol, - port, - version: client[kHTTPContext]?.version, - servername: client[kServerName], - localAddress: client[kLocalAddress] - }, - connector: client[kConnector] - }); } - try { - const socket = await new Promise((resolve, reject) => { - client[kConnector]({ - host, - hostname, - protocol, - port, - servername: client[kServerName], - localAddress: client[kLocalAddress] - }, (err, socket2) => { - if (err) { - reject(err); - } else { - resolve(socket2); - } - }); - }); - if (client.destroyed) { - util.destroy(socket.on("error", noop3), new ClientDestroyedError()); - return; - } - assert5(socket); - try { - client[kHTTPContext] = socket.alpnProtocol === "h2" ? await connectH2(client, socket) : await connectH1(client, socket); - } catch (err) { - socket.destroy().on("error", noop3); - throw err; - } - client[kConnecting] = false; - socket[kCounter] = 0; - socket[kMaxRequests] = client[kMaxRequests]; - socket[kClient] = client; - socket[kError] = null; - if (channels.connected.hasSubscribers) { - channels.connected.publish({ - connectParams: { - host, - hostname, - protocol, - port, - version: client[kHTTPContext]?.version, - servername: client[kServerName], - localAddress: client[kLocalAddress] - }, - connector: client[kConnector], - socket - }); + [CONSUMEBODY](chunk, position) { + const entry = this[WRITEENTRY]; + if (!entry) { + throw new Error("attempt to consume body without entry??"); } - client.emit("connect", client[kUrl], [client]); - } catch (err) { - if (client.destroyed) { - return; + const br = entry.blockRemain ?? 0; + const c = br >= chunk.length && position === 0 ? chunk : chunk.subarray(position, position + br); + entry.write(c); + if (!entry.blockRemain) { + this[STATE] = "header"; + this[WRITEENTRY] = void 0; + entry.end(); } - client[kConnecting] = false; - if (channels.connectError.hasSubscribers) { - channels.connectError.publish({ - connectParams: { - host, - hostname, - protocol, - port, - version: client[kHTTPContext]?.version, - servername: client[kServerName], - localAddress: client[kLocalAddress] - }, - connector: client[kConnector], - error: err - }); + return c.length; + } + [CONSUMEMETA](chunk, position) { + const entry = this[WRITEENTRY]; + const ret = this[CONSUMEBODY](chunk, position); + if (!this[WRITEENTRY] && entry) { + this[EMITMETA](entry); } - if (err.code === "ERR_TLS_CERT_ALTNAME_INVALID") { - assert5(client[kRunning] === 0); - while (client[kPending] > 0 && client[kQueue][client[kPendingIdx]].servername === client[kServerName]) { - const request = client[kQueue][client[kPendingIdx]++]; - util.errorRequest(client, request, err); - } + return ret; + } + [EMIT](ev, data, extra) { + if (this[QUEUE].length === 0 && !this[READENTRY]) { + this.emit(ev, data, extra); } else { - onError(client, err); + this[QUEUE].push([ev, data, extra]); } - client.emit("connectionError", client[kUrl], [client], err); } - client[kResume](); - } - function emitDrain(client) { - client[kNeedDrain] = 0; - client.emit("drain", client[kUrl], [client]); - } - function resume(client, sync) { - if (client[kResuming] === 2) { - return; + [EMITMETA](entry) { + this[EMIT]("meta", this[META]); + switch (entry.type) { + case "ExtendedHeader": + case "OldExtendedHeader": + this[EX] = Pax.parse(this[META], this[EX], false); + break; + case "GlobalExtendedHeader": + this[GEX] = Pax.parse(this[META], this[GEX], true); + break; + case "NextFileHasLongPath": + case "OldGnuLongPath": { + const ex = this[EX] ?? /* @__PURE__ */ Object.create(null); + this[EX] = ex; + ex.path = this[META].replace(/\0.*/, ""); + break; + } + case "NextFileHasLongLinkpath": { + const ex = this[EX] || /* @__PURE__ */ Object.create(null); + this[EX] = ex; + ex.linkpath = this[META].replace(/\0.*/, ""); + break; + } + /* c8 ignore start */ + default: + throw new Error("unknown meta: " + entry.type); + } } - client[kResuming] = 2; - _resume(client, sync); - client[kResuming] = 0; - if (client[kRunningIdx] > 256) { - client[kQueue].splice(0, client[kRunningIdx]); - client[kPendingIdx] -= client[kRunningIdx]; - client[kRunningIdx] = 0; + abort(error) { + this[ABORTED2] = true; + this.emit("abort", error); + this.warn("TAR_ABORT", error, { recoverable: false }); } - } - function _resume(client, sync) { - while (true) { - if (client.destroyed) { - assert5(client[kPending] === 0); - return; + write(chunk, encoding, cb) { + if (typeof encoding === "function") { + cb = encoding; + encoding = void 0; } - if (client[kClosedResolve] && !client[kSize]) { - client[kClosedResolve](); - client[kClosedResolve] = null; - return; + if (typeof chunk === "string") { + chunk = Buffer.from( + chunk, + /* c8 ignore next */ + typeof encoding === "string" ? encoding : "utf8" + ); } - if (client[kHTTPContext]) { - client[kHTTPContext].resume(); + if (this[ABORTED2]) { + cb?.(); + return false; } - if (client[kBusy]) { - client[kNeedDrain] = 2; - } else if (client[kNeedDrain] === 2) { - if (sync) { - client[kNeedDrain] = 1; - queueMicrotask(() => emitDrain(client)); - } else { - emitDrain(client); + const needSniff = this[UNZIP] === void 0 || this.brotli === void 0 && this[UNZIP] === false; + if (needSniff && chunk) { + if (this[BUFFER2]) { + chunk = Buffer.concat([this[BUFFER2], chunk]); + this[BUFFER2] = void 0; } - continue; - } - if (client[kPending] === 0) { - return; - } - if (client[kRunning] >= (getPipelining(client) || 1)) { - return; - } - const request = client[kQueue][client[kPendingIdx]]; - if (client[kUrl].protocol === "https:" && client[kServerName] !== request.servername) { - if (client[kRunning] > 0) { - return; + if (chunk.length < ZIP_HEADER_LEN) { + this[BUFFER2] = chunk; + cb?.(); + return true; + } + for (let i = 0; this[UNZIP] === void 0 && i < gzipHeader.length; i++) { + if (chunk[i] !== gzipHeader[i]) { + this[UNZIP] = false; + } + } + let isZstd = false; + if (this[UNZIP] === false && this.zstd !== false) { + isZstd = true; + for (let i = 0; i < zstdHeader.length; i++) { + if (chunk[i] !== zstdHeader[i]) { + isZstd = false; + break; + } + } + } + const maybeBrotli = this.brotli === void 0 && !isZstd; + if (this[UNZIP] === false && maybeBrotli) { + if (chunk.length < 512) { + if (this[ENDED]) { + this.brotli = true; + } else { + this[BUFFER2] = chunk; + cb?.(); + return true; + } + } else { + try { + new Header(chunk.subarray(0, 512)); + this.brotli = false; + } catch (_) { + this.brotli = true; + } + } + } + if (this[UNZIP] === void 0 || this[UNZIP] === false && (this.brotli || isZstd)) { + const ended = this[ENDED]; + this[ENDED] = false; + this[UNZIP] = this[UNZIP] === void 0 ? new Unzip({}) : isZstd ? new ZstdDecompress({}) : new BrotliDecompress({}); + this[UNZIP].on("data", (chunk2) => this[CONSUMECHUNK](chunk2)); + this[UNZIP].on("error", (er) => this.abort(er)); + this[UNZIP].on("end", () => { + this[ENDED] = true; + this[CONSUMECHUNK](); + }); + this[WRITING] = true; + const ret2 = !!this[UNZIP][ended ? "end" : "write"](chunk); + this[WRITING] = false; + cb?.(); + return ret2; } - client[kServerName] = request.servername; - client[kHTTPContext]?.destroy(new InformationalError("servername changed"), () => { - client[kHTTPContext] = null; - resume(client); - }); - } - if (client[kConnecting]) { - return; - } - if (!client[kHTTPContext]) { - connect(client); - return; - } - if (client[kHTTPContext].destroyed) { - return; - } - if (client[kHTTPContext].busy(request)) { - return; } - if (!request.aborted && client[kHTTPContext].write(request)) { - client[kPendingIdx]++; + this[WRITING] = true; + if (this[UNZIP]) { + this[UNZIP].write(chunk); } else { - client[kQueue].splice(client[kPendingIdx], 1); + this[CONSUMECHUNK](chunk); + } + this[WRITING] = false; + const ret = this[QUEUE].length > 0 ? false : this[READENTRY] ? this[READENTRY].flowing : true; + if (!ret && this[QUEUE].length === 0) { + this[READENTRY]?.once("drain", () => this.emit("drain")); } + cb?.(); + return ret; } - } - module2.exports = Client; - } -}); - -// .yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/dispatcher/pool.js -var require_pool = __commonJS({ - ".yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/dispatcher/pool.js"(exports2, module2) { - "use strict"; - var { - PoolBase, - kClients, - kNeedDrain, - kAddClient, - kGetDispatcher - } = require_pool_base(); - var Client = require_client(); - var { - InvalidArgumentError - } = require_errors(); - var util = require_util(); - var { kUrl, kInterceptors } = require_symbols(); - var buildConnector = require_connect(); - var kOptions = Symbol("options"); - var kConnections = Symbol("connections"); - var kFactory = Symbol("factory"); - function defaultFactory(origin, opts) { - return new Client(origin, opts); - } - var Pool = class extends PoolBase { - constructor(origin, { - connections, - factory = defaultFactory, - connect, - connectTimeout, - tls, - maxCachedSessions, - socketPath, - autoSelectFamily, - autoSelectFamilyAttemptTimeout, - allowH2, - ...options - } = {}) { - super(); - if (connections != null && (!Number.isFinite(connections) || connections < 0)) { - throw new InvalidArgumentError("invalid connections"); - } - if (typeof factory !== "function") { - throw new InvalidArgumentError("factory must be a function."); - } - if (connect != null && typeof connect !== "function" && typeof connect !== "object") { - throw new InvalidArgumentError("connect must be a function or an object"); - } - if (typeof connect !== "function") { - connect = buildConnector({ - ...tls, - maxCachedSessions, - allowH2, - socketPath, - timeout: connectTimeout, - ...autoSelectFamily ? { autoSelectFamily, autoSelectFamilyAttemptTimeout } : void 0, - ...connect - }); + [BUFFERCONCAT](c) { + if (c && !this[ABORTED2]) { + this[BUFFER2] = this[BUFFER2] ? Buffer.concat([this[BUFFER2], c]) : c; } - this[kInterceptors] = options.interceptors?.Pool && Array.isArray(options.interceptors.Pool) ? options.interceptors.Pool : []; - this[kConnections] = connections || null; - this[kUrl] = util.parseOrigin(origin); - this[kOptions] = { ...util.deepClone(options), connect, allowH2 }; - this[kOptions].interceptors = options.interceptors ? { ...options.interceptors } : void 0; - this[kFactory] = factory; - this.on("connectionError", (origin2, targets, error) => { - for (const target of targets) { - const idx = this[kClients].indexOf(target); - if (idx !== -1) { - this[kClients].splice(idx, 1); + } + [MAYBEEND]() { + if (this[ENDED] && !this[EMITTEDEND] && !this[ABORTED2] && !this[CONSUMING]) { + this[EMITTEDEND] = true; + const entry = this[WRITEENTRY]; + if (entry && entry.blockRemain) { + const have = this[BUFFER2] ? this[BUFFER2].length : 0; + this.warn("TAR_BAD_ARCHIVE", `Truncated input (needed ${entry.blockRemain} more bytes, only ${have} available)`, { entry }); + if (this[BUFFER2]) { + entry.write(this[BUFFER2]); } + entry.end(); } - }); + this[EMIT](DONE); + } } - [kGetDispatcher]() { - for (const client of this[kClients]) { - if (!client[kNeedDrain]) { - return client; + [CONSUMECHUNK](chunk) { + if (this[CONSUMING] && chunk) { + this[BUFFERCONCAT](chunk); + } else if (!chunk && !this[BUFFER2]) { + this[MAYBEEND](); + } else if (chunk) { + this[CONSUMING] = true; + if (this[BUFFER2]) { + this[BUFFERCONCAT](chunk); + const c = this[BUFFER2]; + this[BUFFER2] = void 0; + this[CONSUMECHUNKSUB](c); + } else { + this[CONSUMECHUNKSUB](chunk); + } + while (this[BUFFER2] && this[BUFFER2]?.length >= 512 && !this[ABORTED2] && !this[SAW_EOF]) { + const c = this[BUFFER2]; + this[BUFFER2] = void 0; + this[CONSUMECHUNKSUB](c); } + this[CONSUMING] = false; } - if (!this[kConnections] || this[kClients].length < this[kConnections]) { - const dispatcher = this[kFactory](this[kUrl], this[kOptions]); - this[kAddClient](dispatcher); - return dispatcher; + if (!this[BUFFER2] || this[ENDED]) { + this[MAYBEEND](); } } - }; - module2.exports = Pool; - } -}); - -// .yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/dispatcher/agent.js -var require_agent = __commonJS({ - ".yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/dispatcher/agent.js"(exports2, module2) { - "use strict"; - var { InvalidArgumentError } = require_errors(); - var { kClients, kRunning, kClose, kDestroy, kDispatch, kInterceptors } = require_symbols(); - var DispatcherBase = require_dispatcher_base(); - var Pool = require_pool(); - var Client = require_client(); - var util = require_util(); - var createRedirectInterceptor = require_redirect_interceptor(); - var kOnConnect = Symbol("onConnect"); - var kOnDisconnect = Symbol("onDisconnect"); - var kOnConnectionError = Symbol("onConnectionError"); - var kMaxRedirections = Symbol("maxRedirections"); - var kOnDrain = Symbol("onDrain"); - var kFactory = Symbol("factory"); - var kOptions = Symbol("options"); - function defaultFactory(origin, opts) { - return opts && opts.connections === 1 ? new Client(origin, opts) : new Pool(origin, opts); - } - var Agent = class extends DispatcherBase { - constructor({ factory = defaultFactory, maxRedirections = 0, connect, ...options } = {}) { - super(); - if (typeof factory !== "function") { - throw new InvalidArgumentError("factory must be a function."); - } - if (connect != null && typeof connect !== "function" && typeof connect !== "object") { - throw new InvalidArgumentError("connect must be a function or an object"); - } - if (!Number.isInteger(maxRedirections) || maxRedirections < 0) { - throw new InvalidArgumentError("maxRedirections must be a positive number"); - } - if (connect && typeof connect !== "function") { - connect = { ...connect }; - } - this[kInterceptors] = options.interceptors?.Agent && Array.isArray(options.interceptors.Agent) ? options.interceptors.Agent : [createRedirectInterceptor({ maxRedirections })]; - this[kOptions] = { ...util.deepClone(options), connect }; - this[kOptions].interceptors = options.interceptors ? { ...options.interceptors } : void 0; - this[kMaxRedirections] = maxRedirections; - this[kFactory] = factory; - this[kClients] = /* @__PURE__ */ new Map(); - this[kOnDrain] = (origin, targets) => { - this.emit("drain", origin, [this, ...targets]); - }; - this[kOnConnect] = (origin, targets) => { - this.emit("connect", origin, [this, ...targets]); - }; - this[kOnDisconnect] = (origin, targets, err) => { - this.emit("disconnect", origin, [this, ...targets], err); - }; - this[kOnConnectionError] = (origin, targets, err) => { - this.emit("connectionError", origin, [this, ...targets], err); - }; - } - get [kRunning]() { - let ret = 0; - for (const client of this[kClients].values()) { - ret += client[kRunning]; + [CONSUMECHUNKSUB](chunk) { + let position = 0; + const length = chunk.length; + while (position + 512 <= length && !this[ABORTED2] && !this[SAW_EOF]) { + switch (this[STATE]) { + case "begin": + case "header": + this[CONSUMEHEADER](chunk, position); + position += 512; + break; + case "ignore": + case "body": + position += this[CONSUMEBODY](chunk, position); + break; + case "meta": + position += this[CONSUMEMETA](chunk, position); + break; + /* c8 ignore start */ + default: + throw new Error("invalid state: " + this[STATE]); + } + } + if (position < length) { + this[BUFFER2] = this[BUFFER2] ? Buffer.concat([chunk.subarray(position), this[BUFFER2]]) : chunk.subarray(position); } - return ret; } - [kDispatch](opts, handler) { - let key; - if (opts.origin && (typeof opts.origin === "string" || opts.origin instanceof URL)) { - key = String(opts.origin); - } else { - throw new InvalidArgumentError("opts.origin must be a non-empty string or URL."); + end(chunk, encoding, cb) { + if (typeof chunk === "function") { + cb = chunk; + encoding = void 0; + chunk = void 0; } - let dispatcher = this[kClients].get(key); - if (!dispatcher) { - dispatcher = this[kFactory](opts.origin, this[kOptions]).on("drain", this[kOnDrain]).on("connect", this[kOnConnect]).on("disconnect", this[kOnDisconnect]).on("connectionError", this[kOnConnectionError]); - this[kClients].set(key, dispatcher); + if (typeof encoding === "function") { + cb = encoding; + encoding = void 0; } - return dispatcher.dispatch(opts, handler); - } - async [kClose]() { - const closePromises = []; - for (const client of this[kClients].values()) { - closePromises.push(client.close()); + if (typeof chunk === "string") { + chunk = Buffer.from(chunk, encoding); } - this[kClients].clear(); - await Promise.all(closePromises); - } - async [kDestroy](err) { - const destroyPromises = []; - for (const client of this[kClients].values()) { - destroyPromises.push(client.destroy(err)); + if (cb) + this.once("finish", cb); + if (!this[ABORTED2]) { + if (this[UNZIP]) { + if (chunk) + this[UNZIP].write(chunk); + this[UNZIP].end(); + } else { + this[ENDED] = true; + if (this.brotli === void 0 || this.zstd === void 0) + chunk = chunk || Buffer.alloc(0); + if (chunk) + this.write(chunk); + this[MAYBEEND](); + } } - this[kClients].clear(); - await Promise.all(destroyPromises); + return this; } }; - module2.exports = Agent; } }); -// .yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/dispatcher/proxy-agent.js -var require_proxy_agent = __commonJS({ - ".yarn/cache/undici-npm-6.22.0-4664dd0314-47903c489d.zip/node_modules/undici/lib/dispatcher/proxy-agent.js"(exports2, module2) { - "use strict"; - var { kProxy, kClose, kDestroy, kDispatch, kInterceptors } = require_symbols(); - var { URL: URL2 } = require("node:url"); - var Agent = require_agent(); - var Pool = require_pool(); - var DispatcherBase = require_dispatcher_base(); - var { InvalidArgumentError, RequestAbortedError, SecureProxyConnectionError } = require_errors(); - var buildConnector = require_connect(); - var Client = require_client(); - var kAgent = Symbol("proxy agent"); - var kClient = Symbol("proxy client"); - var kProxyHeaders = Symbol("proxy headers"); - var kRequestTls = Symbol("request tls settings"); - var kProxyTls = Symbol("proxy tls settings"); - var kConnectEndpoint = Symbol("connect endpoint function"); - var kTunnelProxy = Symbol("tunnel proxy"); - function defaultProtocolPort(protocol) { - return protocol === "https:" ? 443 : 80; - } - function defaultFactory(origin, opts) { - return new Pool(origin, opts); - } - var noop3 = () => { - }; - function defaultAgentFactory(origin, opts) { - if (opts.connections === 1) { - return new Client(origin, opts); - } - return new Pool(origin, opts); - } - var Http1ProxyWrapper = class extends DispatcherBase { - #client; - constructor(proxyUrl, { headers = {}, connect, factory }) { - super(); - if (!proxyUrl) { - throw new InvalidArgumentError("Proxy URL is mandatory"); - } - this[kProxyHeaders] = headers; - if (factory) { - this.#client = factory(proxyUrl, { connect }); +// node_modules/tar/dist/esm/strip-trailing-slashes.js +var stripTrailingSlashes; +var init_strip_trailing_slashes = __esm({ + "node_modules/tar/dist/esm/strip-trailing-slashes.js"() { + stripTrailingSlashes = (str) => { + let i = str.length - 1; + let slashesStart = -1; + while (i > -1 && str.charAt(i) === "/") { + slashesStart = i; + i--; + } + return slashesStart === -1 ? str : str.slice(0, slashesStart); + }; + } +}); + +// node_modules/tar/dist/esm/list.js +var list_exports = {}; +__export(list_exports, { + filesFilter: () => filesFilter, + list: () => list +}); +var import_node_fs, import_path2, onReadEntryFunction, filesFilter, listFileSync, listFile, list; +var init_list = __esm({ + "node_modules/tar/dist/esm/list.js"() { + init_esm2(); + import_node_fs = __toESM(require("node:fs"), 1); + import_path2 = require("path"); + init_make_command(); + init_parse(); + init_strip_trailing_slashes(); + onReadEntryFunction = (opt) => { + const onReadEntry = opt.onReadEntry; + opt.onReadEntry = onReadEntry ? (e) => { + onReadEntry(e); + e.resume(); + } : (e) => e.resume(); + }; + filesFilter = (opt, files) => { + const map = new Map(files.map((f) => [stripTrailingSlashes(f), true])); + const filter = opt.filter; + const mapHas = (file, r = "") => { + const root = r || (0, import_path2.parse)(file).root || "."; + let ret; + if (file === root) + ret = false; + else { + const m = map.get(file); + ret = m !== void 0 ? m : mapHas((0, import_path2.dirname)(file), root); + } + map.set(file, ret); + return ret; + }; + opt.filter = filter ? (file, entry) => filter(file, entry) && mapHas(stripTrailingSlashes(file)) : (file) => mapHas(stripTrailingSlashes(file)); + }; + listFileSync = (opt) => { + const p = new Parser(opt); + const file = opt.file; + let fd; + try { + fd = import_node_fs.default.openSync(file, "r"); + const stat = import_node_fs.default.fstatSync(fd); + const readSize = opt.maxReadSize || 16 * 1024 * 1024; + if (stat.size < readSize) { + const buf = Buffer.allocUnsafe(stat.size); + const read = import_node_fs.default.readSync(fd, buf, 0, stat.size, 0); + p.end(read === buf.byteLength ? buf : buf.subarray(0, read)); } else { - this.#client = new Client(proxyUrl, { connect }); + let pos2 = 0; + const buf = Buffer.allocUnsafe(readSize); + while (pos2 < stat.size) { + const bytesRead = import_node_fs.default.readSync(fd, buf, 0, readSize, pos2); + if (bytesRead === 0) + break; + pos2 += bytesRead; + p.write(buf.subarray(0, bytesRead)); + } + p.end(); } - } - [kDispatch](opts, handler) { - const onHeaders = handler.onHeaders; - handler.onHeaders = function(statusCode, data, resume) { - if (statusCode === 407) { - if (typeof handler.onError === "function") { - handler.onError(new InvalidArgumentError("Proxy Authentication Required (407)")); - } - return; + } finally { + if (typeof fd === "number") { + try { + import_node_fs.default.closeSync(fd); + } catch { } - if (onHeaders) onHeaders.call(this, statusCode, data, resume); - }; - const { - origin, - path: path16 = "/", - headers = {} - } = opts; - opts.path = origin + path16; - if (!("host" in headers) && !("Host" in headers)) { - const { host } = new URL2(origin); - headers.host = host; } - opts.headers = { ...this[kProxyHeaders], ...headers }; - return this.#client[kDispatch](opts, handler); - } - async [kClose]() { - return this.#client.close(); - } - async [kDestroy](err) { - return this.#client.destroy(err); } }; - var ProxyAgent2 = class extends DispatcherBase { - constructor(opts) { - super(); - if (!opts || typeof opts === "object" && !(opts instanceof URL2) && !opts.uri) { - throw new InvalidArgumentError("Proxy uri is mandatory"); - } - const { clientFactory = defaultFactory } = opts; - if (typeof clientFactory !== "function") { - throw new InvalidArgumentError("Proxy opts.clientFactory must be a function."); - } - const { proxyTunnel = true } = opts; - const url = this.#getUrl(opts); - const { href, origin, port, protocol, username, password, hostname: proxyHostname } = url; - this[kProxy] = { uri: href, protocol }; - this[kInterceptors] = opts.interceptors?.ProxyAgent && Array.isArray(opts.interceptors.ProxyAgent) ? opts.interceptors.ProxyAgent : []; - this[kRequestTls] = opts.requestTls; - this[kProxyTls] = opts.proxyTls; - this[kProxyHeaders] = opts.headers || {}; - this[kTunnelProxy] = proxyTunnel; - if (opts.auth && opts.token) { - throw new InvalidArgumentError("opts.auth cannot be used in combination with opts.token"); - } else if (opts.auth) { - this[kProxyHeaders]["proxy-authorization"] = `Basic ${opts.auth}`; - } else if (opts.token) { - this[kProxyHeaders]["proxy-authorization"] = opts.token; - } else if (username && password) { - this[kProxyHeaders]["proxy-authorization"] = `Basic ${Buffer.from(`${decodeURIComponent(username)}:${decodeURIComponent(password)}`).toString("base64")}`; - } - const connect = buildConnector({ ...opts.proxyTls }); - this[kConnectEndpoint] = buildConnector({ ...opts.requestTls }); - const agentFactory = opts.factory || defaultAgentFactory; - const factory = (origin2, options) => { - const { protocol: protocol2 } = new URL2(origin2); - if (!this[kTunnelProxy] && protocol2 === "http:" && this[kProxy].protocol === "http:") { - return new Http1ProxyWrapper(this[kProxy].uri, { - headers: this[kProxyHeaders], - connect, - factory: agentFactory + listFile = (opt, _files) => { + const parse4 = new Parser(opt); + const readSize = opt.maxReadSize || 16 * 1024 * 1024; + const file = opt.file; + const p = new Promise((resolve, reject) => { + parse4.on("error", reject); + parse4.on("end", resolve); + import_node_fs.default.stat(file, (er, stat) => { + if (er) { + reject(er); + } else { + const stream = new ReadStream(file, { + readSize, + size: stat.size }); + stream.on("error", reject); + stream.pipe(parse4); } - return agentFactory(origin2, options); - }; - this[kClient] = clientFactory(url, { connect }); - this[kAgent] = new Agent({ - ...opts, - factory, - connect: async (opts2, callback) => { - let requestedPath = opts2.host; - if (!opts2.port) { - requestedPath += `:${defaultProtocolPort(opts2.protocol)}`; - } - try { - const { socket, statusCode } = await this[kClient].connect({ - origin, - port, - path: requestedPath, - signal: opts2.signal, - headers: { - ...this[kProxyHeaders], - host: opts2.host - }, - servername: this[kProxyTls]?.servername || proxyHostname - }); - if (statusCode !== 200) { - socket.on("error", noop3).destroy(); - callback(new RequestAbortedError(`Proxy response (${statusCode}) !== 200 when HTTP Tunneling`)); - } - if (opts2.protocol !== "https:") { - callback(null, socket); - return; - } - let servername; - if (this[kRequestTls]) { - servername = this[kRequestTls].servername; - } else { - servername = opts2.servername; - } - this[kConnectEndpoint]({ ...opts2, servername, httpSocket: socket }, callback); - } catch (err) { - if (err.code === "ERR_TLS_CERT_ALTNAME_INVALID") { - callback(new SecureProxyConnectionError(err)); - } else { - callback(err); - } - } - } }); + }); + return p; + }; + list = makeCommand(listFileSync, listFile, (opt) => new Parser(opt), (opt) => new Parser(opt), (opt, files) => { + if (files?.length) + filesFilter(opt, files); + if (!opt.noResume) + onReadEntryFunction(opt); + }); + } +}); + +// node_modules/tar/dist/esm/get-write-flag.js +var import_fs3, platform2, isWindows, O_CREAT, O_NOFOLLOW, O_TRUNC, O_WRONLY, UV_FS_O_FILEMAP, fMapEnabled, fMapLimit, fMapFlag, noFollowFlag, getWriteFlag; +var init_get_write_flag = __esm({ + "node_modules/tar/dist/esm/get-write-flag.js"() { + import_fs3 = __toESM(require("fs"), 1); + platform2 = process.env.__FAKE_PLATFORM__ || process.platform; + isWindows = platform2 === "win32"; + ({ O_CREAT, O_NOFOLLOW, O_TRUNC, O_WRONLY } = import_fs3.default.constants); + UV_FS_O_FILEMAP = Number(process.env.__FAKE_FS_O_FILENAME__) || import_fs3.default.constants.UV_FS_O_FILEMAP || 0; + fMapEnabled = isWindows && !!UV_FS_O_FILEMAP; + fMapLimit = 512 * 1024; + fMapFlag = UV_FS_O_FILEMAP | O_TRUNC | O_CREAT | O_WRONLY; + noFollowFlag = !isWindows && typeof O_NOFOLLOW === "number" ? O_NOFOLLOW | O_TRUNC | O_CREAT | O_WRONLY : null; + getWriteFlag = noFollowFlag !== null ? () => noFollowFlag : !fMapEnabled ? () => "w" : (size) => size < fMapLimit ? fMapFlag : "w"; + } +}); + +// node_modules/chownr/dist/esm/index.js +var import_node_fs2, import_node_path3, lchownSync, chown, chownrKid, chownr, chownrKidSync, chownrSync; +var init_esm4 = __esm({ + "node_modules/chownr/dist/esm/index.js"() { + import_node_fs2 = __toESM(require("node:fs"), 1); + import_node_path3 = __toESM(require("node:path"), 1); + lchownSync = (path16, uid, gid) => { + try { + return import_node_fs2.default.lchownSync(path16, uid, gid); + } catch (er) { + if (er?.code !== "ENOENT") + throw er; + } + }; + chown = (cpath, uid, gid, cb) => { + import_node_fs2.default.lchown(cpath, uid, gid, (er) => { + cb(er && er?.code !== "ENOENT" ? er : null); + }); + }; + chownrKid = (p, child, uid, gid, cb) => { + if (child.isDirectory()) { + chownr(import_node_path3.default.resolve(p, child.name), uid, gid, (er) => { + if (er) + return cb(er); + const cpath = import_node_path3.default.resolve(p, child.name); + chown(cpath, uid, gid, cb); + }); + } else { + const cpath = import_node_path3.default.resolve(p, child.name); + chown(cpath, uid, gid, cb); } - dispatch(opts, handler) { - const headers = buildHeaders(opts.headers); - throwIfProxyAuthIsSent(headers); - if (headers && !("host" in headers) && !("Host" in headers)) { - const { host } = new URL2(opts.origin); - headers.host = host; + }; + chownr = (p, uid, gid, cb) => { + import_node_fs2.default.readdir(p, { withFileTypes: true }, (er, children) => { + if (er) { + if (er.code === "ENOENT") + return cb(); + else if (er.code !== "ENOTDIR" && er.code !== "ENOTSUP") + return cb(er); } - return this[kAgent].dispatch( - { - ...opts, - headers - }, - handler - ); - } - /** - * @param {import('../types/proxy-agent').ProxyAgent.Options | string | URL} opts - * @returns {URL} - */ - #getUrl(opts) { - if (typeof opts === "string") { - return new URL2(opts); - } else if (opts instanceof URL2) { - return opts; - } else { - return new URL2(opts.uri); + if (er || !children.length) + return chown(p, uid, gid, cb); + let len = children.length; + let errState = null; + const then = (er2) => { + if (errState) + return; + if (er2) + return cb(errState = er2); + if (--len === 0) + return chown(p, uid, gid, cb); + }; + for (const child of children) { + chownrKid(p, child, uid, gid, then); } + }); + }; + chownrKidSync = (p, child, uid, gid) => { + if (child.isDirectory()) + chownrSync(import_node_path3.default.resolve(p, child.name), uid, gid); + lchownSync(import_node_path3.default.resolve(p, child.name), uid, gid); + }; + chownrSync = (p, uid, gid) => { + let children; + try { + children = import_node_fs2.default.readdirSync(p, { withFileTypes: true }); + } catch (er) { + const e = er; + if (e?.code === "ENOENT") + return; + else if (e?.code === "ENOTDIR" || e?.code === "ENOTSUP") + return lchownSync(p, uid, gid); + else + throw e; } - async [kClose]() { - await this[kAgent].close(); - await this[kClient].close(); + for (const child of children) { + chownrKidSync(p, child, uid, gid); + } + return lchownSync(p, uid, gid); + }; + } +}); + +// node_modules/tar/dist/esm/cwd-error.js +var CwdError; +var init_cwd_error = __esm({ + "node_modules/tar/dist/esm/cwd-error.js"() { + CwdError = class extends Error { + path; + code; + syscall = "chdir"; + constructor(path16, code2) { + super(`${code2}: Cannot cd into '${path16}'`); + this.path = path16; + this.code = code2; } - async [kDestroy]() { - await this[kAgent].destroy(); - await this[kClient].destroy(); + get name() { + return "CwdError"; } }; - function buildHeaders(headers) { - if (Array.isArray(headers)) { - const headersPair = {}; - for (let i = 0; i < headers.length; i += 2) { - headersPair[headers[i]] = headers[i + 1]; - } - return headersPair; + } +}); + +// node_modules/tar/dist/esm/symlink-error.js +var SymlinkError; +var init_symlink_error = __esm({ + "node_modules/tar/dist/esm/symlink-error.js"() { + SymlinkError = class extends Error { + path; + symlink; + syscall = "symlink"; + code = "TAR_SYMLINK_ERROR"; + constructor(symlink, path16) { + super("TAR_SYMLINK_ERROR: Cannot extract through symbolic link"); + this.symlink = symlink; + this.path = path16; } - return headers; - } - function throwIfProxyAuthIsSent(headers) { - const existProxyAuth = headers && Object.keys(headers).find((key) => key.toLowerCase() === "proxy-authorization"); - if (existProxyAuth) { - throw new InvalidArgumentError("Proxy-Authorization should be sent in ProxyAgent constructor"); + get name() { + return "SymlinkError"; } - } - module2.exports = ProxyAgent2; + }; } }); -// .yarn/cache/minipass-npm-7.1.2-3a5327d36d-b0fd20bb9f.zip/node_modules/minipass/dist/esm/index.js -var import_node_events, import_node_stream, import_node_string_decoder, proc, isStream, isReadable, isWritable, EOF, MAYBE_EMIT_END, EMITTED_END, EMITTING_END, EMITTED_ERROR, CLOSED, READ, FLUSH, FLUSHCHUNK, ENCODING, DECODER, FLOWING, PAUSED, RESUME, BUFFER, PIPES, BUFFERLENGTH, BUFFERPUSH, BUFFERSHIFT, OBJECTMODE, DESTROYED, ERROR, EMITDATA, EMITEND, EMITEND2, ASYNC, ABORT, ABORTED, SIGNAL, DATALISTENERS, DISCARDED, defer, nodefer, isEndish, isArrayBufferLike, isArrayBufferView, Pipe, PipeProxyErrors, isObjectModeOptions, isEncodingOptions, Minipass; -var init_esm = __esm({ - ".yarn/cache/minipass-npm-7.1.2-3a5327d36d-b0fd20bb9f.zip/node_modules/minipass/dist/esm/index.js"() { - import_node_events = require("node:events"); - import_node_stream = __toESM(require("node:stream"), 1); - import_node_string_decoder = require("node:string_decoder"); - proc = typeof process === "object" && process ? process : { - stdout: null, - stderr: null +// node_modules/tar/dist/esm/mkdir.js +var import_node_fs3, import_promises, import_node_path4, checkCwd, mkdir, mkdir_, onmkdir, checkCwdSync, mkdirSync2; +var init_mkdir = __esm({ + "node_modules/tar/dist/esm/mkdir.js"() { + init_esm4(); + import_node_fs3 = __toESM(require("node:fs"), 1); + import_promises = __toESM(require("node:fs/promises"), 1); + import_node_path4 = __toESM(require("node:path"), 1); + init_cwd_error(); + init_normalize_windows_path(); + init_symlink_error(); + checkCwd = (dir, cb) => { + import_node_fs3.default.stat(dir, (er, st) => { + if (er || !st.isDirectory()) { + er = new CwdError(dir, er?.code || "ENOTDIR"); + } + cb(er); + }); }; - isStream = (s) => !!s && typeof s === "object" && (s instanceof Minipass || s instanceof import_node_stream.default || isReadable(s) || isWritable(s)); - isReadable = (s) => !!s && typeof s === "object" && s instanceof import_node_events.EventEmitter && typeof s.pipe === "function" && // node core Writable streams have a pipe() method, but it throws - s.pipe !== import_node_stream.default.Writable.prototype.pipe; - isWritable = (s) => !!s && typeof s === "object" && s instanceof import_node_events.EventEmitter && typeof s.write === "function" && typeof s.end === "function"; - EOF = Symbol("EOF"); - MAYBE_EMIT_END = Symbol("maybeEmitEnd"); - EMITTED_END = Symbol("emittedEnd"); - EMITTING_END = Symbol("emittingEnd"); - EMITTED_ERROR = Symbol("emittedError"); - CLOSED = Symbol("closed"); - READ = Symbol("read"); - FLUSH = Symbol("flush"); - FLUSHCHUNK = Symbol("flushChunk"); - ENCODING = Symbol("encoding"); - DECODER = Symbol("decoder"); - FLOWING = Symbol("flowing"); - PAUSED = Symbol("paused"); - RESUME = Symbol("resume"); - BUFFER = Symbol("buffer"); - PIPES = Symbol("pipes"); - BUFFERLENGTH = Symbol("bufferLength"); - BUFFERPUSH = Symbol("bufferPush"); - BUFFERSHIFT = Symbol("bufferShift"); - OBJECTMODE = Symbol("objectMode"); - DESTROYED = Symbol("destroyed"); - ERROR = Symbol("error"); - EMITDATA = Symbol("emitData"); - EMITEND = Symbol("emitEnd"); - EMITEND2 = Symbol("emitEnd2"); - ASYNC = Symbol("async"); - ABORT = Symbol("abort"); - ABORTED = Symbol("aborted"); - SIGNAL = Symbol("signal"); - DATALISTENERS = Symbol("dataListeners"); - DISCARDED = Symbol("discarded"); - defer = (fn2) => Promise.resolve().then(fn2); - nodefer = (fn2) => fn2(); - isEndish = (ev) => ev === "end" || ev === "finish" || ev === "prefinish"; - isArrayBufferLike = (b) => b instanceof ArrayBuffer || !!b && typeof b === "object" && b.constructor && b.constructor.name === "ArrayBuffer" && b.byteLength >= 0; - isArrayBufferView = (b) => !Buffer.isBuffer(b) && ArrayBuffer.isView(b); - Pipe = class { - src; - dest; - opts; - ondrain; - constructor(src, dest, opts) { - this.src = src; - this.dest = dest; - this.opts = opts; - this.ondrain = () => src[RESUME](); - this.dest.on("drain", this.ondrain); - } - unpipe() { - this.dest.removeListener("drain", this.ondrain); - } - // only here for the prototype - /* c8 ignore start */ - proxyErrors(_er) { + mkdir = (dir, opt, cb) => { + dir = normalizeWindowsPath(dir); + const umask2 = opt.umask ?? 18; + const mode = opt.mode | 448; + const needChmod = (mode & umask2) !== 0; + const uid = opt.uid; + const gid = opt.gid; + const doChown = typeof uid === "number" && typeof gid === "number" && (uid !== opt.processUid || gid !== opt.processGid); + const preserve = opt.preserve; + const unlink = opt.unlink; + const cwd = normalizeWindowsPath(opt.cwd); + const done = (er, created) => { + if (er) { + cb(er); + } else { + if (created && doChown) { + chownr(created, uid, gid, (er2) => done(er2)); + } else if (needChmod) { + import_node_fs3.default.chmod(dir, mode, cb); + } else { + cb(); + } + } + }; + if (dir === cwd) { + return checkCwd(dir, done); } - /* c8 ignore stop */ - end() { - this.unpipe(); - if (this.opts.end) - this.dest.end(); + if (preserve) { + return import_promises.default.mkdir(dir, { mode, recursive: true }).then( + (made) => done(null, made ?? void 0), + // oh, ts + done + ); } + const sub = normalizeWindowsPath(import_node_path4.default.relative(cwd, dir)); + const parts = sub.split("/"); + mkdir_(cwd, parts, mode, unlink, cwd, void 0, done); }; - PipeProxyErrors = class extends Pipe { - unpipe() { - this.src.removeListener("error", this.proxyErrors); - super.unpipe(); + mkdir_ = (base, parts, mode, unlink, cwd, created, cb) => { + if (parts.length === 0) { + return cb(null, created); } - constructor(src, dest, opts) { - super(src, dest, opts); - this.proxyErrors = (er) => dest.emit("error", er); - src.on("error", this.proxyErrors); + const p = parts.shift(); + const part = normalizeWindowsPath(import_node_path4.default.resolve(base + "/" + p)); + import_node_fs3.default.mkdir(part, mode, onmkdir(part, parts, mode, unlink, cwd, created, cb)); + }; + onmkdir = (part, parts, mode, unlink, cwd, created, cb) => (er) => { + if (er) { + import_node_fs3.default.lstat(part, (statEr, st) => { + if (statEr) { + statEr.path = statEr.path && normalizeWindowsPath(statEr.path); + cb(statEr); + } else if (st.isDirectory()) { + mkdir_(part, parts, mode, unlink, cwd, created, cb); + } else if (unlink) { + import_node_fs3.default.unlink(part, (er2) => { + if (er2) { + return cb(er2); + } + import_node_fs3.default.mkdir(part, mode, onmkdir(part, parts, mode, unlink, cwd, created, cb)); + }); + } else if (st.isSymbolicLink()) { + return cb(new SymlinkError(part, part + "/" + parts.join("/"))); + } else { + cb(er); + } + }); + } else { + created = created || part; + mkdir_(part, parts, mode, unlink, cwd, created, cb); } }; - isObjectModeOptions = (o) => !!o.objectMode; - isEncodingOptions = (o) => !o.objectMode && !!o.encoding && o.encoding !== "buffer"; - Minipass = class extends import_node_events.EventEmitter { - [FLOWING] = false; - [PAUSED] = false; - [PIPES] = []; - [BUFFER] = []; - [OBJECTMODE]; - [ENCODING]; - [ASYNC]; - [DECODER]; - [EOF] = false; - [EMITTED_END] = false; - [EMITTING_END] = false; - [CLOSED] = false; - [EMITTED_ERROR] = null; - [BUFFERLENGTH] = 0; - [DESTROYED] = false; - [SIGNAL]; - [ABORTED] = false; - [DATALISTENERS] = 0; - [DISCARDED] = false; - /** - * true if the stream can be written - */ - writable = true; - /** - * true if the stream can be read - */ - readable = true; - /** - * If `RType` is Buffer, then options do not need to be provided. - * Otherwise, an options object must be provided to specify either - * {@link Minipass.SharedOptions.objectMode} or - * {@link Minipass.SharedOptions.encoding}, as appropriate. - */ - constructor(...args) { - const options = args[0] || {}; - super(); - if (options.objectMode && typeof options.encoding === "string") { - throw new TypeError("Encoding and objectMode may not be used together"); - } - if (isObjectModeOptions(options)) { - this[OBJECTMODE] = true; - this[ENCODING] = null; - } else if (isEncodingOptions(options)) { - this[ENCODING] = options.encoding; - this[OBJECTMODE] = false; - } else { - this[OBJECTMODE] = false; - this[ENCODING] = null; - } - this[ASYNC] = !!options.async; - this[DECODER] = this[ENCODING] ? new import_node_string_decoder.StringDecoder(this[ENCODING]) : null; - if (options && options.debugExposeBuffer === true) { - Object.defineProperty(this, "buffer", { get: () => this[BUFFER] }); + checkCwdSync = (dir) => { + let ok = false; + let code2; + try { + ok = import_node_fs3.default.statSync(dir).isDirectory(); + } catch (er) { + code2 = er?.code; + } finally { + if (!ok) { + throw new CwdError(dir, code2 ?? "ENOTDIR"); } - if (options && options.debugExposePipes === true) { - Object.defineProperty(this, "pipes", { get: () => this[PIPES] }); + } + }; + mkdirSync2 = (dir, opt) => { + dir = normalizeWindowsPath(dir); + const umask2 = opt.umask ?? 18; + const mode = opt.mode | 448; + const needChmod = (mode & umask2) !== 0; + const uid = opt.uid; + const gid = opt.gid; + const doChown = typeof uid === "number" && typeof gid === "number" && (uid !== opt.processUid || gid !== opt.processGid); + const preserve = opt.preserve; + const unlink = opt.unlink; + const cwd = normalizeWindowsPath(opt.cwd); + const done = (created2) => { + if (created2 && doChown) { + chownrSync(created2, uid, gid); } - const { signal } = options; - if (signal) { - this[SIGNAL] = signal; - if (signal.aborted) { - this[ABORT](); - } else { - signal.addEventListener("abort", () => this[ABORT]()); - } + if (needChmod) { + import_node_fs3.default.chmodSync(dir, mode); } + }; + if (dir === cwd) { + checkCwdSync(cwd); + return done(); } - /** - * The amount of data stored in the buffer waiting to be read. - * - * For Buffer strings, this will be the total byte length. - * For string encoding streams, this will be the string character length, - * according to JavaScript's `string.length` logic. - * For objectMode streams, this is a count of the items waiting to be - * emitted. - */ - get bufferLength() { - return this[BUFFERLENGTH]; + if (preserve) { + return done(import_node_fs3.default.mkdirSync(dir, { mode, recursive: true }) ?? void 0); } - /** - * The `BufferEncoding` currently in use, or `null` - */ - get encoding() { - return this[ENCODING]; + const sub = normalizeWindowsPath(import_node_path4.default.relative(cwd, dir)); + const parts = sub.split("/"); + let created; + for (let p = parts.shift(), part = cwd; p && (part += "/" + p); p = parts.shift()) { + part = normalizeWindowsPath(import_node_path4.default.resolve(part)); + try { + import_node_fs3.default.mkdirSync(part, mode); + created = created || part; + } catch { + const st = import_node_fs3.default.lstatSync(part); + if (st.isDirectory()) { + continue; + } else if (unlink) { + import_node_fs3.default.unlinkSync(part); + import_node_fs3.default.mkdirSync(part, mode); + created = created || part; + continue; + } else if (st.isSymbolicLink()) { + return new SymlinkError(part, part + "/" + parts.join("/")); + } + } } - /** - * @deprecated - This is a read only property - */ - set encoding(_enc) { - throw new Error("Encoding must be set at instantiation time"); - } - /** - * @deprecated - Encoding may only be set at instantiation time - */ - setEncoding(_enc) { - throw new Error("Encoding must be set at instantiation time"); - } - /** - * True if this is an objectMode stream - */ - get objectMode() { - return this[OBJECTMODE]; + return done(created); + }; + } +}); + +// node_modules/tar/dist/esm/strip-absolute-path.js +var import_node_path5, isAbsolute, parse3, stripAbsolutePath; +var init_strip_absolute_path = __esm({ + "node_modules/tar/dist/esm/strip-absolute-path.js"() { + import_node_path5 = require("node:path"); + ({ isAbsolute, parse: parse3 } = import_node_path5.win32); + stripAbsolutePath = (path16) => { + let r = ""; + let parsed = parse3(path16); + while (isAbsolute(path16) || parsed.root) { + const root = path16.charAt(0) === "/" && path16.slice(0, 4) !== "//?/" ? "/" : parsed.root; + path16 = path16.slice(root.length); + r += root; + parsed = parse3(path16); } - /** - * @deprecated - This is a read-only property - */ - set objectMode(_om) { - throw new Error("objectMode must be set at instantiation time"); + return [r, path16]; + }; + } +}); + +// node_modules/tar/dist/esm/winchars.js +var raw, win, toWin, toRaw, encode2, decode; +var init_winchars = __esm({ + "node_modules/tar/dist/esm/winchars.js"() { + raw = ["|", "<", ">", "?", ":"]; + win = raw.map((char) => String.fromCodePoint(61440 + Number(char.codePointAt(0)))); + toWin = new Map(raw.map((char, i) => [char, win[i]])); + toRaw = new Map(win.map((char, i) => [char, raw[i]])); + encode2 = (s) => raw.reduce((s2, c) => s2.split(c).join(toWin.get(c)), s); + decode = (s) => win.reduce((s2, c) => s2.split(c).join(toRaw.get(c)), s); + } +}); + +// node_modules/tar/dist/esm/normalize-unicode.js +var normalizeCache, MAX, cache, normalizeUnicode; +var init_normalize_unicode = __esm({ + "node_modules/tar/dist/esm/normalize-unicode.js"() { + normalizeCache = /* @__PURE__ */ Object.create(null); + MAX = 1e4; + cache = /* @__PURE__ */ new Set(); + normalizeUnicode = (s) => { + if (!cache.has(s)) { + normalizeCache[s] = s.normalize("NFD").toLocaleLowerCase("en").toLocaleUpperCase("en"); + } else { + cache.delete(s); } - /** - * true if this is an async stream - */ - get ["async"]() { - return this[ASYNC]; + cache.add(s); + const ret = normalizeCache[s]; + let i = cache.size - MAX; + if (i > MAX / 10) { + for (const s2 of cache) { + cache.delete(s2); + delete normalizeCache[s2]; + if (--i <= 0) + break; + } } - /** - * Set to true to make this stream async. - * - * Once set, it cannot be unset, as this would potentially cause incorrect - * behavior. Ie, a sync stream can be made async, but an async stream - * cannot be safely made sync. - */ - set ["async"](a) { - this[ASYNC] = this[ASYNC] || !!a; + return ret; + }; + } +}); + +// node_modules/tar/dist/esm/path-reservations.js +var import_node_path6, platform3, isWindows2, getDirs, PathReservations; +var init_path_reservations = __esm({ + "node_modules/tar/dist/esm/path-reservations.js"() { + import_node_path6 = require("node:path"); + init_normalize_unicode(); + init_strip_trailing_slashes(); + platform3 = process.env.TESTING_TAR_FAKE_PLATFORM || process.platform; + isWindows2 = platform3 === "win32"; + getDirs = (path16) => { + const dirs = path16.split("/").slice(0, -1).reduce((set, path17) => { + const s = set.at(-1); + if (s !== void 0) { + path17 = (0, import_node_path6.join)(s, path17); + } + set.push(path17 || "/"); + return set; + }, []); + return dirs; + }; + PathReservations = class { + // path => [function or Set] + // A Set object means a directory reservation + // A fn is a direct reservation on that path + #queues = /* @__PURE__ */ new Map(); + // fn => {paths:[path,...], dirs:[path, ...]} + #reservations = /* @__PURE__ */ new Map(); + // functions currently running + #running = /* @__PURE__ */ new Set(); + reserve(paths, fn2) { + paths = isWindows2 ? ["win32 parallelization disabled"] : paths.map((p) => { + return stripTrailingSlashes((0, import_node_path6.join)(normalizeUnicode(p))); + }); + const dirs = new Set(paths.map((path16) => getDirs(path16)).reduce((a, b) => a.concat(b))); + this.#reservations.set(fn2, { dirs, paths }); + for (const p of paths) { + const q = this.#queues.get(p); + if (!q) { + this.#queues.set(p, [fn2]); + } else { + q.push(fn2); + } + } + for (const dir of dirs) { + const q = this.#queues.get(dir); + if (!q) { + this.#queues.set(dir, [/* @__PURE__ */ new Set([fn2])]); + } else { + const l = q.at(-1); + if (l instanceof Set) { + l.add(fn2); + } else { + q.push(/* @__PURE__ */ new Set([fn2])); + } + } + } + return this.#run(fn2); } - // drop everything and get out of the flow completely - [ABORT]() { - this[ABORTED] = true; - this.emit("abort", this[SIGNAL]?.reason); - this.destroy(this[SIGNAL]?.reason); + // return the queues for each path the function cares about + // fn => {paths, dirs} + #getQueues(fn2) { + const res = this.#reservations.get(fn2); + if (!res) { + throw new Error("function does not have any path reservations"); + } + return { + paths: res.paths.map((path16) => this.#queues.get(path16)), + dirs: [...res.dirs].map((path16) => this.#queues.get(path16)) + }; } - /** - * True if the stream has been aborted. - */ - get aborted() { - return this[ABORTED]; + // check if fn is first in line for all its paths, and is + // included in the first set for all its dir queues + check(fn2) { + const { paths, dirs } = this.#getQueues(fn2); + return paths.every((q) => q && q[0] === fn2) && dirs.every((q) => q && q[0] instanceof Set && q[0].has(fn2)); } - /** - * No-op setter. Stream aborted status is set via the AbortSignal provided - * in the constructor options. - */ - set aborted(_) { + // run the function if it's first in line and not already running + #run(fn2) { + if (this.#running.has(fn2) || !this.check(fn2)) { + return false; + } + this.#running.add(fn2); + fn2(() => this.#clear(fn2)); + return true; } - write(chunk, encoding, cb) { - if (this[ABORTED]) + #clear(fn2) { + if (!this.#running.has(fn2)) { return false; - if (this[EOF]) - throw new Error("write after end"); - if (this[DESTROYED]) { - this.emit("error", Object.assign(new Error("Cannot call write after a stream was destroyed"), { code: "ERR_STREAM_DESTROYED" })); - return true; } - if (typeof encoding === "function") { - cb = encoding; - encoding = "utf8"; + const res = this.#reservations.get(fn2); + if (!res) { + throw new Error("invalid reservation"); } - if (!encoding) - encoding = "utf8"; - const fn2 = this[ASYNC] ? defer : nodefer; - if (!this[OBJECTMODE] && !Buffer.isBuffer(chunk)) { - if (isArrayBufferView(chunk)) { - chunk = Buffer.from(chunk.buffer, chunk.byteOffset, chunk.byteLength); - } else if (isArrayBufferLike(chunk)) { - chunk = Buffer.from(chunk); - } else if (typeof chunk !== "string") { - throw new Error("Non-contiguous data written to non-objectMode stream"); + const { paths, dirs } = res; + const next = /* @__PURE__ */ new Set(); + for (const path16 of paths) { + const q = this.#queues.get(path16); + if (!q || q?.[0] !== fn2) { + continue; + } + const q0 = q[1]; + if (!q0) { + this.#queues.delete(path16); + continue; + } + q.shift(); + if (typeof q0 === "function") { + next.add(q0); + } else { + for (const f of q0) { + next.add(f); + } } } - if (this[OBJECTMODE]) { - if (this[FLOWING] && this[BUFFERLENGTH] !== 0) - this[FLUSH](true); - if (this[FLOWING]) - this.emit("data", chunk); - else - this[BUFFERPUSH](chunk); - if (this[BUFFERLENGTH] !== 0) - this.emit("readable"); - if (cb) - fn2(cb); - return this[FLOWING]; + for (const dir of dirs) { + const q = this.#queues.get(dir); + const q0 = q?.[0]; + if (!q || !(q0 instanceof Set)) + continue; + if (q0.size === 1 && q.length === 1) { + this.#queues.delete(dir); + continue; + } else if (q0.size === 1) { + q.shift(); + const n = q[0]; + if (typeof n === "function") { + next.add(n); + } + } else { + q0.delete(fn2); + } } - if (!chunk.length) { - if (this[BUFFERLENGTH] !== 0) - this.emit("readable"); - if (cb) - fn2(cb); - return this[FLOWING]; - } - if (typeof chunk === "string" && // unless it is a string already ready for us to use - !(encoding === this[ENCODING] && !this[DECODER]?.lastNeed)) { - chunk = Buffer.from(chunk, encoding); - } - if (Buffer.isBuffer(chunk) && this[ENCODING]) { - chunk = this[DECODER].write(chunk); - } - if (this[FLOWING] && this[BUFFERLENGTH] !== 0) - this[FLUSH](true); - if (this[FLOWING]) - this.emit("data", chunk); - else - this[BUFFERPUSH](chunk); - if (this[BUFFERLENGTH] !== 0) - this.emit("readable"); - if (cb) - fn2(cb); - return this[FLOWING]; + this.#running.delete(fn2); + next.forEach((fn3) => this.#run(fn3)); + return true; } - /** - * Low-level explicit read method. - * - * In objectMode, the argument is ignored, and one item is returned if - * available. - * - * `n` is the number of bytes (or in the case of encoding streams, - * characters) to consume. If `n` is not provided, then the entire buffer - * is returned, or `null` is returned if no data is available. - * - * If `n` is greater that the amount of data in the internal buffer, - * then `null` is returned. - */ - read(n) { - if (this[DESTROYED]) - return null; - this[DISCARDED] = false; - if (this[BUFFERLENGTH] === 0 || n === 0 || n && n > this[BUFFERLENGTH]) { - this[MAYBE_EMIT_END](); - return null; - } - if (this[OBJECTMODE]) - n = null; - if (this[BUFFER].length > 1 && !this[OBJECTMODE]) { - this[BUFFER] = [ - this[ENCODING] ? this[BUFFER].join("") : Buffer.concat(this[BUFFER], this[BUFFERLENGTH]) - ]; + }; + } +}); + +// node_modules/tar/dist/esm/process-umask.js +var umask; +var init_process_umask = __esm({ + "node_modules/tar/dist/esm/process-umask.js"() { + umask = () => process.umask(); + } +}); + +// node_modules/tar/dist/esm/unpack.js +var import_node_assert, import_node_crypto, import_node_fs4, import_node_path7, ONENTRY, CHECKFS, CHECKFS2, ISREUSABLE, MAKEFS, FILE, DIRECTORY, LINK, SYMLINK, HARDLINK, ENSURE_NO_SYMLINK, UNSUPPORTED, CHECKPATH, STRIPABSOLUTEPATH, MKDIR, ONERROR, PENDING, PEND, UNPEND, ENDED2, MAYBECLOSE, SKIP, DOCHOWN, UID, GID, CHECKED_CWD, platform4, isWindows3, DEFAULT_MAX_DEPTH, unlinkFile, unlinkFileSync, uint32, Unpack, callSync, UnpackSync; +var init_unpack = __esm({ + "node_modules/tar/dist/esm/unpack.js"() { + init_esm2(); + import_node_assert = __toESM(require("node:assert"), 1); + import_node_crypto = require("node:crypto"); + import_node_fs4 = __toESM(require("node:fs"), 1); + import_node_path7 = __toESM(require("node:path"), 1); + init_get_write_flag(); + init_mkdir(); + init_normalize_windows_path(); + init_parse(); + init_strip_absolute_path(); + init_winchars(); + init_path_reservations(); + init_symlink_error(); + init_process_umask(); + ONENTRY = /* @__PURE__ */ Symbol("onEntry"); + CHECKFS = /* @__PURE__ */ Symbol("checkFs"); + CHECKFS2 = /* @__PURE__ */ Symbol("checkFs2"); + ISREUSABLE = /* @__PURE__ */ Symbol("isReusable"); + MAKEFS = /* @__PURE__ */ Symbol("makeFs"); + FILE = /* @__PURE__ */ Symbol("file"); + DIRECTORY = /* @__PURE__ */ Symbol("directory"); + LINK = /* @__PURE__ */ Symbol("link"); + SYMLINK = /* @__PURE__ */ Symbol("symlink"); + HARDLINK = /* @__PURE__ */ Symbol("hardlink"); + ENSURE_NO_SYMLINK = /* @__PURE__ */ Symbol("ensureNoSymlink"); + UNSUPPORTED = /* @__PURE__ */ Symbol("unsupported"); + CHECKPATH = /* @__PURE__ */ Symbol("checkPath"); + STRIPABSOLUTEPATH = /* @__PURE__ */ Symbol("stripAbsolutePath"); + MKDIR = /* @__PURE__ */ Symbol("mkdir"); + ONERROR = /* @__PURE__ */ Symbol("onError"); + PENDING = /* @__PURE__ */ Symbol("pending"); + PEND = /* @__PURE__ */ Symbol("pend"); + UNPEND = /* @__PURE__ */ Symbol("unpend"); + ENDED2 = /* @__PURE__ */ Symbol("ended"); + MAYBECLOSE = /* @__PURE__ */ Symbol("maybeClose"); + SKIP = /* @__PURE__ */ Symbol("skip"); + DOCHOWN = /* @__PURE__ */ Symbol("doChown"); + UID = /* @__PURE__ */ Symbol("uid"); + GID = /* @__PURE__ */ Symbol("gid"); + CHECKED_CWD = /* @__PURE__ */ Symbol("checkedCwd"); + platform4 = process.env.TESTING_TAR_FAKE_PLATFORM || process.platform; + isWindows3 = platform4 === "win32"; + DEFAULT_MAX_DEPTH = 1024; + unlinkFile = (path16, cb) => { + if (!isWindows3) { + return import_node_fs4.default.unlink(path16, cb); + } + const name2 = path16 + ".DELETE." + (0, import_node_crypto.randomBytes)(16).toString("hex"); + import_node_fs4.default.rename(path16, name2, (er) => { + if (er) { + return cb(er); } - const ret = this[READ](n || null, this[BUFFER][0]); - this[MAYBE_EMIT_END](); - return ret; + import_node_fs4.default.unlink(name2, cb); + }); + }; + unlinkFileSync = (path16) => { + if (!isWindows3) { + return import_node_fs4.default.unlinkSync(path16); } - [READ](n, chunk) { - if (this[OBJECTMODE]) - this[BUFFERSHIFT](); - else { - const c = chunk; - if (n === c.length || n === null) - this[BUFFERSHIFT](); - else if (typeof c === "string") { - this[BUFFER][0] = c.slice(n); - chunk = c.slice(0, n); - this[BUFFERLENGTH] -= n; - } else { - this[BUFFER][0] = c.subarray(n); - chunk = c.subarray(0, n); - this[BUFFERLENGTH] -= n; + const name2 = path16 + ".DELETE." + (0, import_node_crypto.randomBytes)(16).toString("hex"); + import_node_fs4.default.renameSync(path16, name2); + import_node_fs4.default.unlinkSync(name2); + }; + uint32 = (a, b, c) => a !== void 0 && a === a >>> 0 ? a : b !== void 0 && b === b >>> 0 ? b : c; + Unpack = class extends Parser { + [ENDED2] = false; + [CHECKED_CWD] = false; + [PENDING] = 0; + reservations = new PathReservations(); + transform; + writable = true; + readable = false; + uid; + gid; + setOwner; + preserveOwner; + processGid; + processUid; + maxDepth; + forceChown; + win32; + newer; + keep; + noMtime; + preservePaths; + unlink; + cwd; + strip; + processUmask; + umask; + dmode; + fmode; + chmod; + constructor(opt = {}) { + opt.ondone = () => { + this[ENDED2] = true; + this[MAYBECLOSE](); + }; + super(opt); + this.transform = opt.transform; + this.chmod = !!opt.chmod; + if (typeof opt.uid === "number" || typeof opt.gid === "number") { + if (typeof opt.uid !== "number" || typeof opt.gid !== "number") { + throw new TypeError("cannot set owner without number uid and gid"); } + if (opt.preserveOwner) { + throw new TypeError("cannot preserve owner in archive and also set owner explicitly"); + } + this.uid = opt.uid; + this.gid = opt.gid; + this.setOwner = true; + } else { + this.uid = void 0; + this.gid = void 0; + this.setOwner = false; } - this.emit("data", chunk); - if (!this[BUFFER].length && !this[EOF]) - this.emit("drain"); - return chunk; + this.preserveOwner = opt.preserveOwner === void 0 && typeof opt.uid !== "number" ? !!(process.getuid && process.getuid() === 0) : !!opt.preserveOwner; + this.processUid = (this.preserveOwner || this.setOwner) && process.getuid ? process.getuid() : void 0; + this.processGid = (this.preserveOwner || this.setOwner) && process.getgid ? process.getgid() : void 0; + this.maxDepth = typeof opt.maxDepth === "number" ? opt.maxDepth : DEFAULT_MAX_DEPTH; + this.forceChown = opt.forceChown === true; + this.win32 = !!opt.win32 || isWindows3; + this.newer = !!opt.newer; + this.keep = !!opt.keep; + this.noMtime = !!opt.noMtime; + this.preservePaths = !!opt.preservePaths; + this.unlink = !!opt.unlink; + this.cwd = normalizeWindowsPath(import_node_path7.default.resolve(opt.cwd || process.cwd())); + this.strip = Number(opt.strip) || 0; + this.processUmask = !this.chmod ? 0 : typeof opt.processUmask === "number" ? opt.processUmask : umask(); + this.umask = typeof opt.umask === "number" ? opt.umask : this.processUmask; + this.dmode = opt.dmode || 511 & ~this.umask; + this.fmode = opt.fmode || 438 & ~this.umask; + this.on("entry", (entry) => this[ONENTRY](entry)); } - end(chunk, encoding, cb) { - if (typeof chunk === "function") { - cb = chunk; - chunk = void 0; - } - if (typeof encoding === "function") { - cb = encoding; - encoding = "utf8"; + // a bad or damaged archive is a warning for Parser, but an error + // when extracting. Mark those errors as unrecoverable, because + // the Unpack contract cannot be met. + warn(code2, msg, data = {}) { + if (code2 === "TAR_BAD_ARCHIVE" || code2 === "TAR_ABORT") { + data.recoverable = false; } - if (chunk !== void 0) - this.write(chunk, encoding); - if (cb) - this.once("end", cb); - this[EOF] = true; - this.writable = false; - if (this[FLOWING] || !this[PAUSED]) - this[MAYBE_EMIT_END](); - return this; + return super.warn(code2, msg, data); } - // don't let the internal resume be overwritten - [RESUME]() { - if (this[DESTROYED]) - return; - if (!this[DATALISTENERS] && !this[PIPES].length) { - this[DISCARDED] = true; + [MAYBECLOSE]() { + if (this[ENDED2] && this[PENDING] === 0) { + this.emit("prefinish"); + this.emit("finish"); + this.emit("end"); } - this[PAUSED] = false; - this[FLOWING] = true; - this.emit("resume"); - if (this[BUFFER].length) - this[FLUSH](); - else if (this[EOF]) - this[MAYBE_EMIT_END](); - else - this.emit("drain"); - } - /** - * Resume the stream if it is currently in a paused state - * - * If called when there are no pipe destinations or `data` event listeners, - * this will place the stream in a "discarded" state, where all data will - * be thrown away. The discarded state is removed if a pipe destination or - * data handler is added, if pause() is called, or if any synchronous or - * asynchronous iteration is started. - */ - resume() { - return this[RESUME](); - } - /** - * Pause the stream - */ - pause() { - this[FLOWING] = false; - this[PAUSED] = true; - this[DISCARDED] = false; - } - /** - * true if the stream has been forcibly destroyed - */ - get destroyed() { - return this[DESTROYED]; } - /** - * true if the stream is currently in a flowing state, meaning that - * any writes will be immediately emitted. - */ - get flowing() { - return this[FLOWING]; - } - /** - * true if the stream is currently in a paused state - */ - get paused() { - return this[PAUSED]; - } - [BUFFERPUSH](chunk) { - if (this[OBJECTMODE]) - this[BUFFERLENGTH] += 1; - else - this[BUFFERLENGTH] += chunk.length; - this[BUFFER].push(chunk); - } - [BUFFERSHIFT]() { - if (this[OBJECTMODE]) - this[BUFFERLENGTH] -= 1; - else - this[BUFFERLENGTH] -= this[BUFFER][0].length; - return this[BUFFER].shift(); + // return false if we need to skip this file + // return true if the field was successfully sanitized + [STRIPABSOLUTEPATH](entry, field) { + const p = entry[field]; + const { type } = entry; + if (!p || this.preservePaths) + return true; + const [root, stripped] = stripAbsolutePath(p); + const parts = stripped.replaceAll(/\\/g, "/").split("/"); + if (parts.includes("..") || /* c8 ignore next */ + isWindows3 && /^[a-z]:\.\.$/i.test(parts[0] ?? "")) { + if (field === "path" || type === "Link") { + this.warn("TAR_ENTRY_ERROR", `${field} contains '..'`, { + entry, + [field]: p + }); + return false; + } + const entryDir = import_node_path7.default.posix.dirname(entry.path); + const resolved = import_node_path7.default.posix.normalize(import_node_path7.default.posix.join(entryDir, parts.join("/"))); + if (resolved.startsWith("../") || resolved === "..") { + this.warn("TAR_ENTRY_ERROR", `${field} escapes extraction directory`, { + entry, + [field]: p + }); + return false; + } + } + if (root) { + entry[field] = String(stripped); + this.warn("TAR_ENTRY_INFO", `stripping ${root} from absolute ${field}`, { + entry, + [field]: p + }); + } + return true; } - [FLUSH](noDrain = false) { - do { - } while (this[FLUSHCHUNK](this[BUFFERSHIFT]()) && this[BUFFER].length); - if (!noDrain && !this[BUFFER].length && !this[EOF]) - this.emit("drain"); + // no IO, just string checking for absolute indicators + [CHECKPATH](entry) { + const p = normalizeWindowsPath(entry.path); + const parts = p.split("/"); + if (this.strip) { + if (parts.length < this.strip) { + return false; + } + if (entry.type === "Link") { + const linkparts = normalizeWindowsPath(String(entry.linkpath)).split("/"); + if (linkparts.length >= this.strip) { + entry.linkpath = linkparts.slice(this.strip).join("/"); + } else { + return false; + } + } + parts.splice(0, this.strip); + entry.path = parts.join("/"); + } + if (isFinite(this.maxDepth) && parts.length > this.maxDepth) { + this.warn("TAR_ENTRY_ERROR", "path excessively deep", { + entry, + path: p, + depth: parts.length, + maxDepth: this.maxDepth + }); + return false; + } + if (!this[STRIPABSOLUTEPATH](entry, "path") || !this[STRIPABSOLUTEPATH](entry, "linkpath")) { + return false; + } + entry.absolute = import_node_path7.default.isAbsolute(entry.path) ? normalizeWindowsPath(import_node_path7.default.resolve(entry.path)) : normalizeWindowsPath(import_node_path7.default.resolve(this.cwd, entry.path)); + if (!this.preservePaths && typeof entry.absolute === "string" && entry.absolute.indexOf(this.cwd + "/") !== 0 && entry.absolute !== this.cwd) { + this.warn("TAR_ENTRY_ERROR", "path escaped extraction target", { + entry, + path: normalizeWindowsPath(entry.path), + resolvedPath: entry.absolute, + cwd: this.cwd + }); + return false; + } + if (entry.absolute === this.cwd && entry.type !== "Directory" && entry.type !== "GNUDumpDir") { + return false; + } + if (this.win32) { + const { root: aRoot } = import_node_path7.default.win32.parse(String(entry.absolute)); + entry.absolute = aRoot + encode2(String(entry.absolute).slice(aRoot.length)); + const { root: pRoot } = import_node_path7.default.win32.parse(entry.path); + entry.path = pRoot + encode2(entry.path.slice(pRoot.length)); + } + return true; } - [FLUSHCHUNK](chunk) { - this.emit("data", chunk); - return this[FLOWING]; + [ONENTRY](entry) { + if (!this[CHECKPATH](entry)) { + return entry.resume(); + } + import_node_assert.default.equal(typeof entry.absolute, "string"); + switch (entry.type) { + case "Directory": + case "GNUDumpDir": + if (entry.mode) { + entry.mode = entry.mode | 448; + } + // eslint-disable-next-line no-fallthrough + case "File": + case "OldFile": + case "ContiguousFile": + case "Link": + case "SymbolicLink": + return this[CHECKFS](entry); + case "CharacterDevice": + case "BlockDevice": + case "FIFO": + default: + return this[UNSUPPORTED](entry); + } } - /** - * Pipe all data emitted by this stream into the destination provided. - * - * Triggers the flow of data. - */ - pipe(dest, opts) { - if (this[DESTROYED]) - return dest; - this[DISCARDED] = false; - const ended = this[EMITTED_END]; - opts = opts || {}; - if (dest === proc.stdout || dest === proc.stderr) - opts.end = false; - else - opts.end = opts.end !== false; - opts.proxyErrors = !!opts.proxyErrors; - if (ended) { - if (opts.end) - dest.end(); + [ONERROR](er, entry) { + if (er.name === "CwdError") { + this.emit("error", er); } else { - this[PIPES].push(!opts.proxyErrors ? new Pipe(this, dest, opts) : new PipeProxyErrors(this, dest, opts)); - if (this[ASYNC]) - defer(() => this[RESUME]()); - else - this[RESUME](); + this.warn("TAR_ENTRY_ERROR", er, { entry }); + this[UNPEND](); + entry.resume(); } - return dest; } - /** - * Fully unhook a piped destination stream. - * - * If the destination stream was the only consumer of this stream (ie, - * there are no other piped destinations or `'data'` event listeners) - * then the flow of data will stop until there is another consumer or - * {@link Minipass#resume} is explicitly called. - */ - unpipe(dest) { - const p = this[PIPES].find((p2) => p2.dest === dest); - if (p) { - if (this[PIPES].length === 1) { - if (this[FLOWING] && this[DATALISTENERS] === 0) { - this[FLOWING] = false; - } - this[PIPES] = []; - } else - this[PIPES].splice(this[PIPES].indexOf(p), 1); - p.unpipe(); - } + [MKDIR](dir, mode, cb) { + mkdir(normalizeWindowsPath(dir), { + uid: this.uid, + gid: this.gid, + processUid: this.processUid, + processGid: this.processGid, + umask: this.processUmask, + preserve: this.preservePaths, + unlink: this.unlink, + cwd: this.cwd, + mode + }, cb); } - /** - * Alias for {@link Minipass#on} - */ - addListener(ev, handler) { - return this.on(ev, handler); + [DOCHOWN](entry) { + return this.forceChown || this.preserveOwner && (typeof entry.uid === "number" && entry.uid !== this.processUid || typeof entry.gid === "number" && entry.gid !== this.processGid) || typeof this.uid === "number" && this.uid !== this.processUid || typeof this.gid === "number" && this.gid !== this.processGid; } - /** - * Mostly identical to `EventEmitter.on`, with the following - * behavior differences to prevent data loss and unnecessary hangs: - * - * - Adding a 'data' event handler will trigger the flow of data - * - * - Adding a 'readable' event handler when there is data waiting to be read - * will cause 'readable' to be emitted immediately. - * - * - Adding an 'endish' event handler ('end', 'finish', etc.) which has - * already passed will cause the event to be emitted immediately and all - * handlers removed. - * - * - Adding an 'error' event handler after an error has been emitted will - * cause the event to be re-emitted immediately with the error previously - * raised. - */ - on(ev, handler) { - const ret = super.on(ev, handler); - if (ev === "data") { - this[DISCARDED] = false; - this[DATALISTENERS]++; - if (!this[PIPES].length && !this[FLOWING]) { - this[RESUME](); - } - } else if (ev === "readable" && this[BUFFERLENGTH] !== 0) { - super.emit("readable"); - } else if (isEndish(ev) && this[EMITTED_END]) { - super.emit(ev); - this.removeAllListeners(ev); - } else if (ev === "error" && this[EMITTED_ERROR]) { - const h = handler; - if (this[ASYNC]) - defer(() => h.call(this, this[EMITTED_ERROR])); - else - h.call(this, this[EMITTED_ERROR]); - } - return ret; + [UID](entry) { + return uint32(this.uid, entry.uid, this.processUid); } - /** - * Alias for {@link Minipass#off} - */ - removeListener(ev, handler) { - return this.off(ev, handler); + [GID](entry) { + return uint32(this.gid, entry.gid, this.processGid); } - /** - * Mostly identical to `EventEmitter.off` - * - * If a 'data' event handler is removed, and it was the last consumer - * (ie, there are no pipe destinations or other 'data' event listeners), - * then the flow of data will stop until there is another consumer or - * {@link Minipass#resume} is explicitly called. - */ - off(ev, handler) { - const ret = super.off(ev, handler); - if (ev === "data") { - this[DATALISTENERS] = this.listeners("data").length; - if (this[DATALISTENERS] === 0 && !this[DISCARDED] && !this[PIPES].length) { - this[FLOWING] = false; + [FILE](entry, fullyDone) { + const mode = typeof entry.mode === "number" ? entry.mode & 4095 : this.fmode; + const stream = new WriteStream(String(entry.absolute), { + // slight lie, but it can be numeric flags + flags: getWriteFlag(entry.size), + mode, + autoClose: false + }); + stream.on("error", (er) => { + if (stream.fd) { + import_node_fs4.default.close(stream.fd, () => { + }); } - } - return ret; - } - /** - * Mostly identical to `EventEmitter.removeAllListeners` - * - * If all 'data' event handlers are removed, and they were the last consumer - * (ie, there are no pipe destinations), then the flow of data will stop - * until there is another consumer or {@link Minipass#resume} is explicitly - * called. - */ - removeAllListeners(ev) { - const ret = super.removeAllListeners(ev); - if (ev === "data" || ev === void 0) { - this[DATALISTENERS] = 0; - if (!this[DISCARDED] && !this[PIPES].length) { - this[FLOWING] = false; + stream.write = () => true; + this[ONERROR](er, entry); + fullyDone(); + }); + let actions = 1; + const done = (er) => { + if (er) { + if (stream.fd) { + import_node_fs4.default.close(stream.fd, () => { + }); + } + this[ONERROR](er, entry); + fullyDone(); + return; + } + if (--actions === 0) { + if (stream.fd !== void 0) { + import_node_fs4.default.close(stream.fd, (er2) => { + if (er2) { + this[ONERROR](er2, entry); + } else { + this[UNPEND](); + } + fullyDone(); + }); + } + } + }; + stream.on("finish", () => { + const abs = String(entry.absolute); + const fd = stream.fd; + if (typeof fd === "number" && entry.mtime && !this.noMtime) { + actions++; + const atime = entry.atime || /* @__PURE__ */ new Date(); + const mtime = entry.mtime; + import_node_fs4.default.futimes(fd, atime, mtime, (er) => er ? import_node_fs4.default.utimes(abs, atime, mtime, (er2) => done(er2 && er)) : done()); + } + if (typeof fd === "number" && this[DOCHOWN](entry)) { + actions++; + const uid = this[UID](entry); + const gid = this[GID](entry); + if (typeof uid === "number" && typeof gid === "number") { + import_node_fs4.default.fchown(fd, uid, gid, (er) => er ? import_node_fs4.default.chown(abs, uid, gid, (er2) => done(er2 && er)) : done()); + } } + done(); + }); + const tx = this.transform ? this.transform(entry) || entry : entry; + if (tx !== entry) { + tx.on("error", (er) => { + this[ONERROR](er, entry); + fullyDone(); + }); + entry.pipe(tx); } - return ret; - } - /** - * true if the 'end' event has been emitted - */ - get emittedEnd() { - return this[EMITTED_END]; + tx.pipe(stream); } - [MAYBE_EMIT_END]() { - if (!this[EMITTING_END] && !this[EMITTED_END] && !this[DESTROYED] && this[BUFFER].length === 0 && this[EOF]) { - this[EMITTING_END] = true; - this.emit("end"); - this.emit("prefinish"); - this.emit("finish"); - if (this[CLOSED]) - this.emit("close"); - this[EMITTING_END] = false; - } + [DIRECTORY](entry, fullyDone) { + const mode = typeof entry.mode === "number" ? entry.mode & 4095 : this.dmode; + this[MKDIR](String(entry.absolute), mode, (er) => { + if (er) { + this[ONERROR](er, entry); + fullyDone(); + return; + } + let actions = 1; + const done = () => { + if (--actions === 0) { + fullyDone(); + this[UNPEND](); + entry.resume(); + } + }; + if (entry.mtime && !this.noMtime) { + actions++; + import_node_fs4.default.utimes(String(entry.absolute), entry.atime || /* @__PURE__ */ new Date(), entry.mtime, done); + } + if (this[DOCHOWN](entry)) { + actions++; + import_node_fs4.default.chown(String(entry.absolute), Number(this[UID](entry)), Number(this[GID](entry)), done); + } + done(); + }); } - /** - * Mostly identical to `EventEmitter.emit`, with the following - * behavior differences to prevent data loss and unnecessary hangs: - * - * If the stream has been destroyed, and the event is something other - * than 'close' or 'error', then `false` is returned and no handlers - * are called. - * - * If the event is 'end', and has already been emitted, then the event - * is ignored. If the stream is in a paused or non-flowing state, then - * the event will be deferred until data flow resumes. If the stream is - * async, then handlers will be called on the next tick rather than - * immediately. - * - * If the event is 'close', and 'end' has not yet been emitted, then - * the event will be deferred until after 'end' is emitted. - * - * If the event is 'error', and an AbortSignal was provided for the stream, - * and there are no listeners, then the event is ignored, matching the - * behavior of node core streams in the presense of an AbortSignal. - * - * If the event is 'finish' or 'prefinish', then all listeners will be - * removed after emitting the event, to prevent double-firing. - */ - emit(ev, ...args) { - const data = args[0]; - if (ev !== "error" && ev !== "close" && ev !== DESTROYED && this[DESTROYED]) { - return false; - } else if (ev === "data") { - return !this[OBJECTMODE] && !data ? false : this[ASYNC] ? (defer(() => this[EMITDATA](data)), true) : this[EMITDATA](data); - } else if (ev === "end") { - return this[EMITEND](); - } else if (ev === "close") { - this[CLOSED] = true; - if (!this[EMITTED_END] && !this[DESTROYED]) - return false; - const ret2 = super.emit("close"); - this.removeAllListeners("close"); - return ret2; - } else if (ev === "error") { - this[EMITTED_ERROR] = data; - super.emit(ERROR, data); - const ret2 = !this[SIGNAL] || this.listeners("error").length ? super.emit("error", data) : false; - this[MAYBE_EMIT_END](); - return ret2; - } else if (ev === "resume") { - const ret2 = super.emit("resume"); - this[MAYBE_EMIT_END](); - return ret2; - } else if (ev === "finish" || ev === "prefinish") { - const ret2 = super.emit(ev); - this.removeAllListeners(ev); - return ret2; - } - const ret = super.emit(ev, ...args); - this[MAYBE_EMIT_END](); - return ret; + [UNSUPPORTED](entry) { + entry.unsupported = true; + this.warn("TAR_ENTRY_UNSUPPORTED", `unsupported entry type: ${entry.type}`, { entry }); + entry.resume(); } - [EMITDATA](data) { - for (const p of this[PIPES]) { - if (p.dest.write(data) === false) - this.pause(); - } - const ret = this[DISCARDED] ? false : super.emit("data", data); - this[MAYBE_EMIT_END](); - return ret; + [SYMLINK](entry, done) { + const parts = normalizeWindowsPath(import_node_path7.default.relative(this.cwd, import_node_path7.default.resolve(import_node_path7.default.dirname(String(entry.absolute)), String(entry.linkpath)))).split("/"); + this[ENSURE_NO_SYMLINK](entry, this.cwd, parts, () => this[LINK](entry, String(entry.linkpath), "symlink", done), (er) => { + this[ONERROR](er, entry); + done(); + }); } - [EMITEND]() { - if (this[EMITTED_END]) - return false; - this[EMITTED_END] = true; - this.readable = false; - return this[ASYNC] ? (defer(() => this[EMITEND2]()), true) : this[EMITEND2](); + [HARDLINK](entry, done) { + const linkpath = normalizeWindowsPath(import_node_path7.default.resolve(this.cwd, String(entry.linkpath))); + const parts = normalizeWindowsPath(String(entry.linkpath)).split("/"); + this[ENSURE_NO_SYMLINK](entry, this.cwd, parts, () => this[LINK](entry, linkpath, "link", done), (er) => { + this[ONERROR](er, entry); + done(); + }); } - [EMITEND2]() { - if (this[DECODER]) { - const data = this[DECODER].end(); - if (data) { - for (const p of this[PIPES]) { - p.dest.write(data); - } - if (!this[DISCARDED]) - super.emit("data", data); + [ENSURE_NO_SYMLINK](entry, cwd, parts, done, onError) { + const p = parts.shift(); + if (this.preservePaths || p === void 0) + return done(); + const t = import_node_path7.default.resolve(cwd, p); + import_node_fs4.default.lstat(t, (er, st) => { + if (er) + return done(); + if (st?.isSymbolicLink()) { + return onError(new SymlinkError(t, import_node_path7.default.resolve(t, parts.join("/")))); } - } - for (const p of this[PIPES]) { - p.end(); - } - const ret = super.emit("end"); - this.removeAllListeners("end"); - return ret; - } - /** - * Return a Promise that resolves to an array of all emitted data once - * the stream ends. - */ - async collect() { - const buf = Object.assign([], { - dataLength: 0 - }); - if (!this[OBJECTMODE]) - buf.dataLength = 0; - const p = this.promise(); - this.on("data", (c) => { - buf.push(c); - if (!this[OBJECTMODE]) - buf.dataLength += c.length; + this[ENSURE_NO_SYMLINK](entry, t, parts, done, onError); }); - await p; - return buf; } - /** - * Return a Promise that resolves to the concatenation of all emitted data - * once the stream ends. - * - * Not allowed on objectMode streams. - */ - async concat() { - if (this[OBJECTMODE]) { - throw new Error("cannot concat in objectMode"); - } - const buf = await this.collect(); - return this[ENCODING] ? buf.join("") : Buffer.concat(buf, buf.dataLength); + [PEND]() { + this[PENDING]++; } - /** - * Return a void Promise that resolves once the stream ends. - */ - async promise() { - return new Promise((resolve, reject) => { - this.on(DESTROYED, () => reject(new Error("stream destroyed"))); - this.on("error", (er) => reject(er)); - this.on("end", () => resolve()); - }); + [UNPEND]() { + this[PENDING]--; + this[MAYBECLOSE](); } - /** - * Asynchronous `for await of` iteration. - * - * This will continue emitting all chunks until the stream terminates. - */ - [Symbol.asyncIterator]() { - this[DISCARDED] = false; - let stopped = false; - const stop = async () => { - this.pause(); - stopped = true; - return { value: void 0, done: true }; + [SKIP](entry) { + this[UNPEND](); + entry.resume(); + } + // Check if we can reuse an existing filesystem entry safely and + // overwrite it, rather than unlinking and recreating + // Windows doesn't report a useful nlink, so we just never reuse entries + [ISREUSABLE](entry, st) { + return entry.type === "File" && !this.unlink && st.isFile() && st.nlink <= 1 && !isWindows3; + } + // check if a thing is there, and if so, try to clobber it + [CHECKFS](entry) { + this[PEND](); + const paths = [entry.path]; + if (entry.linkpath) { + paths.push(entry.linkpath); + } + this.reservations.reserve(paths, (done) => this[CHECKFS2](entry, done)); + } + [CHECKFS2](entry, fullyDone) { + const done = (er) => { + fullyDone(er); }; - const next = () => { - if (stopped) - return stop(); - const res = this.read(); - if (res !== null) - return Promise.resolve({ done: false, value: res }); - if (this[EOF]) - return stop(); - let resolve; - let reject; - const onerr = (er) => { - this.off("data", ondata); - this.off("end", onend); - this.off(DESTROYED, ondestroy); - stop(); - reject(er); - }; - const ondata = (value) => { - this.off("error", onerr); - this.off("end", onend); - this.off(DESTROYED, ondestroy); - this.pause(); - resolve({ value, done: !!this[EOF] }); - }; - const onend = () => { - this.off("error", onerr); - this.off("data", ondata); - this.off(DESTROYED, ondestroy); - stop(); - resolve({ done: true, value: void 0 }); - }; - const ondestroy = () => onerr(new Error("stream destroyed")); - return new Promise((res2, rej) => { - reject = rej; - resolve = res2; - this.once(DESTROYED, ondestroy); - this.once("error", onerr); - this.once("end", onend); - this.once("data", ondata); + const checkCwd2 = () => { + this[MKDIR](this.cwd, this.dmode, (er) => { + if (er) { + this[ONERROR](er, entry); + done(); + return; + } + this[CHECKED_CWD] = true; + start(); }); }; - return { - next, - throw: stop, - return: stop, - [Symbol.asyncIterator]() { - return this; + const start = () => { + if (entry.absolute !== this.cwd) { + const parent = normalizeWindowsPath(import_node_path7.default.dirname(String(entry.absolute))); + if (parent !== this.cwd) { + return this[MKDIR](parent, this.dmode, (er) => { + if (er) { + this[ONERROR](er, entry); + done(); + return; + } + afterMakeParent(); + }); + } } + afterMakeParent(); }; - } - /** - * Synchronous `for of` iteration. - * - * The iteration will terminate when the internal buffer runs out, even - * if the stream has not yet terminated. - */ - [Symbol.iterator]() { - this[DISCARDED] = false; - let stopped = false; - const stop = () => { - this.pause(); - this.off(ERROR, stop); - this.off(DESTROYED, stop); - this.off("end", stop); - stopped = true; - return { done: true, value: void 0 }; - }; - const next = () => { - if (stopped) - return stop(); - const value = this.read(); - return value === null ? stop() : { done: false, value }; - }; - this.once("end", stop); - this.once(ERROR, stop); - this.once(DESTROYED, stop); - return { - next, - throw: stop, - return: stop, - [Symbol.iterator]() { - return this; - } + const afterMakeParent = () => { + import_node_fs4.default.lstat(String(entry.absolute), (lstatEr, st) => { + if (st && (this.keep || /* c8 ignore next */ + this.newer && st.mtime > (entry.mtime ?? st.mtime))) { + this[SKIP](entry); + done(); + return; + } + if (lstatEr || this[ISREUSABLE](entry, st)) { + return this[MAKEFS](null, entry, done); + } + if (st.isDirectory()) { + if (entry.type === "Directory") { + const needChmod = this.chmod && entry.mode && (st.mode & 4095) !== entry.mode; + const afterChmod = (er) => this[MAKEFS](er ?? null, entry, done); + if (!needChmod) { + return afterChmod(); + } + return import_node_fs4.default.chmod(String(entry.absolute), Number(entry.mode), afterChmod); + } + if (entry.absolute !== this.cwd) { + return import_node_fs4.default.rmdir(String(entry.absolute), (er) => this[MAKEFS](er ?? null, entry, done)); + } + } + if (entry.absolute === this.cwd) { + return this[MAKEFS](null, entry, done); + } + unlinkFile(String(entry.absolute), (er) => this[MAKEFS](er ?? null, entry, done)); + }); }; - } - /** - * Destroy a stream, preventing it from being used for any further purpose. - * - * If the stream has a `close()` method, then it will be called on - * destruction. - * - * After destruction, any attempt to write data, read data, or emit most - * events will be ignored. - * - * If an error argument is provided, then it will be emitted in an - * 'error' event. - */ - destroy(er) { - if (this[DESTROYED]) { - if (er) - this.emit("error", er); - else - this.emit(DESTROYED); - return this; + if (this[CHECKED_CWD]) { + start(); + } else { + checkCwd2(); } - this[DESTROYED] = true; - this[DISCARDED] = true; - this[BUFFER].length = 0; - this[BUFFERLENGTH] = 0; - const wc = this; - if (typeof wc.close === "function" && !this[CLOSED]) - wc.close(); - if (er) - this.emit("error", er); - else - this.emit(DESTROYED); - return this; } - /** - * Alias for {@link isStream} - * - * Former export location, maintained for backwards compatibility. - * - * @deprecated - */ - static get isStream() { - return isStream; + [MAKEFS](er, entry, done) { + if (er) { + this[ONERROR](er, entry); + done(); + return; + } + switch (entry.type) { + case "File": + case "OldFile": + case "ContiguousFile": + return this[FILE](entry, done); + case "Link": + return this[HARDLINK](entry, done); + case "SymbolicLink": + return this[SYMLINK](entry, done); + case "Directory": + case "GNUDumpDir": + return this[DIRECTORY](entry, done); + } } - }; - } -}); - -// .yarn/cache/@isaacs-fs-minipass-npm-4.0.1-677026e841-c25b6dc159.zip/node_modules/@isaacs/fs-minipass/dist/esm/index.js -var import_events2, import_fs2, writev, _autoClose, _close, _ended, _fd, _finished, _flags, _flush, _handleChunk, _makeBuf, _mode, _needDrain, _onerror, _onopen, _onread, _onwrite, _open, _path, _pos, _queue, _read, _readSize, _reading, _remain, _size, _write, _writing, _defaultFlag, _errored, ReadStream, ReadStreamSync, WriteStream, WriteStreamSync; -var init_esm2 = __esm({ - ".yarn/cache/@isaacs-fs-minipass-npm-4.0.1-677026e841-c25b6dc159.zip/node_modules/@isaacs/fs-minipass/dist/esm/index.js"() { - import_events2 = __toESM(require("events"), 1); - import_fs2 = __toESM(require("fs"), 1); - init_esm(); - writev = import_fs2.default.writev; - _autoClose = Symbol("_autoClose"); - _close = Symbol("_close"); - _ended = Symbol("_ended"); - _fd = Symbol("_fd"); - _finished = Symbol("_finished"); - _flags = Symbol("_flags"); - _flush = Symbol("_flush"); - _handleChunk = Symbol("_handleChunk"); - _makeBuf = Symbol("_makeBuf"); - _mode = Symbol("_mode"); - _needDrain = Symbol("_needDrain"); - _onerror = Symbol("_onerror"); - _onopen = Symbol("_onopen"); - _onread = Symbol("_onread"); - _onwrite = Symbol("_onwrite"); - _open = Symbol("_open"); - _path = Symbol("_path"); - _pos = Symbol("_pos"); - _queue = Symbol("_queue"); - _read = Symbol("_read"); - _readSize = Symbol("_readSize"); - _reading = Symbol("_reading"); - _remain = Symbol("_remain"); - _size = Symbol("_size"); - _write = Symbol("_write"); - _writing = Symbol("_writing"); - _defaultFlag = Symbol("_defaultFlag"); - _errored = Symbol("_errored"); - ReadStream = class extends Minipass { - [_errored] = false; - [_fd]; - [_path]; - [_readSize]; - [_reading] = false; - [_size]; - [_remain]; - [_autoClose]; - constructor(path16, opt) { - opt = opt || {}; - super(opt); - this.readable = true; - this.writable = false; - if (typeof path16 !== "string") { - throw new TypeError("path must be a string"); - } - this[_errored] = false; - this[_fd] = typeof opt.fd === "number" ? opt.fd : void 0; - this[_path] = path16; - this[_readSize] = opt.readSize || 16 * 1024 * 1024; - this[_reading] = false; - this[_size] = typeof opt.size === "number" ? opt.size : Infinity; - this[_remain] = this[_size]; - this[_autoClose] = typeof opt.autoClose === "boolean" ? opt.autoClose : true; - if (typeof this[_fd] === "number") { - this[_read](); - } else { - this[_open](); - } - } - get fd() { - return this[_fd]; - } - get path() { - return this[_path]; - } - //@ts-ignore - write() { - throw new TypeError("this is a readable stream"); + [LINK](entry, linkpath, link, done) { + import_node_fs4.default[link](linkpath, String(entry.absolute), (er) => { + if (er) { + this[ONERROR](er, entry); + } else { + this[UNPEND](); + entry.resume(); + } + done(); + }); } - //@ts-ignore - end() { - throw new TypeError("this is a readable stream"); + }; + callSync = (fn2) => { + try { + return [null, fn2()]; + } catch (er) { + return [er, null]; } - [_open]() { - import_fs2.default.open(this[_path], "r", (er, fd) => this[_onopen](er, fd)); + }; + UnpackSync = class extends Unpack { + sync = true; + [MAKEFS](er, entry) { + return super[MAKEFS](er, entry, () => { + }); } - [_onopen](er, fd) { - if (er) { - this[_onerror](er); - } else { - this[_fd] = fd; - this.emit("open", fd); - this[_read](); + [CHECKFS](entry) { + if (!this[CHECKED_CWD]) { + const er2 = this[MKDIR](this.cwd, this.dmode); + if (er2) { + return this[ONERROR](er2, entry); + } + this[CHECKED_CWD] = true; } - } - [_makeBuf]() { - return Buffer.allocUnsafe(Math.min(this[_readSize], this[_remain])); - } - [_read]() { - if (!this[_reading]) { - this[_reading] = true; - const buf = this[_makeBuf](); - if (buf.length === 0) { - return process.nextTick(() => this[_onread](null, 0, buf)); + if (entry.absolute !== this.cwd) { + const parent = normalizeWindowsPath(import_node_path7.default.dirname(String(entry.absolute))); + if (parent !== this.cwd) { + const mkParent = this[MKDIR](parent, this.dmode); + if (mkParent) { + return this[ONERROR](mkParent, entry); + } } - import_fs2.default.read(this[_fd], buf, 0, buf.length, null, (er, br, b) => this[_onread](er, br, b)); } - } - [_onread](er, br, buf) { - this[_reading] = false; - if (er) { - this[_onerror](er); - } else if (this[_handleChunk](br, buf)) { - this[_read](); + const [lstatEr, st] = callSync(() => import_node_fs4.default.lstatSync(String(entry.absolute))); + if (st && (this.keep || /* c8 ignore next */ + this.newer && st.mtime > (entry.mtime ?? st.mtime))) { + return this[SKIP](entry); } - } - [_close]() { - if (this[_autoClose] && typeof this[_fd] === "number") { - const fd = this[_fd]; - this[_fd] = void 0; - import_fs2.default.close(fd, (er) => er ? this.emit("error", er) : this.emit("close")); + if (lstatEr || this[ISREUSABLE](entry, st)) { + return this[MAKEFS](null, entry); } + if (st.isDirectory()) { + if (entry.type === "Directory") { + const needChmod = this.chmod && entry.mode && (st.mode & 4095) !== entry.mode; + const [er3] = needChmod ? callSync(() => { + import_node_fs4.default.chmodSync(String(entry.absolute), Number(entry.mode)); + }) : []; + return this[MAKEFS](er3, entry); + } + const [er2] = callSync(() => import_node_fs4.default.rmdirSync(String(entry.absolute))); + this[MAKEFS](er2, entry); + } + const [er] = entry.absolute === this.cwd ? [] : callSync(() => unlinkFileSync(String(entry.absolute))); + this[MAKEFS](er, entry); } - [_onerror](er) { - this[_reading] = true; - this[_close](); - this.emit("error", er); - } - [_handleChunk](br, buf) { - let ret = false; - this[_remain] -= br; - if (br > 0) { - ret = super.write(br < buf.length ? buf.subarray(0, br) : buf); + [FILE](entry, done) { + const mode = typeof entry.mode === "number" ? entry.mode & 4095 : this.fmode; + const oner = (er) => { + let closeError; + try { + import_node_fs4.default.closeSync(fd); + } catch (e) { + closeError = e; + } + if (er || closeError) { + this[ONERROR](er || closeError, entry); + } + done(); + }; + let fd; + try { + fd = import_node_fs4.default.openSync(String(entry.absolute), getWriteFlag(entry.size), mode); + } catch (er) { + return oner(er); } - if (br === 0 || this[_remain] <= 0) { - ret = false; - this[_close](); - super.end(); + const tx = this.transform ? this.transform(entry) || entry : entry; + if (tx !== entry) { + tx.on("error", (er) => this[ONERROR](er, entry)); + entry.pipe(tx); } - return ret; - } - emit(ev, ...args) { - switch (ev) { - case "prefinish": - case "finish": - return false; - case "drain": - if (typeof this[_fd] === "number") { - this[_read](); + tx.on("data", (chunk) => { + try { + import_node_fs4.default.writeSync(fd, chunk, 0, chunk.length); + } catch (er) { + oner(er); + } + }); + tx.on("end", () => { + let er = null; + if (entry.mtime && !this.noMtime) { + const atime = entry.atime || /* @__PURE__ */ new Date(); + const mtime = entry.mtime; + try { + import_node_fs4.default.futimesSync(fd, atime, mtime); + } catch (futimeser) { + try { + import_node_fs4.default.utimesSync(String(entry.absolute), atime, mtime); + } catch { + er = futimeser; + } } - return false; - case "error": - if (this[_errored]) { - return false; + } + if (this[DOCHOWN](entry)) { + const uid = this[UID](entry); + const gid = this[GID](entry); + try { + import_node_fs4.default.fchownSync(fd, Number(uid), Number(gid)); + } catch (fchowner) { + try { + import_node_fs4.default.chownSync(String(entry.absolute), Number(uid), Number(gid)); + } catch { + er = er || fchowner; + } } - this[_errored] = true; - return super.emit(ev, ...args); - default: - return super.emit(ev, ...args); - } + } + oner(er); + }); } - }; - ReadStreamSync = class extends ReadStream { - [_open]() { - let threw = true; - try { - this[_onopen](null, import_fs2.default.openSync(this[_path], "r")); - threw = false; - } finally { - if (threw) { - this[_close](); + [DIRECTORY](entry, done) { + const mode = typeof entry.mode === "number" ? entry.mode & 4095 : this.dmode; + const er = this[MKDIR](String(entry.absolute), mode); + if (er) { + this[ONERROR](er, entry); + done(); + return; + } + if (entry.mtime && !this.noMtime) { + try { + import_node_fs4.default.utimesSync(String(entry.absolute), entry.atime || /* @__PURE__ */ new Date(), entry.mtime); + } catch { } } - } - [_read]() { - let threw = true; - try { - if (!this[_reading]) { - this[_reading] = true; - do { - const buf = this[_makeBuf](); - const br = buf.length === 0 ? 0 : import_fs2.default.readSync(this[_fd], buf, 0, buf.length, null); - if (!this[_handleChunk](br, buf)) { - break; - } - } while (true); - this[_reading] = false; - } - threw = false; - } finally { - if (threw) { - this[_close](); + if (this[DOCHOWN](entry)) { + try { + import_node_fs4.default.chownSync(String(entry.absolute), Number(this[UID](entry)), Number(this[GID](entry))); + } catch { } } + done(); + entry.resume(); } - [_close]() { - if (this[_autoClose] && typeof this[_fd] === "number") { - const fd = this[_fd]; - this[_fd] = void 0; - import_fs2.default.closeSync(fd); - this.emit("close"); - } - } - }; - WriteStream = class extends import_events2.default { - readable = false; - writable = true; - [_errored] = false; - [_writing] = false; - [_ended] = false; - [_queue] = []; - [_needDrain] = false; - [_path]; - [_mode]; - [_autoClose]; - [_fd]; - [_defaultFlag]; - [_flags]; - [_finished] = false; - [_pos]; - constructor(path16, opt) { - opt = opt || {}; - super(opt); - this[_path] = path16; - this[_fd] = typeof opt.fd === "number" ? opt.fd : void 0; - this[_mode] = opt.mode === void 0 ? 438 : opt.mode; - this[_pos] = typeof opt.start === "number" ? opt.start : void 0; - this[_autoClose] = typeof opt.autoClose === "boolean" ? opt.autoClose : true; - const defaultFlag = this[_pos] !== void 0 ? "r+" : "w"; - this[_defaultFlag] = opt.flags === void 0; - this[_flags] = opt.flags === void 0 ? defaultFlag : opt.flags; - if (this[_fd] === void 0) { - this[_open](); + [MKDIR](dir, mode) { + try { + return mkdirSync2(normalizeWindowsPath(dir), { + uid: this.uid, + gid: this.gid, + processUid: this.processUid, + processGid: this.processGid, + umask: this.processUmask, + preserve: this.preservePaths, + unlink: this.unlink, + cwd: this.cwd, + mode + }); + } catch (er) { + return er; } } - emit(ev, ...args) { - if (ev === "error") { - if (this[_errored]) { - return false; + [ENSURE_NO_SYMLINK](_entry, cwd, parts, done, onError) { + if (this.preservePaths || parts.length === 0) + return done(); + let t = cwd; + for (const p of parts) { + t = import_node_path7.default.resolve(t, p); + const [er, st] = callSync(() => import_node_fs4.default.lstatSync(t)); + if (er) + return done(); + if (st.isSymbolicLink()) { + return onError(new SymlinkError(t, import_node_path7.default.resolve(cwd, parts.join("/")))); } - this[_errored] = true; } - return super.emit(ev, ...args); - } - get fd() { - return this[_fd]; + done(); } - get path() { - return this[_path]; + [LINK](entry, linkpath, link, done) { + const linkSync = `${link}Sync`; + try { + import_node_fs4.default[linkSync](linkpath, String(entry.absolute)); + done(); + entry.resume(); + } catch (er) { + return this[ONERROR](er, entry); + } } - [_onerror](er) { - this[_close](); - this[_writing] = true; - this.emit("error", er); + }; + } +}); + +// node_modules/tar/dist/esm/extract.js +var extract_exports = {}; +__export(extract_exports, { + extract: () => extract +}); +var import_node_fs5, extractFileSync, extractFile, extract; +var init_extract = __esm({ + "node_modules/tar/dist/esm/extract.js"() { + init_esm2(); + import_node_fs5 = __toESM(require("node:fs"), 1); + init_list(); + init_make_command(); + init_unpack(); + extractFileSync = (opt) => { + const u = new UnpackSync(opt); + const file = opt.file; + const stat = import_node_fs5.default.statSync(file); + const readSize = opt.maxReadSize || 16 * 1024 * 1024; + const stream = new ReadStreamSync(file, { + readSize, + size: stat.size + }); + stream.pipe(u); + }; + extractFile = (opt, _) => { + const u = new Unpack(opt); + const readSize = opt.maxReadSize || 16 * 1024 * 1024; + const file = opt.file; + const p = new Promise((resolve, reject) => { + u.on("error", reject); + u.on("close", resolve); + import_node_fs5.default.stat(file, (er, stat) => { + if (er) { + reject(er); + } else { + const stream = new ReadStream(file, { + readSize, + size: stat.size + }); + stream.on("error", reject); + stream.pipe(u); + } + }); + }); + return p; + }; + extract = makeCommand(extractFileSync, extractFile, (opt) => new UnpackSync(opt), (opt) => new Unpack(opt), (opt, files) => { + if (files?.length) + filesFilter(opt, files); + }); + } +}); + +// node_modules/v8-compile-cache/v8-compile-cache.js +var require_v8_compile_cache = __commonJS({ + "node_modules/v8-compile-cache/v8-compile-cache.js"(exports2, module2) { + "use strict"; + var Module2 = require("module"); + var crypto = require("crypto"); + var fs17 = require("fs"); + var path16 = require("path"); + var vm = require("vm"); + var os3 = require("os"); + var hasOwnProperty = Object.prototype.hasOwnProperty; + var FileSystemBlobStore = class { + constructor(directory, prefix) { + const name2 = prefix ? slashEscape(prefix + ".") : ""; + this._blobFilename = path16.join(directory, name2 + "BLOB"); + this._mapFilename = path16.join(directory, name2 + "MAP"); + this._lockFilename = path16.join(directory, name2 + "LOCK"); + this._directory = directory; + this._load(); } - [_open]() { - import_fs2.default.open(this[_path], this[_flags], this[_mode], (er, fd) => this[_onopen](er, fd)); + has(key, invalidationKey) { + if (hasOwnProperty.call(this._memoryBlobs, key)) { + return this._invalidationKeys[key] === invalidationKey; + } else if (hasOwnProperty.call(this._storedMap, key)) { + return this._storedMap[key][0] === invalidationKey; + } + return false; } - [_onopen](er, fd) { - if (this[_defaultFlag] && this[_flags] === "r+" && er && er.code === "ENOENT") { - this[_flags] = "w"; - this[_open](); - } else if (er) { - this[_onerror](er); - } else { - this[_fd] = fd; - this.emit("open", fd); - if (!this[_writing]) { - this[_flush](); + get(key, invalidationKey) { + if (hasOwnProperty.call(this._memoryBlobs, key)) { + if (this._invalidationKeys[key] === invalidationKey) { + return this._memoryBlobs[key]; + } + } else if (hasOwnProperty.call(this._storedMap, key)) { + const mapping = this._storedMap[key]; + if (mapping[0] === invalidationKey) { + return this._storedBlob.slice(mapping[1], mapping[2]); } } } - end(buf, enc) { - if (buf) { - this.write(buf, enc); + set(key, invalidationKey, buffer) { + this._invalidationKeys[key] = invalidationKey; + this._memoryBlobs[key] = buffer; + this._dirty = true; + } + delete(key) { + if (hasOwnProperty.call(this._memoryBlobs, key)) { + this._dirty = true; + delete this._memoryBlobs[key]; } - this[_ended] = true; - if (!this[_writing] && !this[_queue].length && typeof this[_fd] === "number") { - this[_onwrite](null, 0); + if (hasOwnProperty.call(this._invalidationKeys, key)) { + this._dirty = true; + delete this._invalidationKeys[key]; } - return this; - } - write(buf, enc) { - if (typeof buf === "string") { - buf = Buffer.from(buf, enc); + if (hasOwnProperty.call(this._storedMap, key)) { + this._dirty = true; + delete this._storedMap[key]; } - if (this[_ended]) { - this.emit("error", new Error("write() after end()")); + } + isDirty() { + return this._dirty; + } + save() { + const dump = this._getDump(); + const blobToStore = Buffer.concat(dump[0]); + const mapToStore = JSON.stringify(dump[1]); + try { + mkdirpSync(this._directory); + fs17.writeFileSync(this._lockFilename, "LOCK", { flag: "wx" }); + } catch (error) { return false; } - if (this[_fd] === void 0 || this[_writing] || this[_queue].length) { - this[_queue].push(buf); - this[_needDrain] = true; - return false; + try { + fs17.writeFileSync(this._blobFilename, blobToStore); + fs17.writeFileSync(this._mapFilename, mapToStore); + } finally { + fs17.unlinkSync(this._lockFilename); } - this[_writing] = true; - this[_write](buf); return true; } - [_write](buf) { - import_fs2.default.write(this[_fd], buf, 0, buf.length, this[_pos], (er, bw) => this[_onwrite](er, bw)); - } - [_onwrite](er, bw) { - if (er) { - this[_onerror](er); - } else { - if (this[_pos] !== void 0 && typeof bw === "number") { - this[_pos] += bw; - } - if (this[_queue].length) { - this[_flush](); - } else { - this[_writing] = false; - if (this[_ended] && !this[_finished]) { - this[_finished] = true; - this[_close](); - this.emit("finish"); - } else if (this[_needDrain]) { - this[_needDrain] = false; - this.emit("drain"); - } - } + _load() { + try { + this._storedBlob = fs17.readFileSync(this._blobFilename); + this._storedMap = JSON.parse(fs17.readFileSync(this._mapFilename)); + } catch (e) { + this._storedBlob = Buffer.alloc(0); + this._storedMap = {}; } + this._dirty = false; + this._memoryBlobs = {}; + this._invalidationKeys = {}; } - [_flush]() { - if (this[_queue].length === 0) { - if (this[_ended]) { - this[_onwrite](null, 0); - } - } else if (this[_queue].length === 1) { - this[_write](this[_queue].pop()); - } else { - const iovec = this[_queue]; - this[_queue] = []; - writev(this[_fd], iovec, this[_pos], (er, bw) => this[_onwrite](er, bw)); + _getDump() { + const buffers = []; + const newMap = {}; + let offset = 0; + function push2(key, invalidationKey, buffer) { + buffers.push(buffer); + newMap[key] = [invalidationKey, offset, offset + buffer.length]; + offset += buffer.length; } - } - [_close]() { - if (this[_autoClose] && typeof this[_fd] === "number") { - const fd = this[_fd]; - this[_fd] = void 0; - import_fs2.default.close(fd, (er) => er ? this.emit("error", er) : this.emit("close")); + for (const key of Object.keys(this._memoryBlobs)) { + const buffer = this._memoryBlobs[key]; + const invalidationKey = this._invalidationKeys[key]; + push2(key, invalidationKey, buffer); + } + for (const key of Object.keys(this._storedMap)) { + if (hasOwnProperty.call(newMap, key)) continue; + const mapping = this._storedMap[key]; + const buffer = this._storedBlob.slice(mapping[1], mapping[2]); + push2(key, mapping[0], buffer); } + return [buffers, newMap]; } }; - WriteStreamSync = class extends WriteStream { - [_open]() { - let fd; - if (this[_defaultFlag] && this[_flags] === "r+") { - try { - fd = import_fs2.default.openSync(this[_path], this[_flags], this[_mode]); - } catch (er) { - if (er?.code === "ENOENT") { - this[_flags] = "w"; - return this[_open](); + var NativeCompileCache = class { + constructor() { + this._cacheStore = null; + this._previousModuleCompile = null; + } + setCacheStore(cacheStore) { + this._cacheStore = cacheStore; + } + install() { + const self2 = this; + const hasRequireResolvePaths = typeof require.resolve.paths === "function"; + this._previousModuleCompile = Module2.prototype._compile; + Module2.prototype._compile = function(content, filename) { + const mod = this; + function require2(id) { + return mod.require(id); + } + function resolve(request, options) { + return Module2._resolveFilename(request, mod, false, options); + } + require2.resolve = resolve; + if (hasRequireResolvePaths) { + resolve.paths = function paths(request) { + return Module2._resolveLookupPaths(request, mod, true); + }; + } + require2.main = process.mainModule; + require2.extensions = Module2._extensions; + require2.cache = Module2._cache; + const dirname2 = path16.dirname(filename); + const compiledWrapper = self2._moduleCompile(filename, content); + const args = [mod.exports, require2, mod, filename, dirname2, process, global, Buffer]; + return compiledWrapper.apply(mod.exports, args); + }; + } + uninstall() { + Module2.prototype._compile = this._previousModuleCompile; + } + _moduleCompile(filename, content) { + var contLen = content.length; + if (contLen >= 2) { + if (content.charCodeAt(0) === 35 && content.charCodeAt(1) === 33) { + if (contLen === 2) { + content = ""; } else { - throw er; + var i = 2; + for (; i < contLen; ++i) { + var code2 = content.charCodeAt(i); + if (code2 === 10 || code2 === 13) break; + } + if (i === contLen) { + content = ""; + } else { + content = content.slice(i); + } } } - } else { - fd = import_fs2.default.openSync(this[_path], this[_flags], this[_mode]); } - this[_onopen](null, fd); - } - [_close]() { - if (this[_autoClose] && typeof this[_fd] === "number") { - const fd = this[_fd]; - this[_fd] = void 0; - import_fs2.default.closeSync(fd); - this.emit("close"); + var wrapper = Module2.wrap(content); + var invalidationKey = crypto.createHash("sha1").update(content, "utf8").digest("hex"); + var buffer = this._cacheStore.get(filename, invalidationKey); + var script = new vm.Script(wrapper, { + filename, + lineOffset: 0, + displayErrors: true, + cachedData: buffer, + produceCachedData: true + }); + if (script.cachedDataProduced) { + this._cacheStore.set(filename, invalidationKey, script.cachedData); + } else if (script.cachedDataRejected) { + this._cacheStore.delete(filename); } + var compiledWrapper = script.runInThisContext({ + filename, + lineOffset: 0, + columnOffset: 0, + displayErrors: true + }); + return compiledWrapper; } - [_write](buf) { - let threw = true; - try { - this[_onwrite](null, import_fs2.default.writeSync(this[_fd], buf, 0, buf.length, this[_pos])); - threw = false; - } finally { - if (threw) { - try { - this[_close](); - } catch { + }; + function mkdirpSync(p_) { + _mkdirpSync(path16.resolve(p_), 511); + } + function _mkdirpSync(p, mode) { + try { + fs17.mkdirSync(p, mode); + } catch (err0) { + if (err0.code === "ENOENT") { + _mkdirpSync(path16.dirname(p)); + _mkdirpSync(p); + } else { + try { + const stat = fs17.statSync(p); + if (!stat.isDirectory()) { + throw err0; } + } catch (err1) { + throw err0; } } } + } + function slashEscape(str) { + const ESCAPE_LOOKUP = { + "\\": "zB", + ":": "zC", + "/": "zS", + "\0": "z0", + "z": "zZ" + }; + const ESCAPE_REGEX = /[\\:/\x00z]/g; + return str.replace(ESCAPE_REGEX, (match) => ESCAPE_LOOKUP[match]); + } + function supportsCachedData() { + const script = new vm.Script('""', { produceCachedData: true }); + return script.cachedDataProduced === true; + } + function getCacheDir() { + const v8_compile_cache_cache_dir = process.env.V8_COMPILE_CACHE_CACHE_DIR; + if (v8_compile_cache_cache_dir) { + return v8_compile_cache_cache_dir; + } + const dirname2 = typeof process.getuid === "function" ? "v8-compile-cache-" + process.getuid() : "v8-compile-cache"; + const arch = process.arch; + const version2 = typeof process.versions.v8 === "string" ? process.versions.v8 : typeof process.versions.chakracore === "string" ? "chakracore-" + process.versions.chakracore : "node-" + process.version; + const cacheDir = path16.join(os3.tmpdir(), dirname2, arch, version2); + return cacheDir; + } + function getMainName() { + const mainName = require.main && typeof require.main.filename === "string" ? require.main.filename : process.cwd(); + return mainName; + } + if (!process.env.DISABLE_V8_COMPILE_CACHE && supportsCachedData()) { + const cacheDir = getCacheDir(); + const prefix = getMainName(); + const blobStore = new FileSystemBlobStore(cacheDir, prefix); + const nativeCompileCache = new NativeCompileCache(); + nativeCompileCache.setCacheStore(blobStore); + nativeCompileCache.install(); + process.once("exit", () => { + if (blobStore.isDirty()) { + blobStore.save(); + } + nativeCompileCache.uninstall(); + }); + } + module2.exports.__TEST__ = { + FileSystemBlobStore, + NativeCompileCache, + mkdirpSync, + slashEscape, + supportsCachedData, + getCacheDir, + getMainName }; } }); -// .yarn/cache/tar-npm-7.5.6-955ec951c2-08af380703.zip/node_modules/tar/dist/esm/options.js -var argmap, isSyncFile, isAsyncFile, isSyncNoFile, isAsyncNoFile, dealiasKey, dealias; -var init_options = __esm({ - ".yarn/cache/tar-npm-7.5.6-955ec951c2-08af380703.zip/node_modules/tar/dist/esm/options.js"() { - argmap = /* @__PURE__ */ new Map([ - ["C", "cwd"], - ["f", "file"], - ["z", "gzip"], - ["P", "preservePaths"], - ["U", "unlink"], - ["strip-components", "strip"], - ["stripComponents", "strip"], - ["keep-newer", "newer"], - ["keepNewer", "newer"], - ["keep-newer-files", "newer"], - ["keepNewerFiles", "newer"], - ["k", "keep"], - ["keep-existing", "keep"], - ["keepExisting", "keep"], - ["m", "noMtime"], - ["no-mtime", "noMtime"], - ["p", "preserveOwner"], - ["L", "follow"], - ["h", "follow"], - ["onentry", "onReadEntry"] - ]); - isSyncFile = (o) => !!o.sync && !!o.file; - isAsyncFile = (o) => !o.sync && !!o.file; - isSyncNoFile = (o) => !!o.sync && !o.file; - isAsyncNoFile = (o) => !o.sync && !o.file; - dealiasKey = (k) => { - const d = argmap.get(k); - if (d) - return d; - return k; - }; - dealias = (opt = {}) => { - if (!opt) - return {}; - const result = {}; - for (const [key, v] of Object.entries(opt)) { - const k = dealiasKey(key); - result[k] = v; - } - if (result.chmod === void 0 && result.noChmod === false) { - result.chmod = true; +// node_modules/semver/functions/satisfies.js +var require_satisfies = __commonJS({ + "node_modules/semver/functions/satisfies.js"(exports2, module2) { + "use strict"; + var Range3 = require_range(); + var satisfies = (version2, range, options) => { + try { + range = new Range3(range, options); + } catch (er) { + return false; } - delete result.noChmod; - return result; + return range.test(version2); }; + module2.exports = satisfies; } }); -// .yarn/cache/tar-npm-7.5.6-955ec951c2-08af380703.zip/node_modules/tar/dist/esm/make-command.js -var makeCommand; -var init_make_command = __esm({ - ".yarn/cache/tar-npm-7.5.6-955ec951c2-08af380703.zip/node_modules/tar/dist/esm/make-command.js"() { - init_options(); - makeCommand = (syncFile, asyncFile, syncNoFile, asyncNoFile, validate) => { - return Object.assign((opt_ = [], entries, cb) => { - if (Array.isArray(opt_)) { - entries = opt_; - opt_ = {}; +// node_modules/which/node_modules/isexe/dist/commonjs/index.min.js +var require_index_min = __commonJS({ + "node_modules/which/node_modules/isexe/dist/commonjs/index.min.js"(exports2) { + "use strict"; + var a = (t, e) => () => (e || t((e = { exports: {} }).exports, e), e.exports); + var _ = a((i) => { + "use strict"; + Object.defineProperty(i, "__esModule", { value: true }); + i.sync = i.isexe = void 0; + var M = require("node:fs"), x = require("node:fs/promises"), q = async (t, e = {}) => { + let { ignoreErrors: r = false } = e; + try { + return d(await (0, x.stat)(t), e); + } catch (s) { + let n = s; + if (r || n.code === "EACCES") return false; + throw n; } - if (typeof entries === "function") { - cb = entries; - entries = void 0; + }; + i.isexe = q; + var m = (t, e = {}) => { + let { ignoreErrors: r = false } = e; + try { + return d((0, M.statSync)(t), e); + } catch (s) { + let n = s; + if (r || n.code === "EACCES") return false; + throw n; } - if (!entries) { - entries = []; - } else { - entries = Array.from(entries); + }; + i.sync = m; + var d = (t, e) => t.isFile() && A(t, e), A = (t, e) => { + let r = e.uid ?? process.getuid?.(), s = e.groups ?? process.getgroups?.() ?? [], n = e.gid ?? process.getgid?.() ?? s[0]; + if (r === void 0 || n === void 0) throw new Error("cannot get uid or gid"); + let u = /* @__PURE__ */ new Set([n, ...s]), c = t.mode, S = t.uid, P = t.gid, f = parseInt("100", 8), l = parseInt("010", 8), j = parseInt("001", 8), C = f | l; + return !!(c & j || c & l && u.has(P) || c & f && S === r || c & C && r === 0); + }; + }); + var g = a((o) => { + "use strict"; + Object.defineProperty(o, "__esModule", { value: true }); + o.sync = o.isexe = void 0; + var T = require("node:fs"), I = require("node:fs/promises"), D = require("node:path"), F = async (t, e = {}) => { + let { ignoreErrors: r = false } = e; + try { + return y(await (0, I.stat)(t), t, e); + } catch (s) { + let n = s; + if (r || n.code === "EACCES") return false; + throw n; } - const opt = dealias(opt_); - validate?.(opt, entries); - if (isSyncFile(opt)) { - if (typeof cb === "function") { - throw new TypeError("callback not supported for sync tar functions"); - } - return syncFile(opt, entries); - } else if (isAsyncFile(opt)) { - const p = asyncFile(opt, entries); - const c = cb ? cb : void 0; - return c ? p.then(() => c(), c) : p; - } else if (isSyncNoFile(opt)) { - if (typeof cb === "function") { - throw new TypeError("callback not supported for sync tar functions"); + }; + o.isexe = F; + var L = (t, e = {}) => { + let { ignoreErrors: r = false } = e; + try { + return y((0, T.statSync)(t), t, e); + } catch (s) { + let n = s; + if (r || n.code === "EACCES") return false; + throw n; + } + }; + o.sync = L; + var B = (t, e) => { + let { pathExt: r = process.env.PATHEXT || "" } = e, s = r.split(D.delimiter); + if (s.indexOf("") !== -1) return true; + for (let n of s) { + let u = n.toLowerCase(), c = t.substring(t.length - u.length).toLowerCase(); + if (u && c === u) return true; + } + return false; + }, y = (t, e, r) => t.isFile() && B(e, r); + }); + var p = a((h) => { + "use strict"; + Object.defineProperty(h, "__esModule", { value: true }); + }); + var v = exports2 && exports2.__createBinding || (Object.create ? (function(t, e, r, s) { + s === void 0 && (s = r); + var n = Object.getOwnPropertyDescriptor(e, r); + (!n || ("get" in n ? !e.__esModule : n.writable || n.configurable)) && (n = { enumerable: true, get: function() { + return e[r]; + } }), Object.defineProperty(t, s, n); + }) : (function(t, e, r, s) { + s === void 0 && (s = r), t[s] = e[r]; + })); + var G = exports2 && exports2.__setModuleDefault || (Object.create ? (function(t, e) { + Object.defineProperty(t, "default", { enumerable: true, value: e }); + }) : function(t, e) { + t.default = e; + }); + var w = exports2 && exports2.__importStar || /* @__PURE__ */ (function() { + var t = function(e) { + return t = Object.getOwnPropertyNames || function(r) { + var s = []; + for (var n in r) Object.prototype.hasOwnProperty.call(r, n) && (s[s.length] = n); + return s; + }, t(e); + }; + return function(e) { + if (e && e.__esModule) return e; + var r = {}; + if (e != null) for (var s = t(e), n = 0; n < s.length; n++) s[n] !== "default" && v(r, e, s[n]); + return G(r, e), r; + }; + })(); + var X = exports2 && exports2.__exportStar || function(t, e) { + for (var r in t) r !== "default" && !Object.prototype.hasOwnProperty.call(e, r) && v(e, t, r); + }; + Object.defineProperty(exports2, "__esModule", { value: true }); + exports2.sync = exports2.isexe = exports2.posix = exports2.win32 = void 0; + var E = w(_()); + exports2.posix = E; + var O = w(g()); + exports2.win32 = O; + X(p(), exports2); + var H = process.env._ISEXE_TEST_PLATFORM_ || process.platform; + var b = H === "win32" ? O : E; + exports2.isexe = b.isexe; + exports2.sync = b.sync; + } +}); + +// node_modules/which/lib/index.js +var require_lib = __commonJS({ + "node_modules/which/lib/index.js"(exports2, module2) { + var { isexe, sync: isexeSync } = require_index_min(); + var { join: join3, delimiter, sep, posix } = require("path"); + var isWindows4 = process.platform === "win32"; + var rSlash = new RegExp(`[${posix.sep}${sep === posix.sep ? "" : sep}]`.replace(/(\\)/g, "\\$1")); + var rRel = new RegExp(`^\\.${rSlash.source}`); + var getNotFoundError = (cmd) => Object.assign(new Error(`not found: ${cmd}`), { code: "ENOENT" }); + var getPathInfo = (cmd, { + path: optPath = process.env.PATH, + pathExt: optPathExt = process.env.PATHEXT, + delimiter: optDelimiter = delimiter + }) => { + const pathEnv = cmd.match(rSlash) ? [""] : [ + // windows always checks the cwd first + ...isWindows4 ? [process.cwd()] : [], + ...(optPath || /* istanbul ignore next: very unusual */ + "").split(optDelimiter) + ]; + if (isWindows4) { + const pathExtExe = optPathExt || [".EXE", ".CMD", ".BAT", ".COM"].join(optDelimiter); + const pathExt = pathExtExe.split(optDelimiter).flatMap((item) => [item, item.toLowerCase()]); + if (cmd.includes(".") && pathExt[0] !== "") { + pathExt.unshift(""); + } + return { pathEnv, pathExt, pathExtExe }; + } + return { pathEnv, pathExt: [""] }; + }; + var getPathPart = (raw2, cmd) => { + const pathPart = /^".*"$/.test(raw2) ? raw2.slice(1, -1) : raw2; + const prefix = !pathPart && rRel.test(cmd) ? cmd.slice(0, 2) : ""; + return prefix + join3(pathPart, cmd); + }; + var which3 = async (cmd, opt = {}) => { + const { pathEnv, pathExt, pathExtExe } = getPathInfo(cmd, opt); + const found = []; + for (const envPart of pathEnv) { + const p = getPathPart(envPart, cmd); + for (const ext of pathExt) { + const withExt = p + ext; + const is = await isexe(withExt, { pathExt: pathExtExe, ignoreErrors: true }); + if (is) { + if (!opt.all) { + return withExt; + } + found.push(withExt); } - return syncNoFile(opt, entries); - } else if (isAsyncNoFile(opt)) { - if (typeof cb === "function") { - throw new TypeError("callback only supported with file option"); + } + } + if (opt.all && found.length) { + return found; + } + if (opt.nothrow) { + return null; + } + throw getNotFoundError(cmd); + }; + var whichSync = (cmd, opt = {}) => { + const { pathEnv, pathExt, pathExtExe } = getPathInfo(cmd, opt); + const found = []; + for (const pathEnvPart of pathEnv) { + const p = getPathPart(pathEnvPart, cmd); + for (const ext of pathExt) { + const withExt = p + ext; + const is = isexeSync(withExt, { pathExt: pathExtExe, ignoreErrors: true }); + if (is) { + if (!opt.all) { + return withExt; + } + found.push(withExt); } - return asyncNoFile(opt, entries); - } else { - throw new Error("impossible options??"); } - }, { - syncFile, - asyncFile, - syncNoFile, - asyncNoFile, - validate - }); + } + if (opt.all && found.length) { + return found; + } + if (opt.nothrow) { + return null; + } + throw getNotFoundError(cmd); }; + module2.exports = which3; + which3.sync = whichSync; } }); -// .yarn/cache/minizlib-npm-3.1.0-6680befdba-5aad75ab00.zip/node_modules/minizlib/dist/esm/constants.js -var import_zlib, realZlibConstants, constants; -var init_constants = __esm({ - ".yarn/cache/minizlib-npm-3.1.0-6680befdba-5aad75ab00.zip/node_modules/minizlib/dist/esm/constants.js"() { - import_zlib = __toESM(require("zlib"), 1); - realZlibConstants = import_zlib.default.constants || { ZLIB_VERNUM: 4736 }; - constants = Object.freeze(Object.assign(/* @__PURE__ */ Object.create(null), { - Z_NO_FLUSH: 0, - Z_PARTIAL_FLUSH: 1, - Z_SYNC_FLUSH: 2, - Z_FULL_FLUSH: 3, - Z_FINISH: 4, - Z_BLOCK: 5, - Z_OK: 0, - Z_STREAM_END: 1, - Z_NEED_DICT: 2, - Z_ERRNO: -1, - Z_STREAM_ERROR: -2, - Z_DATA_ERROR: -3, - Z_MEM_ERROR: -4, - Z_BUF_ERROR: -5, - Z_VERSION_ERROR: -6, - Z_NO_COMPRESSION: 0, - Z_BEST_SPEED: 1, - Z_BEST_COMPRESSION: 9, - Z_DEFAULT_COMPRESSION: -1, - Z_FILTERED: 1, - Z_HUFFMAN_ONLY: 2, - Z_RLE: 3, - Z_FIXED: 4, - Z_DEFAULT_STRATEGY: 0, - DEFLATE: 1, - INFLATE: 2, - GZIP: 3, - GUNZIP: 4, - DEFLATERAW: 5, - INFLATERAW: 6, - UNZIP: 7, - BROTLI_DECODE: 8, - BROTLI_ENCODE: 9, - Z_MIN_WINDOWBITS: 8, - Z_MAX_WINDOWBITS: 15, - Z_DEFAULT_WINDOWBITS: 15, - Z_MIN_CHUNK: 64, - Z_MAX_CHUNK: Infinity, - Z_DEFAULT_CHUNK: 16384, - Z_MIN_MEMLEVEL: 1, - Z_MAX_MEMLEVEL: 9, - Z_DEFAULT_MEMLEVEL: 8, - Z_MIN_LEVEL: -1, - Z_MAX_LEVEL: 9, - Z_DEFAULT_LEVEL: -1, - BROTLI_OPERATION_PROCESS: 0, - BROTLI_OPERATION_FLUSH: 1, - BROTLI_OPERATION_FINISH: 2, - BROTLI_OPERATION_EMIT_METADATA: 3, - BROTLI_MODE_GENERIC: 0, - BROTLI_MODE_TEXT: 1, - BROTLI_MODE_FONT: 2, - BROTLI_DEFAULT_MODE: 0, - BROTLI_MIN_QUALITY: 0, - BROTLI_MAX_QUALITY: 11, - BROTLI_DEFAULT_QUALITY: 11, - BROTLI_MIN_WINDOW_BITS: 10, - BROTLI_MAX_WINDOW_BITS: 24, - BROTLI_LARGE_MAX_WINDOW_BITS: 30, - BROTLI_DEFAULT_WINDOW: 22, - BROTLI_MIN_INPUT_BLOCK_BITS: 16, - BROTLI_MAX_INPUT_BLOCK_BITS: 24, - BROTLI_PARAM_MODE: 0, - BROTLI_PARAM_QUALITY: 1, - BROTLI_PARAM_LGWIN: 2, - BROTLI_PARAM_LGBLOCK: 3, - BROTLI_PARAM_DISABLE_LITERAL_CONTEXT_MODELING: 4, - BROTLI_PARAM_SIZE_HINT: 5, - BROTLI_PARAM_LARGE_WINDOW: 6, - BROTLI_PARAM_NPOSTFIX: 7, - BROTLI_PARAM_NDIRECT: 8, - BROTLI_DECODER_RESULT_ERROR: 0, - BROTLI_DECODER_RESULT_SUCCESS: 1, - BROTLI_DECODER_RESULT_NEEDS_MORE_INPUT: 2, - BROTLI_DECODER_RESULT_NEEDS_MORE_OUTPUT: 3, - BROTLI_DECODER_PARAM_DISABLE_RING_BUFFER_REALLOCATION: 0, - BROTLI_DECODER_PARAM_LARGE_WINDOW: 1, - BROTLI_DECODER_NO_ERROR: 0, - BROTLI_DECODER_SUCCESS: 1, - BROTLI_DECODER_NEEDS_MORE_INPUT: 2, - BROTLI_DECODER_NEEDS_MORE_OUTPUT: 3, - BROTLI_DECODER_ERROR_FORMAT_EXUBERANT_NIBBLE: -1, - BROTLI_DECODER_ERROR_FORMAT_RESERVED: -2, - BROTLI_DECODER_ERROR_FORMAT_EXUBERANT_META_NIBBLE: -3, - BROTLI_DECODER_ERROR_FORMAT_SIMPLE_HUFFMAN_ALPHABET: -4, - BROTLI_DECODER_ERROR_FORMAT_SIMPLE_HUFFMAN_SAME: -5, - BROTLI_DECODER_ERROR_FORMAT_CL_SPACE: -6, - BROTLI_DECODER_ERROR_FORMAT_HUFFMAN_SPACE: -7, - BROTLI_DECODER_ERROR_FORMAT_CONTEXT_MAP_REPEAT: -8, - BROTLI_DECODER_ERROR_FORMAT_BLOCK_LENGTH_1: -9, - BROTLI_DECODER_ERROR_FORMAT_BLOCK_LENGTH_2: -10, - BROTLI_DECODER_ERROR_FORMAT_TRANSFORM: -11, - BROTLI_DECODER_ERROR_FORMAT_DICTIONARY: -12, - BROTLI_DECODER_ERROR_FORMAT_WINDOW_BITS: -13, - BROTLI_DECODER_ERROR_FORMAT_PADDING_1: -14, - BROTLI_DECODER_ERROR_FORMAT_PADDING_2: -15, - BROTLI_DECODER_ERROR_FORMAT_DISTANCE: -16, - BROTLI_DECODER_ERROR_DICTIONARY_NOT_SET: -19, - BROTLI_DECODER_ERROR_INVALID_ARGUMENTS: -20, - BROTLI_DECODER_ERROR_ALLOC_CONTEXT_MODES: -21, - BROTLI_DECODER_ERROR_ALLOC_TREE_GROUPS: -22, - BROTLI_DECODER_ERROR_ALLOC_CONTEXT_MAP: -25, - BROTLI_DECODER_ERROR_ALLOC_RING_BUFFER_1: -26, - BROTLI_DECODER_ERROR_ALLOC_RING_BUFFER_2: -27, - BROTLI_DECODER_ERROR_ALLOC_BLOCK_TYPE_TREES: -30, - BROTLI_DECODER_ERROR_UNREACHABLE: -31 - }, realZlibConstants)); +// node_modules/is-windows/index.js +var require_is_windows = __commonJS({ + "node_modules/is-windows/index.js"(exports2, module2) { + (function(factory) { + if (exports2 && typeof exports2 === "object" && typeof module2 !== "undefined") { + module2.exports = factory(); + } else if (typeof define === "function" && define.amd) { + define([], factory); + } else if (typeof window !== "undefined") { + window.isWindows = factory(); + } else if (typeof global !== "undefined") { + global.isWindows = factory(); + } else if (typeof self !== "undefined") { + self.isWindows = factory(); + } else { + this.isWindows = factory(); + } + })(function() { + "use strict"; + return function isWindows4() { + return process && (process.platform === "win32" || /^(msys|cygwin)$/.test(process.env.OSTYPE)); + }; + }); } }); -// .yarn/cache/minizlib-npm-3.1.0-6680befdba-5aad75ab00.zip/node_modules/minizlib/dist/esm/index.js -var import_assert2, import_buffer, realZlib2, OriginalBufferConcat, desc, noop, passthroughBufferConcat, _superWrite, ZlibError, _flushFlag, ZlibBase, Zlib, Gzip, Unzip, Brotli, BrotliCompress, BrotliDecompress, Zstd, ZstdCompress, ZstdDecompress; -var init_esm3 = __esm({ - ".yarn/cache/minizlib-npm-3.1.0-6680befdba-5aad75ab00.zip/node_modules/minizlib/dist/esm/index.js"() { - import_assert2 = __toESM(require("assert"), 1); - import_buffer = require("buffer"); - init_esm(); - realZlib2 = __toESM(require("zlib"), 1); - init_constants(); - init_constants(); - OriginalBufferConcat = import_buffer.Buffer.concat; - desc = Object.getOwnPropertyDescriptor(import_buffer.Buffer, "concat"); - noop = (args) => args; - passthroughBufferConcat = desc?.writable === true || desc?.set !== void 0 ? (makeNoOp) => { - import_buffer.Buffer.concat = makeNoOp ? noop : OriginalBufferConcat; - } : (_) => { - }; - _superWrite = Symbol("_superWrite"); - ZlibError = class extends Error { - code; - errno; - constructor(err, origin) { - super("zlib: " + err.message, { cause: err }); - this.code = err.code; - this.errno = err.errno; - if (!this.code) - this.code = "ZLIB_ERROR"; - this.message = "zlib: " + err.message; - Error.captureStackTrace(this, origin ?? this.constructor); - } - get name() { - return "ZlibError"; - } +// node_modules/cmd-extension/index.js +var require_cmd_extension = __commonJS({ + "node_modules/cmd-extension/index.js"(exports2, module2) { + "use strict"; + var path16 = require("path"); + var cmdExtension; + if (process.env.PATHEXT) { + cmdExtension = process.env.PATHEXT.split(path16.delimiter).find((ext) => ext.toUpperCase() === ".CMD"); + } + module2.exports = cmdExtension || ".cmd"; + } +}); + +// node_modules/graceful-fs/polyfills.js +var require_polyfills = __commonJS({ + "node_modules/graceful-fs/polyfills.js"(exports2, module2) { + var constants2 = require("constants"); + var origCwd = process.cwd; + var cwd = null; + var platform5 = process.env.GRACEFUL_FS_PLATFORM || process.platform; + process.cwd = function() { + if (!cwd) + cwd = origCwd.call(process); + return cwd; }; - _flushFlag = Symbol("flushFlag"); - ZlibBase = class extends Minipass { - #sawError = false; - #ended = false; - #flushFlag; - #finishFlushFlag; - #fullFlushFlag; - #handle; - #onError; - get sawError() { - return this.#sawError; + try { + process.cwd(); + } catch (er) { + } + if (typeof process.chdir === "function") { + chdir = process.chdir; + process.chdir = function(d) { + cwd = null; + chdir.call(process, d); + }; + if (Object.setPrototypeOf) Object.setPrototypeOf(process.chdir, chdir); + } + var chdir; + module2.exports = patch; + function patch(fs17) { + if (constants2.hasOwnProperty("O_SYMLINK") && process.version.match(/^v0\.6\.[0-2]|^v0\.5\./)) { + patchLchmod(fs17); } - get handle() { - return this.#handle; + if (!fs17.lutimes) { + patchLutimes(fs17); } - /* c8 ignore start */ - get flushFlag() { - return this.#flushFlag; + fs17.chown = chownFix(fs17.chown); + fs17.fchown = chownFix(fs17.fchown); + fs17.lchown = chownFix(fs17.lchown); + fs17.chmod = chmodFix(fs17.chmod); + fs17.fchmod = chmodFix(fs17.fchmod); + fs17.lchmod = chmodFix(fs17.lchmod); + fs17.chownSync = chownFixSync(fs17.chownSync); + fs17.fchownSync = chownFixSync(fs17.fchownSync); + fs17.lchownSync = chownFixSync(fs17.lchownSync); + fs17.chmodSync = chmodFixSync(fs17.chmodSync); + fs17.fchmodSync = chmodFixSync(fs17.fchmodSync); + fs17.lchmodSync = chmodFixSync(fs17.lchmodSync); + fs17.stat = statFix(fs17.stat); + fs17.fstat = statFix(fs17.fstat); + fs17.lstat = statFix(fs17.lstat); + fs17.statSync = statFixSync(fs17.statSync); + fs17.fstatSync = statFixSync(fs17.fstatSync); + fs17.lstatSync = statFixSync(fs17.lstatSync); + if (fs17.chmod && !fs17.lchmod) { + fs17.lchmod = function(path16, mode, cb) { + if (cb) process.nextTick(cb); + }; + fs17.lchmodSync = function() { + }; } - /* c8 ignore stop */ - constructor(opts, mode) { - if (!opts || typeof opts !== "object") - throw new TypeError("invalid options for ZlibBase constructor"); - super(opts); - this.#flushFlag = opts.flush ?? 0; - this.#finishFlushFlag = opts.finishFlush ?? 0; - this.#fullFlushFlag = opts.fullFlushFlag ?? 0; - if (typeof realZlib2[mode] !== "function") { - throw new TypeError("Compression method not supported: " + mode); - } - try { - this.#handle = new realZlib2[mode](opts); - } catch (er) { - throw new ZlibError(er, this.constructor); - } - this.#onError = (err) => { - if (this.#sawError) - return; - this.#sawError = true; - this.close(); - this.emit("error", err); + if (fs17.chown && !fs17.lchown) { + fs17.lchown = function(path16, uid, gid, cb) { + if (cb) process.nextTick(cb); + }; + fs17.lchownSync = function() { }; - this.#handle?.on("error", (er) => this.#onError(new ZlibError(er))); - this.once("end", () => this.close); } - close() { - if (this.#handle) { - this.#handle.close(); - this.#handle = void 0; - this.emit("close"); - } + if (platform5 === "win32") { + fs17.rename = typeof fs17.rename !== "function" ? fs17.rename : (function(fs$rename) { + function rename(from, to, cb) { + var start = Date.now(); + var backoff = 0; + fs$rename(from, to, function CB(er) { + if (er && (er.code === "EACCES" || er.code === "EPERM" || er.code === "EBUSY") && Date.now() - start < 6e4) { + setTimeout(function() { + fs17.stat(to, function(stater, st) { + if (stater && stater.code === "ENOENT") + fs$rename(from, to, CB); + else + cb(er); + }); + }, backoff); + if (backoff < 100) + backoff += 10; + return; + } + if (cb) cb(er); + }); + } + if (Object.setPrototypeOf) Object.setPrototypeOf(rename, fs$rename); + return rename; + })(fs17.rename); } - reset() { - if (!this.#sawError) { - (0, import_assert2.default)(this.#handle, "zlib binding closed"); - return this.#handle.reset?.(); + fs17.read = typeof fs17.read !== "function" ? fs17.read : (function(fs$read) { + function read(fd, buffer, offset, length, position, callback_) { + var callback; + if (callback_ && typeof callback_ === "function") { + var eagCounter = 0; + callback = function(er, _, __) { + if (er && er.code === "EAGAIN" && eagCounter < 10) { + eagCounter++; + return fs$read.call(fs17, fd, buffer, offset, length, position, callback); + } + callback_.apply(this, arguments); + }; + } + return fs$read.call(fs17, fd, buffer, offset, length, position, callback); } - } - flush(flushFlag) { - if (this.ended) - return; - if (typeof flushFlag !== "number") - flushFlag = this.#fullFlushFlag; - this.write(Object.assign(import_buffer.Buffer.alloc(0), { [_flushFlag]: flushFlag })); - } - end(chunk, encoding, cb) { - if (typeof chunk === "function") { - cb = chunk; - encoding = void 0; - chunk = void 0; - } - if (typeof encoding === "function") { - cb = encoding; - encoding = void 0; - } - if (chunk) { - if (encoding) - this.write(chunk, encoding); - else - this.write(chunk); - } - this.flush(this.#finishFlushFlag); - this.#ended = true; - return super.end(cb); - } - get ended() { - return this.#ended; - } - // overridden in the gzip classes to do portable writes - [_superWrite](data) { - return super.write(data); - } - write(chunk, encoding, cb) { - if (typeof encoding === "function") - cb = encoding, encoding = "utf8"; - if (typeof chunk === "string") - chunk = import_buffer.Buffer.from(chunk, encoding); - if (this.#sawError) - return; - (0, import_assert2.default)(this.#handle, "zlib binding closed"); - const nativeHandle = this.#handle._handle; - const originalNativeClose = nativeHandle.close; - nativeHandle.close = () => { + if (Object.setPrototypeOf) Object.setPrototypeOf(read, fs$read); + return read; + })(fs17.read); + fs17.readSync = typeof fs17.readSync !== "function" ? fs17.readSync : /* @__PURE__ */ (function(fs$readSync) { + return function(fd, buffer, offset, length, position) { + var eagCounter = 0; + while (true) { + try { + return fs$readSync.call(fs17, fd, buffer, offset, length, position); + } catch (er) { + if (er.code === "EAGAIN" && eagCounter < 10) { + eagCounter++; + continue; + } + throw er; + } + } }; - const originalClose = this.#handle.close; - this.#handle.close = () => { + })(fs17.readSync); + function patchLchmod(fs18) { + fs18.lchmod = function(path16, mode, callback) { + fs18.open( + path16, + constants2.O_WRONLY | constants2.O_SYMLINK, + mode, + function(err, fd) { + if (err) { + if (callback) callback(err); + return; + } + fs18.fchmod(fd, mode, function(err2) { + fs18.close(fd, function(err22) { + if (callback) callback(err2 || err22); + }); + }); + } + ); }; - passthroughBufferConcat(true); - let result = void 0; - try { - const flushFlag = typeof chunk[_flushFlag] === "number" ? chunk[_flushFlag] : this.#flushFlag; - result = this.#handle._processChunk(chunk, flushFlag); - passthroughBufferConcat(false); - } catch (err) { - passthroughBufferConcat(false); - this.#onError(new ZlibError(err, this.write)); - } finally { - if (this.#handle) { - ; - this.#handle._handle = nativeHandle; - nativeHandle.close = originalNativeClose; - this.#handle.close = originalClose; - this.#handle.removeAllListeners("error"); - } - } - if (this.#handle) - this.#handle.on("error", (er) => this.#onError(new ZlibError(er, this.write))); - let writeReturn; - if (result) { - if (Array.isArray(result) && result.length > 0) { - const r = result[0]; - writeReturn = this[_superWrite](import_buffer.Buffer.from(r)); - for (let i = 1; i < result.length; i++) { - writeReturn = this[_superWrite](result[i]); + fs18.lchmodSync = function(path16, mode) { + var fd = fs18.openSync(path16, constants2.O_WRONLY | constants2.O_SYMLINK, mode); + var threw = true; + var ret; + try { + ret = fs18.fchmodSync(fd, mode); + threw = false; + } finally { + if (threw) { + try { + fs18.closeSync(fd); + } catch (er) { + } + } else { + fs18.closeSync(fd); } - } else { - writeReturn = this[_superWrite](import_buffer.Buffer.from(result)); } - } - if (cb) - cb(); - return writeReturn; - } - }; - Zlib = class extends ZlibBase { - #level; - #strategy; - constructor(opts, mode) { - opts = opts || {}; - opts.flush = opts.flush || constants.Z_NO_FLUSH; - opts.finishFlush = opts.finishFlush || constants.Z_FINISH; - opts.fullFlushFlag = constants.Z_FULL_FLUSH; - super(opts, mode); - this.#level = opts.level; - this.#strategy = opts.strategy; + return ret; + }; } - params(level, strategy) { - if (this.sawError) - return; - if (!this.handle) - throw new Error("cannot switch params when binding is closed"); - if (!this.handle.params) - throw new Error("not supported in this implementation"); - if (this.#level !== level || this.#strategy !== strategy) { - this.flush(constants.Z_SYNC_FLUSH); - (0, import_assert2.default)(this.handle, "zlib binding closed"); - const origFlush = this.handle.flush; - this.handle.flush = (flushFlag, cb) => { - if (typeof flushFlag === "function") { - cb = flushFlag; - flushFlag = this.flushFlag; + function patchLutimes(fs18) { + if (constants2.hasOwnProperty("O_SYMLINK") && fs18.futimes) { + fs18.lutimes = function(path16, at, mt, cb) { + fs18.open(path16, constants2.O_SYMLINK, function(er, fd) { + if (er) { + if (cb) cb(er); + return; + } + fs18.futimes(fd, at, mt, function(er2) { + fs18.close(fd, function(er22) { + if (cb) cb(er2 || er22); + }); + }); + }); + }; + fs18.lutimesSync = function(path16, at, mt) { + var fd = fs18.openSync(path16, constants2.O_SYMLINK); + var ret; + var threw = true; + try { + ret = fs18.futimesSync(fd, at, mt); + threw = false; + } finally { + if (threw) { + try { + fs18.closeSync(fd); + } catch (er) { + } + } else { + fs18.closeSync(fd); + } } - this.flush(flushFlag); - cb?.(); + return ret; + }; + } else if (fs18.futimes) { + fs18.lutimes = function(_a, _b, _c, cb) { + if (cb) process.nextTick(cb); + }; + fs18.lutimesSync = function() { }; - try { - ; - this.handle.params(level, strategy); - } finally { - this.handle.flush = origFlush; - } - if (this.handle) { - this.#level = level; - this.#strategy = strategy; - } } } - }; - Gzip = class extends Zlib { - #portable; - constructor(opts) { - super(opts, "Gzip"); - this.#portable = opts && !!opts.portable; - } - [_superWrite](data) { - if (!this.#portable) - return super[_superWrite](data); - this.#portable = false; - data[9] = 255; - return super[_superWrite](data); - } - }; - Unzip = class extends Zlib { - constructor(opts) { - super(opts, "Unzip"); - } - }; - Brotli = class extends ZlibBase { - constructor(opts, mode) { - opts = opts || {}; - opts.flush = opts.flush || constants.BROTLI_OPERATION_PROCESS; - opts.finishFlush = opts.finishFlush || constants.BROTLI_OPERATION_FINISH; - opts.fullFlushFlag = constants.BROTLI_OPERATION_FLUSH; - super(opts, mode); - } - }; - BrotliCompress = class extends Brotli { - constructor(opts) { - super(opts, "BrotliCompress"); + function chmodFix(orig) { + if (!orig) return orig; + return function(target, mode, cb) { + return orig.call(fs17, target, mode, function(er) { + if (chownErOk(er)) er = null; + if (cb) cb.apply(this, arguments); + }); + }; } - }; - BrotliDecompress = class extends Brotli { - constructor(opts) { - super(opts, "BrotliDecompress"); + function chmodFixSync(orig) { + if (!orig) return orig; + return function(target, mode) { + try { + return orig.call(fs17, target, mode); + } catch (er) { + if (!chownErOk(er)) throw er; + } + }; } - }; - Zstd = class extends ZlibBase { - constructor(opts, mode) { - opts = opts || {}; - opts.flush = opts.flush || constants.ZSTD_e_continue; - opts.finishFlush = opts.finishFlush || constants.ZSTD_e_end; - opts.fullFlushFlag = constants.ZSTD_e_flush; - super(opts, mode); - } - }; - ZstdCompress = class extends Zstd { - constructor(opts) { - super(opts, "ZstdCompress"); - } - }; - ZstdDecompress = class extends Zstd { - constructor(opts) { - super(opts, "ZstdDecompress"); - } - }; - } -}); - -// .yarn/cache/tar-npm-7.5.6-955ec951c2-08af380703.zip/node_modules/tar/dist/esm/large-numbers.js -var encode, encodePositive, encodeNegative, parse, twos, pos, onesComp, twosComp; -var init_large_numbers = __esm({ - ".yarn/cache/tar-npm-7.5.6-955ec951c2-08af380703.zip/node_modules/tar/dist/esm/large-numbers.js"() { - encode = (num, buf) => { - if (!Number.isSafeInteger(num)) { - throw Error("cannot encode number outside of javascript safe integer range"); - } else if (num < 0) { - encodeNegative(num, buf); - } else { - encodePositive(num, buf); - } - return buf; - }; - encodePositive = (num, buf) => { - buf[0] = 128; - for (var i = buf.length; i > 1; i--) { - buf[i - 1] = num & 255; - num = Math.floor(num / 256); - } - }; - encodeNegative = (num, buf) => { - buf[0] = 255; - var flipped = false; - num = num * -1; - for (var i = buf.length; i > 1; i--) { - var byte = num & 255; - num = Math.floor(num / 256); - if (flipped) { - buf[i - 1] = onesComp(byte); - } else if (byte === 0) { - buf[i - 1] = 0; - } else { - flipped = true; - buf[i - 1] = twosComp(byte); - } - } - }; - parse = (buf) => { - const pre = buf[0]; - const value = pre === 128 ? pos(buf.subarray(1, buf.length)) : pre === 255 ? twos(buf) : null; - if (value === null) { - throw Error("invalid base256 encoding"); - } - if (!Number.isSafeInteger(value)) { - throw Error("parsed number outside of javascript safe integer range"); - } - return value; - }; - twos = (buf) => { - var len = buf.length; - var sum = 0; - var flipped = false; - for (var i = len - 1; i > -1; i--) { - var byte = Number(buf[i]); - var f; - if (flipped) { - f = onesComp(byte); - } else if (byte === 0) { - f = byte; - } else { - flipped = true; - f = twosComp(byte); - } - if (f !== 0) { - sum -= f * Math.pow(256, len - i - 1); - } - } - return sum; - }; - pos = (buf) => { - var len = buf.length; - var sum = 0; - for (var i = len - 1; i > -1; i--) { - var byte = Number(buf[i]); - if (byte !== 0) { - sum += byte * Math.pow(256, len - i - 1); - } - } - return sum; - }; - onesComp = (byte) => (255 ^ byte) & 255; - twosComp = (byte) => (255 ^ byte) + 1 & 255; - } -}); - -// .yarn/cache/tar-npm-7.5.6-955ec951c2-08af380703.zip/node_modules/tar/dist/esm/types.js -var isCode, name, code; -var init_types = __esm({ - ".yarn/cache/tar-npm-7.5.6-955ec951c2-08af380703.zip/node_modules/tar/dist/esm/types.js"() { - isCode = (c) => name.has(c); - name = /* @__PURE__ */ new Map([ - ["0", "File"], - // same as File - ["", "OldFile"], - ["1", "Link"], - ["2", "SymbolicLink"], - // Devices and FIFOs aren't fully supported - // they are parsed, but skipped when unpacking - ["3", "CharacterDevice"], - ["4", "BlockDevice"], - ["5", "Directory"], - ["6", "FIFO"], - // same as File - ["7", "ContiguousFile"], - // pax headers - ["g", "GlobalExtendedHeader"], - ["x", "ExtendedHeader"], - // vendor-specific stuff - // skip - ["A", "SolarisACL"], - // like 5, but with data, which should be skipped - ["D", "GNUDumpDir"], - // metadata only, skip - ["I", "Inode"], - // data = link path of next file - ["K", "NextFileHasLongLinkpath"], - // data = path of next file - ["L", "NextFileHasLongPath"], - // skip - ["M", "ContinuationFile"], - // like L - ["N", "OldGnuLongPath"], - // skip - ["S", "SparseFile"], - // skip - ["V", "TapeVolumeHeader"], - // like x - ["X", "OldExtendedHeader"] - ]); - code = new Map(Array.from(name).map((kv) => [kv[1], kv[0]])); - } -}); - -// .yarn/cache/tar-npm-7.5.6-955ec951c2-08af380703.zip/node_modules/tar/dist/esm/header.js -var import_node_path, Header, splitPrefix, decString, decDate, numToDate, decNumber, nanUndef, decSmallNumber, MAXNUM, encNumber, encSmallNumber, octalString, padOctal, encDate, NULLS, encString; -var init_header = __esm({ - ".yarn/cache/tar-npm-7.5.6-955ec951c2-08af380703.zip/node_modules/tar/dist/esm/header.js"() { - import_node_path = require("node:path"); - init_large_numbers(); - init_types(); - Header = class { - cksumValid = false; - needPax = false; - nullBlock = false; - block; - path; - mode; - uid; - gid; - size; - cksum; - #type = "Unsupported"; - linkpath; - uname; - gname; - devmaj = 0; - devmin = 0; - atime; - ctime; - mtime; - charset; - comment; - constructor(data, off = 0, ex, gex) { - if (Buffer.isBuffer(data)) { - this.decode(data, off || 0, ex, gex); - } else if (data) { - this.#slurp(data); - } - } - decode(buf, off, ex, gex) { - if (!off) { - off = 0; - } - if (!buf || !(buf.length >= off + 512)) { - throw new Error("need 512 bytes for header"); - } - this.path = ex?.path ?? decString(buf, off, 100); - this.mode = ex?.mode ?? gex?.mode ?? decNumber(buf, off + 100, 8); - this.uid = ex?.uid ?? gex?.uid ?? decNumber(buf, off + 108, 8); - this.gid = ex?.gid ?? gex?.gid ?? decNumber(buf, off + 116, 8); - this.size = ex?.size ?? gex?.size ?? decNumber(buf, off + 124, 12); - this.mtime = ex?.mtime ?? gex?.mtime ?? decDate(buf, off + 136, 12); - this.cksum = decNumber(buf, off + 148, 12); - if (gex) - this.#slurp(gex, true); - if (ex) - this.#slurp(ex); - const t = decString(buf, off + 156, 1); - if (isCode(t)) { - this.#type = t || "0"; - } - if (this.#type === "0" && this.path.slice(-1) === "/") { - this.#type = "5"; - } - if (this.#type === "5") { - this.size = 0; - } - this.linkpath = decString(buf, off + 157, 100); - if (buf.subarray(off + 257, off + 265).toString() === "ustar\x0000") { - this.uname = ex?.uname ?? gex?.uname ?? decString(buf, off + 265, 32); - this.gname = ex?.gname ?? gex?.gname ?? decString(buf, off + 297, 32); - this.devmaj = ex?.devmaj ?? gex?.devmaj ?? decNumber(buf, off + 329, 8) ?? 0; - this.devmin = ex?.devmin ?? gex?.devmin ?? decNumber(buf, off + 337, 8) ?? 0; - if (buf[off + 475] !== 0) { - const prefix = decString(buf, off + 345, 155); - this.path = prefix + "/" + this.path; - } else { - const prefix = decString(buf, off + 345, 130); - if (prefix) { - this.path = prefix + "/" + this.path; - } - this.atime = ex?.atime ?? gex?.atime ?? decDate(buf, off + 476, 12); - this.ctime = ex?.ctime ?? gex?.ctime ?? decDate(buf, off + 488, 12); - } - } - let sum = 8 * 32; - for (let i = off; i < off + 148; i++) { - sum += buf[i]; - } - for (let i = off + 156; i < off + 512; i++) { - sum += buf[i]; - } - this.cksumValid = sum === this.cksum; - if (this.cksum === void 0 && sum === 8 * 32) { - this.nullBlock = true; - } - } - #slurp(ex, gex = false) { - Object.assign(this, Object.fromEntries(Object.entries(ex).filter(([k, v]) => { - return !(v === null || v === void 0 || k === "path" && gex || k === "linkpath" && gex || k === "global"); - }))); - } - encode(buf, off = 0) { - if (!buf) { - buf = this.block = Buffer.alloc(512); - } - if (this.#type === "Unsupported") { - this.#type = "0"; - } - if (!(buf.length >= off + 512)) { - throw new Error("need 512 bytes for header"); - } - const prefixSize = this.ctime || this.atime ? 130 : 155; - const split = splitPrefix(this.path || "", prefixSize); - const path16 = split[0]; - const prefix = split[1]; - this.needPax = !!split[2]; - this.needPax = encString(buf, off, 100, path16) || this.needPax; - this.needPax = encNumber(buf, off + 100, 8, this.mode) || this.needPax; - this.needPax = encNumber(buf, off + 108, 8, this.uid) || this.needPax; - this.needPax = encNumber(buf, off + 116, 8, this.gid) || this.needPax; - this.needPax = encNumber(buf, off + 124, 12, this.size) || this.needPax; - this.needPax = encDate(buf, off + 136, 12, this.mtime) || this.needPax; - buf[off + 156] = this.#type.charCodeAt(0); - this.needPax = encString(buf, off + 157, 100, this.linkpath) || this.needPax; - buf.write("ustar\x0000", off + 257, 8); - this.needPax = encString(buf, off + 265, 32, this.uname) || this.needPax; - this.needPax = encString(buf, off + 297, 32, this.gname) || this.needPax; - this.needPax = encNumber(buf, off + 329, 8, this.devmaj) || this.needPax; - this.needPax = encNumber(buf, off + 337, 8, this.devmin) || this.needPax; - this.needPax = encString(buf, off + 345, prefixSize, prefix) || this.needPax; - if (buf[off + 475] !== 0) { - this.needPax = encString(buf, off + 345, 155, prefix) || this.needPax; - } else { - this.needPax = encString(buf, off + 345, 130, prefix) || this.needPax; - this.needPax = encDate(buf, off + 476, 12, this.atime) || this.needPax; - this.needPax = encDate(buf, off + 488, 12, this.ctime) || this.needPax; - } - let sum = 8 * 32; - for (let i = off; i < off + 148; i++) { - sum += buf[i]; - } - for (let i = off + 156; i < off + 512; i++) { - sum += buf[i]; - } - this.cksum = sum; - encNumber(buf, off + 148, 8, this.cksum); - this.cksumValid = true; - return this.needPax; - } - get type() { - return this.#type === "Unsupported" ? this.#type : name.get(this.#type); - } - get typeKey() { - return this.#type; - } - set type(type) { - const c = String(code.get(type)); - if (isCode(c) || c === "Unsupported") { - this.#type = c; - } else if (isCode(type)) { - this.#type = type; - } else { - throw new TypeError("invalid entry type: " + type); - } - } - }; - splitPrefix = (p, prefixSize) => { - const pathSize = 100; - let pp = p; - let prefix = ""; - let ret = void 0; - const root = import_node_path.posix.parse(p).root || "."; - if (Buffer.byteLength(pp) < pathSize) { - ret = [pp, prefix, false]; - } else { - prefix = import_node_path.posix.dirname(pp); - pp = import_node_path.posix.basename(pp); - do { - if (Buffer.byteLength(pp) <= pathSize && Buffer.byteLength(prefix) <= prefixSize) { - ret = [pp, prefix, false]; - } else if (Buffer.byteLength(pp) > pathSize && Buffer.byteLength(prefix) <= prefixSize) { - ret = [pp.slice(0, pathSize - 1), prefix, true]; - } else { - pp = import_node_path.posix.join(import_node_path.posix.basename(prefix), pp); - prefix = import_node_path.posix.dirname(prefix); - } - } while (prefix !== root && ret === void 0); - if (!ret) { - ret = [p.slice(0, pathSize - 1), "", true]; - } - } - return ret; - }; - decString = (buf, off, size) => buf.subarray(off, off + size).toString("utf8").replace(/\0.*/, ""); - decDate = (buf, off, size) => numToDate(decNumber(buf, off, size)); - numToDate = (num) => num === void 0 ? void 0 : new Date(num * 1e3); - decNumber = (buf, off, size) => Number(buf[off]) & 128 ? parse(buf.subarray(off, off + size)) : decSmallNumber(buf, off, size); - nanUndef = (value) => isNaN(value) ? void 0 : value; - decSmallNumber = (buf, off, size) => nanUndef(parseInt(buf.subarray(off, off + size).toString("utf8").replace(/\0.*$/, "").trim(), 8)); - MAXNUM = { - 12: 8589934591, - 8: 2097151 - }; - encNumber = (buf, off, size, num) => num === void 0 ? false : num > MAXNUM[size] || num < 0 ? (encode(num, buf.subarray(off, off + size)), true) : (encSmallNumber(buf, off, size, num), false); - encSmallNumber = (buf, off, size, num) => buf.write(octalString(num, size), off, size, "ascii"); - octalString = (num, size) => padOctal(Math.floor(num).toString(8), size); - padOctal = (str, size) => (str.length === size - 1 ? str : new Array(size - str.length - 1).join("0") + str + " ") + "\0"; - encDate = (buf, off, size, date) => date === void 0 ? false : encNumber(buf, off, size, date.getTime() / 1e3); - NULLS = new Array(156).join("\0"); - encString = (buf, off, size, str) => str === void 0 ? false : (buf.write(str + NULLS, off, size, "utf8"), str.length !== Buffer.byteLength(str) || str.length > size); - } -}); - -// .yarn/cache/tar-npm-7.5.6-955ec951c2-08af380703.zip/node_modules/tar/dist/esm/pax.js -var import_node_path2, Pax, merge, parseKV, parseKVLine; -var init_pax = __esm({ - ".yarn/cache/tar-npm-7.5.6-955ec951c2-08af380703.zip/node_modules/tar/dist/esm/pax.js"() { - import_node_path2 = require("node:path"); - init_header(); - Pax = class _Pax { - atime; - mtime; - ctime; - charset; - comment; - gid; - uid; - gname; - uname; - linkpath; - dev; - ino; - nlink; - path; - size; - mode; - global; - constructor(obj, global2 = false) { - this.atime = obj.atime; - this.charset = obj.charset; - this.comment = obj.comment; - this.ctime = obj.ctime; - this.dev = obj.dev; - this.gid = obj.gid; - this.global = global2; - this.gname = obj.gname; - this.ino = obj.ino; - this.linkpath = obj.linkpath; - this.mtime = obj.mtime; - this.nlink = obj.nlink; - this.path = obj.path; - this.size = obj.size; - this.uid = obj.uid; - this.uname = obj.uname; - } - encode() { - const body = this.encodeBody(); - if (body === "") { - return Buffer.allocUnsafe(0); - } - const bodyLen = Buffer.byteLength(body); - const bufLen = 512 * Math.ceil(1 + bodyLen / 512); - const buf = Buffer.allocUnsafe(bufLen); - for (let i = 0; i < 512; i++) { - buf[i] = 0; - } - new Header({ - // XXX split the path - // then the path should be PaxHeader + basename, but less than 99, - // prepend with the dirname - /* c8 ignore start */ - path: ("PaxHeader/" + (0, import_node_path2.basename)(this.path ?? "")).slice(0, 99), - /* c8 ignore stop */ - mode: this.mode || 420, - uid: this.uid, - gid: this.gid, - size: bodyLen, - mtime: this.mtime, - type: this.global ? "GlobalExtendedHeader" : "ExtendedHeader", - linkpath: "", - uname: this.uname || "", - gname: this.gname || "", - devmaj: 0, - devmin: 0, - atime: this.atime, - ctime: this.ctime - }).encode(buf); - buf.write(body, 512, bodyLen, "utf8"); - for (let i = bodyLen + 512; i < buf.length; i++) { - buf[i] = 0; - } - return buf; - } - encodeBody() { - return this.encodeField("path") + this.encodeField("ctime") + this.encodeField("atime") + this.encodeField("dev") + this.encodeField("ino") + this.encodeField("nlink") + this.encodeField("charset") + this.encodeField("comment") + this.encodeField("gid") + this.encodeField("gname") + this.encodeField("linkpath") + this.encodeField("mtime") + this.encodeField("size") + this.encodeField("uid") + this.encodeField("uname"); - } - encodeField(field) { - if (this[field] === void 0) { - return ""; - } - const r = this[field]; - const v = r instanceof Date ? r.getTime() / 1e3 : r; - const s = " " + (field === "dev" || field === "ino" || field === "nlink" ? "SCHILY." : "") + field + "=" + v + "\n"; - const byteLen = Buffer.byteLength(s); - let digits = Math.floor(Math.log(byteLen) / Math.log(10)) + 1; - if (byteLen + digits >= Math.pow(10, digits)) { - digits += 1; - } - const len = digits + byteLen; - return len + s; - } - static parse(str, ex, g = false) { - return new _Pax(merge(parseKV(str), ex), g); - } - }; - merge = (a, b) => b ? Object.assign({}, b, a) : a; - parseKV = (str) => str.replace(/\n$/, "").split("\n").reduce(parseKVLine, /* @__PURE__ */ Object.create(null)); - parseKVLine = (set, line) => { - const n = parseInt(line, 10); - if (n !== Buffer.byteLength(line) + 1) { - return set; - } - line = line.slice((n + " ").length); - const kv = line.split("="); - const r = kv.shift(); - if (!r) { - return set; - } - const k = r.replace(/^SCHILY\.(dev|ino|nlink)/, "$1"); - const v = kv.join("="); - set[k] = /^([A-Z]+\.)?([mac]|birth|creation)time$/.test(k) ? new Date(Number(v) * 1e3) : /^[0-9]+$/.test(v) ? +v : v; - return set; - }; - } -}); - -// .yarn/cache/tar-npm-7.5.6-955ec951c2-08af380703.zip/node_modules/tar/dist/esm/normalize-windows-path.js -var platform, normalizeWindowsPath; -var init_normalize_windows_path = __esm({ - ".yarn/cache/tar-npm-7.5.6-955ec951c2-08af380703.zip/node_modules/tar/dist/esm/normalize-windows-path.js"() { - platform = process.env.TESTING_TAR_FAKE_PLATFORM || process.platform; - normalizeWindowsPath = platform !== "win32" ? (p) => p : (p) => p && p.replace(/\\/g, "/"); - } -}); - -// .yarn/cache/tar-npm-7.5.6-955ec951c2-08af380703.zip/node_modules/tar/dist/esm/read-entry.js -var ReadEntry; -var init_read_entry = __esm({ - ".yarn/cache/tar-npm-7.5.6-955ec951c2-08af380703.zip/node_modules/tar/dist/esm/read-entry.js"() { - init_esm(); - init_normalize_windows_path(); - ReadEntry = class extends Minipass { - extended; - globalExtended; - header; - startBlockSize; - blockRemain; - remain; - type; - meta = false; - ignore = false; - path; - mode; - uid; - gid; - uname; - gname; - size = 0; - mtime; - atime; - ctime; - linkpath; - dev; - ino; - nlink; - invalid = false; - absolute; - unsupported = false; - constructor(header, ex, gex) { - super({}); - this.pause(); - this.extended = ex; - this.globalExtended = gex; - this.header = header; - this.remain = header.size ?? 0; - this.startBlockSize = 512 * Math.ceil(this.remain / 512); - this.blockRemain = this.startBlockSize; - this.type = header.type; - switch (this.type) { - case "File": - case "OldFile": - case "Link": - case "SymbolicLink": - case "CharacterDevice": - case "BlockDevice": - case "Directory": - case "FIFO": - case "ContiguousFile": - case "GNUDumpDir": - break; - case "NextFileHasLongLinkpath": - case "NextFileHasLongPath": - case "OldGnuLongPath": - case "GlobalExtendedHeader": - case "ExtendedHeader": - case "OldExtendedHeader": - this.meta = true; - break; - // NOTE: gnutar and bsdtar treat unrecognized types as 'File' - // it may be worth doing the same, but with a warning. - default: - this.ignore = true; - } - if (!header.path) { - throw new Error("no path provided for tar.ReadEntry"); - } - this.path = normalizeWindowsPath(header.path); - this.mode = header.mode; - if (this.mode) { - this.mode = this.mode & 4095; - } - this.uid = header.uid; - this.gid = header.gid; - this.uname = header.uname; - this.gname = header.gname; - this.size = this.remain; - this.mtime = header.mtime; - this.atime = header.atime; - this.ctime = header.ctime; - this.linkpath = header.linkpath ? normalizeWindowsPath(header.linkpath) : void 0; - this.uname = header.uname; - this.gname = header.gname; - if (ex) { - this.#slurp(ex); - } - if (gex) { - this.#slurp(gex, true); - } - } - write(data) { - const writeLen = data.length; - if (writeLen > this.blockRemain) { - throw new Error("writing more to entry than is appropriate"); - } - const r = this.remain; - const br = this.blockRemain; - this.remain = Math.max(0, r - writeLen); - this.blockRemain = Math.max(0, br - writeLen); - if (this.ignore) { - return true; - } - if (r >= writeLen) { - return super.write(data); - } - return super.write(data.subarray(0, r)); - } - #slurp(ex, gex = false) { - if (ex.path) - ex.path = normalizeWindowsPath(ex.path); - if (ex.linkpath) - ex.linkpath = normalizeWindowsPath(ex.linkpath); - Object.assign(this, Object.fromEntries(Object.entries(ex).filter(([k, v]) => { - return !(v === null || v === void 0 || k === "path" && gex); - }))); - } - }; - } -}); - -// .yarn/cache/tar-npm-7.5.6-955ec951c2-08af380703.zip/node_modules/tar/dist/esm/warn-method.js -var warnMethod; -var init_warn_method = __esm({ - ".yarn/cache/tar-npm-7.5.6-955ec951c2-08af380703.zip/node_modules/tar/dist/esm/warn-method.js"() { - warnMethod = (self2, code2, message, data = {}) => { - if (self2.file) { - data.file = self2.file; - } - if (self2.cwd) { - data.cwd = self2.cwd; - } - data.code = message instanceof Error && message.code || code2; - data.tarCode = code2; - if (!self2.strict && data.recoverable !== false) { - if (message instanceof Error) { - data = Object.assign(message, data); - message = message.message; - } - self2.emit("warn", code2, message, data); - } else if (message instanceof Error) { - self2.emit("error", Object.assign(message, data)); - } else { - self2.emit("error", Object.assign(new Error(`${code2}: ${message}`), data)); - } - }; - } -}); - -// .yarn/cache/tar-npm-7.5.6-955ec951c2-08af380703.zip/node_modules/tar/dist/esm/parse.js -var import_events3, maxMetaEntrySize, gzipHeader, zstdHeader, ZIP_HEADER_LEN, STATE, WRITEENTRY, READENTRY, NEXTENTRY, PROCESSENTRY, EX, GEX, META, EMITMETA, BUFFER2, QUEUE, ENDED, EMITTEDEND, EMIT, UNZIP, CONSUMECHUNK, CONSUMECHUNKSUB, CONSUMEBODY, CONSUMEMETA, CONSUMEHEADER, CONSUMING, BUFFERCONCAT, MAYBEEND, WRITING, ABORTED2, DONE, SAW_VALID_ENTRY, SAW_NULL_BLOCK, SAW_EOF, CLOSESTREAM, noop2, Parser; -var init_parse = __esm({ - ".yarn/cache/tar-npm-7.5.6-955ec951c2-08af380703.zip/node_modules/tar/dist/esm/parse.js"() { - import_events3 = require("events"); - init_esm3(); - init_header(); - init_pax(); - init_read_entry(); - init_warn_method(); - maxMetaEntrySize = 1024 * 1024; - gzipHeader = Buffer.from([31, 139]); - zstdHeader = Buffer.from([40, 181, 47, 253]); - ZIP_HEADER_LEN = Math.max(gzipHeader.length, zstdHeader.length); - STATE = Symbol("state"); - WRITEENTRY = Symbol("writeEntry"); - READENTRY = Symbol("readEntry"); - NEXTENTRY = Symbol("nextEntry"); - PROCESSENTRY = Symbol("processEntry"); - EX = Symbol("extendedHeader"); - GEX = Symbol("globalExtendedHeader"); - META = Symbol("meta"); - EMITMETA = Symbol("emitMeta"); - BUFFER2 = Symbol("buffer"); - QUEUE = Symbol("queue"); - ENDED = Symbol("ended"); - EMITTEDEND = Symbol("emittedEnd"); - EMIT = Symbol("emit"); - UNZIP = Symbol("unzip"); - CONSUMECHUNK = Symbol("consumeChunk"); - CONSUMECHUNKSUB = Symbol("consumeChunkSub"); - CONSUMEBODY = Symbol("consumeBody"); - CONSUMEMETA = Symbol("consumeMeta"); - CONSUMEHEADER = Symbol("consumeHeader"); - CONSUMING = Symbol("consuming"); - BUFFERCONCAT = Symbol("bufferConcat"); - MAYBEEND = Symbol("maybeEnd"); - WRITING = Symbol("writing"); - ABORTED2 = Symbol("aborted"); - DONE = Symbol("onDone"); - SAW_VALID_ENTRY = Symbol("sawValidEntry"); - SAW_NULL_BLOCK = Symbol("sawNullBlock"); - SAW_EOF = Symbol("sawEOF"); - CLOSESTREAM = Symbol("closeStream"); - noop2 = () => true; - Parser = class extends import_events3.EventEmitter { - file; - strict; - maxMetaEntrySize; - filter; - brotli; - zstd; - writable = true; - readable = false; - [QUEUE] = []; - [BUFFER2]; - [READENTRY]; - [WRITEENTRY]; - [STATE] = "begin"; - [META] = ""; - [EX]; - [GEX]; - [ENDED] = false; - [UNZIP]; - [ABORTED2] = false; - [SAW_VALID_ENTRY]; - [SAW_NULL_BLOCK] = false; - [SAW_EOF] = false; - [WRITING] = false; - [CONSUMING] = false; - [EMITTEDEND] = false; - constructor(opt = {}) { - super(); - this.file = opt.file || ""; - this.on(DONE, () => { - if (this[STATE] === "begin" || this[SAW_VALID_ENTRY] === false) { - this.warn("TAR_BAD_ARCHIVE", "Unrecognized archive format"); - } - }); - if (opt.ondone) { - this.on(DONE, opt.ondone); - } else { - this.on(DONE, () => { - this.emit("prefinish"); - this.emit("finish"); - this.emit("end"); - }); - } - this.strict = !!opt.strict; - this.maxMetaEntrySize = opt.maxMetaEntrySize || maxMetaEntrySize; - this.filter = typeof opt.filter === "function" ? opt.filter : noop2; - const isTBR = opt.file && (opt.file.endsWith(".tar.br") || opt.file.endsWith(".tbr")); - this.brotli = !(opt.gzip || opt.zstd) && opt.brotli !== void 0 ? opt.brotli : isTBR ? void 0 : false; - const isTZST = opt.file && (opt.file.endsWith(".tar.zst") || opt.file.endsWith(".tzst")); - this.zstd = !(opt.gzip || opt.brotli) && opt.zstd !== void 0 ? opt.zstd : isTZST ? true : void 0; - this.on("end", () => this[CLOSESTREAM]()); - if (typeof opt.onwarn === "function") { - this.on("warn", opt.onwarn); - } - if (typeof opt.onReadEntry === "function") { - this.on("entry", opt.onReadEntry); - } - } - warn(code2, message, data = {}) { - warnMethod(this, code2, message, data); - } - [CONSUMEHEADER](chunk, position) { - if (this[SAW_VALID_ENTRY] === void 0) { - this[SAW_VALID_ENTRY] = false; - } - let header; - try { - header = new Header(chunk, position, this[EX], this[GEX]); - } catch (er) { - return this.warn("TAR_ENTRY_INVALID", er); - } - if (header.nullBlock) { - if (this[SAW_NULL_BLOCK]) { - this[SAW_EOF] = true; - if (this[STATE] === "begin") { - this[STATE] = "header"; - } - this[EMIT]("eof"); - } else { - this[SAW_NULL_BLOCK] = true; - this[EMIT]("nullBlock"); - } - } else { - this[SAW_NULL_BLOCK] = false; - if (!header.cksumValid) { - this.warn("TAR_ENTRY_INVALID", "checksum failure", { header }); - } else if (!header.path) { - this.warn("TAR_ENTRY_INVALID", "path is required", { header }); - } else { - const type = header.type; - if (/^(Symbolic)?Link$/.test(type) && !header.linkpath) { - this.warn("TAR_ENTRY_INVALID", "linkpath required", { - header - }); - } else if (!/^(Symbolic)?Link$/.test(type) && !/^(Global)?ExtendedHeader$/.test(type) && header.linkpath) { - this.warn("TAR_ENTRY_INVALID", "linkpath forbidden", { - header - }); - } else { - const entry = this[WRITEENTRY] = new ReadEntry(header, this[EX], this[GEX]); - if (!this[SAW_VALID_ENTRY]) { - if (entry.remain) { - const onend = () => { - if (!entry.invalid) { - this[SAW_VALID_ENTRY] = true; - } - }; - entry.on("end", onend); - } else { - this[SAW_VALID_ENTRY] = true; - } - } - if (entry.meta) { - if (entry.size > this.maxMetaEntrySize) { - entry.ignore = true; - this[EMIT]("ignoredEntry", entry); - this[STATE] = "ignore"; - entry.resume(); - } else if (entry.size > 0) { - this[META] = ""; - entry.on("data", (c) => this[META] += c); - this[STATE] = "meta"; - } - } else { - this[EX] = void 0; - entry.ignore = entry.ignore || !this.filter(entry.path, entry); - if (entry.ignore) { - this[EMIT]("ignoredEntry", entry); - this[STATE] = entry.remain ? "ignore" : "header"; - entry.resume(); - } else { - if (entry.remain) { - this[STATE] = "body"; - } else { - this[STATE] = "header"; - entry.end(); - } - if (!this[READENTRY]) { - this[QUEUE].push(entry); - this[NEXTENTRY](); - } else { - this[QUEUE].push(entry); - } - } - } - } - } - } - } - [CLOSESTREAM]() { - queueMicrotask(() => this.emit("close")); - } - [PROCESSENTRY](entry) { - let go = true; - if (!entry) { - this[READENTRY] = void 0; - go = false; - } else if (Array.isArray(entry)) { - const [ev, ...args] = entry; - this.emit(ev, ...args); - } else { - this[READENTRY] = entry; - this.emit("entry", entry); - if (!entry.emittedEnd) { - entry.on("end", () => this[NEXTENTRY]()); - go = false; - } - } - return go; - } - [NEXTENTRY]() { - do { - } while (this[PROCESSENTRY](this[QUEUE].shift())); - if (!this[QUEUE].length) { - const re = this[READENTRY]; - const drainNow = !re || re.flowing || re.size === re.remain; - if (drainNow) { - if (!this[WRITING]) { - this.emit("drain"); - } - } else { - re.once("drain", () => this.emit("drain")); - } - } - } - [CONSUMEBODY](chunk, position) { - const entry = this[WRITEENTRY]; - if (!entry) { - throw new Error("attempt to consume body without entry??"); - } - const br = entry.blockRemain ?? 0; - const c = br >= chunk.length && position === 0 ? chunk : chunk.subarray(position, position + br); - entry.write(c); - if (!entry.blockRemain) { - this[STATE] = "header"; - this[WRITEENTRY] = void 0; - entry.end(); - } - return c.length; - } - [CONSUMEMETA](chunk, position) { - const entry = this[WRITEENTRY]; - const ret = this[CONSUMEBODY](chunk, position); - if (!this[WRITEENTRY] && entry) { - this[EMITMETA](entry); - } - return ret; - } - [EMIT](ev, data, extra) { - if (!this[QUEUE].length && !this[READENTRY]) { - this.emit(ev, data, extra); - } else { - this[QUEUE].push([ev, data, extra]); - } - } - [EMITMETA](entry) { - this[EMIT]("meta", this[META]); - switch (entry.type) { - case "ExtendedHeader": - case "OldExtendedHeader": - this[EX] = Pax.parse(this[META], this[EX], false); - break; - case "GlobalExtendedHeader": - this[GEX] = Pax.parse(this[META], this[GEX], true); - break; - case "NextFileHasLongPath": - case "OldGnuLongPath": { - const ex = this[EX] ?? /* @__PURE__ */ Object.create(null); - this[EX] = ex; - ex.path = this[META].replace(/\0.*/, ""); - break; - } - case "NextFileHasLongLinkpath": { - const ex = this[EX] || /* @__PURE__ */ Object.create(null); - this[EX] = ex; - ex.linkpath = this[META].replace(/\0.*/, ""); - break; - } - /* c8 ignore start */ - default: - throw new Error("unknown meta: " + entry.type); - } - } - abort(error) { - this[ABORTED2] = true; - this.emit("abort", error); - this.warn("TAR_ABORT", error, { recoverable: false }); - } - write(chunk, encoding, cb) { - if (typeof encoding === "function") { - cb = encoding; - encoding = void 0; - } - if (typeof chunk === "string") { - chunk = Buffer.from( - chunk, - /* c8 ignore next */ - typeof encoding === "string" ? encoding : "utf8" - ); - } - if (this[ABORTED2]) { - cb?.(); - return false; - } - const needSniff = this[UNZIP] === void 0 || this.brotli === void 0 && this[UNZIP] === false; - if (needSniff && chunk) { - if (this[BUFFER2]) { - chunk = Buffer.concat([this[BUFFER2], chunk]); - this[BUFFER2] = void 0; - } - if (chunk.length < ZIP_HEADER_LEN) { - this[BUFFER2] = chunk; - cb?.(); - return true; - } - for (let i = 0; this[UNZIP] === void 0 && i < gzipHeader.length; i++) { - if (chunk[i] !== gzipHeader[i]) { - this[UNZIP] = false; - } - } - let isZstd = false; - if (this[UNZIP] === false && this.zstd !== false) { - isZstd = true; - for (let i = 0; i < zstdHeader.length; i++) { - if (chunk[i] !== zstdHeader[i]) { - isZstd = false; - break; - } - } - } - const maybeBrotli = this.brotli === void 0 && !isZstd; - if (this[UNZIP] === false && maybeBrotli) { - if (chunk.length < 512) { - if (this[ENDED]) { - this.brotli = true; - } else { - this[BUFFER2] = chunk; - cb?.(); - return true; - } - } else { - try { - new Header(chunk.subarray(0, 512)); - this.brotli = false; - } catch (_) { - this.brotli = true; - } - } - } - if (this[UNZIP] === void 0 || this[UNZIP] === false && (this.brotli || isZstd)) { - const ended = this[ENDED]; - this[ENDED] = false; - this[UNZIP] = this[UNZIP] === void 0 ? new Unzip({}) : isZstd ? new ZstdDecompress({}) : new BrotliDecompress({}); - this[UNZIP].on("data", (chunk2) => this[CONSUMECHUNK](chunk2)); - this[UNZIP].on("error", (er) => this.abort(er)); - this[UNZIP].on("end", () => { - this[ENDED] = true; - this[CONSUMECHUNK](); - }); - this[WRITING] = true; - const ret2 = !!this[UNZIP][ended ? "end" : "write"](chunk); - this[WRITING] = false; - cb?.(); - return ret2; - } - } - this[WRITING] = true; - if (this[UNZIP]) { - this[UNZIP].write(chunk); - } else { - this[CONSUMECHUNK](chunk); - } - this[WRITING] = false; - const ret = this[QUEUE].length ? false : this[READENTRY] ? this[READENTRY].flowing : true; - if (!ret && !this[QUEUE].length) { - this[READENTRY]?.once("drain", () => this.emit("drain")); - } - cb?.(); - return ret; - } - [BUFFERCONCAT](c) { - if (c && !this[ABORTED2]) { - this[BUFFER2] = this[BUFFER2] ? Buffer.concat([this[BUFFER2], c]) : c; - } - } - [MAYBEEND]() { - if (this[ENDED] && !this[EMITTEDEND] && !this[ABORTED2] && !this[CONSUMING]) { - this[EMITTEDEND] = true; - const entry = this[WRITEENTRY]; - if (entry && entry.blockRemain) { - const have = this[BUFFER2] ? this[BUFFER2].length : 0; - this.warn("TAR_BAD_ARCHIVE", `Truncated input (needed ${entry.blockRemain} more bytes, only ${have} available)`, { entry }); - if (this[BUFFER2]) { - entry.write(this[BUFFER2]); - } - entry.end(); - } - this[EMIT](DONE); - } - } - [CONSUMECHUNK](chunk) { - if (this[CONSUMING] && chunk) { - this[BUFFERCONCAT](chunk); - } else if (!chunk && !this[BUFFER2]) { - this[MAYBEEND](); - } else if (chunk) { - this[CONSUMING] = true; - if (this[BUFFER2]) { - this[BUFFERCONCAT](chunk); - const c = this[BUFFER2]; - this[BUFFER2] = void 0; - this[CONSUMECHUNKSUB](c); - } else { - this[CONSUMECHUNKSUB](chunk); - } - while (this[BUFFER2] && this[BUFFER2]?.length >= 512 && !this[ABORTED2] && !this[SAW_EOF]) { - const c = this[BUFFER2]; - this[BUFFER2] = void 0; - this[CONSUMECHUNKSUB](c); - } - this[CONSUMING] = false; - } - if (!this[BUFFER2] || this[ENDED]) { - this[MAYBEEND](); - } - } - [CONSUMECHUNKSUB](chunk) { - let position = 0; - const length = chunk.length; - while (position + 512 <= length && !this[ABORTED2] && !this[SAW_EOF]) { - switch (this[STATE]) { - case "begin": - case "header": - this[CONSUMEHEADER](chunk, position); - position += 512; - break; - case "ignore": - case "body": - position += this[CONSUMEBODY](chunk, position); - break; - case "meta": - position += this[CONSUMEMETA](chunk, position); - break; - /* c8 ignore start */ - default: - throw new Error("invalid state: " + this[STATE]); - } - } - if (position < length) { - if (this[BUFFER2]) { - this[BUFFER2] = Buffer.concat([ - chunk.subarray(position), - this[BUFFER2] - ]); - } else { - this[BUFFER2] = chunk.subarray(position); - } - } - } - end(chunk, encoding, cb) { - if (typeof chunk === "function") { - cb = chunk; - encoding = void 0; - chunk = void 0; - } - if (typeof encoding === "function") { - cb = encoding; - encoding = void 0; - } - if (typeof chunk === "string") { - chunk = Buffer.from(chunk, encoding); - } - if (cb) - this.once("finish", cb); - if (!this[ABORTED2]) { - if (this[UNZIP]) { - if (chunk) - this[UNZIP].write(chunk); - this[UNZIP].end(); - } else { - this[ENDED] = true; - if (this.brotli === void 0 || this.zstd === void 0) - chunk = chunk || Buffer.alloc(0); - if (chunk) - this.write(chunk); - this[MAYBEEND](); - } - } - return this; - } - }; - } -}); - -// .yarn/cache/tar-npm-7.5.6-955ec951c2-08af380703.zip/node_modules/tar/dist/esm/strip-trailing-slashes.js -var stripTrailingSlashes; -var init_strip_trailing_slashes = __esm({ - ".yarn/cache/tar-npm-7.5.6-955ec951c2-08af380703.zip/node_modules/tar/dist/esm/strip-trailing-slashes.js"() { - stripTrailingSlashes = (str) => { - let i = str.length - 1; - let slashesStart = -1; - while (i > -1 && str.charAt(i) === "/") { - slashesStart = i; - i--; - } - return slashesStart === -1 ? str : str.slice(0, slashesStart); - }; - } -}); - -// .yarn/cache/tar-npm-7.5.6-955ec951c2-08af380703.zip/node_modules/tar/dist/esm/list.js -var list_exports = {}; -__export(list_exports, { - filesFilter: () => filesFilter, - list: () => list -}); -var import_node_fs, import_path2, onReadEntryFunction, filesFilter, listFileSync, listFile, list; -var init_list = __esm({ - ".yarn/cache/tar-npm-7.5.6-955ec951c2-08af380703.zip/node_modules/tar/dist/esm/list.js"() { - init_esm2(); - import_node_fs = __toESM(require("node:fs"), 1); - import_path2 = require("path"); - init_make_command(); - init_parse(); - init_strip_trailing_slashes(); - onReadEntryFunction = (opt) => { - const onReadEntry = opt.onReadEntry; - opt.onReadEntry = onReadEntry ? (e) => { - onReadEntry(e); - e.resume(); - } : (e) => e.resume(); - }; - filesFilter = (opt, files) => { - const map = new Map(files.map((f) => [stripTrailingSlashes(f), true])); - const filter = opt.filter; - const mapHas = (file, r = "") => { - const root = r || (0, import_path2.parse)(file).root || "."; - let ret; - if (file === root) - ret = false; - else { - const m = map.get(file); - if (m !== void 0) { - ret = m; - } else { - ret = mapHas((0, import_path2.dirname)(file), root); - } - } - map.set(file, ret); - return ret; - }; - opt.filter = filter ? (file, entry) => filter(file, entry) && mapHas(stripTrailingSlashes(file)) : (file) => mapHas(stripTrailingSlashes(file)); - }; - listFileSync = (opt) => { - const p = new Parser(opt); - const file = opt.file; - let fd; - try { - fd = import_node_fs.default.openSync(file, "r"); - const stat = import_node_fs.default.fstatSync(fd); - const readSize = opt.maxReadSize || 16 * 1024 * 1024; - if (stat.size < readSize) { - const buf = Buffer.allocUnsafe(stat.size); - const read = import_node_fs.default.readSync(fd, buf, 0, stat.size, 0); - p.end(read === buf.byteLength ? buf : buf.subarray(0, read)); - } else { - let pos2 = 0; - const buf = Buffer.allocUnsafe(readSize); - while (pos2 < stat.size) { - const bytesRead = import_node_fs.default.readSync(fd, buf, 0, readSize, pos2); - if (bytesRead === 0) - break; - pos2 += bytesRead; - p.write(buf.subarray(0, bytesRead)); - } - p.end(); - } - } finally { - if (typeof fd === "number") { - try { - import_node_fs.default.closeSync(fd); - } catch (er) { - } - } - } - }; - listFile = (opt, _files) => { - const parse4 = new Parser(opt); - const readSize = opt.maxReadSize || 16 * 1024 * 1024; - const file = opt.file; - const p = new Promise((resolve, reject) => { - parse4.on("error", reject); - parse4.on("end", resolve); - import_node_fs.default.stat(file, (er, stat) => { - if (er) { - reject(er); - } else { - const stream = new ReadStream(file, { - readSize, - size: stat.size - }); - stream.on("error", reject); - stream.pipe(parse4); - } - }); - }); - return p; - }; - list = makeCommand(listFileSync, listFile, (opt) => new Parser(opt), (opt) => new Parser(opt), (opt, files) => { - if (files?.length) - filesFilter(opt, files); - if (!opt.noResume) - onReadEntryFunction(opt); - }); - } -}); - -// .yarn/cache/tar-npm-7.5.6-955ec951c2-08af380703.zip/node_modules/tar/dist/esm/get-write-flag.js -var import_fs3, platform2, isWindows, O_CREAT, O_TRUNC, O_WRONLY, UV_FS_O_FILEMAP, fMapEnabled, fMapLimit, fMapFlag, getWriteFlag; -var init_get_write_flag = __esm({ - ".yarn/cache/tar-npm-7.5.6-955ec951c2-08af380703.zip/node_modules/tar/dist/esm/get-write-flag.js"() { - import_fs3 = __toESM(require("fs"), 1); - platform2 = process.env.__FAKE_PLATFORM__ || process.platform; - isWindows = platform2 === "win32"; - ({ O_CREAT, O_TRUNC, O_WRONLY } = import_fs3.default.constants); - UV_FS_O_FILEMAP = Number(process.env.__FAKE_FS_O_FILENAME__) || import_fs3.default.constants.UV_FS_O_FILEMAP || 0; - fMapEnabled = isWindows && !!UV_FS_O_FILEMAP; - fMapLimit = 512 * 1024; - fMapFlag = UV_FS_O_FILEMAP | O_TRUNC | O_CREAT | O_WRONLY; - getWriteFlag = !fMapEnabled ? () => "w" : (size) => size < fMapLimit ? fMapFlag : "w"; - } -}); - -// .yarn/cache/chownr-npm-3.0.0-5275e85d25-43925b8770.zip/node_modules/chownr/dist/esm/index.js -var import_node_fs2, import_node_path3, lchownSync, chown, chownrKid, chownr, chownrKidSync, chownrSync; -var init_esm4 = __esm({ - ".yarn/cache/chownr-npm-3.0.0-5275e85d25-43925b8770.zip/node_modules/chownr/dist/esm/index.js"() { - import_node_fs2 = __toESM(require("node:fs"), 1); - import_node_path3 = __toESM(require("node:path"), 1); - lchownSync = (path16, uid, gid) => { - try { - return import_node_fs2.default.lchownSync(path16, uid, gid); - } catch (er) { - if (er?.code !== "ENOENT") - throw er; - } - }; - chown = (cpath, uid, gid, cb) => { - import_node_fs2.default.lchown(cpath, uid, gid, (er) => { - cb(er && er?.code !== "ENOENT" ? er : null); - }); - }; - chownrKid = (p, child, uid, gid, cb) => { - if (child.isDirectory()) { - chownr(import_node_path3.default.resolve(p, child.name), uid, gid, (er) => { - if (er) - return cb(er); - const cpath = import_node_path3.default.resolve(p, child.name); - chown(cpath, uid, gid, cb); - }); - } else { - const cpath = import_node_path3.default.resolve(p, child.name); - chown(cpath, uid, gid, cb); - } - }; - chownr = (p, uid, gid, cb) => { - import_node_fs2.default.readdir(p, { withFileTypes: true }, (er, children) => { - if (er) { - if (er.code === "ENOENT") - return cb(); - else if (er.code !== "ENOTDIR" && er.code !== "ENOTSUP") - return cb(er); - } - if (er || !children.length) - return chown(p, uid, gid, cb); - let len = children.length; - let errState = null; - const then = (er2) => { - if (errState) - return; - if (er2) - return cb(errState = er2); - if (--len === 0) - return chown(p, uid, gid, cb); - }; - for (const child of children) { - chownrKid(p, child, uid, gid, then); - } - }); - }; - chownrKidSync = (p, child, uid, gid) => { - if (child.isDirectory()) - chownrSync(import_node_path3.default.resolve(p, child.name), uid, gid); - lchownSync(import_node_path3.default.resolve(p, child.name), uid, gid); - }; - chownrSync = (p, uid, gid) => { - let children; - try { - children = import_node_fs2.default.readdirSync(p, { withFileTypes: true }); - } catch (er) { - const e = er; - if (e?.code === "ENOENT") - return; - else if (e?.code === "ENOTDIR" || e?.code === "ENOTSUP") - return lchownSync(p, uid, gid); - else - throw e; - } - for (const child of children) { - chownrKidSync(p, child, uid, gid); - } - return lchownSync(p, uid, gid); - }; - } -}); - -// .yarn/cache/tar-npm-7.5.6-955ec951c2-08af380703.zip/node_modules/tar/dist/esm/cwd-error.js -var CwdError; -var init_cwd_error = __esm({ - ".yarn/cache/tar-npm-7.5.6-955ec951c2-08af380703.zip/node_modules/tar/dist/esm/cwd-error.js"() { - CwdError = class extends Error { - path; - code; - syscall = "chdir"; - constructor(path16, code2) { - super(`${code2}: Cannot cd into '${path16}'`); - this.path = path16; - this.code = code2; - } - get name() { - return "CwdError"; - } - }; - } -}); - -// .yarn/cache/tar-npm-7.5.6-955ec951c2-08af380703.zip/node_modules/tar/dist/esm/symlink-error.js -var SymlinkError; -var init_symlink_error = __esm({ - ".yarn/cache/tar-npm-7.5.6-955ec951c2-08af380703.zip/node_modules/tar/dist/esm/symlink-error.js"() { - SymlinkError = class extends Error { - path; - symlink; - syscall = "symlink"; - code = "TAR_SYMLINK_ERROR"; - constructor(symlink, path16) { - super("TAR_SYMLINK_ERROR: Cannot extract through symbolic link"); - this.symlink = symlink; - this.path = path16; - } - get name() { - return "SymlinkError"; - } - }; - } -}); - -// .yarn/cache/tar-npm-7.5.6-955ec951c2-08af380703.zip/node_modules/tar/dist/esm/mkdir.js -var import_node_fs3, import_promises, import_node_path4, checkCwd, mkdir, mkdir_, onmkdir, checkCwdSync, mkdirSync2; -var init_mkdir = __esm({ - ".yarn/cache/tar-npm-7.5.6-955ec951c2-08af380703.zip/node_modules/tar/dist/esm/mkdir.js"() { - init_esm4(); - import_node_fs3 = __toESM(require("node:fs"), 1); - import_promises = __toESM(require("node:fs/promises"), 1); - import_node_path4 = __toESM(require("node:path"), 1); - init_cwd_error(); - init_normalize_windows_path(); - init_symlink_error(); - checkCwd = (dir, cb) => { - import_node_fs3.default.stat(dir, (er, st) => { - if (er || !st.isDirectory()) { - er = new CwdError(dir, er?.code || "ENOTDIR"); - } - cb(er); - }); - }; - mkdir = (dir, opt, cb) => { - dir = normalizeWindowsPath(dir); - const umask = opt.umask ?? 18; - const mode = opt.mode | 448; - const needChmod = (mode & umask) !== 0; - const uid = opt.uid; - const gid = opt.gid; - const doChown = typeof uid === "number" && typeof gid === "number" && (uid !== opt.processUid || gid !== opt.processGid); - const preserve = opt.preserve; - const unlink = opt.unlink; - const cwd = normalizeWindowsPath(opt.cwd); - const done = (er, created) => { - if (er) { - cb(er); - } else { - if (created && doChown) { - chownr(created, uid, gid, (er2) => done(er2)); - } else if (needChmod) { - import_node_fs3.default.chmod(dir, mode, cb); - } else { - cb(); - } - } - }; - if (dir === cwd) { - return checkCwd(dir, done); - } - if (preserve) { - return import_promises.default.mkdir(dir, { mode, recursive: true }).then( - (made) => done(null, made ?? void 0), - // oh, ts - done - ); - } - const sub = normalizeWindowsPath(import_node_path4.default.relative(cwd, dir)); - const parts = sub.split("/"); - mkdir_(cwd, parts, mode, unlink, cwd, void 0, done); - }; - mkdir_ = (base, parts, mode, unlink, cwd, created, cb) => { - if (!parts.length) { - return cb(null, created); - } - const p = parts.shift(); - const part = normalizeWindowsPath(import_node_path4.default.resolve(base + "/" + p)); - import_node_fs3.default.mkdir(part, mode, onmkdir(part, parts, mode, unlink, cwd, created, cb)); - }; - onmkdir = (part, parts, mode, unlink, cwd, created, cb) => (er) => { - if (er) { - import_node_fs3.default.lstat(part, (statEr, st) => { - if (statEr) { - statEr.path = statEr.path && normalizeWindowsPath(statEr.path); - cb(statEr); - } else if (st.isDirectory()) { - mkdir_(part, parts, mode, unlink, cwd, created, cb); - } else if (unlink) { - import_node_fs3.default.unlink(part, (er2) => { - if (er2) { - return cb(er2); - } - import_node_fs3.default.mkdir(part, mode, onmkdir(part, parts, mode, unlink, cwd, created, cb)); - }); - } else if (st.isSymbolicLink()) { - return cb(new SymlinkError(part, part + "/" + parts.join("/"))); - } else { - cb(er); - } - }); - } else { - created = created || part; - mkdir_(part, parts, mode, unlink, cwd, created, cb); - } - }; - checkCwdSync = (dir) => { - let ok = false; - let code2 = void 0; - try { - ok = import_node_fs3.default.statSync(dir).isDirectory(); - } catch (er) { - code2 = er?.code; - } finally { - if (!ok) { - throw new CwdError(dir, code2 ?? "ENOTDIR"); - } - } - }; - mkdirSync2 = (dir, opt) => { - dir = normalizeWindowsPath(dir); - const umask = opt.umask ?? 18; - const mode = opt.mode | 448; - const needChmod = (mode & umask) !== 0; - const uid = opt.uid; - const gid = opt.gid; - const doChown = typeof uid === "number" && typeof gid === "number" && (uid !== opt.processUid || gid !== opt.processGid); - const preserve = opt.preserve; - const unlink = opt.unlink; - const cwd = normalizeWindowsPath(opt.cwd); - const done = (created2) => { - if (created2 && doChown) { - chownrSync(created2, uid, gid); - } - if (needChmod) { - import_node_fs3.default.chmodSync(dir, mode); - } - }; - if (dir === cwd) { - checkCwdSync(cwd); - return done(); - } - if (preserve) { - return done(import_node_fs3.default.mkdirSync(dir, { mode, recursive: true }) ?? void 0); - } - const sub = normalizeWindowsPath(import_node_path4.default.relative(cwd, dir)); - const parts = sub.split("/"); - let created = void 0; - for (let p = parts.shift(), part = cwd; p && (part += "/" + p); p = parts.shift()) { - part = normalizeWindowsPath(import_node_path4.default.resolve(part)); - try { - import_node_fs3.default.mkdirSync(part, mode); - created = created || part; - } catch (er) { - const st = import_node_fs3.default.lstatSync(part); - if (st.isDirectory()) { - continue; - } else if (unlink) { - import_node_fs3.default.unlinkSync(part); - import_node_fs3.default.mkdirSync(part, mode); - created = created || part; - continue; - } else if (st.isSymbolicLink()) { - return new SymlinkError(part, part + "/" + parts.join("/")); - } - } - } - return done(created); - }; - } -}); - -// .yarn/cache/tar-npm-7.5.6-955ec951c2-08af380703.zip/node_modules/tar/dist/esm/strip-absolute-path.js -var import_node_path5, isAbsolute, parse3, stripAbsolutePath; -var init_strip_absolute_path = __esm({ - ".yarn/cache/tar-npm-7.5.6-955ec951c2-08af380703.zip/node_modules/tar/dist/esm/strip-absolute-path.js"() { - import_node_path5 = require("node:path"); - ({ isAbsolute, parse: parse3 } = import_node_path5.win32); - stripAbsolutePath = (path16) => { - let r = ""; - let parsed = parse3(path16); - while (isAbsolute(path16) || parsed.root) { - const root = path16.charAt(0) === "/" && path16.slice(0, 4) !== "//?/" ? "/" : parsed.root; - path16 = path16.slice(root.length); - r += root; - parsed = parse3(path16); - } - return [r, path16]; - }; - } -}); - -// .yarn/cache/tar-npm-7.5.6-955ec951c2-08af380703.zip/node_modules/tar/dist/esm/winchars.js -var raw, win, toWin, toRaw, encode2, decode; -var init_winchars = __esm({ - ".yarn/cache/tar-npm-7.5.6-955ec951c2-08af380703.zip/node_modules/tar/dist/esm/winchars.js"() { - raw = ["|", "<", ">", "?", ":"]; - win = raw.map((char) => String.fromCharCode(61440 + char.charCodeAt(0))); - toWin = new Map(raw.map((char, i) => [char, win[i]])); - toRaw = new Map(win.map((char, i) => [char, raw[i]])); - encode2 = (s) => raw.reduce((s2, c) => s2.split(c).join(toWin.get(c)), s); - decode = (s) => win.reduce((s2, c) => s2.split(c).join(toRaw.get(c)), s); - } -}); - -// .yarn/cache/tar-npm-7.5.6-955ec951c2-08af380703.zip/node_modules/tar/dist/esm/normalize-unicode.js -var normalizeCache, MAX, cache, normalizeUnicode; -var init_normalize_unicode = __esm({ - ".yarn/cache/tar-npm-7.5.6-955ec951c2-08af380703.zip/node_modules/tar/dist/esm/normalize-unicode.js"() { - normalizeCache = /* @__PURE__ */ Object.create(null); - MAX = 1e4; - cache = /* @__PURE__ */ new Set(); - normalizeUnicode = (s) => { - if (!cache.has(s)) { - normalizeCache[s] = s.normalize("NFD").toLocaleLowerCase("en").toLocaleUpperCase("en"); - } else { - cache.delete(s); - } - cache.add(s); - const ret = normalizeCache[s]; - let i = cache.size - MAX; - if (i > MAX / 10) { - for (const s2 of cache) { - cache.delete(s2); - delete normalizeCache[s2]; - if (--i <= 0) - break; - } - } - return ret; - }; - } -}); - -// .yarn/cache/tar-npm-7.5.6-955ec951c2-08af380703.zip/node_modules/tar/dist/esm/path-reservations.js -var import_node_path6, platform3, isWindows2, getDirs, PathReservations; -var init_path_reservations = __esm({ - ".yarn/cache/tar-npm-7.5.6-955ec951c2-08af380703.zip/node_modules/tar/dist/esm/path-reservations.js"() { - import_node_path6 = require("node:path"); - init_normalize_unicode(); - init_strip_trailing_slashes(); - platform3 = process.env.TESTING_TAR_FAKE_PLATFORM || process.platform; - isWindows2 = platform3 === "win32"; - getDirs = (path16) => { - const dirs = path16.split("/").slice(0, -1).reduce((set, path17) => { - const s = set[set.length - 1]; - if (s !== void 0) { - path17 = (0, import_node_path6.join)(s, path17); - } - set.push(path17 || "/"); - return set; - }, []); - return dirs; - }; - PathReservations = class { - // path => [function or Set] - // A Set object means a directory reservation - // A fn is a direct reservation on that path - #queues = /* @__PURE__ */ new Map(); - // fn => {paths:[path,...], dirs:[path, ...]} - #reservations = /* @__PURE__ */ new Map(); - // functions currently running - #running = /* @__PURE__ */ new Set(); - reserve(paths, fn2) { - paths = isWindows2 ? ["win32 parallelization disabled"] : paths.map((p) => { - return stripTrailingSlashes((0, import_node_path6.join)(normalizeUnicode(p))); - }); - const dirs = new Set(paths.map((path16) => getDirs(path16)).reduce((a, b) => a.concat(b))); - this.#reservations.set(fn2, { dirs, paths }); - for (const p of paths) { - const q = this.#queues.get(p); - if (!q) { - this.#queues.set(p, [fn2]); - } else { - q.push(fn2); - } - } - for (const dir of dirs) { - const q = this.#queues.get(dir); - if (!q) { - this.#queues.set(dir, [/* @__PURE__ */ new Set([fn2])]); - } else { - const l = q[q.length - 1]; - if (l instanceof Set) { - l.add(fn2); - } else { - q.push(/* @__PURE__ */ new Set([fn2])); - } - } - } - return this.#run(fn2); - } - // return the queues for each path the function cares about - // fn => {paths, dirs} - #getQueues(fn2) { - const res = this.#reservations.get(fn2); - if (!res) { - throw new Error("function does not have any path reservations"); - } - return { - paths: res.paths.map((path16) => this.#queues.get(path16)), - dirs: [...res.dirs].map((path16) => this.#queues.get(path16)) - }; - } - // check if fn is first in line for all its paths, and is - // included in the first set for all its dir queues - check(fn2) { - const { paths, dirs } = this.#getQueues(fn2); - return paths.every((q) => q && q[0] === fn2) && dirs.every((q) => q && q[0] instanceof Set && q[0].has(fn2)); - } - // run the function if it's first in line and not already running - #run(fn2) { - if (this.#running.has(fn2) || !this.check(fn2)) { - return false; - } - this.#running.add(fn2); - fn2(() => this.#clear(fn2)); - return true; - } - #clear(fn2) { - if (!this.#running.has(fn2)) { - return false; - } - const res = this.#reservations.get(fn2); - if (!res) { - throw new Error("invalid reservation"); - } - const { paths, dirs } = res; - const next = /* @__PURE__ */ new Set(); - for (const path16 of paths) { - const q = this.#queues.get(path16); - if (!q || q?.[0] !== fn2) { - continue; - } - const q0 = q[1]; - if (!q0) { - this.#queues.delete(path16); - continue; - } - q.shift(); - if (typeof q0 === "function") { - next.add(q0); - } else { - for (const f of q0) { - next.add(f); - } - } - } - for (const dir of dirs) { - const q = this.#queues.get(dir); - const q0 = q?.[0]; - if (!q || !(q0 instanceof Set)) - continue; - if (q0.size === 1 && q.length === 1) { - this.#queues.delete(dir); - continue; - } else if (q0.size === 1) { - q.shift(); - const n = q[0]; - if (typeof n === "function") { - next.add(n); - } - } else { - q0.delete(fn2); - } - } - this.#running.delete(fn2); - next.forEach((fn3) => this.#run(fn3)); - return true; - } - }; - } -}); - -// .yarn/cache/tar-npm-7.5.6-955ec951c2-08af380703.zip/node_modules/tar/dist/esm/unpack.js -var import_node_assert, import_node_crypto, import_node_fs4, import_node_path7, ONENTRY, CHECKFS, CHECKFS2, ISREUSABLE, MAKEFS, FILE, DIRECTORY, LINK, SYMLINK, HARDLINK, UNSUPPORTED, CHECKPATH, STRIPABSOLUTEPATH, MKDIR, ONERROR, PENDING, PEND, UNPEND, ENDED2, MAYBECLOSE, SKIP, DOCHOWN, UID, GID, CHECKED_CWD, platform4, isWindows3, DEFAULT_MAX_DEPTH, unlinkFile, unlinkFileSync, uint32, Unpack, callSync, UnpackSync; -var init_unpack = __esm({ - ".yarn/cache/tar-npm-7.5.6-955ec951c2-08af380703.zip/node_modules/tar/dist/esm/unpack.js"() { - init_esm2(); - import_node_assert = __toESM(require("node:assert"), 1); - import_node_crypto = require("node:crypto"); - import_node_fs4 = __toESM(require("node:fs"), 1); - import_node_path7 = __toESM(require("node:path"), 1); - init_get_write_flag(); - init_mkdir(); - init_normalize_windows_path(); - init_parse(); - init_strip_absolute_path(); - init_winchars(); - init_path_reservations(); - ONENTRY = Symbol("onEntry"); - CHECKFS = Symbol("checkFs"); - CHECKFS2 = Symbol("checkFs2"); - ISREUSABLE = Symbol("isReusable"); - MAKEFS = Symbol("makeFs"); - FILE = Symbol("file"); - DIRECTORY = Symbol("directory"); - LINK = Symbol("link"); - SYMLINK = Symbol("symlink"); - HARDLINK = Symbol("hardlink"); - UNSUPPORTED = Symbol("unsupported"); - CHECKPATH = Symbol("checkPath"); - STRIPABSOLUTEPATH = Symbol("stripAbsolutePath"); - MKDIR = Symbol("mkdir"); - ONERROR = Symbol("onError"); - PENDING = Symbol("pending"); - PEND = Symbol("pend"); - UNPEND = Symbol("unpend"); - ENDED2 = Symbol("ended"); - MAYBECLOSE = Symbol("maybeClose"); - SKIP = Symbol("skip"); - DOCHOWN = Symbol("doChown"); - UID = Symbol("uid"); - GID = Symbol("gid"); - CHECKED_CWD = Symbol("checkedCwd"); - platform4 = process.env.TESTING_TAR_FAKE_PLATFORM || process.platform; - isWindows3 = platform4 === "win32"; - DEFAULT_MAX_DEPTH = 1024; - unlinkFile = (path16, cb) => { - if (!isWindows3) { - return import_node_fs4.default.unlink(path16, cb); - } - const name2 = path16 + ".DELETE." + (0, import_node_crypto.randomBytes)(16).toString("hex"); - import_node_fs4.default.rename(path16, name2, (er) => { - if (er) { - return cb(er); - } - import_node_fs4.default.unlink(name2, cb); - }); - }; - unlinkFileSync = (path16) => { - if (!isWindows3) { - return import_node_fs4.default.unlinkSync(path16); - } - const name2 = path16 + ".DELETE." + (0, import_node_crypto.randomBytes)(16).toString("hex"); - import_node_fs4.default.renameSync(path16, name2); - import_node_fs4.default.unlinkSync(name2); - }; - uint32 = (a, b, c) => a !== void 0 && a === a >>> 0 ? a : b !== void 0 && b === b >>> 0 ? b : c; - Unpack = class extends Parser { - [ENDED2] = false; - [CHECKED_CWD] = false; - [PENDING] = 0; - reservations = new PathReservations(); - transform; - writable = true; - readable = false; - uid; - gid; - setOwner; - preserveOwner; - processGid; - processUid; - maxDepth; - forceChown; - win32; - newer; - keep; - noMtime; - preservePaths; - unlink; - cwd; - strip; - processUmask; - umask; - dmode; - fmode; - chmod; - constructor(opt = {}) { - opt.ondone = () => { - this[ENDED2] = true; - this[MAYBECLOSE](); - }; - super(opt); - this.transform = opt.transform; - this.chmod = !!opt.chmod; - if (typeof opt.uid === "number" || typeof opt.gid === "number") { - if (typeof opt.uid !== "number" || typeof opt.gid !== "number") { - throw new TypeError("cannot set owner without number uid and gid"); - } - if (opt.preserveOwner) { - throw new TypeError("cannot preserve owner in archive and also set owner explicitly"); - } - this.uid = opt.uid; - this.gid = opt.gid; - this.setOwner = true; - } else { - this.uid = void 0; - this.gid = void 0; - this.setOwner = false; - } - if (opt.preserveOwner === void 0 && typeof opt.uid !== "number") { - this.preserveOwner = !!(process.getuid && process.getuid() === 0); - } else { - this.preserveOwner = !!opt.preserveOwner; - } - this.processUid = (this.preserveOwner || this.setOwner) && process.getuid ? process.getuid() : void 0; - this.processGid = (this.preserveOwner || this.setOwner) && process.getgid ? process.getgid() : void 0; - this.maxDepth = typeof opt.maxDepth === "number" ? opt.maxDepth : DEFAULT_MAX_DEPTH; - this.forceChown = opt.forceChown === true; - this.win32 = !!opt.win32 || isWindows3; - this.newer = !!opt.newer; - this.keep = !!opt.keep; - this.noMtime = !!opt.noMtime; - this.preservePaths = !!opt.preservePaths; - this.unlink = !!opt.unlink; - this.cwd = normalizeWindowsPath(import_node_path7.default.resolve(opt.cwd || process.cwd())); - this.strip = Number(opt.strip) || 0; - this.processUmask = !this.chmod ? 0 : typeof opt.processUmask === "number" ? opt.processUmask : process.umask(); - this.umask = typeof opt.umask === "number" ? opt.umask : this.processUmask; - this.dmode = opt.dmode || 511 & ~this.umask; - this.fmode = opt.fmode || 438 & ~this.umask; - this.on("entry", (entry) => this[ONENTRY](entry)); - } - // a bad or damaged archive is a warning for Parser, but an error - // when extracting. Mark those errors as unrecoverable, because - // the Unpack contract cannot be met. - warn(code2, msg, data = {}) { - if (code2 === "TAR_BAD_ARCHIVE" || code2 === "TAR_ABORT") { - data.recoverable = false; - } - return super.warn(code2, msg, data); - } - [MAYBECLOSE]() { - if (this[ENDED2] && this[PENDING] === 0) { - this.emit("prefinish"); - this.emit("finish"); - this.emit("end"); - } - } - // return false if we need to skip this file - // return true if the field was successfully sanitized - [STRIPABSOLUTEPATH](entry, field) { - const p = entry[field]; - if (!p || this.preservePaths) - return true; - const parts = p.split("/"); - if (parts.includes("..") || /* c8 ignore next */ - isWindows3 && /^[a-z]:\.\.$/i.test(parts[0] ?? "")) { - if (field === "path") { - this.warn("TAR_ENTRY_ERROR", `${field} contains '..'`, { - entry, - [field]: p - }); - return false; - } else { - const entryDir = import_node_path7.default.posix.dirname(entry.path); - const resolved = import_node_path7.default.posix.normalize(import_node_path7.default.posix.join(entryDir, p)); - if (resolved.startsWith("../") || resolved === "..") { - this.warn("TAR_ENTRY_ERROR", `${field} escapes extraction directory`, { - entry, - [field]: p - }); - return false; - } - } - } - const [root, stripped] = stripAbsolutePath(p); - if (root) { - entry[field] = String(stripped); - this.warn("TAR_ENTRY_INFO", `stripping ${root} from absolute ${field}`, { - entry, - [field]: p - }); - } - return true; - } - [CHECKPATH](entry) { - const p = normalizeWindowsPath(entry.path); - const parts = p.split("/"); - if (this.strip) { - if (parts.length < this.strip) { - return false; - } - if (entry.type === "Link") { - const linkparts = normalizeWindowsPath(String(entry.linkpath)).split("/"); - if (linkparts.length >= this.strip) { - entry.linkpath = linkparts.slice(this.strip).join("/"); - } else { - return false; - } - } - parts.splice(0, this.strip); - entry.path = parts.join("/"); - } - if (isFinite(this.maxDepth) && parts.length > this.maxDepth) { - this.warn("TAR_ENTRY_ERROR", "path excessively deep", { - entry, - path: p, - depth: parts.length, - maxDepth: this.maxDepth - }); - return false; - } - if (!this[STRIPABSOLUTEPATH](entry, "path") || !this[STRIPABSOLUTEPATH](entry, "linkpath")) { - return false; - } - if (import_node_path7.default.isAbsolute(entry.path)) { - entry.absolute = normalizeWindowsPath(import_node_path7.default.resolve(entry.path)); - } else { - entry.absolute = normalizeWindowsPath(import_node_path7.default.resolve(this.cwd, entry.path)); - } - if (!this.preservePaths && typeof entry.absolute === "string" && entry.absolute.indexOf(this.cwd + "/") !== 0 && entry.absolute !== this.cwd) { - this.warn("TAR_ENTRY_ERROR", "path escaped extraction target", { - entry, - path: normalizeWindowsPath(entry.path), - resolvedPath: entry.absolute, - cwd: this.cwd - }); - return false; - } - if (entry.absolute === this.cwd && entry.type !== "Directory" && entry.type !== "GNUDumpDir") { - return false; - } - if (this.win32) { - const { root: aRoot } = import_node_path7.default.win32.parse(String(entry.absolute)); - entry.absolute = aRoot + encode2(String(entry.absolute).slice(aRoot.length)); - const { root: pRoot } = import_node_path7.default.win32.parse(entry.path); - entry.path = pRoot + encode2(entry.path.slice(pRoot.length)); - } - return true; - } - [ONENTRY](entry) { - if (!this[CHECKPATH](entry)) { - return entry.resume(); - } - import_node_assert.default.equal(typeof entry.absolute, "string"); - switch (entry.type) { - case "Directory": - case "GNUDumpDir": - if (entry.mode) { - entry.mode = entry.mode | 448; - } - // eslint-disable-next-line no-fallthrough - case "File": - case "OldFile": - case "ContiguousFile": - case "Link": - case "SymbolicLink": - return this[CHECKFS](entry); - case "CharacterDevice": - case "BlockDevice": - case "FIFO": - default: - return this[UNSUPPORTED](entry); - } - } - [ONERROR](er, entry) { - if (er.name === "CwdError") { - this.emit("error", er); - } else { - this.warn("TAR_ENTRY_ERROR", er, { entry }); - this[UNPEND](); - entry.resume(); - } - } - [MKDIR](dir, mode, cb) { - mkdir(normalizeWindowsPath(dir), { - uid: this.uid, - gid: this.gid, - processUid: this.processUid, - processGid: this.processGid, - umask: this.processUmask, - preserve: this.preservePaths, - unlink: this.unlink, - cwd: this.cwd, - mode - }, cb); - } - [DOCHOWN](entry) { - return this.forceChown || this.preserveOwner && (typeof entry.uid === "number" && entry.uid !== this.processUid || typeof entry.gid === "number" && entry.gid !== this.processGid) || typeof this.uid === "number" && this.uid !== this.processUid || typeof this.gid === "number" && this.gid !== this.processGid; - } - [UID](entry) { - return uint32(this.uid, entry.uid, this.processUid); - } - [GID](entry) { - return uint32(this.gid, entry.gid, this.processGid); - } - [FILE](entry, fullyDone) { - const mode = typeof entry.mode === "number" ? entry.mode & 4095 : this.fmode; - const stream = new WriteStream(String(entry.absolute), { - // slight lie, but it can be numeric flags - flags: getWriteFlag(entry.size), - mode, - autoClose: false - }); - stream.on("error", (er) => { - if (stream.fd) { - import_node_fs4.default.close(stream.fd, () => { - }); - } - stream.write = () => true; - this[ONERROR](er, entry); - fullyDone(); - }); - let actions = 1; - const done = (er) => { - if (er) { - if (stream.fd) { - import_node_fs4.default.close(stream.fd, () => { - }); - } - this[ONERROR](er, entry); - fullyDone(); - return; - } - if (--actions === 0) { - if (stream.fd !== void 0) { - import_node_fs4.default.close(stream.fd, (er2) => { - if (er2) { - this[ONERROR](er2, entry); - } else { - this[UNPEND](); - } - fullyDone(); - }); - } - } - }; - stream.on("finish", () => { - const abs = String(entry.absolute); - const fd = stream.fd; - if (typeof fd === "number" && entry.mtime && !this.noMtime) { - actions++; - const atime = entry.atime || /* @__PURE__ */ new Date(); - const mtime = entry.mtime; - import_node_fs4.default.futimes(fd, atime, mtime, (er) => er ? import_node_fs4.default.utimes(abs, atime, mtime, (er2) => done(er2 && er)) : done()); - } - if (typeof fd === "number" && this[DOCHOWN](entry)) { - actions++; - const uid = this[UID](entry); - const gid = this[GID](entry); - if (typeof uid === "number" && typeof gid === "number") { - import_node_fs4.default.fchown(fd, uid, gid, (er) => er ? import_node_fs4.default.chown(abs, uid, gid, (er2) => done(er2 && er)) : done()); - } - } - done(); - }); - const tx = this.transform ? this.transform(entry) || entry : entry; - if (tx !== entry) { - tx.on("error", (er) => { - this[ONERROR](er, entry); - fullyDone(); - }); - entry.pipe(tx); - } - tx.pipe(stream); - } - [DIRECTORY](entry, fullyDone) { - const mode = typeof entry.mode === "number" ? entry.mode & 4095 : this.dmode; - this[MKDIR](String(entry.absolute), mode, (er) => { - if (er) { - this[ONERROR](er, entry); - fullyDone(); - return; - } - let actions = 1; - const done = () => { - if (--actions === 0) { - fullyDone(); - this[UNPEND](); - entry.resume(); - } - }; - if (entry.mtime && !this.noMtime) { - actions++; - import_node_fs4.default.utimes(String(entry.absolute), entry.atime || /* @__PURE__ */ new Date(), entry.mtime, done); - } - if (this[DOCHOWN](entry)) { - actions++; - import_node_fs4.default.chown(String(entry.absolute), Number(this[UID](entry)), Number(this[GID](entry)), done); - } - done(); - }); - } - [UNSUPPORTED](entry) { - entry.unsupported = true; - this.warn("TAR_ENTRY_UNSUPPORTED", `unsupported entry type: ${entry.type}`, { entry }); - entry.resume(); - } - [SYMLINK](entry, done) { - this[LINK](entry, String(entry.linkpath), "symlink", done); - } - [HARDLINK](entry, done) { - const linkpath = normalizeWindowsPath(import_node_path7.default.resolve(this.cwd, String(entry.linkpath))); - this[LINK](entry, linkpath, "link", done); - } - [PEND]() { - this[PENDING]++; - } - [UNPEND]() { - this[PENDING]--; - this[MAYBECLOSE](); - } - [SKIP](entry) { - this[UNPEND](); - entry.resume(); - } - // Check if we can reuse an existing filesystem entry safely and - // overwrite it, rather than unlinking and recreating - // Windows doesn't report a useful nlink, so we just never reuse entries - [ISREUSABLE](entry, st) { - return entry.type === "File" && !this.unlink && st.isFile() && st.nlink <= 1 && !isWindows3; - } - // check if a thing is there, and if so, try to clobber it - [CHECKFS](entry) { - this[PEND](); - const paths = [entry.path]; - if (entry.linkpath) { - paths.push(entry.linkpath); - } - this.reservations.reserve(paths, (done) => this[CHECKFS2](entry, done)); - } - [CHECKFS2](entry, fullyDone) { - const done = (er) => { - fullyDone(er); - }; - const checkCwd2 = () => { - this[MKDIR](this.cwd, this.dmode, (er) => { - if (er) { - this[ONERROR](er, entry); - done(); - return; - } - this[CHECKED_CWD] = true; - start(); - }); - }; - const start = () => { - if (entry.absolute !== this.cwd) { - const parent = normalizeWindowsPath(import_node_path7.default.dirname(String(entry.absolute))); - if (parent !== this.cwd) { - return this[MKDIR](parent, this.dmode, (er) => { - if (er) { - this[ONERROR](er, entry); - done(); - return; - } - afterMakeParent(); - }); - } - } - afterMakeParent(); - }; - const afterMakeParent = () => { - import_node_fs4.default.lstat(String(entry.absolute), (lstatEr, st) => { - if (st && (this.keep || /* c8 ignore next */ - this.newer && st.mtime > (entry.mtime ?? st.mtime))) { - this[SKIP](entry); - done(); - return; - } - if (lstatEr || this[ISREUSABLE](entry, st)) { - return this[MAKEFS](null, entry, done); - } - if (st.isDirectory()) { - if (entry.type === "Directory") { - const needChmod = this.chmod && entry.mode && (st.mode & 4095) !== entry.mode; - const afterChmod = (er) => this[MAKEFS](er ?? null, entry, done); - if (!needChmod) { - return afterChmod(); - } - return import_node_fs4.default.chmod(String(entry.absolute), Number(entry.mode), afterChmod); - } - if (entry.absolute !== this.cwd) { - return import_node_fs4.default.rmdir(String(entry.absolute), (er) => this[MAKEFS](er ?? null, entry, done)); - } - } - if (entry.absolute === this.cwd) { - return this[MAKEFS](null, entry, done); - } - unlinkFile(String(entry.absolute), (er) => this[MAKEFS](er ?? null, entry, done)); - }); - }; - if (this[CHECKED_CWD]) { - start(); - } else { - checkCwd2(); - } - } - [MAKEFS](er, entry, done) { - if (er) { - this[ONERROR](er, entry); - done(); - return; - } - switch (entry.type) { - case "File": - case "OldFile": - case "ContiguousFile": - return this[FILE](entry, done); - case "Link": - return this[HARDLINK](entry, done); - case "SymbolicLink": - return this[SYMLINK](entry, done); - case "Directory": - case "GNUDumpDir": - return this[DIRECTORY](entry, done); - } - } - [LINK](entry, linkpath, link, done) { - import_node_fs4.default[link](linkpath, String(entry.absolute), (er) => { - if (er) { - this[ONERROR](er, entry); - } else { - this[UNPEND](); - entry.resume(); - } - done(); - }); - } - }; - callSync = (fn2) => { - try { - return [null, fn2()]; - } catch (er) { - return [er, null]; - } - }; - UnpackSync = class extends Unpack { - sync = true; - [MAKEFS](er, entry) { - return super[MAKEFS](er, entry, () => { - }); - } - [CHECKFS](entry) { - if (!this[CHECKED_CWD]) { - const er2 = this[MKDIR](this.cwd, this.dmode); - if (er2) { - return this[ONERROR](er2, entry); - } - this[CHECKED_CWD] = true; - } - if (entry.absolute !== this.cwd) { - const parent = normalizeWindowsPath(import_node_path7.default.dirname(String(entry.absolute))); - if (parent !== this.cwd) { - const mkParent = this[MKDIR](parent, this.dmode); - if (mkParent) { - return this[ONERROR](mkParent, entry); - } - } - } - const [lstatEr, st] = callSync(() => import_node_fs4.default.lstatSync(String(entry.absolute))); - if (st && (this.keep || /* c8 ignore next */ - this.newer && st.mtime > (entry.mtime ?? st.mtime))) { - return this[SKIP](entry); - } - if (lstatEr || this[ISREUSABLE](entry, st)) { - return this[MAKEFS](null, entry); - } - if (st.isDirectory()) { - if (entry.type === "Directory") { - const needChmod = this.chmod && entry.mode && (st.mode & 4095) !== entry.mode; - const [er3] = needChmod ? callSync(() => { - import_node_fs4.default.chmodSync(String(entry.absolute), Number(entry.mode)); - }) : []; - return this[MAKEFS](er3, entry); - } - const [er2] = callSync(() => import_node_fs4.default.rmdirSync(String(entry.absolute))); - this[MAKEFS](er2, entry); - } - const [er] = entry.absolute === this.cwd ? [] : callSync(() => unlinkFileSync(String(entry.absolute))); - this[MAKEFS](er, entry); - } - [FILE](entry, done) { - const mode = typeof entry.mode === "number" ? entry.mode & 4095 : this.fmode; - const oner = (er) => { - let closeError; - try { - import_node_fs4.default.closeSync(fd); - } catch (e) { - closeError = e; - } - if (er || closeError) { - this[ONERROR](er || closeError, entry); - } - done(); - }; - let fd; - try { - fd = import_node_fs4.default.openSync(String(entry.absolute), getWriteFlag(entry.size), mode); - } catch (er) { - return oner(er); - } - const tx = this.transform ? this.transform(entry) || entry : entry; - if (tx !== entry) { - tx.on("error", (er) => this[ONERROR](er, entry)); - entry.pipe(tx); - } - tx.on("data", (chunk) => { - try { - import_node_fs4.default.writeSync(fd, chunk, 0, chunk.length); - } catch (er) { - oner(er); - } - }); - tx.on("end", () => { - let er = null; - if (entry.mtime && !this.noMtime) { - const atime = entry.atime || /* @__PURE__ */ new Date(); - const mtime = entry.mtime; - try { - import_node_fs4.default.futimesSync(fd, atime, mtime); - } catch (futimeser) { - try { - import_node_fs4.default.utimesSync(String(entry.absolute), atime, mtime); - } catch (utimeser) { - er = futimeser; - } - } - } - if (this[DOCHOWN](entry)) { - const uid = this[UID](entry); - const gid = this[GID](entry); - try { - import_node_fs4.default.fchownSync(fd, Number(uid), Number(gid)); - } catch (fchowner) { - try { - import_node_fs4.default.chownSync(String(entry.absolute), Number(uid), Number(gid)); - } catch (chowner) { - er = er || fchowner; - } - } - } - oner(er); - }); - } - [DIRECTORY](entry, done) { - const mode = typeof entry.mode === "number" ? entry.mode & 4095 : this.dmode; - const er = this[MKDIR](String(entry.absolute), mode); - if (er) { - this[ONERROR](er, entry); - done(); - return; - } - if (entry.mtime && !this.noMtime) { - try { - import_node_fs4.default.utimesSync(String(entry.absolute), entry.atime || /* @__PURE__ */ new Date(), entry.mtime); - } catch (er2) { - } - } - if (this[DOCHOWN](entry)) { - try { - import_node_fs4.default.chownSync(String(entry.absolute), Number(this[UID](entry)), Number(this[GID](entry))); - } catch (er2) { - } - } - done(); - entry.resume(); - } - [MKDIR](dir, mode) { - try { - return mkdirSync2(normalizeWindowsPath(dir), { - uid: this.uid, - gid: this.gid, - processUid: this.processUid, - processGid: this.processGid, - umask: this.processUmask, - preserve: this.preservePaths, - unlink: this.unlink, - cwd: this.cwd, - mode - }); - } catch (er) { - return er; - } - } - [LINK](entry, linkpath, link, done) { - const ls = `${link}Sync`; - try { - import_node_fs4.default[ls](linkpath, String(entry.absolute)); - done(); - entry.resume(); - } catch (er) { - return this[ONERROR](er, entry); - } - } - }; - } -}); - -// .yarn/cache/tar-npm-7.5.6-955ec951c2-08af380703.zip/node_modules/tar/dist/esm/extract.js -var extract_exports = {}; -__export(extract_exports, { - extract: () => extract -}); -var import_node_fs5, extractFileSync, extractFile, extract; -var init_extract = __esm({ - ".yarn/cache/tar-npm-7.5.6-955ec951c2-08af380703.zip/node_modules/tar/dist/esm/extract.js"() { - init_esm2(); - import_node_fs5 = __toESM(require("node:fs"), 1); - init_list(); - init_make_command(); - init_unpack(); - extractFileSync = (opt) => { - const u = new UnpackSync(opt); - const file = opt.file; - const stat = import_node_fs5.default.statSync(file); - const readSize = opt.maxReadSize || 16 * 1024 * 1024; - const stream = new ReadStreamSync(file, { - readSize, - size: stat.size - }); - stream.pipe(u); - }; - extractFile = (opt, _) => { - const u = new Unpack(opt); - const readSize = opt.maxReadSize || 16 * 1024 * 1024; - const file = opt.file; - const p = new Promise((resolve, reject) => { - u.on("error", reject); - u.on("close", resolve); - import_node_fs5.default.stat(file, (er, stat) => { - if (er) { - reject(er); - } else { - const stream = new ReadStream(file, { - readSize, - size: stat.size - }); - stream.on("error", reject); - stream.pipe(u); - } - }); - }); - return p; - }; - extract = makeCommand(extractFileSync, extractFile, (opt) => new UnpackSync(opt), (opt) => new Unpack(opt), (opt, files) => { - if (files?.length) - filesFilter(opt, files); - }); - } -}); - -// .yarn/cache/v8-compile-cache-npm-2.4.0-5979f8e405-3878511925.zip/node_modules/v8-compile-cache/v8-compile-cache.js -var require_v8_compile_cache = __commonJS({ - ".yarn/cache/v8-compile-cache-npm-2.4.0-5979f8e405-3878511925.zip/node_modules/v8-compile-cache/v8-compile-cache.js"(exports2, module2) { - "use strict"; - var Module2 = require("module"); - var crypto = require("crypto"); - var fs17 = require("fs"); - var path16 = require("path"); - var vm = require("vm"); - var os3 = require("os"); - var hasOwnProperty = Object.prototype.hasOwnProperty; - var FileSystemBlobStore = class { - constructor(directory, prefix) { - const name2 = prefix ? slashEscape(prefix + ".") : ""; - this._blobFilename = path16.join(directory, name2 + "BLOB"); - this._mapFilename = path16.join(directory, name2 + "MAP"); - this._lockFilename = path16.join(directory, name2 + "LOCK"); - this._directory = directory; - this._load(); - } - has(key, invalidationKey) { - if (hasOwnProperty.call(this._memoryBlobs, key)) { - return this._invalidationKeys[key] === invalidationKey; - } else if (hasOwnProperty.call(this._storedMap, key)) { - return this._storedMap[key][0] === invalidationKey; - } - return false; - } - get(key, invalidationKey) { - if (hasOwnProperty.call(this._memoryBlobs, key)) { - if (this._invalidationKeys[key] === invalidationKey) { - return this._memoryBlobs[key]; - } - } else if (hasOwnProperty.call(this._storedMap, key)) { - const mapping = this._storedMap[key]; - if (mapping[0] === invalidationKey) { - return this._storedBlob.slice(mapping[1], mapping[2]); - } - } - } - set(key, invalidationKey, buffer) { - this._invalidationKeys[key] = invalidationKey; - this._memoryBlobs[key] = buffer; - this._dirty = true; - } - delete(key) { - if (hasOwnProperty.call(this._memoryBlobs, key)) { - this._dirty = true; - delete this._memoryBlobs[key]; - } - if (hasOwnProperty.call(this._invalidationKeys, key)) { - this._dirty = true; - delete this._invalidationKeys[key]; - } - if (hasOwnProperty.call(this._storedMap, key)) { - this._dirty = true; - delete this._storedMap[key]; - } - } - isDirty() { - return this._dirty; - } - save() { - const dump = this._getDump(); - const blobToStore = Buffer.concat(dump[0]); - const mapToStore = JSON.stringify(dump[1]); - try { - mkdirpSync(this._directory); - fs17.writeFileSync(this._lockFilename, "LOCK", { flag: "wx" }); - } catch (error) { - return false; - } - try { - fs17.writeFileSync(this._blobFilename, blobToStore); - fs17.writeFileSync(this._mapFilename, mapToStore); - } finally { - fs17.unlinkSync(this._lockFilename); - } - return true; - } - _load() { - try { - this._storedBlob = fs17.readFileSync(this._blobFilename); - this._storedMap = JSON.parse(fs17.readFileSync(this._mapFilename)); - } catch (e) { - this._storedBlob = Buffer.alloc(0); - this._storedMap = {}; - } - this._dirty = false; - this._memoryBlobs = {}; - this._invalidationKeys = {}; - } - _getDump() { - const buffers = []; - const newMap = {}; - let offset = 0; - function push2(key, invalidationKey, buffer) { - buffers.push(buffer); - newMap[key] = [invalidationKey, offset, offset + buffer.length]; - offset += buffer.length; - } - for (const key of Object.keys(this._memoryBlobs)) { - const buffer = this._memoryBlobs[key]; - const invalidationKey = this._invalidationKeys[key]; - push2(key, invalidationKey, buffer); - } - for (const key of Object.keys(this._storedMap)) { - if (hasOwnProperty.call(newMap, key)) continue; - const mapping = this._storedMap[key]; - const buffer = this._storedBlob.slice(mapping[1], mapping[2]); - push2(key, mapping[0], buffer); - } - return [buffers, newMap]; - } - }; - var NativeCompileCache = class { - constructor() { - this._cacheStore = null; - this._previousModuleCompile = null; - } - setCacheStore(cacheStore) { - this._cacheStore = cacheStore; - } - install() { - const self2 = this; - const hasRequireResolvePaths = typeof require.resolve.paths === "function"; - this._previousModuleCompile = Module2.prototype._compile; - Module2.prototype._compile = function(content, filename) { - const mod = this; - function require2(id) { - return mod.require(id); - } - function resolve(request, options) { - return Module2._resolveFilename(request, mod, false, options); - } - require2.resolve = resolve; - if (hasRequireResolvePaths) { - resolve.paths = function paths(request) { - return Module2._resolveLookupPaths(request, mod, true); - }; - } - require2.main = process.mainModule; - require2.extensions = Module2._extensions; - require2.cache = Module2._cache; - const dirname2 = path16.dirname(filename); - const compiledWrapper = self2._moduleCompile(filename, content); - const args = [mod.exports, require2, mod, filename, dirname2, process, global, Buffer]; - return compiledWrapper.apply(mod.exports, args); - }; - } - uninstall() { - Module2.prototype._compile = this._previousModuleCompile; - } - _moduleCompile(filename, content) { - var contLen = content.length; - if (contLen >= 2) { - if (content.charCodeAt(0) === 35 && content.charCodeAt(1) === 33) { - if (contLen === 2) { - content = ""; - } else { - var i = 2; - for (; i < contLen; ++i) { - var code2 = content.charCodeAt(i); - if (code2 === 10 || code2 === 13) break; - } - if (i === contLen) { - content = ""; - } else { - content = content.slice(i); - } - } - } - } - var wrapper = Module2.wrap(content); - var invalidationKey = crypto.createHash("sha1").update(content, "utf8").digest("hex"); - var buffer = this._cacheStore.get(filename, invalidationKey); - var script = new vm.Script(wrapper, { - filename, - lineOffset: 0, - displayErrors: true, - cachedData: buffer, - produceCachedData: true - }); - if (script.cachedDataProduced) { - this._cacheStore.set(filename, invalidationKey, script.cachedData); - } else if (script.cachedDataRejected) { - this._cacheStore.delete(filename); - } - var compiledWrapper = script.runInThisContext({ - filename, - lineOffset: 0, - columnOffset: 0, - displayErrors: true - }); - return compiledWrapper; - } - }; - function mkdirpSync(p_) { - _mkdirpSync(path16.resolve(p_), 511); - } - function _mkdirpSync(p, mode) { - try { - fs17.mkdirSync(p, mode); - } catch (err0) { - if (err0.code === "ENOENT") { - _mkdirpSync(path16.dirname(p)); - _mkdirpSync(p); - } else { - try { - const stat = fs17.statSync(p); - if (!stat.isDirectory()) { - throw err0; - } - } catch (err1) { - throw err0; - } - } - } - } - function slashEscape(str) { - const ESCAPE_LOOKUP = { - "\\": "zB", - ":": "zC", - "/": "zS", - "\0": "z0", - "z": "zZ" - }; - const ESCAPE_REGEX = /[\\:/\x00z]/g; - return str.replace(ESCAPE_REGEX, (match) => ESCAPE_LOOKUP[match]); - } - function supportsCachedData() { - const script = new vm.Script('""', { produceCachedData: true }); - return script.cachedDataProduced === true; - } - function getCacheDir() { - const v8_compile_cache_cache_dir = process.env.V8_COMPILE_CACHE_CACHE_DIR; - if (v8_compile_cache_cache_dir) { - return v8_compile_cache_cache_dir; - } - const dirname2 = typeof process.getuid === "function" ? "v8-compile-cache-" + process.getuid() : "v8-compile-cache"; - const arch = process.arch; - const version2 = typeof process.versions.v8 === "string" ? process.versions.v8 : typeof process.versions.chakracore === "string" ? "chakracore-" + process.versions.chakracore : "node-" + process.version; - const cacheDir = path16.join(os3.tmpdir(), dirname2, arch, version2); - return cacheDir; - } - function getMainName() { - const mainName = require.main && typeof require.main.filename === "string" ? require.main.filename : process.cwd(); - return mainName; - } - if (!process.env.DISABLE_V8_COMPILE_CACHE && supportsCachedData()) { - const cacheDir = getCacheDir(); - const prefix = getMainName(); - const blobStore = new FileSystemBlobStore(cacheDir, prefix); - const nativeCompileCache = new NativeCompileCache(); - nativeCompileCache.setCacheStore(blobStore); - nativeCompileCache.install(); - process.once("exit", () => { - if (blobStore.isDirty()) { - blobStore.save(); - } - nativeCompileCache.uninstall(); - }); - } - module2.exports.__TEST__ = { - FileSystemBlobStore, - NativeCompileCache, - mkdirpSync, - slashEscape, - supportsCachedData, - getCacheDir, - getMainName - }; - } -}); - -// .yarn/cache/semver-npm-7.7.3-9cf7b3b46c-4afe5c9865.zip/node_modules/semver/functions/satisfies.js -var require_satisfies = __commonJS({ - ".yarn/cache/semver-npm-7.7.3-9cf7b3b46c-4afe5c9865.zip/node_modules/semver/functions/satisfies.js"(exports2, module2) { - "use strict"; - var Range3 = require_range(); - var satisfies = (version2, range, options) => { - try { - range = new Range3(range, options); - } catch (er) { - return false; - } - return range.test(version2); - }; - module2.exports = satisfies; - } -}); - -// .yarn/cache/isexe-npm-3.1.1-9c0061eead-9ec2576540.zip/node_modules/isexe/dist/cjs/posix.js -var require_posix = __commonJS({ - ".yarn/cache/isexe-npm-3.1.1-9c0061eead-9ec2576540.zip/node_modules/isexe/dist/cjs/posix.js"(exports2) { - "use strict"; - Object.defineProperty(exports2, "__esModule", { value: true }); - exports2.sync = exports2.isexe = void 0; - var fs_1 = require("fs"); - var promises_1 = require("fs/promises"); - var isexe = async (path16, options = {}) => { - const { ignoreErrors = false } = options; - try { - return checkStat(await (0, promises_1.stat)(path16), options); - } catch (e) { - const er = e; - if (ignoreErrors || er.code === "EACCES") - return false; - throw er; - } - }; - exports2.isexe = isexe; - var sync = (path16, options = {}) => { - const { ignoreErrors = false } = options; - try { - return checkStat((0, fs_1.statSync)(path16), options); - } catch (e) { - const er = e; - if (ignoreErrors || er.code === "EACCES") - return false; - throw er; - } - }; - exports2.sync = sync; - var checkStat = (stat, options) => stat.isFile() && checkMode(stat, options); - var checkMode = (stat, options) => { - const myUid = options.uid ?? process.getuid?.(); - const myGroups = options.groups ?? process.getgroups?.() ?? []; - const myGid = options.gid ?? process.getgid?.() ?? myGroups[0]; - if (myUid === void 0 || myGid === void 0) { - throw new Error("cannot get uid or gid"); - } - const groups = /* @__PURE__ */ new Set([myGid, ...myGroups]); - const mod = stat.mode; - const uid = stat.uid; - const gid = stat.gid; - const u = parseInt("100", 8); - const g = parseInt("010", 8); - const o = parseInt("001", 8); - const ug = u | g; - return !!(mod & o || mod & g && groups.has(gid) || mod & u && uid === myUid || mod & ug && myUid === 0); - }; - } -}); - -// .yarn/cache/isexe-npm-3.1.1-9c0061eead-9ec2576540.zip/node_modules/isexe/dist/cjs/win32.js -var require_win32 = __commonJS({ - ".yarn/cache/isexe-npm-3.1.1-9c0061eead-9ec2576540.zip/node_modules/isexe/dist/cjs/win32.js"(exports2) { - "use strict"; - Object.defineProperty(exports2, "__esModule", { value: true }); - exports2.sync = exports2.isexe = void 0; - var fs_1 = require("fs"); - var promises_1 = require("fs/promises"); - var isexe = async (path16, options = {}) => { - const { ignoreErrors = false } = options; - try { - return checkStat(await (0, promises_1.stat)(path16), path16, options); - } catch (e) { - const er = e; - if (ignoreErrors || er.code === "EACCES") - return false; - throw er; - } - }; - exports2.isexe = isexe; - var sync = (path16, options = {}) => { - const { ignoreErrors = false } = options; - try { - return checkStat((0, fs_1.statSync)(path16), path16, options); - } catch (e) { - const er = e; - if (ignoreErrors || er.code === "EACCES") - return false; - throw er; - } - }; - exports2.sync = sync; - var checkPathExt = (path16, options) => { - const { pathExt = process.env.PATHEXT || "" } = options; - const peSplit = pathExt.split(";"); - if (peSplit.indexOf("") !== -1) { - return true; - } - for (let i = 0; i < peSplit.length; i++) { - const p = peSplit[i].toLowerCase(); - const ext = path16.substring(path16.length - p.length).toLowerCase(); - if (p && ext === p) { - return true; - } - } - return false; - }; - var checkStat = (stat, path16, options) => stat.isFile() && checkPathExt(path16, options); - } -}); - -// .yarn/cache/isexe-npm-3.1.1-9c0061eead-9ec2576540.zip/node_modules/isexe/dist/cjs/options.js -var require_options = __commonJS({ - ".yarn/cache/isexe-npm-3.1.1-9c0061eead-9ec2576540.zip/node_modules/isexe/dist/cjs/options.js"(exports2) { - "use strict"; - Object.defineProperty(exports2, "__esModule", { value: true }); - } -}); - -// .yarn/cache/isexe-npm-3.1.1-9c0061eead-9ec2576540.zip/node_modules/isexe/dist/cjs/index.js -var require_cjs = __commonJS({ - ".yarn/cache/isexe-npm-3.1.1-9c0061eead-9ec2576540.zip/node_modules/isexe/dist/cjs/index.js"(exports2) { - "use strict"; - var __createBinding = exports2 && exports2.__createBinding || (Object.create ? (function(o, m, k, k2) { - if (k2 === void 0) k2 = k; - var desc2 = Object.getOwnPropertyDescriptor(m, k); - if (!desc2 || ("get" in desc2 ? !m.__esModule : desc2.writable || desc2.configurable)) { - desc2 = { enumerable: true, get: function() { - return m[k]; - } }; - } - Object.defineProperty(o, k2, desc2); - }) : (function(o, m, k, k2) { - if (k2 === void 0) k2 = k; - o[k2] = m[k]; - })); - var __setModuleDefault = exports2 && exports2.__setModuleDefault || (Object.create ? (function(o, v) { - Object.defineProperty(o, "default", { enumerable: true, value: v }); - }) : function(o, v) { - o["default"] = v; - }); - var __importStar = exports2 && exports2.__importStar || function(mod) { - if (mod && mod.__esModule) return mod; - var result = {}; - if (mod != null) { - for (var k in mod) if (k !== "default" && Object.prototype.hasOwnProperty.call(mod, k)) __createBinding(result, mod, k); - } - __setModuleDefault(result, mod); - return result; - }; - var __exportStar = exports2 && exports2.__exportStar || function(m, exports3) { - for (var p in m) if (p !== "default" && !Object.prototype.hasOwnProperty.call(exports3, p)) __createBinding(exports3, m, p); - }; - Object.defineProperty(exports2, "__esModule", { value: true }); - exports2.sync = exports2.isexe = exports2.posix = exports2.win32 = void 0; - var posix = __importStar(require_posix()); - exports2.posix = posix; - var win322 = __importStar(require_win32()); - exports2.win32 = win322; - __exportStar(require_options(), exports2); - var platform5 = process.env._ISEXE_TEST_PLATFORM_ || process.platform; - var impl = platform5 === "win32" ? win322 : posix; - exports2.isexe = impl.isexe; - exports2.sync = impl.sync; - } -}); - -// .yarn/cache/which-npm-5.0.0-15aa39eb60-e556e4cd8b.zip/node_modules/which/lib/index.js -var require_lib = __commonJS({ - ".yarn/cache/which-npm-5.0.0-15aa39eb60-e556e4cd8b.zip/node_modules/which/lib/index.js"(exports2, module2) { - var { isexe, sync: isexeSync } = require_cjs(); - var { join: join3, delimiter, sep, posix } = require("path"); - var isWindows4 = process.platform === "win32"; - var rSlash = new RegExp(`[${posix.sep}${sep === posix.sep ? "" : sep}]`.replace(/(\\)/g, "\\$1")); - var rRel = new RegExp(`^\\.${rSlash.source}`); - var getNotFoundError = (cmd) => Object.assign(new Error(`not found: ${cmd}`), { code: "ENOENT" }); - var getPathInfo = (cmd, { - path: optPath = process.env.PATH, - pathExt: optPathExt = process.env.PATHEXT, - delimiter: optDelimiter = delimiter - }) => { - const pathEnv = cmd.match(rSlash) ? [""] : [ - // windows always checks the cwd first - ...isWindows4 ? [process.cwd()] : [], - ...(optPath || /* istanbul ignore next: very unusual */ - "").split(optDelimiter) - ]; - if (isWindows4) { - const pathExtExe = optPathExt || [".EXE", ".CMD", ".BAT", ".COM"].join(optDelimiter); - const pathExt = pathExtExe.split(optDelimiter).flatMap((item) => [item, item.toLowerCase()]); - if (cmd.includes(".") && pathExt[0] !== "") { - pathExt.unshift(""); - } - return { pathEnv, pathExt, pathExtExe }; - } - return { pathEnv, pathExt: [""] }; - }; - var getPathPart = (raw2, cmd) => { - const pathPart = /^".*"$/.test(raw2) ? raw2.slice(1, -1) : raw2; - const prefix = !pathPart && rRel.test(cmd) ? cmd.slice(0, 2) : ""; - return prefix + join3(pathPart, cmd); - }; - var which3 = async (cmd, opt = {}) => { - const { pathEnv, pathExt, pathExtExe } = getPathInfo(cmd, opt); - const found = []; - for (const envPart of pathEnv) { - const p = getPathPart(envPart, cmd); - for (const ext of pathExt) { - const withExt = p + ext; - const is = await isexe(withExt, { pathExt: pathExtExe, ignoreErrors: true }); - if (is) { - if (!opt.all) { - return withExt; - } - found.push(withExt); - } - } - } - if (opt.all && found.length) { - return found; - } - if (opt.nothrow) { - return null; - } - throw getNotFoundError(cmd); - }; - var whichSync = (cmd, opt = {}) => { - const { pathEnv, pathExt, pathExtExe } = getPathInfo(cmd, opt); - const found = []; - for (const pathEnvPart of pathEnv) { - const p = getPathPart(pathEnvPart, cmd); - for (const ext of pathExt) { - const withExt = p + ext; - const is = isexeSync(withExt, { pathExt: pathExtExe, ignoreErrors: true }); - if (is) { - if (!opt.all) { - return withExt; - } - found.push(withExt); - } - } - } - if (opt.all && found.length) { - return found; - } - if (opt.nothrow) { - return null; - } - throw getNotFoundError(cmd); - }; - module2.exports = which3; - which3.sync = whichSync; - } -}); - -// .yarn/cache/is-windows-npm-1.0.2-898cd6f3d7-b32f418ab3.zip/node_modules/is-windows/index.js -var require_is_windows = __commonJS({ - ".yarn/cache/is-windows-npm-1.0.2-898cd6f3d7-b32f418ab3.zip/node_modules/is-windows/index.js"(exports2, module2) { - (function(factory) { - if (exports2 && typeof exports2 === "object" && typeof module2 !== "undefined") { - module2.exports = factory(); - } else if (typeof define === "function" && define.amd) { - define([], factory); - } else if (typeof window !== "undefined") { - window.isWindows = factory(); - } else if (typeof global !== "undefined") { - global.isWindows = factory(); - } else if (typeof self !== "undefined") { - self.isWindows = factory(); - } else { - this.isWindows = factory(); - } - })(function() { - "use strict"; - return function isWindows4() { - return process && (process.platform === "win32" || /^(msys|cygwin)$/.test(process.env.OSTYPE)); - }; - }); - } -}); - -// .yarn/cache/cmd-extension-npm-1.0.2-11aa204c4b-acdb425d51.zip/node_modules/cmd-extension/index.js -var require_cmd_extension = __commonJS({ - ".yarn/cache/cmd-extension-npm-1.0.2-11aa204c4b-acdb425d51.zip/node_modules/cmd-extension/index.js"(exports2, module2) { - "use strict"; - var path16 = require("path"); - var cmdExtension; - if (process.env.PATHEXT) { - cmdExtension = process.env.PATHEXT.split(path16.delimiter).find((ext) => ext.toUpperCase() === ".CMD"); - } - module2.exports = cmdExtension || ".cmd"; - } -}); - -// .yarn/cache/graceful-fs-npm-4.2.11-24bb648a68-386d011a55.zip/node_modules/graceful-fs/polyfills.js -var require_polyfills = __commonJS({ - ".yarn/cache/graceful-fs-npm-4.2.11-24bb648a68-386d011a55.zip/node_modules/graceful-fs/polyfills.js"(exports2, module2) { - var constants2 = require("constants"); - var origCwd = process.cwd; - var cwd = null; - var platform5 = process.env.GRACEFUL_FS_PLATFORM || process.platform; - process.cwd = function() { - if (!cwd) - cwd = origCwd.call(process); - return cwd; - }; - try { - process.cwd(); - } catch (er) { - } - if (typeof process.chdir === "function") { - chdir = process.chdir; - process.chdir = function(d) { - cwd = null; - chdir.call(process, d); - }; - if (Object.setPrototypeOf) Object.setPrototypeOf(process.chdir, chdir); - } - var chdir; - module2.exports = patch; - function patch(fs17) { - if (constants2.hasOwnProperty("O_SYMLINK") && process.version.match(/^v0\.6\.[0-2]|^v0\.5\./)) { - patchLchmod(fs17); - } - if (!fs17.lutimes) { - patchLutimes(fs17); - } - fs17.chown = chownFix(fs17.chown); - fs17.fchown = chownFix(fs17.fchown); - fs17.lchown = chownFix(fs17.lchown); - fs17.chmod = chmodFix(fs17.chmod); - fs17.fchmod = chmodFix(fs17.fchmod); - fs17.lchmod = chmodFix(fs17.lchmod); - fs17.chownSync = chownFixSync(fs17.chownSync); - fs17.fchownSync = chownFixSync(fs17.fchownSync); - fs17.lchownSync = chownFixSync(fs17.lchownSync); - fs17.chmodSync = chmodFixSync(fs17.chmodSync); - fs17.fchmodSync = chmodFixSync(fs17.fchmodSync); - fs17.lchmodSync = chmodFixSync(fs17.lchmodSync); - fs17.stat = statFix(fs17.stat); - fs17.fstat = statFix(fs17.fstat); - fs17.lstat = statFix(fs17.lstat); - fs17.statSync = statFixSync(fs17.statSync); - fs17.fstatSync = statFixSync(fs17.fstatSync); - fs17.lstatSync = statFixSync(fs17.lstatSync); - if (fs17.chmod && !fs17.lchmod) { - fs17.lchmod = function(path16, mode, cb) { - if (cb) process.nextTick(cb); - }; - fs17.lchmodSync = function() { - }; - } - if (fs17.chown && !fs17.lchown) { - fs17.lchown = function(path16, uid, gid, cb) { - if (cb) process.nextTick(cb); - }; - fs17.lchownSync = function() { - }; - } - if (platform5 === "win32") { - fs17.rename = typeof fs17.rename !== "function" ? fs17.rename : (function(fs$rename) { - function rename(from, to, cb) { - var start = Date.now(); - var backoff = 0; - fs$rename(from, to, function CB(er) { - if (er && (er.code === "EACCES" || er.code === "EPERM" || er.code === "EBUSY") && Date.now() - start < 6e4) { - setTimeout(function() { - fs17.stat(to, function(stater, st) { - if (stater && stater.code === "ENOENT") - fs$rename(from, to, CB); - else - cb(er); - }); - }, backoff); - if (backoff < 100) - backoff += 10; - return; - } - if (cb) cb(er); - }); - } - if (Object.setPrototypeOf) Object.setPrototypeOf(rename, fs$rename); - return rename; - })(fs17.rename); - } - fs17.read = typeof fs17.read !== "function" ? fs17.read : (function(fs$read) { - function read(fd, buffer, offset, length, position, callback_) { - var callback; - if (callback_ && typeof callback_ === "function") { - var eagCounter = 0; - callback = function(er, _, __) { - if (er && er.code === "EAGAIN" && eagCounter < 10) { - eagCounter++; - return fs$read.call(fs17, fd, buffer, offset, length, position, callback); - } - callback_.apply(this, arguments); - }; - } - return fs$read.call(fs17, fd, buffer, offset, length, position, callback); - } - if (Object.setPrototypeOf) Object.setPrototypeOf(read, fs$read); - return read; - })(fs17.read); - fs17.readSync = typeof fs17.readSync !== "function" ? fs17.readSync : /* @__PURE__ */ (function(fs$readSync) { - return function(fd, buffer, offset, length, position) { - var eagCounter = 0; - while (true) { - try { - return fs$readSync.call(fs17, fd, buffer, offset, length, position); - } catch (er) { - if (er.code === "EAGAIN" && eagCounter < 10) { - eagCounter++; - continue; - } - throw er; - } - } - }; - })(fs17.readSync); - function patchLchmod(fs18) { - fs18.lchmod = function(path16, mode, callback) { - fs18.open( - path16, - constants2.O_WRONLY | constants2.O_SYMLINK, - mode, - function(err, fd) { - if (err) { - if (callback) callback(err); - return; - } - fs18.fchmod(fd, mode, function(err2) { - fs18.close(fd, function(err22) { - if (callback) callback(err2 || err22); - }); - }); - } - ); - }; - fs18.lchmodSync = function(path16, mode) { - var fd = fs18.openSync(path16, constants2.O_WRONLY | constants2.O_SYMLINK, mode); - var threw = true; - var ret; - try { - ret = fs18.fchmodSync(fd, mode); - threw = false; - } finally { - if (threw) { - try { - fs18.closeSync(fd); - } catch (er) { - } - } else { - fs18.closeSync(fd); - } - } - return ret; - }; - } - function patchLutimes(fs18) { - if (constants2.hasOwnProperty("O_SYMLINK") && fs18.futimes) { - fs18.lutimes = function(path16, at, mt, cb) { - fs18.open(path16, constants2.O_SYMLINK, function(er, fd) { - if (er) { - if (cb) cb(er); - return; - } - fs18.futimes(fd, at, mt, function(er2) { - fs18.close(fd, function(er22) { - if (cb) cb(er2 || er22); - }); - }); - }); - }; - fs18.lutimesSync = function(path16, at, mt) { - var fd = fs18.openSync(path16, constants2.O_SYMLINK); - var ret; - var threw = true; - try { - ret = fs18.futimesSync(fd, at, mt); - threw = false; - } finally { - if (threw) { - try { - fs18.closeSync(fd); - } catch (er) { - } - } else { - fs18.closeSync(fd); - } - } - return ret; - }; - } else if (fs18.futimes) { - fs18.lutimes = function(_a, _b, _c, cb) { - if (cb) process.nextTick(cb); - }; - fs18.lutimesSync = function() { - }; - } - } - function chmodFix(orig) { - if (!orig) return orig; - return function(target, mode, cb) { - return orig.call(fs17, target, mode, function(er) { - if (chownErOk(er)) er = null; - if (cb) cb.apply(this, arguments); - }); - }; - } - function chmodFixSync(orig) { - if (!orig) return orig; - return function(target, mode) { - try { - return orig.call(fs17, target, mode); - } catch (er) { - if (!chownErOk(er)) throw er; - } - }; - } - function chownFix(orig) { - if (!orig) return orig; - return function(target, uid, gid, cb) { - return orig.call(fs17, target, uid, gid, function(er) { - if (chownErOk(er)) er = null; - if (cb) cb.apply(this, arguments); - }); - }; - } - function chownFixSync(orig) { - if (!orig) return orig; - return function(target, uid, gid) { - try { - return orig.call(fs17, target, uid, gid); - } catch (er) { - if (!chownErOk(er)) throw er; - } - }; - } - function statFix(orig) { - if (!orig) return orig; - return function(target, options, cb) { - if (typeof options === "function") { - cb = options; - options = null; - } - function callback(er, stats) { - if (stats) { - if (stats.uid < 0) stats.uid += 4294967296; - if (stats.gid < 0) stats.gid += 4294967296; - } - if (cb) cb.apply(this, arguments); - } - return options ? orig.call(fs17, target, options, callback) : orig.call(fs17, target, callback); - }; - } - function statFixSync(orig) { - if (!orig) return orig; - return function(target, options) { - var stats = options ? orig.call(fs17, target, options) : orig.call(fs17, target); - if (stats) { - if (stats.uid < 0) stats.uid += 4294967296; - if (stats.gid < 0) stats.gid += 4294967296; - } - return stats; - }; - } - function chownErOk(er) { - if (!er) - return true; - if (er.code === "ENOSYS") - return true; - var nonroot = !process.getuid || process.getuid() !== 0; - if (nonroot) { - if (er.code === "EINVAL" || er.code === "EPERM") - return true; - } - return false; - } - } - } -}); - -// .yarn/cache/graceful-fs-npm-4.2.11-24bb648a68-386d011a55.zip/node_modules/graceful-fs/legacy-streams.js -var require_legacy_streams = __commonJS({ - ".yarn/cache/graceful-fs-npm-4.2.11-24bb648a68-386d011a55.zip/node_modules/graceful-fs/legacy-streams.js"(exports2, module2) { - var Stream2 = require("stream").Stream; - module2.exports = legacy; - function legacy(fs17) { - return { - ReadStream: ReadStream2, - WriteStream: WriteStream2 - }; - function ReadStream2(path16, options) { - if (!(this instanceof ReadStream2)) return new ReadStream2(path16, options); - Stream2.call(this); - var self2 = this; - this.path = path16; - this.fd = null; - this.readable = true; - this.paused = false; - this.flags = "r"; - this.mode = 438; - this.bufferSize = 64 * 1024; - options = options || {}; - var keys = Object.keys(options); - for (var index = 0, length = keys.length; index < length; index++) { - var key = keys[index]; - this[key] = options[key]; - } - if (this.encoding) this.setEncoding(this.encoding); - if (this.start !== void 0) { - if ("number" !== typeof this.start) { - throw TypeError("start must be a Number"); - } - if (this.end === void 0) { - this.end = Infinity; - } else if ("number" !== typeof this.end) { - throw TypeError("end must be a Number"); - } - if (this.start > this.end) { - throw new Error("start must be <= end"); - } - this.pos = this.start; - } - if (this.fd !== null) { - process.nextTick(function() { - self2._read(); - }); - return; - } - fs17.open(this.path, this.flags, this.mode, function(err, fd) { - if (err) { - self2.emit("error", err); - self2.readable = false; - return; - } - self2.fd = fd; - self2.emit("open", fd); - self2._read(); - }); - } - function WriteStream2(path16, options) { - if (!(this instanceof WriteStream2)) return new WriteStream2(path16, options); - Stream2.call(this); - this.path = path16; - this.fd = null; - this.writable = true; - this.flags = "w"; - this.encoding = "binary"; - this.mode = 438; - this.bytesWritten = 0; - options = options || {}; - var keys = Object.keys(options); - for (var index = 0, length = keys.length; index < length; index++) { - var key = keys[index]; - this[key] = options[key]; - } - if (this.start !== void 0) { - if ("number" !== typeof this.start) { - throw TypeError("start must be a Number"); - } - if (this.start < 0) { - throw new Error("start must be >= zero"); - } - this.pos = this.start; - } - this.busy = false; - this._queue = []; - if (this.fd === null) { - this._open = fs17.open; - this._queue.push([this._open, this.path, this.flags, this.mode, void 0]); - this.flush(); - } - } - } - } -}); - -// .yarn/cache/graceful-fs-npm-4.2.11-24bb648a68-386d011a55.zip/node_modules/graceful-fs/clone.js -var require_clone = __commonJS({ - ".yarn/cache/graceful-fs-npm-4.2.11-24bb648a68-386d011a55.zip/node_modules/graceful-fs/clone.js"(exports2, module2) { - "use strict"; - module2.exports = clone; - var getPrototypeOf = Object.getPrototypeOf || function(obj) { - return obj.__proto__; - }; - function clone(obj) { - if (obj === null || typeof obj !== "object") - return obj; - if (obj instanceof Object) - var copy = { __proto__: getPrototypeOf(obj) }; - else - var copy = /* @__PURE__ */ Object.create(null); - Object.getOwnPropertyNames(obj).forEach(function(key) { - Object.defineProperty(copy, key, Object.getOwnPropertyDescriptor(obj, key)); - }); - return copy; - } - } -}); - -// .yarn/cache/graceful-fs-npm-4.2.11-24bb648a68-386d011a55.zip/node_modules/graceful-fs/graceful-fs.js -var require_graceful_fs = __commonJS({ - ".yarn/cache/graceful-fs-npm-4.2.11-24bb648a68-386d011a55.zip/node_modules/graceful-fs/graceful-fs.js"(exports2, module2) { - var fs17 = require("fs"); - var polyfills = require_polyfills(); - var legacy = require_legacy_streams(); - var clone = require_clone(); - var util = require("util"); - var gracefulQueue; - var previousSymbol; - if (typeof Symbol === "function" && typeof Symbol.for === "function") { - gracefulQueue = Symbol.for("graceful-fs.queue"); - previousSymbol = Symbol.for("graceful-fs.previous"); - } else { - gracefulQueue = "___graceful-fs.queue"; - previousSymbol = "___graceful-fs.previous"; - } - function noop3() { - } - function publishQueue(context, queue2) { - Object.defineProperty(context, gracefulQueue, { - get: function() { - return queue2; - } - }); - } - var debug2 = noop3; - if (util.debuglog) - debug2 = util.debuglog("gfs4"); - else if (/\bgfs4\b/i.test(process.env.NODE_DEBUG || "")) - debug2 = function() { - var m = util.format.apply(util, arguments); - m = "GFS4: " + m.split(/\n/).join("\nGFS4: "); - console.error(m); - }; - if (!fs17[gracefulQueue]) { - queue = global[gracefulQueue] || []; - publishQueue(fs17, queue); - fs17.close = (function(fs$close) { - function close(fd, cb) { - return fs$close.call(fs17, fd, function(err) { - if (!err) { - resetQueue(); - } - if (typeof cb === "function") - cb.apply(this, arguments); - }); - } - Object.defineProperty(close, previousSymbol, { - value: fs$close - }); - return close; - })(fs17.close); - fs17.closeSync = (function(fs$closeSync) { - function closeSync(fd) { - fs$closeSync.apply(fs17, arguments); - resetQueue(); - } - Object.defineProperty(closeSync, previousSymbol, { - value: fs$closeSync - }); - return closeSync; - })(fs17.closeSync); - if (/\bgfs4\b/i.test(process.env.NODE_DEBUG || "")) { - process.on("exit", function() { - debug2(fs17[gracefulQueue]); - require("assert").equal(fs17[gracefulQueue].length, 0); - }); - } - } - var queue; - if (!global[gracefulQueue]) { - publishQueue(global, fs17[gracefulQueue]); - } - module2.exports = patch(clone(fs17)); - if (process.env.TEST_GRACEFUL_FS_GLOBAL_PATCH && !fs17.__patched) { - module2.exports = patch(fs17); - fs17.__patched = true; - } - function patch(fs18) { - polyfills(fs18); - fs18.gracefulify = patch; - fs18.createReadStream = createReadStream; - fs18.createWriteStream = createWriteStream; - var fs$readFile = fs18.readFile; - fs18.readFile = readFile; - function readFile(path16, options, cb) { - if (typeof options === "function") - cb = options, options = null; - return go$readFile(path16, options, cb); - function go$readFile(path17, options2, cb2, startTime) { - return fs$readFile(path17, options2, function(err) { - if (err && (err.code === "EMFILE" || err.code === "ENFILE")) - enqueue([go$readFile, [path17, options2, cb2], err, startTime || Date.now(), Date.now()]); - else { - if (typeof cb2 === "function") - cb2.apply(this, arguments); - } - }); - } - } - var fs$writeFile = fs18.writeFile; - fs18.writeFile = writeFile; - function writeFile(path16, data, options, cb) { - if (typeof options === "function") - cb = options, options = null; - return go$writeFile(path16, data, options, cb); - function go$writeFile(path17, data2, options2, cb2, startTime) { - return fs$writeFile(path17, data2, options2, function(err) { - if (err && (err.code === "EMFILE" || err.code === "ENFILE")) - enqueue([go$writeFile, [path17, data2, options2, cb2], err, startTime || Date.now(), Date.now()]); - else { - if (typeof cb2 === "function") - cb2.apply(this, arguments); - } - }); - } - } - var fs$appendFile = fs18.appendFile; - if (fs$appendFile) - fs18.appendFile = appendFile; - function appendFile(path16, data, options, cb) { - if (typeof options === "function") - cb = options, options = null; - return go$appendFile(path16, data, options, cb); - function go$appendFile(path17, data2, options2, cb2, startTime) { - return fs$appendFile(path17, data2, options2, function(err) { - if (err && (err.code === "EMFILE" || err.code === "ENFILE")) - enqueue([go$appendFile, [path17, data2, options2, cb2], err, startTime || Date.now(), Date.now()]); - else { - if (typeof cb2 === "function") - cb2.apply(this, arguments); - } - }); - } - } - var fs$copyFile = fs18.copyFile; - if (fs$copyFile) - fs18.copyFile = copyFile; - function copyFile(src, dest, flags, cb) { - if (typeof flags === "function") { - cb = flags; - flags = 0; - } - return go$copyFile(src, dest, flags, cb); - function go$copyFile(src2, dest2, flags2, cb2, startTime) { - return fs$copyFile(src2, dest2, flags2, function(err) { - if (err && (err.code === "EMFILE" || err.code === "ENFILE")) - enqueue([go$copyFile, [src2, dest2, flags2, cb2], err, startTime || Date.now(), Date.now()]); - else { - if (typeof cb2 === "function") - cb2.apply(this, arguments); - } - }); - } - } - var fs$readdir = fs18.readdir; - fs18.readdir = readdir; - var noReaddirOptionVersions = /^v[0-5]\./; - function readdir(path16, options, cb) { - if (typeof options === "function") - cb = options, options = null; - var go$readdir = noReaddirOptionVersions.test(process.version) ? function go$readdir2(path17, options2, cb2, startTime) { - return fs$readdir(path17, fs$readdirCallback( - path17, - options2, - cb2, - startTime - )); - } : function go$readdir2(path17, options2, cb2, startTime) { - return fs$readdir(path17, options2, fs$readdirCallback( - path17, - options2, - cb2, - startTime - )); - }; - return go$readdir(path16, options, cb); - function fs$readdirCallback(path17, options2, cb2, startTime) { - return function(err, files) { - if (err && (err.code === "EMFILE" || err.code === "ENFILE")) - enqueue([ - go$readdir, - [path17, options2, cb2], - err, - startTime || Date.now(), - Date.now() - ]); - else { - if (files && files.sort) - files.sort(); - if (typeof cb2 === "function") - cb2.call(this, err, files); - } - }; - } - } - if (process.version.substr(0, 4) === "v0.8") { - var legStreams = legacy(fs18); - ReadStream2 = legStreams.ReadStream; - WriteStream2 = legStreams.WriteStream; - } - var fs$ReadStream = fs18.ReadStream; - if (fs$ReadStream) { - ReadStream2.prototype = Object.create(fs$ReadStream.prototype); - ReadStream2.prototype.open = ReadStream$open; - } - var fs$WriteStream = fs18.WriteStream; - if (fs$WriteStream) { - WriteStream2.prototype = Object.create(fs$WriteStream.prototype); - WriteStream2.prototype.open = WriteStream$open; - } - Object.defineProperty(fs18, "ReadStream", { - get: function() { - return ReadStream2; - }, - set: function(val) { - ReadStream2 = val; - }, - enumerable: true, - configurable: true - }); - Object.defineProperty(fs18, "WriteStream", { - get: function() { - return WriteStream2; - }, - set: function(val) { - WriteStream2 = val; - }, - enumerable: true, - configurable: true - }); - var FileReadStream = ReadStream2; - Object.defineProperty(fs18, "FileReadStream", { - get: function() { - return FileReadStream; - }, - set: function(val) { - FileReadStream = val; - }, - enumerable: true, - configurable: true - }); - var FileWriteStream = WriteStream2; - Object.defineProperty(fs18, "FileWriteStream", { - get: function() { - return FileWriteStream; - }, - set: function(val) { - FileWriteStream = val; - }, - enumerable: true, - configurable: true - }); - function ReadStream2(path16, options) { - if (this instanceof ReadStream2) - return fs$ReadStream.apply(this, arguments), this; - else - return ReadStream2.apply(Object.create(ReadStream2.prototype), arguments); - } - function ReadStream$open() { - var that = this; - open(that.path, that.flags, that.mode, function(err, fd) { - if (err) { - if (that.autoClose) - that.destroy(); - that.emit("error", err); - } else { - that.fd = fd; - that.emit("open", fd); - that.read(); - } - }); - } - function WriteStream2(path16, options) { - if (this instanceof WriteStream2) - return fs$WriteStream.apply(this, arguments), this; - else - return WriteStream2.apply(Object.create(WriteStream2.prototype), arguments); - } - function WriteStream$open() { - var that = this; - open(that.path, that.flags, that.mode, function(err, fd) { - if (err) { - that.destroy(); - that.emit("error", err); - } else { - that.fd = fd; - that.emit("open", fd); - } - }); - } - function createReadStream(path16, options) { - return new fs18.ReadStream(path16, options); - } - function createWriteStream(path16, options) { - return new fs18.WriteStream(path16, options); - } - var fs$open = fs18.open; - fs18.open = open; - function open(path16, flags, mode, cb) { - if (typeof mode === "function") - cb = mode, mode = null; - return go$open(path16, flags, mode, cb); - function go$open(path17, flags2, mode2, cb2, startTime) { - return fs$open(path17, flags2, mode2, function(err, fd) { - if (err && (err.code === "EMFILE" || err.code === "ENFILE")) - enqueue([go$open, [path17, flags2, mode2, cb2], err, startTime || Date.now(), Date.now()]); - else { - if (typeof cb2 === "function") - cb2.apply(this, arguments); - } - }); - } - } - return fs18; - } - function enqueue(elem) { - debug2("ENQUEUE", elem[0].name, elem[1]); - fs17[gracefulQueue].push(elem); - retry(); - } - var retryTimer; - function resetQueue() { - var now = Date.now(); - for (var i = 0; i < fs17[gracefulQueue].length; ++i) { - if (fs17[gracefulQueue][i].length > 2) { - fs17[gracefulQueue][i][3] = now; - fs17[gracefulQueue][i][4] = now; - } - } - retry(); - } - function retry() { - clearTimeout(retryTimer); - retryTimer = void 0; - if (fs17[gracefulQueue].length === 0) - return; - var elem = fs17[gracefulQueue].shift(); - var fn2 = elem[0]; - var args = elem[1]; - var err = elem[2]; - var startTime = elem[3]; - var lastTime = elem[4]; - if (startTime === void 0) { - debug2("RETRY", fn2.name, args); - fn2.apply(null, args); - } else if (Date.now() - startTime >= 6e4) { - debug2("TIMEOUT", fn2.name, args); - var cb = args.pop(); - if (typeof cb === "function") - cb.call(null, err); - } else { - var sinceAttempt = Date.now() - lastTime; - var sinceStart = Math.max(lastTime - startTime, 1); - var desiredDelay = Math.min(sinceStart * 1.2, 100); - if (sinceAttempt >= desiredDelay) { - debug2("RETRY", fn2.name, args); - fn2.apply(null, args.concat([startTime])); - } else { - fs17[gracefulQueue].push(elem); - } - } - if (retryTimer === void 0) { - retryTimer = setTimeout(retry, 0); - } - } - } -}); - -// .yarn/cache/@zkochan-cmd-shim-npm-6.0.0-97792a7373-ba1442ba1e.zip/node_modules/@zkochan/cmd-shim/index.js -var require_cmd_shim = __commonJS({ - ".yarn/cache/@zkochan-cmd-shim-npm-6.0.0-97792a7373-ba1442ba1e.zip/node_modules/@zkochan/cmd-shim/index.js"(exports2, module2) { - "use strict"; - cmdShim2.ifExists = cmdShimIfExists; - var util_1 = require("util"); - var path16 = require("path"); - var isWindows4 = require_is_windows(); - var CMD_EXTENSION = require_cmd_extension(); - var shebangExpr = /^#!\s*(?:\/usr\/bin\/env(?:\s+-S\s*)?)?\s*([^ \t]+)(.*)$/; - var DEFAULT_OPTIONS = { - // Create PowerShell file by default if the option hasn't been specified - createPwshFile: true, - createCmdFile: isWindows4(), - fs: require_graceful_fs() - }; - var extensionToProgramMap = /* @__PURE__ */ new Map([ - [".js", "node"], - [".cjs", "node"], - [".mjs", "node"], - [".cmd", "cmd"], - [".bat", "cmd"], - [".ps1", "pwsh"], - [".sh", "sh"] - ]); - function ingestOptions(opts) { - const opts_ = { ...DEFAULT_OPTIONS, ...opts }; - const fs17 = opts_.fs; - opts_.fs_ = { - chmod: fs17.chmod ? (0, util_1.promisify)(fs17.chmod) : (async () => { - }), - mkdir: (0, util_1.promisify)(fs17.mkdir), - readFile: (0, util_1.promisify)(fs17.readFile), - stat: (0, util_1.promisify)(fs17.stat), - unlink: (0, util_1.promisify)(fs17.unlink), - writeFile: (0, util_1.promisify)(fs17.writeFile) - }; - return opts_; - } - async function cmdShim2(src, to, opts) { - const opts_ = ingestOptions(opts); - await cmdShim_(src, to, opts_); - } - function cmdShimIfExists(src, to, opts) { - return cmdShim2(src, to, opts).catch(() => { - }); - } - function rm(path17, opts) { - return opts.fs_.unlink(path17).catch(() => { - }); - } - async function cmdShim_(src, to, opts) { - const srcRuntimeInfo = await searchScriptRuntime(src, opts); - await writeShimsPreCommon(to, opts); - return writeAllShims(src, to, srcRuntimeInfo, opts); - } - function writeShimsPreCommon(target, opts) { - return opts.fs_.mkdir(path16.dirname(target), { recursive: true }); - } - function writeAllShims(src, to, srcRuntimeInfo, opts) { - const opts_ = ingestOptions(opts); - const generatorAndExts = [{ generator: generateShShim, extension: "" }]; - if (opts_.createCmdFile) { - generatorAndExts.push({ generator: generateCmdShim, extension: CMD_EXTENSION }); - } - if (opts_.createPwshFile) { - generatorAndExts.push({ generator: generatePwshShim, extension: ".ps1" }); - } - return Promise.all(generatorAndExts.map((generatorAndExt) => writeShim(src, to + generatorAndExt.extension, srcRuntimeInfo, generatorAndExt.generator, opts_))); - } - function writeShimPre(target, opts) { - return rm(target, opts); - } - function writeShimPost(target, opts) { - return chmodShim(target, opts); - } - async function searchScriptRuntime(target, opts) { - try { - const data = await opts.fs_.readFile(target, "utf8"); - const firstLine = data.trim().split(/\r*\n/)[0]; - const shebang = firstLine.match(shebangExpr); - if (!shebang) { - const targetExtension = path16.extname(target).toLowerCase(); - return { - // undefined if extension is unknown but it's converted to null. - program: extensionToProgramMap.get(targetExtension) || null, - additionalArgs: "" - }; - } - return { - program: shebang[1], - additionalArgs: shebang[2] - }; - } catch (err) { - if (!isWindows4() || err.code !== "ENOENT") - throw err; - if (await opts.fs_.stat(`${target}${getExeExtension()}`)) { - return { - program: null, - additionalArgs: "" - }; - } - throw err; - } - } - function getExeExtension() { - let cmdExtension; - if (process.env.PATHEXT) { - cmdExtension = process.env.PATHEXT.split(path16.delimiter).find((ext) => ext.toLowerCase() === ".exe"); - } - return cmdExtension || ".exe"; - } - async function writeShim(src, to, srcRuntimeInfo, generateShimScript, opts) { - const defaultArgs = opts.preserveSymlinks ? "--preserve-symlinks" : ""; - const args = [srcRuntimeInfo.additionalArgs, defaultArgs].filter((arg) => arg).join(" "); - opts = Object.assign({}, opts, { - prog: srcRuntimeInfo.program, - args - }); - await writeShimPre(to, opts); - await opts.fs_.writeFile(to, generateShimScript(src, to, opts), "utf8"); - return writeShimPost(to, opts); - } - function generateCmdShim(src, to, opts) { - const shTarget = path16.relative(path16.dirname(to), src); - let target = shTarget.split("/").join("\\"); - const quotedPathToTarget = path16.isAbsolute(target) ? `"${target}"` : `"%~dp0\\${target}"`; - let longProg; - let prog = opts.prog; - let args = opts.args || ""; - const nodePath = normalizePathEnvVar(opts.nodePath).win32; - const prependToPath = normalizePathEnvVar(opts.prependToPath).win32; - if (!prog) { - prog = quotedPathToTarget; - args = ""; - target = ""; - } else if (prog === "node" && opts.nodeExecPath) { - prog = `"${opts.nodeExecPath}"`; - target = quotedPathToTarget; - } else { - longProg = `"%~dp0\\${prog}.exe"`; - target = quotedPathToTarget; - } - let progArgs = opts.progArgs ? `${opts.progArgs.join(` `)} ` : ""; - let cmd = "@SETLOCAL\r\n"; - if (prependToPath) { - cmd += `@SET "PATH=${prependToPath}:%PATH%"\r -`; - } - if (nodePath) { - cmd += `@IF NOT DEFINED NODE_PATH (\r - @SET "NODE_PATH=${nodePath}"\r -) ELSE (\r - @SET "NODE_PATH=${nodePath};%NODE_PATH%"\r -)\r -`; - } - if (longProg) { - cmd += `@IF EXIST ${longProg} (\r - ${longProg} ${args} ${target} ${progArgs}%*\r -) ELSE (\r - @SET PATHEXT=%PATHEXT:;.JS;=;%\r - ${prog} ${args} ${target} ${progArgs}%*\r -)\r -`; - } else { - cmd += `@${prog} ${args} ${target} ${progArgs}%*\r -`; - } - return cmd; - } - function generateShShim(src, to, opts) { - let shTarget = path16.relative(path16.dirname(to), src); - let shProg = opts.prog && opts.prog.split("\\").join("/"); - let shLongProg; - shTarget = shTarget.split("\\").join("/"); - const quotedPathToTarget = path16.isAbsolute(shTarget) ? `"${shTarget}"` : `"$basedir/${shTarget}"`; - let args = opts.args || ""; - const shNodePath = normalizePathEnvVar(opts.nodePath).posix; - if (!shProg) { - shProg = quotedPathToTarget; - args = ""; - shTarget = ""; - } else if (opts.prog === "node" && opts.nodeExecPath) { - shProg = `"${opts.nodeExecPath}"`; - shTarget = quotedPathToTarget; - } else { - shLongProg = `"$basedir/${opts.prog}"`; - shTarget = quotedPathToTarget; - } - let progArgs = opts.progArgs ? `${opts.progArgs.join(` `)} ` : ""; - let sh = `#!/bin/sh -basedir=$(dirname "$(echo "$0" | sed -e 's,\\\\,/,g')") - -case \`uname\` in - *CYGWIN*) basedir=\`cygpath -w "$basedir"\`;; -esac - -`; - if (opts.prependToPath) { - sh += `export PATH="${opts.prependToPath}:$PATH" -`; - } - if (shNodePath) { - sh += `if [ -z "$NODE_PATH" ]; then - export NODE_PATH="${shNodePath}" -else - export NODE_PATH="${shNodePath}:$NODE_PATH" -fi -`; - } - if (shLongProg) { - sh += `if [ -x ${shLongProg} ]; then - exec ${shLongProg} ${args} ${shTarget} ${progArgs}"$@" -else - exec ${shProg} ${args} ${shTarget} ${progArgs}"$@" -fi -`; - } else { - sh += `${shProg} ${args} ${shTarget} ${progArgs}"$@" -exit $? -`; - } - return sh; - } - function generatePwshShim(src, to, opts) { - let shTarget = path16.relative(path16.dirname(to), src); - const shProg = opts.prog && opts.prog.split("\\").join("/"); - let pwshProg = shProg && `"${shProg}$exe"`; - let pwshLongProg; - shTarget = shTarget.split("\\").join("/"); - const quotedPathToTarget = path16.isAbsolute(shTarget) ? `"${shTarget}"` : `"$basedir/${shTarget}"`; - let args = opts.args || ""; - let normalizedNodePathEnvVar = normalizePathEnvVar(opts.nodePath); - const nodePath = normalizedNodePathEnvVar.win32; - const shNodePath = normalizedNodePathEnvVar.posix; - let normalizedPrependPathEnvVar = normalizePathEnvVar(opts.prependToPath); - const prependPath = normalizedPrependPathEnvVar.win32; - const shPrependPath = normalizedPrependPathEnvVar.posix; - if (!pwshProg) { - pwshProg = quotedPathToTarget; - args = ""; - shTarget = ""; - } else if (opts.prog === "node" && opts.nodeExecPath) { - pwshProg = `"${opts.nodeExecPath}"`; - shTarget = quotedPathToTarget; - } else { - pwshLongProg = `"$basedir/${opts.prog}$exe"`; - shTarget = quotedPathToTarget; - } - let progArgs = opts.progArgs ? `${opts.progArgs.join(` `)} ` : ""; - let pwsh = `#!/usr/bin/env pwsh -$basedir=Split-Path $MyInvocation.MyCommand.Definition -Parent - -$exe="" -${nodePath || prependPath ? '$pathsep=":"\n' : ""}${nodePath ? `$env_node_path=$env:NODE_PATH -$new_node_path="${nodePath}" -` : ""}${prependPath ? `$env_path=$env:PATH -$prepend_path="${prependPath}" -` : ""}if ($PSVersionTable.PSVersion -lt "6.0" -or $IsWindows) { - # Fix case when both the Windows and Linux builds of Node - # are installed in the same directory - $exe=".exe" -${nodePath || prependPath ? ' $pathsep=";"\n' : ""}}`; - if (shNodePath || shPrependPath) { - pwsh += ` else { -${shNodePath ? ` $new_node_path="${shNodePath}" -` : ""}${shPrependPath ? ` $prepend_path="${shPrependPath}" -` : ""}} -`; - } - if (shNodePath) { - pwsh += `if ([string]::IsNullOrEmpty($env_node_path)) { - $env:NODE_PATH=$new_node_path -} else { - $env:NODE_PATH="$new_node_path$pathsep$env_node_path" -} -`; - } - if (opts.prependToPath) { - pwsh += ` -$env:PATH="$prepend_path$pathsep$env:PATH" -`; - } - if (pwshLongProg) { - pwsh += ` -$ret=0 -if (Test-Path ${pwshLongProg}) { - # Support pipeline input - if ($MyInvocation.ExpectingInput) { - $input | & ${pwshLongProg} ${args} ${shTarget} ${progArgs}$args - } else { - & ${pwshLongProg} ${args} ${shTarget} ${progArgs}$args - } - $ret=$LASTEXITCODE -} else { - # Support pipeline input - if ($MyInvocation.ExpectingInput) { - $input | & ${pwshProg} ${args} ${shTarget} ${progArgs}$args - } else { - & ${pwshProg} ${args} ${shTarget} ${progArgs}$args - } - $ret=$LASTEXITCODE -} -${nodePath ? "$env:NODE_PATH=$env_node_path\n" : ""}${prependPath ? "$env:PATH=$env_path\n" : ""}exit $ret -`; - } else { - pwsh += ` -# Support pipeline input -if ($MyInvocation.ExpectingInput) { - $input | & ${pwshProg} ${args} ${shTarget} ${progArgs}$args -} else { - & ${pwshProg} ${args} ${shTarget} ${progArgs}$args -} -${nodePath ? "$env:NODE_PATH=$env_node_path\n" : ""}${prependPath ? "$env:PATH=$env_path\n" : ""}exit $LASTEXITCODE -`; + function chownFix(orig) { + if (!orig) return orig; + return function(target, uid, gid, cb) { + return orig.call(fs17, target, uid, gid, function(er) { + if (chownErOk(er)) er = null; + if (cb) cb.apply(this, arguments); + }); + }; } - return pwsh; - } - function chmodShim(to, opts) { - return opts.fs_.chmod(to, 493); - } - function normalizePathEnvVar(nodePath) { - if (!nodePath || !nodePath.length) { - return { - win32: "", - posix: "" + function chownFixSync(orig) { + if (!orig) return orig; + return function(target, uid, gid) { + try { + return orig.call(fs17, target, uid, gid); + } catch (er) { + if (!chownErOk(er)) throw er; + } }; } - let split = typeof nodePath === "string" ? nodePath.split(path16.delimiter) : Array.from(nodePath); - let result = {}; - for (let i = 0; i < split.length; i++) { - const win322 = split[i].split("/").join("\\"); - const posix = isWindows4() ? split[i].split("\\").join("/").replace(/^([^:\\/]*):/, (_, $1) => `/mnt/${$1.toLowerCase()}`) : split[i]; - result.win32 = result.win32 ? `${result.win32};${win322}` : win322; - result.posix = result.posix ? `${result.posix}:${posix}` : posix; - result[i] = { win32: win322, posix }; + function statFix(orig) { + if (!orig) return orig; + return function(target, options, cb) { + if (typeof options === "function") { + cb = options; + options = null; + } + function callback(er, stats) { + if (stats) { + if (stats.uid < 0) stats.uid += 4294967296; + if (stats.gid < 0) stats.gid += 4294967296; + } + if (cb) cb.apply(this, arguments); + } + return options ? orig.call(fs17, target, options, callback) : orig.call(fs17, target, callback); + }; + } + function statFixSync(orig) { + if (!orig) return orig; + return function(target, options) { + var stats = options ? orig.call(fs17, target, options) : orig.call(fs17, target); + if (stats) { + if (stats.uid < 0) stats.uid += 4294967296; + if (stats.gid < 0) stats.gid += 4294967296; + } + return stats; + }; + } + function chownErOk(er) { + if (!er) + return true; + if (er.code === "ENOSYS") + return true; + var nonroot = !process.getuid || process.getuid() !== 0; + if (nonroot) { + if (er.code === "EINVAL" || er.code === "EPERM") + return true; + } + return false; } - return result; } - module2.exports = cmdShim2; } }); -// .yarn/cache/tar-npm-7.5.6-955ec951c2-08af380703.zip/node_modules/tar/dist/esm/mode-fix.js -var modeFix; -var init_mode_fix = __esm({ - ".yarn/cache/tar-npm-7.5.6-955ec951c2-08af380703.zip/node_modules/tar/dist/esm/mode-fix.js"() { - modeFix = (mode, isDir, portable) => { - mode &= 4095; - if (portable) { - mode = (mode | 384) & ~18; - } - if (isDir) { - if (mode & 256) { - mode |= 64; +// node_modules/graceful-fs/legacy-streams.js +var require_legacy_streams = __commonJS({ + "node_modules/graceful-fs/legacy-streams.js"(exports2, module2) { + var Stream2 = require("stream").Stream; + module2.exports = legacy; + function legacy(fs17) { + return { + ReadStream: ReadStream2, + WriteStream: WriteStream2 + }; + function ReadStream2(path16, options) { + if (!(this instanceof ReadStream2)) return new ReadStream2(path16, options); + Stream2.call(this); + var self2 = this; + this.path = path16; + this.fd = null; + this.readable = true; + this.paused = false; + this.flags = "r"; + this.mode = 438; + this.bufferSize = 64 * 1024; + options = options || {}; + var keys = Object.keys(options); + for (var index = 0, length = keys.length; index < length; index++) { + var key = keys[index]; + this[key] = options[key]; } - if (mode & 32) { - mode |= 8; + if (this.encoding) this.setEncoding(this.encoding); + if (this.start !== void 0) { + if ("number" !== typeof this.start) { + throw TypeError("start must be a Number"); + } + if (this.end === void 0) { + this.end = Infinity; + } else if ("number" !== typeof this.end) { + throw TypeError("end must be a Number"); + } + if (this.start > this.end) { + throw new Error("start must be <= end"); + } + this.pos = this.start; } - if (mode & 4) { - mode |= 1; + if (this.fd !== null) { + process.nextTick(function() { + self2._read(); + }); + return; } + fs17.open(this.path, this.flags, this.mode, function(err, fd) { + if (err) { + self2.emit("error", err); + self2.readable = false; + return; + } + self2.fd = fd; + self2.emit("open", fd); + self2._read(); + }); } - return mode; - }; - } -}); - -// .yarn/cache/tar-npm-7.5.6-955ec951c2-08af380703.zip/node_modules/tar/dist/esm/write-entry.js -var import_fs11, import_path9, prefixPath, maxReadSize, PROCESS, FILE2, DIRECTORY2, SYMLINK2, HARDLINK2, HEADER, READ2, LSTAT, ONLSTAT, ONREAD, ONREADLINK, OPENFILE, ONOPENFILE, CLOSE, MODE, AWAITDRAIN, ONDRAIN, PREFIX, WriteEntry, WriteEntrySync, WriteEntryTar, getType; -var init_write_entry = __esm({ - ".yarn/cache/tar-npm-7.5.6-955ec951c2-08af380703.zip/node_modules/tar/dist/esm/write-entry.js"() { - import_fs11 = __toESM(require("fs"), 1); - init_esm(); - import_path9 = __toESM(require("path"), 1); - init_header(); - init_mode_fix(); - init_normalize_windows_path(); - init_options(); - init_pax(); - init_strip_absolute_path(); - init_strip_trailing_slashes(); - init_warn_method(); - init_winchars(); - prefixPath = (path16, prefix) => { - if (!prefix) { - return normalizeWindowsPath(path16); - } - path16 = normalizeWindowsPath(path16).replace(/^\.(\/|$)/, ""); - return stripTrailingSlashes(prefix) + "/" + path16; - }; - maxReadSize = 16 * 1024 * 1024; - PROCESS = Symbol("process"); - FILE2 = Symbol("file"); - DIRECTORY2 = Symbol("directory"); - SYMLINK2 = Symbol("symlink"); - HARDLINK2 = Symbol("hardlink"); - HEADER = Symbol("header"); - READ2 = Symbol("read"); - LSTAT = Symbol("lstat"); - ONLSTAT = Symbol("onlstat"); - ONREAD = Symbol("onread"); - ONREADLINK = Symbol("onreadlink"); - OPENFILE = Symbol("openfile"); - ONOPENFILE = Symbol("onopenfile"); - CLOSE = Symbol("close"); - MODE = Symbol("mode"); - AWAITDRAIN = Symbol("awaitDrain"); - ONDRAIN = Symbol("ondrain"); - PREFIX = Symbol("prefix"); - WriteEntry = class extends Minipass { - path; - portable; - myuid = process.getuid && process.getuid() || 0; - // until node has builtin pwnam functions, this'll have to do - myuser = process.env.USER || ""; - maxReadSize; - linkCache; - statCache; - preservePaths; - cwd; - strict; - mtime; - noPax; - noMtime; - prefix; - fd; - blockLen = 0; - blockRemain = 0; - buf; - pos = 0; - remain = 0; - length = 0; - offset = 0; - win32; - absolute; - header; - type; - linkpath; - stat; - onWriteEntry; - #hadError = false; - constructor(p, opt_ = {}) { - const opt = dealias(opt_); - super(); - this.path = normalizeWindowsPath(p); - this.portable = !!opt.portable; - this.maxReadSize = opt.maxReadSize || maxReadSize; - this.linkCache = opt.linkCache || /* @__PURE__ */ new Map(); - this.statCache = opt.statCache || /* @__PURE__ */ new Map(); - this.preservePaths = !!opt.preservePaths; - this.cwd = normalizeWindowsPath(opt.cwd || process.cwd()); - this.strict = !!opt.strict; - this.noPax = !!opt.noPax; - this.noMtime = !!opt.noMtime; - this.mtime = opt.mtime; - this.prefix = opt.prefix ? normalizeWindowsPath(opt.prefix) : void 0; - this.onWriteEntry = opt.onWriteEntry; - if (typeof opt.onwarn === "function") { - this.on("warn", opt.onwarn); + function WriteStream2(path16, options) { + if (!(this instanceof WriteStream2)) return new WriteStream2(path16, options); + Stream2.call(this); + this.path = path16; + this.fd = null; + this.writable = true; + this.flags = "w"; + this.encoding = "binary"; + this.mode = 438; + this.bytesWritten = 0; + options = options || {}; + var keys = Object.keys(options); + for (var index = 0, length = keys.length; index < length; index++) { + var key = keys[index]; + this[key] = options[key]; } - let pathWarn = false; - if (!this.preservePaths) { - const [root, stripped] = stripAbsolutePath(this.path); - if (root && typeof stripped === "string") { - this.path = stripped; - pathWarn = root; + if (this.start !== void 0) { + if ("number" !== typeof this.start) { + throw TypeError("start must be a Number"); } + if (this.start < 0) { + throw new Error("start must be >= zero"); + } + this.pos = this.start; } - this.win32 = !!opt.win32 || process.platform === "win32"; - if (this.win32) { - this.path = decode(this.path.replace(/\\/g, "/")); - p = p.replace(/\\/g, "/"); - } - this.absolute = normalizeWindowsPath(opt.absolute || import_path9.default.resolve(this.cwd, p)); - if (this.path === "") { - this.path = "./"; + this.busy = false; + this._queue = []; + if (this.fd === null) { + this._open = fs17.open; + this._queue.push([this._open, this.path, this.flags, this.mode, void 0]); + this.flush(); } - if (pathWarn) { - this.warn("TAR_ENTRY_INFO", `stripping ${pathWarn} from absolute path`, { - entry: this, - path: pathWarn + this.path - }); + } + } + } +}); + +// node_modules/graceful-fs/clone.js +var require_clone = __commonJS({ + "node_modules/graceful-fs/clone.js"(exports2, module2) { + "use strict"; + module2.exports = clone; + var getPrototypeOf = Object.getPrototypeOf || function(obj) { + return obj.__proto__; + }; + function clone(obj) { + if (obj === null || typeof obj !== "object") + return obj; + if (obj instanceof Object) + var copy = { __proto__: getPrototypeOf(obj) }; + else + var copy = /* @__PURE__ */ Object.create(null); + Object.getOwnPropertyNames(obj).forEach(function(key) { + Object.defineProperty(copy, key, Object.getOwnPropertyDescriptor(obj, key)); + }); + return copy; + } + } +}); + +// node_modules/graceful-fs/graceful-fs.js +var require_graceful_fs = __commonJS({ + "node_modules/graceful-fs/graceful-fs.js"(exports2, module2) { + var fs17 = require("fs"); + var polyfills = require_polyfills(); + var legacy = require_legacy_streams(); + var clone = require_clone(); + var util = require("util"); + var gracefulQueue; + var previousSymbol; + if (typeof Symbol === "function" && typeof Symbol.for === "function") { + gracefulQueue = /* @__PURE__ */ Symbol.for("graceful-fs.queue"); + previousSymbol = /* @__PURE__ */ Symbol.for("graceful-fs.previous"); + } else { + gracefulQueue = "___graceful-fs.queue"; + previousSymbol = "___graceful-fs.previous"; + } + function noop3() { + } + function publishQueue(context, queue2) { + Object.defineProperty(context, gracefulQueue, { + get: function() { + return queue2; } - const cs = this.statCache.get(this.absolute); - if (cs) { - this[ONLSTAT](cs); - } else { - this[LSTAT](); + }); + } + var debug = noop3; + if (util.debuglog) + debug = util.debuglog("gfs4"); + else if (/\bgfs4\b/i.test(process.env.NODE_DEBUG || "")) + debug = function() { + var m = util.format.apply(util, arguments); + m = "GFS4: " + m.split(/\n/).join("\nGFS4: "); + console.error(m); + }; + if (!fs17[gracefulQueue]) { + queue = global[gracefulQueue] || []; + publishQueue(fs17, queue); + fs17.close = (function(fs$close) { + function close(fd, cb) { + return fs$close.call(fs17, fd, function(err) { + if (!err) { + resetQueue(); + } + if (typeof cb === "function") + cb.apply(this, arguments); + }); } - } - warn(code2, message, data = {}) { - return warnMethod(this, code2, message, data); - } - emit(ev, ...data) { - if (ev === "error") { - this.#hadError = true; + Object.defineProperty(close, previousSymbol, { + value: fs$close + }); + return close; + })(fs17.close); + fs17.closeSync = (function(fs$closeSync) { + function closeSync(fd) { + fs$closeSync.apply(fs17, arguments); + resetQueue(); } - return super.emit(ev, ...data); - } - [LSTAT]() { - import_fs11.default.lstat(this.absolute, (er, stat) => { - if (er) { - return this.emit("error", er); - } - this[ONLSTAT](stat); + Object.defineProperty(closeSync, previousSymbol, { + value: fs$closeSync + }); + return closeSync; + })(fs17.closeSync); + if (/\bgfs4\b/i.test(process.env.NODE_DEBUG || "")) { + process.on("exit", function() { + debug(fs17[gracefulQueue]); + require("assert").equal(fs17[gracefulQueue].length, 0); }); } - [ONLSTAT](stat) { - this.statCache.set(this.absolute, stat); - this.stat = stat; - if (!stat.isFile()) { - stat.size = 0; + } + var queue; + if (!global[gracefulQueue]) { + publishQueue(global, fs17[gracefulQueue]); + } + module2.exports = patch(clone(fs17)); + if (process.env.TEST_GRACEFUL_FS_GLOBAL_PATCH && !fs17.__patched) { + module2.exports = patch(fs17); + fs17.__patched = true; + } + function patch(fs18) { + polyfills(fs18); + fs18.gracefulify = patch; + fs18.createReadStream = createReadStream; + fs18.createWriteStream = createWriteStream; + var fs$readFile = fs18.readFile; + fs18.readFile = readFile; + function readFile(path16, options, cb) { + if (typeof options === "function") + cb = options, options = null; + return go$readFile(path16, options, cb); + function go$readFile(path17, options2, cb2, startTime) { + return fs$readFile(path17, options2, function(err) { + if (err && (err.code === "EMFILE" || err.code === "ENFILE")) + enqueue([go$readFile, [path17, options2, cb2], err, startTime || Date.now(), Date.now()]); + else { + if (typeof cb2 === "function") + cb2.apply(this, arguments); + } + }); } - this.type = getType(stat); - this.emit("stat", stat); - this[PROCESS](); } - [PROCESS]() { - switch (this.type) { - case "File": - return this[FILE2](); - case "Directory": - return this[DIRECTORY2](); - case "SymbolicLink": - return this[SYMLINK2](); - // unsupported types are ignored. - default: - return this.end(); + var fs$writeFile = fs18.writeFile; + fs18.writeFile = writeFile; + function writeFile(path16, data, options, cb) { + if (typeof options === "function") + cb = options, options = null; + return go$writeFile(path16, data, options, cb); + function go$writeFile(path17, data2, options2, cb2, startTime) { + return fs$writeFile(path17, data2, options2, function(err) { + if (err && (err.code === "EMFILE" || err.code === "ENFILE")) + enqueue([go$writeFile, [path17, data2, options2, cb2], err, startTime || Date.now(), Date.now()]); + else { + if (typeof cb2 === "function") + cb2.apply(this, arguments); + } + }); } } - [MODE](mode) { - return modeFix(mode, this.type === "Directory", this.portable); - } - [PREFIX](path16) { - return prefixPath(path16, this.prefix); - } - [HEADER]() { - if (!this.stat) { - throw new Error("cannot write header before stat"); - } - if (this.type === "Directory" && this.portable) { - this.noMtime = true; - } - this.onWriteEntry?.(this); - this.header = new Header({ - path: this[PREFIX](this.path), - // only apply the prefix to hard links. - linkpath: this.type === "Link" && this.linkpath !== void 0 ? this[PREFIX](this.linkpath) : this.linkpath, - // only the permissions and setuid/setgid/sticky bitflags - // not the higher-order bits that specify file type - mode: this[MODE](this.stat.mode), - uid: this.portable ? void 0 : this.stat.uid, - gid: this.portable ? void 0 : this.stat.gid, - size: this.stat.size, - mtime: this.noMtime ? void 0 : this.mtime || this.stat.mtime, - /* c8 ignore next */ - type: this.type === "Unsupported" ? void 0 : this.type, - uname: this.portable ? void 0 : this.stat.uid === this.myuid ? this.myuser : "", - atime: this.portable ? void 0 : this.stat.atime, - ctime: this.portable ? void 0 : this.stat.ctime - }); - if (this.header.encode() && !this.noPax) { - super.write(new Pax({ - atime: this.portable ? void 0 : this.header.atime, - ctime: this.portable ? void 0 : this.header.ctime, - gid: this.portable ? void 0 : this.header.gid, - mtime: this.noMtime ? void 0 : this.mtime || this.header.mtime, - path: this[PREFIX](this.path), - linkpath: this.type === "Link" && this.linkpath !== void 0 ? this[PREFIX](this.linkpath) : this.linkpath, - size: this.header.size, - uid: this.portable ? void 0 : this.header.uid, - uname: this.portable ? void 0 : this.header.uname, - dev: this.portable ? void 0 : this.stat.dev, - ino: this.portable ? void 0 : this.stat.ino, - nlink: this.portable ? void 0 : this.stat.nlink - }).encode()); - } - const block = this.header?.block; - if (!block) { - throw new Error("failed to encode header"); + var fs$appendFile = fs18.appendFile; + if (fs$appendFile) + fs18.appendFile = appendFile; + function appendFile(path16, data, options, cb) { + if (typeof options === "function") + cb = options, options = null; + return go$appendFile(path16, data, options, cb); + function go$appendFile(path17, data2, options2, cb2, startTime) { + return fs$appendFile(path17, data2, options2, function(err) { + if (err && (err.code === "EMFILE" || err.code === "ENFILE")) + enqueue([go$appendFile, [path17, data2, options2, cb2], err, startTime || Date.now(), Date.now()]); + else { + if (typeof cb2 === "function") + cb2.apply(this, arguments); + } + }); } - super.write(block); } - [DIRECTORY2]() { - if (!this.stat) { - throw new Error("cannot create directory entry without stat"); + var fs$copyFile = fs18.copyFile; + if (fs$copyFile) + fs18.copyFile = copyFile; + function copyFile(src, dest, flags, cb) { + if (typeof flags === "function") { + cb = flags; + flags = 0; + } + return go$copyFile(src, dest, flags, cb); + function go$copyFile(src2, dest2, flags2, cb2, startTime) { + return fs$copyFile(src2, dest2, flags2, function(err) { + if (err && (err.code === "EMFILE" || err.code === "ENFILE")) + enqueue([go$copyFile, [src2, dest2, flags2, cb2], err, startTime || Date.now(), Date.now()]); + else { + if (typeof cb2 === "function") + cb2.apply(this, arguments); + } + }); } - if (this.path.slice(-1) !== "/") { - this.path += "/"; + } + var fs$readdir = fs18.readdir; + fs18.readdir = readdir; + var noReaddirOptionVersions = /^v[0-5]\./; + function readdir(path16, options, cb) { + if (typeof options === "function") + cb = options, options = null; + var go$readdir = noReaddirOptionVersions.test(process.version) ? function go$readdir2(path17, options2, cb2, startTime) { + return fs$readdir(path17, fs$readdirCallback( + path17, + options2, + cb2, + startTime + )); + } : function go$readdir2(path17, options2, cb2, startTime) { + return fs$readdir(path17, options2, fs$readdirCallback( + path17, + options2, + cb2, + startTime + )); + }; + return go$readdir(path16, options, cb); + function fs$readdirCallback(path17, options2, cb2, startTime) { + return function(err, files) { + if (err && (err.code === "EMFILE" || err.code === "ENFILE")) + enqueue([ + go$readdir, + [path17, options2, cb2], + err, + startTime || Date.now(), + Date.now() + ]); + else { + if (files && files.sort) + files.sort(); + if (typeof cb2 === "function") + cb2.call(this, err, files); + } + }; } - this.stat.size = 0; - this[HEADER](); - this.end(); } - [SYMLINK2]() { - import_fs11.default.readlink(this.absolute, (er, linkpath) => { - if (er) { - return this.emit("error", er); - } - this[ONREADLINK](linkpath); - }); + if (process.version.substr(0, 4) === "v0.8") { + var legStreams = legacy(fs18); + ReadStream2 = legStreams.ReadStream; + WriteStream2 = legStreams.WriteStream; } - [ONREADLINK](linkpath) { - this.linkpath = normalizeWindowsPath(linkpath); - this[HEADER](); - this.end(); + var fs$ReadStream = fs18.ReadStream; + if (fs$ReadStream) { + ReadStream2.prototype = Object.create(fs$ReadStream.prototype); + ReadStream2.prototype.open = ReadStream$open; } - [HARDLINK2](linkpath) { - if (!this.stat) { - throw new Error("cannot create link entry without stat"); - } - this.type = "Link"; - this.linkpath = normalizeWindowsPath(import_path9.default.relative(this.cwd, linkpath)); - this.stat.size = 0; - this[HEADER](); - this.end(); + var fs$WriteStream = fs18.WriteStream; + if (fs$WriteStream) { + WriteStream2.prototype = Object.create(fs$WriteStream.prototype); + WriteStream2.prototype.open = WriteStream$open; } - [FILE2]() { - if (!this.stat) { - throw new Error("cannot create file entry without stat"); - } - if (this.stat.nlink > 1) { - const linkKey = `${this.stat.dev}:${this.stat.ino}`; - const linkpath = this.linkCache.get(linkKey); - if (linkpath?.indexOf(this.cwd) === 0) { - return this[HARDLINK2](linkpath); - } - this.linkCache.set(linkKey, this.absolute); - } - this[HEADER](); - if (this.stat.size === 0) { - return this.end(); - } - this[OPENFILE](); + Object.defineProperty(fs18, "ReadStream", { + get: function() { + return ReadStream2; + }, + set: function(val) { + ReadStream2 = val; + }, + enumerable: true, + configurable: true + }); + Object.defineProperty(fs18, "WriteStream", { + get: function() { + return WriteStream2; + }, + set: function(val) { + WriteStream2 = val; + }, + enumerable: true, + configurable: true + }); + var FileReadStream = ReadStream2; + Object.defineProperty(fs18, "FileReadStream", { + get: function() { + return FileReadStream; + }, + set: function(val) { + FileReadStream = val; + }, + enumerable: true, + configurable: true + }); + var FileWriteStream = WriteStream2; + Object.defineProperty(fs18, "FileWriteStream", { + get: function() { + return FileWriteStream; + }, + set: function(val) { + FileWriteStream = val; + }, + enumerable: true, + configurable: true + }); + function ReadStream2(path16, options) { + if (this instanceof ReadStream2) + return fs$ReadStream.apply(this, arguments), this; + else + return ReadStream2.apply(Object.create(ReadStream2.prototype), arguments); } - [OPENFILE]() { - import_fs11.default.open(this.absolute, "r", (er, fd) => { - if (er) { - return this.emit("error", er); + function ReadStream$open() { + var that = this; + open(that.path, that.flags, that.mode, function(err, fd) { + if (err) { + if (that.autoClose) + that.destroy(); + that.emit("error", err); + } else { + that.fd = fd; + that.emit("open", fd); + that.read(); } - this[ONOPENFILE](fd); }); } - [ONOPENFILE](fd) { - this.fd = fd; - if (this.#hadError) { - return this[CLOSE](); - } - if (!this.stat) { - throw new Error("should stat before calling onopenfile"); - } - this.blockLen = 512 * Math.ceil(this.stat.size / 512); - this.blockRemain = this.blockLen; - const bufLen = Math.min(this.blockLen, this.maxReadSize); - this.buf = Buffer.allocUnsafe(bufLen); - this.offset = 0; - this.pos = 0; - this.remain = this.stat.size; - this.length = this.buf.length; - this[READ2](); + function WriteStream2(path16, options) { + if (this instanceof WriteStream2) + return fs$WriteStream.apply(this, arguments), this; + else + return WriteStream2.apply(Object.create(WriteStream2.prototype), arguments); } - [READ2]() { - const { fd, buf, offset, length, pos: pos2 } = this; - if (fd === void 0 || buf === void 0) { - throw new Error("cannot read file without first opening"); - } - import_fs11.default.read(fd, buf, offset, length, pos2, (er, bytesRead) => { - if (er) { - return this[CLOSE](() => this.emit("error", er)); + function WriteStream$open() { + var that = this; + open(that.path, that.flags, that.mode, function(err, fd) { + if (err) { + that.destroy(); + that.emit("error", err); + } else { + that.fd = fd; + that.emit("open", fd); } - this[ONREAD](bytesRead); }); } - /* c8 ignore start */ - [CLOSE](cb = () => { - }) { - if (this.fd !== void 0) - import_fs11.default.close(this.fd, cb); + function createReadStream(path16, options) { + return new fs18.ReadStream(path16, options); } - [ONREAD](bytesRead) { - if (bytesRead <= 0 && this.remain > 0) { - const er = Object.assign(new Error("encountered unexpected EOF"), { - path: this.absolute, - syscall: "read", - code: "EOF" - }); - return this[CLOSE](() => this.emit("error", er)); - } - if (bytesRead > this.remain) { - const er = Object.assign(new Error("did not encounter expected EOF"), { - path: this.absolute, - syscall: "read", - code: "EOF" + function createWriteStream(path16, options) { + return new fs18.WriteStream(path16, options); + } + var fs$open = fs18.open; + fs18.open = open; + function open(path16, flags, mode, cb) { + if (typeof mode === "function") + cb = mode, mode = null; + return go$open(path16, flags, mode, cb); + function go$open(path17, flags2, mode2, cb2, startTime) { + return fs$open(path17, flags2, mode2, function(err, fd) { + if (err && (err.code === "EMFILE" || err.code === "ENFILE")) + enqueue([go$open, [path17, flags2, mode2, cb2], err, startTime || Date.now(), Date.now()]); + else { + if (typeof cb2 === "function") + cb2.apply(this, arguments); + } }); - return this[CLOSE](() => this.emit("error", er)); - } - if (!this.buf) { - throw new Error("should have created buffer prior to reading"); } - if (bytesRead === this.remain) { - for (let i = bytesRead; i < this.length && bytesRead < this.blockRemain; i++) { - this.buf[i + this.offset] = 0; - bytesRead++; - this.remain++; - } + } + return fs18; + } + function enqueue(elem) { + debug("ENQUEUE", elem[0].name, elem[1]); + fs17[gracefulQueue].push(elem); + retry(); + } + var retryTimer; + function resetQueue() { + var now = Date.now(); + for (var i = 0; i < fs17[gracefulQueue].length; ++i) { + if (fs17[gracefulQueue][i].length > 2) { + fs17[gracefulQueue][i][3] = now; + fs17[gracefulQueue][i][4] = now; } - const chunk = this.offset === 0 && bytesRead === this.buf.length ? this.buf : this.buf.subarray(this.offset, this.offset + bytesRead); - const flushed = this.write(chunk); - if (!flushed) { - this[AWAITDRAIN](() => this[ONDRAIN]()); + } + retry(); + } + function retry() { + clearTimeout(retryTimer); + retryTimer = void 0; + if (fs17[gracefulQueue].length === 0) + return; + var elem = fs17[gracefulQueue].shift(); + var fn2 = elem[0]; + var args = elem[1]; + var err = elem[2]; + var startTime = elem[3]; + var lastTime = elem[4]; + if (startTime === void 0) { + debug("RETRY", fn2.name, args); + fn2.apply(null, args); + } else if (Date.now() - startTime >= 6e4) { + debug("TIMEOUT", fn2.name, args); + var cb = args.pop(); + if (typeof cb === "function") + cb.call(null, err); + } else { + var sinceAttempt = Date.now() - lastTime; + var sinceStart = Math.max(lastTime - startTime, 1); + var desiredDelay = Math.min(sinceStart * 1.2, 100); + if (sinceAttempt >= desiredDelay) { + debug("RETRY", fn2.name, args); + fn2.apply(null, args.concat([startTime])); } else { - this[ONDRAIN](); + fs17[gracefulQueue].push(elem); } } - [AWAITDRAIN](cb) { - this.once("drain", cb); + if (retryTimer === void 0) { + retryTimer = setTimeout(retry, 0); } - write(chunk, encoding, cb) { - if (typeof encoding === "function") { - cb = encoding; - encoding = void 0; - } - if (typeof chunk === "string") { - chunk = Buffer.from(chunk, typeof encoding === "string" ? encoding : "utf8"); - } - if (this.blockRemain < chunk.length) { - const er = Object.assign(new Error("writing more data than expected"), { - path: this.absolute - }); - return this.emit("error", er); - } - this.remain -= chunk.length; - this.blockRemain -= chunk.length; - this.pos += chunk.length; - this.offset += chunk.length; - return super.write(chunk, null, cb); + } + } +}); + +// node_modules/@zkochan/cmd-shim/index.js +var require_cmd_shim = __commonJS({ + "node_modules/@zkochan/cmd-shim/index.js"(exports2, module2) { + "use strict"; + cmdShim2.ifExists = cmdShimIfExists; + var util_1 = require("util"); + var path16 = require("path"); + var isWindows4 = require_is_windows(); + var CMD_EXTENSION = require_cmd_extension(); + var shebangExpr = /^#!\s*(?:\/usr\/bin\/env(?:\s+-S\s*)?)?\s*([^ \t]+)(.*)$/; + var DEFAULT_OPTIONS = { + // Create PowerShell file by default if the option hasn't been specified + createPwshFile: true, + createCmdFile: isWindows4(), + fs: require_graceful_fs() + }; + var extensionToProgramMap = /* @__PURE__ */ new Map([ + [".js", "node"], + [".cjs", "node"], + [".mjs", "node"], + [".cmd", "cmd"], + [".bat", "cmd"], + [".ps1", "pwsh"], + [".sh", "sh"] + ]); + function ingestOptions(opts) { + const opts_ = { ...DEFAULT_OPTIONS, ...opts }; + const fs17 = opts_.fs; + opts_.fs_ = { + chmod: fs17.chmod ? (0, util_1.promisify)(fs17.chmod) : (async () => { + }), + mkdir: (0, util_1.promisify)(fs17.mkdir), + readFile: (0, util_1.promisify)(fs17.readFile), + stat: (0, util_1.promisify)(fs17.stat), + unlink: (0, util_1.promisify)(fs17.unlink), + writeFile: (0, util_1.promisify)(fs17.writeFile) + }; + return opts_; + } + async function cmdShim2(src, to, opts) { + const opts_ = ingestOptions(opts); + await cmdShim_(src, to, opts_); + } + function cmdShimIfExists(src, to, opts) { + return cmdShim2(src, to, opts).catch(() => { + }); + } + function rm(path17, opts) { + return opts.fs_.unlink(path17).catch(() => { + }); + } + async function cmdShim_(src, to, opts) { + const srcRuntimeInfo = await searchScriptRuntime(src, opts); + await writeShimsPreCommon(to, opts); + return writeAllShims(src, to, srcRuntimeInfo, opts); + } + function writeShimsPreCommon(target, opts) { + return opts.fs_.mkdir(path16.dirname(target), { recursive: true }); + } + function writeAllShims(src, to, srcRuntimeInfo, opts) { + const opts_ = ingestOptions(opts); + const generatorAndExts = [{ generator: generateShShim, extension: "" }]; + if (opts_.createCmdFile) { + generatorAndExts.push({ generator: generateCmdShim, extension: CMD_EXTENSION }); } - [ONDRAIN]() { - if (!this.remain) { - if (this.blockRemain) { - super.write(Buffer.alloc(this.blockRemain)); - } - return this[CLOSE]((er) => er ? this.emit("error", er) : this.end()); - } - if (!this.buf) { - throw new Error("buffer lost somehow in ONDRAIN"); + if (opts_.createPwshFile) { + generatorAndExts.push({ generator: generatePwshShim, extension: ".ps1" }); + } + return Promise.all(generatorAndExts.map((generatorAndExt) => writeShim(src, to + generatorAndExt.extension, srcRuntimeInfo, generatorAndExt.generator, opts_))); + } + function writeShimPre(target, opts) { + return rm(target, opts); + } + function writeShimPost(target, opts) { + return chmodShim(target, opts); + } + async function searchScriptRuntime(target, opts) { + try { + const data = await opts.fs_.readFile(target, "utf8"); + const firstLine = data.trim().split(/\r*\n/)[0]; + const shebang = firstLine.match(shebangExpr); + if (!shebang) { + const targetExtension = path16.extname(target).toLowerCase(); + return { + // undefined if extension is unknown but it's converted to null. + program: extensionToProgramMap.get(targetExtension) || null, + additionalArgs: "" + }; } - if (this.offset >= this.length) { - this.buf = Buffer.allocUnsafe(Math.min(this.blockRemain, this.buf.length)); - this.offset = 0; + return { + program: shebang[1], + additionalArgs: shebang[2] + }; + } catch (err) { + if (!isWindows4() || err.code !== "ENOENT") + throw err; + if (await opts.fs_.stat(`${target}${getExeExtension()}`)) { + return { + program: null, + additionalArgs: "" + }; } - this.length = this.buf.length - this.offset; - this[READ2](); + throw err; } - }; - WriteEntrySync = class extends WriteEntry { - sync = true; - [LSTAT]() { - this[ONLSTAT](import_fs11.default.lstatSync(this.absolute)); + } + function getExeExtension() { + let cmdExtension; + if (process.env.PATHEXT) { + cmdExtension = process.env.PATHEXT.split(path16.delimiter).find((ext) => ext.toLowerCase() === ".exe"); } - [SYMLINK2]() { - this[ONREADLINK](import_fs11.default.readlinkSync(this.absolute)); + return cmdExtension || ".exe"; + } + async function writeShim(src, to, srcRuntimeInfo, generateShimScript, opts) { + const defaultArgs = opts.preserveSymlinks ? "--preserve-symlinks" : ""; + const args = [srcRuntimeInfo.additionalArgs, defaultArgs].filter((arg) => arg).join(" "); + opts = Object.assign({}, opts, { + prog: srcRuntimeInfo.program, + args + }); + await writeShimPre(to, opts); + await opts.fs_.writeFile(to, generateShimScript(src, to, opts), "utf8"); + return writeShimPost(to, opts); + } + function generateCmdShim(src, to, opts) { + const shTarget = path16.relative(path16.dirname(to), src); + let target = shTarget.split("/").join("\\"); + const quotedPathToTarget = path16.isAbsolute(target) ? `"${target}"` : `"%~dp0\\${target}"`; + let longProg; + let prog = opts.prog; + let args = opts.args || ""; + const nodePath = normalizePathEnvVar(opts.nodePath).win32; + const prependToPath = normalizePathEnvVar(opts.prependToPath).win32; + if (!prog) { + prog = quotedPathToTarget; + args = ""; + target = ""; + } else if (prog === "node" && opts.nodeExecPath) { + prog = `"${opts.nodeExecPath}"`; + target = quotedPathToTarget; + } else { + longProg = `"%~dp0\\${prog}.exe"`; + target = quotedPathToTarget; } - [OPENFILE]() { - this[ONOPENFILE](import_fs11.default.openSync(this.absolute, "r")); + let progArgs = opts.progArgs ? `${opts.progArgs.join(` `)} ` : ""; + let cmd = "@SETLOCAL\r\n"; + if (prependToPath) { + cmd += `@SET "PATH=${prependToPath}:%PATH%"\r +`; } - [READ2]() { - let threw = true; - try { - const { fd, buf, offset, length, pos: pos2 } = this; - if (fd === void 0 || buf === void 0) { - throw new Error("fd and buf must be set in READ method"); - } - const bytesRead = import_fs11.default.readSync(fd, buf, offset, length, pos2); - this[ONREAD](bytesRead); - threw = false; - } finally { - if (threw) { - try { - this[CLOSE](() => { - }); - } catch (er) { - } - } - } + if (nodePath) { + cmd += `@IF NOT DEFINED NODE_PATH (\r + @SET "NODE_PATH=${nodePath}"\r +) ELSE (\r + @SET "NODE_PATH=${nodePath};%NODE_PATH%"\r +)\r +`; + } + if (longProg) { + cmd += `@IF EXIST ${longProg} (\r + ${longProg} ${args} ${target} ${progArgs}%*\r +) ELSE (\r + @SET PATHEXT=%PATHEXT:;.JS;=;%\r + ${prog} ${args} ${target} ${progArgs}%*\r +)\r +`; + } else { + cmd += `@${prog} ${args} ${target} ${progArgs}%*\r +`; } - [AWAITDRAIN](cb) { - cb(); + return cmd; + } + function generateShShim(src, to, opts) { + let shTarget = path16.relative(path16.dirname(to), src); + let shProg = opts.prog && opts.prog.split("\\").join("/"); + let shLongProg; + shTarget = shTarget.split("\\").join("/"); + const quotedPathToTarget = path16.isAbsolute(shTarget) ? `"${shTarget}"` : `"$basedir/${shTarget}"`; + let args = opts.args || ""; + const shNodePath = normalizePathEnvVar(opts.nodePath).posix; + if (!shProg) { + shProg = quotedPathToTarget; + args = ""; + shTarget = ""; + } else if (opts.prog === "node" && opts.nodeExecPath) { + shProg = `"${opts.nodeExecPath}"`; + shTarget = quotedPathToTarget; + } else { + shLongProg = `"$basedir/${opts.prog}"`; + shTarget = quotedPathToTarget; } - /* c8 ignore start */ - [CLOSE](cb = () => { - }) { - if (this.fd !== void 0) - import_fs11.default.closeSync(this.fd); - cb(); + let progArgs = opts.progArgs ? `${opts.progArgs.join(` `)} ` : ""; + let sh = `#!/bin/sh +basedir=$(dirname "$(echo "$0" | sed -e 's,\\\\,/,g')") + +case \`uname\` in + *CYGWIN*) basedir=\`cygpath -w "$basedir"\`;; +esac + +`; + if (opts.prependToPath) { + sh += `export PATH="${opts.prependToPath}:$PATH" +`; } - }; - WriteEntryTar = class extends Minipass { - blockLen = 0; - blockRemain = 0; - buf = 0; - pos = 0; - remain = 0; - length = 0; - preservePaths; - portable; - strict; - noPax; - noMtime; - readEntry; - type; - prefix; - path; - mode; - uid; - gid; - uname; - gname; - header; - mtime; - atime; - ctime; - linkpath; - size; - onWriteEntry; - warn(code2, message, data = {}) { - return warnMethod(this, code2, message, data); + if (shNodePath) { + sh += `if [ -z "$NODE_PATH" ]; then + export NODE_PATH="${shNodePath}" +else + export NODE_PATH="${shNodePath}:$NODE_PATH" +fi +`; } - constructor(readEntry, opt_ = {}) { - const opt = dealias(opt_); - super(); - this.preservePaths = !!opt.preservePaths; - this.portable = !!opt.portable; - this.strict = !!opt.strict; - this.noPax = !!opt.noPax; - this.noMtime = !!opt.noMtime; - this.onWriteEntry = opt.onWriteEntry; - this.readEntry = readEntry; - const { type } = readEntry; - if (type === "Unsupported") { - throw new Error("writing entry that should be ignored"); - } - this.type = type; - if (this.type === "Directory" && this.portable) { - this.noMtime = true; - } - this.prefix = opt.prefix; - this.path = normalizeWindowsPath(readEntry.path); - this.mode = readEntry.mode !== void 0 ? this[MODE](readEntry.mode) : void 0; - this.uid = this.portable ? void 0 : readEntry.uid; - this.gid = this.portable ? void 0 : readEntry.gid; - this.uname = this.portable ? void 0 : readEntry.uname; - this.gname = this.portable ? void 0 : readEntry.gname; - this.size = readEntry.size; - this.mtime = this.noMtime ? void 0 : opt.mtime || readEntry.mtime; - this.atime = this.portable ? void 0 : readEntry.atime; - this.ctime = this.portable ? void 0 : readEntry.ctime; - this.linkpath = readEntry.linkpath !== void 0 ? normalizeWindowsPath(readEntry.linkpath) : void 0; - if (typeof opt.onwarn === "function") { - this.on("warn", opt.onwarn); - } - let pathWarn = false; - if (!this.preservePaths) { - const [root, stripped] = stripAbsolutePath(this.path); - if (root && typeof stripped === "string") { - this.path = stripped; - pathWarn = root; - } - } - this.remain = readEntry.size; - this.blockRemain = readEntry.startBlockSize; - this.onWriteEntry?.(this); - this.header = new Header({ - path: this[PREFIX](this.path), - linkpath: this.type === "Link" && this.linkpath !== void 0 ? this[PREFIX](this.linkpath) : this.linkpath, - // only the permissions and setuid/setgid/sticky bitflags - // not the higher-order bits that specify file type - mode: this.mode, - uid: this.portable ? void 0 : this.uid, - gid: this.portable ? void 0 : this.gid, - size: this.size, - mtime: this.noMtime ? void 0 : this.mtime, - type: this.type, - uname: this.portable ? void 0 : this.uname, - atime: this.portable ? void 0 : this.atime, - ctime: this.portable ? void 0 : this.ctime - }); - if (pathWarn) { - this.warn("TAR_ENTRY_INFO", `stripping ${pathWarn} from absolute path`, { - entry: this, - path: pathWarn + this.path - }); - } - if (this.header.encode() && !this.noPax) { - super.write(new Pax({ - atime: this.portable ? void 0 : this.atime, - ctime: this.portable ? void 0 : this.ctime, - gid: this.portable ? void 0 : this.gid, - mtime: this.noMtime ? void 0 : this.mtime, - path: this[PREFIX](this.path), - linkpath: this.type === "Link" && this.linkpath !== void 0 ? this[PREFIX](this.linkpath) : this.linkpath, - size: this.size, - uid: this.portable ? void 0 : this.uid, - uname: this.portable ? void 0 : this.uname, - dev: this.portable ? void 0 : this.readEntry.dev, - ino: this.portable ? void 0 : this.readEntry.ino, - nlink: this.portable ? void 0 : this.readEntry.nlink - }).encode()); - } - const b = this.header?.block; - if (!b) - throw new Error("failed to encode header"); - super.write(b); - readEntry.pipe(this); + if (shLongProg) { + sh += `if [ -x ${shLongProg} ]; then + exec ${shLongProg} ${args} ${shTarget} ${progArgs}"$@" +else + exec ${shProg} ${args} ${shTarget} ${progArgs}"$@" +fi +`; + } else { + sh += `${shProg} ${args} ${shTarget} ${progArgs}"$@" +exit $? +`; } - [PREFIX](path16) { - return prefixPath(path16, this.prefix); + return sh; + } + function generatePwshShim(src, to, opts) { + let shTarget = path16.relative(path16.dirname(to), src); + const shProg = opts.prog && opts.prog.split("\\").join("/"); + let pwshProg = shProg && `"${shProg}$exe"`; + let pwshLongProg; + shTarget = shTarget.split("\\").join("/"); + const quotedPathToTarget = path16.isAbsolute(shTarget) ? `"${shTarget}"` : `"$basedir/${shTarget}"`; + let args = opts.args || ""; + let normalizedNodePathEnvVar = normalizePathEnvVar(opts.nodePath); + const nodePath = normalizedNodePathEnvVar.win32; + const shNodePath = normalizedNodePathEnvVar.posix; + let normalizedPrependPathEnvVar = normalizePathEnvVar(opts.prependToPath); + const prependPath = normalizedPrependPathEnvVar.win32; + const shPrependPath = normalizedPrependPathEnvVar.posix; + if (!pwshProg) { + pwshProg = quotedPathToTarget; + args = ""; + shTarget = ""; + } else if (opts.prog === "node" && opts.nodeExecPath) { + pwshProg = `"${opts.nodeExecPath}"`; + shTarget = quotedPathToTarget; + } else { + pwshLongProg = `"$basedir/${opts.prog}$exe"`; + shTarget = quotedPathToTarget; } - [MODE](mode) { - return modeFix(mode, this.type === "Directory", this.portable); + let progArgs = opts.progArgs ? `${opts.progArgs.join(` `)} ` : ""; + let pwsh = `#!/usr/bin/env pwsh +$basedir=Split-Path $MyInvocation.MyCommand.Definition -Parent + +$exe="" +${nodePath || prependPath ? '$pathsep=":"\n' : ""}${nodePath ? `$env_node_path=$env:NODE_PATH +$new_node_path="${nodePath}" +` : ""}${prependPath ? `$env_path=$env:PATH +$prepend_path="${prependPath}" +` : ""}if ($PSVersionTable.PSVersion -lt "6.0" -or $IsWindows) { + # Fix case when both the Windows and Linux builds of Node + # are installed in the same directory + $exe=".exe" +${nodePath || prependPath ? ' $pathsep=";"\n' : ""}}`; + if (shNodePath || shPrependPath) { + pwsh += ` else { +${shNodePath ? ` $new_node_path="${shNodePath}" +` : ""}${shPrependPath ? ` $prepend_path="${shPrependPath}" +` : ""}} +`; } - write(chunk, encoding, cb) { - if (typeof encoding === "function") { - cb = encoding; - encoding = void 0; - } - if (typeof chunk === "string") { - chunk = Buffer.from(chunk, typeof encoding === "string" ? encoding : "utf8"); - } - const writeLen = chunk.length; - if (writeLen > this.blockRemain) { - throw new Error("writing more to entry than is appropriate"); - } - this.blockRemain -= writeLen; - return super.write(chunk, cb); + if (shNodePath) { + pwsh += `if ([string]::IsNullOrEmpty($env_node_path)) { + $env:NODE_PATH=$new_node_path +} else { + $env:NODE_PATH="$new_node_path$pathsep$env_node_path" +} +`; } - end(chunk, encoding, cb) { - if (this.blockRemain) { - super.write(Buffer.alloc(this.blockRemain)); - } - if (typeof chunk === "function") { - cb = chunk; - encoding = void 0; - chunk = void 0; - } - if (typeof encoding === "function") { - cb = encoding; - encoding = void 0; - } - if (typeof chunk === "string") { - chunk = Buffer.from(chunk, encoding ?? "utf8"); - } - if (cb) - this.once("finish", cb); - chunk ? super.end(chunk, cb) : super.end(cb); - return this; + if (opts.prependToPath) { + pwsh += ` +$env:PATH="$prepend_path$pathsep$env:PATH" +`; } - }; - getType = (stat) => stat.isFile() ? "File" : stat.isDirectory() ? "Directory" : stat.isSymbolicLink() ? "SymbolicLink" : "Unsupported"; - } -}); - -// .yarn/cache/yallist-npm-5.0.0-8732dd9f1c-a499c81ce6.zip/node_modules/yallist/dist/esm/index.js -function insertAfter(self2, node, value) { - const prev = node; - const next = node ? node.next : self2.head; - const inserted = new Node(value, prev, next, self2); - if (inserted.next === void 0) { - self2.tail = inserted; - } - if (inserted.prev === void 0) { - self2.head = inserted; + if (pwshLongProg) { + pwsh += ` +$ret=0 +if (Test-Path ${pwshLongProg}) { + # Support pipeline input + if ($MyInvocation.ExpectingInput) { + $input | & ${pwshLongProg} ${args} ${shTarget} ${progArgs}$args + } else { + & ${pwshLongProg} ${args} ${shTarget} ${progArgs}$args } - self2.length++; - return inserted; -} -function push(self2, item) { - self2.tail = new Node(item, self2.tail, void 0, self2); - if (!self2.head) { - self2.head = self2.tail; + $ret=$LASTEXITCODE +} else { + # Support pipeline input + if ($MyInvocation.ExpectingInput) { + $input | & ${pwshProg} ${args} ${shTarget} ${progArgs}$args + } else { + & ${pwshProg} ${args} ${shTarget} ${progArgs}$args } - self2.length++; + $ret=$LASTEXITCODE } -function unshift(self2, item) { - self2.head = new Node(item, void 0, self2.head, self2); - if (!self2.tail) { - self2.tail = self2.head; - } - self2.length++; +${nodePath ? "$env:NODE_PATH=$env_node_path\n" : ""}${prependPath ? "$env:PATH=$env_path\n" : ""}exit $ret +`; + } else { + pwsh += ` +# Support pipeline input +if ($MyInvocation.ExpectingInput) { + $input | & ${pwshProg} ${args} ${shTarget} ${progArgs}$args +} else { + & ${pwshProg} ${args} ${shTarget} ${progArgs}$args } -var Yallist, Node; -var init_esm5 = __esm({ - ".yarn/cache/yallist-npm-5.0.0-8732dd9f1c-a499c81ce6.zip/node_modules/yallist/dist/esm/index.js"() { - Yallist = class _Yallist { - tail; - head; - length = 0; - static create(list2 = []) { - return new _Yallist(list2); +${nodePath ? "$env:NODE_PATH=$env_node_path\n" : ""}${prependPath ? "$env:PATH=$env_path\n" : ""}exit $LASTEXITCODE +`; } - constructor(list2 = []) { - for (const item of list2) { - this.push(item); - } + return pwsh; + } + function chmodShim(to, opts) { + return opts.fs_.chmod(to, 493); + } + function normalizePathEnvVar(nodePath) { + if (!nodePath || !nodePath.length) { + return { + win32: "", + posix: "" + }; } - *[Symbol.iterator]() { - for (let walker = this.head; walker; walker = walker.next) { - yield walker.value; - } + let split = typeof nodePath === "string" ? nodePath.split(path16.delimiter) : Array.from(nodePath); + let result = {}; + for (let i = 0; i < split.length; i++) { + const win322 = split[i].split("/").join("\\"); + const posix = isWindows4() ? split[i].split("\\").join("/").replace(/^([^:\\/]*):/, (_, $1) => `/mnt/${$1.toLowerCase()}`) : split[i]; + result.win32 = result.win32 ? `${result.win32};${win322}` : win322; + result.posix = result.posix ? `${result.posix}:${posix}` : posix; + result[i] = { win32: win322, posix }; } - removeNode(node) { - if (node.list !== this) { - throw new Error("removing node which does not belong to this list"); - } - const next = node.next; - const prev = node.prev; - if (next) { - next.prev = prev; - } - if (prev) { - prev.next = next; - } - if (node === this.head) { - this.head = next; - } - if (node === this.tail) { - this.tail = prev; - } - this.length--; - node.next = void 0; - node.prev = void 0; - node.list = void 0; - return next; + return result; + } + module2.exports = cmdShim2; + } +}); + +// node_modules/tar/dist/esm/mode-fix.js +var modeFix; +var init_mode_fix = __esm({ + "node_modules/tar/dist/esm/mode-fix.js"() { + modeFix = (mode, isDir, portable) => { + mode &= 4095; + if (portable) { + mode = (mode | 384) & ~18; } - unshiftNode(node) { - if (node === this.head) { - return; - } - if (node.list) { - node.list.removeNode(node); + if (isDir) { + if (mode & 256) { + mode |= 64; } - const head = this.head; - node.list = this; - node.next = head; - if (head) { - head.prev = node; + if (mode & 32) { + mode |= 8; } - this.head = node; - if (!this.tail) { - this.tail = node; + if (mode & 4) { + mode |= 1; } - this.length++; } - pushNode(node) { - if (node === this.tail) { - return; - } - if (node.list) { - node.list.removeNode(node); - } - const tail = this.tail; - node.list = this; - node.prev = tail; - if (tail) { - tail.next = node; + return mode; + }; + } +}); + +// node_modules/tar/dist/esm/write-entry.js +var import_fs11, import_path9, prefixPath, maxReadSize, PROCESS, FILE2, DIRECTORY2, SYMLINK2, HARDLINK2, HEADER, READ2, LSTAT, ONLSTAT, ONREAD, ONREADLINK, OPENFILE, ONOPENFILE, CLOSE, MODE, AWAITDRAIN, ONDRAIN, PREFIX, WriteEntry, WriteEntrySync, WriteEntryTar, getType; +var init_write_entry = __esm({ + "node_modules/tar/dist/esm/write-entry.js"() { + import_fs11 = __toESM(require("fs"), 1); + init_esm(); + import_path9 = __toESM(require("path"), 1); + init_header(); + init_mode_fix(); + init_normalize_windows_path(); + init_options(); + init_pax(); + init_strip_absolute_path(); + init_strip_trailing_slashes(); + init_warn_method(); + init_winchars(); + prefixPath = (path16, prefix) => { + if (!prefix) { + return normalizeWindowsPath(path16); + } + path16 = normalizeWindowsPath(path16).replace(/^\.(\/|$)/, ""); + return stripTrailingSlashes(prefix) + "/" + path16; + }; + maxReadSize = 16 * 1024 * 1024; + PROCESS = /* @__PURE__ */ Symbol("process"); + FILE2 = /* @__PURE__ */ Symbol("file"); + DIRECTORY2 = /* @__PURE__ */ Symbol("directory"); + SYMLINK2 = /* @__PURE__ */ Symbol("symlink"); + HARDLINK2 = /* @__PURE__ */ Symbol("hardlink"); + HEADER = /* @__PURE__ */ Symbol("header"); + READ2 = /* @__PURE__ */ Symbol("read"); + LSTAT = /* @__PURE__ */ Symbol("lstat"); + ONLSTAT = /* @__PURE__ */ Symbol("onlstat"); + ONREAD = /* @__PURE__ */ Symbol("onread"); + ONREADLINK = /* @__PURE__ */ Symbol("onreadlink"); + OPENFILE = /* @__PURE__ */ Symbol("openfile"); + ONOPENFILE = /* @__PURE__ */ Symbol("onopenfile"); + CLOSE = /* @__PURE__ */ Symbol("close"); + MODE = /* @__PURE__ */ Symbol("mode"); + AWAITDRAIN = /* @__PURE__ */ Symbol("awaitDrain"); + ONDRAIN = /* @__PURE__ */ Symbol("ondrain"); + PREFIX = /* @__PURE__ */ Symbol("prefix"); + WriteEntry = class extends Minipass { + path; + portable; + myuid = process.getuid && process.getuid() || 0; + // until node has builtin pwnam functions, this'll have to do + myuser = process.env.USER || ""; + maxReadSize; + linkCache; + statCache; + preservePaths; + cwd; + strict; + mtime; + noPax; + noMtime; + prefix; + fd; + blockLen = 0; + blockRemain = 0; + buf; + pos = 0; + remain = 0; + length = 0; + offset = 0; + win32; + absolute; + header; + type; + linkpath; + stat; + onWriteEntry; + #hadError = false; + constructor(p, opt_ = {}) { + const opt = dealias(opt_); + super(); + this.path = normalizeWindowsPath(p); + this.portable = !!opt.portable; + this.maxReadSize = opt.maxReadSize || maxReadSize; + this.linkCache = opt.linkCache || /* @__PURE__ */ new Map(); + this.statCache = opt.statCache || /* @__PURE__ */ new Map(); + this.preservePaths = !!opt.preservePaths; + this.cwd = normalizeWindowsPath(opt.cwd || process.cwd()); + this.strict = !!opt.strict; + this.noPax = !!opt.noPax; + this.noMtime = !!opt.noMtime; + this.mtime = opt.mtime; + this.prefix = opt.prefix ? normalizeWindowsPath(opt.prefix) : void 0; + this.onWriteEntry = opt.onWriteEntry; + if (typeof opt.onwarn === "function") { + this.on("warn", opt.onwarn); } - this.tail = node; - if (!this.head) { - this.head = node; + let pathWarn = false; + if (!this.preservePaths) { + const [root, stripped] = stripAbsolutePath(this.path); + if (root && typeof stripped === "string") { + this.path = stripped; + pathWarn = root; + } } - this.length++; - } - push(...args) { - for (let i = 0, l = args.length; i < l; i++) { - push(this, args[i]); + this.win32 = !!opt.win32 || process.platform === "win32"; + if (this.win32) { + this.path = decode(this.path.replaceAll(/\\/g, "/")); + p = p.replaceAll(/\\/g, "/"); } - return this.length; - } - unshift(...args) { - for (var i = 0, l = args.length; i < l; i++) { - unshift(this, args[i]); + this.absolute = normalizeWindowsPath(opt.absolute || import_path9.default.resolve(this.cwd, p)); + if (this.path === "") { + this.path = "./"; } - return this.length; - } - pop() { - if (!this.tail) { - return void 0; + if (pathWarn) { + this.warn("TAR_ENTRY_INFO", `stripping ${pathWarn} from absolute path`, { + entry: this, + path: pathWarn + this.path + }); } - const res = this.tail.value; - const t = this.tail; - this.tail = this.tail.prev; - if (this.tail) { - this.tail.next = void 0; + const cs = this.statCache.get(this.absolute); + if (cs) { + this[ONLSTAT](cs); } else { - this.head = void 0; + this[LSTAT](); } - t.list = void 0; - this.length--; - return res; } - shift() { - if (!this.head) { - return void 0; - } - const res = this.head.value; - const h = this.head; - this.head = this.head.next; - if (this.head) { - this.head.prev = void 0; - } else { - this.tail = void 0; - } - h.list = void 0; - this.length--; - return res; + warn(code2, message, data = {}) { + return warnMethod(this, code2, message, data); } - forEach(fn2, thisp) { - thisp = thisp || this; - for (let walker = this.head, i = 0; !!walker; i++) { - fn2.call(thisp, walker.value, i, this); - walker = walker.next; + emit(ev, ...data) { + if (ev === "error") { + this.#hadError = true; } + return super.emit(ev, ...data); } - forEachReverse(fn2, thisp) { - thisp = thisp || this; - for (let walker = this.tail, i = this.length - 1; !!walker; i--) { - fn2.call(thisp, walker.value, i, this); - walker = walker.prev; - } + [LSTAT]() { + import_fs11.default.lstat(this.absolute, (er, stat) => { + if (er) { + return this.emit("error", er); + } + this[ONLSTAT](stat); + }); } - get(n) { - let i = 0; - let walker = this.head; - for (; !!walker && i < n; i++) { - walker = walker.next; - } - if (i === n && !!walker) { - return walker.value; + [ONLSTAT](stat) { + this.statCache.set(this.absolute, stat); + this.stat = stat; + if (!stat.isFile()) { + stat.size = 0; } + this.type = getType(stat); + this.emit("stat", stat); + this[PROCESS](); } - getReverse(n) { - let i = 0; - let walker = this.tail; - for (; !!walker && i < n; i++) { - walker = walker.prev; - } - if (i === n && !!walker) { - return walker.value; + [PROCESS]() { + switch (this.type) { + case "File": + return this[FILE2](); + case "Directory": + return this[DIRECTORY2](); + case "SymbolicLink": + return this[SYMLINK2](); + // unsupported types are ignored. + default: + return this.end(); } } - map(fn2, thisp) { - thisp = thisp || this; - const res = new _Yallist(); - for (let walker = this.head; !!walker; ) { - res.push(fn2.call(thisp, walker.value, this)); - walker = walker.next; - } - return res; + [MODE](mode) { + return modeFix(mode, this.type === "Directory", this.portable); } - mapReverse(fn2, thisp) { - thisp = thisp || this; - var res = new _Yallist(); - for (let walker = this.tail; !!walker; ) { - res.push(fn2.call(thisp, walker.value, this)); - walker = walker.prev; - } - return res; + [PREFIX](path16) { + return prefixPath(path16, this.prefix); } - reduce(fn2, initial) { - let acc; - let walker = this.head; - if (arguments.length > 1) { - acc = initial; - } else if (this.head) { - walker = this.head.next; - acc = this.head.value; - } else { - throw new TypeError("Reduce of empty list with no initial value"); + [HEADER]() { + if (!this.stat) { + throw new Error("cannot write header before stat"); } - for (var i = 0; !!walker; i++) { - acc = fn2(acc, walker.value, i); - walker = walker.next; + if (this.type === "Directory" && this.portable) { + this.noMtime = true; } - return acc; - } - reduceReverse(fn2, initial) { - let acc; - let walker = this.tail; - if (arguments.length > 1) { - acc = initial; - } else if (this.tail) { - walker = this.tail.prev; - acc = this.tail.value; - } else { - throw new TypeError("Reduce of empty list with no initial value"); + this.onWriteEntry?.(this); + this.header = new Header({ + path: this[PREFIX](this.path), + // only apply the prefix to hard links. + linkpath: this.type === "Link" && this.linkpath !== void 0 ? this[PREFIX](this.linkpath) : this.linkpath, + // only the permissions and setuid/setgid/sticky bitflags + // not the higher-order bits that specify file type + mode: this[MODE](this.stat.mode), + uid: this.portable ? void 0 : this.stat.uid, + gid: this.portable ? void 0 : this.stat.gid, + size: this.stat.size, + mtime: this.noMtime ? void 0 : this.mtime || this.stat.mtime, + /* c8 ignore next */ + type: this.type === "Unsupported" ? void 0 : this.type, + uname: this.portable ? void 0 : this.stat.uid === this.myuid ? this.myuser : "", + atime: this.portable ? void 0 : this.stat.atime, + ctime: this.portable ? void 0 : this.stat.ctime + }); + if (this.header.encode() && !this.noPax) { + super.write(new Pax({ + atime: this.portable ? void 0 : this.header.atime, + ctime: this.portable ? void 0 : this.header.ctime, + gid: this.portable ? void 0 : this.header.gid, + mtime: this.noMtime ? void 0 : this.mtime || this.header.mtime, + path: this[PREFIX](this.path), + linkpath: this.type === "Link" && this.linkpath !== void 0 ? this[PREFIX](this.linkpath) : this.linkpath, + size: this.header.size, + uid: this.portable ? void 0 : this.header.uid, + uname: this.portable ? void 0 : this.header.uname, + dev: this.portable ? void 0 : this.stat.dev, + ino: this.portable ? void 0 : this.stat.ino, + nlink: this.portable ? void 0 : this.stat.nlink + }).encode()); } - for (let i = this.length - 1; !!walker; i--) { - acc = fn2(acc, walker.value, i); - walker = walker.prev; + const block = this.header?.block; + if (!block) { + throw new Error("failed to encode header"); } - return acc; + super.write(block); } - toArray() { - const arr = new Array(this.length); - for (let i = 0, walker = this.head; !!walker; i++) { - arr[i] = walker.value; - walker = walker.next; + [DIRECTORY2]() { + if (!this.stat) { + throw new Error("cannot create directory entry without stat"); } - return arr; - } - toArrayReverse() { - const arr = new Array(this.length); - for (let i = 0, walker = this.tail; !!walker; i++) { - arr[i] = walker.value; - walker = walker.prev; + if (this.path.slice(-1) !== "/") { + this.path += "/"; } - return arr; + this.stat.size = 0; + this[HEADER](); + this.end(); } - slice(from = 0, to = this.length) { - if (to < 0) { - to += this.length; - } - if (from < 0) { - from += this.length; + [SYMLINK2]() { + import_fs11.default.readlink(this.absolute, (er, linkpath) => { + if (er) { + return this.emit("error", er); + } + this[ONREADLINK](linkpath); + }); + } + [ONREADLINK](linkpath) { + this.linkpath = normalizeWindowsPath(linkpath); + this[HEADER](); + this.end(); + } + [HARDLINK2](linkpath) { + if (!this.stat) { + throw new Error("cannot create link entry without stat"); } - const ret = new _Yallist(); - if (to < from || to < 0) { - return ret; + this.type = "Link"; + this.linkpath = normalizeWindowsPath(import_path9.default.relative(this.cwd, linkpath)); + this.stat.size = 0; + this[HEADER](); + this.end(); + } + [FILE2]() { + if (!this.stat) { + throw new Error("cannot create file entry without stat"); } - if (from < 0) { - from = 0; + if (this.stat.nlink > 1) { + const linkKey = `${this.stat.dev}:${this.stat.ino}`; + const linkpath = this.linkCache.get(linkKey); + if (linkpath?.indexOf(this.cwd) === 0) { + return this[HARDLINK2](linkpath); + } + this.linkCache.set(linkKey, this.absolute); } - if (to > this.length) { - to = this.length; + this[HEADER](); + if (this.stat.size === 0) { + return this.end(); } - let walker = this.head; - let i = 0; - for (i = 0; !!walker && i < from; i++) { - walker = walker.next; + this[OPENFILE](); + } + [OPENFILE]() { + import_fs11.default.open(this.absolute, "r", (er, fd) => { + if (er) { + return this.emit("error", er); + } + this[ONOPENFILE](fd); + }); + } + [ONOPENFILE](fd) { + this.fd = fd; + if (this.#hadError) { + return this[CLOSE](); } - for (; !!walker && i < to; i++, walker = walker.next) { - ret.push(walker.value); + if (!this.stat) { + throw new Error("should stat before calling onopenfile"); } - return ret; + this.blockLen = 512 * Math.ceil(this.stat.size / 512); + this.blockRemain = this.blockLen; + const bufLen = Math.min(this.blockLen, this.maxReadSize); + this.buf = Buffer.allocUnsafe(bufLen); + this.offset = 0; + this.pos = 0; + this.remain = this.stat.size; + this.length = this.buf.length; + this[READ2](); } - sliceReverse(from = 0, to = this.length) { - if (to < 0) { - to += this.length; - } - if (from < 0) { - from += this.length; + [READ2]() { + const { fd, buf, offset, length, pos: pos2 } = this; + if (fd === void 0 || buf === void 0) { + throw new Error("cannot read file without first opening"); } - const ret = new _Yallist(); - if (to < from || to < 0) { - return ret; + import_fs11.default.read(fd, buf, offset, length, pos2, (er, bytesRead) => { + if (er) { + return this[CLOSE](() => this.emit("error", er)); + } + this[ONREAD](bytesRead); + }); + } + /* c8 ignore start */ + [CLOSE](cb = () => { + }) { + if (this.fd !== void 0) + import_fs11.default.close(this.fd, cb); + } + [ONREAD](bytesRead) { + if (bytesRead <= 0 && this.remain > 0) { + const er = Object.assign(new Error("encountered unexpected EOF"), { + path: this.absolute, + syscall: "read", + code: "EOF" + }); + return this[CLOSE](() => this.emit("error", er)); } - if (from < 0) { - from = 0; + if (bytesRead > this.remain) { + const er = Object.assign(new Error("did not encounter expected EOF"), { + path: this.absolute, + syscall: "read", + code: "EOF" + }); + return this[CLOSE](() => this.emit("error", er)); } - if (to > this.length) { - to = this.length; + if (!this.buf) { + throw new Error("should have created buffer prior to reading"); } - let i = this.length; - let walker = this.tail; - for (; !!walker && i > to; i--) { - walker = walker.prev; + if (bytesRead === this.remain) { + for (let i = bytesRead; i < this.length && bytesRead < this.blockRemain; i++) { + this.buf[i + this.offset] = 0; + bytesRead++; + this.remain++; + } } - for (; !!walker && i > from; i--, walker = walker.prev) { - ret.push(walker.value); + const chunk = this.offset === 0 && bytesRead === this.buf.length ? this.buf : this.buf.subarray(this.offset, this.offset + bytesRead); + const flushed = this.write(chunk); + if (!flushed) { + this[AWAITDRAIN](() => this[ONDRAIN]()); + } else { + this[ONDRAIN](); } - return ret; } - splice(start, deleteCount = 0, ...nodes) { - if (start > this.length) { - start = this.length - 1; - } - if (start < 0) { - start = this.length + start; - } - let walker = this.head; - for (let i = 0; !!walker && i < start; i++) { - walker = walker.next; - } - const ret = []; - for (let i = 0; !!walker && i < deleteCount; i++) { - ret.push(walker.value); - walker = this.removeNode(walker); + [AWAITDRAIN](cb) { + this.once("drain", cb); + } + write(chunk, encoding, cb) { + if (typeof encoding === "function") { + cb = encoding; + encoding = void 0; } - if (!walker) { - walker = this.tail; - } else if (walker !== this.tail) { - walker = walker.prev; + if (typeof chunk === "string") { + chunk = Buffer.from(chunk, typeof encoding === "string" ? encoding : "utf8"); } - for (const v of nodes) { - walker = insertAfter(this, walker, v); + if (this.blockRemain < chunk.length) { + const er = Object.assign(new Error("writing more data than expected"), { + path: this.absolute + }); + return this.emit("error", er); } - return ret; + this.remain -= chunk.length; + this.blockRemain -= chunk.length; + this.pos += chunk.length; + this.offset += chunk.length; + return super.write(chunk, null, cb); } - reverse() { - const head = this.head; - const tail = this.tail; - for (let walker = head; !!walker; walker = walker.prev) { - const p = walker.prev; - walker.prev = walker.next; - walker.next = p; + [ONDRAIN]() { + if (!this.remain) { + if (this.blockRemain) { + super.write(Buffer.alloc(this.blockRemain)); + } + return this[CLOSE]((er) => er ? this.emit("error", er) : this.end()); } - this.head = tail; - this.tail = head; - return this; - } - }; - Node = class { - list; - next; - prev; - value; - constructor(value, prev, next, list2) { - this.list = list2; - this.value = value; - if (prev) { - prev.next = this; - this.prev = prev; - } else { - this.prev = void 0; + if (!this.buf) { + throw new Error("buffer lost somehow in ONDRAIN"); } - if (next) { - next.prev = this; - this.next = next; - } else { - this.next = void 0; + if (this.offset >= this.length) { + this.buf = Buffer.allocUnsafe(Math.min(this.blockRemain, this.buf.length)); + this.offset = 0; } + this.length = this.buf.length - this.offset; + this[READ2](); } }; - } -}); - -// .yarn/cache/tar-npm-7.5.6-955ec951c2-08af380703.zip/node_modules/tar/dist/esm/pack.js -var import_fs12, import_path10, PackJob, EOF2, ONSTAT, ENDED3, QUEUE2, CURRENT, PROCESS2, PROCESSING, PROCESSJOB, JOBS, JOBDONE, ADDFSENTRY, ADDTARENTRY, STAT, READDIR, ONREADDIR, PIPE, ENTRY, ENTRYOPT, WRITEENTRYCLASS, WRITE, ONDRAIN2, Pack, PackSync; -var init_pack = __esm({ - ".yarn/cache/tar-npm-7.5.6-955ec951c2-08af380703.zip/node_modules/tar/dist/esm/pack.js"() { - import_fs12 = __toESM(require("fs"), 1); - init_write_entry(); - init_esm(); - init_esm3(); - init_esm5(); - init_read_entry(); - init_warn_method(); - import_path10 = __toESM(require("path"), 1); - init_normalize_windows_path(); - PackJob = class { - path; - absolute; - entry; - stat; - readdir; - pending = false; - ignore = false; - piped = false; - constructor(path16, absolute) { - this.path = path16 || "./"; - this.absolute = absolute; + WriteEntrySync = class extends WriteEntry { + sync = true; + [LSTAT]() { + this[ONLSTAT](import_fs11.default.lstatSync(this.absolute)); + } + [SYMLINK2]() { + this[ONREADLINK](import_fs11.default.readlinkSync(this.absolute)); + } + [OPENFILE]() { + this[ONOPENFILE](import_fs11.default.openSync(this.absolute, "r")); + } + [READ2]() { + let threw = true; + try { + const { fd, buf, offset, length, pos: pos2 } = this; + if (fd === void 0 || buf === void 0) { + throw new Error("fd and buf must be set in READ method"); + } + const bytesRead = import_fs11.default.readSync(fd, buf, offset, length, pos2); + this[ONREAD](bytesRead); + threw = false; + } finally { + if (threw) { + try { + this[CLOSE](() => { + }); + } catch { + } + } + } + } + [AWAITDRAIN](cb) { + cb(); + } + /* c8 ignore start */ + [CLOSE](cb = () => { + }) { + if (this.fd !== void 0) + import_fs11.default.closeSync(this.fd); + cb(); } }; - EOF2 = Buffer.alloc(1024); - ONSTAT = Symbol("onStat"); - ENDED3 = Symbol("ended"); - QUEUE2 = Symbol("queue"); - CURRENT = Symbol("current"); - PROCESS2 = Symbol("process"); - PROCESSING = Symbol("processing"); - PROCESSJOB = Symbol("processJob"); - JOBS = Symbol("jobs"); - JOBDONE = Symbol("jobDone"); - ADDFSENTRY = Symbol("addFSEntry"); - ADDTARENTRY = Symbol("addTarEntry"); - STAT = Symbol("stat"); - READDIR = Symbol("readdir"); - ONREADDIR = Symbol("onreaddir"); - PIPE = Symbol("pipe"); - ENTRY = Symbol("entry"); - ENTRYOPT = Symbol("entryOpt"); - WRITEENTRYCLASS = Symbol("writeEntryClass"); - WRITE = Symbol("write"); - ONDRAIN2 = Symbol("ondrain"); - Pack = class extends Minipass { - sync = false; - opt; - cwd; - maxReadSize; + WriteEntryTar = class extends Minipass { + blockLen = 0; + blockRemain = 0; + buf = 0; + pos = 0; + remain = 0; + length = 0; preservePaths; + portable; strict; noPax; - prefix; - linkCache; - statCache; - file; - portable; - zip; - readdirCache; - noDirRecurse; - follow; noMtime; + readEntry; + type; + prefix; + path; + mode; + uid; + gid; + uname; + gname; + header; mtime; - filter; - jobs; - [WRITEENTRYCLASS]; + atime; + ctime; + linkpath; + size; onWriteEntry; - // Note: we actually DO need a linked list here, because we - // shift() to update the head of the list where we start, but still - // while that happens, need to know what the next item in the queue - // will be. Since we do multiple jobs in parallel, it's not as simple - // as just an Array.shift(), since that would lose the information about - // the next job in the list. We could add a .next field on the PackJob - // class, but then we'd have to be tracking the tail of the queue the - // whole time, and Yallist just does that for us anyway. - [QUEUE2]; - [JOBS] = 0; - [PROCESSING] = false; - [ENDED3] = false; - constructor(opt = {}) { + warn(code2, message, data = {}) { + return warnMethod(this, code2, message, data); + } + constructor(readEntry, opt_ = {}) { + const opt = dealias(opt_); super(); - this.opt = opt; - this.file = opt.file || ""; - this.cwd = opt.cwd || process.cwd(); - this.maxReadSize = opt.maxReadSize; this.preservePaths = !!opt.preservePaths; + this.portable = !!opt.portable; this.strict = !!opt.strict; this.noPax = !!opt.noPax; - this.prefix = normalizeWindowsPath(opt.prefix || ""); - this.linkCache = opt.linkCache || /* @__PURE__ */ new Map(); - this.statCache = opt.statCache || /* @__PURE__ */ new Map(); - this.readdirCache = opt.readdirCache || /* @__PURE__ */ new Map(); + this.noMtime = !!opt.noMtime; this.onWriteEntry = opt.onWriteEntry; - this[WRITEENTRYCLASS] = WriteEntry; + this.readEntry = readEntry; + const { type } = readEntry; + if (type === "Unsupported") { + throw new Error("writing entry that should be ignored"); + } + this.type = type; + if (this.type === "Directory" && this.portable) { + this.noMtime = true; + } + this.prefix = opt.prefix; + this.path = normalizeWindowsPath(readEntry.path); + this.mode = readEntry.mode !== void 0 ? this[MODE](readEntry.mode) : void 0; + this.uid = this.portable ? void 0 : readEntry.uid; + this.gid = this.portable ? void 0 : readEntry.gid; + this.uname = this.portable ? void 0 : readEntry.uname; + this.gname = this.portable ? void 0 : readEntry.gname; + this.size = readEntry.size; + this.mtime = this.noMtime ? void 0 : opt.mtime || readEntry.mtime; + this.atime = this.portable ? void 0 : readEntry.atime; + this.ctime = this.portable ? void 0 : readEntry.ctime; + this.linkpath = readEntry.linkpath !== void 0 ? normalizeWindowsPath(readEntry.linkpath) : void 0; if (typeof opt.onwarn === "function") { this.on("warn", opt.onwarn); } - this.portable = !!opt.portable; - if (opt.gzip || opt.brotli || opt.zstd) { - if ((opt.gzip ? 1 : 0) + (opt.brotli ? 1 : 0) + (opt.zstd ? 1 : 0) > 1) { - throw new TypeError("gzip, brotli, zstd are mutually exclusive"); - } - if (opt.gzip) { - if (typeof opt.gzip !== "object") { - opt.gzip = {}; - } - if (this.portable) { - opt.gzip.portable = true; - } - this.zip = new Gzip(opt.gzip); - } - if (opt.brotli) { - if (typeof opt.brotli !== "object") { - opt.brotli = {}; - } - this.zip = new BrotliCompress(opt.brotli); - } - if (opt.zstd) { - if (typeof opt.zstd !== "object") { - opt.zstd = {}; - } - this.zip = new ZstdCompress(opt.zstd); + let pathWarn = false; + if (!this.preservePaths) { + const [root, stripped] = stripAbsolutePath(this.path); + if (root && typeof stripped === "string") { + this.path = stripped; + pathWarn = root; } - if (!this.zip) - throw new Error("impossible"); - const zip = this.zip; - zip.on("data", (chunk) => super.write(chunk)); - zip.on("end", () => super.end()); - zip.on("drain", () => this[ONDRAIN2]()); - this.on("resume", () => zip.resume()); - } else { - this.on("drain", this[ONDRAIN2]); } - this.noDirRecurse = !!opt.noDirRecurse; - this.follow = !!opt.follow; - this.noMtime = !!opt.noMtime; - if (opt.mtime) - this.mtime = opt.mtime; - this.filter = typeof opt.filter === "function" ? opt.filter : () => true; - this[QUEUE2] = new Yallist(); - this[JOBS] = 0; - this.jobs = Number(opt.jobs) || 4; - this[PROCESSING] = false; - this[ENDED3] = false; + this.remain = readEntry.size; + this.blockRemain = readEntry.startBlockSize; + this.onWriteEntry?.(this); + this.header = new Header({ + path: this[PREFIX](this.path), + linkpath: this.type === "Link" && this.linkpath !== void 0 ? this[PREFIX](this.linkpath) : this.linkpath, + // only the permissions and setuid/setgid/sticky bitflags + // not the higher-order bits that specify file type + mode: this.mode, + uid: this.portable ? void 0 : this.uid, + gid: this.portable ? void 0 : this.gid, + size: this.size, + mtime: this.noMtime ? void 0 : this.mtime, + type: this.type, + uname: this.portable ? void 0 : this.uname, + atime: this.portable ? void 0 : this.atime, + ctime: this.portable ? void 0 : this.ctime + }); + if (pathWarn) { + this.warn("TAR_ENTRY_INFO", `stripping ${pathWarn} from absolute path`, { + entry: this, + path: pathWarn + this.path + }); + } + if (this.header.encode() && !this.noPax) { + super.write(new Pax({ + atime: this.portable ? void 0 : this.atime, + ctime: this.portable ? void 0 : this.ctime, + gid: this.portable ? void 0 : this.gid, + mtime: this.noMtime ? void 0 : this.mtime, + path: this[PREFIX](this.path), + linkpath: this.type === "Link" && this.linkpath !== void 0 ? this[PREFIX](this.linkpath) : this.linkpath, + size: this.size, + uid: this.portable ? void 0 : this.uid, + uname: this.portable ? void 0 : this.uname, + dev: this.portable ? void 0 : this.readEntry.dev, + ino: this.portable ? void 0 : this.readEntry.ino, + nlink: this.portable ? void 0 : this.readEntry.nlink + }).encode()); + } + const b = this.header?.block; + if (!b) + throw new Error("failed to encode header"); + super.write(b); + readEntry.pipe(this); + } + [PREFIX](path16) { + return prefixPath(path16, this.prefix); + } + [MODE](mode) { + return modeFix(mode, this.type === "Directory", this.portable); + } + write(chunk, encoding, cb) { + if (typeof encoding === "function") { + cb = encoding; + encoding = void 0; + } + if (typeof chunk === "string") { + chunk = Buffer.from(chunk, typeof encoding === "string" ? encoding : "utf8"); + } + const writeLen = chunk.length; + if (writeLen > this.blockRemain) { + throw new Error("writing more to entry than is appropriate"); + } + this.blockRemain -= writeLen; + return super.write(chunk, cb); + } + end(chunk, encoding, cb) { + if (this.blockRemain) { + super.write(Buffer.alloc(this.blockRemain)); + } + if (typeof chunk === "function") { + cb = chunk; + encoding = void 0; + chunk = void 0; + } + if (typeof encoding === "function") { + cb = encoding; + encoding = void 0; + } + if (typeof chunk === "string") { + chunk = Buffer.from(chunk, encoding ?? "utf8"); + } + if (cb) + this.once("finish", cb); + if (chunk) + super.end(chunk, cb); + else + super.end(cb); + return this; + } + }; + getType = (stat) => stat.isFile() ? "File" : stat.isDirectory() ? "Directory" : stat.isSymbolicLink() ? "SymbolicLink" : "Unsupported"; + } +}); + +// node_modules/yallist/dist/esm/index.js +function insertAfter(self2, node, value) { + const prev = node; + const next = node ? node.next : self2.head; + const inserted = new Node(value, prev, next, self2); + if (inserted.next === void 0) { + self2.tail = inserted; + } + if (inserted.prev === void 0) { + self2.head = inserted; + } + self2.length++; + return inserted; +} +function push(self2, item) { + self2.tail = new Node(item, self2.tail, void 0, self2); + if (!self2.head) { + self2.head = self2.tail; + } + self2.length++; +} +function unshift(self2, item) { + self2.head = new Node(item, void 0, self2.head, self2); + if (!self2.tail) { + self2.tail = self2.head; + } + self2.length++; +} +var Yallist, Node; +var init_esm5 = __esm({ + "node_modules/yallist/dist/esm/index.js"() { + Yallist = class _Yallist { + tail; + head; + length = 0; + static create(list2 = []) { + return new _Yallist(list2); + } + constructor(list2 = []) { + for (const item of list2) { + this.push(item); + } } - [WRITE](chunk) { - return super.write(chunk); + *[Symbol.iterator]() { + for (let walker = this.head; walker; walker = walker.next) { + yield walker.value; + } } - add(path16) { - this.write(path16); - return this; + removeNode(node) { + if (node.list !== this) { + throw new Error("removing node which does not belong to this list"); + } + const next = node.next; + const prev = node.prev; + if (next) { + next.prev = prev; + } + if (prev) { + prev.next = next; + } + if (node === this.head) { + this.head = next; + } + if (node === this.tail) { + this.tail = prev; + } + this.length--; + node.next = void 0; + node.prev = void 0; + node.list = void 0; + return next; } - end(path16, encoding, cb) { - if (typeof path16 === "function") { - cb = path16; - path16 = void 0; + unshiftNode(node) { + if (node === this.head) { + return; } - if (typeof encoding === "function") { - cb = encoding; - encoding = void 0; + if (node.list) { + node.list.removeNode(node); } - if (path16) { - this.add(path16); + const head = this.head; + node.list = this; + node.next = head; + if (head) { + head.prev = node; } - this[ENDED3] = true; - this[PROCESS2](); - if (cb) - cb(); - return this; + this.head = node; + if (!this.tail) { + this.tail = node; + } + this.length++; } - write(path16) { - if (this[ENDED3]) { - throw new Error("write after end"); + pushNode(node) { + if (node === this.tail) { + return; } - if (path16 instanceof ReadEntry) { - this[ADDTARENTRY](path16); + if (node.list) { + node.list.removeNode(node); + } + const tail = this.tail; + node.list = this; + node.prev = tail; + if (tail) { + tail.next = node; + } + this.tail = node; + if (!this.head) { + this.head = node; + } + this.length++; + } + push(...args) { + for (let i = 0, l = args.length; i < l; i++) { + push(this, args[i]); + } + return this.length; + } + unshift(...args) { + for (var i = 0, l = args.length; i < l; i++) { + unshift(this, args[i]); + } + return this.length; + } + pop() { + if (!this.tail) { + return void 0; + } + const res = this.tail.value; + const t = this.tail; + this.tail = this.tail.prev; + if (this.tail) { + this.tail.next = void 0; } else { - this[ADDFSENTRY](path16); + this.head = void 0; } - return this.flowing; + t.list = void 0; + this.length--; + return res; } - [ADDTARENTRY](p) { - const absolute = normalizeWindowsPath(import_path10.default.resolve(this.cwd, p.path)); - if (!this.filter(p.path, p)) { - p.resume(); + shift() { + if (!this.head) { + return void 0; + } + const res = this.head.value; + const h = this.head; + this.head = this.head.next; + if (this.head) { + this.head.prev = void 0; } else { - const job = new PackJob(p.path, absolute); - job.entry = new WriteEntryTar(p, this[ENTRYOPT](job)); - job.entry.on("end", () => this[JOBDONE](job)); - this[JOBS] += 1; - this[QUEUE2].push(job); + this.tail = void 0; } - this[PROCESS2](); + h.list = void 0; + this.length--; + return res; } - [ADDFSENTRY](p) { - const absolute = normalizeWindowsPath(import_path10.default.resolve(this.cwd, p)); - this[QUEUE2].push(new PackJob(p, absolute)); - this[PROCESS2](); + forEach(fn2, thisp) { + thisp = thisp || this; + for (let walker = this.head, i = 0; !!walker; i++) { + fn2.call(thisp, walker.value, i, this); + walker = walker.next; + } } - [STAT](job) { - job.pending = true; - this[JOBS] += 1; - const stat = this.follow ? "stat" : "lstat"; - import_fs12.default[stat](job.absolute, (er, stat2) => { - job.pending = false; - this[JOBS] -= 1; - if (er) { - this.emit("error", er); - } else { - this[ONSTAT](job, stat2); - } - }); + forEachReverse(fn2, thisp) { + thisp = thisp || this; + for (let walker = this.tail, i = this.length - 1; !!walker; i--) { + fn2.call(thisp, walker.value, i, this); + walker = walker.prev; + } } - [ONSTAT](job, stat) { - this.statCache.set(job.absolute, stat); - job.stat = stat; - if (!this.filter(job.path, stat)) { - job.ignore = true; - } else if (stat.isFile() && stat.nlink > 1 && job === this[CURRENT] && !this.linkCache.get(`${stat.dev}:${stat.ino}`) && !this.sync) { - this[PROCESSJOB](job); + get(n) { + let i = 0; + let walker = this.head; + for (; !!walker && i < n; i++) { + walker = walker.next; + } + if (i === n && !!walker) { + return walker.value; } - this[PROCESS2](); } - [READDIR](job) { - job.pending = true; - this[JOBS] += 1; - import_fs12.default.readdir(job.absolute, (er, entries) => { - job.pending = false; - this[JOBS] -= 1; - if (er) { - return this.emit("error", er); - } - this[ONREADDIR](job, entries); - }); + getReverse(n) { + let i = 0; + let walker = this.tail; + for (; !!walker && i < n; i++) { + walker = walker.prev; + } + if (i === n && !!walker) { + return walker.value; + } } - [ONREADDIR](job, entries) { - this.readdirCache.set(job.absolute, entries); - job.readdir = entries; - this[PROCESS2](); + map(fn2, thisp) { + thisp = thisp || this; + const res = new _Yallist(); + for (let walker = this.head; !!walker; ) { + res.push(fn2.call(thisp, walker.value, this)); + walker = walker.next; + } + return res; } - [PROCESS2]() { - if (this[PROCESSING]) { - return; + mapReverse(fn2, thisp) { + thisp = thisp || this; + var res = new _Yallist(); + for (let walker = this.tail; !!walker; ) { + res.push(fn2.call(thisp, walker.value, this)); + walker = walker.prev; } - this[PROCESSING] = true; - for (let w = this[QUEUE2].head; !!w && this[JOBS] < this.jobs; w = w.next) { - this[PROCESSJOB](w.value); - if (w.value.ignore) { - const p = w.next; - this[QUEUE2].removeNode(w); - w.next = p; - } + return res; + } + reduce(fn2, initial) { + let acc; + let walker = this.head; + if (arguments.length > 1) { + acc = initial; + } else if (this.head) { + walker = this.head.next; + acc = this.head.value; + } else { + throw new TypeError("Reduce of empty list with no initial value"); } - this[PROCESSING] = false; - if (this[ENDED3] && !this[QUEUE2].length && this[JOBS] === 0) { - if (this.zip) { - this.zip.end(EOF2); - } else { - super.write(EOF2); - super.end(); - } + for (var i = 0; !!walker; i++) { + acc = fn2(acc, walker.value, i); + walker = walker.next; } + return acc; } - get [CURRENT]() { - return this[QUEUE2] && this[QUEUE2].head && this[QUEUE2].head.value; + reduceReverse(fn2, initial) { + let acc; + let walker = this.tail; + if (arguments.length > 1) { + acc = initial; + } else if (this.tail) { + walker = this.tail.prev; + acc = this.tail.value; + } else { + throw new TypeError("Reduce of empty list with no initial value"); + } + for (let i = this.length - 1; !!walker; i--) { + acc = fn2(acc, walker.value, i); + walker = walker.prev; + } + return acc; } - [JOBDONE](_job) { - this[QUEUE2].shift(); - this[JOBS] -= 1; - this[PROCESS2](); + toArray() { + const arr = new Array(this.length); + for (let i = 0, walker = this.head; !!walker; i++) { + arr[i] = walker.value; + walker = walker.next; + } + return arr; } - [PROCESSJOB](job) { - if (job.pending) { - return; + toArrayReverse() { + const arr = new Array(this.length); + for (let i = 0, walker = this.tail; !!walker; i++) { + arr[i] = walker.value; + walker = walker.prev; } - if (job.entry) { - if (job === this[CURRENT] && !job.piped) { - this[PIPE](job); - } - return; + return arr; + } + slice(from = 0, to = this.length) { + if (to < 0) { + to += this.length; } - if (!job.stat) { - const sc = this.statCache.get(job.absolute); - if (sc) { - this[ONSTAT](job, sc); - } else { - this[STAT](job); - } + if (from < 0) { + from += this.length; } - if (!job.stat) { - return; + const ret = new _Yallist(); + if (to < from || to < 0) { + return ret; } - if (job.ignore) { - return; + if (from < 0) { + from = 0; } - if (!this.noDirRecurse && job.stat.isDirectory() && !job.readdir) { - const rc = this.readdirCache.get(job.absolute); - if (rc) { - this[ONREADDIR](job, rc); - } else { - this[READDIR](job); - } - if (!job.readdir) { - return; - } + if (to > this.length) { + to = this.length; } - job.entry = this[ENTRY](job); - if (!job.entry) { - job.ignore = true; - return; + let walker = this.head; + let i = 0; + for (i = 0; !!walker && i < from; i++) { + walker = walker.next; } - if (job === this[CURRENT] && !job.piped) { - this[PIPE](job); + for (; !!walker && i < to; i++, walker = walker.next) { + ret.push(walker.value); } + return ret; } - [ENTRYOPT](job) { - return { - onwarn: (code2, msg, data) => this.warn(code2, msg, data), - noPax: this.noPax, - cwd: this.cwd, - absolute: job.absolute, - preservePaths: this.preservePaths, - maxReadSize: this.maxReadSize, - strict: this.strict, - portable: this.portable, - linkCache: this.linkCache, - statCache: this.statCache, - noMtime: this.noMtime, - mtime: this.mtime, - prefix: this.prefix, - onWriteEntry: this.onWriteEntry - }; - } - [ENTRY](job) { - this[JOBS] += 1; - try { - const e = new this[WRITEENTRYCLASS](job.path, this[ENTRYOPT](job)); - return e.on("end", () => this[JOBDONE](job)).on("error", (er) => this.emit("error", er)); - } catch (er) { - this.emit("error", er); + sliceReverse(from = 0, to = this.length) { + if (to < 0) { + to += this.length; } - } - [ONDRAIN2]() { - if (this[CURRENT] && this[CURRENT].entry) { - this[CURRENT].entry.resume(); + if (from < 0) { + from += this.length; } - } - // like .pipe() but using super, because our write() is special - [PIPE](job) { - job.piped = true; - if (job.readdir) { - job.readdir.forEach((entry) => { - const p = job.path; - const base = p === "./" ? "" : p.replace(/\/*$/, "/"); - this[ADDFSENTRY](base + entry); - }); + const ret = new _Yallist(); + if (to < from || to < 0) { + return ret; } - const source = job.entry; - const zip = this.zip; - if (!source) - throw new Error("cannot pipe without source"); - if (zip) { - source.on("data", (chunk) => { - if (!zip.write(chunk)) { - source.pause(); - } - }); - } else { - source.on("data", (chunk) => { - if (!super.write(chunk)) { - source.pause(); - } - }); + if (from < 0) { + from = 0; } - } - pause() { - if (this.zip) { - this.zip.pause(); + if (to > this.length) { + to = this.length; } - return super.pause(); - } - warn(code2, message, data = {}) { - warnMethod(this, code2, message, data); - } - }; - PackSync = class extends Pack { - sync = true; - constructor(opt) { - super(opt); - this[WRITEENTRYCLASS] = WriteEntrySync; - } - // pause/resume are no-ops in sync streams. - pause() { - } - resume() { - } - [STAT](job) { - const stat = this.follow ? "statSync" : "lstatSync"; - this[ONSTAT](job, import_fs12.default[stat](job.absolute)); - } - [READDIR](job) { - this[ONREADDIR](job, import_fs12.default.readdirSync(job.absolute)); + let i = this.length; + let walker = this.tail; + for (; !!walker && i > to; i--) { + walker = walker.prev; + } + for (; !!walker && i > from; i--, walker = walker.prev) { + ret.push(walker.value); + } + return ret; } - // gotta get it all in this tick - [PIPE](job) { - const source = job.entry; - const zip = this.zip; - if (job.readdir) { - job.readdir.forEach((entry) => { - const p = job.path; - const base = p === "./" ? "" : p.replace(/\/*$/, "/"); - this[ADDFSENTRY](base + entry); - }); + splice(start, deleteCount = 0, ...nodes) { + if (start > this.length) { + start = this.length - 1; + } + if (start < 0) { + start = this.length + start; + } + let walker = this.head; + for (let i = 0; !!walker && i < start; i++) { + walker = walker.next; + } + const ret = []; + for (let i = 0; !!walker && i < deleteCount; i++) { + ret.push(walker.value); + walker = this.removeNode(walker); + } + if (!walker) { + walker = this.tail; + } else if (walker !== this.tail) { + walker = walker.prev; + } + for (const v of nodes) { + walker = insertAfter(this, walker, v); } - if (!source) - throw new Error("Cannot pipe without source"); - if (zip) { - source.on("data", (chunk) => { - zip.write(chunk); - }); - } else { - source.on("data", (chunk) => { - super[WRITE](chunk); - }); + return ret; + } + reverse() { + const head = this.head; + const tail = this.tail; + for (let walker = head; !!walker; walker = walker.prev) { + const p = walker.prev; + walker.prev = walker.next; + walker.next = p; } + this.head = tail; + this.tail = head; + return this; } }; - } -}); - -// .yarn/cache/tar-npm-7.5.6-955ec951c2-08af380703.zip/node_modules/tar/dist/esm/create.js -var create_exports = {}; -__export(create_exports, { - create: () => create -}); -var import_node_path8, createFileSync, createFile, addFilesSync, addFilesAsync, createSync, createAsync, create; -var init_create = __esm({ - ".yarn/cache/tar-npm-7.5.6-955ec951c2-08af380703.zip/node_modules/tar/dist/esm/create.js"() { - init_esm2(); - import_node_path8 = __toESM(require("node:path"), 1); - init_list(); - init_make_command(); - init_pack(); - createFileSync = (opt, files) => { - const p = new PackSync(opt); - const stream = new WriteStreamSync(opt.file, { - mode: opt.mode || 438 - }); - p.pipe(stream); - addFilesSync(p, files); - }; - createFile = (opt, files) => { - const p = new Pack(opt); - const stream = new WriteStream(opt.file, { - mode: opt.mode || 438 - }); - p.pipe(stream); - const promise = new Promise((res, rej) => { - stream.on("error", rej); - stream.on("close", res); - p.on("error", rej); - }); - addFilesAsync(p, files); - return promise; - }; - addFilesSync = (p, files) => { - files.forEach((file) => { - if (file.charAt(0) === "@") { - list({ - file: import_node_path8.default.resolve(p.cwd, file.slice(1)), - sync: true, - noResume: true, - onReadEntry: (entry) => p.add(entry) - }); + Node = class { + list; + next; + prev; + value; + constructor(value, prev, next, list2) { + this.list = list2; + this.value = value; + if (prev) { + prev.next = this; + this.prev = prev; } else { - p.add(file); + this.prev = void 0; } - }); - p.end(); - }; - addFilesAsync = async (p, files) => { - for (let i = 0; i < files.length; i++) { - const file = String(files[i]); - if (file.charAt(0) === "@") { - await list({ - file: import_node_path8.default.resolve(String(p.cwd), file.slice(1)), - noResume: true, - onReadEntry: (entry) => { - p.add(entry); - } - }); + if (next) { + next.prev = this; + this.next = next; } else { - p.add(file); + this.next = void 0; } } - p.end(); - }; - createSync = (opt, files) => { - const p = new PackSync(opt); - addFilesSync(p, files); - return p; - }; - createAsync = (opt, files) => { - const p = new Pack(opt); - addFilesAsync(p, files); - return p; }; - create = makeCommand(createFileSync, createFile, createSync, createAsync, (_opt, files) => { - if (!files?.length) { - throw new TypeError("no paths specified to add to archive"); - } - }); } }); -// .yarn/cache/semver-npm-7.7.3-9cf7b3b46c-4afe5c9865.zip/node_modules/semver/functions/major.js -var require_major = __commonJS({ - ".yarn/cache/semver-npm-7.7.3-9cf7b3b46c-4afe5c9865.zip/node_modules/semver/functions/major.js"(exports2, module2) { - "use strict"; - var SemVer3 = require_semver(); - var major = (a, loose) => new SemVer3(a, loose).major; - module2.exports = major; - } -}); - -// sources/_lib.ts -var lib_exports2 = {}; -__export(lib_exports2, { - runMain: () => runMain -}); -module.exports = __toCommonJS(lib_exports2); - -// .yarn/__virtual__/clipanion-virtual-dbbb3cfe27/0/cache/clipanion-patch-1b1b878e9f-a833a30963.zip/node_modules/clipanion/lib/constants.mjs -var NODE_INITIAL = 0; -var NODE_SUCCESS = 1; -var NODE_ERRORED = 2; -var START_OF_INPUT = ``; -var END_OF_INPUT = `\0`; -var HELP_COMMAND_INDEX = -1; -var HELP_REGEX = /^(-h|--help)(?:=([0-9]+))?$/; -var OPTION_REGEX = /^(--[a-z]+(?:-[a-z]+)*|-[a-zA-Z]+)$/; -var BATCH_REGEX = /^-[a-zA-Z]{2,}$/; -var BINDING_REGEX = /^([^=]+)=([\s\S]*)$/; -var DEBUG = process.env.DEBUG_CLI === `1`; - -// .yarn/__virtual__/clipanion-virtual-dbbb3cfe27/0/cache/clipanion-patch-1b1b878e9f-a833a30963.zip/node_modules/clipanion/lib/errors.mjs -var UsageError = class extends Error { - constructor(message) { - super(message); - this.clipanion = { type: `usage` }; - this.name = `UsageError`; - } -}; -var UnknownSyntaxError = class extends Error { - constructor(input, candidates) { - super(); - this.input = input; - this.candidates = candidates; - this.clipanion = { type: `none` }; - this.name = `UnknownSyntaxError`; - if (this.candidates.length === 0) { - this.message = `Command not found, but we're not sure what's the alternative.`; - } else if (this.candidates.every((candidate) => candidate.reason !== null && candidate.reason === candidates[0].reason)) { - const [{ reason }] = this.candidates; - this.message = `${reason} - -${this.candidates.map(({ usage }) => `$ ${usage}`).join(` -`)}`; - } else if (this.candidates.length === 1) { - const [{ usage }] = this.candidates; - this.message = `Command not found; did you mean: - -$ ${usage} -${whileRunning(input)}`; - } else { - this.message = `Command not found; did you mean one of: - -${this.candidates.map(({ usage }, index) => { - return `${`${index}.`.padStart(4)} ${usage}`; - }).join(` -`)} - -${whileRunning(input)}`; - } - } -}; -var AmbiguousSyntaxError = class extends Error { - constructor(input, usages) { - super(); - this.input = input; - this.usages = usages; - this.clipanion = { type: `none` }; - this.name = `AmbiguousSyntaxError`; - this.message = `Cannot find which to pick amongst the following alternatives: - -${this.usages.map((usage, index) => { - return `${`${index}.`.padStart(4)} ${usage}`; - }).join(` -`)} - -${whileRunning(input)}`; - } -}; -var whileRunning = (input) => `While running ${input.filter((token) => { - return token !== END_OF_INPUT; -}).map((token) => { - const json = JSON.stringify(token); - if (token.match(/\s/) || token.length === 0 || json !== `"${token}"`) { - return json; - } else { - return token; - } -}).join(` `)}`; - -// .yarn/__virtual__/clipanion-virtual-dbbb3cfe27/0/cache/clipanion-patch-1b1b878e9f-a833a30963.zip/node_modules/clipanion/lib/format.mjs -var MAX_LINE_LENGTH = 80; -var richLine = Array(MAX_LINE_LENGTH).fill(`\u2501`); -for (let t = 0; t <= 24; ++t) - richLine[richLine.length - t] = `\x1B[38;5;${232 + t}m\u2501`; -var richFormat = { - header: (str) => `\x1B[1m\u2501\u2501\u2501 ${str}${str.length < MAX_LINE_LENGTH - 5 ? ` ${richLine.slice(str.length + 5).join(``)}` : `:`}\x1B[0m`, - bold: (str) => `\x1B[1m${str}\x1B[22m`, - error: (str) => `\x1B[31m\x1B[1m${str}\x1B[22m\x1B[39m`, - code: (str) => `\x1B[36m${str}\x1B[39m` -}; -var textFormat = { - header: (str) => str, - bold: (str) => str, - error: (str) => str, - code: (str) => str -}; -function dedent(text) { - const lines = text.split(` -`); - const nonEmptyLines = lines.filter((line) => line.match(/\S/)); - const indent = nonEmptyLines.length > 0 ? nonEmptyLines.reduce((minLength, line) => Math.min(minLength, line.length - line.trimStart().length), Number.MAX_VALUE) : 0; - return lines.map((line) => line.slice(indent).trimRight()).join(` -`); -} -function formatMarkdownish(text, { format, paragraphs }) { - text = text.replace(/\r\n?/g, ` -`); - text = dedent(text); - text = text.replace(/^\n+|\n+$/g, ``); - text = text.replace(/^(\s*)-([^\n]*?)\n+/gm, `$1-$2 - -`); - text = text.replace(/\n(\n)?\n*/g, ($0, $1) => $1 ? $1 : ` `); - if (paragraphs) { - text = text.split(/\n/).map((paragraph) => { - const bulletMatch = paragraph.match(/^\s*[*-][\t ]+(.*)/); - if (!bulletMatch) - return paragraph.match(/(.{1,80})(?: |$)/g).join(` -`); - const indent = paragraph.length - paragraph.trimStart().length; - return bulletMatch[1].match(new RegExp(`(.{1,${78 - indent}})(?: |$)`, `g`)).map((line, index) => { - return ` `.repeat(indent) + (index === 0 ? `- ` : ` `) + line; - }).join(` -`); - }).join(` - -`); - } - text = text.replace(/(`+)((?:.|[\n])*?)\1/g, ($0, $1, $2) => { - return format.code($1 + $2 + $1); - }); - text = text.replace(/(\*\*)((?:.|[\n])*?)\1/g, ($0, $1, $2) => { - return format.bold($1 + $2 + $1); - }); - return text ? `${text} -` : ``; -} - -// .yarn/__virtual__/clipanion-virtual-dbbb3cfe27/0/cache/clipanion-patch-1b1b878e9f-a833a30963.zip/node_modules/clipanion/lib/advanced/options/utils.mjs -var isOptionSymbol = Symbol(`clipanion/isOption`); -function makeCommandOption(spec) { - return { ...spec, [isOptionSymbol]: true }; -} -function rerouteArguments(a, b) { - if (typeof a === `undefined`) - return [a, b]; - if (typeof a === `object` && a !== null && !Array.isArray(a)) { - return [void 0, a]; - } else { - return [a, b]; - } -} -function cleanValidationError(message, { mergeName = false } = {}) { - const match = message.match(/^([^:]+): (.*)$/m); - if (!match) - return `validation failed`; - let [, path16, line] = match; - if (mergeName) - line = line[0].toLowerCase() + line.slice(1); - line = path16 !== `.` || !mergeName ? `${path16.replace(/^\.(\[|$)/, `$1`)}: ${line}` : `: ${line}`; - return line; -} -function formatError(message, errors) { - if (errors.length === 1) { - return new UsageError(`${message}${cleanValidationError(errors[0], { mergeName: true })}`); - } else { - return new UsageError(`${message}: -${errors.map((error) => ` -- ${cleanValidationError(error)}`).join(``)}`); - } -} -function applyValidator(name2, value, validator) { - if (typeof validator === `undefined`) - return value; - const errors = []; - const coercions = []; - const coercion = (v) => { - const orig = value; - value = v; - return coercion.bind(null, orig); - }; - const check = validator(value, { errors, coercions, coercion }); - if (!check) - throw formatError(`Invalid value for ${name2}`, errors); - for (const [, op] of coercions) - op(); - return value; -} - -// .yarn/__virtual__/clipanion-virtual-dbbb3cfe27/0/cache/clipanion-patch-1b1b878e9f-a833a30963.zip/node_modules/clipanion/lib/advanced/Command.mjs -var Command = class { - constructor() { - this.help = false; - } - /** - * Defines the usage information for the given command. - */ - static Usage(usage) { - return usage; - } - /** - * Standard error handler which will simply rethrow the error. Can be used - * to add custom logic to handle errors from the command or simply return - * the parent class error handling. - */ - async catch(error) { - throw error; - } - async validateAndExecute() { - const commandClass = this.constructor; - const cascade2 = commandClass.schema; - if (Array.isArray(cascade2)) { - const { isDict: isDict2, isUnknown: isUnknown2, applyCascade: applyCascade2 } = await Promise.resolve().then(() => (init_lib(), lib_exports)); - const schema = applyCascade2(isDict2(isUnknown2()), cascade2); - const errors = []; - const coercions = []; - const check = schema(this, { errors, coercions }); - if (!check) - throw formatError(`Invalid option schema`, errors); - for (const [, op] of coercions) { - op(); +// node_modules/tar/dist/esm/pack.js +var import_fs12, import_path10, PackJob, EOF2, ONSTAT, ENDED3, QUEUE2, PENDINGLINKS, CURRENT, PROCESS2, PROCESSING, PROCESSJOB, JOBS, JOBDONE, ADDFSENTRY, ADDTARENTRY, STAT, READDIR, ONREADDIR, PIPE, ENTRY, ENTRYOPT, WRITEENTRYCLASS, WRITE, ONDRAIN2, Pack, PackSync; +var init_pack = __esm({ + "node_modules/tar/dist/esm/pack.js"() { + import_fs12 = __toESM(require("fs"), 1); + init_write_entry(); + init_esm(); + init_esm3(); + init_esm5(); + init_read_entry(); + init_warn_method(); + import_path10 = __toESM(require("path"), 1); + init_normalize_windows_path(); + PackJob = class { + path; + absolute; + entry; + stat; + readdir; + pending = false; + pendingLink = false; + ignore = false; + piped = false; + constructor(path16, absolute) { + this.path = path16 || "./"; + this.absolute = absolute; } - } else if (cascade2 != null) { - throw new Error(`Invalid command schema`); - } - const exitCode = await this.execute(); - if (typeof exitCode !== `undefined`) { - return exitCode; - } else { - return 0; - } - } -}; -Command.isOption = isOptionSymbol; -Command.Default = []; - -// .yarn/__virtual__/clipanion-virtual-dbbb3cfe27/0/cache/clipanion-patch-1b1b878e9f-a833a30963.zip/node_modules/clipanion/lib/core.mjs -function debug(str) { - if (DEBUG) { - console.log(str); - } -} -var basicHelpState = { - candidateUsage: null, - requiredOptions: [], - errorMessage: null, - ignoreOptions: false, - path: [], - positionals: [], - options: [], - remainder: null, - selectedIndex: HELP_COMMAND_INDEX -}; -function makeStateMachine() { - return { - nodes: [makeNode(), makeNode(), makeNode()] - }; -} -function makeAnyOfMachine(inputs) { - const output = makeStateMachine(); - const heads = []; - let offset = output.nodes.length; - for (const input of inputs) { - heads.push(offset); - for (let t = 0; t < input.nodes.length; ++t) - if (!isTerminalNode(t)) - output.nodes.push(cloneNode(input.nodes[t], offset)); - offset += input.nodes.length - 2; - } - for (const head of heads) - registerShortcut(output, NODE_INITIAL, head); - return output; -} -function injectNode(machine, node) { - machine.nodes.push(node); - return machine.nodes.length - 1; -} -function simplifyMachine(input) { - const visited = /* @__PURE__ */ new Set(); - const process5 = (node) => { - if (visited.has(node)) - return; - visited.add(node); - const nodeDef = input.nodes[node]; - for (const transitions of Object.values(nodeDef.statics)) - for (const { to } of transitions) - process5(to); - for (const [, { to }] of nodeDef.dynamics) - process5(to); - for (const { to } of nodeDef.shortcuts) - process5(to); - const shortcuts = new Set(nodeDef.shortcuts.map(({ to }) => to)); - while (nodeDef.shortcuts.length > 0) { - const { to } = nodeDef.shortcuts.shift(); - const toDef = input.nodes[to]; - for (const [segment, transitions] of Object.entries(toDef.statics)) { - const store = !Object.prototype.hasOwnProperty.call(nodeDef.statics, segment) ? nodeDef.statics[segment] = [] : nodeDef.statics[segment]; - for (const transition of transitions) { - if (!store.some(({ to: to2 }) => transition.to === to2)) { - store.push(transition); + }; + EOF2 = Buffer.alloc(1024); + ONSTAT = /* @__PURE__ */ Symbol("onStat"); + ENDED3 = /* @__PURE__ */ Symbol("ended"); + QUEUE2 = /* @__PURE__ */ Symbol("queue"); + PENDINGLINKS = /* @__PURE__ */ Symbol("queue"); + CURRENT = /* @__PURE__ */ Symbol("current"); + PROCESS2 = /* @__PURE__ */ Symbol("process"); + PROCESSING = /* @__PURE__ */ Symbol("processing"); + PROCESSJOB = /* @__PURE__ */ Symbol("processJob"); + JOBS = /* @__PURE__ */ Symbol("jobs"); + JOBDONE = /* @__PURE__ */ Symbol("jobDone"); + ADDFSENTRY = /* @__PURE__ */ Symbol("addFSEntry"); + ADDTARENTRY = /* @__PURE__ */ Symbol("addTarEntry"); + STAT = /* @__PURE__ */ Symbol("stat"); + READDIR = /* @__PURE__ */ Symbol("readdir"); + ONREADDIR = /* @__PURE__ */ Symbol("onreaddir"); + PIPE = /* @__PURE__ */ Symbol("pipe"); + ENTRY = /* @__PURE__ */ Symbol("entry"); + ENTRYOPT = /* @__PURE__ */ Symbol("entryOpt"); + WRITEENTRYCLASS = /* @__PURE__ */ Symbol("writeEntryClass"); + WRITE = /* @__PURE__ */ Symbol("write"); + ONDRAIN2 = /* @__PURE__ */ Symbol("ondrain"); + Pack = class extends Minipass { + sync = false; + opt; + cwd; + maxReadSize; + preservePaths; + strict; + noPax; + prefix; + linkCache; + statCache; + file; + portable; + zip; + readdirCache; + noDirRecurse; + follow; + noMtime; + mtime; + filter; + jobs; + [WRITEENTRYCLASS]; + onWriteEntry; + // Note: we actually DO need a linked list here, because we + // shift() to update the head of the list where we start, but still + // while that happens, need to know what the next item in the queue + // will be. Since we do multiple jobs in parallel, it's not as simple + // as just an Array.shift(), since that would lose the information about + // the next job in the list. We could add a .next field on the PackJob + // class, but then we'd have to be tracking the tail of the queue the + // whole time, and Yallist just does that for us anyway. + [QUEUE2]; + [PENDINGLINKS] = /* @__PURE__ */ new Map(); + [JOBS] = 0; + [PROCESSING] = false; + [ENDED3] = false; + constructor(opt = {}) { + super(); + this.opt = opt; + this.file = opt.file || ""; + this.cwd = opt.cwd || process.cwd(); + this.maxReadSize = opt.maxReadSize; + this.preservePaths = !!opt.preservePaths; + this.strict = !!opt.strict; + this.noPax = !!opt.noPax; + this.prefix = normalizeWindowsPath(opt.prefix || ""); + this.linkCache = opt.linkCache || /* @__PURE__ */ new Map(); + this.statCache = opt.statCache || /* @__PURE__ */ new Map(); + this.readdirCache = opt.readdirCache || /* @__PURE__ */ new Map(); + this.onWriteEntry = opt.onWriteEntry; + this[WRITEENTRYCLASS] = WriteEntry; + if (typeof opt.onwarn === "function") { + this.on("warn", opt.onwarn); + } + this.portable = !!opt.portable; + if (opt.gzip || opt.brotli || opt.zstd) { + if ((opt.gzip ? 1 : 0) + (opt.brotli ? 1 : 0) + (opt.zstd ? 1 : 0) > 1) { + throw new TypeError("gzip, brotli, zstd are mutually exclusive"); + } + if (opt.gzip) { + if (typeof opt.gzip !== "object") { + opt.gzip = {}; + } + if (this.portable) { + opt.gzip.portable = true; + } + this.zip = new Gzip(opt.gzip); + } + if (opt.brotli) { + if (typeof opt.brotli !== "object") { + opt.brotli = {}; + } + this.zip = new BrotliCompress(opt.brotli); + } + if (opt.zstd) { + if (typeof opt.zstd !== "object") { + opt.zstd = {}; + } + this.zip = new ZstdCompress(opt.zstd); } + if (!this.zip) + throw new Error("impossible"); + const zip = this.zip; + zip.on("data", (chunk) => super.write(chunk)); + zip.on("end", () => super.end()); + zip.on("drain", () => this[ONDRAIN2]()); + this.on("resume", () => zip.resume()); + } else { + this.on("drain", this[ONDRAIN2]); } + this.noDirRecurse = !!opt.noDirRecurse; + this.follow = !!opt.follow; + this.noMtime = !!opt.noMtime; + if (opt.mtime) + this.mtime = opt.mtime; + this.filter = typeof opt.filter === "function" ? opt.filter : () => true; + this[QUEUE2] = new Yallist(); + this[JOBS] = 0; + this.jobs = Number(opt.jobs) || 4; + this[PROCESSING] = false; + this[ENDED3] = false; } - for (const [test, transition] of toDef.dynamics) - if (!nodeDef.dynamics.some(([otherTest, { to: to2 }]) => test === otherTest && transition.to === to2)) - nodeDef.dynamics.push([test, transition]); - for (const transition of toDef.shortcuts) { - if (!shortcuts.has(transition.to)) { - nodeDef.shortcuts.push(transition); - shortcuts.add(transition.to); - } + [WRITE](chunk) { + return super.write(chunk); } - } - }; - process5(NODE_INITIAL); -} -function debugMachine(machine, { prefix = `` } = {}) { - if (DEBUG) { - debug(`${prefix}Nodes are:`); - for (let t = 0; t < machine.nodes.length; ++t) { - debug(`${prefix} ${t}: ${JSON.stringify(machine.nodes[t])}`); - } - } -} -function runMachineInternal(machine, input, partial = false) { - debug(`Running a vm on ${JSON.stringify(input)}`); - let branches = [{ node: NODE_INITIAL, state: { - candidateUsage: null, - requiredOptions: [], - errorMessage: null, - ignoreOptions: false, - options: [], - path: [], - positionals: [], - remainder: null, - selectedIndex: null - } }]; - debugMachine(machine, { prefix: ` ` }); - const tokens = [START_OF_INPUT, ...input]; - for (let t = 0; t < tokens.length; ++t) { - const segment = tokens[t]; - debug(` Processing ${JSON.stringify(segment)}`); - const nextBranches = []; - for (const { node, state } of branches) { - debug(` Current node is ${node}`); - const nodeDef = machine.nodes[node]; - if (node === NODE_ERRORED) { - nextBranches.push({ node, state }); - continue; + add(path16) { + this.write(path16); + return this; } - console.assert(nodeDef.shortcuts.length === 0, `Shortcuts should have been eliminated by now`); - const hasExactMatch = Object.prototype.hasOwnProperty.call(nodeDef.statics, segment); - if (!partial || t < tokens.length - 1 || hasExactMatch) { - if (hasExactMatch) { - const transitions = nodeDef.statics[segment]; - for (const { to, reducer } of transitions) { - nextBranches.push({ node: to, state: typeof reducer !== `undefined` ? execute(reducers, reducer, state, segment) : state }); - debug(` Static transition to ${to} found`); - } - } else { - debug(` No static transition found`); + end(path16, encoding, cb) { + if (typeof path16 === "function") { + cb = path16; + path16 = void 0; } - } else { - let hasMatches = false; - for (const candidate of Object.keys(nodeDef.statics)) { - if (!candidate.startsWith(segment)) - continue; - if (segment === candidate) { - for (const { to, reducer } of nodeDef.statics[candidate]) { - nextBranches.push({ node: to, state: typeof reducer !== `undefined` ? execute(reducers, reducer, state, segment) : state }); - debug(` Static transition to ${to} found`); - } - } else { - for (const { to } of nodeDef.statics[candidate]) { - nextBranches.push({ node: to, state: { ...state, remainder: candidate.slice(segment.length) } }); - debug(` Static transition to ${to} found (partial match)`); - } - } - hasMatches = true; + if (typeof encoding === "function") { + cb = encoding; + encoding = void 0; } - if (!hasMatches) { - debug(` No partial static transition found`); + if (path16) { + this.add(path16); } + this[ENDED3] = true; + this[PROCESS2](); + if (cb) + cb(); + return this; } - if (segment !== END_OF_INPUT) { - for (const [test, { to, reducer }] of nodeDef.dynamics) { - if (execute(tests, test, state, segment)) { - nextBranches.push({ node: to, state: typeof reducer !== `undefined` ? execute(reducers, reducer, state, segment) : state }); - debug(` Dynamic transition to ${to} found (via ${test})`); - } + write(path16) { + if (this[ENDED3]) { + throw new Error("write after end"); } - } - } - if (nextBranches.length === 0 && segment === END_OF_INPUT && input.length === 1) { - return [{ - node: NODE_INITIAL, - state: basicHelpState - }]; - } - if (nextBranches.length === 0) { - throw new UnknownSyntaxError(input, branches.filter(({ node }) => { - return node !== NODE_ERRORED; - }).map(({ state }) => { - return { usage: state.candidateUsage, reason: null }; - })); - } - if (nextBranches.every(({ node }) => node === NODE_ERRORED)) { - throw new UnknownSyntaxError(input, nextBranches.map(({ state }) => { - return { usage: state.candidateUsage, reason: state.errorMessage }; - })); - } - branches = trimSmallerBranches(nextBranches); - } - if (branches.length > 0) { - debug(` Results:`); - for (const branch of branches) { - debug(` - ${branch.node} -> ${JSON.stringify(branch.state)}`); - } - } else { - debug(` No results`); - } - return branches; -} -function checkIfNodeIsFinished(node, state) { - if (state.selectedIndex !== null) - return true; - if (Object.prototype.hasOwnProperty.call(node.statics, END_OF_INPUT)) { - for (const { to } of node.statics[END_OF_INPUT]) - if (to === NODE_SUCCESS) - return true; - } - return false; -} -function suggestMachine(machine, input, partial) { - const prefix = partial && input.length > 0 ? [``] : []; - const branches = runMachineInternal(machine, input, partial); - const suggestions = []; - const suggestionsJson = /* @__PURE__ */ new Set(); - const traverseSuggestion = (suggestion, node, skipFirst = true) => { - let nextNodes = [node]; - while (nextNodes.length > 0) { - const currentNodes = nextNodes; - nextNodes = []; - for (const node2 of currentNodes) { - const nodeDef = machine.nodes[node2]; - const keys = Object.keys(nodeDef.statics); - for (const key of Object.keys(nodeDef.statics)) { - const segment = keys[0]; - for (const { to, reducer } of nodeDef.statics[segment]) { - if (reducer !== `pushPath`) - continue; - if (!skipFirst) - suggestion.push(segment); - nextNodes.push(to); - } + if (path16 instanceof ReadEntry) { + this[ADDTARENTRY](path16); + } else { + this[ADDFSENTRY](path16); } + return this.flowing; } - skipFirst = false; - } - const json = JSON.stringify(suggestion); - if (suggestionsJson.has(json)) - return; - suggestions.push(suggestion); - suggestionsJson.add(json); - }; - for (const { node, state } of branches) { - if (state.remainder !== null) { - traverseSuggestion([state.remainder], node); - continue; - } - const nodeDef = machine.nodes[node]; - const isFinished = checkIfNodeIsFinished(nodeDef, state); - for (const [candidate, transitions] of Object.entries(nodeDef.statics)) - if (isFinished && candidate !== END_OF_INPUT || !candidate.startsWith(`-`) && transitions.some(({ reducer }) => reducer === `pushPath`)) - traverseSuggestion([...prefix, candidate], node); - if (!isFinished) - continue; - for (const [test, { to }] of nodeDef.dynamics) { - if (to === NODE_ERRORED) - continue; - const tokens = suggest(test, state); - if (tokens === null) - continue; - for (const token of tokens) { - traverseSuggestion([...prefix, token], node); - } - } - } - return [...suggestions].sort(); -} -function runMachine(machine, input) { - const branches = runMachineInternal(machine, [...input, END_OF_INPUT]); - return selectBestState(input, branches.map(({ state }) => { - return state; - })); -} -function trimSmallerBranches(branches) { - let maxPathSize = 0; - for (const { state } of branches) - if (state.path.length > maxPathSize) - maxPathSize = state.path.length; - return branches.filter(({ state }) => { - return state.path.length === maxPathSize; - }); -} -function selectBestState(input, states) { - const terminalStates = states.filter((state) => { - return state.selectedIndex !== null; - }); - if (terminalStates.length === 0) - throw new Error(); - const requiredOptionsSetStates = terminalStates.filter((state) => state.selectedIndex === HELP_COMMAND_INDEX || state.requiredOptions.every((names) => names.some((name2) => state.options.find((opt) => opt.name === name2)))); - if (requiredOptionsSetStates.length === 0) { - throw new UnknownSyntaxError(input, terminalStates.map((state) => ({ - usage: state.candidateUsage, - reason: null - }))); - } - let maxPathSize = 0; - for (const state of requiredOptionsSetStates) - if (state.path.length > maxPathSize) - maxPathSize = state.path.length; - const bestPathBranches = requiredOptionsSetStates.filter((state) => { - return state.path.length === maxPathSize; - }); - const getPositionalCount = (state) => state.positionals.filter(({ extra }) => { - return !extra; - }).length + state.options.length; - const statesWithPositionalCount = bestPathBranches.map((state) => { - return { state, positionalCount: getPositionalCount(state) }; - }); - let maxPositionalCount = 0; - for (const { positionalCount } of statesWithPositionalCount) - if (positionalCount > maxPositionalCount) - maxPositionalCount = positionalCount; - const bestPositionalStates = statesWithPositionalCount.filter(({ positionalCount }) => { - return positionalCount === maxPositionalCount; - }).map(({ state }) => { - return state; - }); - const fixedStates = aggregateHelpStates(bestPositionalStates); - if (fixedStates.length > 1) - throw new AmbiguousSyntaxError(input, fixedStates.map((state) => state.candidateUsage)); - return fixedStates[0]; -} -function aggregateHelpStates(states) { - const notHelps = []; - const helps = []; - for (const state of states) { - if (state.selectedIndex === HELP_COMMAND_INDEX) { - helps.push(state); - } else { - notHelps.push(state); - } - } - if (helps.length > 0) { - notHelps.push({ - ...basicHelpState, - path: findCommonPrefix(...helps.map((state) => state.path)), - options: helps.reduce((options, state) => options.concat(state.options), []) - }); - } - return notHelps; -} -function findCommonPrefix(firstPath, secondPath, ...rest) { - if (secondPath === void 0) - return Array.from(firstPath); - return findCommonPrefix(firstPath.filter((segment, i) => segment === secondPath[i]), ...rest); -} -function makeNode() { - return { - dynamics: [], - shortcuts: [], - statics: {} - }; -} -function isTerminalNode(node) { - return node === NODE_SUCCESS || node === NODE_ERRORED; -} -function cloneTransition(input, offset = 0) { - return { - to: !isTerminalNode(input.to) ? input.to > 2 ? input.to + offset - 2 : input.to + offset : input.to, - reducer: input.reducer - }; -} -function cloneNode(input, offset = 0) { - const output = makeNode(); - for (const [test, transition] of input.dynamics) - output.dynamics.push([test, cloneTransition(transition, offset)]); - for (const transition of input.shortcuts) - output.shortcuts.push(cloneTransition(transition, offset)); - for (const [segment, transitions] of Object.entries(input.statics)) - output.statics[segment] = transitions.map((transition) => cloneTransition(transition, offset)); - return output; -} -function registerDynamic(machine, from, test, to, reducer) { - machine.nodes[from].dynamics.push([ - test, - { to, reducer } - ]); -} -function registerShortcut(machine, from, to, reducer) { - machine.nodes[from].shortcuts.push({ to, reducer }); -} -function registerStatic(machine, from, test, to, reducer) { - const store = !Object.prototype.hasOwnProperty.call(machine.nodes[from].statics, test) ? machine.nodes[from].statics[test] = [] : machine.nodes[from].statics[test]; - store.push({ to, reducer }); -} -function execute(store, callback, state, segment) { - if (Array.isArray(callback)) { - const [name2, ...args] = callback; - return store[name2](state, segment, ...args); - } else { - return store[callback](state, segment); - } -} -function suggest(callback, state) { - const fn2 = Array.isArray(callback) ? tests[callback[0]] : tests[callback]; - if (typeof fn2.suggest === `undefined`) - return null; - const args = Array.isArray(callback) ? callback.slice(1) : []; - return fn2.suggest(state, ...args); -} -var tests = { - always: () => { - return true; - }, - isOptionLike: (state, segment) => { - return !state.ignoreOptions && (segment !== `-` && segment.startsWith(`-`)); - }, - isNotOptionLike: (state, segment) => { - return state.ignoreOptions || segment === `-` || !segment.startsWith(`-`); - }, - isOption: (state, segment, name2, hidden) => { - return !state.ignoreOptions && segment === name2; - }, - isBatchOption: (state, segment, names) => { - return !state.ignoreOptions && BATCH_REGEX.test(segment) && [...segment.slice(1)].every((name2) => names.includes(`-${name2}`)); - }, - isBoundOption: (state, segment, names, options) => { - const optionParsing = segment.match(BINDING_REGEX); - return !state.ignoreOptions && !!optionParsing && OPTION_REGEX.test(optionParsing[1]) && names.includes(optionParsing[1]) && options.filter((opt) => opt.names.includes(optionParsing[1])).every((opt) => opt.allowBinding); - }, - isNegatedOption: (state, segment, name2) => { - return !state.ignoreOptions && segment === `--no-${name2.slice(2)}`; - }, - isHelp: (state, segment) => { - return !state.ignoreOptions && HELP_REGEX.test(segment); - }, - isUnsupportedOption: (state, segment, names) => { - return !state.ignoreOptions && segment.startsWith(`-`) && OPTION_REGEX.test(segment) && !names.includes(segment); - }, - isInvalidOption: (state, segment) => { - return !state.ignoreOptions && segment.startsWith(`-`) && !OPTION_REGEX.test(segment); - } -}; -tests.isOption.suggest = (state, name2, hidden = true) => { - return !hidden ? [name2] : null; -}; -var reducers = { - setCandidateState: (state, segment, candidateState) => { - return { ...state, ...candidateState }; - }, - setSelectedIndex: (state, segment, index) => { - return { ...state, selectedIndex: index }; - }, - pushBatch: (state, segment) => { - return { ...state, options: state.options.concat([...segment.slice(1)].map((name2) => ({ name: `-${name2}`, value: true }))) }; - }, - pushBound: (state, segment) => { - const [, name2, value] = segment.match(BINDING_REGEX); - return { ...state, options: state.options.concat({ name: name2, value }) }; - }, - pushPath: (state, segment) => { - return { ...state, path: state.path.concat(segment) }; - }, - pushPositional: (state, segment) => { - return { ...state, positionals: state.positionals.concat({ value: segment, extra: false }) }; - }, - pushExtra: (state, segment) => { - return { ...state, positionals: state.positionals.concat({ value: segment, extra: true }) }; - }, - pushExtraNoLimits: (state, segment) => { - return { ...state, positionals: state.positionals.concat({ value: segment, extra: NoLimits }) }; - }, - pushTrue: (state, segment, name2 = segment) => { - return { ...state, options: state.options.concat({ name: segment, value: true }) }; - }, - pushFalse: (state, segment, name2 = segment) => { - return { ...state, options: state.options.concat({ name: name2, value: false }) }; - }, - pushUndefined: (state, segment) => { - return { ...state, options: state.options.concat({ name: segment, value: void 0 }) }; - }, - pushStringValue: (state, segment) => { - var _a; - const copy = { ...state, options: [...state.options] }; - const lastOption = state.options[state.options.length - 1]; - lastOption.value = ((_a = lastOption.value) !== null && _a !== void 0 ? _a : []).concat([segment]); - return copy; - }, - setStringValue: (state, segment) => { - const copy = { ...state, options: [...state.options] }; - const lastOption = state.options[state.options.length - 1]; - lastOption.value = segment; - return copy; - }, - inhibateOptions: (state) => { - return { ...state, ignoreOptions: true }; - }, - useHelp: (state, segment, command) => { - const [ - , - /* name */ - , - index - ] = segment.match(HELP_REGEX); - if (typeof index !== `undefined`) { - return { ...state, options: [{ name: `-c`, value: String(command) }, { name: `-i`, value: index }] }; - } else { - return { ...state, options: [{ name: `-c`, value: String(command) }] }; - } - }, - setError: (state, segment, errorMessage) => { - if (segment === END_OF_INPUT) { - return { ...state, errorMessage: `${errorMessage}.` }; - } else { - return { ...state, errorMessage: `${errorMessage} ("${segment}").` }; - } - }, - setOptionArityError: (state, segment) => { - const lastOption = state.options[state.options.length - 1]; - return { ...state, errorMessage: `Not enough arguments to option ${lastOption.name}.` }; - } -}; -var NoLimits = Symbol(); -var CommandBuilder = class { - constructor(cliIndex, cliOpts) { - this.allOptionNames = []; - this.arity = { leading: [], trailing: [], extra: [], proxy: false }; - this.options = []; - this.paths = []; - this.cliIndex = cliIndex; - this.cliOpts = cliOpts; - } - addPath(path16) { - this.paths.push(path16); - } - setArity({ leading = this.arity.leading, trailing = this.arity.trailing, extra = this.arity.extra, proxy = this.arity.proxy }) { - Object.assign(this.arity, { leading, trailing, extra, proxy }); - } - addPositional({ name: name2 = `arg`, required = true } = {}) { - if (!required && this.arity.extra === NoLimits) - throw new Error(`Optional parameters cannot be declared when using .rest() or .proxy()`); - if (!required && this.arity.trailing.length > 0) - throw new Error(`Optional parameters cannot be declared after the required trailing positional arguments`); - if (!required && this.arity.extra !== NoLimits) { - this.arity.extra.push(name2); - } else if (this.arity.extra !== NoLimits && this.arity.extra.length === 0) { - this.arity.leading.push(name2); - } else { - this.arity.trailing.push(name2); - } - } - addRest({ name: name2 = `arg`, required = 0 } = {}) { - if (this.arity.extra === NoLimits) - throw new Error(`Infinite lists cannot be declared multiple times in the same command`); - if (this.arity.trailing.length > 0) - throw new Error(`Infinite lists cannot be declared after the required trailing positional arguments`); - for (let t = 0; t < required; ++t) - this.addPositional({ name: name2 }); - this.arity.extra = NoLimits; - } - addProxy({ required = 0 } = {}) { - this.addRest({ required }); - this.arity.proxy = true; - } - addOption({ names, description, arity = 0, hidden = false, required = false, allowBinding = true }) { - if (!allowBinding && arity > 1) - throw new Error(`The arity cannot be higher than 1 when the option only supports the --arg=value syntax`); - if (!Number.isInteger(arity)) - throw new Error(`The arity must be an integer, got ${arity}`); - if (arity < 0) - throw new Error(`The arity must be positive, got ${arity}`); - this.allOptionNames.push(...names); - this.options.push({ names, description, arity, hidden, required, allowBinding }); - } - setContext(context) { - this.context = context; - } - usage({ detailed = true, inlineOptions = true } = {}) { - const segments = [this.cliOpts.binaryName]; - const detailedOptionList = []; - if (this.paths.length > 0) - segments.push(...this.paths[0]); - if (detailed) { - for (const { names, arity, hidden, description, required } of this.options) { - if (hidden) - continue; - const args = []; - for (let t = 0; t < arity; ++t) - args.push(` #${t}`); - const definition = `${names.join(`,`)}${args.join(``)}`; - if (!inlineOptions && description) { - detailedOptionList.push({ definition, description, required }); + [ADDTARENTRY](p) { + const absolute = normalizeWindowsPath(import_path10.default.resolve(this.cwd, p.path)); + if (!this.filter(p.path, p)) { + p.resume(); } else { - segments.push(required ? `<${definition}>` : `[${definition}]`); + const job = new PackJob(p.path, absolute); + job.entry = new WriteEntryTar(p, this[ENTRYOPT](job)); + job.entry.on("end", () => this[JOBDONE](job)); + this[JOBS] += 1; + this[QUEUE2].push(job); } + this[PROCESS2](); + } + [ADDFSENTRY](p) { + const absolute = normalizeWindowsPath(import_path10.default.resolve(this.cwd, p)); + this[QUEUE2].push(new PackJob(p, absolute)); + this[PROCESS2](); + } + [STAT](job) { + job.pending = true; + this[JOBS] += 1; + const stat = this.follow ? "stat" : "lstat"; + import_fs12.default[stat](job.absolute, (er, stat2) => { + job.pending = false; + this[JOBS] -= 1; + if (er) { + this.emit("error", er); + } else { + this[ONSTAT](job, stat2); + } + }); } - segments.push(...this.arity.leading.map((name2) => `<${name2}>`)); - if (this.arity.extra === NoLimits) - segments.push(`...`); - else - segments.push(...this.arity.extra.map((name2) => `[${name2}]`)); - segments.push(...this.arity.trailing.map((name2) => `<${name2}>`)); - } - const usage = segments.join(` `); - return { usage, options: detailedOptionList }; - } - compile() { - if (typeof this.context === `undefined`) - throw new Error(`Assertion failed: No context attached`); - const machine = makeStateMachine(); - let firstNode = NODE_INITIAL; - const candidateUsage = this.usage().usage; - const requiredOptions = this.options.filter((opt) => opt.required).map((opt) => opt.names); - firstNode = injectNode(machine, makeNode()); - registerStatic(machine, NODE_INITIAL, START_OF_INPUT, firstNode, [`setCandidateState`, { candidateUsage, requiredOptions }]); - const positionalArgument = this.arity.proxy ? `always` : `isNotOptionLike`; - const paths = this.paths.length > 0 ? this.paths : [[]]; - for (const path16 of paths) { - let lastPathNode = firstNode; - if (path16.length > 0) { - const optionPathNode = injectNode(machine, makeNode()); - registerShortcut(machine, lastPathNode, optionPathNode); - this.registerOptions(machine, optionPathNode); - lastPathNode = optionPathNode; - } - for (let t = 0; t < path16.length; ++t) { - const nextPathNode = injectNode(machine, makeNode()); - registerStatic(machine, lastPathNode, path16[t], nextPathNode, `pushPath`); - lastPathNode = nextPathNode; - } - if (this.arity.leading.length > 0 || !this.arity.proxy) { - const helpNode = injectNode(machine, makeNode()); - registerDynamic(machine, lastPathNode, `isHelp`, helpNode, [`useHelp`, this.cliIndex]); - registerDynamic(machine, helpNode, `always`, helpNode, `pushExtra`); - registerStatic(machine, helpNode, END_OF_INPUT, NODE_SUCCESS, [`setSelectedIndex`, HELP_COMMAND_INDEX]); - this.registerOptions(machine, lastPathNode); - } - if (this.arity.leading.length > 0) - registerStatic(machine, lastPathNode, END_OF_INPUT, NODE_ERRORED, [`setError`, `Not enough positional arguments`]); - let lastLeadingNode = lastPathNode; - for (let t = 0; t < this.arity.leading.length; ++t) { - const nextLeadingNode = injectNode(machine, makeNode()); - if (!this.arity.proxy || t + 1 !== this.arity.leading.length) - this.registerOptions(machine, nextLeadingNode); - if (this.arity.trailing.length > 0 || t + 1 !== this.arity.leading.length) - registerStatic(machine, nextLeadingNode, END_OF_INPUT, NODE_ERRORED, [`setError`, `Not enough positional arguments`]); - registerDynamic(machine, lastLeadingNode, `isNotOptionLike`, nextLeadingNode, `pushPositional`); - lastLeadingNode = nextLeadingNode; - } - let lastExtraNode = lastLeadingNode; - if (this.arity.extra === NoLimits || this.arity.extra.length > 0) { - const extraShortcutNode = injectNode(machine, makeNode()); - registerShortcut(machine, lastLeadingNode, extraShortcutNode); - if (this.arity.extra === NoLimits) { - const extraNode = injectNode(machine, makeNode()); - if (!this.arity.proxy) - this.registerOptions(machine, extraNode); - registerDynamic(machine, lastLeadingNode, positionalArgument, extraNode, `pushExtraNoLimits`); - registerDynamic(machine, extraNode, positionalArgument, extraNode, `pushExtraNoLimits`); - registerShortcut(machine, extraNode, extraShortcutNode); - } else { - for (let t = 0; t < this.arity.extra.length; ++t) { - const nextExtraNode = injectNode(machine, makeNode()); - if (!this.arity.proxy || t > 0) - this.registerOptions(machine, nextExtraNode); - registerDynamic(machine, lastExtraNode, positionalArgument, nextExtraNode, `pushExtra`); - registerShortcut(machine, nextExtraNode, extraShortcutNode); - lastExtraNode = nextExtraNode; + [ONSTAT](job, stat) { + this.statCache.set(job.absolute, stat); + job.stat = stat; + if (!this.filter(job.path, stat)) { + job.ignore = true; + } else if (stat.isFile() && stat.nlink > 1 && !this.linkCache.get(`${stat.dev}:${stat.ino}`) && !this.sync) { + if (job === this[CURRENT]) { + this[PROCESSJOB](job); + } else { + const key = `${stat.dev}:${stat.ino}`; + const pending = this[PENDINGLINKS].get(key); + if (pending) + pending.push(job); + else + this[PENDINGLINKS].set(key, [job]); + job.pendingLink = true; + job.pending = true; } } - lastExtraNode = extraShortcutNode; - } - if (this.arity.trailing.length > 0) - registerStatic(machine, lastExtraNode, END_OF_INPUT, NODE_ERRORED, [`setError`, `Not enough positional arguments`]); - let lastTrailingNode = lastExtraNode; - for (let t = 0; t < this.arity.trailing.length; ++t) { - const nextTrailingNode = injectNode(machine, makeNode()); - if (!this.arity.proxy) - this.registerOptions(machine, nextTrailingNode); - if (t + 1 < this.arity.trailing.length) - registerStatic(machine, nextTrailingNode, END_OF_INPUT, NODE_ERRORED, [`setError`, `Not enough positional arguments`]); - registerDynamic(machine, lastTrailingNode, `isNotOptionLike`, nextTrailingNode, `pushPositional`); - lastTrailingNode = nextTrailingNode; - } - registerDynamic(machine, lastTrailingNode, positionalArgument, NODE_ERRORED, [`setError`, `Extraneous positional argument`]); - registerStatic(machine, lastTrailingNode, END_OF_INPUT, NODE_SUCCESS, [`setSelectedIndex`, this.cliIndex]); - } - return { - machine, - context: this.context - }; - } - registerOptions(machine, node) { - registerDynamic(machine, node, [`isOption`, `--`], node, `inhibateOptions`); - registerDynamic(machine, node, [`isBatchOption`, this.allOptionNames], node, `pushBatch`); - registerDynamic(machine, node, [`isBoundOption`, this.allOptionNames, this.options], node, `pushBound`); - registerDynamic(machine, node, [`isUnsupportedOption`, this.allOptionNames], NODE_ERRORED, [`setError`, `Unsupported option name`]); - registerDynamic(machine, node, [`isInvalidOption`], NODE_ERRORED, [`setError`, `Invalid option name`]); - for (const option of this.options) { - const longestName = option.names.reduce((longestName2, name2) => { - return name2.length > longestName2.length ? name2 : longestName2; - }, ``); - if (option.arity === 0) { - for (const name2 of option.names) { - registerDynamic(machine, node, [`isOption`, name2, option.hidden || name2 !== longestName], node, `pushTrue`); - if (name2.startsWith(`--`) && !name2.startsWith(`--no-`)) { - registerDynamic(machine, node, [`isNegatedOption`, name2], node, [`pushFalse`, name2]); + this[PROCESS2](); + } + [READDIR](job) { + job.pending = true; + this[JOBS] += 1; + import_fs12.default.readdir(job.absolute, (er, entries) => { + job.pending = false; + this[JOBS] -= 1; + if (er) { + return this.emit("error", er); } - } - } else { - let lastNode = injectNode(machine, makeNode()); - for (const name2 of option.names) - registerDynamic(machine, node, [`isOption`, name2, option.hidden || name2 !== longestName], lastNode, `pushUndefined`); - for (let t = 0; t < option.arity; ++t) { - const nextNode = injectNode(machine, makeNode()); - registerStatic(machine, lastNode, END_OF_INPUT, NODE_ERRORED, `setOptionArityError`); - registerDynamic(machine, lastNode, `isOptionLike`, NODE_ERRORED, `setOptionArityError`); - const action = option.arity === 1 ? `setStringValue` : `pushStringValue`; - registerDynamic(machine, lastNode, `isNotOptionLike`, nextNode, action); - lastNode = nextNode; - } - registerShortcut(machine, lastNode, node); + this[ONREADDIR](job, entries); + }); } - } - } -}; -var CliBuilder = class _CliBuilder { - constructor({ binaryName = `...` } = {}) { - this.builders = []; - this.opts = { binaryName }; - } - static build(cbs, opts = {}) { - return new _CliBuilder(opts).commands(cbs).compile(); - } - getBuilderByIndex(n) { - if (!(n >= 0 && n < this.builders.length)) - throw new Error(`Assertion failed: Out-of-bound command index (${n})`); - return this.builders[n]; - } - commands(cbs) { - for (const cb of cbs) - cb(this.command()); - return this; - } - command() { - const builder = new CommandBuilder(this.builders.length, this.opts); - this.builders.push(builder); - return builder; - } - compile() { - const machines = []; - const contexts = []; - for (const builder of this.builders) { - const { machine: machine2, context } = builder.compile(); - machines.push(machine2); - contexts.push(context); - } - const machine = makeAnyOfMachine(machines); - simplifyMachine(machine); - return { - machine, - contexts, - process: (input) => { - return runMachine(machine, input); - }, - suggest: (input, partial) => { - return suggestMachine(machine, input, partial); + [ONREADDIR](job, entries) { + this.readdirCache.set(job.absolute, entries); + job.readdir = entries; + this[PROCESS2](); } - }; - } -}; - -// .yarn/__virtual__/clipanion-virtual-dbbb3cfe27/0/cache/clipanion-patch-1b1b878e9f-a833a30963.zip/node_modules/clipanion/lib/advanced/Cli.mjs -var import_platform = __toESM(require_node(), 1); - -// .yarn/__virtual__/clipanion-virtual-dbbb3cfe27/0/cache/clipanion-patch-1b1b878e9f-a833a30963.zip/node_modules/clipanion/lib/advanced/HelpCommand.mjs -var HelpCommand = class _HelpCommand extends Command { - constructor(contexts) { - super(); - this.contexts = contexts; - this.commands = []; - } - static from(state, contexts) { - const command = new _HelpCommand(contexts); - command.path = state.path; - for (const opt of state.options) { - switch (opt.name) { - case `-c`: - { - command.commands.push(Number(opt.value)); + [PROCESS2]() { + if (this[PROCESSING]) { + return; + } + this[PROCESSING] = true; + for (let w = this[QUEUE2].head; !!w && this[JOBS] < this.jobs; w = w.next) { + this[PROCESSJOB](w.value); + if (w.value.ignore) { + const p = w.next; + this[QUEUE2].removeNode(w); + w.next = p; } - break; - case `-i`: - { - command.index = Number(opt.value); + } + this[PROCESSING] = false; + if (this[ENDED3] && this[QUEUE2].length === 0 && this[JOBS] === 0) { + if (this.zip) { + this.zip.end(EOF2); + } else { + super.write(EOF2); + super.end(); } - break; - } - } - return command; - } - async execute() { - let commands = this.commands; - if (typeof this.index !== `undefined` && this.index >= 0 && this.index < commands.length) - commands = [commands[this.index]]; - if (commands.length === 0) { - this.context.stdout.write(this.cli.usage()); - } else if (commands.length === 1) { - this.context.stdout.write(this.cli.usage(this.contexts[commands[0]].commandClass, { detailed: true })); - } else if (commands.length > 1) { - this.context.stdout.write(`Multiple commands match your selection: -`); - this.context.stdout.write(` -`); - let index = 0; - for (const command of this.commands) - this.context.stdout.write(this.cli.usage(this.contexts[command].commandClass, { prefix: `${index++}. `.padStart(5) })); - this.context.stdout.write(` -`); - this.context.stdout.write(`Run again with -h= to see the longer details of any of those commands. -`); - } - } -}; - -// .yarn/__virtual__/clipanion-virtual-dbbb3cfe27/0/cache/clipanion-patch-1b1b878e9f-a833a30963.zip/node_modules/clipanion/lib/advanced/Cli.mjs -var errorCommandSymbol = Symbol(`clipanion/errorCommand`); -var Cli = class _Cli { - constructor({ binaryLabel, binaryName: binaryNameOpt = `...`, binaryVersion, enableCapture = false, enableColors } = {}) { - this.registrations = /* @__PURE__ */ new Map(); - this.builder = new CliBuilder({ binaryName: binaryNameOpt }); - this.binaryLabel = binaryLabel; - this.binaryName = binaryNameOpt; - this.binaryVersion = binaryVersion; - this.enableCapture = enableCapture; - this.enableColors = enableColors; - } - /** - * Creates a new Cli and registers all commands passed as parameters. - * - * @param commandClasses The Commands to register - * @returns The created `Cli` instance - */ - static from(commandClasses, options = {}) { - const cli = new _Cli(options); - const resolvedCommandClasses = Array.isArray(commandClasses) ? commandClasses : [commandClasses]; - for (const commandClass of resolvedCommandClasses) - cli.register(commandClass); - return cli; - } - /** - * Registers a command inside the CLI. - */ - register(commandClass) { - var _a; - const specs = /* @__PURE__ */ new Map(); - const command = new commandClass(); - for (const key in command) { - const value = command[key]; - if (typeof value === `object` && value !== null && value[Command.isOption]) { - specs.set(key, value); + } } - } - const builder = this.builder.command(); - const index = builder.cliIndex; - const paths = (_a = commandClass.paths) !== null && _a !== void 0 ? _a : command.paths; - if (typeof paths !== `undefined`) - for (const path16 of paths) - builder.addPath(path16); - this.registrations.set(commandClass, { specs, builder, index }); - for (const [key, { definition }] of specs.entries()) - definition(builder, key); - builder.setContext({ - commandClass - }); - } - process(input, userContext) { - const { contexts, process: process5 } = this.builder.compile(); - const state = process5(input); - const context = { - ..._Cli.defaultContext, - ...userContext - }; - switch (state.selectedIndex) { - case HELP_COMMAND_INDEX: { - const command = HelpCommand.from(state, contexts); - command.context = context; - return command; + get [CURRENT]() { + return this[QUEUE2] && this[QUEUE2].head && this[QUEUE2].head.value; } - default: - { - const { commandClass } = contexts[state.selectedIndex]; - const record = this.registrations.get(commandClass); - if (typeof record === `undefined`) - throw new Error(`Assertion failed: Expected the command class to have been registered.`); - const command = new commandClass(); - command.context = context; - command.path = state.path; - try { - for (const [key, { transformer }] of record.specs.entries()) - command[key] = transformer(record.builder, key, state, context); - return command; - } catch (error) { - error[errorCommandSymbol] = command; - throw error; + [JOBDONE](job) { + this[QUEUE2].shift(); + this[JOBS] -= 1; + const { stat } = job; + if (stat && stat.isFile() && stat.nlink > 1) { + const key = `${stat.dev}:${stat.ino}`; + const pending = this[PENDINGLINKS].get(key); + if (pending) { + this[PENDINGLINKS].delete(key); + for (const job2 of pending) { + job2.pending = false; + this[PROCESSJOB](job2); + } } } - break; - } - } - async run(input, userContext) { - var _a, _b; - let command; - const context = { - ..._Cli.defaultContext, - ...userContext - }; - const colored = (_a = this.enableColors) !== null && _a !== void 0 ? _a : context.colorDepth > 1; - if (!Array.isArray(input)) { - command = input; - } else { - try { - command = this.process(input, context); - } catch (error) { - context.stdout.write(this.error(error, { colored })); - return 1; + this[PROCESS2](); } - } - if (command.help) { - context.stdout.write(this.usage(command, { colored, detailed: true })); - return 0; - } - command.context = context; - command.cli = { - binaryLabel: this.binaryLabel, - binaryName: this.binaryName, - binaryVersion: this.binaryVersion, - enableCapture: this.enableCapture, - enableColors: this.enableColors, - definitions: () => this.definitions(), - error: (error, opts) => this.error(error, opts), - format: (colored2) => this.format(colored2), - process: (input2, subContext) => this.process(input2, { ...context, ...subContext }), - run: (input2, subContext) => this.run(input2, { ...context, ...subContext }), - usage: (command2, opts) => this.usage(command2, opts) - }; - const activate = this.enableCapture ? (_b = (0, import_platform.getCaptureActivator)(context)) !== null && _b !== void 0 ? _b : noopCaptureActivator : noopCaptureActivator; - let exitCode; - try { - exitCode = await activate(() => command.validateAndExecute().catch((error) => command.catch(error).then(() => 0))); - } catch (error) { - context.stdout.write(this.error(error, { colored, command })); - return 1; - } - return exitCode; - } - async runExit(input, context) { - process.exitCode = await this.run(input, context); - } - suggest(input, partial) { - const { suggest: suggest2 } = this.builder.compile(); - return suggest2(input, partial); - } - definitions({ colored = false } = {}) { - const data = []; - for (const [commandClass, { index }] of this.registrations) { - if (typeof commandClass.usage === `undefined`) - continue; - const { usage: path16 } = this.getUsageByIndex(index, { detailed: false }); - const { usage, options } = this.getUsageByIndex(index, { detailed: true, inlineOptions: false }); - const category = typeof commandClass.usage.category !== `undefined` ? formatMarkdownish(commandClass.usage.category, { format: this.format(colored), paragraphs: false }) : void 0; - const description = typeof commandClass.usage.description !== `undefined` ? formatMarkdownish(commandClass.usage.description, { format: this.format(colored), paragraphs: false }) : void 0; - const details = typeof commandClass.usage.details !== `undefined` ? formatMarkdownish(commandClass.usage.details, { format: this.format(colored), paragraphs: true }) : void 0; - const examples = typeof commandClass.usage.examples !== `undefined` ? commandClass.usage.examples.map(([label, cli]) => [formatMarkdownish(label, { format: this.format(colored), paragraphs: false }), cli.replace(/\$0/g, this.binaryName)]) : void 0; - data.push({ path: path16, usage, category, description, details, examples, options }); - } - return data; - } - usage(command = null, { colored, detailed = false, prefix = `$ ` } = {}) { - var _a; - if (command === null) { - for (const commandClass2 of this.registrations.keys()) { - const paths = commandClass2.paths; - const isDocumented = typeof commandClass2.usage !== `undefined`; - const isExclusivelyDefault = !paths || paths.length === 0 || paths.length === 1 && paths[0].length === 0; - const isDefault = isExclusivelyDefault || ((_a = paths === null || paths === void 0 ? void 0 : paths.some((path16) => path16.length === 0)) !== null && _a !== void 0 ? _a : false); - if (isDefault) { - if (command) { - command = null; - break; + [PROCESSJOB](job) { + if (job.pending && job.pendingLink && job === this[CURRENT]) { + job.pending = false; + job.pendingLink = false; + } + if (job.pending) { + return; + } + if (job.entry) { + if (job === this[CURRENT] && !job.piped) { + this[PIPE](job); + } + return; + } + if (!job.stat) { + const sc = this.statCache.get(job.absolute); + if (sc) { + this[ONSTAT](job, sc); } else { - command = commandClass2; + this[STAT](job); } - } else { - if (isDocumented) { - command = null; - continue; + } + if (!job.stat) { + return; + } + if (job.ignore) { + return; + } + if (!this.noDirRecurse && job.stat.isDirectory() && !job.readdir) { + const rc = this.readdirCache.get(job.absolute); + if (rc) { + this[ONREADDIR](job, rc); + } else { + this[READDIR](job); + } + if (!job.readdir) { + return; } } + job.entry = this[ENTRY](job); + if (!job.entry) { + job.ignore = true; + return; + } + if (job === this[CURRENT] && !job.piped) { + this[PIPE](job); + } } - if (command) { - detailed = true; - } - } - const commandClass = command !== null && command instanceof Command ? command.constructor : command; - let result = ``; - if (!commandClass) { - const commandsByCategories = /* @__PURE__ */ new Map(); - for (const [commandClass2, { index }] of this.registrations.entries()) { - if (typeof commandClass2.usage === `undefined`) - continue; - const category = typeof commandClass2.usage.category !== `undefined` ? formatMarkdownish(commandClass2.usage.category, { format: this.format(colored), paragraphs: false }) : null; - let categoryCommands = commandsByCategories.get(category); - if (typeof categoryCommands === `undefined`) - commandsByCategories.set(category, categoryCommands = []); - const { usage } = this.getUsageByIndex(index); - categoryCommands.push({ commandClass: commandClass2, usage }); - } - const categoryNames = Array.from(commandsByCategories.keys()).sort((a, b) => { - if (a === null) - return -1; - if (b === null) - return 1; - return a.localeCompare(b, `en`, { usage: `sort`, caseFirst: `upper` }); - }); - const hasLabel = typeof this.binaryLabel !== `undefined`; - const hasVersion = typeof this.binaryVersion !== `undefined`; - if (hasLabel || hasVersion) { - if (hasLabel && hasVersion) - result += `${this.format(colored).header(`${this.binaryLabel} - ${this.binaryVersion}`)} - -`; - else if (hasLabel) - result += `${this.format(colored).header(`${this.binaryLabel}`)} -`; - else - result += `${this.format(colored).header(`${this.binaryVersion}`)} -`; - result += ` ${this.format(colored).bold(prefix)}${this.binaryName} -`; - } else { - result += `${this.format(colored).bold(prefix)}${this.binaryName} -`; + [ENTRYOPT](job) { + return { + onwarn: (code2, msg, data) => this.warn(code2, msg, data), + noPax: this.noPax, + cwd: this.cwd, + absolute: job.absolute, + preservePaths: this.preservePaths, + maxReadSize: this.maxReadSize, + strict: this.strict, + portable: this.portable, + linkCache: this.linkCache, + statCache: this.statCache, + noMtime: this.noMtime, + mtime: this.mtime, + prefix: this.prefix, + onWriteEntry: this.onWriteEntry + }; } - for (const categoryName of categoryNames) { - const commands = commandsByCategories.get(categoryName).slice().sort((a, b) => { - return a.usage.localeCompare(b.usage, `en`, { usage: `sort`, caseFirst: `upper` }); - }); - const header = categoryName !== null ? categoryName.trim() : `General commands`; - result += ` -`; - result += `${this.format(colored).header(`${header}`)} -`; - for (const { commandClass: commandClass2, usage } of commands) { - const doc = commandClass2.usage.description || `undocumented`; - result += ` -`; - result += ` ${this.format(colored).bold(usage)} -`; - result += ` ${formatMarkdownish(doc, { format: this.format(colored), paragraphs: false })}`; + [ENTRY](job) { + this[JOBS] += 1; + try { + const e = new this[WRITEENTRYCLASS](job.path, this[ENTRYOPT](job)); + return e.on("end", () => this[JOBDONE](job)).on("error", (er) => this.emit("error", er)); + } catch (er) { + this.emit("error", er); } } - result += ` -`; - result += formatMarkdownish(`You can also print more details about any of these commands by calling them with the \`-h,--help\` flag right after the command name.`, { format: this.format(colored), paragraphs: true }); - } else { - if (!detailed) { - const { usage } = this.getUsageByRegistration(commandClass); - result += `${this.format(colored).bold(prefix)}${usage} -`; - } else { - const { description = ``, details = ``, examples = [] } = commandClass.usage || {}; - if (description !== ``) { - result += formatMarkdownish(description, { format: this.format(colored), paragraphs: false }).replace(/^./, ($0) => $0.toUpperCase()); - result += ` -`; - } - if (details !== `` || examples.length > 0) { - result += `${this.format(colored).header(`Usage`)} -`; - result += ` -`; + [ONDRAIN2]() { + if (this[CURRENT] && this[CURRENT].entry) { + this[CURRENT].entry.resume(); } - const { usage, options } = this.getUsageByRegistration(commandClass, { inlineOptions: false }); - result += `${this.format(colored).bold(prefix)}${usage} -`; - if (options.length > 0) { - result += ` -`; - result += `${this.format(colored).header(`Options`)} -`; - const maxDefinitionLength = options.reduce((length, option) => { - return Math.max(length, option.definition.length); - }, 0); - result += ` -`; - for (const { definition, description: description2 } of options) { - result += ` ${this.format(colored).bold(definition.padEnd(maxDefinitionLength))} ${formatMarkdownish(description2, { format: this.format(colored), paragraphs: false })}`; - } + } + // like .pipe() but using super, because our write() is special + [PIPE](job) { + job.piped = true; + if (job.readdir) { + job.readdir.forEach((entry) => { + const p = job.path; + const base = p === "./" ? "" : p.replace(/\/*$/, "/"); + this[ADDFSENTRY](base + entry); + }); } - if (details !== ``) { - result += ` -`; - result += `${this.format(colored).header(`Details`)} -`; - result += ` -`; - result += formatMarkdownish(details, { format: this.format(colored), paragraphs: true }); + const source = job.entry; + const zip = this.zip; + if (!source) + throw new Error("cannot pipe without source"); + if (zip) { + source.on("data", (chunk) => { + if (!zip.write(chunk)) { + source.pause(); + } + }); + } else { + source.on("data", (chunk) => { + if (!super.write(chunk)) { + source.pause(); + } + }); } - if (examples.length > 0) { - result += ` -`; - result += `${this.format(colored).header(`Examples`)} -`; - for (const [description2, example] of examples) { - result += ` -`; - result += formatMarkdownish(description2, { format: this.format(colored), paragraphs: false }); - result += `${example.replace(/^/m, ` ${this.format(colored).bold(prefix)}`).replace(/\$0/g, this.binaryName)} -`; - } + } + pause() { + if (this.zip) { + this.zip.pause(); } + return super.pause(); } - } - return result; - } - error(error, _a) { - var _b; - var { colored, command = (_b = error[errorCommandSymbol]) !== null && _b !== void 0 ? _b : null } = _a === void 0 ? {} : _a; - if (!error || typeof error !== `object` || !(`stack` in error)) - error = new Error(`Execution failed with a non-error rejection (rejected value: ${JSON.stringify(error)})`); - let result = ``; - let name2 = error.name.replace(/([a-z])([A-Z])/g, `$1 $2`); - if (name2 === `Error`) - name2 = `Internal Error`; - result += `${this.format(colored).error(name2)}: ${error.message} -`; - const meta = error.clipanion; - if (typeof meta !== `undefined`) { - if (meta.type === `usage`) { - result += ` -`; - result += this.usage(command); + warn(code2, message, data = {}) { + warnMethod(this, code2, message, data); } - } else { - if (error.stack) { - result += `${error.stack.replace(/^.*\n/, ``)} -`; + }; + PackSync = class extends Pack { + sync = true; + constructor(opt) { + super(opt); + this[WRITEENTRYCLASS] = WriteEntrySync; } - } - return result; - } - format(colored) { - var _a; - return ((_a = colored !== null && colored !== void 0 ? colored : this.enableColors) !== null && _a !== void 0 ? _a : _Cli.defaultContext.colorDepth > 1) ? richFormat : textFormat; - } - getUsageByRegistration(klass, opts) { - const record = this.registrations.get(klass); - if (typeof record === `undefined`) - throw new Error(`Assertion failed: Unregistered command`); - return this.getUsageByIndex(record.index, opts); - } - getUsageByIndex(n, opts) { - return this.builder.getBuilderByIndex(n).usage(opts); - } -}; -Cli.defaultContext = { - env: process.env, - stdin: process.stdin, - stdout: process.stdout, - stderr: process.stderr, - colorDepth: (0, import_platform.getDefaultColorDepth)() -}; -function noopCaptureActivator(fn2) { - return fn2(); -} - -// .yarn/__virtual__/clipanion-virtual-dbbb3cfe27/0/cache/clipanion-patch-1b1b878e9f-a833a30963.zip/node_modules/clipanion/lib/advanced/builtins/index.mjs -var builtins_exports = {}; -__export(builtins_exports, { - DefinitionsCommand: () => DefinitionsCommand, - HelpCommand: () => HelpCommand2, - VersionCommand: () => VersionCommand -}); - -// .yarn/__virtual__/clipanion-virtual-dbbb3cfe27/0/cache/clipanion-patch-1b1b878e9f-a833a30963.zip/node_modules/clipanion/lib/advanced/builtins/definitions.mjs -var DefinitionsCommand = class extends Command { - async execute() { - this.context.stdout.write(`${JSON.stringify(this.cli.definitions(), null, 2)} -`); - } -}; -DefinitionsCommand.paths = [[`--clipanion=definitions`]]; - -// .yarn/__virtual__/clipanion-virtual-dbbb3cfe27/0/cache/clipanion-patch-1b1b878e9f-a833a30963.zip/node_modules/clipanion/lib/advanced/builtins/help.mjs -var HelpCommand2 = class extends Command { - async execute() { - this.context.stdout.write(this.cli.usage()); - } -}; -HelpCommand2.paths = [[`-h`], [`--help`]]; - -// .yarn/__virtual__/clipanion-virtual-dbbb3cfe27/0/cache/clipanion-patch-1b1b878e9f-a833a30963.zip/node_modules/clipanion/lib/advanced/builtins/version.mjs -var VersionCommand = class extends Command { - async execute() { - var _a; - this.context.stdout.write(`${(_a = this.cli.binaryVersion) !== null && _a !== void 0 ? _a : ``} -`); - } -}; -VersionCommand.paths = [[`-v`], [`--version`]]; - -// .yarn/__virtual__/clipanion-virtual-dbbb3cfe27/0/cache/clipanion-patch-1b1b878e9f-a833a30963.zip/node_modules/clipanion/lib/advanced/options/index.mjs -var options_exports = {}; -__export(options_exports, { - Array: () => Array2, - Boolean: () => Boolean2, - Counter: () => Counter, - Proxy: () => Proxy2, - Rest: () => Rest, - String: () => String2, - applyValidator: () => applyValidator, - cleanValidationError: () => cleanValidationError, - formatError: () => formatError, - isOptionSymbol: () => isOptionSymbol, - makeCommandOption: () => makeCommandOption, - rerouteArguments: () => rerouteArguments -}); - -// .yarn/__virtual__/clipanion-virtual-dbbb3cfe27/0/cache/clipanion-patch-1b1b878e9f-a833a30963.zip/node_modules/clipanion/lib/advanced/options/Array.mjs -function Array2(descriptor, initialValueBase, optsBase) { - const [initialValue, opts] = rerouteArguments(initialValueBase, optsBase !== null && optsBase !== void 0 ? optsBase : {}); - const { arity = 1 } = opts; - const optNames = descriptor.split(`,`); - const nameSet = new Set(optNames); - return makeCommandOption({ - definition(builder) { - builder.addOption({ - names: optNames, - arity, - hidden: opts === null || opts === void 0 ? void 0 : opts.hidden, - description: opts === null || opts === void 0 ? void 0 : opts.description, - required: opts.required - }); - }, - transformer(builder, key, state) { - let usedName; - let currentValue = typeof initialValue !== `undefined` ? [...initialValue] : void 0; - for (const { name: name2, value } of state.options) { - if (!nameSet.has(name2)) - continue; - usedName = name2; - currentValue = currentValue !== null && currentValue !== void 0 ? currentValue : []; - currentValue.push(value); + // pause/resume are no-ops in sync streams. + pause() { } - if (typeof currentValue !== `undefined`) { - return applyValidator(usedName !== null && usedName !== void 0 ? usedName : key, currentValue, opts.validator); - } else { - return currentValue; + resume() { } - } - }); -} - -// .yarn/__virtual__/clipanion-virtual-dbbb3cfe27/0/cache/clipanion-patch-1b1b878e9f-a833a30963.zip/node_modules/clipanion/lib/advanced/options/Boolean.mjs -function Boolean2(descriptor, initialValueBase, optsBase) { - const [initialValue, opts] = rerouteArguments(initialValueBase, optsBase !== null && optsBase !== void 0 ? optsBase : {}); - const optNames = descriptor.split(`,`); - const nameSet = new Set(optNames); - return makeCommandOption({ - definition(builder) { - builder.addOption({ - names: optNames, - allowBinding: false, - arity: 0, - hidden: opts.hidden, - description: opts.description, - required: opts.required - }); - }, - transformer(builer, key, state) { - let currentValue = initialValue; - for (const { name: name2, value } of state.options) { - if (!nameSet.has(name2)) - continue; - currentValue = value; + [STAT](job) { + const stat = this.follow ? "statSync" : "lstatSync"; + this[ONSTAT](job, import_fs12.default[stat](job.absolute)); } - return currentValue; - } - }); -} - -// .yarn/__virtual__/clipanion-virtual-dbbb3cfe27/0/cache/clipanion-patch-1b1b878e9f-a833a30963.zip/node_modules/clipanion/lib/advanced/options/Counter.mjs -function Counter(descriptor, initialValueBase, optsBase) { - const [initialValue, opts] = rerouteArguments(initialValueBase, optsBase !== null && optsBase !== void 0 ? optsBase : {}); - const optNames = descriptor.split(`,`); - const nameSet = new Set(optNames); - return makeCommandOption({ - definition(builder) { - builder.addOption({ - names: optNames, - allowBinding: false, - arity: 0, - hidden: opts.hidden, - description: opts.description, - required: opts.required - }); - }, - transformer(builder, key, state) { - let currentValue = initialValue; - for (const { name: name2, value } of state.options) { - if (!nameSet.has(name2)) - continue; - currentValue !== null && currentValue !== void 0 ? currentValue : currentValue = 0; - if (!value) { - currentValue = 0; + [READDIR](job) { + this[ONREADDIR](job, import_fs12.default.readdirSync(job.absolute)); + } + // gotta get it all in this tick + [PIPE](job) { + const source = job.entry; + const zip = this.zip; + if (job.readdir) { + job.readdir.forEach((entry) => { + const p = job.path; + const base = p === "./" ? "" : p.replace(/\/*$/, "/"); + this[ADDFSENTRY](base + entry); + }); + } + if (!source) + throw new Error("Cannot pipe without source"); + if (zip) { + source.on("data", (chunk) => { + zip.write(chunk); + }); } else { - currentValue += 1; + source.on("data", (chunk) => { + super[WRITE](chunk); + }); } } - return currentValue; - } - }); -} + }; + } +}); -// .yarn/__virtual__/clipanion-virtual-dbbb3cfe27/0/cache/clipanion-patch-1b1b878e9f-a833a30963.zip/node_modules/clipanion/lib/advanced/options/Proxy.mjs -function Proxy2(opts = {}) { - return makeCommandOption({ - definition(builder, key) { - var _a; - builder.addProxy({ - name: (_a = opts.name) !== null && _a !== void 0 ? _a : key, - required: opts.required +// node_modules/tar/dist/esm/create.js +var create_exports = {}; +__export(create_exports, { + create: () => create +}); +var import_node_path8, createFileSync, createFile, addFilesSync, addFilesAsync, createSync, createAsync, create; +var init_create = __esm({ + "node_modules/tar/dist/esm/create.js"() { + init_esm2(); + import_node_path8 = __toESM(require("node:path"), 1); + init_list(); + init_make_command(); + init_pack(); + createFileSync = (opt, files) => { + const p = new PackSync(opt); + const stream = new WriteStreamSync(opt.file, { + mode: opt.mode || 438 }); - }, - transformer(builder, key, state) { - return state.positionals.map(({ value }) => value); - } - }); -} - -// .yarn/__virtual__/clipanion-virtual-dbbb3cfe27/0/cache/clipanion-patch-1b1b878e9f-a833a30963.zip/node_modules/clipanion/lib/advanced/options/Rest.mjs -function Rest(opts = {}) { - return makeCommandOption({ - definition(builder, key) { - var _a; - builder.addRest({ - name: (_a = opts.name) !== null && _a !== void 0 ? _a : key, - required: opts.required + p.pipe(stream); + addFilesSync(p, files); + }; + createFile = (opt, files) => { + const p = new Pack(opt); + const stream = new WriteStream(opt.file, { + mode: opt.mode || 438 }); - }, - transformer(builder, key, state) { - const isRestPositional = (index) => { - const positional = state.positionals[index]; - if (positional.extra === NoLimits) - return true; - if (positional.extra === false && index < builder.arity.leading.length) - return true; - return false; - }; - let count = 0; - while (count < state.positionals.length && isRestPositional(count)) - count += 1; - return state.positionals.splice(0, count).map(({ value }) => value); - } - }); -} - -// .yarn/__virtual__/clipanion-virtual-dbbb3cfe27/0/cache/clipanion-patch-1b1b878e9f-a833a30963.zip/node_modules/clipanion/lib/advanced/options/String.mjs -function StringOption(descriptor, initialValueBase, optsBase) { - const [initialValue, opts] = rerouteArguments(initialValueBase, optsBase !== null && optsBase !== void 0 ? optsBase : {}); - const { arity = 1 } = opts; - const optNames = descriptor.split(`,`); - const nameSet = new Set(optNames); - return makeCommandOption({ - definition(builder) { - builder.addOption({ - names: optNames, - arity: opts.tolerateBoolean ? 0 : arity, - hidden: opts.hidden, - description: opts.description, - required: opts.required + p.pipe(stream); + const promise = new Promise((res, rej) => { + stream.on("error", rej); + stream.on("close", res); + p.on("error", rej); }); - }, - transformer(builder, key, state, context) { - let usedName; - let currentValue = initialValue; - if (typeof opts.env !== `undefined` && context.env[opts.env]) { - usedName = opts.env; - currentValue = context.env[opts.env]; - } - for (const { name: name2, value } of state.options) { - if (!nameSet.has(name2)) - continue; - usedName = name2; - currentValue = value; - } - if (typeof currentValue === `string`) { - return applyValidator(usedName !== null && usedName !== void 0 ? usedName : key, currentValue, opts.validator); - } else { - return currentValue; - } - } - }); -} -function StringPositional(opts = {}) { - const { required = true } = opts; - return makeCommandOption({ - definition(builder, key) { - var _a; - builder.addPositional({ - name: (_a = opts.name) !== null && _a !== void 0 ? _a : key, - required: opts.required + addFilesAsync(p, files).catch((er) => p.emit("error", er)); + return promise; + }; + addFilesSync = (p, files) => { + files.forEach((file) => { + if (file.charAt(0) === "@") { + list({ + file: import_node_path8.default.resolve(p.cwd, file.slice(1)), + sync: true, + noResume: true, + onReadEntry: (entry) => p.add(entry) + }); + } else { + p.add(file); + } }); - }, - transformer(builder, key, state) { - var _a; - for (let i = 0; i < state.positionals.length; ++i) { - if (state.positionals[i].extra === NoLimits) - continue; - if (required && state.positionals[i].extra === true) - continue; - if (!required && state.positionals[i].extra === false) - continue; - const [positional] = state.positionals.splice(i, 1); - return applyValidator((_a = opts.name) !== null && _a !== void 0 ? _a : key, positional.value, opts.validator); + p.end(); + }; + addFilesAsync = async (p, files) => { + for (const file of files) { + if (file.charAt(0) === "@") { + await list({ + file: import_node_path8.default.resolve(String(p.cwd), file.slice(1)), + noResume: true, + onReadEntry: (entry) => { + p.add(entry); + } + }); + } else { + p.add(file); + } } - return void 0; - } - }); -} -function String2(descriptor, ...args) { - if (typeof descriptor === `string`) { - return StringOption(descriptor, ...args); - } else { - return StringPositional(descriptor); + p.end(); + }; + createSync = (opt, files) => { + const p = new PackSync(opt); + addFilesSync(p, files); + return p; + }; + createAsync = (opt, files) => { + const p = new Pack(opt); + addFilesAsync(p, files).catch((er) => p.emit("error", er)); + return p; + }; + create = makeCommand(createFileSync, createFile, createSync, createAsync, (_opt, files) => { + if (!files?.length) { + throw new TypeError("no paths specified to add to archive"); + } + }); } -} +}); + +// node_modules/semver/functions/major.js +var require_major = __commonJS({ + "node_modules/semver/functions/major.js"(exports2, module2) { + "use strict"; + var SemVer3 = require_semver(); + var major = (a, loose) => new SemVer3(a, loose).major; + module2.exports = major; + } +}); + +// sources/_lib.ts +var lib_exports2 = {}; +__export(lib_exports2, { + runMain: () => runMain +}); +module.exports = __toCommonJS(lib_exports2); + +// sources/main.ts +var import_clipanion17 = __toESM(require_advanced()); // package.json -var version = "0.34.6"; +var version = "0.35.0"; // sources/Engine.ts +var import_clipanion5 = __toESM(require_advanced()); var import_fs6 = __toESM(require("fs")); var import_path5 = __toESM(require("path")); var import_process3 = __toESM(require("process")); @@ -21717,7 +12578,7 @@ var import_valid4 = __toESM(require_valid2()); var config_default = { definitions: { npm: { - default: "11.8.0+sha1.d1bc924deb3b4d412055b1755098a70bf8a4713b", + default: "11.14.1+sha1.4a6839650da0005f323fec6abd39d77ee24f842f", fetchLatestFrom: { type: "npm", package: "npm" @@ -21754,7 +12615,7 @@ var config_default = { } }, pnpm: { - default: "10.28.1+sha1.20817ab95fb7f61154ba5ff3bcb61f27defb6142", + default: "11.1.2+sha1.ed39d701687311ce9345771c62376f9fe7286694", fetchLatestFrom: { type: "npm", package: "pnpm" @@ -21835,7 +12696,7 @@ var config_default = { package: "yarn" }, transparent: { - default: "4.12.0+sha224.877304a94a6946ab1d58a358df5ff8af2f7c9d86ea506f05f5c9df05", + default: "4.14.1+sha224.88b7a7244bbd9040380c417f7eb556d85c67640b651f113cb4c72113", commands: [ [ "yarn", @@ -21932,6 +12793,7 @@ var import_debug = __toESM(require_src()); var log = (0, import_debug.default)(`corepack`); // sources/folderUtils.ts +var import_clipanion = __toESM(require_advanced()); var import_fs = require("fs"); var import_os = require("os"); var import_path = require("path"); @@ -21962,7 +12824,7 @@ function getTemporaryFolder(target = (0, import_os.tmpdir)()) { if (error.code === `EEXIST`) { continue; } else if (error.code === `EACCES`) { - throw new UsageError(`Failed to create cache directory. Please ensure the user has write access to the target directory (${target}). If the user's home directory does not exist, create it first.`); + throw new import_clipanion.UsageError(`Failed to create cache directory. Please ensure the user has write access to the target directory (${target}). If the user's home directory does not exist, create it first.`); } else { throw error; } @@ -21972,11 +12834,13 @@ function getTemporaryFolder(target = (0, import_os.tmpdir)()) { // sources/httpUtils.ts var import_assert = __toESM(require("assert")); +var import_clipanion3 = __toESM(require_advanced()); var import_events = require("events"); var import_process2 = require("process"); var import_stream = require("stream"); // sources/npmRegistryUtils.ts +var import_clipanion2 = __toESM(require_advanced()); var import_crypto = require("crypto"); var DEFAULT_HEADERS = { [`Accept`]: `application/vnd.npm.install-v1+json; q=1.0, application/json; q=0.8` @@ -21985,7 +12849,7 @@ var DEFAULT_NPM_REGISTRY_URL = `https://registry.npmjs.org`; async function fetchAsJson2(packageName, version2) { const npmRegistryUrl = process.env.COREPACK_NPM_REGISTRY || DEFAULT_NPM_REGISTRY_URL; if (process.env.COREPACK_ENABLE_NETWORK === `0`) - throw new UsageError(`Network access disabled by the environment; can't reach npm repository ${npmRegistryUrl}`); + throw new import_clipanion2.UsageError(`Network access disabled by the environment; can't reach npm repository ${npmRegistryUrl}`); const headers = { ...DEFAULT_HEADERS }; if (`COREPACK_NPM_TOKEN` in process.env) { headers.authorization = `Bearer ${process.env.COREPACK_NPM_TOKEN}`; @@ -22007,7 +12871,7 @@ function verifySignature({ signatures, integrity, packageName, version: version2 break; } } - if (signature?.sig == null) throw new UsageError(`The package was not signed by any trusted keys: ${JSON.stringify({ signatures, trustedKeys }, void 0, 2)}`); + if (signature?.sig == null) throw new import_clipanion2.UsageError(`The package was not signed by any trusted keys: ${JSON.stringify({ signatures, trustedKeys }, void 0, 2)}`); const verifier = (0, import_crypto.createVerify)(`SHA256`); verifier.end(`${packageName}@${version2}:${integrity}`); const valid = verifier.verify( @@ -22057,8 +12921,7 @@ async function fetchTarballURLAndSignature(packageName, version2) { // sources/httpUtils.ts async function fetch(input, init) { if (process.env.COREPACK_ENABLE_NETWORK === `0`) - throw new UsageError(`Network access disabled by the environment; can't reach ${input}`); - const agent = await getProxyAgent(input); + throw new import_clipanion3.UsageError(`Network access disabled by the environment; can't reach ${input}`); if (typeof input === `string`) input = new URL(input); let headers = init?.headers; @@ -22082,7 +12945,6 @@ async function fetch(input, init) { try { response = await globalThis.fetch(input, { ...init, - dispatcher: agent, headers }); } catch (error) { @@ -22112,7 +12974,7 @@ async function fetchUrlStream(input, init) { const chars = await (0, import_events.once)(import_process2.stdin, `data`); import_process2.stdin.pause(); if (chars[0][0] === 110 || chars[0][0] === 78) - throw new UsageError(`Aborted by the user`); + throw new import_clipanion3.UsageError(`Aborted by the user`); console.error(); } } @@ -22122,25 +12984,6 @@ async function fetchUrlStream(input, init) { const stream = import_stream.Readable.fromWeb(webStream); return stream; } -var ProxyAgent; -async function getProxyAgent(input) { - const { getProxyForUrl } = await Promise.resolve().then(() => __toESM(require_proxy_from_env())); - const proxy = getProxyForUrl(input); - if (!proxy) return void 0; - if (ProxyAgent == null) { - const [api, Dispatcher, _ProxyAgent] = await Promise.all([ - // @ts-expect-error internal module is untyped - Promise.resolve().then(() => __toESM(require_api())), - // @ts-expect-error internal module is untyped - Promise.resolve().then(() => __toESM(require_dispatcher())), - // @ts-expect-error internal module is untyped - Promise.resolve().then(() => __toESM(require_proxy_agent())) - ]); - Object.assign(Dispatcher.default.prototype, api.default); - ProxyAgent = _ProxyAgent.default; - } - return new ProxyAgent(proxy); -} // sources/nodeUtils.ts var import_os2 = __toESM(require("os")); @@ -22551,6 +13394,7 @@ function satisfiesWithPrereleases(version2, range, loose = false) { } // sources/specUtils.ts +var import_clipanion4 = __toESM(require_advanced()); var import_fs5 = __toESM(require("fs")); var import_path4 = __toESM(require("path")); var import_satisfies = __toESM(require_satisfies()); @@ -22580,14 +13424,14 @@ function isSupportedPackageManager(value) { var nodeModulesRegExp = /[\\/]node_modules[\\/](@[^\\/]*[\\/])?([^@\\/][^\\/]*)$/; function parseSpec(raw2, source, { enforceExactVersion = true } = {}) { if (typeof raw2 !== `string`) - throw new UsageError(`Invalid package manager specification in ${source}; expected a string`); + throw new import_clipanion4.UsageError(`Invalid package manager specification in ${source}; expected a string`); const atIndex = raw2.indexOf(`@`); if (atIndex === -1 || atIndex === raw2.length - 1) { if (enforceExactVersion) - throw new UsageError(`No version specified for ${raw2} in "packageManager" of ${source}`); + throw new import_clipanion4.UsageError(`No version specified for ${raw2} in "packageManager" of ${source}`); const name3 = atIndex === -1 ? raw2 : raw2.slice(0, -1); if (!isSupportedPackageManager(name3)) - throw new UsageError(`Unsupported package manager specification (${name3})`); + throw new import_clipanion4.UsageError(`Unsupported package manager specification (${name3})`); return { name: name3, range: `*` @@ -22598,12 +13442,12 @@ function parseSpec(raw2, source, { enforceExactVersion = true } = {}) { const isURL = URL.canParse(range); if (!isURL) { if (enforceExactVersion && !(0, import_valid.default)(range)) - throw new UsageError(`Invalid package manager specification in ${source} (${raw2}); expected a semver version${enforceExactVersion ? `` : `, range, or tag`}`); + throw new import_clipanion4.UsageError(`Invalid package manager specification in ${source} (${raw2}); expected a semver version${enforceExactVersion ? `` : `, range, or tag`}`); if (!isSupportedPackageManager(name2)) { - throw new UsageError(`Unsupported package manager specification (${raw2})`); + throw new import_clipanion4.UsageError(`Unsupported package manager specification (${raw2})`); } } else if (isSupportedPackageManager(name2) && process.env.COREPACK_ENABLE_UNSAFE_CUSTOM_URLS !== `1`) { - throw new UsageError(`Illegal use of URL for known package manager. Instead, select a specific version, or set COREPACK_ENABLE_UNSAFE_CUSTOM_URLS=1 in your environment (${raw2})`); + throw new import_clipanion4.UsageError(`Illegal use of URL for known package manager. Instead, select a specific version, or set COREPACK_ENABLE_UNSAFE_CUSTOM_URLS=1 in your environment (${raw2})`); } return { name: name2, @@ -22616,7 +13460,7 @@ function warnOrThrow(errorMessage, onFail) { break; case `error`: case void 0: - throw new UsageError(errorMessage); + throw new import_clipanion4.UsageError(errorMessage); default: console.warn(`! Corepack validation warning: ${errorMessage}`); } @@ -22697,7 +13541,7 @@ async function loadSpec(initialCwd) { } catch { } if (typeof data !== `object` || data === null) - throw new UsageError(`Invalid package.json in ${import_path4.default.relative(initialCwd, manifestPath)}`); + throw new import_clipanion4.UsageError(`Invalid package.json in ${import_path4.default.relative(initialCwd, manifestPath)}`); let localEnv; const envFilePath2 = import_path4.default.resolve(currCwd, process.env.COREPACK_ENV_FILE ?? `.corepack.env`); if (process.env.COREPACK_ENV_FILE == `0`) { @@ -22811,6 +13655,7 @@ var Engine = class { constructor(config = config_default) { this.config = config; } + config; getPackageManagerFor(binaryName) { for (const packageManager of SupportedPackageManagerSet) { for (const rangeDefinition of Object.values(this.config.definitions[packageManager].ranges)) { @@ -22841,7 +13686,7 @@ var Engine = class { } const definition = this.config.definitions[locator.name]; if (typeof definition === `undefined`) - throw new UsageError(`This package manager (${locator.name}) isn't supported by this corepack build`); + throw new import_clipanion5.UsageError(`This package manager (${locator.name}) isn't supported by this corepack build`); const ranges = Object.keys(definition.ranges).reverse(); const range = ranges.find((range2) => satisfiesWithPrereleases(locator.reference, range2)); if (typeof range === `undefined`) @@ -22867,7 +13712,7 @@ var Engine = class { async getDefaultVersion(packageManager) { const definition = this.config.definitions[packageManager]; if (typeof definition === `undefined`) - throw new UsageError(`This package manager (${packageManager}) isn't supported by this corepack build`); + throw new import_clipanion5.UsageError(`This package manager (${packageManager}) isn't supported by this corepack build`); const lastKnownGood = await getLastKnownGood(); const lastKnownGoodForThisPackageManager = getLastKnownGoodFromFileContent(lastKnownGood, packageManager); if (lastKnownGoodForThisPackageManager) { @@ -22951,7 +13796,7 @@ var Engine = class { if (import_process3.default.env.COREPACK_ENABLE_AUTO_PIN === `1`) { const resolved = await this.resolveDescriptor(fallbackDescriptor, { allowTags: true }); if (resolved === null) - throw new UsageError(`Failed to successfully resolve '${fallbackDescriptor.range}' to a valid ${fallbackDescriptor.name} release`); + throw new import_clipanion5.UsageError(`Failed to successfully resolve '${fallbackDescriptor.range}' to a valid ${fallbackDescriptor.name} release`); const installSpec = await this.ensurePackageManager(resolved); console.error(`! The local project doesn't define a 'packageManager' field. Corepack will now add one referencing ${installSpec.locator.name}@${installSpec.locator.reference}.`); console.error(`! For more details about this field, consult the documentation at https://nodejs.org/api/packages.html#packagemanager`); @@ -22970,7 +13815,7 @@ var Engine = class { log(`Falling back to ${fallbackDescriptor.name}@${fallbackDescriptor.range} in a ${spec.name}@${spec.range} project`); return fallbackDescriptor; } else { - throw new UsageError(`This project is configured to use ${spec.name} because ${result.target} has a "packageManager" field`); + throw new import_clipanion5.UsageError(`This project is configured to use ${spec.name} because ${result.target} has a "packageManager" field`); } } else { log(`Using ${spec.name}@${spec.range} as defined in project manifest ${result.target}`); @@ -23006,14 +13851,14 @@ var Engine = class { descriptor.range = binaryVersion; const resolved = await this.resolveDescriptor(descriptor, { allowTags: true }); if (resolved === null) - throw new UsageError(`Failed to successfully resolve '${descriptor.range}' to a valid ${descriptor.name} release`); + throw new import_clipanion5.UsageError(`Failed to successfully resolve '${descriptor.range}' to a valid ${descriptor.name} release`); const installSpec = await this.ensurePackageManager(resolved); return await runVersion(resolved, installSpec, binaryName, args); } async resolveDescriptor(descriptor, { allowTags = false, useCache = true } = {}) { if (!isSupportedPackageManagerDescriptor(descriptor)) { if (import_process3.default.env.COREPACK_ENABLE_UNSAFE_CUSTOM_URLS !== `1` && isSupportedPackageManager(descriptor.name)) - throw new UsageError(`Illegal use of URL for known package manager. Instead, select a specific version, or set COREPACK_ENABLE_UNSAFE_CUSTOM_URLS=1 in your environment (${descriptor.name}@${descriptor.range})`); + throw new import_clipanion5.UsageError(`Illegal use of URL for known package manager. Instead, select a specific version, or set COREPACK_ENABLE_UNSAFE_CUSTOM_URLS=1 in your environment (${descriptor.name}@${descriptor.range})`); return { name: descriptor.name, reference: descriptor.range @@ -23021,18 +13866,18 @@ var Engine = class { } const definition = this.config.definitions[descriptor.name]; if (typeof definition === `undefined`) - throw new UsageError(`This package manager (${descriptor.name}) isn't supported by this corepack build`); + throw new import_clipanion5.UsageError(`This package manager (${descriptor.name}) isn't supported by this corepack build`); let finalDescriptor = descriptor; if (!(0, import_valid3.default)(descriptor.range) && !(0, import_valid4.default)(descriptor.range)) { if (!allowTags) - throw new UsageError(`Packages managers can't be referenced via tags in this context`); + throw new import_clipanion5.UsageError(`Packages managers can't be referenced via tags in this context`); const ranges = Object.keys(definition.ranges); const tagRange = ranges[ranges.length - 1]; const packageManagerSpec = definition.ranges[tagRange]; const registry = getRegistryFromPackageManagerSpec(packageManagerSpec); const tags = await fetchAvailableTags2(registry); if (!Object.hasOwn(tags, descriptor.range)) - throw new UsageError(`Tag not found (${descriptor.range})`); + throw new import_clipanion5.UsageError(`Tag not found (${descriptor.range})`); finalDescriptor = { name: descriptor.name, range: tags[descriptor.range] @@ -23057,13 +13902,14 @@ var Engine = class { }; // sources/commands/Cache.ts +var import_clipanion6 = __toESM(require_advanced()); var import_fs7 = __toESM(require("fs")); -var CacheCommand = class extends Command { +var CacheCommand = class extends import_clipanion6.Command { static paths = [ [`cache`, `clean`], [`cache`, `clear`] ]; - static usage = Command.Usage({ + static usage = import_clipanion6.Command.Usage({ description: `Cleans Corepack cache`, details: ` Removes Corepack cache directory from your local disk. @@ -23075,14 +13921,15 @@ var CacheCommand = class extends Command { }; // sources/commands/Disable.ts +var import_clipanion7 = __toESM(require_advanced()); var import_fs8 = __toESM(require("fs")); var import_path6 = __toESM(require("path")); var import_which = __toESM(require_lib()); -var DisableCommand = class extends Command { +var DisableCommand = class extends import_clipanion7.Command { static paths = [ [`disable`] ]; - static usage = Command.Usage({ + static usage = import_clipanion7.Command.Usage({ description: `Remove the Corepack shims from the install directory`, details: ` When run, this command will remove the shims for the specified package managers from the install directory, or all shims if no parameters are passed. @@ -23100,10 +13947,10 @@ var DisableCommand = class extends Command { `$0 disable yarn` ]] }); - installDirectory = options_exports.String(`--install-directory`, { + installDirectory = import_clipanion7.Option.String(`--install-directory`, { description: `Where the shims are located` }); - names = options_exports.Rest(); + names = import_clipanion7.Option.Rest(); async execute() { let installDirectory = this.installDirectory; if (typeof installDirectory === `undefined`) @@ -23112,7 +13959,7 @@ var DisableCommand = class extends Command { const allBinNames = []; for (const name2 of new Set(names)) { if (!isSupportedPackageManager(name2)) - throw new UsageError(`Invalid package manager name '${name2}'`); + throw new import_clipanion7.UsageError(`Invalid package manager name '${name2}'`); const binNames = this.context.engine.getBinariesFor(name2); allBinNames.push(...binNames); } @@ -23149,14 +13996,15 @@ var DisableCommand = class extends Command { // sources/commands/Enable.ts var import_cmd_shim = __toESM(require_cmd_shim()); +var import_clipanion8 = __toESM(require_advanced()); var import_fs9 = __toESM(require("fs")); var import_path7 = __toESM(require("path")); var import_which2 = __toESM(require_lib()); -var EnableCommand = class extends Command { +var EnableCommand = class extends import_clipanion8.Command { static paths = [ [`enable`] ]; - static usage = Command.Usage({ + static usage = import_clipanion8.Command.Usage({ description: `Add the Corepack shims to the install directory`, details: ` When run, this command will check whether the shims for the specified package managers can be found with the correct values inside the install directory. If not, or if they don't exist, they will be created. @@ -23174,10 +14022,10 @@ var EnableCommand = class extends Command { `$0 enable yarn` ]] }); - installDirectory = options_exports.String(`--install-directory`, { + installDirectory = import_clipanion8.Option.String(`--install-directory`, { description: `Where the shims are to be installed` }); - names = options_exports.Rest(); + names = import_clipanion8.Option.Rest(); async execute() { let installDirectory = this.installDirectory; if (typeof installDirectory === `undefined`) @@ -23191,7 +14039,7 @@ var EnableCommand = class extends Command { const allBinNames = []; for (const name2 of new Set(names)) { if (!isSupportedPackageManager(name2)) - throw new UsageError(`Invalid package manager name '${name2}'`); + throw new import_clipanion8.UsageError(`Invalid package manager name '${name2}'`); const binNames = this.context.engine.getBinariesFor(name2); allBinNames.push(...binNames); } @@ -23226,20 +14074,22 @@ var EnableCommand = class extends Command { }; // sources/commands/InstallGlobal.ts +var import_clipanion10 = __toESM(require_advanced()); var import_fs10 = __toESM(require("fs")); var import_path8 = __toESM(require("path")); // sources/commands/Base.ts -var BaseCommand = class extends Command { +var import_clipanion9 = __toESM(require_advanced()); +var BaseCommand = class extends import_clipanion9.Command { async resolvePatternsToDescriptors({ patterns }) { const resolvedSpecs = patterns.map((pattern) => parseSpec(pattern, `CLI arguments`, { enforceExactVersion: false })); if (resolvedSpecs.length === 0) { const lookup = await loadSpec(this.context.cwd); switch (lookup.type) { case `NoProject`: - throw new UsageError(`Couldn't find a project in the local directory - please specify the package manager to pack, or run this command from a valid project`); + throw new import_clipanion9.UsageError(`Couldn't find a project in the local directory - please specify the package manager to pack, or run this command from a valid project`); case `NoSpec`: - throw new UsageError(`The local project doesn't feature a 'packageManager' field nor a 'devEngines.packageManager' field - please specify the package manager to pack, or update the manifest to reference it`); + throw new import_clipanion9.UsageError(`The local project doesn't feature a 'packageManager' field nor a 'devEngines.packageManager' field - please specify the package manager to pack, or update the manifest to reference it`); default: { return [lookup.range ?? lookup.getSpec()]; } @@ -23267,7 +14117,7 @@ var InstallGlobalCommand = class extends BaseCommand { static paths = [ [`install`] ]; - static usage = Command.Usage({ + static usage = import_clipanion10.Command.Usage({ description: `Install package managers on the system`, details: ` Download the selected package managers and install them on the system. @@ -23282,16 +14132,16 @@ var InstallGlobalCommand = class extends BaseCommand { `corepack install -g pnpm` ]] }); - global = options_exports.Boolean(`-g,--global`, { + global = import_clipanion10.Option.Boolean(`-g,--global`, { required: true }); - cacheOnly = options_exports.Boolean(`--cache-only`, false, { + cacheOnly = import_clipanion10.Option.Boolean(`--cache-only`, false, { description: `If true, the package managers will only be cached, not set as new defaults` }); - args = options_exports.Rest(); + args = import_clipanion10.Option.Rest(); async execute() { if (this.args.length === 0) - throw new UsageError(`No package managers specified`); + throw new import_clipanion10.UsageError(`No package managers specified`); await Promise.all(this.args.map((arg) => { if (arg.endsWith(`.tgz`)) { return this.installFromTarball(import_path8.default.resolve(this.context.cwd, arg)); @@ -23312,7 +14162,7 @@ var InstallGlobalCommand = class extends BaseCommand { async installFromDescriptor(descriptor) { const resolved = await this.context.engine.resolveDescriptor(descriptor, { allowTags: true, useCache: false }); if (resolved === null) - throw new UsageError(`Failed to successfully resolve '${descriptor.range}' to a valid ${descriptor.name} release`); + throw new import_clipanion10.UsageError(`Failed to successfully resolve '${descriptor.range}' to a valid ${descriptor.name} release`); this.log(resolved); await this.context.engine.ensurePackageManager(resolved); if (!this.cacheOnly) { @@ -23338,12 +14188,12 @@ var InstallGlobalCommand = class extends BaseCommand { } } }); if (hasShortEntries || archiveEntries.size < 1) - throw new UsageError(`Invalid archive format; did it get generated by 'corepack pack'?`); + throw new import_clipanion10.UsageError(`Invalid archive format; did it get generated by 'corepack pack'?`); const { extract: tarX } = await Promise.resolve().then(() => (init_extract(), extract_exports)); for (const [name2, references] of archiveEntries) { for (const reference of references) { if (!isSupportedPackageManager(name2)) - throw new UsageError(`Unsupported package manager '${name2}'`); + throw new import_clipanion10.UsageError(`Unsupported package manager '${name2}'`); this.log({ name: name2, reference }); await import_fs10.default.promises.mkdir(installFolder, { recursive: true }); await tarX({ file: p, cwd: installFolder }, [`${name2}/${reference}`]); @@ -23356,11 +14206,12 @@ var InstallGlobalCommand = class extends BaseCommand { }; // sources/commands/InstallLocal.ts +var import_clipanion11 = __toESM(require_advanced()); var InstallLocalCommand = class extends BaseCommand { static paths = [ [`install`] ]; - static usage = Command.Usage({ + static usage = import_clipanion11.Command.Usage({ description: `Install the package manager configured in the local project`, details: ` Download and install the package manager configured in the local project. This command doesn't change the global version used when running the package manager from outside the project (use the \`-g,--global\` flag if you wish to do this). @@ -23376,7 +14227,7 @@ var InstallLocalCommand = class extends BaseCommand { }); const resolved = await this.context.engine.resolveDescriptor(descriptor, { allowTags: true }); if (resolved === null) - throw new UsageError(`Failed to successfully resolve '${descriptor.range}' to a valid ${descriptor.name} release`); + throw new import_clipanion11.UsageError(`Failed to successfully resolve '${descriptor.range}' to a valid ${descriptor.name} release`); this.context.stdout.write(`Adding ${resolved.name}@${resolved.reference} to the cache... `); await this.context.engine.ensurePackageManager(resolved); @@ -23384,13 +14235,14 @@ var InstallLocalCommand = class extends BaseCommand { }; // sources/commands/Pack.ts +var import_clipanion12 = __toESM(require_advanced()); var import_promises3 = require("fs/promises"); var import_path11 = __toESM(require("path")); var PackCommand = class extends BaseCommand { static paths = [ [`pack`] ]; - static usage = Command.Usage({ + static usage = import_clipanion12.Command.Usage({ description: `Store package managers in a tarball`, details: ` Download the selected package managers and store them inside a tarball suitable for use with \`corepack install -g\`. @@ -23403,13 +14255,13 @@ var PackCommand = class extends BaseCommand { `corepack pack yarn@^1` ]] }); - json = options_exports.Boolean(`--json`, false, { + json = import_clipanion12.Option.Boolean(`--json`, false, { description: `If true, the path to the generated tarball will be printed on stdout` }); - output = options_exports.String(`-o,--output`, { + output = import_clipanion12.Option.String(`-o,--output`, { description: `Where the tarball should be generated; by default "corepack.tgz"` }); - patterns = options_exports.Rest(); + patterns = import_clipanion12.Option.Rest(); async execute() { const descriptors = await this.resolvePatternsToDescriptors({ patterns: this.patterns @@ -23418,7 +14270,7 @@ var PackCommand = class extends BaseCommand { for (const descriptor of descriptors) { const resolved = await this.context.engine.resolveDescriptor(descriptor, { allowTags: true, useCache: false }); if (resolved === null) - throw new UsageError(`Failed to successfully resolve '${descriptor.range}' to a valid ${descriptor.name} release`); + throw new import_clipanion12.UsageError(`Failed to successfully resolve '${descriptor.range}' to a valid ${descriptor.name} release`); this.context.stdout.write(`Adding ${resolved.name}@${resolved.reference} to the cache... `); const packageManagerInfo = await this.context.engine.ensurePackageManager(resolved); @@ -23449,6 +14301,7 @@ var PackCommand = class extends BaseCommand { }; // sources/commands/Up.ts +var import_clipanion13 = __toESM(require_advanced()); var import_major = __toESM(require_major()); var import_valid5 = __toESM(require_valid()); var import_valid6 = __toESM(require_valid2()); @@ -23456,7 +14309,7 @@ var UpCommand = class extends BaseCommand { static paths = [ [`up`] ]; - static usage = Command.Usage({ + static usage = import_clipanion13.Command.Usage({ description: `Update the package manager used in the current project`, details: ` Retrieve the latest available version for the current major release line @@ -23478,15 +14331,15 @@ var UpCommand = class extends BaseCommand { patterns: [] }); if (!(0, import_valid5.default)(descriptor.range) && !(0, import_valid6.default)(descriptor.range)) - throw new UsageError(`The 'corepack up' command can only be used when your project's packageManager field is set to a semver version or semver range`); + throw new import_clipanion13.UsageError(`The 'corepack up' command can only be used when your project's packageManager field is set to a semver version or semver range`); const resolved = await this.context.engine.resolveDescriptor(descriptor, { useCache: false }); if (!resolved) - throw new UsageError(`Failed to successfully resolve '${descriptor.range}' to a valid ${descriptor.name} release`); + throw new import_clipanion13.UsageError(`Failed to successfully resolve '${descriptor.range}' to a valid ${descriptor.name} release`); const majorVersion = (0, import_major.default)(resolved.reference); const majorDescriptor = { name: descriptor.name, range: `^${majorVersion}.0.0` }; const highestVersion = await this.context.engine.resolveDescriptor(majorDescriptor, { useCache: false }); if (!highestVersion) - throw new UsageError(`Failed to find the highest release for ${descriptor.name} ${majorVersion}.x`); + throw new import_clipanion13.UsageError(`Failed to find the highest release for ${descriptor.name} ${majorVersion}.x`); this.context.stdout.write(`Installing ${highestVersion.name}@${highestVersion.reference} in the project... `); const packageManagerInfo = await this.context.engine.ensurePackageManager(highestVersion); @@ -23495,11 +14348,12 @@ var UpCommand = class extends BaseCommand { }; // sources/commands/Use.ts +var import_clipanion14 = __toESM(require_advanced()); var UseCommand = class extends BaseCommand { static paths = [ [`use`] ]; - static usage = Command.Usage({ + static usage = import_clipanion14.Command.Usage({ description: `Define the package manager to use for the current project`, details: ` When run, this command will retrieve the latest release matching the @@ -23511,14 +14365,14 @@ var UseCommand = class extends BaseCommand { `corepack use yarn` ]] }); - pattern = options_exports.String(); + pattern = import_clipanion14.Option.String(); async execute() { const [descriptor] = await this.resolvePatternsToDescriptors({ patterns: [this.pattern] }); const resolved = await this.context.engine.resolveDescriptor(descriptor, { allowTags: true, useCache: false }); if (resolved === null) - throw new UsageError(`Failed to successfully resolve '${descriptor.range}' to a valid ${descriptor.name} release`); + throw new import_clipanion14.UsageError(`Failed to successfully resolve '${descriptor.range}' to a valid ${descriptor.name} release`); this.context.stdout.write(`Installing ${resolved.name}@${resolved.reference} in the project... `); const packageManagerInfo = await this.context.engine.ensurePackageManager(resolved); @@ -23527,16 +14381,17 @@ var UseCommand = class extends BaseCommand { }; // sources/commands/deprecated/Hydrate.ts +var import_clipanion15 = __toESM(require_advanced()); var import_promises4 = require("fs/promises"); var import_path12 = __toESM(require("path")); -var HydrateCommand = class extends Command { +var HydrateCommand = class extends import_clipanion15.Command { static paths = [ [`hydrate`] ]; - activate = options_exports.Boolean(`--activate`, false, { + activate = import_clipanion15.Option.Boolean(`--activate`, false, { description: `If true, this release will become the default one for this package manager` }); - fileName = options_exports.String(); + fileName = import_clipanion15.Option.String(); async execute() { const installFolder = getInstallFolder(); const fileName = import_path12.default.resolve(this.context.cwd, this.fileName); @@ -23555,12 +14410,12 @@ var HydrateCommand = class extends Command { } } }); if (hasShortEntries || archiveEntries.size < 1) - throw new UsageError(`Invalid archive format; did it get generated by 'corepack prepare'?`); + throw new import_clipanion15.UsageError(`Invalid archive format; did it get generated by 'corepack prepare'?`); const { extract: tarX } = await Promise.resolve().then(() => (init_extract(), extract_exports)); for (const [name2, references] of archiveEntries) { for (const reference of references) { if (!isSupportedPackageManager(name2)) - throw new UsageError(`Unsupported package manager '${name2}'`); + throw new import_clipanion15.UsageError(`Unsupported package manager '${name2}'`); if (this.activate) this.context.stdout.write(`Hydrating ${name2}@${reference} for immediate activation... `); @@ -23580,23 +14435,24 @@ var HydrateCommand = class extends Command { }; // sources/commands/deprecated/Prepare.ts +var import_clipanion16 = __toESM(require_advanced()); var import_promises5 = require("fs/promises"); var import_path13 = __toESM(require("path")); -var PrepareCommand = class extends Command { +var PrepareCommand = class extends import_clipanion16.Command { static paths = [ [`prepare`] ]; - activate = options_exports.Boolean(`--activate`, false, { + activate = import_clipanion16.Option.Boolean(`--activate`, false, { description: `If true, this release will become the default one for this package manager` }); - json = options_exports.Boolean(`--json`, false, { + json = import_clipanion16.Option.Boolean(`--json`, false, { description: `If true, the output will be the path of the generated tarball` }); - output = options_exports.String(`-o,--output`, { + output = import_clipanion16.Option.String(`-o,--output`, { description: `If true, the installed package managers will also be stored in a tarball`, tolerateBoolean: true }); - specs = options_exports.Rest(); + specs = import_clipanion16.Option.Rest(); async execute() { const specs = this.specs; const installLocations = []; @@ -23604,9 +14460,9 @@ var PrepareCommand = class extends Command { const lookup = await loadSpec(this.context.cwd); switch (lookup.type) { case `NoProject`: - throw new UsageError(`Couldn't find a project in the local directory - please specify the package manager to pack, or run this command from a valid project`); + throw new import_clipanion16.UsageError(`Couldn't find a project in the local directory - please specify the package manager to pack, or run this command from a valid project`); case `NoSpec`: - throw new UsageError(`The local project doesn't feature a 'packageManager' field - please specify the package manager to pack, or update the manifest to reference it`); + throw new import_clipanion16.UsageError(`The local project doesn't feature a 'packageManager' field - please specify the package manager to pack, or update the manifest to reference it`); default: { specs.push(lookup.getSpec()); } @@ -23616,7 +14472,7 @@ var PrepareCommand = class extends Command { const spec = typeof request === `string` ? parseSpec(request, `CLI arguments`, { enforceExactVersion: false }) : request; const resolved = await this.context.engine.resolveDescriptor(spec, { allowTags: true }); if (resolved === null) - throw new UsageError(`Failed to successfully resolve '${spec.range}' to a valid ${spec.name} release`); + throw new import_clipanion16.UsageError(`Failed to successfully resolve '${spec.range}' to a valid ${spec.name} release`); if (!this.json) { if (this.activate) { this.context.stdout.write(`Preparing ${spec.name}@${spec.range} for immediate activation... @@ -23679,13 +14535,13 @@ async function runMain(argv) { const [firstArg, ...restArgs] = argv; const request = getPackageManagerRequestFromCli(firstArg, engine); if (!request) { - const cli = new Cli({ + const cli = new import_clipanion17.Cli({ binaryLabel: `Corepack`, binaryName: `corepack`, binaryVersion: version }); - cli.register(builtins_exports.HelpCommand); - cli.register(builtins_exports.VersionCommand); + cli.register(import_clipanion17.Builtins.HelpCommand); + cli.register(import_clipanion17.Builtins.VersionCommand); cli.register(CacheCommand); cli.register(DisableCommand); cli.register(EnableCommand); @@ -23697,7 +14553,7 @@ async function runMain(argv) { cli.register(HydrateCommand); cli.register(PrepareCommand); const context = { - ...Cli.defaultContext, + ...import_clipanion17.Cli.defaultContext, cwd: process.cwd(), engine }; @@ -23726,9 +14582,6 @@ async function runMain(argv) { }); /*! Bundled license information: -undici/lib/web/fetch/body.js: - (*! formdata-polyfill. MIT License. Jimmy Wärting *) - is-windows/index.js: (*! * is-windows diff --git a/deps/corepack/package.json b/deps/corepack/package.json index ab39b1d2dd8e20..279475fb9cec6e 100644 --- a/deps/corepack/package.json +++ b/deps/corepack/package.json @@ -1,6 +1,6 @@ { "name": "corepack", - "version": "0.34.6", + "version": "0.35.0", "homepage": "https://github.com/nodejs/corepack#readme", "bugs": { "url": "https://github.com/nodejs/corepack/issues" @@ -10,44 +10,43 @@ "url": "https://github.com/nodejs/corepack.git" }, "engines": { - "node": "^20.10.0 || ^22.11.0 || >=24.0.0" + "node": "^22.22.2 || ^24.15.0 || >=26.0.0" }, "exports": { "./package.json": "./package.json" }, "license": "MIT", - "packageManager": "yarn@4.11.0+sha224.209a3e277c6bbc03df6e4206fbfcb0c1621c27ecf0688f79a0c619f0", + "packageManager": "yarn@4.14.1+sha224.88b7a7244bbd9040380c417f7eb556d85c67640b651f113cb4c72113", "devDependencies": { "@types/debug": "^4.1.5", - "@types/node": "^20.4.6", + "@types/node": "^22.0.0", "@types/proxy-from-env": "^1", "@types/semver": "^7.1.0", "@types/which": "^3.0.0", "@yarnpkg/eslint-config": "^3.0.0", "@yarnpkg/fslib": "^3.0.0-rc.48", "@zkochan/cmd-shim": "^6.0.0", - "better-sqlite3": "^11.7.2", "clipanion": "patch:clipanion@npm%3A3.2.1#~/.yarn/patches/clipanion-npm-3.2.1-fc9187f56c.patch", "debug": "^4.1.1", - "esbuild": "^0.25.0", + "esbuild": "^0.28.0", "eslint": "^9.22.0", - "proxy-from-env": "^1.1.0", "semver": "^7.6.3", "supports-color": "^10.0.0", - "tar": "^7.5.4", + "tar": "^7.5.11", "tsx": "^4.16.2", "typescript": "^5.7.3", - "undici": "^6.21.2", "v8-compile-cache": "^2.3.0", - "vitest": "^3.0.5", - "which": "^5.0.0" + "vitest": "^4.0.5", + "which": "^7.0.0" }, - "resolutions": { - "undici-types": "6.x" + "dependenciesMeta": { + "esbuild": { + "built": true + } }, "scripts": { "build": "run clean && run build:bundle && tsx ./mkshims.ts", - "build:bundle": "esbuild ./sources/_lib.ts --bundle --platform=node --target=node18.17.0 --external:corepack --outfile='./dist/lib/corepack.cjs' --resolve-extensions='.ts,.mjs,.js'", + "build:bundle": "esbuild ./sources/_lib.ts --bundle --platform=node --target=node22.22.2 --external:corepack --outfile='./dist/lib/corepack.cjs' --resolve-extensions='.ts,.mjs,.js'", "clean": "run rimraf dist shims", "corepack": "tsx ./sources/_cli.ts", "lint": "eslint .", diff --git a/deps/googletest/include/gtest/gtest-matchers.h b/deps/googletest/include/gtest/gtest-matchers.h index 08ffbeb93c976f..6d2ab14d2ad9bd 100644 --- a/deps/googletest/include/gtest/gtest-matchers.h +++ b/deps/googletest/include/gtest/gtest-matchers.h @@ -40,6 +40,7 @@ #define GOOGLETEST_INCLUDE_GTEST_GTEST_MATCHERS_H_ #include +#include #include #include #include @@ -485,6 +486,15 @@ class [[nodiscard]] Matcher : public internal::MatcherBase { // Implicit constructor here allows people to write // EXPECT_CALL(foo, Bar(5)) instead of EXPECT_CALL(foo, Bar(Eq(5))) sometimes Matcher(T value); // NOLINT + + // Implicit constructor here allows people to write + // EXPECT_THAT(foo, nullptr) instead of EXPECT_THAT(foo, IsNull()) for smart + // pointer types. + // + // The second argument is needed to avoid capturing literal '0'. + template + Matcher(U, // NOLINT + std::enable_if_t>* = nullptr); }; // The following two specializations allow the user to write str @@ -895,13 +905,21 @@ inline internal::EqMatcher Eq(T x) { return internal::EqMatcher(x); } -// Constructs a Matcher from a 'value' of type T. The constructed +// Constructs a Matcher from a 'value' of type T. The constructed // matcher matches any value that's equal to 'value'. template Matcher::Matcher(T value) { *this = Eq(value); } +// Constructs a Matcher from nullptr. The constructed matcher matches any +// value that is equal to nullptr. +template +template +Matcher::Matcher(U, std::enable_if_t>*) { + *this = Eq(nullptr); +} + // Creates a monomorphic matcher that matches anything with type Lhs // and equal to rhs. A user may need to use this instead of Eq(...) // in order to resolve an overloading ambiguity. diff --git a/deps/googletest/include/gtest/gtest.h b/deps/googletest/include/gtest/gtest.h index 4218adebde20d8..f4a91ee44d0aeb 100644 --- a/deps/googletest/include/gtest/gtest.h +++ b/deps/googletest/include/gtest/gtest.h @@ -137,6 +137,10 @@ GTEST_DECLARE_int32_(repeat); // only torn down once, for the last. GTEST_DECLARE_bool_(recreate_environments_when_repeating); +// Together these flags determine which tests are run if the test is sharded. +GTEST_DECLARE_int32_(shard_index); +GTEST_DECLARE_int32_(total_shards); + // This flag controls whether Google Test includes Google Test internal // stack frames in failure stack traces. GTEST_DECLARE_bool_(show_internal_stack_frames); diff --git a/deps/googletest/include/gtest/internal/gtest-port.h b/deps/googletest/include/gtest/internal/gtest-port.h index 16958b084b62e1..b607e0adee74f4 100644 --- a/deps/googletest/include/gtest/internal/gtest-port.h +++ b/deps/googletest/include/gtest/internal/gtest-port.h @@ -1483,7 +1483,7 @@ typedef GTestMutexLock MutexLock; // without knowing its type. class [[nodiscard]] ThreadLocalValueHolderBase { public: - virtual ~ThreadLocalValueHolderBase() {} + virtual ~ThreadLocalValueHolderBase() = default; }; // Provides a way for a thread to send notifications to a ThreadLocal @@ -1497,8 +1497,8 @@ class [[nodiscard]] ThreadLocalBase { virtual ThreadLocalValueHolderBase* NewValueForCurrentThread() const = 0; protected: - ThreadLocalBase() {} - virtual ~ThreadLocalBase() {} + ThreadLocalBase() = default; + virtual ~ThreadLocalBase() = default; private: ThreadLocalBase(const ThreadLocalBase&) = delete; @@ -1527,7 +1527,7 @@ class GTEST_API_ [[nodiscard]] ThreadWithParamBase { protected: class Runnable { public: - virtual ~Runnable() {} + virtual ~Runnable() = default; virtual void Run() = 0; }; @@ -1546,14 +1546,14 @@ class [[nodiscard]] ThreadWithParam : public ThreadWithParamBase { ThreadWithParam(UserThreadFunc* func, T param, Notification* thread_can_start) : ThreadWithParamBase(new RunnableImpl(func, param), thread_can_start) {} - virtual ~ThreadWithParam() {} + ~ThreadWithParam() override = default; private: class RunnableImpl : public Runnable { public: RunnableImpl(UserThreadFunc* func, T param) : func_(func), param_(param) {} - virtual ~RunnableImpl() {} - virtual void Run() { func_(param_); } + ~RunnableImpl() override = default; + void Run() override { func_(param_); } private: UserThreadFunc* const func_; @@ -1636,8 +1636,8 @@ class [[nodiscard]] ThreadLocal : public ThreadLocalBase { class ValueHolderFactory { public: - ValueHolderFactory() {} - virtual ~ValueHolderFactory() {} + ValueHolderFactory() = default; + virtual ~ValueHolderFactory() = default; virtual ValueHolder* MakeNewHolder() const = 0; private: @@ -1647,7 +1647,7 @@ class [[nodiscard]] ThreadLocal : public ThreadLocalBase { class DefaultValueHolderFactory : public ValueHolderFactory { public: - DefaultValueHolderFactory() {} + DefaultValueHolderFactory() = default; ValueHolder* MakeNewHolder() const override { return new ValueHolder(); } private: diff --git a/deps/googletest/src/gtest-internal-inl.h b/deps/googletest/src/gtest-internal-inl.h index 6a39b93be132e2..2ebfcd39ef5645 100644 --- a/deps/googletest/src/gtest-internal-inl.h +++ b/deps/googletest/src/gtest-internal-inl.h @@ -246,15 +246,12 @@ GTEST_API_ std::string WideStringToUtf8(const wchar_t* str, int num_chars); // be created, prints an error and exits. void WriteToShardStatusFileIfNeeded(); -// Checks whether sharding is enabled by examining the relevant -// environment variable values. If the variables are present, -// but inconsistent (e.g., shard_index >= total_shards), prints -// an error and exits. If in_subprocess_for_death_test, sharding is +// Checks whether sharding is enabled by examining the relevant flag values. +// If the flags are set, but inconsistent (e.g., shard_index >= total_shards), +// prints an error and exits. If in_subprocess_for_death_test, sharding is // disabled because it must only be applied to the original test // process. Otherwise, we could filter out death tests we intended to execute. -GTEST_API_ bool ShouldShard(const char* total_shards_str, - const char* shard_index_str, - bool in_subprocess_for_death_test); +GTEST_API_ bool ShouldShard(bool in_subprocess_for_death_test); // Parses the environment variable var as a 32-bit integer. If it is unset, // returns default_val. If it is not a 32-bit integer, prints an error and diff --git a/deps/googletest/src/gtest-port.cc b/deps/googletest/src/gtest-port.cc index 4749cf1f3ccbf4..d34a693e4500f2 100644 --- a/deps/googletest/src/gtest-port.cc +++ b/deps/googletest/src/gtest-port.cc @@ -89,6 +89,7 @@ #include "gtest/gtest-message.h" #include "gtest/gtest-spi.h" +#include "gtest/gtest.h" #include "gtest/internal/gtest-internal.h" #include "gtest/internal/gtest-string.h" #include "src/gtest-internal-inl.h" @@ -745,7 +746,7 @@ void RE::Init(const char* regex) { char* const full_pattern = new char[full_regex_len]; snprintf(full_pattern, full_regex_len, "^(%s)$", regex); - is_valid_ = regcomp(&full_regex_, full_pattern, reg_flags) == 0; + int error = regcomp(&full_regex_, full_pattern, reg_flags); // We want to call regcomp(&partial_regex_, ...) even if the // previous expression returns false. Otherwise partial_regex_ may // not be properly initialized can may cause trouble when it's @@ -754,13 +755,13 @@ void RE::Init(const char* regex) { // Some implementation of POSIX regex (e.g. on at least some // versions of Cygwin) doesn't accept the empty string as a valid // regex. We change it to an equivalent form "()" to be safe. - if (is_valid_) { + if (!error) { const char* const partial_regex = (*regex == '\0') ? "()" : regex; - is_valid_ = regcomp(&partial_regex_, partial_regex, reg_flags) == 0; + error = regcomp(&partial_regex_, partial_regex, reg_flags); } - EXPECT_TRUE(is_valid_) - << "Regular expression \"" << regex - << "\" is not a valid POSIX Extended regular expression."; + is_valid_ = error == 0; + EXPECT_EQ(error, 0) << "Regular expression \"" << regex + << "\" is not a valid POSIX Extended regular expression."; delete[] full_pattern; } diff --git a/deps/googletest/src/gtest.cc b/deps/googletest/src/gtest.cc index 8a3801807e7dfa..ac90786a091b51 100644 --- a/deps/googletest/src/gtest.cc +++ b/deps/googletest/src/gtest.cc @@ -407,6 +407,18 @@ GTEST_DEFINE_bool_( "if exceptions are enabled or exit the program with a non-zero code " "otherwise. For use with an external test framework."); +GTEST_DEFINE_int32_( + shard_index, + testing::internal::Int32FromEnvOrDie(testing::kTestShardIndex, -1), + "The zero-based index of the shard to run. A value of -1 " + "(the default) indicates that sharding is disabled."); + +GTEST_DEFINE_int32_( + total_shards, + testing::internal::Int32FromEnvOrDie(testing::kTestTotalShards, -1), + "The total number of shards to use when running tests in parallel. " + "A value of -1 (the default) indicates that sharding is disabled."); + #if GTEST_USE_OWN_FLAGFILE_FLAG_ GTEST_DEFINE_string_( flagfile, testing::internal::StringFromGTestEnv("flagfile", ""), @@ -3475,11 +3487,11 @@ void PrettyUnitTestResultPrinter::OnTestIterationStart( filter); } - if (internal::ShouldShard(kTestTotalShards, kTestShardIndex, false)) { - const int32_t shard_index = Int32FromEnvOrDie(kTestShardIndex, -1); - ColoredPrintf(GTestColor::kYellow, "Note: This is test shard %d of %s.\n", + if (internal::ShouldShard(false)) { + const int32_t shard_index = GTEST_FLAG_GET(shard_index); + ColoredPrintf(GTestColor::kYellow, "Note: This is test shard %d of %d.\n", static_cast(shard_index) + 1, - internal::posix::GetEnv(kTestTotalShards)); + GTEST_FLAG_GET(total_shards)); } if (GTEST_FLAG_GET(shuffle)) { @@ -5983,8 +5995,7 @@ bool UnitTestImpl::RunAllTests() { #endif // defined(GTEST_EXTRA_DEATH_TEST_CHILD_SETUP_) #endif // GTEST_HAS_DEATH_TEST - const bool should_shard = ShouldShard(kTestTotalShards, kTestShardIndex, - in_subprocess_for_death_test); + const bool should_shard = ShouldShard(in_subprocess_for_death_test); // Compares the full test names with the filter to decide which // tests to run. @@ -6196,45 +6207,44 @@ void WriteToShardStatusFileIfNeeded() { } #endif // GTEST_HAS_FILE_SYSTEM -// Checks whether sharding is enabled by examining the relevant -// environment variable values. If the variables are present, -// but inconsistent (i.e., shard_index >= total_shards), prints -// an error and exits. If in_subprocess_for_death_test, sharding is -// disabled because it must only be applied to the original test -// process. Otherwise, we could filter out death tests we intended to execute. -bool ShouldShard(const char* total_shards_env, const char* shard_index_env, - bool in_subprocess_for_death_test) { +// Checks whether sharding is enabled by examining the relevant command line +// arguments. If the arguments are present, but inconsistent +// (i.e., shard_index >= total_shards), prints an error and exits. +// If in_subprocess_for_death_test, sharding is disabled because it must only +// be applied to the original test process. Otherwise, we could filter out death +// tests we intended to execute. +bool ShouldShard(bool in_subprocess_for_death_test) { if (in_subprocess_for_death_test) { return false; } - const int32_t total_shards = Int32FromEnvOrDie(total_shards_env, -1); - const int32_t shard_index = Int32FromEnvOrDie(shard_index_env, -1); + const int32_t total_shards = GTEST_FLAG_GET(total_shards); + const int32_t shard_index = GTEST_FLAG_GET(shard_index); if (total_shards == -1 && shard_index == -1) { return false; } else if (total_shards == -1 && shard_index != -1) { - const Message msg = Message() << "Invalid environment variables: you have " - << kTestShardIndex << " = " << shard_index - << ", but have left " << kTestTotalShards - << " unset.\n"; + const Message msg = Message() + << "Invalid sharding: you have " << kTestShardIndex + << " = " << shard_index << ", but have left " + << kTestTotalShards << " unset.\n"; ColoredPrintf(GTestColor::kRed, "%s", msg.GetString().c_str()); fflush(stdout); exit(EXIT_FAILURE); } else if (total_shards != -1 && shard_index == -1) { const Message msg = Message() - << "Invalid environment variables: you have " - << kTestTotalShards << " = " << total_shards - << ", but have left " << kTestShardIndex << " unset.\n"; + << "Invalid sharding: you have " << kTestTotalShards + << " = " << total_shards << ", but have left " + << kTestShardIndex << " unset.\n"; ColoredPrintf(GTestColor::kRed, "%s", msg.GetString().c_str()); fflush(stdout); exit(EXIT_FAILURE); } else if (shard_index < 0 || shard_index >= total_shards) { const Message msg = - Message() << "Invalid environment variables: we require 0 <= " - << kTestShardIndex << " < " << kTestTotalShards - << ", but you have " << kTestShardIndex << "=" << shard_index - << ", " << kTestTotalShards << "=" << total_shards << ".\n"; + Message() << "Invalid sharding: we require 0 <= " << kTestShardIndex + << " < " << kTestTotalShards << ", but you have " + << kTestShardIndex << "=" << shard_index << ", " + << kTestTotalShards << "=" << total_shards << ".\n"; ColoredPrintf(GTestColor::kRed, "%s", msg.GetString().c_str()); fflush(stdout); exit(EXIT_FAILURE); @@ -6277,11 +6287,10 @@ bool ShouldRunTestOnShard(int total_shards, int shard_index, int test_id) { // . Returns the number of tests that should run. int UnitTestImpl::FilterTests(ReactionToSharding shard_tests) { const int32_t total_shards = shard_tests == HONOR_SHARDING_PROTOCOL - ? Int32FromEnvOrDie(kTestTotalShards, -1) + ? GTEST_FLAG_GET(total_shards) : -1; - const int32_t shard_index = shard_tests == HONOR_SHARDING_PROTOCOL - ? Int32FromEnvOrDie(kTestShardIndex, -1) - : -1; + const int32_t shard_index = + shard_tests == HONOR_SHARDING_PROTOCOL ? GTEST_FLAG_GET(shard_index) : -1; const PositiveAndNegativeUnitTestFilter gtest_flag_filter( GTEST_FLAG_GET(filter)); @@ -6810,6 +6819,8 @@ static bool ParseGoogleTestFlag(const char* const arg) { GTEST_INTERNAL_PARSE_FLAG(print_utf8); GTEST_INTERNAL_PARSE_FLAG(random_seed); GTEST_INTERNAL_PARSE_FLAG(repeat); + GTEST_INTERNAL_PARSE_FLAG(shard_index); + GTEST_INTERNAL_PARSE_FLAG(total_shards); GTEST_INTERNAL_PARSE_FLAG(recreate_environments_when_repeating); GTEST_INTERNAL_PARSE_FLAG(shuffle); GTEST_INTERNAL_PARSE_FLAG(stack_trace_depth); diff --git a/deps/icu-small/source/common/unicode/utfiterator.h b/deps/icu-small/source/common/unicode/utfiterator.h index 7e9fc4ba314d52..6e79a4403057ad 100644 --- a/deps/icu-small/source/common/unicode/utfiterator.h +++ b/deps/icu-small/source/common/unicode/utfiterator.h @@ -557,9 +557,11 @@ class UTFImpl< public: // Handle ill-formed UTF-8 U_FORCE_INLINE static CP32 sub() { - switch (behavior) { - case UTF_BEHAVIOR_NEGATIVE: return U_SENTINEL; - case UTF_BEHAVIOR_FFFD: return 0xfffd; + if constexpr (behavior == UTF_BEHAVIOR_NEGATIVE) { + return U_SENTINEL; + } else { + static_assert(behavior == UTF_BEHAVIOR_FFFD); + return 0xfffd; } } @@ -736,10 +738,13 @@ class UTFImpl< public: // Handle ill-formed UTF-16: One unpaired surrogate. U_FORCE_INLINE static CP32 sub(CP32 surrogate) { - switch (behavior) { - case UTF_BEHAVIOR_NEGATIVE: return U_SENTINEL; - case UTF_BEHAVIOR_FFFD: return 0xfffd; - case UTF_BEHAVIOR_SURROGATE: return surrogate; + if constexpr (behavior == UTF_BEHAVIOR_NEGATIVE) { + return U_SENTINEL; + } else if constexpr (behavior == UTF_BEHAVIOR_FFFD) { + return 0xfffd; + } else { + static_assert(behavior == UTF_BEHAVIOR_SURROGATE); + return surrogate; } } @@ -822,10 +827,13 @@ class UTFImpl< public: // Handle ill-formed UTF-32 U_FORCE_INLINE static CP32 sub(bool forSurrogate, CP32 surrogate) { - switch (behavior) { - case UTF_BEHAVIOR_NEGATIVE: return U_SENTINEL; - case UTF_BEHAVIOR_FFFD: return 0xfffd; - case UTF_BEHAVIOR_SURROGATE: return forSurrogate ? surrogate : 0xfffd; + if constexpr (behavior == UTF_BEHAVIOR_NEGATIVE) { + return U_SENTINEL; + } else if constexpr (behavior == UTF_BEHAVIOR_FFFD) { + return 0xfffd; + } else { + static_assert(behavior == UTF_BEHAVIOR_SURROGATE); + return forSurrogate ? surrogate : 0xfffd; } } diff --git a/deps/icu-small/source/common/unicode/uvernum.h b/deps/icu-small/source/common/unicode/uvernum.h index b5273a04fcf8d4..75acd4f0052a88 100644 --- a/deps/icu-small/source/common/unicode/uvernum.h +++ b/deps/icu-small/source/common/unicode/uvernum.h @@ -59,7 +59,7 @@ * This value will change in the subsequent releases of ICU * @stable ICU 2.6 */ -#define U_ICU_VERSION_MINOR_NUM 2 +#define U_ICU_VERSION_MINOR_NUM 3 /** The current ICU patchlevel version as an integer. * This value will change in the subsequent releases of ICU @@ -132,7 +132,7 @@ * This value will change in the subsequent releases of ICU * @stable ICU 2.4 */ -#define U_ICU_VERSION "78.2" +#define U_ICU_VERSION "78.3" /** * The current ICU library major version number as a string, for library name suffixes. @@ -151,7 +151,7 @@ /** Data version in ICU4C. * @internal ICU 4.4 Internal Use Only **/ -#define U_ICU_DATA_VERSION "78.2" +#define U_ICU_DATA_VERSION "78.3" #endif /* U_HIDE_INTERNAL_API */ /*=========================================================================== diff --git a/deps/icu-small/source/data/in/icudt78l.dat.bz2 b/deps/icu-small/source/data/in/icudt78l.dat.bz2 index 5be75974fa3edd..21ca4cef1c2acd 100644 Binary files a/deps/icu-small/source/data/in/icudt78l.dat.bz2 and b/deps/icu-small/source/data/in/icudt78l.dat.bz2 differ diff --git a/deps/icu-small/source/i18n/nfrule.cpp b/deps/icu-small/source/i18n/nfrule.cpp index 26a6e818d5a9b2..3857f9f45f2e80 100644 --- a/deps/icu-small/source/i18n/nfrule.cpp +++ b/deps/icu-small/source/i18n/nfrule.cpp @@ -158,12 +158,17 @@ NFRule::makeRules(UnicodeString& description, UnicodeString sbuf; int32_t orElseOp = description.indexOf(gVerticalLine); + uint64_t mod = util64_pow(rule1->radix, rule1->exponent); // we'll actually only split the rule into two rules if its // base value is an even multiple of its divisor (or it's one // of the special rules) + if (rule1->baseValue > 0 && rule1->radix != 0 && mod == 0) { + status = U_NUMBER_ARG_OUTOFBOUNDS_ERROR; + return; + } if ((rule1->baseValue > 0 && (rule1->radix != 0) // ICU-23109 Ensure next line won't "% 0" - && (rule1->baseValue % util64_pow(rule1->radix, rule1->exponent)) == 0) + && (rule1->baseValue % mod == 0)) || rule1->getType() == kImproperFractionRule || rule1->getType() == kDefaultRule) { diff --git a/deps/inspector_protocol/README.node b/deps/inspector_protocol/README.node index af4618cd6160e5..6216d7a8ea06db 100644 --- a/deps/inspector_protocol/README.node +++ b/deps/inspector_protocol/README.node @@ -2,7 +2,7 @@ Name: inspector protocol Short Name: inspector_protocol URL: https://chromium.googlesource.com/deps/inspector_protocol/ Version: 0 -Revision: 69d69ddf3aa698b171886551a4a672c5af1ad902 +Revision: 1b1bcbbe060e8c8cd8704f00f78978c50991b307 License: BSD License File: LICENSE Security Critical: no diff --git a/deps/inspector_protocol/code_generator.py b/deps/inspector_protocol/code_generator.py index ce989e4869002e..b25ffc29b0a96a 100755 --- a/deps/inspector_protocol/code_generator.py +++ b/deps/inspector_protocol/code_generator.py @@ -75,12 +75,18 @@ def init_defaults(config_tuple, path, defaults): "--inspector_protocol_dir", type=unicode, required=True, help=("directory with code_generator.py and C++ encoding / binding " "libraries, relative to the root of the source tree.")) + cmdline_parser.add_argument("--depfile", type=unicode, required=False) + cmdline_parser.add_argument("--stamp", type=unicode, required=False) arg_options = cmdline_parser.parse_args() jinja_dir = arg_options.jinja_dir output_base = arg_options.output_base config_file = arg_options.config config_base = os.path.dirname(config_file) config_values = arg_options.config_value + if bool(arg_options.depfile) != bool(arg_options.stamp): + raise Exception("--depfile requires --stamp and vice versa") + depfile = arg_options.depfile + stamp = arg_options.stamp inspector_protocol_dir = arg_options.inspector_protocol_dir.lstrip('/') except Exception: # Work with python 2 and 3 http://docs.python.org/py3k/howto/pyporting.html @@ -122,7 +128,8 @@ def init_defaults(config_tuple, path, defaults): parts = key_value.split("=") if len(parts) == 2: defaults["." + parts[0]] = parts[1] - return (jinja_dir, config_file, init_defaults(config_partial, "", defaults)) + return (jinja_dir, config_file, init_defaults(config_partial, "", defaults), + depfile, stamp) except Exception: # Work with python 2 and 3 http://docs.python.org/py3k/howto/pyporting.html exc = sys.exc_info()[1] @@ -360,6 +367,7 @@ class Protocol(object): def __init__(self, config): self.config = config self.json_api = {"domains": []} + self.source_set = set() self.imported_domains = [] self.exported_domains = [] self.generate_domains = self.read_protocol_file(config.protocol.path) @@ -381,7 +389,8 @@ def __init__(self, config): def read_protocol_file(self, file_name): input_file = open(file_name, "r") - parsed_json = pdl.loads(input_file.read(), file_name) + parsed_json = pdl.loads(input_file.read(), file_name, False, + self.source_set) input_file.close() version = '%s.%s' % (parsed_json["version"]["major"], parsed_json["version"]["minor"]) @@ -600,9 +609,10 @@ def is_imported_dependency(self, domain): def main(): - jinja_dir, config_file, config = read_config() + jinja_dir, config_file, config, deps_filename, stamp_filename = read_config() protocol = Protocol(config) + source_set = protocol.source_set if not config.exported and len(protocol.exported_domains): sys.stderr.write(("Domains [%s] are exported, but config is missing export " @@ -648,18 +658,26 @@ def main(): } if domain["domain"] in protocol.generate_domains: - outputs[os.path.join(config.protocol.output, to_file_name( - config, file_name + ".h"))] = h_template.render(template_context) - outputs[os.path.join(config.protocol.output, to_file_name( - config, file_name + ".cpp"))] = cpp_template.render(template_context) + output_h = os.path.join(config.protocol.output, to_file_name( + config, file_name + ".h")) + outputs[output_h] = h_template.render(template_context) + source_set.add(h_template.filename) + output_cpp = os.path.join(config.protocol.output, to_file_name( + config, file_name + ".cpp")) + outputs[output_cpp] = cpp_template.render(template_context) + source_set.add(cpp_template.filename) if domain["domain"] in protocol.exported_domains: - outputs[os.path.join(config.exported.output, to_file_name( - config, file_name + ".h"))] = exported_template.render( + output_export_h = os.path.join(config.exported.output, to_file_name( + config, file_name + ".h")) + outputs[output_export_h] = exported_template.render( template_context) + source_set.add(exported_template.filename) if domain["domain"] in protocol.imported_domains: - outputs[os.path.join(config.protocol.output, to_file_name( - config, file_name + ".h"))] = imported_template.render( + output_import_h = os.path.join(config.protocol.output, to_file_name( + config, file_name + ".h")) + outputs[output_import_h] = imported_template.render( template_context) + source_set.add(imported_template.filename) if config.lib: template_context = { @@ -702,6 +720,7 @@ def generate_lib_file(file_name, template_files): inputs.append(os.path.join(lib_templates_dir, template_file)) template = jinja_env.get_template("lib/" + template_file) parts.append(template.render(template_context)) + source_set.add(template.filename) outputs[file_name] = "\n\n".join(parts) generate_lib_file(os.path.join(config.lib.output, to_file_name( @@ -713,17 +732,9 @@ def generate_lib_file(file_name, template_files): generate_lib_file(os.path.join(config.lib.output, to_file_name( config, "Protocol.cpp")), protocol_cpp_templates) - # Make gyp / make generatos happy, otherwise make rebuilds world. - inputs_ts = max(map(os.path.getmtime, inputs)) - up_to_date = True - for output_file in outputs.keys(): - if (not os.path.exists(output_file) - or os.path.getmtime(output_file) < inputs_ts): - up_to_date = False - break - if up_to_date: - sys.exit() - + if stamp_filename: + with open(stamp_filename, "w"): + pass for file_name, content in outputs.items(): # Remove output file first to account for potential case changes. try: @@ -734,6 +745,12 @@ def generate_lib_file(file_name, template_files): out_file.write(content) out_file.close() + if deps_filename: + assert stamp_filename + with open(deps_filename, "w") as deps_file: + deps_file.write("%s: %s\n" % ( + stamp_filename, " ".join(sorted(source_set)))) + if __name__ == "__main__": main() diff --git a/deps/inspector_protocol/concatenate_protocols.py b/deps/inspector_protocol/concatenate_protocols.py index 11f1fed06c49f6..8ad4f6de712a21 100755 --- a/deps/inspector_protocol/concatenate_protocols.py +++ b/deps/inspector_protocol/concatenate_protocols.py @@ -5,6 +5,7 @@ import os.path import sys +import argparse try: import json @@ -14,29 +15,52 @@ import pdl def main(argv): - if len(argv) < 1: + cmdline_parser = argparse.ArgumentParser() + cmdline_parser.add_argument('filename', nargs='*') + cmdline_parser.add_argument("--depfile", required=False) + cmdline_parser.add_argument("--stamp", required=False) + arg_options = cmdline_parser.parse_args() + + if bool(arg_options.depfile) != bool(arg_options.stamp): + raise Exception("--depfile requires --stamp and vice versa") + + if len(arg_options.filename) < 1: sys.stderr.write( "Usage: %s [ [, ...]] " "\n" % sys.argv[0]) return 1 + filenames = arg_options.filename + deps_filename = arg_options.depfile + stamp_filename = arg_options.stamp domains = [] + source_set = set() version = None - for protocol in argv[:-1]: + for protocol in filenames[:-1]: file_name = os.path.normpath(protocol) if not os.path.isfile(file_name): sys.stderr.write("Cannot find %s\n" % file_name) return 1 input_file = open(file_name, "r") - parsed_json = pdl.loads(input_file.read(), file_name) + parsed_json = pdl.loads(input_file.read(), file_name, False, source_set) domains += parsed_json["domains"] version = parsed_json["version"] + if stamp_filename: + with open(stamp_filename, "w"): + pass + output_file = open(argv[-1], "w") json.dump({"version": version, "domains": domains}, output_file, indent=4, sort_keys=False, separators=(',', ': ')) output_file.close() + if deps_filename: + assert stamp_filename + with open(deps_filename, "w") as deps_file: + deps_file.write("%s: %s\n" % ( + stamp_filename, " ".join(sorted(source_set)))) + if __name__ == '__main__': sys.exit(main(sys.argv[1:])) diff --git a/deps/inspector_protocol/crdtp/cbor.cc b/deps/inspector_protocol/crdtp/cbor.cc index 801c1708022763..dc52549c55a6fe 100644 --- a/deps/inspector_protocol/crdtp/cbor.cc +++ b/deps/inspector_protocol/crdtp/cbor.cc @@ -833,7 +833,7 @@ void ParseUTF16String(CBORTokenizer* tokenizer, ParserHandler* out) { span rep = tokenizer->GetString16WireRep(); for (size_t ii = 0; ii < rep.size(); ii += 2) value.push_back((rep[ii + 1] << 8) | rep[ii]); - out->HandleString16(span(value.data(), value.size())); + out->HandleString16(value); tokenizer->Next(); } @@ -1037,7 +1037,7 @@ void ParseCBOR(span bytes, ParserHandler* out) { Status AppendString8EntryToCBORMap(span string8_key, span string8_value, std::vector* cbor) { - span bytes(cbor->data(), cbor->size()); + span bytes(*cbor); CBORTokenizer tokenizer(bytes); if (tokenizer.TokenTag() == CBORTokenTag::ERROR_VALUE) return tokenizer.Status(); diff --git a/deps/inspector_protocol/crdtp/cbor_test.cc b/deps/inspector_protocol/crdtp/cbor_test.cc index 058cd787d6416b..2d3689e730047c 100644 --- a/deps/inspector_protocol/crdtp/cbor_test.cc +++ b/deps/inspector_protocol/crdtp/cbor_test.cc @@ -349,7 +349,7 @@ TEST(EncodeDecodeString16Test, RoundtripsHelloWorld) { std::array msg{ {'H', 'e', 'l', 'l', 'o', ',', ' ', 0xd83c, 0xdf0e, '.'}}; std::vector encoded; - EncodeString16(span(msg.data(), msg.size()), &encoded); + EncodeString16(msg, &encoded); // This will be encoded as BYTE_STRING of length 20, so the 20 is encoded in // the additional info part of the initial byte. Payload is two bytes for each // UTF16 character. @@ -384,7 +384,7 @@ TEST(EncodeDecodeString16Test, Roundtrips500) { for (uint16_t ii = 0; ii < 250; ++ii) two_fifty.push_back(ii); std::vector encoded; - EncodeString16(span(two_fifty.data(), two_fifty.size()), &encoded); + EncodeString16(two_fifty, &encoded); EXPECT_EQ(3u + 250u * 2, encoded.size()); // Now check the first three bytes: // Major type: 2 (BYTE_STRING) @@ -501,7 +501,7 @@ TEST(EncodeFromLatin1Test, ConvertsToUTF8IfNeeded) { TEST(EncodeFromUTF16Test, ConvertsToUTF8IfEasy) { std::vector ascii = {'e', 'a', 's', 'y'}; std::vector encoded; - EncodeFromUTF16(span(ascii.data(), ascii.size()), &encoded); + EncodeFromUTF16(ascii, &encoded); CBORTokenizer tokenizer(SpanFrom(encoded)); EXPECT_EQ(CBORTokenTag::STRING8, tokenizer.TokenTag()); @@ -518,7 +518,7 @@ TEST(EncodeFromUTF16Test, EncodesAsString16IfNeeded) { std::vector msg = {'H', 'e', 'l', 'l', 'o', ',', ' ', 0xd83c, 0xdf0e, '.'}; std::vector encoded; - EncodeFromUTF16(span(msg.data(), msg.size()), &encoded); + EncodeFromUTF16(msg, &encoded); CBORTokenizer tokenizer(SpanFrom(encoded)); EXPECT_EQ(CBORTokenTag::STRING16, tokenizer.TokenTag()); @@ -535,7 +535,7 @@ TEST(EncodeDecodeBinaryTest, RoundtripsHelloWorld) { std::vector binary = {'H', 'e', 'l', 'l', 'o', ',', ' ', 'w', 'o', 'r', 'l', 'd', '.'}; std::vector encoded; - EncodeBinary(span(binary.data(), binary.size()), &encoded); + EncodeBinary(binary, &encoded); // So, on the wire we see that the binary blob travels unmodified. EXPECT_THAT( encoded, @@ -699,7 +699,7 @@ TEST(JSONToCBOREncoderTest, SevenBitStrings) { Status status; std::unique_ptr encoder = NewCBOREncoder(&encoded, &status); std::vector utf16 = {'f', 'o', 'o'}; - encoder->HandleString16(span(utf16.data(), utf16.size())); + encoder->HandleString16(utf16); EXPECT_THAT(status, StatusIsOk()); // Here we assert that indeed, seven bit strings are represented as // bytes on the wire, "foo" is just "foo". @@ -771,7 +771,7 @@ TEST(JsonCborRoundtrip, EncodingDecoding) { std::string decoded; std::unique_ptr json_encoder = json::NewJSONEncoder(&decoded, &status); - ParseCBOR(span(encoded.data(), encoded.size()), json_encoder.get()); + ParseCBOR(encoded, json_encoder.get()); EXPECT_THAT(status, StatusIsOk()); EXPECT_EQ(json, decoded); } @@ -791,7 +791,7 @@ TEST(JsonCborRoundtrip, MoreRoundtripExamples) { std::string decoded; std::unique_ptr json_writer = json::NewJSONEncoder(&decoded, &status); - ParseCBOR(span(encoded.data(), encoded.size()), json_writer.get()); + ParseCBOR(encoded, json_writer.get()); EXPECT_THAT(status, StatusIsOk()); EXPECT_EQ(json, decoded); } @@ -842,7 +842,7 @@ TEST(ParseCBORTest, ParseEmptyCBORMessage) { Status status; std::unique_ptr json_writer = json::NewJSONEncoder(&out, &status); - ParseCBOR(span(in.data(), in.size()), json_writer.get()); + ParseCBOR(in, json_writer.get()); EXPECT_THAT(status, StatusIsOk()); EXPECT_EQ("{}", out); } @@ -866,7 +866,7 @@ TEST(ParseCBORTest, ParseCBORHelloWorld) { Status status; std::unique_ptr json_writer = json::NewJSONEncoder(&out, &status); - ParseCBOR(span(bytes.data(), bytes.size()), json_writer.get()); + ParseCBOR(bytes, json_writer.get()); EXPECT_THAT(status, StatusIsOk()); EXPECT_EQ("{\"msg\":\"Hello, \\ud83c\\udf0e.\"}", out); } @@ -887,7 +887,7 @@ TEST(ParseCBORTest, UTF8IsSupportedInKeys) { Status status; std::unique_ptr json_writer = json::NewJSONEncoder(&out, &status); - ParseCBOR(span(bytes.data(), bytes.size()), json_writer.get()); + ParseCBOR(bytes, json_writer.get()); EXPECT_THAT(status, StatusIsOk()); EXPECT_EQ("{\"\\ud83c\\udf0e\":\"\\u263e\"}", out); } @@ -898,7 +898,7 @@ TEST(ParseCBORTest, NoInputError) { Status status; std::unique_ptr json_writer = json::NewJSONEncoder(&out, &status); - ParseCBOR(span(in.data(), in.size()), json_writer.get()); + ParseCBOR(in, json_writer.get()); EXPECT_THAT(status, StatusIs(Error::CBOR_UNEXPECTED_EOF_IN_ENVELOPE, 0u)); EXPECT_EQ("", out); } @@ -914,7 +914,7 @@ TEST(ParseCBORTest, UnexpectedEofExpectedValueError) { Status status; std::unique_ptr json_writer = json::NewJSONEncoder(&out, &status); - ParseCBOR(span(bytes.data(), bytes.size()), json_writer.get()); + ParseCBOR(bytes, json_writer.get()); EXPECT_THAT(status, StatusIs(Error::CBOR_UNEXPECTED_EOF_EXPECTED_VALUE, bytes.size())); EXPECT_EQ("", out); @@ -932,7 +932,7 @@ TEST(ParseCBORTest, UnexpectedEofInArrayError) { Status status; std::unique_ptr json_writer = json::NewJSONEncoder(&out, &status); - ParseCBOR(span(bytes.data(), bytes.size()), json_writer.get()); + ParseCBOR(bytes, json_writer.get()); EXPECT_THAT(status, StatusIs(Error::CBOR_UNEXPECTED_EOF_IN_ARRAY, bytes.size())); EXPECT_EQ("", out); @@ -947,7 +947,7 @@ TEST(ParseCBORTest, UnexpectedEofInMapError) { Status status; std::unique_ptr json_writer = json::NewJSONEncoder(&out, &status); - ParseCBOR(span(bytes.data(), bytes.size()), json_writer.get()); + ParseCBOR(bytes, json_writer.get()); EXPECT_THAT(status, StatusIs(Error::CBOR_UNEXPECTED_EOF_IN_MAP, 7u)); EXPECT_EQ("", out); } @@ -963,7 +963,7 @@ TEST(ParseCBORTest, EnvelopeEncodingLegacy) { Status status; std::unique_ptr json_writer = json::NewJSONEncoder(&out, &status); - ParseCBOR(span(bytes.data(), bytes.size()), json_writer.get()); + ParseCBOR(bytes, json_writer.get()); EXPECT_THAT(status, StatusIsOk()); EXPECT_EQ(out, "{\"foo\":42}"); } @@ -980,7 +980,7 @@ TEST(ParseCBORTest, EnvelopeEncodingBySpec) { Status status; std::unique_ptr json_writer = json::NewJSONEncoder(&out, &status); - ParseCBOR(span(bytes.data(), bytes.size()), json_writer.get()); + ParseCBOR(bytes, json_writer.get()); EXPECT_THAT(status, StatusIsOk()); EXPECT_EQ(out, "{\"foo\":42}"); } @@ -991,7 +991,7 @@ TEST(ParseCBORTest, NoEmptyEnvelopesAllowed) { Status status; std::unique_ptr json_writer = json::NewJSONEncoder(&out, &status); - ParseCBOR(span(bytes.data(), bytes.size()), json_writer.get()); + ParseCBOR(bytes, json_writer.get()); EXPECT_THAT(status, StatusIs(Error::CBOR_MAP_OR_ARRAY_EXPECTED_IN_ENVELOPE, bytes.size())); EXPECT_EQ("", out); @@ -1021,7 +1021,7 @@ TEST(ParseCBORTest, OnlyMapsAndArraysSupportedInsideEnvelopes) { Status status; std::unique_ptr json_writer = json::NewJSONEncoder(&out, &status); - ParseCBOR(span(bytes.data(), bytes.size()), json_writer.get()); + ParseCBOR(bytes, json_writer.get()); EXPECT_THAT(status, StatusIs(Error::CBOR_MAP_OR_ARRAY_EXPECTED_IN_ENVELOPE, error_pos)); EXPECT_EQ("", out); @@ -1038,7 +1038,7 @@ TEST(ParseCBORTest, InvalidMapKeyError) { Status status; std::unique_ptr json_writer = json::NewJSONEncoder(&out, &status); - ParseCBOR(span(bytes.data(), bytes.size()), json_writer.get()); + ParseCBOR(bytes, json_writer.get()); EXPECT_THAT(status, StatusIs(Error::CBOR_INVALID_MAP_KEY, 7u)); EXPECT_EQ("", out); } @@ -1068,7 +1068,7 @@ TEST(ParseCBORTest, StackLimitExceededError) { Status status; std::unique_ptr json_writer = json::NewJSONEncoder(&out, &status); - ParseCBOR(span(bytes.data(), bytes.size()), json_writer.get()); + ParseCBOR(bytes, json_writer.get()); EXPECT_THAT(status, StatusIsOk()); EXPECT_EQ("{\"key\":{\"key\":{\"key\":\"innermost_value\"}}}", out); } @@ -1078,7 +1078,7 @@ TEST(ParseCBORTest, StackLimitExceededError) { Status status; std::unique_ptr json_writer = json::NewJSONEncoder(&out, &status); - ParseCBOR(span(bytes.data(), bytes.size()), json_writer.get()); + ParseCBOR(bytes, json_writer.get()); EXPECT_THAT(status, StatusIsOk()); } @@ -1097,7 +1097,7 @@ TEST(ParseCBORTest, StackLimitExceededError) { Status status; std::unique_ptr json_writer = json::NewJSONEncoder(&out, &status); - ParseCBOR(span(bytes.data(), bytes.size()), json_writer.get()); + ParseCBOR(bytes, json_writer.get()); EXPECT_THAT(status, StatusIs(Error::CBOR_STACK_LIMIT_EXCEEDED, opening_segment_size * 301)); } @@ -1107,7 +1107,7 @@ TEST(ParseCBORTest, StackLimitExceededError) { Status status; std::unique_ptr json_writer = json::NewJSONEncoder(&out, &status); - ParseCBOR(span(bytes.data(), bytes.size()), json_writer.get()); + ParseCBOR(bytes, json_writer.get()); EXPECT_THAT(status, StatusIs(Error::CBOR_STACK_LIMIT_EXCEEDED, opening_segment_size * 301)); } @@ -1126,7 +1126,7 @@ TEST(ParseCBORTest, UnsupportedValueError) { Status status; std::unique_ptr json_writer = json::NewJSONEncoder(&out, &status); - ParseCBOR(span(bytes.data(), bytes.size()), json_writer.get()); + ParseCBOR(bytes, json_writer.get()); EXPECT_THAT(status, StatusIs(Error::CBOR_UNSUPPORTED_VALUE, error_pos)); EXPECT_EQ("", out); } @@ -1148,7 +1148,7 @@ TEST(ParseCBORTest, InvalidString16Error) { Status status; std::unique_ptr json_writer = json::NewJSONEncoder(&out, &status); - ParseCBOR(span(bytes.data(), bytes.size()), json_writer.get()); + ParseCBOR(bytes, json_writer.get()); EXPECT_THAT(status, StatusIs(Error::CBOR_INVALID_STRING16, error_pos)); EXPECT_EQ("", out); } @@ -1167,7 +1167,7 @@ TEST(ParseCBORTest, InvalidString8Error) { Status status; std::unique_ptr json_writer = json::NewJSONEncoder(&out, &status); - ParseCBOR(span(bytes.data(), bytes.size()), json_writer.get()); + ParseCBOR(bytes, json_writer.get()); EXPECT_THAT(status, StatusIs(Error::CBOR_INVALID_STRING8, error_pos)); EXPECT_EQ("", out); } @@ -1188,7 +1188,7 @@ TEST(ParseCBORTest, InvalidBinaryError) { Status status; std::unique_ptr json_writer = json::NewJSONEncoder(&out, &status); - ParseCBOR(span(bytes.data(), bytes.size()), json_writer.get()); + ParseCBOR(bytes, json_writer.get()); EXPECT_THAT(status, StatusIs(Error::CBOR_INVALID_BINARY, error_pos)); EXPECT_EQ("", out); } @@ -1208,7 +1208,7 @@ TEST(ParseCBORTest, InvalidDoubleError) { Status status; std::unique_ptr json_writer = json::NewJSONEncoder(&out, &status); - ParseCBOR(span(bytes.data(), bytes.size()), json_writer.get()); + ParseCBOR(bytes, json_writer.get()); EXPECT_THAT(status, StatusIs(Error::CBOR_INVALID_DOUBLE, error_pos)); EXPECT_EQ("", out); } @@ -1228,7 +1228,7 @@ TEST(ParseCBORTest, InvalidSignedError) { Status status; std::unique_ptr json_writer = json::NewJSONEncoder(&out, &status); - ParseCBOR(span(bytes.data(), bytes.size()), json_writer.get()); + ParseCBOR(bytes, json_writer.get()); EXPECT_THAT(status, StatusIs(Error::CBOR_INVALID_INT32, error_pos)); EXPECT_EQ("", out); } @@ -1250,7 +1250,7 @@ TEST(ParseCBORTest, TrailingJunk) { Status status; std::unique_ptr json_writer = json::NewJSONEncoder(&out, &status); - ParseCBOR(span(bytes.data(), bytes.size()), json_writer.get()); + ParseCBOR(bytes, json_writer.get()); EXPECT_THAT(status, StatusIs(Error::CBOR_TRAILING_JUNK, error_pos)); EXPECT_EQ("", out); } @@ -1272,7 +1272,7 @@ TEST(ParseCBORTest, EnvelopeContentsLengthMismatch) { Status status; std::unique_ptr json_writer = json::NewJSONEncoder(&out, &status); - ParseCBOR(span(bytes.data(), bytes.size()), json_writer.get()); + ParseCBOR(bytes, json_writer.get()); EXPECT_THAT(status, StatusIs(Error::CBOR_ENVELOPE_CONTENTS_LENGTH_MISMATCH, bytes.size())); EXPECT_EQ("", out); diff --git a/deps/inspector_protocol/crdtp/json.cc b/deps/inspector_protocol/crdtp/json.cc index 479f9ba51875ab..bc3b8a6d9093c7 100644 --- a/deps/inspector_protocol/crdtp/json.cc +++ b/deps/inspector_protocol/crdtp/json.cc @@ -149,23 +149,31 @@ class JSONEncoder : public ParserHandler { Emit('"'); for (const uint16_t ch : chars) { if (ch == '"') { - Emit('\\'); Emit('"'); + Emit('\\'); + Emit('"'); } else if (ch == '\\') { - Emit('\\'); Emit('\\'); + Emit('\\'); + Emit('\\'); } else if (ch >= 32 && ch <= 127) { Emit(ch); } else if (ch == '\n') { - Emit('\\'); Emit('n'); + Emit('\\'); + Emit('n'); } else if (ch == '\r') { - Emit('\\'); Emit('r'); + Emit('\\'); + Emit('r'); } else if (ch == '\t') { - Emit('\\'); Emit('t'); + Emit('\\'); + Emit('t'); } else if (ch == '\b') { - Emit('\\'); Emit('b'); + Emit('\\'); + Emit('b'); } else if (ch == '\f') { - Emit('\\'); Emit('f'); + Emit('\\'); + Emit('f'); } else { - Emit('\\'); Emit('u'); + Emit('\\'); + Emit('u'); PrintHex(ch, out_); } } @@ -177,26 +185,42 @@ class JSONEncoder : public ParserHandler { return; state_.top().StartElement(out_); Emit('"'); + // Fast path for input strings that can be emitted as-is. + if (std::all_of(chars.begin(), chars.end(), [](uint8_t c) { + return c != '"' && c != '\\' && c >= 32 && c <= 127; + })) { + Emit(chars); + Emit('"'); + return; + } for (size_t ii = 0; ii < chars.size(); ++ii) { uint8_t c = chars[ii]; if (c == '"') { - Emit('\\'); Emit('"'); + Emit('\\'); + Emit('"'); } else if (c == '\\') { - Emit('\\'); Emit('\\'); + Emit('\\'); + Emit('\\'); } else if (c >= 32 && c <= 127) { Emit(c); } else if (c == '\n') { - Emit('\\'); Emit('n'); + Emit('\\'); + Emit('n'); } else if (c == '\r') { - Emit('\\'); Emit('r'); + Emit('\\'); + Emit('r'); } else if (c == '\t') { - Emit('\\'); Emit('t'); + Emit('\\'); + Emit('t'); } else if (c == '\b') { - Emit('\\'); Emit('b'); + Emit('\\'); + Emit('b'); } else if (c == '\f') { - Emit('\\'); Emit('f'); + Emit('\\'); + Emit('f'); } else if (c < 32) { - Emit('\\'); Emit('u'); + Emit('\\'); + Emit('u'); PrintHex(static_cast(c), out_); } else { // Inspect the leading byte to figure out how long the utf8 @@ -330,10 +354,11 @@ class JSONEncoder : public ParserHandler { if (!status_->ok()) return; state_.top().StartElement(out_); - if (value) + if (value) { Emit("true"); - else + } else { Emit("false"); + } } void HandleNull() override { @@ -351,13 +376,16 @@ class JSONEncoder : public ParserHandler { private: inline void Emit(char c) { out_->push_back(c); } - template + template inline void Emit(const char (&str)[N]) { out_->insert(out_->end(), str, str + N - 1); } inline void Emit(const std::string& str) { out_->insert(out_->end(), str.begin(), str.end()); } + inline void Emit(const span& bytes) { + out_->insert(out_->end(), bytes.begin(), bytes.end()); + } C* out_; Status* status_; @@ -882,7 +910,7 @@ class JsonParser { HandleError(Error::JSON_PARSER_INVALID_STRING, token_start); return; } - handler_->HandleString16(span(value.data(), value.size())); + handler_->HandleString16(value); break; } case ArrayBegin: { @@ -929,7 +957,7 @@ class JsonParser { HandleError(Error::JSON_PARSER_INVALID_STRING, token_start); return; } - handler_->HandleString16(span(key.data(), key.size())); + handler_->HandleString16(key); start = token_end; token = ParseToken(start, end, &token_start, &token_end); diff --git a/deps/inspector_protocol/crdtp/json_test.cc b/deps/inspector_protocol/crdtp/json_test.cc index 08f65e48a20147..13566ac8b92f61 100644 --- a/deps/inspector_protocol/crdtp/json_test.cc +++ b/deps/inspector_protocol/crdtp/json_test.cc @@ -90,7 +90,7 @@ TEST(JsonEncoder, EscapesLoneHighSurrogates) { std::string out; Status status; std::unique_ptr writer = NewJSONEncoder(&out, &status); - writer->HandleString16(span(chars.data(), chars.size())); + writer->HandleString16(chars); EXPECT_EQ("\"a\\ud800b\\udadac\\udbffd\"", out); } @@ -103,7 +103,7 @@ TEST(JsonEncoder, EscapesLoneLowSurrogates) { std::string out; Status status; std::unique_ptr writer = NewJSONEncoder(&out, &status); - writer->HandleString16(span(chars.data(), chars.size())); + writer->HandleString16(chars); EXPECT_EQ("\"a\\udc00b\\udedec\\udfffd\"", out); } @@ -114,7 +114,7 @@ TEST(JsonEncoder, EscapesFFFF) { std::string out; Status status; std::unique_ptr writer = NewJSONEncoder(&out, &status); - writer->HandleString16(span(chars.data(), chars.size())); + writer->HandleString16(chars); EXPECT_EQ("\"abc\\uffffd\"", out); } @@ -123,7 +123,7 @@ TEST(JsonEncoder, Passes0x7FString8) { std::string out; Status status; std::unique_ptr writer = NewJSONEncoder(&out, &status); - writer->HandleString8(span(chars.data(), chars.size())); + writer->HandleString8(chars); EXPECT_EQ( "\"a\x7f" "b\"", @@ -135,7 +135,7 @@ TEST(JsonEncoder, Passes0x7FString16) { std::string out; Status status; std::unique_ptr writer = NewJSONEncoder(&out, &status); - writer->HandleString16(span(chars16.data(), chars16.size())); + writer->HandleString16(chars16); EXPECT_EQ( "\"a\x7f" "b\"", @@ -737,8 +737,7 @@ TYPED_TEST(ConvertJSONToCBORTest, RoundTripValidJson16) { '"', ':', '[', '1', ',', '2', ',', '3', ']', '}'}; std::vector cbor; { - Status status = - ConvertJSONToCBOR(span(json16.data(), json16.size()), &cbor); + Status status = ConvertJSONToCBOR(json16, &cbor); EXPECT_THAT(status, StatusIsOk()); } TypeParam roundtrip_json; diff --git a/deps/inspector_protocol/crdtp/protocol_core.cc b/deps/inspector_protocol/crdtp/protocol_core.cc index 69773593ded162..dc483ac5ad0896 100644 --- a/deps/inspector_protocol/crdtp/protocol_core.cc +++ b/deps/inspector_protocol/crdtp/protocol_core.cc @@ -12,7 +12,7 @@ namespace crdtp { DeserializerState::DeserializerState(std::vector bytes) : storage_(new std::vector(std::move(bytes))), - tokenizer_(span(storage_->data(), storage_->size())) {} + tokenizer_(*storage_) {} DeserializerState::DeserializerState(Storage storage, span span) : storage_(std::move(storage)), tokenizer_(span) {} diff --git a/deps/inspector_protocol/crdtp/protocol_core.h b/deps/inspector_protocol/crdtp/protocol_core.h index f8283367773a42..b111746253aaf3 100644 --- a/deps/inspector_protocol/crdtp/protocol_core.h +++ b/deps/inspector_protocol/crdtp/protocol_core.h @@ -219,8 +219,7 @@ struct CRDTP_EXPORT ProtocolTypeTraits { template struct ProtocolTypeTraits> { - static bool Deserialize(DeserializerState* state, - std::optional* value) { + static bool Deserialize(DeserializerState* state, std::optional* value) { T res; if (!ProtocolTypeTraits::Deserialize(state, &res)) return false; @@ -341,9 +340,7 @@ template bool ConvertProtocolValue(const F& from, T* to) { std::vector bytes; ProtocolTypeTraits::Serialize(from, &bytes); - auto deserializer = - DeferredMessage::FromSpan(span(bytes.data(), bytes.size())) - ->MakeDeserializer(); + auto deserializer = DeferredMessage::FromSpan(bytes)->MakeDeserializer(); return ProtocolTypeTraits::Deserialize(&deserializer, to); } diff --git a/deps/inspector_protocol/crdtp/span.h b/deps/inspector_protocol/crdtp/span.h index c2b5b02d9a1832..40471f20aa88a2 100644 --- a/deps/inspector_protocol/crdtp/span.h +++ b/deps/inspector_protocol/crdtp/span.h @@ -7,49 +7,17 @@ #include #include -#include +#include #include +#include #include "export.h" namespace crdtp { -// ============================================================================= -// span - sequence of bytes -// ============================================================================= -// This template is similar to std::span, which will be included in C++20. +// crdtp::span is a std::span which always holds const elements. template -class span { - public: - using index_type = size_t; - - constexpr span() : data_(nullptr), size_(0) {} - constexpr span(const T* data, index_type size) : data_(data), size_(size) {} - - constexpr const T* data() const { return data_; } - - constexpr const T* begin() const { return data_; } - constexpr const T* end() const { return data_ + size_; } - - constexpr const T& operator[](index_type idx) const { return data_[idx]; } - - constexpr span subspan(index_type offset, index_type count) const { - return span(data_ + offset, count); - } - - constexpr span subspan(index_type offset) const { - return span(data_ + offset, size_ - offset); - } - - constexpr bool empty() const { return size_ == 0; } - - constexpr index_type size() const { return size_; } - constexpr index_type size_bytes() const { return size_ * sizeof(T); } - - private: - const T* data_; - index_type size_; -}; +using span = std::span; template constexpr span MakeSpan(const char (&str)[N]) { diff --git a/deps/inspector_protocol/crdtp/span_test.cc b/deps/inspector_protocol/crdtp/span_test.cc index e562f4ea6feed9..2845a3b889fcc3 100644 --- a/deps/inspector_protocol/crdtp/span_test.cc +++ b/deps/inspector_protocol/crdtp/span_test.cc @@ -85,6 +85,12 @@ TEST(SpanFromTest, FromVectorUint8AndUint16) { EXPECT_EQ(bar.size(), bar_span.size()); } +TEST(SpanFromTest, FromVectorImplicit) { + std::vector foo = {'f', 'o', 'o'}; + span foo_span(foo); + EXPECT_EQ(foo.size(), foo_span.size()); +} + TEST(SpanComparisons, ByteWiseLexicographicalOrder) { // Compare the empty span. EXPECT_FALSE(SpanLessThan(span(), span())); diff --git a/deps/inspector_protocol/inspector_protocol.gni b/deps/inspector_protocol/inspector_protocol.gni index 15ffbf923ce3b8..6b278c9fa8ef90 100644 --- a/deps/inspector_protocol/inspector_protocol.gni +++ b/deps/inspector_protocol/inspector_protocol.gni @@ -47,6 +47,7 @@ template("inspector_protocol_generate") { "$inspector_protocol_dir/templates/TypeBuilder_cpp.template", "$inspector_protocol_dir/templates/TypeBuilder_h.template", ] + if (defined(invoker.inputs)) { inputs += invoker.inputs } @@ -61,6 +62,12 @@ template("inspector_protocol_generate") { ] } + outputs = get_path_info(rebase_path(invoker.outputs, ".", invoker.out_dir), + "abspath") + + _stampfile = outputs[0] + depfile = "${invoker.out_dir}/${target_name}.d" + args = [ "--jinja_dir", rebase_path(jinja_dir, root_build_dir), @@ -70,6 +77,10 @@ template("inspector_protocol_generate") { rebase_path(invoker.config_file, root_build_dir), "--inspector_protocol_dir", "$inspector_protocol_dir", + "--depfile", + rebase_path(depfile, root_build_dir), + "--stamp", + rebase_path(_stampfile, root_build_dir), ] if (use_embedder_types) { args += [ @@ -86,8 +97,55 @@ template("inspector_protocol_generate") { } } - outputs = get_path_info(rebase_path(invoker.outputs, ".", invoker.out_dir), - "abspath") + forward_variables_from(invoker, + [ + "visibility", + "deps", + "public_deps", + ]) + } +} + +# This template concatenates multiple protocol files +# into a single (JSON) file. +# +# Inputs +# +# inputs (required) +# Paths to .pdl or .json files with protocol definitions. +# +# output_file (required) +# Path to put the concatenated file in. It must be inside output or +# generated file directory. +# +# inspector_protocol_dir (required) +# Path to the inspector_protocol directory. +# +template("inspector_protocol_concatenate") { + assert(defined(invoker.inputs)) + assert(defined(invoker.output_file)) + assert(defined(invoker.inspector_protocol_dir)) + _inspector_protocol_dir = invoker.inspector_protocol_dir + + action(target_name) { + script = "$_inspector_protocol_dir/concatenate_protocols.py" + + inputs = invoker.inputs + outputs = [] + depfile = "${invoker.output_file}_${target_name}.d" + + args = [ + "--depfile", + rebase_path(depfile, root_build_dir), + "--stamp", + rebase_path(invoker.output_file, root_build_dir), + ] + + inputs += invoker.inputs + args += rebase_path(invoker.inputs, root_build_dir) + + outputs += [invoker.output_file] + args += [rebase_path(invoker.output_file, root_build_dir)] forward_variables_from(invoker, [ diff --git a/deps/inspector_protocol/lib/Values_cpp.template b/deps/inspector_protocol/lib/Values_cpp.template index 0c409295d52ae3..abeee79e5c3a05 100644 --- a/deps/inspector_protocol/lib/Values_cpp.template +++ b/deps/inspector_protocol/lib/Values_cpp.template @@ -300,7 +300,7 @@ namespace { // transcodes to UTF8 if needed. void EncodeString(const String& s, std::vector* out) { if (StringUtil::CharacterCount(s) == 0) { - cbor::EncodeString8(span(nullptr, 0), out); // Empty string. + cbor::EncodeString8(span(), out); // Empty string. } else if (StringUtil::CharactersLatin1(s)) { cbor::EncodeFromLatin1(span(StringUtil::CharactersLatin1(s), StringUtil::CharacterCount(s)), diff --git a/deps/inspector_protocol/pdl.py b/deps/inspector_protocol/pdl.py index 6b448c07443c7e..5b53291fd5b33e 100644 --- a/deps/inspector_protocol/pdl.py +++ b/deps/inspector_protocol/pdl.py @@ -50,7 +50,8 @@ def createItem(d, experimental, deprecated, name=None): return result -def parse(data, file_name, map_binary_to_string=False): +def parse(data, file_name, map_binary_to_string, source_set): + assert source_set is None or isinstance(source_set, set) protocol = collections.OrderedDict() protocol['version'] = collections.OrderedDict() protocol['domains'] = [] @@ -58,6 +59,8 @@ def parse(data, file_name, map_binary_to_string=False): item = None subitems = None nukeDescription = False + if source_set is not None: + source_set.add(file_name) global description lines = data.split('\n') for i in range(0, len(lines)): @@ -86,6 +89,18 @@ def parse(data, file_name, map_binary_to_string=False): protocol['domains'].append(domain) continue + match = re.compile( + r'^include (.*)').match(line) + if match: + included_filename = match.group(1) + if os.path.isabs(included_filename): + raise Exception("Only relative paths are supported in includes") + resolved_path = os.path.normpath(os.path.join(os.path.dirname(file_name), included_filename)) + with open(resolved_path, 'r') as file: + included_data = parse(file.read(), resolved_path, map_binary_to_string, source_set) + protocol['domains'].extend(included_data['domains']) + continue + match = re.compile(r'^ depends on ([^\s]+)').match(line) if match: if 'dependencies' not in domain: @@ -175,7 +190,7 @@ def parse(data, file_name, map_binary_to_string=False): return protocol -def loads(data, file_name, map_binary_to_string=False): +def loads(data, file_name, map_binary_to_string=False, source_set=None): if file_name.endswith(".pdl"): - return parse(data, file_name, map_binary_to_string) + return parse(data, file_name, map_binary_to_string, source_set) return json.loads(data) diff --git a/deps/inspector_protocol/templates/TypeBuilder_h.template b/deps/inspector_protocol/templates/TypeBuilder_h.template index 7c2a696ad0cbe4..33c5d1af5353f7 100644 --- a/deps/inspector_protocol/templates/TypeBuilder_h.template +++ b/deps/inspector_protocol/templates/TypeBuilder_h.template @@ -74,7 +74,7 @@ namespace {{param.name | to_title_case}}Enum { class {{config.protocol.export_macro}} {{type.id}} : public ::{{config.crdtp.namespace}}::ProtocolObject<{{type.id}}>{% if protocol.is_exported(domain.domain, type.id) %}, public API::{{type.id}}{% endif %} { public: - ~{{type.id}}() override { } + ~{{type.id}}() override; // Defined below {% for property in type.properties %} {% set property_type = protocol.resolve_type(property) %} {% set property_name = property.name | to_title_case %} @@ -105,7 +105,7 @@ public: {% else %} {{property_type.raw_return_type}} {{"get" | to_method_case}}{{property_name}}() { return {{property_type.to_raw_type % property_field}}; } {% endif %} - void {{"set" | to_method_case}}{{property_name}}({{property_type.pass_type}} value) { {{property_field}} = {{property_type.to_rvalue % "value"}}; } + void {{"set" | to_method_case}}{{property_name}}({{property_type.pass_type}} value); // Defined below {% endfor %} template @@ -126,18 +126,9 @@ public: {% set property_name = property.name | to_title_case %} {% if property.optional %} - {{type.id}}Builder& {{"set" | to_method_case}}{{property_name}}({{property_type.pass_type}} value) - { - m_result->{{"set" | to_method_case}}{{property_name}}({{property_type.to_rvalue % "value"}}); - return *this; - } + {{type.id}}Builder& {{"set" | to_method_case}}{{property_name}}({{property_type.pass_type}} value); // Defined below {% else %} - {{type.id}}Builder& {{"set" | to_method_case}}{{property_name}}({{property_type.pass_type}} value) - { - static_assert(!(STATE & {{property_name}}Set), "property {{property.name}} should not be set yet"); - m_result->{{"set" | to_method_case}}{{property_name}}({{property_type.to_rvalue % "value"}}); - return castState<{{property_name}}Set>(); - } + {{type.id}}Builder& {{"set" | to_method_case}}{{property_name}}({{property_type.pass_type}} value); // Defined below {% endif %} {% endfor %} @@ -167,14 +158,7 @@ public: private: DECLARE_SERIALIZATION_SUPPORT(); - {{type.id}}() - { - {% for property in type.properties %} - {% if not(property.optional) and "default_value" in protocol.resolve_type(property) %} - m_{{property.name}} = {{protocol.resolve_type(property).default_value}}; - {%endif %} - {% endfor %} - } + {{type.id}}(); // Defined below {% for property in type.properties %} {% if property.optional %} @@ -187,6 +171,51 @@ private: {% endfor %} +// ------------- Type and builder method definitions. +// +// These methods separate from the type declaration because of +// https://github.com/llvm/llvm-project/issues/59966. The DevTools protocol has +// mutually recursive types, so we cannot simply reorder the types. + {% for type in domain.types %} + {% if not protocol.generate_type(domain.domain, type.id) %}{% continue %}{% endif %} + {% if not (type.type == "object") or not ("properties" in type) %}{% continue %}{% endif %} +inline {{type.id}}::~{{type.id}}() = default; + {% for property in type.properties %} + {% set property_type = protocol.resolve_type(property) %} + {% set property_name = property.name | to_title_case %} + {% set property_field = "m_" + property.name %} +inline void {{type.id}}::{{"set" | to_method_case}}{{property_name}}({{property_type.pass_type}} value) { {{property_field}} = {{property_type.to_rvalue % "value"}}; } + {% endfor %} + + {% for property in type.properties %} + {% set property_type = protocol.resolve_type(property) %} + {% set property_name = property.name | to_title_case %} + {% if property.optional %} +template +inline {{type.id}}::{{type.id}}Builder& {{type.id}}::{{type.id}}Builder::{{"set" | to_method_case}}{{property_name}}({{property_type.pass_type}} value) { + m_result->{{"set" | to_method_case}}{{property_name}}({{property_type.to_rvalue % "value"}}); + return *this; +} + {% else %} +template +inline {{type.id}}::{{type.id}}Builder::{{property_name}}Set>& +{{type.id}}::{{type.id}}Builder::{{"set" | to_method_case}}{{property_name}}({{property_type.pass_type}} value) { + static_assert(!(STATE & {{property_name}}Set), "property {{property.name}} should not be set yet"); + m_result->{{"set" | to_method_case}}{{property_name}}({{property_type.to_rvalue % "value"}}); + return castState<{{property_name}}Set>(); +} + {% endif %} + {% endfor %} + +inline {{type.id}}::{{type.id}}() { + {% for property in type.properties %} + {% if not(property.optional) and "default_value" in protocol.resolve_type(property) %} + m_{{property.name}} = {{protocol.resolve_type(property).default_value}}; + {%endif %} + {% endfor %} +} + {% endfor %} + // ------------- Backend interface. class {{config.protocol.export_macro}} Backend { diff --git a/deps/minimatch/README.md b/deps/minimatch/README.md index b928ec96a9530f..91050eecf017ef 100644 --- a/deps/minimatch/README.md +++ b/deps/minimatch/README.md @@ -15,7 +15,7 @@ objects. > you provide to this library in production systems. _Any_ library in JavaScript that deals with matching string -patterns using regular expressions will be subject to +patterns using regular expressions will be subject to [ReDoS](https://owasp.org/www-community/attacks/Regular_expression_Denial_of_Service_-_ReDoS) if the pattern is generated using untrusted input. diff --git a/deps/minimatch/dist/commonjs/ast.d.ts b/deps/minimatch/dist/commonjs/ast.d.ts index 27845ea71fb977..74f2cf9322b975 100644 --- a/deps/minimatch/dist/commonjs/ast.d.ts +++ b/deps/minimatch/dist/commonjs/ast.d.ts @@ -1,4 +1,4 @@ -import { MinimatchOptions, MMRegExp } from './index.js'; +import type { MinimatchOptions, MMRegExp } from './index.js'; export type ExtglobType = '!' | '?' | '+' | '*' | '@'; export declare class AST { #private; @@ -9,7 +9,7 @@ export declare class AST { get hasMagic(): boolean | undefined; toString(): string; push(...parts: (string | AST)[]): void; - toJSON(): any[]; + toJSON(): unknown[]; isStart(): boolean; isEnd(): boolean; copyIn(part: AST | string): void; diff --git a/deps/minimatch/dist/commonjs/ast.d.ts.map b/deps/minimatch/dist/commonjs/ast.d.ts.map index ec7f7898870ff2..8965fd6a99ff91 100644 --- a/deps/minimatch/dist/commonjs/ast.d.ts.map +++ b/deps/minimatch/dist/commonjs/ast.d.ts.map @@ -1 +1 @@ -{"version":3,"file":"ast.d.ts","sourceRoot":"","sources":["../../src/ast.ts"],"names":[],"mappings":"AAGA,OAAO,EAAE,gBAAgB,EAAE,QAAQ,EAAE,MAAM,YAAY,CAAA;AAwCvD,MAAM,MAAM,WAAW,GAAG,GAAG,GAAG,GAAG,GAAG,GAAG,GAAG,GAAG,GAAG,GAAG,CAAA;AA6IrD,qBAAa,GAAG;;IACd,IAAI,EAAE,WAAW,GAAG,IAAI,CAAA;IAexB,EAAE,SAAO;IAET,IAAI,KAAK,IAAI,MAAM,CAElB;gBAgBC,IAAI,EAAE,WAAW,GAAG,IAAI,EACxB,MAAM,CAAC,EAAE,GAAG,EACZ,OAAO,GAAE,gBAAqB;IAahC,IAAI,QAAQ,IAAI,OAAO,GAAG,SAAS,CAUlC;IAGD,QAAQ,IAAI,MAAM;IA+ClB,IAAI,CAAC,GAAG,KAAK,EAAE,CAAC,MAAM,GAAG,GAAG,CAAC,EAAE;IAe/B,MAAM;IAkBN,OAAO,IAAI,OAAO;IAgBlB,KAAK,IAAI,OAAO;IAYhB,MAAM,CAAC,IAAI,EAAE,GAAG,GAAG,MAAM;IAKzB,KAAK,CAAC,MAAM,EAAE,GAAG;IAwQjB,MAAM,CAAC,QAAQ,CAAC,OAAO,EAAE,MAAM,EAAE,OAAO,GAAE,gBAAqB;IAQ/D,WAAW,IAAI,QAAQ,GAAG,MAAM;IA2BhC,IAAI,OAAO,qBAEV;IAuED,cAAc,CACZ,QAAQ,CAAC,EAAE,OAAO,GACjB,CAAC,EAAE,EAAE,MAAM,EAAE,IAAI,EAAE,MAAM,EAAE,QAAQ,EAAE,OAAO,EAAE,KAAK,EAAE,OAAO,CAAC;CA6OjE"} \ No newline at end of file +{"version":3,"file":"ast.d.ts","sourceRoot":"","sources":["../../src/ast.ts"],"names":[],"mappings":"AAGA,OAAO,KAAK,EAAE,gBAAgB,EAAE,QAAQ,EAAE,MAAM,YAAY,CAAA;AAwC5D,MAAM,MAAM,WAAW,GAAG,GAAG,GAAG,GAAG,GAAG,GAAG,GAAG,GAAG,GAAG,GAAG,CAAA;AAgJrD,qBAAa,GAAG;;IACd,IAAI,EAAE,WAAW,GAAG,IAAI,CAAA;IAexB,EAAE,SAAO;IAET,IAAI,KAAK,IAAI,MAAM,CAElB;gBAgBC,IAAI,EAAE,WAAW,GAAG,IAAI,EACxB,MAAM,CAAC,EAAE,GAAG,EACZ,OAAO,GAAE,gBAAqB;IAahC,IAAI,QAAQ,IAAI,OAAO,GAAG,SAAS,CAUlC;IAGD,QAAQ,IAAI,MAAM;IAkDlB,IAAI,CAAC,GAAG,KAAK,EAAE,CAAC,MAAM,GAAG,GAAG,CAAC,EAAE;IAe/B,MAAM;IAkBN,OAAO,IAAI,OAAO;IAgBlB,KAAK,IAAI,OAAO;IAYhB,MAAM,CAAC,IAAI,EAAE,GAAG,GAAG,MAAM;IAKzB,KAAK,CAAC,MAAM,EAAE,GAAG;IAsQjB,MAAM,CAAC,QAAQ,CAAC,OAAO,EAAE,MAAM,EAAE,OAAO,GAAE,gBAAqB;IAQ/D,WAAW,IAAI,QAAQ,GAAG,MAAM;IA2BhC,IAAI,OAAO,qBAEV;IAuED,cAAc,CACZ,QAAQ,CAAC,EAAE,OAAO,GACjB,CAAC,EAAE,EAAE,MAAM,EAAE,IAAI,EAAE,MAAM,EAAE,QAAQ,EAAE,OAAO,EAAE,KAAK,EAAE,OAAO,CAAC;CA6OjE"} \ No newline at end of file diff --git a/deps/minimatch/dist/commonjs/ast.js b/deps/minimatch/dist/commonjs/ast.js index 5e657838e669ce..33df3769f3ca06 100644 --- a/deps/minimatch/dist/commonjs/ast.js +++ b/deps/minimatch/dist/commonjs/ast.js @@ -192,15 +192,14 @@ class AST { } // reconstructs the pattern toString() { - if (this.#toString !== undefined) - return this.#toString; - if (!this.type) { - return (this.#toString = this.#parts.map(p => String(p)).join('')); - } - else { - return (this.#toString = - this.type + '(' + this.#parts.map(p => String(p)).join('|') + ')'); - } + return (this.#toString !== undefined ? this.#toString + : !this.type ? + (this.#toString = this.#parts.map(p => String(p)).join('')) + : (this.#toString = + this.type + + '(' + + this.#parts.map(p => String(p)).join('|') + + ')')); } #fillNegs() { /* c8 ignore start */ @@ -480,7 +479,7 @@ class AST { } #canUsurpType(c) { const m = usurpMap.get(this.type); - return !!(m?.has(c)); + return !!m?.has(c); } #canUsurp(child) { if (!child || diff --git a/deps/minimatch/dist/commonjs/ast.js.map b/deps/minimatch/dist/commonjs/ast.js.map index 6affc8b7f647a8..3498fb2631bc29 100644 --- a/deps/minimatch/dist/commonjs/ast.js.map +++ b/deps/minimatch/dist/commonjs/ast.js.map @@ -1 +1 @@ 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parse a single path portion\n\nimport { parseClass } from './brace-expressions.js'\nimport { MinimatchOptions, MMRegExp } from './index.js'\nimport { unescape } from './unescape.js'\n\n// classes [] are handled by the parseClass method\n// for positive extglobs, we sub-parse the contents, and combine,\n// with the appropriate regexp close.\n// for negative extglobs, we sub-parse the contents, but then\n// have to include the rest of the pattern, then the parent, etc.,\n// as the thing that cannot be because RegExp negative lookaheads\n// are different from globs.\n//\n// So for example:\n// a@(i|w!(x|y)z|j)b => ^a(i|w((!?(x|y)zb).*)z|j)b$\n// 1 2 3 4 5 6 1 2 3 46 5 6\n//\n// Assembling the extglob requires not just the negated patterns themselves,\n// but also anything following the negative patterns up to the boundary\n// of the current pattern, plus anything following in the parent pattern.\n//\n//\n// So, first, we parse the string into an AST of extglobs, without turning\n// anything into regexps yet.\n//\n// ['a', {@ [['i'], ['w', {!['x', 'y']}, 'z'], ['j']]}, 'b']\n//\n// Then, for all the negative extglobs, we append whatever comes after in\n// each parent as their tail\n//\n// ['a', {@ [['i'], ['w', {!['x', 'y'], 'z', 'b'}, 'z'], ['j']]}, 'b']\n//\n// Lastly, we turn each of these pieces into a regexp, and join\n//\n// v----- .* because there's more following,\n// v v otherwise, .+ because it must be\n// v v *something* there.\n// ['^a', {@ ['i', 'w(?:(!?(?:x|y).*zb$).*)z', 'j' ]}, 'b$']\n// copy what follows into here--^^^^^\n// ['^a', '(?:i|w(?:(?!(?:x|y).*zb$).*)z|j)', 'b$']\n// ['^a(?:i|w(?:(?!(?:x|y).*zb$).*)z|j)b$']\n\nexport type ExtglobType = '!' | '?' | '+' | '*' | '@'\nconst types = new Set(['!', '?', '+', '*', '@'])\nconst isExtglobType = (c: string | null): c is ExtglobType =>\n types.has(c as ExtglobType)\nconst isExtglobAST = (c: AST): c is AST & { type: ExtglobType } =>\n isExtglobType(c.type)\n\n// Map of which extglob types can adopt the children of a nested extglob\n//\n// anything but ! can adopt a matching type:\n// +(a|+(b|c)|d) => +(a|b|c|d)\n// *(a|*(b|c)|d) => *(a|b|c|d)\n// @(a|@(b|c)|d) => @(a|b|c|d)\n// ?(a|?(b|c)|d) => ?(a|b|c|d)\n//\n// * can adopt anything, because 0 or repetition is allowed\n// *(a|?(b|c)|d) => *(a|b|c|d)\n// *(a|+(b|c)|d) => *(a|b|c|d)\n// *(a|@(b|c)|d) => *(a|b|c|d)\n//\n// + can adopt @, because 1 or repetition is allowed\n// +(a|@(b|c)|d) => +(a|b|c|d)\n//\n// + and @ CANNOT adopt *, because 0 would be allowed\n// +(a|*(b|c)|d) => would match \"\", on *(b|c)\n// @(a|*(b|c)|d) => would match \"\", on *(b|c)\n//\n// + and @ CANNOT adopt ?, because 0 would be allowed\n// +(a|?(b|c)|d) => would match \"\", on ?(b|c)\n// @(a|?(b|c)|d) => would match \"\", on ?(b|c)\n//\n// ? can adopt @, because 0 or 1 is allowed\n// ?(a|@(b|c)|d) => ?(a|b|c|d)\n//\n// ? and @ CANNOT adopt * or +, because >1 would be allowed\n// ?(a|*(b|c)|d) => would match bbb on *(b|c)\n// @(a|*(b|c)|d) => would match bbb on *(b|c)\n// ?(a|+(b|c)|d) => would match bbb on +(b|c)\n// @(a|+(b|c)|d) => would match bbb on +(b|c)\n//\n// ! CANNOT adopt ! (nothing else can either)\n// !(a|!(b|c)|d) => !(a|b|c|d) would fail to match on b (not not b|c)\n//\n// ! can adopt @\n// !(a|@(b|c)|d) => !(a|b|c|d)\n//\n// ! CANNOT adopt *\n// !(a|*(b|c)|d) => !(a|b|c|d) would match on bbb, not allowed\n//\n// ! CANNOT adopt +\n// !(a|+(b|c)|d) => !(a|b|c|d) would match on bbb, not allowed\n//\n// ! CANNOT adopt ?\n// x!(a|?(b|c)|d) => x!(a|b|c|d) would fail to match \"x\"\nconst adoptionMap = new Map([\n ['!', ['@']],\n ['?', ['?', '@']],\n ['@', ['@']],\n ['*', ['*', '+', '?', '@']],\n ['+', ['+', '@']],\n])\n\n// nested extglobs that can be adopted in, but with the addition of\n// a blank '' element.\nconst adoptionWithSpaceMap = new Map([\n ['!', ['?']],\n ['@', ['?']],\n ['+', ['?', '*']],\n])\n\n// union of the previous two maps\nconst adoptionAnyMap = new Map([\n ['!', ['?', '@']],\n ['?', ['?', '@']],\n ['@', ['?', '@']],\n ['*', ['*', '+', '?', '@']],\n ['+', ['+', '@', '?', '*']],\n])\n\n// Extglobs that can take over their parent if they are the only child\n// the key is parent, value maps child to resulting extglob parent type\n// '@' is omitted because it's a special case. An `@` extglob with a single\n// member can always be usurped by that subpattern.\nconst usurpMap = new Map>([\n ['!', new Map([['!', '@']])],\n [\n '?',\n new Map([\n ['*', '*'],\n ['+', '*'],\n ]),\n ],\n [\n '@',\n new Map([\n ['!', '!'],\n ['?', '?'],\n ['@', '@'],\n ['*', '*'],\n ['+', '+'],\n ]),\n ],\n [\n '+',\n new Map([\n ['?', '*'],\n ['*', '*'],\n ]),\n ],\n])\n\n// Patterns that get prepended to bind to the start of either the\n// entire string, or just a single path portion, to prevent dots\n// and/or traversal patterns, when needed.\n// Exts don't need the ^ or / bit, because the root binds that already.\nconst startNoTraversal = '(?!(?:^|/)\\\\.\\\\.?(?:$|/))'\nconst startNoDot = '(?!\\\\.)'\n\n// characters that indicate a start of pattern needs the \"no dots\" bit,\n// because a dot *might* be matched. ( is not in the list, because in\n// the case of a child extglob, it will handle the prevention itself.\nconst addPatternStart = new Set(['[', '.'])\n// cases where traversal is A-OK, no dot prevention needed\nconst justDots = new Set(['..', '.'])\nconst reSpecials = new Set('().*{}+?[]^$\\\\!')\nconst regExpEscape = (s: string) =>\n s.replace(/[-[\\]{}()*+?.,\\\\^$|#\\s]/g, '\\\\$&')\n\n// any single thing other than /\nconst qmark = '[^/]'\n\n// * => any number of characters\nconst star = qmark + '*?'\n// use + when we need to ensure that *something* matches, because the * is\n// the only thing in the path portion.\nconst starNoEmpty = qmark + '+?'\n\n// remove the \\ chars that we added if we end up doing a nonmagic compare\n// const deslash = (s: string) => s.replace(/\\\\(.)/g, '$1')\n\nlet ID = 0\nexport class AST {\n type: ExtglobType | null\n readonly #root: AST\n\n #hasMagic?: boolean\n #uflag: boolean = false\n #parts: (string | AST)[] = []\n #parent?: AST\n #parentIndex: number\n #negs: AST[]\n #filledNegs: boolean = false\n #options: MinimatchOptions\n #toString?: string\n // set to true if it's an extglob with no children\n // (which really means one child of '')\n #emptyExt: boolean = false\n id = ++ID\n\n get depth(): number {\n return (this.#parent?.depth ?? -1) + 1\n }\n\n [Symbol.for('nodejs.util.inspect.custom')]() {\n return {\n '@@type': 'AST',\n id: this.id,\n type: this.type,\n root: this.#root.id,\n parent: this.#parent?.id,\n depth: this.depth,\n partsLength: this.#parts.length,\n parts: this.#parts,\n }\n }\n\n constructor(\n type: ExtglobType | null,\n parent?: AST,\n options: MinimatchOptions = {},\n ) {\n this.type = type\n // extglobs are inherently magical\n if (type) this.#hasMagic = true\n this.#parent = parent\n this.#root = this.#parent ? this.#parent.#root : this\n this.#options = this.#root === this ? options : this.#root.#options\n this.#negs = this.#root === this ? [] : this.#root.#negs\n if (type === '!' && !this.#root.#filledNegs) this.#negs.push(this)\n this.#parentIndex = this.#parent ? this.#parent.#parts.length : 0\n }\n\n get hasMagic(): boolean | undefined {\n /* c8 ignore start */\n if (this.#hasMagic !== undefined) return this.#hasMagic\n /* c8 ignore stop */\n for (const p of this.#parts) {\n if (typeof p === 'string') continue\n if (p.type || p.hasMagic) return (this.#hasMagic = true)\n }\n // note: will be undefined until we generate the regexp src and find out\n return this.#hasMagic\n }\n\n // reconstructs the pattern\n toString(): string {\n if (this.#toString !== undefined) return this.#toString\n if (!this.type) {\n return (this.#toString = this.#parts.map(p => String(p)).join(''))\n } else {\n return (this.#toString =\n this.type + '(' + this.#parts.map(p => String(p)).join('|') + ')')\n }\n }\n\n #fillNegs() {\n /* c8 ignore start */\n if (this !== this.#root) throw new Error('should only call on root')\n if (this.#filledNegs) return this\n /* c8 ignore stop */\n\n // call toString() once to fill this out\n this.toString()\n this.#filledNegs = true\n let n: AST | undefined\n while ((n = this.#negs.pop())) {\n if (n.type !== '!') continue\n // walk up the tree, appending everthing that comes AFTER parentIndex\n let p: AST | undefined = n\n let pp = p.#parent\n while (pp) {\n for (\n let i = p.#parentIndex + 1;\n !pp.type && i < pp.#parts.length;\n i++\n ) {\n for (const part of n.#parts) {\n /* c8 ignore start */\n if (typeof part === 'string') {\n throw new Error('string part in extglob AST??')\n }\n /* c8 ignore stop */\n part.copyIn(pp.#parts[i])\n }\n }\n p = pp\n pp = p.#parent\n }\n }\n return this\n }\n\n push(...parts: (string | AST)[]) {\n for (const p of parts) {\n if (p === '') continue\n /* c8 ignore start */\n if (\n typeof p !== 'string' &&\n !(p instanceof AST && p.#parent === this)\n ) {\n throw new Error('invalid part: ' + p)\n }\n /* c8 ignore stop */\n this.#parts.push(p)\n }\n }\n\n toJSON() {\n const ret: any[] =\n this.type === null ?\n this.#parts\n .slice()\n .map(p => (typeof p === 'string' ? p : p.toJSON()))\n : [this.type, ...this.#parts.map(p => (p as AST).toJSON())]\n if (this.isStart() && !this.type) ret.unshift([])\n if (\n this.isEnd() &&\n (this === this.#root ||\n (this.#root.#filledNegs && this.#parent?.type === '!'))\n ) {\n ret.push({})\n }\n return ret\n }\n\n isStart(): boolean {\n if (this.#root === this) return true\n // if (this.type) return !!this.#parent?.isStart()\n if (!this.#parent?.isStart()) return false\n if (this.#parentIndex === 0) return true\n // if everything AHEAD of this is a negation, then it's still the \"start\"\n const p = this.#parent\n for (let i = 0; i < this.#parentIndex; i++) {\n const pp = p.#parts[i]\n if (!(pp instanceof AST && pp.type === '!')) {\n return false\n }\n }\n return true\n }\n\n isEnd(): boolean {\n if (this.#root === this) return true\n if (this.#parent?.type === '!') return true\n if (!this.#parent?.isEnd()) return false\n if (!this.type) return this.#parent?.isEnd()\n // if not root, it'll always have a parent\n /* c8 ignore start */\n const pl = this.#parent ? this.#parent.#parts.length : 0\n /* c8 ignore stop */\n return this.#parentIndex === pl - 1\n }\n\n copyIn(part: AST | string) {\n if (typeof part === 'string') this.push(part)\n else this.push(part.clone(this))\n }\n\n clone(parent: AST) {\n const c = new AST(this.type, parent)\n for (const p of this.#parts) {\n c.copyIn(p)\n }\n return c\n }\n\n static #parseAST(\n str: string,\n ast: AST,\n pos: number,\n opt: MinimatchOptions,\n extDepth: number,\n ): number {\n const maxDepth = opt.maxExtglobRecursion ?? 2\n let escaping = false\n let inBrace = false\n let braceStart = -1\n let braceNeg = false\n if (ast.type === null) {\n // outside of a extglob, append until we find a start\n let i = pos\n let acc = ''\n while (i < str.length) {\n const c = str.charAt(i++)\n // still accumulate escapes at this point, but we do ignore\n // starts that are escaped\n if (escaping || c === '\\\\') {\n escaping = !escaping\n acc += c\n continue\n }\n\n if (inBrace) {\n if (i === braceStart + 1) {\n if (c === '^' || c === '!') {\n braceNeg = true\n }\n } else if (c === ']' && !(i === braceStart + 2 && braceNeg)) {\n inBrace = false\n }\n acc += c\n continue\n } else if (c === '[') {\n inBrace = true\n braceStart = i\n braceNeg = false\n acc += c\n continue\n }\n\n // we don't have to check for adoption here, because that's\n // done at the other recursion point.\n const doRecurse =\n !opt.noext &&\n isExtglobType(c) &&\n str.charAt(i) === '(' &&\n extDepth <= maxDepth\n if (doRecurse) {\n ast.push(acc)\n acc = ''\n const ext = new AST(c, ast)\n i = AST.#parseAST(str, ext, i, opt, extDepth + 1)\n ast.push(ext)\n continue\n }\n acc += c\n }\n ast.push(acc)\n return i\n }\n\n // some kind of extglob, pos is at the (\n // find the next | or )\n let i = pos + 1\n let part = new AST(null, ast)\n const parts: AST[] = []\n let acc = ''\n while (i < str.length) {\n const c = str.charAt(i++)\n // still accumulate escapes at this point, but we do ignore\n // starts that are escaped\n if (escaping || c === '\\\\') {\n escaping = !escaping\n acc += c\n continue\n }\n\n if (inBrace) {\n if (i === braceStart + 1) {\n if (c === '^' || c === '!') {\n braceNeg = true\n }\n } else if (c === ']' && !(i === braceStart + 2 && braceNeg)) {\n inBrace = false\n }\n acc += c\n continue\n } else if (c === '[') {\n inBrace = true\n braceStart = i\n braceNeg = false\n acc += c\n continue\n }\n\n const doRecurse =\n !opt.noext &&\n isExtglobType(c) &&\n str.charAt(i) === '(' &&\n /* c8 ignore start - the maxDepth is sufficient here */\n (extDepth <= maxDepth || (ast && ast.#canAdoptType(c)))\n /* c8 ignore stop */\n if (doRecurse) {\n const depthAdd = ast && ast.#canAdoptType(c) ? 0 : 1\n part.push(acc)\n acc = ''\n const ext = new AST(c, part)\n part.push(ext)\n i = AST.#parseAST(str, ext, i, opt, extDepth + depthAdd)\n continue\n }\n if (c === '|') {\n part.push(acc)\n acc = ''\n parts.push(part)\n part = new AST(null, ast)\n continue\n }\n if (c === ')') {\n if (acc === '' && ast.#parts.length === 0) {\n ast.#emptyExt = true\n }\n part.push(acc)\n acc = ''\n ast.push(...parts, part)\n return i\n }\n acc += c\n }\n\n // unfinished extglob\n // if we got here, it was a malformed extglob! not an extglob, but\n // maybe something else in there.\n ast.type = null\n ast.#hasMagic = undefined\n ast.#parts = [str.substring(pos - 1)]\n return i\n }\n\n #canAdoptWithSpace(child?: AST | string): child is AST & {\n type: null\n parts: [AST & { type: ExtglobType }]\n } {\n return this.#canAdopt(child, adoptionWithSpaceMap)\n }\n\n #canAdopt(\n child?: AST | string,\n map: Map = adoptionMap,\n ): child is AST & {\n type: null\n parts: [AST & { type: ExtglobType }]\n } {\n if (\n !child ||\n typeof child !== 'object' ||\n child.type !== null ||\n child.#parts.length !== 1 ||\n this.type === null\n ) {\n return false\n }\n const gc = child.#parts[0]\n if (!gc || typeof gc !== 'object' || gc.type === null) {\n return false\n }\n return (this as AST & { type: ExtglobType }).#canAdoptType(\n gc.type,\n map,\n )\n }\n #canAdoptType(\n c: string,\n map: Map = adoptionAnyMap,\n ): c is ExtglobType {\n return !!map.get(this.type as ExtglobType)?.includes(c as ExtglobType)\n }\n\n #adoptWithSpace(\n this: AST & { type: ExtglobType },\n child: AST & {\n type: null\n },\n index: number,\n ) {\n const gc = child.#parts[0] as AST & { type: ExtglobType }\n const blank = new AST(null, gc, this.options)\n blank.#parts.push('')\n gc.push(blank)\n this.#adopt(child, index)\n }\n\n #adopt(\n child: AST & {\n type: null\n },\n index: number,\n ) {\n const gc = child.#parts[0] as AST & { type: ExtglobType }\n this.#parts.splice(index, 1, ...gc.#parts)\n for (const p of gc.#parts) {\n if (typeof p === 'object') p.#parent = this\n }\n this.#toString = undefined\n }\n\n #canUsurpType(c: string): boolean {\n const m = usurpMap.get(this.type as ExtglobType)\n return !!(m?.has(c as ExtglobType))\n }\n\n #canUsurp (\n child?: AST | string,\n ): child is AST & {\n type: null\n parts: [AST & { type: ExtglobType }]\n } {\n if (\n !child ||\n typeof child !== 'object' ||\n child.type !== null ||\n child.#parts.length !== 1 ||\n this.type === null ||\n this.#parts.length !== 1\n ) {\n return false\n }\n const gc = child.#parts[0]\n if (!gc || typeof gc !== 'object' || gc.type === null) {\n return false\n }\n return (this as AST & { type: ExtglobType }).#canUsurpType(gc.type)\n }\n\n #usurp(this: AST & { type: ExtglobType }, child: AST & { type: null }) {\n const m = usurpMap.get(this.type as ExtglobType)\n const gc = child.#parts[0] as AST & { type: ExtglobType }\n const nt = m?.get(gc.type)\n /* c8 ignore start - impossible */\n if (!nt) return false\n /* c8 ignore stop */\n this.#parts = gc.#parts\n for (const p of this.#parts) {\n if (typeof p === 'object') {\n p.#parent = this\n }\n }\n this.type = nt\n this.#toString = undefined\n this.#emptyExt = false\n }\n\n static fromGlob(pattern: string, options: MinimatchOptions = {}) {\n const ast = new AST(null, undefined, options)\n AST.#parseAST(pattern, ast, 0, options, 0)\n return ast\n }\n\n // returns the regular expression if there's magic, or the unescaped\n // string if not.\n toMMPattern(): MMRegExp | string {\n // should only be called on root\n /* c8 ignore start */\n if (this !== this.#root) return this.#root.toMMPattern()\n /* c8 ignore stop */\n const glob = this.toString()\n const [re, body, hasMagic, uflag] = this.toRegExpSource()\n // if we're in nocase mode, and not nocaseMagicOnly, then we do\n // still need a regular expression if we have to case-insensitively\n // match capital/lowercase characters.\n const anyMagic =\n hasMagic ||\n this.#hasMagic ||\n (this.#options.nocase &&\n !this.#options.nocaseMagicOnly &&\n glob.toUpperCase() !== glob.toLowerCase())\n if (!anyMagic) {\n return body\n }\n\n const flags = (this.#options.nocase ? 'i' : '') + (uflag ? 'u' : '')\n return Object.assign(new RegExp(`^${re}$`, flags), {\n _src: re,\n _glob: glob,\n })\n }\n\n get options() {\n return this.#options\n }\n\n // returns the string match, the regexp source, whether there's magic\n // in the regexp (so a regular expression is required) and whether or\n // not the uflag is needed for the regular expression (for posix classes)\n // TODO: instead of injecting the start/end at this point, just return\n // the BODY of the regexp, along with the start/end portions suitable\n // for binding the start/end in either a joined full-path makeRe context\n // (where we bind to (^|/), or a standalone matchPart context (where\n // we bind to ^, and not /). Otherwise slashes get duped!\n //\n // In part-matching mode, the start is:\n // - if not isStart: nothing\n // - if traversal possible, but not allowed: ^(?!\\.\\.?$)\n // - if dots allowed or not possible: ^\n // - if dots possible and not allowed: ^(?!\\.)\n // end is:\n // - if not isEnd(): nothing\n // - else: $\n //\n // In full-path matching mode, we put the slash at the START of the\n // pattern, so start is:\n // - if first pattern: same as part-matching mode\n // - if not isStart(): nothing\n // - if traversal possible, but not allowed: /(?!\\.\\.?(?:$|/))\n // - if dots allowed or not possible: /\n // - if dots possible and not allowed: /(?!\\.)\n // end is:\n // - if last pattern, same as part-matching mode\n // - else nothing\n //\n // Always put the (?:$|/) on negated tails, though, because that has to be\n // there to bind the end of the negated pattern portion, and it's easier to\n // just stick it in now rather than try to inject it later in the middle of\n // the pattern.\n //\n // We can just always return the same end, and leave it up to the caller\n // to know whether it's going to be used joined or in parts.\n // And, if the start is adjusted slightly, can do the same there:\n // - if not isStart: nothing\n // - if traversal possible, but not allowed: (?:/|^)(?!\\.\\.?$)\n // - if dots allowed or not possible: (?:/|^)\n // - if dots possible and not allowed: (?:/|^)(?!\\.)\n //\n // But it's better to have a simpler binding without a conditional, for\n // performance, so probably better to return both start options.\n //\n // Then the caller just ignores the end if it's not the first pattern,\n // and the start always gets applied.\n //\n // But that's always going to be $ if it's the ending pattern, or nothing,\n // so the caller can just attach $ at the end of the pattern when building.\n //\n // So the todo is:\n // - better detect what kind of start is needed\n // - return both flavors of starting pattern\n // - attach $ at the end of the pattern when creating the actual RegExp\n //\n // Ah, but wait, no, that all only applies to the root when the first pattern\n // is not an extglob. If the first pattern IS an extglob, then we need all\n // that dot prevention biz to live in the extglob portions, because eg\n // +(*|.x*) can match .xy but not .yx.\n //\n // So, return the two flavors if it's #root and the first child is not an\n // AST, otherwise leave it to the child AST to handle it, and there,\n // use the (?:^|/) style of start binding.\n //\n // Even simplified further:\n // - Since the start for a join is eg /(?!\\.) and the start for a part\n // is ^(?!\\.), we can just prepend (?!\\.) to the pattern (either root\n // or start or whatever) and prepend ^ or / at the Regexp construction.\n toRegExpSource(\n allowDot?: boolean,\n ): [re: string, body: string, hasMagic: boolean, uflag: boolean] {\n const dot = allowDot ?? !!this.#options.dot\n if (this.#root === this) {\n this.#flatten()\n this.#fillNegs()\n }\n if (!isExtglobAST(this)) {\n const noEmpty =\n this.isStart() &&\n this.isEnd() &&\n !this.#parts.some(s => typeof s !== 'string')\n const src = this.#parts\n .map(p => {\n const [re, _, hasMagic, uflag] =\n typeof p === 'string' ?\n AST.#parseGlob(p, this.#hasMagic, noEmpty)\n : p.toRegExpSource(allowDot)\n this.#hasMagic = this.#hasMagic || hasMagic\n this.#uflag = this.#uflag || uflag\n return re\n })\n .join('')\n\n let start = ''\n if (this.isStart()) {\n if (typeof this.#parts[0] === 'string') {\n // this is the string that will match the start of the pattern,\n // so we need to protect against dots and such.\n\n // '.' and '..' cannot match unless the pattern is that exactly,\n // even if it starts with . or dot:true is set.\n const dotTravAllowed =\n this.#parts.length === 1 && justDots.has(this.#parts[0])\n if (!dotTravAllowed) {\n const aps = addPatternStart\n // check if we have a possibility of matching . or ..,\n // and prevent that.\n const needNoTrav =\n // dots are allowed, and the pattern starts with [ or .\n (dot && aps.has(src.charAt(0))) ||\n // the pattern starts with \\., and then [ or .\n (src.startsWith('\\\\.') && aps.has(src.charAt(2))) ||\n // the pattern starts with \\.\\., and then [ or .\n (src.startsWith('\\\\.\\\\.') && aps.has(src.charAt(4)))\n // no need to prevent dots if it can't match a dot, or if a\n // sub-pattern will be preventing it anyway.\n const needNoDot = !dot && !allowDot && aps.has(src.charAt(0))\n\n start =\n needNoTrav ? startNoTraversal\n : needNoDot ? startNoDot\n : ''\n }\n }\n }\n\n // append the \"end of path portion\" pattern to negation tails\n let end = ''\n if (\n this.isEnd() &&\n this.#root.#filledNegs &&\n this.#parent?.type === '!'\n ) {\n end = '(?:$|\\\\/)'\n }\n const final = start + src + end\n return [\n final,\n unescape(src),\n (this.#hasMagic = !!this.#hasMagic),\n this.#uflag,\n ]\n }\n\n // We need to calculate the body *twice* if it's a repeat pattern\n // at the start, once in nodot mode, then again in dot mode, so a\n // pattern like *(?) can match 'x.y'\n\n const repeated = this.type === '*' || this.type === '+'\n // some kind of extglob\n const start = this.type === '!' ? 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')'\n : this.type === '?' ? ')?'\n : this.type === '+' && bodyDotAllowed ? ')'\n : this.type === '*' && bodyDotAllowed ? `)?`\n : `)${this.type}`\n final = start + body + close\n }\n return [\n final,\n unescape(body),\n (this.#hasMagic = !!this.#hasMagic),\n this.#uflag,\n ]\n }\n\n #flatten() {\n if (!isExtglobAST(this)) {\n for (const p of this.#parts) {\n if (typeof p === 'object') {\n p.#flatten()\n }\n }\n } else {\n // do up to 10 passes to flatten as much as possible\n let iterations = 0\n let done = false\n do {\n done = true\n for (let i = 0; i < this.#parts.length; i++) {\n const c = this.#parts[i]\n if (typeof c === 'object') {\n c.#flatten()\n if (this.#canAdopt(c)) {\n done = false\n this.#adopt(c, i)\n } else if (this.#canAdoptWithSpace(c)) {\n done = false\n this.#adoptWithSpace(c, i)\n } else if (this.#canUsurp(c)) {\n done = false\n this.#usurp(c)\n }\n }\n }\n } while (!done && ++iterations < 10)\n }\n this.#toString = undefined\n }\n\n #partsToRegExp(this: AST & { type: ExtglobType }, dot: boolean) {\n return this.#parts\n .map(p => {\n // extglob ASTs should only contain parent ASTs\n /* c8 ignore start */\n if (typeof p === 'string') {\n throw new Error('string type in extglob ast??')\n }\n /* c8 ignore stop */\n // can ignore hasMagic, because extglobs are already always magic\n const [re, _, _hasMagic, uflag] = p.toRegExpSource(dot)\n this.#uflag = this.#uflag || uflag\n return re\n })\n .filter(p => !(this.isStart() && this.isEnd()) || !!p)\n .join('|')\n }\n\n static #parseGlob(\n glob: string,\n hasMagic: boolean | undefined,\n noEmpty: boolean = false,\n ): [re: string, body: string, hasMagic: boolean, uflag: boolean] {\n let escaping = false\n let re = ''\n let uflag = false\n // multiple stars that aren't globstars coalesce into one *\n let inStar = false\n for (let i = 0; i < glob.length; i++) {\n const c = glob.charAt(i)\n if (escaping) {\n escaping = false\n re += (reSpecials.has(c) ? '\\\\' : '') + c\n continue\n }\n if (c === '*') {\n if (inStar) continue\n inStar = true\n re += noEmpty && /^[*]+$/.test(glob) ? starNoEmpty : star\n hasMagic = true\n continue\n } else {\n inStar = false\n }\n if (c === '\\\\') {\n if (i === glob.length - 1) {\n re += '\\\\\\\\'\n } else {\n escaping = true\n }\n continue\n }\n if (c === '[') {\n const [src, needUflag, consumed, magic] = parseClass(glob, i)\n if (consumed) {\n re += src\n uflag = uflag || needUflag\n i += consumed - 1\n hasMagic = hasMagic || magic\n continue\n }\n }\n if (c === '?') {\n re += qmark\n hasMagic = true\n continue\n }\n re += regExpEscape(c)\n }\n return [re, unescape(glob), !!hasMagic, uflag]\n }\n}\n"]} \ No newline at end of file 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parse a single path portion\n\nimport { parseClass } from './brace-expressions.js'\nimport type { MinimatchOptions, MMRegExp } from './index.js'\nimport { unescape } from './unescape.js'\n\n// classes [] are handled by the parseClass method\n// for positive extglobs, we sub-parse the contents, and combine,\n// with the appropriate regexp close.\n// for negative extglobs, we sub-parse the contents, but then\n// have to include the rest of the pattern, then the parent, etc.,\n// as the thing that cannot be because RegExp negative lookaheads\n// are different from globs.\n//\n// So for example:\n// a@(i|w!(x|y)z|j)b => ^a(i|w((!?(x|y)zb).*)z|j)b$\n// 1 2 3 4 5 6 1 2 3 46 5 6\n//\n// Assembling the extglob requires not just the negated patterns themselves,\n// but also anything following the negative patterns up to the boundary\n// of the current pattern, plus anything following in the parent pattern.\n//\n//\n// So, first, we parse the string into an AST of extglobs, without turning\n// anything into regexps yet.\n//\n// ['a', {@ [['i'], ['w', {!['x', 'y']}, 'z'], ['j']]}, 'b']\n//\n// Then, for all the negative extglobs, we append whatever comes after in\n// each parent as their tail\n//\n// ['a', {@ [['i'], ['w', {!['x', 'y'], 'z', 'b'}, 'z'], ['j']]}, 'b']\n//\n// Lastly, we turn each of these pieces into a regexp, and join\n//\n// v----- .* because there's more following,\n// v v otherwise, .+ because it must be\n// v v *something* there.\n// ['^a', {@ ['i', 'w(?:(!?(?:x|y).*zb$).*)z', 'j' ]}, 'b$']\n// copy what follows into here--^^^^^\n// ['^a', '(?:i|w(?:(?!(?:x|y).*zb$).*)z|j)', 'b$']\n// ['^a(?:i|w(?:(?!(?:x|y).*zb$).*)z|j)b$']\n\nexport type ExtglobType = '!' | '?' | '+' | '*' | '@'\nconst types = new Set(['!', '?', '+', '*', '@'])\nconst isExtglobType = (c: string | null): c is ExtglobType =>\n types.has(c as ExtglobType)\nconst isExtglobAST = (c: AST): c is AST & { type: ExtglobType } =>\n isExtglobType(c.type)\n\n// Map of which extglob types can adopt the children of a nested extglob\n//\n// anything but ! can adopt a matching type:\n// +(a|+(b|c)|d) => +(a|b|c|d)\n// *(a|*(b|c)|d) => *(a|b|c|d)\n// @(a|@(b|c)|d) => @(a|b|c|d)\n// ?(a|?(b|c)|d) => ?(a|b|c|d)\n//\n// * can adopt anything, because 0 or repetition is allowed\n// *(a|?(b|c)|d) => *(a|b|c|d)\n// *(a|+(b|c)|d) => *(a|b|c|d)\n// *(a|@(b|c)|d) => *(a|b|c|d)\n//\n// + can adopt @, because 1 or repetition is allowed\n// +(a|@(b|c)|d) => +(a|b|c|d)\n//\n// + and @ CANNOT adopt *, because 0 would be allowed\n// +(a|*(b|c)|d) => would match \"\", on *(b|c)\n// @(a|*(b|c)|d) => would match \"\", on *(b|c)\n//\n// + and @ CANNOT adopt ?, because 0 would be allowed\n// +(a|?(b|c)|d) => would match \"\", on ?(b|c)\n// @(a|?(b|c)|d) => would match \"\", on ?(b|c)\n//\n// ? can adopt @, because 0 or 1 is allowed\n// ?(a|@(b|c)|d) => ?(a|b|c|d)\n//\n// ? and @ CANNOT adopt * or +, because >1 would be allowed\n// ?(a|*(b|c)|d) => would match bbb on *(b|c)\n// @(a|*(b|c)|d) => would match bbb on *(b|c)\n// ?(a|+(b|c)|d) => would match bbb on +(b|c)\n// @(a|+(b|c)|d) => would match bbb on +(b|c)\n//\n// ! CANNOT adopt ! (nothing else can either)\n// !(a|!(b|c)|d) => !(a|b|c|d) would fail to match on b (not not b|c)\n//\n// ! can adopt @\n// !(a|@(b|c)|d) => !(a|b|c|d)\n//\n// ! CANNOT adopt *\n// !(a|*(b|c)|d) => !(a|b|c|d) would match on bbb, not allowed\n//\n// ! CANNOT adopt +\n// !(a|+(b|c)|d) => !(a|b|c|d) would match on bbb, not allowed\n//\n// ! CANNOT adopt ?\n// x!(a|?(b|c)|d) => x!(a|b|c|d) would fail to match \"x\"\nconst adoptionMap = new Map([\n ['!', ['@']],\n ['?', ['?', '@']],\n ['@', ['@']],\n ['*', ['*', '+', '?', '@']],\n ['+', ['+', '@']],\n])\n\n// nested extglobs that can be adopted in, but with the addition of\n// a blank '' element.\nconst adoptionWithSpaceMap = new Map([\n ['!', ['?']],\n ['@', ['?']],\n ['+', ['?', '*']],\n])\n\n// union of the previous two maps\nconst adoptionAnyMap = new Map([\n ['!', ['?', '@']],\n ['?', ['?', '@']],\n ['@', ['?', '@']],\n ['*', ['*', '+', '?', '@']],\n ['+', ['+', '@', '?', '*']],\n])\n\n// Extglobs that can take over their parent if they are the only child\n// the key is parent, value maps child to resulting extglob parent type\n// '@' is omitted because it's a special case. An `@` extglob with a single\n// member can always be usurped by that subpattern.\nconst usurpMap = new Map<\n ExtglobType,\n Map\n>([\n ['!', new Map([['!', '@']])],\n [\n '?',\n new Map([\n ['*', '*'],\n ['+', '*'],\n ]),\n ],\n [\n '@',\n new Map([\n ['!', '!'],\n ['?', '?'],\n ['@', '@'],\n ['*', '*'],\n ['+', '+'],\n ]),\n ],\n [\n '+',\n new Map([\n ['?', '*'],\n ['*', '*'],\n ]),\n ],\n])\n\n// Patterns that get prepended to bind to the start of either the\n// entire string, or just a single path portion, to prevent dots\n// and/or traversal patterns, when needed.\n// Exts don't need the ^ or / bit, because the root binds that already.\nconst startNoTraversal = '(?!(?:^|/)\\\\.\\\\.?(?:$|/))'\nconst startNoDot = '(?!\\\\.)'\n\n// characters that indicate a start of pattern needs the \"no dots\" bit,\n// because a dot *might* be matched. ( is not in the list, because in\n// the case of a child extglob, it will handle the prevention itself.\nconst addPatternStart = new Set(['[', '.'])\n// cases where traversal is A-OK, no dot prevention needed\nconst justDots = new Set(['..', '.'])\nconst reSpecials = new Set('().*{}+?[]^$\\\\!')\nconst regExpEscape = (s: string) =>\n s.replace(/[-[\\]{}()*+?.,\\\\^$|#\\s]/g, '\\\\$&')\n\n// any single thing other than /\nconst qmark = '[^/]'\n\n// * => any number of characters\nconst star = qmark + '*?'\n// use + when we need to ensure that *something* matches, because the * is\n// the only thing in the path portion.\nconst starNoEmpty = qmark + '+?'\n\n// remove the \\ chars that we added if we end up doing a nonmagic compare\n// const deslash = (s: string) => s.replace(/\\\\(.)/g, '$1')\n\nlet ID = 0\nexport class AST {\n type: ExtglobType | null\n readonly #root: AST\n\n #hasMagic?: boolean\n #uflag: boolean = false\n #parts: (string | AST)[] = []\n #parent?: AST\n #parentIndex: number\n #negs: AST[]\n #filledNegs: boolean = false\n #options: MinimatchOptions\n #toString?: string\n // set to true if it's an extglob with no children\n // (which really means one child of '')\n #emptyExt: boolean = false\n id = ++ID\n\n get depth(): number {\n return (this.#parent?.depth ?? -1) + 1\n }\n\n [Symbol.for('nodejs.util.inspect.custom')]() {\n return {\n '@@type': 'AST',\n id: this.id,\n type: this.type,\n root: this.#root.id,\n parent: this.#parent?.id,\n depth: this.depth,\n partsLength: this.#parts.length,\n parts: this.#parts,\n }\n }\n\n constructor(\n type: ExtglobType | null,\n parent?: AST,\n options: MinimatchOptions = {},\n ) {\n this.type = type\n // extglobs are inherently magical\n if (type) this.#hasMagic = true\n this.#parent = parent\n this.#root = this.#parent ? this.#parent.#root : this\n this.#options = this.#root === this ? options : this.#root.#options\n this.#negs = this.#root === this ? [] : this.#root.#negs\n if (type === '!' && !this.#root.#filledNegs) this.#negs.push(this)\n this.#parentIndex = this.#parent ? this.#parent.#parts.length : 0\n }\n\n get hasMagic(): boolean | undefined {\n /* c8 ignore start */\n if (this.#hasMagic !== undefined) return this.#hasMagic\n /* c8 ignore stop */\n for (const p of this.#parts) {\n if (typeof p === 'string') continue\n if (p.type || p.hasMagic) return (this.#hasMagic = true)\n }\n // note: will be undefined until we generate the regexp src and find out\n return this.#hasMagic\n }\n\n // reconstructs the pattern\n toString(): string {\n return (\n this.#toString !== undefined ? this.#toString\n : !this.type ?\n (this.#toString = this.#parts.map(p => String(p)).join(''))\n : (this.#toString =\n this.type +\n '(' +\n this.#parts.map(p => String(p)).join('|') +\n ')')\n )\n }\n\n #fillNegs() {\n /* c8 ignore start */\n if (this !== this.#root) throw new Error('should only call on root')\n if (this.#filledNegs) return this\n /* c8 ignore stop */\n\n // call toString() once to fill this out\n this.toString()\n this.#filledNegs = true\n let n: AST | undefined\n while ((n = this.#negs.pop())) {\n if (n.type !== '!') continue\n // walk up the tree, appending everthing that comes AFTER parentIndex\n let p: AST | undefined = n\n let pp = p.#parent\n while (pp) {\n for (\n let i = p.#parentIndex + 1;\n !pp.type && i < pp.#parts.length;\n i++\n ) {\n for (const part of n.#parts) {\n /* c8 ignore start */\n if (typeof part === 'string') {\n throw new Error('string part in extglob AST??')\n }\n /* c8 ignore stop */\n part.copyIn(pp.#parts[i])\n }\n }\n p = pp\n pp = p.#parent\n }\n }\n return this\n }\n\n push(...parts: (string | AST)[]) {\n for (const p of parts) {\n if (p === '') continue\n /* c8 ignore start */\n if (\n typeof p !== 'string' &&\n !(p instanceof AST && p.#parent === this)\n ) {\n throw new Error('invalid part: ' + p)\n }\n /* c8 ignore stop */\n this.#parts.push(p)\n }\n }\n\n toJSON() {\n const ret: unknown[] =\n this.type === null ?\n this.#parts\n .slice()\n .map(p => (typeof p === 'string' ? p : p.toJSON()))\n : [this.type, ...this.#parts.map(p => (p as AST).toJSON())]\n if (this.isStart() && !this.type) ret.unshift([])\n if (\n this.isEnd() &&\n (this === this.#root ||\n (this.#root.#filledNegs && this.#parent?.type === '!'))\n ) {\n ret.push({})\n }\n return ret\n }\n\n isStart(): boolean {\n if (this.#root === this) return true\n // if (this.type) return !!this.#parent?.isStart()\n if (!this.#parent?.isStart()) return false\n if (this.#parentIndex === 0) return true\n // if everything AHEAD of this is a negation, then it's still the \"start\"\n const p = this.#parent\n for (let i = 0; i < this.#parentIndex; i++) {\n const pp = p.#parts[i]\n if (!(pp instanceof AST && pp.type === '!')) {\n return false\n }\n }\n return true\n }\n\n isEnd(): boolean {\n if (this.#root === this) return true\n if (this.#parent?.type === '!') return true\n if (!this.#parent?.isEnd()) return false\n if (!this.type) return this.#parent?.isEnd()\n // if not root, it'll always have a parent\n /* c8 ignore start */\n const pl = this.#parent ? this.#parent.#parts.length : 0\n /* c8 ignore stop */\n return this.#parentIndex === pl - 1\n }\n\n copyIn(part: AST | string) {\n if (typeof part === 'string') this.push(part)\n else this.push(part.clone(this))\n }\n\n clone(parent: AST) {\n const c = new AST(this.type, parent)\n for (const p of this.#parts) {\n c.copyIn(p)\n }\n return c\n }\n\n static #parseAST(\n str: string,\n ast: AST,\n pos: number,\n opt: MinimatchOptions,\n extDepth: number,\n ): number {\n const maxDepth = opt.maxExtglobRecursion ?? 2\n let escaping = false\n let inBrace = false\n let braceStart = -1\n let braceNeg = false\n if (ast.type === null) {\n // outside of a extglob, append until we find a start\n let i = pos\n let acc = ''\n while (i < str.length) {\n const c = str.charAt(i++)\n // still accumulate escapes at this point, but we do ignore\n // starts that are escaped\n if (escaping || c === '\\\\') {\n escaping = !escaping\n acc += c\n continue\n }\n\n if (inBrace) {\n if (i === braceStart + 1) {\n if (c === '^' || c === '!') {\n braceNeg = true\n }\n } else if (c === ']' && !(i === braceStart + 2 && braceNeg)) {\n inBrace = false\n }\n acc += c\n continue\n } else if (c === '[') {\n inBrace = true\n braceStart = i\n braceNeg = false\n acc += c\n continue\n }\n\n // we don't have to check for adoption here, because that's\n // done at the other recursion point.\n const doRecurse =\n !opt.noext &&\n isExtglobType(c) &&\n str.charAt(i) === '(' &&\n extDepth <= maxDepth\n if (doRecurse) {\n ast.push(acc)\n acc = ''\n const ext = new AST(c, ast)\n i = AST.#parseAST(str, ext, i, opt, extDepth + 1)\n ast.push(ext)\n continue\n }\n acc += c\n }\n ast.push(acc)\n return i\n }\n\n // some kind of extglob, pos is at the (\n // find the next | or )\n let i = pos + 1\n let part = new AST(null, ast)\n const parts: AST[] = []\n let acc = ''\n while (i < str.length) {\n const c = str.charAt(i++)\n // still accumulate escapes at this point, but we do ignore\n // starts that are escaped\n if (escaping || c === '\\\\') {\n escaping = !escaping\n acc += c\n continue\n }\n\n if (inBrace) {\n if (i === braceStart + 1) {\n if (c === '^' || c === '!') {\n braceNeg = true\n }\n } else if (c === ']' && !(i === braceStart + 2 && braceNeg)) {\n inBrace = false\n }\n acc += c\n continue\n } else if (c === '[') {\n inBrace = true\n braceStart = i\n braceNeg = false\n acc += c\n continue\n }\n\n const doRecurse =\n !opt.noext &&\n isExtglobType(c) &&\n str.charAt(i) === '(' &&\n /* c8 ignore start - the maxDepth is sufficient here */\n (extDepth <= maxDepth || (ast && ast.#canAdoptType(c)))\n /* c8 ignore stop */\n if (doRecurse) {\n const depthAdd = ast && ast.#canAdoptType(c) ? 0 : 1\n part.push(acc)\n acc = ''\n const ext = new AST(c, part)\n part.push(ext)\n i = AST.#parseAST(str, ext, i, opt, extDepth + depthAdd)\n continue\n }\n if (c === '|') {\n part.push(acc)\n acc = ''\n parts.push(part)\n part = new AST(null, ast)\n continue\n }\n if (c === ')') {\n if (acc === '' && ast.#parts.length === 0) {\n ast.#emptyExt = true\n }\n part.push(acc)\n acc = ''\n ast.push(...parts, part)\n return i\n }\n acc += c\n }\n\n // unfinished extglob\n // if we got here, it was a malformed extglob! not an extglob, but\n // maybe something else in there.\n ast.type = null\n ast.#hasMagic = undefined\n ast.#parts = [str.substring(pos - 1)]\n return i\n }\n\n #canAdoptWithSpace(child?: AST | string): child is AST & {\n type: null\n parts: [AST & { type: ExtglobType }]\n } {\n return this.#canAdopt(child, adoptionWithSpaceMap)\n }\n\n #canAdopt(\n child?: AST | string,\n map: Map = adoptionMap,\n ): child is AST & {\n type: null\n parts: [AST & { type: ExtglobType }]\n } {\n if (\n !child ||\n typeof child !== 'object' ||\n child.type !== null ||\n child.#parts.length !== 1 ||\n this.type === null\n ) {\n return false\n }\n const gc = child.#parts[0]\n if (!gc || typeof gc !== 'object' || gc.type === null) {\n return false\n }\n return (this as AST & { type: ExtglobType }).#canAdoptType(\n gc.type,\n map,\n )\n }\n #canAdoptType(\n c: string,\n map: Map = adoptionAnyMap,\n ): c is ExtglobType {\n return !!map.get(this.type as ExtglobType)?.includes(c as ExtglobType)\n }\n\n #adoptWithSpace(\n this: AST & { type: ExtglobType },\n child: AST & {\n type: null\n },\n index: number,\n ) {\n const gc = child.#parts[0] as AST & { type: ExtglobType }\n const blank = new AST(null, gc, this.options)\n blank.#parts.push('')\n gc.push(blank)\n this.#adopt(child, index)\n }\n\n #adopt(\n child: AST & {\n type: null\n },\n index: number,\n ) {\n const gc = child.#parts[0] as AST & { type: ExtglobType }\n this.#parts.splice(index, 1, ...gc.#parts)\n for (const p of gc.#parts) {\n if (typeof p === 'object') p.#parent = this\n }\n this.#toString = undefined\n }\n\n #canUsurpType(c: string): boolean {\n const m = usurpMap.get(this.type as ExtglobType)\n return !!m?.has(c as ExtglobType)\n }\n\n #canUsurp(child?: AST | string): child is AST & {\n type: null\n parts: [AST & { type: ExtglobType }]\n } {\n if (\n !child ||\n typeof child !== 'object' ||\n child.type !== null ||\n child.#parts.length !== 1 ||\n this.type === null ||\n this.#parts.length !== 1\n ) {\n return false\n }\n const gc = child.#parts[0]\n if (!gc || typeof gc !== 'object' || gc.type === null) {\n return false\n }\n return (this as AST & { type: ExtglobType }).#canUsurpType(gc.type)\n }\n\n #usurp(this: AST & { type: ExtglobType }, child: AST & { type: null }) {\n const m = usurpMap.get(this.type as ExtglobType)\n const gc = child.#parts[0] as AST & { type: ExtglobType }\n const nt = m?.get(gc.type)\n /* c8 ignore start - impossible */\n if (!nt) return false\n /* c8 ignore stop */\n this.#parts = gc.#parts\n for (const p of this.#parts) {\n if (typeof p === 'object') {\n p.#parent = this\n }\n }\n this.type = nt\n this.#toString = undefined\n this.#emptyExt = false\n }\n\n static fromGlob(pattern: string, options: MinimatchOptions = {}) {\n const ast = new AST(null, undefined, options)\n AST.#parseAST(pattern, ast, 0, options, 0)\n return ast\n }\n\n // returns the regular expression if there's magic, or the unescaped\n // string if not.\n toMMPattern(): MMRegExp | string {\n // should only be called on root\n /* c8 ignore start */\n if (this !== this.#root) return this.#root.toMMPattern()\n /* c8 ignore stop */\n const glob = this.toString()\n const [re, body, hasMagic, uflag] = this.toRegExpSource()\n // if we're in nocase mode, and not nocaseMagicOnly, then we do\n // still need a regular expression if we have to case-insensitively\n // match capital/lowercase characters.\n const anyMagic =\n hasMagic ||\n this.#hasMagic ||\n (this.#options.nocase &&\n !this.#options.nocaseMagicOnly &&\n glob.toUpperCase() !== glob.toLowerCase())\n if (!anyMagic) {\n return body\n }\n\n const flags = (this.#options.nocase ? 'i' : '') + (uflag ? 'u' : '')\n return Object.assign(new RegExp(`^${re}$`, flags), {\n _src: re,\n _glob: glob,\n })\n }\n\n get options() {\n return this.#options\n }\n\n // returns the string match, the regexp source, whether there's magic\n // in the regexp (so a regular expression is required) and whether or\n // not the uflag is needed for the regular expression (for posix classes)\n // TODO: instead of injecting the start/end at this point, just return\n // the BODY of the regexp, along with the start/end portions suitable\n // for binding the start/end in either a joined full-path makeRe context\n // (where we bind to (^|/), or a standalone matchPart context (where\n // we bind to ^, and not /). Otherwise slashes get duped!\n //\n // In part-matching mode, the start is:\n // - if not isStart: nothing\n // - if traversal possible, but not allowed: ^(?!\\.\\.?$)\n // - if dots allowed or not possible: ^\n // - if dots possible and not allowed: ^(?!\\.)\n // end is:\n // - if not isEnd(): nothing\n // - else: $\n //\n // In full-path matching mode, we put the slash at the START of the\n // pattern, so start is:\n // - if first pattern: same as part-matching mode\n // - if not isStart(): nothing\n // - if traversal possible, but not allowed: /(?!\\.\\.?(?:$|/))\n // - if dots allowed or not possible: /\n // - if dots possible and not allowed: /(?!\\.)\n // end is:\n // - if last pattern, same as part-matching mode\n // - else nothing\n //\n // Always put the (?:$|/) on negated tails, though, because that has to be\n // there to bind the end of the negated pattern portion, and it's easier to\n // just stick it in now rather than try to inject it later in the middle of\n // the pattern.\n //\n // We can just always return the same end, and leave it up to the caller\n // to know whether it's going to be used joined or in parts.\n // And, if the start is adjusted slightly, can do the same there:\n // - if not isStart: nothing\n // - if traversal possible, but not allowed: (?:/|^)(?!\\.\\.?$)\n // - if dots allowed or not possible: (?:/|^)\n // - if dots possible and not allowed: (?:/|^)(?!\\.)\n //\n // But it's better to have a simpler binding without a conditional, for\n // performance, so probably better to return both start options.\n //\n // Then the caller just ignores the end if it's not the first pattern,\n // and the start always gets applied.\n //\n // But that's always going to be $ if it's the ending pattern, or nothing,\n // so the caller can just attach $ at the end of the pattern when building.\n //\n // So the todo is:\n // - better detect what kind of start is needed\n // - return both flavors of starting pattern\n // - attach $ at the end of the pattern when creating the actual RegExp\n //\n // Ah, but wait, no, that all only applies to the root when the first pattern\n // is not an extglob. If the first pattern IS an extglob, then we need all\n // that dot prevention biz to live in the extglob portions, because eg\n // +(*|.x*) can match .xy but not .yx.\n //\n // So, return the two flavors if it's #root and the first child is not an\n // AST, otherwise leave it to the child AST to handle it, and there,\n // use the (?:^|/) style of start binding.\n //\n // Even simplified further:\n // - Since the start for a join is eg /(?!\\.) and the start for a part\n // is ^(?!\\.), we can just prepend (?!\\.) to the pattern (either root\n // or start or whatever) and prepend ^ or / at the Regexp construction.\n toRegExpSource(\n allowDot?: boolean,\n ): [re: string, body: string, hasMagic: boolean, uflag: boolean] {\n const dot = allowDot ?? !!this.#options.dot\n if (this.#root === this) {\n this.#flatten()\n this.#fillNegs()\n }\n if (!isExtglobAST(this)) {\n const noEmpty =\n this.isStart() &&\n this.isEnd() &&\n !this.#parts.some(s => typeof s !== 'string')\n const src = this.#parts\n .map(p => {\n const [re, _, hasMagic, uflag] =\n typeof p === 'string' ?\n AST.#parseGlob(p, this.#hasMagic, noEmpty)\n : p.toRegExpSource(allowDot)\n this.#hasMagic = this.#hasMagic || hasMagic\n this.#uflag = this.#uflag || uflag\n return re\n })\n .join('')\n\n let start = ''\n if (this.isStart()) {\n if (typeof this.#parts[0] === 'string') {\n // this is the string that will match the start of the pattern,\n // so we need to protect against dots and such.\n\n // '.' and '..' cannot match unless the pattern is that exactly,\n // even if it starts with . or dot:true is set.\n const dotTravAllowed =\n this.#parts.length === 1 && justDots.has(this.#parts[0])\n if (!dotTravAllowed) {\n const aps = addPatternStart\n // check if we have a possibility of matching . or ..,\n // and prevent that.\n const needNoTrav =\n // dots are allowed, and the pattern starts with [ or .\n (dot && aps.has(src.charAt(0))) ||\n // the pattern starts with \\., and then [ or .\n (src.startsWith('\\\\.') && aps.has(src.charAt(2))) ||\n // the pattern starts with \\.\\., and then [ or .\n (src.startsWith('\\\\.\\\\.') && aps.has(src.charAt(4)))\n // no need to prevent dots if it can't match a dot, or if a\n // sub-pattern will be preventing it anyway.\n const needNoDot = !dot && !allowDot && aps.has(src.charAt(0))\n\n start =\n needNoTrav ? startNoTraversal\n : needNoDot ? startNoDot\n : ''\n }\n }\n }\n\n // append the \"end of path portion\" pattern to negation tails\n let end = ''\n if (\n this.isEnd() &&\n this.#root.#filledNegs &&\n this.#parent?.type === '!'\n ) {\n end = '(?:$|\\\\/)'\n }\n const final = start + src + end\n return [\n final,\n unescape(src),\n (this.#hasMagic = !!this.#hasMagic),\n this.#uflag,\n ]\n }\n\n // We need to calculate the body *twice* if it's a repeat pattern\n // at the start, once in nodot mode, then again in dot mode, so a\n // pattern like *(?) can match 'x.y'\n\n const repeated = this.type === '*' || this.type === '+'\n // some kind of extglob\n const start = this.type === '!' ? '(?:(?!(?:' : '(?:'\n let body = (this as AST & { type: ExtglobType }).#partsToRegExp(dot)\n\n if (this.isStart() && this.isEnd() && !body && this.type !== '!') {\n // invalid extglob, has to at least be *something* present, if it's\n // the entire path portion.\n const s = this.toString()\n const me = this as AST\n me.#parts = [s]\n me.type = null\n me.#hasMagic = undefined\n return [s, unescape(this.toString()), false, false]\n }\n\n let bodyDotAllowed =\n !repeated || allowDot || dot || !startNoDot ?\n ''\n : this.#partsToRegExp(true)\n if (bodyDotAllowed === body) {\n bodyDotAllowed = ''\n }\n if (bodyDotAllowed) {\n body = `(?:${body})(?:${bodyDotAllowed})*?`\n }\n\n // an empty !() is exactly equivalent to a starNoEmpty\n let final = ''\n if (this.type === '!' && this.#emptyExt) {\n final = (this.isStart() && !dot ? startNoDot : '') + starNoEmpty\n } else {\n const close =\n this.type === '!' ?\n // !() must match something,but !(x) can match ''\n '))' +\n (this.isStart() && !dot && !allowDot ? startNoDot : '') +\n star +\n ')'\n : this.type === '@' ? ')'\n : this.type === '?' ? ')?'\n : this.type === '+' && bodyDotAllowed ? ')'\n : this.type === '*' && bodyDotAllowed ? `)?`\n : `)${this.type}`\n final = start + body + close\n }\n return [\n final,\n unescape(body),\n (this.#hasMagic = !!this.#hasMagic),\n this.#uflag,\n ]\n }\n\n #flatten() {\n if (!isExtglobAST(this)) {\n for (const p of this.#parts) {\n if (typeof p === 'object') {\n p.#flatten()\n }\n }\n } else {\n // do up to 10 passes to flatten as much as possible\n let iterations = 0\n let done = false\n do {\n done = true\n for (let i = 0; i < this.#parts.length; i++) {\n const c = this.#parts[i]\n if (typeof c === 'object') {\n c.#flatten()\n if (this.#canAdopt(c)) {\n done = false\n this.#adopt(c, i)\n } else if (this.#canAdoptWithSpace(c)) {\n done = false\n ;(this as AST & { type: ExtglobType }).#adoptWithSpace(c, i)\n } else if (this.#canUsurp(c)) {\n done = false\n ;(this as AST & { type: ExtglobType }).#usurp(c)\n }\n }\n }\n } while (!done && ++iterations < 10)\n }\n this.#toString = undefined\n }\n\n #partsToRegExp(this: AST & { type: ExtglobType }, dot: boolean) {\n return this.#parts\n .map(p => {\n // extglob ASTs should only contain parent ASTs\n /* c8 ignore start */\n if (typeof p === 'string') {\n throw new Error('string type in extglob ast??')\n }\n /* c8 ignore stop */\n // can ignore hasMagic, because extglobs are already always magic\n const [re, _, _hasMagic, uflag] = p.toRegExpSource(dot)\n this.#uflag = this.#uflag || uflag\n return re\n })\n .filter(p => !(this.isStart() && this.isEnd()) || !!p)\n .join('|')\n }\n\n static #parseGlob(\n glob: string,\n hasMagic: boolean | undefined,\n noEmpty: boolean = false,\n ): [re: string, body: string, hasMagic: boolean, uflag: boolean] {\n let escaping = false\n let re = ''\n let uflag = false\n // multiple stars that aren't globstars coalesce into one *\n let inStar = false\n for (let i = 0; i < glob.length; i++) {\n const c = glob.charAt(i)\n if (escaping) {\n escaping = false\n re += (reSpecials.has(c) ? '\\\\' : '') + c\n continue\n }\n if (c === '*') {\n if (inStar) continue\n inStar = true\n re += noEmpty && /^[*]+$/.test(glob) ? starNoEmpty : star\n hasMagic = true\n continue\n } else {\n inStar = false\n }\n if (c === '\\\\') {\n if (i === glob.length - 1) {\n re += '\\\\\\\\'\n } else {\n escaping = true\n }\n continue\n }\n if (c === '[') {\n const [src, needUflag, consumed, magic] = parseClass(glob, i)\n if (consumed) {\n re += src\n uflag = uflag || needUflag\n i += consumed - 1\n hasMagic = hasMagic || magic\n continue\n }\n }\n if (c === '?') {\n re += qmark\n hasMagic = true\n continue\n }\n re += regExpEscape(c)\n }\n return [re, unescape(glob), !!hasMagic, uflag]\n }\n}\n"]} \ No newline at end of file diff --git a/deps/minimatch/dist/commonjs/escape.d.ts b/deps/minimatch/dist/commonjs/escape.d.ts index 92e88c8f08825b..141024a06bdf74 100644 --- a/deps/minimatch/dist/commonjs/escape.d.ts +++ b/deps/minimatch/dist/commonjs/escape.d.ts @@ -1,4 +1,4 @@ -import { MinimatchOptions } from './index.js'; +import type { MinimatchOptions } from './index.js'; /** * Escape all magic characters in a glob pattern. * diff --git a/deps/minimatch/dist/commonjs/escape.d.ts.map b/deps/minimatch/dist/commonjs/escape.d.ts.map index e8d8a693fa4021..e167e30065a04e 100644 --- a/deps/minimatch/dist/commonjs/escape.d.ts.map +++ b/deps/minimatch/dist/commonjs/escape.d.ts.map @@ -1 +1 @@ -{"version":3,"file":"escape.d.ts","sourceRoot":"","sources":["../../src/escape.ts"],"names":[],"mappings":"AAAA,OAAO,EAAE,gBAAgB,EAAE,MAAM,YAAY,CAAA;AAE7C;;;;;;;;;;;GAWG;AACH,eAAO,MAAM,MAAM,GACjB,GAAG,MAAM,EACT,2CAGG,IAAI,CAAC,gBAAgB,EAAE,sBAAsB,GAAG,eAAe,CAAM,WAazE,CAAA"} \ No newline at end of file +{"version":3,"file":"escape.d.ts","sourceRoot":"","sources":["../../src/escape.ts"],"names":[],"mappings":"AAAA,OAAO,KAAK,EAAE,gBAAgB,EAAE,MAAM,YAAY,CAAA;AAElD;;;;;;;;;;;GAWG;AACH,eAAO,MAAM,MAAM,GACjB,GAAG,MAAM,EACT,2CAGG,IAAI,CAAC,gBAAgB,EAAE,sBAAsB,GAAG,eAAe,CAAM,WAazE,CAAA"} \ No newline at end of file diff --git a/deps/minimatch/dist/commonjs/escape.js.map b/deps/minimatch/dist/commonjs/escape.js.map index 442faeda338922..f963f0a14ae877 100644 --- a/deps/minimatch/dist/commonjs/escape.js.map +++ b/deps/minimatch/dist/commonjs/escape.js.map @@ -1 +1 @@ -{"version":3,"file":"escape.js","sourceRoot":"","sources":["../../src/escape.ts"],"names":[],"mappings":";;;AAEA;;;;;;;;;;;GAWG;AACI,MAAM,MAAM,GAAG,CACpB,CAAS,EACT,EACE,oBAAoB,GAAG,KAAK,EAC5B,aAAa,GAAG,KAAK,MAC+C,EAAE,EACxE,EAAE;IACF,wDAAwD;IACxD,4DAA4D;IAC5D,sDAAsD;IACtD,IAAI,aAAa,EAAE,CAAC;QAClB,OAAO,oBAAoB,CAAC,CAAC;YACzB,CAAC,CAAC,OAAO,CAAC,cAAc,EAAE,MAAM,CAAC;YACnC,CAAC,CAAC,CAAC,CAAC,OAAO,CAAC,gBAAgB,EAAE,MAAM,CAAC,CAAA;IACzC,CAAC;IACD,OAAO,oBAAoB,CAAC,CAAC;QACzB,CAAC,CAAC,OAAO,CAAC,YAAY,EAAE,MAAM,CAAC;QACjC,CAAC,CAAC,CAAC,CAAC,OAAO,CAAC,cAAc,EAAE,MAAM,CAAC,CAAA;AACvC,CAAC,CAAA;AAlBY,QAAA,MAAM,UAkBlB","sourcesContent":["import { MinimatchOptions } from './index.js'\n\n/**\n * Escape all magic characters in a glob pattern.\n *\n * If the {@link MinimatchOptions.windowsPathsNoEscape}\n * option is used, then characters are escaped by wrapping in `[]`, because\n * a magic character wrapped in a character class can only be satisfied by\n * that exact character. In this mode, `\\` is _not_ escaped, because it is\n * not interpreted as a magic character, but instead as a path separator.\n *\n * If the {@link MinimatchOptions.magicalBraces} option is used,\n * then braces (`{` and `}`) will be escaped.\n */\nexport const escape = (\n s: string,\n {\n windowsPathsNoEscape = false,\n magicalBraces = false,\n }: Pick = {},\n) => {\n // don't need to escape +@! because we escape the parens\n // that make those magic, and escaping ! as [!] isn't valid,\n // because [!]] is a valid glob class meaning not ']'.\n if (magicalBraces) {\n return windowsPathsNoEscape ?\n s.replace(/[?*()[\\]{}]/g, '[$&]')\n : s.replace(/[?*()[\\]\\\\{}]/g, '\\\\$&')\n }\n return windowsPathsNoEscape ?\n s.replace(/[?*()[\\]]/g, '[$&]')\n : s.replace(/[?*()[\\]\\\\]/g, '\\\\$&')\n}\n"]} \ No newline at end of file +{"version":3,"file":"escape.js","sourceRoot":"","sources":["../../src/escape.ts"],"names":[],"mappings":";;;AAEA;;;;;;;;;;;GAWG;AACI,MAAM,MAAM,GAAG,CACpB,CAAS,EACT,EACE,oBAAoB,GAAG,KAAK,EAC5B,aAAa,GAAG,KAAK,MAC+C,EAAE,EACxE,EAAE;IACF,wDAAwD;IACxD,4DAA4D;IAC5D,sDAAsD;IACtD,IAAI,aAAa,EAAE,CAAC;QAClB,OAAO,oBAAoB,CAAC,CAAC;YACzB,CAAC,CAAC,OAAO,CAAC,cAAc,EAAE,MAAM,CAAC;YACnC,CAAC,CAAC,CAAC,CAAC,OAAO,CAAC,gBAAgB,EAAE,MAAM,CAAC,CAAA;IACzC,CAAC;IACD,OAAO,oBAAoB,CAAC,CAAC;QACzB,CAAC,CAAC,OAAO,CAAC,YAAY,EAAE,MAAM,CAAC;QACjC,CAAC,CAAC,CAAC,CAAC,OAAO,CAAC,cAAc,EAAE,MAAM,CAAC,CAAA;AACvC,CAAC,CAAA;AAlBY,QAAA,MAAM,UAkBlB","sourcesContent":["import type { MinimatchOptions } from './index.js'\n\n/**\n * Escape all magic characters in a glob pattern.\n *\n * If the {@link MinimatchOptions.windowsPathsNoEscape}\n * option is used, then characters are escaped by wrapping in `[]`, because\n * a magic character wrapped in a character class can only be satisfied by\n * that exact character. In this mode, `\\` is _not_ escaped, because it is\n * not interpreted as a magic character, but instead as a path separator.\n *\n * If the {@link MinimatchOptions.magicalBraces} option is used,\n * then braces (`{` and `}`) will be escaped.\n */\nexport const escape = (\n s: string,\n {\n windowsPathsNoEscape = false,\n magicalBraces = false,\n }: Pick = {},\n) => {\n // don't need to escape +@! because we escape the parens\n // that make those magic, and escaping ! as [!] isn't valid,\n // because [!]] is a valid glob class meaning not ']'.\n if (magicalBraces) {\n return windowsPathsNoEscape ?\n s.replace(/[?*()[\\]{}]/g, '[$&]')\n : s.replace(/[?*()[\\]\\\\{}]/g, '\\\\$&')\n }\n return windowsPathsNoEscape ?\n s.replace(/[?*()[\\]]/g, '[$&]')\n : s.replace(/[?*()[\\]\\\\]/g, '\\\\$&')\n}\n"]} \ No newline at end of file diff --git a/deps/minimatch/dist/commonjs/index.d.ts b/deps/minimatch/dist/commonjs/index.d.ts index 137bd803690752..7e1fc2edaadbe0 100644 --- a/deps/minimatch/dist/commonjs/index.d.ts +++ b/deps/minimatch/dist/commonjs/index.d.ts @@ -150,7 +150,7 @@ export declare class Minimatch { regexp: false | null | MMRegExp; constructor(pattern: string, options?: MinimatchOptions); hasMagic(): boolean; - debug(..._: any[]): void; + debug(..._: unknown[]): void; make(): void; preprocess(globParts: string[][]): string[][]; adjascentGlobstarOptimize(globParts: string[][]): string[][]; diff --git a/deps/minimatch/dist/commonjs/index.d.ts.map b/deps/minimatch/dist/commonjs/index.d.ts.map index 1c65035ac63c5a..7620db91cc8185 100644 --- a/deps/minimatch/dist/commonjs/index.d.ts.map +++ b/deps/minimatch/dist/commonjs/index.d.ts.map @@ -1 +1 @@ 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\ No newline at end of file diff --git a/deps/minimatch/dist/commonjs/index.js b/deps/minimatch/dist/commonjs/index.js index b28f9b455ecf8b..ed63ecdbd1ea7b 100644 --- a/deps/minimatch/dist/commonjs/index.js +++ b/deps/minimatch/dist/commonjs/index.js @@ -16,7 +16,7 @@ const minimatch = (p, pattern, options = {}) => { }; exports.minimatch = minimatch; // Optimized checking for the most common glob patterns. -const starDotExtRE = /^\*+([^+@!?\*\[\(]*)$/; +const starDotExtRE = /^\*+([^+@!?*[(]*)$/; const starDotExtTest = (ext) => (f) => !f.startsWith('.') && f.endsWith(ext); const starDotExtTestDot = (ext) => (f) => f.endsWith(ext); const starDotExtTestNocase = (ext) => { @@ -35,7 +35,7 @@ const dotStarTest = (f) => f !== '.' && f !== '..' && f.startsWith('.'); const starRE = /^\*+$/; const starTest = (f) => f.length !== 0 && !f.startsWith('.'); const starTestDot = (f) => f.length !== 0 && f !== '.' && f !== '..'; -const qmarksRE = /^\?+([^+@!?\*\[\(]*)?$/; +const qmarksRE = /^\?+([^+@!?*[(]*)?$/; const qmarksTestNocase = ([$0, ext = '']) => { const noext = qmarksTestNoExt([$0]); if (!ext) @@ -267,6 +267,7 @@ class Minimatch { // step 2: expand braces this.globSet = [...new Set(this.braceExpand())]; if (options.debug) { + //oxlint-disable-next-line no-console this.debug = (...args) => console.error(...args); } this.debug(this.pattern, this.globSet); @@ -329,10 +330,10 @@ class Minimatch { preprocess(globParts) { // if we're not in globstar mode, then turn ** into * if (this.options.noglobstar) { - for (let i = 0; i < globParts.length; i++) { - for (let j = 0; j < globParts[i].length; j++) { - if (globParts[i][j] === '**') { - globParts[i][j] = '*'; + for (const partset of globParts) { + for (let j = 0; j < partset.length; j++) { + if (partset[j] === '**') { + partset[j] = '*'; } } } @@ -420,7 +421,11 @@ class Minimatch { let dd = 0; while (-1 !== (dd = parts.indexOf('..', dd + 1))) { const p = parts[dd - 1]; - if (p && p !== '.' && p !== '..' && p !== '**') { + if (p && + p !== '.' && + p !== '..' && + p !== '**' && + !(this.isWindows && /^[a-z]:$/i.test(p))) { didSomething = true; parts.splice(dd - 1, 2); dd -= 2; @@ -669,15 +674,17 @@ class Minimatch { // split the pattern up into globstar-delimited sections // the tail has to be at the end, and the others just have // to be found in order from the head. - const [head, body, tail] = partial ? [ - pattern.slice(patternIndex, firstgs), - pattern.slice(firstgs + 1), - [], - ] : [ - pattern.slice(patternIndex, firstgs), - pattern.slice(firstgs + 1, lastgs), - pattern.slice(lastgs + 1), - ]; + const [head, body, tail] = partial ? + [ + pattern.slice(patternIndex, firstgs), + pattern.slice(firstgs + 1), + [], + ] + : [ + pattern.slice(patternIndex, firstgs), + pattern.slice(firstgs + 1, lastgs), + pattern.slice(lastgs + 1), + ]; // check the head, from the current file/pattern index. if (head.length) { const fileHead = file.slice(fileIndex, fileIndex + head.length); @@ -1023,7 +1030,7 @@ class Minimatch { this.regexp = new RegExp(re, [...flags].join('')); /* c8 ignore start */ } - catch (ex) { + catch { // should be impossible this.regexp = false; } @@ -1038,7 +1045,7 @@ class Minimatch { if (this.preserveMultipleSlashes) { return p.split('/'); } - else if (this.isWindows && /^\/\/[^\/]+/.test(p)) { + else if (this.isWindows && /^\/\/[^/]+/.test(p)) { // add an extra '' for the one we lose return ['', ...p.split(/\/+/)]; } @@ -1080,8 +1087,7 @@ class Minimatch { filename = ff[i]; } } - for (let i = 0; i < set.length; i++) { - const pattern = set[i]; + for (const pattern of set) { let file = ff; if (options.matchBase && pattern.length === 1) { file = [filename]; diff --git a/deps/minimatch/dist/commonjs/index.js.map b/deps/minimatch/dist/commonjs/index.js.map index fc4dea5d2f2ff8..f0b81f03f38174 100644 --- a/deps/minimatch/dist/commonjs/index.js.map +++ b/deps/minimatch/dist/commonjs/index.js.map @@ -1 +1 @@ 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boolean\n /**\n * inverse of {@link MinimatchOptions.windowsPathsNoEscape}\n * @deprecated\n */\n allowWindowsEscape?: boolean\n /**\n * Compare a partial path to a pattern. As long as the parts\n * of the path that are present are not contradicted by the\n * pattern, it will be treated as a match. This is useful in\n * applications where you're walking through a folder structure,\n * and don't yet have the full path, but want to ensure that you\n * do not walk down paths that can never be a match.\n */\n partial?: boolean\n /** allow matches that start with `.` even if the pattern does not */\n dot?: boolean\n /** ignore case */\n nocase?: boolean\n /** ignore case only in wildcard patterns */\n nocaseMagicOnly?: boolean\n /** consider braces to be \"magic\" for the purpose of `hasMagic` */\n magicalBraces?: boolean\n /**\n * If set, then patterns without slashes will be matched\n * against the basename of the path if it contains slashes.\n * For example, `a?b` would match the path `/xyz/123/acb`, but\n * not `/xyz/acb/123`.\n */\n matchBase?: boolean\n /** invert the results of negated matches */\n flipNegate?: boolean\n /** do not collapse multiple `/` into a single `/` */\n preserveMultipleSlashes?: boolean\n /**\n * A number indicating the level of optimization that should be done\n * to the pattern prior to parsing and using it for matches.\n */\n optimizationLevel?: number\n /** operating system platform */\n platform?: Platform\n /**\n * When a pattern starts with a UNC path or drive letter, and in\n * `nocase:true` mode, do not convert the root portions of the\n * pattern into a case-insensitive regular expression, and instead\n * leave them as strings.\n *\n * This is the default when the platform is `win32` and\n * `nocase:true` is set.\n */\n windowsNoMagicRoot?: boolean\n /**\n * max number of `{...}` patterns to expand. Default 100_000.\n */\n braceExpandMax?: number\n /**\n * Max number of non-adjacent `**` patterns to recursively walk down.\n *\n * The default of 200 is almost certainly high enough for most purposes,\n * and can handle absurdly excessive patterns.\n */\n maxGlobstarRecursion?: number\n\n /**\n * Max depth to traverse for nested extglobs like `*(a|b|c)`\n *\n * Default is 2, which is quite low, but any higher value\n * swiftly results in punishing performance impacts. Note\n * that this is *not* relevant when the globstar types can\n * be safely coalesced into a single set.\n *\n * For example, `*(a|@(b|c)|d)` would be flattened into\n * `*(a|b|c|d)`. Thus, many common extglobs will retain good\n * performance and never hit this limit, even if they are\n * excessively deep and complicated.\n *\n * If the limit is hit, then the extglob characters are simply\n * not parsed, and the pattern effectively switches into\n * `noextglob: true` mode for the contents of that nested\n * sub-pattern. This will typically _not_ result in a match,\n * but is considered a valid trade-off for security and\n * performance.\n */\n maxExtglobRecursion?: number\n}\n\nexport const minimatch = (\n p: string,\n pattern: string,\n options: MinimatchOptions = {},\n) => {\n assertValidPattern(pattern)\n\n // shortcut: comments match nothing.\n if (!options.nocomment && pattern.charAt(0) === '#') {\n return false\n }\n\n return new Minimatch(pattern, options).match(p)\n}\n\n// Optimized checking for the most common glob patterns.\nconst starDotExtRE = /^\\*+([^+@!?\\*\\[\\(]*)$/\nconst starDotExtTest = (ext: string) => (f: string) =>\n !f.startsWith('.') && f.endsWith(ext)\nconst starDotExtTestDot = (ext: string) => (f: string) => f.endsWith(ext)\nconst starDotExtTestNocase = (ext: string) => {\n ext = ext.toLowerCase()\n return (f: string) => !f.startsWith('.') && f.toLowerCase().endsWith(ext)\n}\nconst starDotExtTestNocaseDot = (ext: string) => {\n ext = ext.toLowerCase()\n return (f: string) => f.toLowerCase().endsWith(ext)\n}\nconst starDotStarRE = /^\\*+\\.\\*+$/\nconst starDotStarTest = (f: string) =>\n !f.startsWith('.') && f.includes('.')\nconst starDotStarTestDot = (f: string) =>\n f !== '.' && f !== '..' && f.includes('.')\nconst dotStarRE = /^\\.\\*+$/\nconst dotStarTest = (f: string) =>\n f !== '.' && f !== '..' && f.startsWith('.')\nconst starRE = /^\\*+$/\nconst starTest = (f: string) => f.length !== 0 && !f.startsWith('.')\nconst starTestDot = (f: string) =>\n f.length !== 0 && f !== '.' && f !== '..'\nconst qmarksRE = /^\\?+([^+@!?\\*\\[\\(]*)?$/\nconst qmarksTestNocase = ([$0, ext = '']: RegExpMatchArray) => {\n const noext = qmarksTestNoExt([$0])\n if (!ext) return noext\n ext = ext.toLowerCase()\n return (f: string) => noext(f) && f.toLowerCase().endsWith(ext)\n}\nconst qmarksTestNocaseDot = ([$0, ext = '']: RegExpMatchArray) => {\n const noext = qmarksTestNoExtDot([$0])\n if (!ext) return noext\n ext = ext.toLowerCase()\n return (f: string) => noext(f) && f.toLowerCase().endsWith(ext)\n}\nconst qmarksTestDot = ([$0, ext = '']: RegExpMatchArray) => {\n const noext = qmarksTestNoExtDot([$0])\n return !ext ? noext : (f: string) => noext(f) && f.endsWith(ext)\n}\nconst qmarksTest = ([$0, ext = '']: RegExpMatchArray) => {\n const noext = qmarksTestNoExt([$0])\n return !ext ? noext : (f: string) => noext(f) && f.endsWith(ext)\n}\nconst qmarksTestNoExt = ([$0]: RegExpMatchArray) => {\n const len = $0.length\n return (f: string) => f.length === len && !f.startsWith('.')\n}\nconst qmarksTestNoExtDot = ([$0]: RegExpMatchArray) => {\n const len = $0.length\n return (f: string) => f.length === len && f !== '.' && f !== '..'\n}\n\n/* c8 ignore start */\nconst defaultPlatform: Platform = (\n typeof process === 'object' && process ?\n (typeof process.env === 'object' &&\n process.env &&\n process.env.__MINIMATCH_TESTING_PLATFORM__) ||\n process.platform\n : 'posix') as Platform\n\nexport type Sep = '\\\\' | '/'\n\nconst path: { [k: string]: { sep: Sep } } = {\n win32: { sep: '\\\\' },\n posix: { sep: '/' },\n}\n/* c8 ignore stop */\n\nexport const sep =\n defaultPlatform === 'win32' ? path.win32.sep : path.posix.sep\nminimatch.sep = sep\n\nexport const GLOBSTAR = Symbol('globstar **')\nminimatch.GLOBSTAR = GLOBSTAR\n\n// any single thing other than /\n// don't need to escape / when using new RegExp()\nconst qmark = '[^/]'\n\n// * => any number of characters\nconst star = qmark + '*?'\n\n// ** when dots are allowed. Anything goes, except .. and .\n// not (^ or / followed by one or two dots followed by $ or /),\n// followed by anything, any number of times.\nconst twoStarDot = '(?:(?!(?:\\\\/|^)(?:\\\\.{1,2})($|\\\\/)).)*?'\n\n// not a ^ or / followed by a dot,\n// followed by anything, any number of times.\nconst twoStarNoDot = '(?:(?!(?:\\\\/|^)\\\\.).)*?'\n\nexport const filter =\n (pattern: string, options: MinimatchOptions = {}) =>\n (p: string) =>\n minimatch(p, pattern, options)\nminimatch.filter = filter\n\nconst ext = (a: MinimatchOptions, b: MinimatchOptions = {}) =>\n Object.assign({}, a, b)\n\nexport const defaults = (def: MinimatchOptions): typeof minimatch => {\n if (!def || typeof def !== 'object' || !Object.keys(def).length) {\n return minimatch\n }\n\n const orig = minimatch\n\n const m = (p: string, pattern: string, options: MinimatchOptions = {}) =>\n orig(p, pattern, ext(def, options))\n\n return Object.assign(m, {\n Minimatch: class Minimatch extends orig.Minimatch {\n constructor(pattern: string, options: MinimatchOptions = {}) {\n super(pattern, ext(def, options))\n }\n static defaults(options: MinimatchOptions) {\n return orig.defaults(ext(def, options)).Minimatch\n }\n },\n\n AST: class AST extends orig.AST {\n /* c8 ignore start */\n constructor(\n type: ExtglobType | null,\n parent?: AST,\n options: MinimatchOptions = {},\n ) {\n super(type, parent, ext(def, options))\n }\n /* c8 ignore stop */\n\n static fromGlob(pattern: string, options: MinimatchOptions = {}) {\n return orig.AST.fromGlob(pattern, ext(def, options))\n }\n },\n\n unescape: (\n s: string,\n options: Pick<\n MinimatchOptions,\n 'windowsPathsNoEscape' | 'magicalBraces'\n > = {},\n ) => orig.unescape(s, ext(def, options)),\n\n escape: (\n s: string,\n options: Pick<\n MinimatchOptions,\n 'windowsPathsNoEscape' | 'magicalBraces'\n > = {},\n ) => orig.escape(s, ext(def, options)),\n\n filter: (pattern: string, options: MinimatchOptions = {}) =>\n orig.filter(pattern, ext(def, options)),\n\n defaults: (options: MinimatchOptions) =>\n orig.defaults(ext(def, options)),\n\n makeRe: (pattern: string, options: MinimatchOptions = {}) =>\n orig.makeRe(pattern, ext(def, options)),\n\n braceExpand: (pattern: string, options: MinimatchOptions = {}) =>\n orig.braceExpand(pattern, ext(def, options)),\n\n match: (\n list: string[],\n pattern: string,\n options: MinimatchOptions = {},\n ) => orig.match(list, pattern, ext(def, options)),\n\n sep: orig.sep,\n GLOBSTAR: GLOBSTAR as typeof GLOBSTAR,\n })\n}\nminimatch.defaults = defaults\n\n// Brace expansion:\n// a{b,c}d -> abd acd\n// a{b,}c -> abc ac\n// a{0..3}d -> a0d a1d a2d a3d\n// a{b,c{d,e}f}g -> abg acdfg acefg\n// a{b,c}d{e,f}g -> abdeg acdeg abdeg abdfg\n//\n// Invalid sets are not expanded.\n// a{2..}b -> a{2..}b\n// a{b}c -> a{b}c\nexport const braceExpand = (\n pattern: string,\n options: MinimatchOptions = {},\n) => {\n assertValidPattern(pattern)\n\n // Thanks to Yeting Li for\n // improving this regexp to avoid a ReDOS vulnerability.\n if (options.nobrace || !/\\{(?:(?!\\{).)*\\}/.test(pattern)) {\n // shortcut. no need to expand.\n return [pattern]\n }\n\n return expand(pattern, { max: options.braceExpandMax })\n}\nminimatch.braceExpand = braceExpand\n\n// parse a component of the expanded set.\n// At this point, no pattern may contain \"/\" in it\n// so we're going to return a 2d array, where each entry is the full\n// pattern, split on '/', and then turned into a regular expression.\n// A regexp is made at the end which joins each array with an\n// escaped /, and another full one which joins each regexp with |.\n//\n// Following the lead of Bash 4.1, note that \"**\" only has special meaning\n// when it is the *only* thing in a path portion. Otherwise, any series\n// of * is equivalent to a single *. Globstar behavior is enabled by\n// default, and can be disabled by setting options.noglobstar.\n\nexport const makeRe = (pattern: string, options: MinimatchOptions = {}) =>\n new Minimatch(pattern, options).makeRe()\nminimatch.makeRe = makeRe\n\nexport const match = (\n list: string[],\n pattern: string,\n options: MinimatchOptions = {},\n) => {\n const mm = new Minimatch(pattern, options)\n list = list.filter(f => mm.match(f))\n if (mm.options.nonull && !list.length) {\n list.push(pattern)\n }\n return list\n}\nminimatch.match = match\n\n// replace stuff like \\* with *\nconst globMagic = /[?*]|[+@!]\\(.*?\\)|\\[|\\]/\nconst regExpEscape = (s: string) =>\n s.replace(/[-[\\]{}()*+?.,\\\\^$|#\\s]/g, '\\\\$&')\n\nexport type MMRegExp = RegExp & {\n _src?: string\n _glob?: string\n}\n\nexport type ParseReturnFiltered = string | MMRegExp | typeof GLOBSTAR\nexport type ParseReturn = ParseReturnFiltered | false\n\nexport class Minimatch {\n options: MinimatchOptions\n set: ParseReturnFiltered[][]\n pattern: string\n\n windowsPathsNoEscape: boolean\n nonegate: boolean\n negate: boolean\n comment: boolean\n empty: boolean\n preserveMultipleSlashes: boolean\n partial: boolean\n globSet: string[]\n globParts: string[][]\n nocase: boolean\n\n isWindows: boolean\n platform: Platform\n windowsNoMagicRoot: boolean\n maxGlobstarRecursion: number\n\n regexp: false | null | MMRegExp\n constructor(pattern: string, options: MinimatchOptions = {}) {\n assertValidPattern(pattern)\n\n options = options || {}\n this.options = options\n this.maxGlobstarRecursion = options.maxGlobstarRecursion ?? 200\n this.pattern = pattern\n this.platform = options.platform || defaultPlatform\n this.isWindows = this.platform === 'win32'\n // avoid the annoying deprecation flag lol\n const awe = ('allowWindow' + 'sEscape') as keyof MinimatchOptions\n this.windowsPathsNoEscape =\n !!options.windowsPathsNoEscape || options[awe] === false\n if (this.windowsPathsNoEscape) {\n this.pattern = this.pattern.replace(/\\\\/g, '/')\n }\n this.preserveMultipleSlashes = !!options.preserveMultipleSlashes\n this.regexp = null\n this.negate = false\n this.nonegate = !!options.nonegate\n this.comment = false\n this.empty = false\n this.partial = !!options.partial\n this.nocase = !!this.options.nocase\n this.windowsNoMagicRoot =\n options.windowsNoMagicRoot !== undefined ?\n options.windowsNoMagicRoot\n : !!(this.isWindows && this.nocase)\n\n this.globSet = []\n this.globParts = []\n this.set = []\n\n // make the set of regexps etc.\n this.make()\n }\n\n hasMagic(): boolean {\n if (this.options.magicalBraces && this.set.length > 1) {\n return true\n }\n for (const pattern of this.set) {\n for (const part of pattern) {\n if (typeof part !== 'string') return true\n }\n }\n return false\n }\n\n debug(..._: any[]) {}\n\n make() {\n const pattern = this.pattern\n const options = this.options\n\n // empty patterns and comments match nothing.\n if (!options.nocomment && pattern.charAt(0) === '#') {\n this.comment = true\n return\n }\n\n if (!pattern) {\n this.empty = true\n return\n }\n\n // step 1: figure out negation, etc.\n this.parseNegate()\n\n // step 2: expand braces\n this.globSet = [...new Set(this.braceExpand())]\n\n if (options.debug) {\n this.debug = (...args: any[]) => console.error(...args)\n }\n\n this.debug(this.pattern, this.globSet)\n\n // step 3: now we have a set, so turn each one into a series of\n // path-portion matching patterns.\n // These will be regexps, except in the case of \"**\", which is\n // set to the GLOBSTAR object for globstar behavior,\n // and will not contain any / characters\n //\n // First, we preprocess to make the glob pattern sets a bit simpler\n // and deduped. There are some perf-killing patterns that can cause\n // problems with a glob walk, but we can simplify them down a bit.\n const rawGlobParts = this.globSet.map(s => this.slashSplit(s))\n this.globParts = this.preprocess(rawGlobParts)\n this.debug(this.pattern, this.globParts)\n\n // glob --> regexps\n let set = this.globParts.map((s, _, __) => {\n if (this.isWindows && this.windowsNoMagicRoot) {\n // check if it's a drive or unc path.\n const isUNC =\n s[0] === '' &&\n s[1] === '' &&\n (s[2] === '?' || !globMagic.test(s[2])) &&\n !globMagic.test(s[3])\n const isDrive = /^[a-z]:/i.test(s[0])\n if (isUNC) {\n return [\n ...s.slice(0, 4),\n ...s.slice(4).map(ss => this.parse(ss)),\n ]\n } else if (isDrive) {\n return [s[0], ...s.slice(1).map(ss => this.parse(ss))]\n }\n }\n return s.map(ss => this.parse(ss))\n })\n\n this.debug(this.pattern, set)\n\n // filter out everything that didn't compile properly.\n this.set = set.filter(\n s => s.indexOf(false) === -1,\n ) as ParseReturnFiltered[][]\n\n // do not treat the ? in UNC paths as magic\n if (this.isWindows) {\n for (let i = 0; i < this.set.length; i++) {\n const p = this.set[i]\n if (\n p[0] === '' &&\n p[1] === '' &&\n this.globParts[i][2] === '?' &&\n typeof p[3] === 'string' &&\n /^[a-z]:$/i.test(p[3])\n ) {\n p[2] = '?'\n }\n }\n }\n\n this.debug(this.pattern, this.set)\n }\n\n // various transforms to equivalent pattern sets that are\n // faster to process in a filesystem walk. The goal is to\n // eliminate what we can, and push all ** patterns as far\n // to the right as possible, even if it increases the number\n // of patterns that we have to process.\n preprocess(globParts: string[][]) {\n // if we're not in globstar mode, then turn ** into *\n if (this.options.noglobstar) {\n for (let i = 0; i < globParts.length; i++) {\n for (let j = 0; j < globParts[i].length; j++) {\n if (globParts[i][j] === '**') {\n globParts[i][j] = '*'\n }\n }\n }\n }\n\n const { optimizationLevel = 1 } = this.options\n\n if (optimizationLevel >= 2) {\n // aggressive optimization for the purpose of fs walking\n globParts = this.firstPhasePreProcess(globParts)\n globParts = this.secondPhasePreProcess(globParts)\n } else if (optimizationLevel >= 1) {\n // just basic optimizations to remove some .. parts\n globParts = this.levelOneOptimize(globParts)\n } else {\n // just collapse multiple ** portions into one\n globParts = this.adjascentGlobstarOptimize(globParts)\n }\n\n return globParts\n }\n\n // just get rid of adjascent ** portions\n adjascentGlobstarOptimize(globParts: string[][]) {\n return globParts.map(parts => {\n let gs: number = -1\n while (-1 !== (gs = parts.indexOf('**', gs + 1))) {\n let i = gs\n while (parts[i + 1] === '**') {\n i++\n }\n if (i !== gs) {\n parts.splice(gs, i - gs)\n }\n }\n return parts\n })\n }\n\n // get rid of adjascent ** and resolve .. portions\n levelOneOptimize(globParts: string[][]) {\n return globParts.map(parts => {\n parts = parts.reduce((set: string[], part) => {\n const prev = set[set.length - 1]\n if (part === '**' && prev === '**') {\n return set\n }\n if (part === '..') {\n if (prev && prev !== '..' && prev !== '.' && prev !== '**') {\n set.pop()\n return set\n }\n }\n set.push(part)\n return set\n }, [])\n return parts.length === 0 ? [''] : parts\n })\n }\n\n levelTwoFileOptimize(parts: string | string[]) {\n if (!Array.isArray(parts)) {\n parts = this.slashSplit(parts)\n }\n let didSomething: boolean = false\n do {\n didSomething = false\n //
// -> 
/\n      if (!this.preserveMultipleSlashes) {\n        for (let i = 1; i < parts.length - 1; i++) {\n          const p = parts[i]\n          // don't squeeze out UNC patterns\n          if (i === 1 && p === '' && parts[0] === '') continue\n          if (p === '.' || p === '') {\n            didSomething = true\n            parts.splice(i, 1)\n            i--\n          }\n        }\n        if (\n          parts[0] === '.' &&\n          parts.length === 2 &&\n          (parts[1] === '.' || parts[1] === '')\n        ) {\n          didSomething = true\n          parts.pop()\n        }\n      }\n\n      // 
/

/../ ->

/\n      let dd: number = 0\n      while (-1 !== (dd = parts.indexOf('..', dd + 1))) {\n        const p = parts[dd - 1]\n        if (p && p !== '.' && p !== '..' && p !== '**') {\n          didSomething = true\n          parts.splice(dd - 1, 2)\n          dd -= 2\n        }\n      }\n    } while (didSomething)\n    return parts.length === 0 ? [''] : parts\n  }\n\n  // First phase: single-pattern processing\n  // 
 is 1 or more portions\n  //  is 1 or more portions\n  // 

is any portion other than ., .., '', or **\n // is . or ''\n //\n // **/.. is *brutal* for filesystem walking performance, because\n // it effectively resets the recursive walk each time it occurs,\n // and ** cannot be reduced out by a .. pattern part like a regexp\n // or most strings (other than .., ., and '') can be.\n //\n //

/**/../

/

/ -> {

/../

/

/,

/**/

/

/}\n //

// -> 
/\n  // 
/

/../ ->

/\n  // **/**/ -> **/\n  //\n  // **/*/ -> */**/ <== not valid because ** doesn't follow\n  // this WOULD be allowed if ** did follow symlinks, or * didn't\n  firstPhasePreProcess(globParts: string[][]) {\n    let didSomething = false\n    do {\n      didSomething = false\n      // 
/**/../

/

/ -> {

/../

/

/,

/**/

/

/}\n for (let parts of globParts) {\n let gs: number = -1\n while (-1 !== (gs = parts.indexOf('**', gs + 1))) {\n let gss: number = gs\n while (parts[gss + 1] === '**') {\n //

/**/**/ -> 
/**/\n            gss++\n          }\n          // eg, if gs is 2 and gss is 4, that means we have 3 **\n          // parts, and can remove 2 of them.\n          if (gss > gs) {\n            parts.splice(gs + 1, gss - gs)\n          }\n\n          let next = parts[gs + 1]\n          const p = parts[gs + 2]\n          const p2 = parts[gs + 3]\n          if (next !== '..') continue\n          if (\n            !p ||\n            p === '.' ||\n            p === '..' ||\n            !p2 ||\n            p2 === '.' ||\n            p2 === '..'\n          ) {\n            continue\n          }\n          didSomething = true\n          // edit parts in place, and push the new one\n          parts.splice(gs, 1)\n          const other = parts.slice(0)\n          other[gs] = '**'\n          globParts.push(other)\n          gs--\n        }\n\n        // 
// -> 
/\n        if (!this.preserveMultipleSlashes) {\n          for (let i = 1; i < parts.length - 1; i++) {\n            const p = parts[i]\n            // don't squeeze out UNC patterns\n            if (i === 1 && p === '' && parts[0] === '') continue\n            if (p === '.' || p === '') {\n              didSomething = true\n              parts.splice(i, 1)\n              i--\n            }\n          }\n          if (\n            parts[0] === '.' &&\n            parts.length === 2 &&\n            (parts[1] === '.' || parts[1] === '')\n          ) {\n            didSomething = true\n            parts.pop()\n          }\n        }\n\n        // 
/

/../ ->

/\n        let dd: number = 0\n        while (-1 !== (dd = parts.indexOf('..', dd + 1))) {\n          const p = parts[dd - 1]\n          if (p && p !== '.' && p !== '..' && p !== '**') {\n            didSomething = true\n            const needDot = dd === 1 && parts[dd + 1] === '**'\n            const splin = needDot ? ['.'] : []\n            parts.splice(dd - 1, 2, ...splin)\n            if (parts.length === 0) parts.push('')\n            dd -= 2\n          }\n        }\n      }\n    } while (didSomething)\n\n    return globParts\n  }\n\n  // second phase: multi-pattern dedupes\n  // {
/*/,
/

/} ->

/*/\n  // {
/,
/} -> 
/\n  // {
/**/,
/} -> 
/**/\n  //\n  // {
/**/,
/**/

/} ->

/**/\n  // ^-- not valid because ** doens't follow symlinks\n  secondPhasePreProcess(globParts: string[][]): string[][] {\n    for (let i = 0; i < globParts.length - 1; i++) {\n      for (let j = i + 1; j < globParts.length; j++) {\n        const matched = this.partsMatch(\n          globParts[i],\n          globParts[j],\n          !this.preserveMultipleSlashes,\n        )\n        if (matched) {\n          globParts[i] = []\n          globParts[j] = matched\n          break\n        }\n      }\n    }\n    return globParts.filter(gs => gs.length)\n  }\n\n  partsMatch(\n    a: string[],\n    b: string[],\n    emptyGSMatch: boolean = false,\n  ): false | string[] {\n    let ai = 0\n    let bi = 0\n    let result: string[] = []\n    let which: string = ''\n    while (ai < a.length && bi < b.length) {\n      if (a[ai] === b[bi]) {\n        result.push(which === 'b' ? b[bi] : a[ai])\n        ai++\n        bi++\n      } else if (emptyGSMatch && a[ai] === '**' && b[bi] === a[ai + 1]) {\n        result.push(a[ai])\n        ai++\n      } else if (emptyGSMatch && b[bi] === '**' && a[ai] === b[bi + 1]) {\n        result.push(b[bi])\n        bi++\n      } else if (\n        a[ai] === '*' &&\n        b[bi] &&\n        (this.options.dot || !b[bi].startsWith('.')) &&\n        b[bi] !== '**'\n      ) {\n        if (which === 'b') return false\n        which = 'a'\n        result.push(a[ai])\n        ai++\n        bi++\n      } else if (\n        b[bi] === '*' &&\n        a[ai] &&\n        (this.options.dot || !a[ai].startsWith('.')) &&\n        a[ai] !== '**'\n      ) {\n        if (which === 'a') return false\n        which = 'b'\n        result.push(b[bi])\n        ai++\n        bi++\n      } else {\n        return false\n      }\n    }\n    // if we fall out of the loop, it means they two are identical\n    // as long as their lengths match\n    return a.length === b.length && result\n  }\n\n  parseNegate() {\n    if (this.nonegate) return\n\n    const pattern = this.pattern\n    let negate = false\n    let negateOffset = 0\n\n    for (let i = 0; i < pattern.length && pattern.charAt(i) === '!'; i++) {\n      negate = !negate\n      negateOffset++\n    }\n\n    if (negateOffset) this.pattern = pattern.slice(negateOffset)\n    this.negate = negate\n  }\n\n  // set partial to true to test if, for example,\n  // \"/a/b\" matches the start of \"/*/b/*/d\"\n  // Partial means, if you run out of file before you run\n  // out of pattern, then that's fine, as long as all\n  // the parts match.\n  matchOne(\n    file: string[],\n    pattern: ParseReturn[],\n    partial: boolean = false,\n  ) {\n    let fileStartIndex = 0\n    let patternStartIndex = 0\n\n    // UNC paths like //?/X:/... can match X:/... and vice versa\n    // Drive letters in absolute drive or unc paths are always compared\n    // case-insensitively.\n    if (this.isWindows) {\n      const fileDrive =\n        typeof file[0] === 'string' && /^[a-z]:$/i.test(file[0])\n      const fileUNC =\n        !fileDrive &&\n        file[0] === '' &&\n        file[1] === '' &&\n        file[2] === '?' &&\n        /^[a-z]:$/i.test(file[3])\n\n      const patternDrive =\n        typeof pattern[0] === 'string' && /^[a-z]:$/i.test(pattern[0])\n      const patternUNC =\n        !patternDrive &&\n        pattern[0] === '' &&\n        pattern[1] === '' &&\n        pattern[2] === '?' &&\n        typeof pattern[3] === 'string' &&\n        /^[a-z]:$/i.test(pattern[3])\n\n      const fdi =\n        fileUNC ? 3\n        : fileDrive ? 0\n        : undefined\n      const pdi =\n        patternUNC ? 3\n        : patternDrive ? 0\n        : undefined\n      if (typeof fdi === 'number' && typeof pdi === 'number') {\n        const [fd, pd]: [string, string] = [\n          file[fdi],\n          pattern[pdi] as string,\n        ]\n        // start matching at the drive letter index of each\n        if (fd.toLowerCase() === pd.toLowerCase()) {\n          pattern[pdi] = fd\n          patternStartIndex = pdi\n          fileStartIndex = fdi\n        }\n      }\n    }\n\n    // resolve and reduce . and .. portions in the file as well.\n    // don't need to do the second phase, because it's only one string[]\n    const { optimizationLevel = 1 } = this.options\n    if (optimizationLevel >= 2) {\n      file = this.levelTwoFileOptimize(file)\n    }\n\n    if (pattern.includes(GLOBSTAR)) {\n      return this.#matchGlobstar(\n        file,\n        pattern,\n        partial,\n        fileStartIndex,\n        patternStartIndex,\n      )\n    }\n\n    return this.#matchOne(\n      file,\n      pattern,\n      partial,\n      fileStartIndex,\n      patternStartIndex,\n    )\n  }\n\n  #matchGlobstar(\n    file: string[],\n    pattern: ParseReturn[],\n    partial: boolean,\n    fileIndex: number,\n    patternIndex: number,\n  ) {\n    // split the pattern into head, tail, and middle of ** delimited parts\n    const firstgs = pattern.indexOf(GLOBSTAR, patternIndex)\n    const lastgs = pattern.lastIndexOf(GLOBSTAR)\n\n    // split the pattern up into globstar-delimited sections\n    // the tail has to be at the end, and the others just have\n    // to be found in order from the head.\n    const [head, body, tail] = partial ? [\n      pattern.slice(patternIndex, firstgs),\n      pattern.slice(firstgs + 1),\n      [],\n    ] : [\n      pattern.slice(patternIndex, firstgs),\n      pattern.slice(firstgs + 1, lastgs),\n      pattern.slice(lastgs + 1),\n    ]\n\n    // check the head, from the current file/pattern index.\n    if (head.length) {\n      const fileHead = file.slice(fileIndex, fileIndex + head.length)\n      if (!this.#matchOne(fileHead, head, partial, 0, 0)) {\n        return false\n      }\n      fileIndex += head.length\n      patternIndex += head.length\n    }\n    // now we know the head matches!\n\n    // if the last portion is not empty, it MUST match the end\n    // check the tail\n    let fileTailMatch: number = 0\n    if (tail.length) {\n      // if head + tail > file, then we cannot possibly match\n      if (tail.length + fileIndex > file.length) return false\n\n      // try to match the tail\n      let tailStart = file.length - tail.length\n      if (this.#matchOne(file, tail, partial, tailStart, 0)) {\n        fileTailMatch = tail.length\n      } else {\n        // affordance for stuff like a/**/* matching a/b/\n        // if the last file portion is '', and there's more to the pattern\n        // then try without the '' bit.\n        if (\n          file[file.length - 1] !== '' ||\n          fileIndex + tail.length === file.length\n        ) {\n          return false\n        }\n        tailStart--\n        if (!this.#matchOne(file, tail, partial, tailStart, 0)) {\n          return false\n        }\n        fileTailMatch = tail.length + 1\n      }\n    }\n\n    // now we know the tail matches!\n\n    // the middle is zero or more portions wrapped in **, possibly\n    // containing more ** sections.\n    // so a/**/b/**/c/**/d has become **/b/**/c/**\n    // if it's empty, it means a/**/b, just verify we have no bad dots\n    // if there's no tail, so it ends on /**, then we must have *something*\n    // after the head, or it's not a matc\n    if (!body.length) {\n      let sawSome = !!fileTailMatch\n      for (let i = fileIndex; i < file.length - fileTailMatch; i++) {\n        const f = String(file[i])\n        sawSome = true\n        if (\n          f === '.' ||\n          f === '..' ||\n          (!this.options.dot && f.startsWith('.'))\n        ) {\n          return false\n        }\n      }\n      // in partial mode, we just need to get past all file parts\n      return partial || sawSome\n    }\n\n    // now we know that there's one or more body sections, which can\n    // be matched anywhere from the 0 index (because the head was pruned)\n    // through to the length-fileTailMatch index.\n    // split the body up into sections, and note the minimum index it can\n    // be found at (start with the length of all previous segments)\n    // [section, before, after]\n    const bodySegments: [ParseReturn[], number][] = [[[], 0]]\n    let currentBody: [ParseReturn[], number] = bodySegments[0]\n    let nonGsParts = 0\n    const nonGsPartsSums: number[] = [0]\n    for (const b of body) {\n      if (b === GLOBSTAR) {\n        nonGsPartsSums.push(nonGsParts)\n        currentBody = [[], 0]\n        bodySegments.push(currentBody)\n      } else {\n        currentBody[0].push(b)\n        nonGsParts++\n      }\n    }\n    let i = bodySegments.length - 1\n    const fileLength = file.length - fileTailMatch\n    for (const b of bodySegments) {\n      b[1] = fileLength - ((nonGsPartsSums[i--] as number) + b[0].length)\n    }\n\n    return !!this.#matchGlobStarBodySections(\n      file,\n      bodySegments,\n      fileIndex,\n      0,\n      partial,\n      0,\n      !!fileTailMatch,\n    )\n  }\n\n  // return false for \"nope, not matching\"\n  // return null for \"not matching, cannot keep trying\"\n  #matchGlobStarBodySections(\n    file: string[],\n    // pattern section, last possible position for it\n    bodySegments: [ParseReturn[], number][],\n    fileIndex: number,\n    bodyIndex: number,\n    partial: boolean,\n    globStarDepth: number,\n    sawTail: boolean,\n  ): boolean | null {\n    // take the first body segment, and walk from fileIndex to its \"after\"\n    // value at the end\n    // If it doesn't match at that position, we increment, until we hit\n    // that final possible position, and give up.\n    // If it does match, then advance and try to rest.\n    // If any of them fail we keep walking forward.\n    // this is still a bit recursively painful, but it's more constrained\n    // than previous implementations, because we never test something that\n    // can't possibly be a valid matching condition.\n    const bs = bodySegments[bodyIndex]\n    if (!bs) {\n      // just make sure that there's no bad dots\n      for (let i = fileIndex; i < file.length; i++) {\n        sawTail = true\n        const f = file[i]\n        if (\n          f === '.' ||\n          f === '..' ||\n          (!this.options.dot && f.startsWith('.'))\n        ) {\n          return false\n        }\n      }\n      return sawTail\n    }\n\n    // have a non-globstar body section to test\n    const [body, after] = bs\n    while (fileIndex <= after) {\n      const m = this.#matchOne(\n        file.slice(0, fileIndex + body.length),\n        body,\n        partial,\n        fileIndex,\n        0,\n      )\n      // if limit exceeded, no match. intentional false negative,\n      // acceptable break in correctness for security.\n      if (m && globStarDepth < this.maxGlobstarRecursion) {\n        // match! see if the rest match. if so, we're done!\n        const sub = this.#matchGlobStarBodySections(\n          file,\n          bodySegments,\n          fileIndex + body.length,\n          bodyIndex + 1,\n          partial,\n          globStarDepth + 1,\n          sawTail,\n        )\n        if (sub !== false) {\n          return sub\n        }\n      }\n      const f = file[fileIndex]\n      if (\n        f === '.' ||\n        f === '..' ||\n        (!this.options.dot && f.startsWith('.'))\n      ) {\n        return false\n      }\n\n      fileIndex++\n    }\n    // walked off. no point continuing\n    return partial || null\n  }\n\n  #matchOne(\n    file: string[],\n    pattern: ParseReturn[],\n    partial: boolean,\n    fileIndex: number,\n    patternIndex: number,\n  ) {\n    let fi: number\n    let pi: number\n    let pl: number\n    let fl: number\n    for (\n      fi = fileIndex,\n        pi = patternIndex,\n        fl = file.length,\n        pl = pattern.length;\n      fi < fl && pi < pl;\n      fi++, pi++\n    ) {\n      this.debug('matchOne loop')\n      let p = pattern[pi]\n      let f = file[fi]\n\n      this.debug(pattern, p, f)\n\n      // should be impossible.\n      // some invalid regexp stuff in the set.\n      /* c8 ignore start */\n      if (p === false || p === GLOBSTAR) {\n        return false\n      }\n      /* c8 ignore stop */\n\n      // something other than **\n      // non-magic patterns just have to match exactly\n      // patterns with magic have been turned into regexps.\n      let hit: boolean\n      if (typeof p === 'string') {\n        hit = f === p\n        this.debug('string match', p, f, hit)\n      } else {\n        hit = p.test(f)\n        this.debug('pattern match', p, f, hit)\n      }\n\n      if (!hit) return false\n    }\n\n    // Note: ending in / means that we'll get a final \"\"\n    // at the end of the pattern.  This can only match a\n    // corresponding \"\" at the end of the file.\n    // If the file ends in /, then it can only match a\n    // a pattern that ends in /, unless the pattern just\n    // doesn't have any more for it. But, a/b/ should *not*\n    // match \"a/b/*\", even though \"\" matches against the\n    // [^/]*? pattern, except in partial mode, where it might\n    // simply not be reached yet.\n    // However, a/b/ should still satisfy a/*\n\n    // now either we fell off the end of the pattern, or we're done.\n    if (fi === fl && pi === pl) {\n      // ran out of pattern and filename at the same time.\n      // an exact hit!\n      return true\n    } else if (fi === fl) {\n      // ran out of file, but still had pattern left.\n      // this is ok if we're doing the match as part of\n      // a glob fs traversal.\n      return partial\n    } else if (pi === pl) {\n      // ran out of pattern, still have file left.\n      // this is only acceptable if we're on the very last\n      // empty segment of a file with a trailing slash.\n      // a/* should match a/b/\n      return fi === fl - 1 && file[fi] === ''\n\n      /* c8 ignore start */\n    } else {\n      // should be unreachable.\n      throw new Error('wtf?')\n    }\n    /* c8 ignore stop */\n  }\n\n  braceExpand() {\n    return braceExpand(this.pattern, this.options)\n  }\n\n  parse(pattern: string): ParseReturn {\n    assertValidPattern(pattern)\n\n    const options = this.options\n\n    // shortcuts\n    if (pattern === '**') return GLOBSTAR\n    if (pattern === '') return ''\n\n    // far and away, the most common glob pattern parts are\n    // *, *.*, and *.  Add a fast check method for those.\n    let m: RegExpMatchArray | null\n    let fastTest: null | ((f: string) => boolean) = null\n    if ((m = pattern.match(starRE))) {\n      fastTest = options.dot ? starTestDot : starTest\n    } else if ((m = pattern.match(starDotExtRE))) {\n      fastTest = (\n        options.nocase ?\n          options.dot ?\n            starDotExtTestNocaseDot\n          : starDotExtTestNocase\n        : options.dot ? starDotExtTestDot\n        : starDotExtTest)(m[1])\n    } else if ((m = pattern.match(qmarksRE))) {\n      fastTest = (\n        options.nocase ?\n          options.dot ?\n            qmarksTestNocaseDot\n          : qmarksTestNocase\n        : options.dot ? qmarksTestDot\n        : qmarksTest)(m)\n    } else if ((m = pattern.match(starDotStarRE))) {\n      fastTest = options.dot ? starDotStarTestDot : starDotStarTest\n    } else if ((m = pattern.match(dotStarRE))) {\n      fastTest = dotStarTest\n    }\n\n    const re = AST.fromGlob(pattern, this.options).toMMPattern()\n    if (fastTest && typeof re === 'object') {\n      // Avoids overriding in frozen environments\n      Reflect.defineProperty(re, 'test', { value: fastTest })\n    }\n    return re\n  }\n\n  makeRe() {\n    if (this.regexp || this.regexp === false) return this.regexp\n\n    // at this point, this.set is a 2d array of partial\n    // pattern strings, or \"**\".\n    //\n    // It's better to use .match().  This function shouldn't\n    // be used, really, but it's pretty convenient sometimes,\n    // when you just want to work with a regex.\n    const set = this.set\n\n    if (!set.length) {\n      this.regexp = false\n      return this.regexp\n    }\n    const options = this.options\n\n    const twoStar =\n      options.noglobstar ? star\n      : options.dot ? twoStarDot\n      : twoStarNoDot\n    const flags = new Set(options.nocase ? ['i'] : [])\n\n    // regexpify non-globstar patterns\n    // if ** is only item, then we just do one twoStar\n    // if ** is first, and there are more, prepend (\\/|twoStar\\/)? to next\n    // if ** is last, append (\\/twoStar|) to previous\n    // if ** is in the middle, append (\\/|\\/twoStar\\/) to previous\n    // then filter out GLOBSTAR symbols\n    let re = set\n      .map(pattern => {\n        const pp: (string | typeof GLOBSTAR)[] = pattern.map(p => {\n          if (p instanceof RegExp) {\n            for (const f of p.flags.split('')) flags.add(f)\n          }\n          return (\n            typeof p === 'string' ? regExpEscape(p)\n            : p === GLOBSTAR ? GLOBSTAR\n            : p._src\n          )\n        }) as (string | typeof GLOBSTAR)[]\n        pp.forEach((p, i) => {\n          const next = pp[i + 1]\n          const prev = pp[i - 1]\n          if (p !== GLOBSTAR || prev === GLOBSTAR) {\n            return\n          }\n          if (prev === undefined) {\n            if (next !== undefined && next !== GLOBSTAR) {\n              pp[i + 1] = '(?:\\\\/|' + twoStar + '\\\\/)?' + next\n            } else {\n              pp[i] = twoStar\n            }\n          } else if (next === undefined) {\n            pp[i - 1] = prev + '(?:\\\\/|\\\\/' + twoStar + ')?'\n          } else if (next !== GLOBSTAR) {\n            pp[i - 1] = prev + '(?:\\\\/|\\\\/' + twoStar + '\\\\/)' + next\n            pp[i + 1] = GLOBSTAR\n          }\n        })\n        const filtered = pp.filter(p => p !== GLOBSTAR)\n\n        // For partial matches, we need to make the pattern match\n        // any prefix of the full path. We do this by generating\n        // alternative patterns that match progressively longer prefixes.\n        if (this.partial && filtered.length >= 1) {\n          const prefixes: string[] = []\n          for (let i = 1; i <= filtered.length; i++) {\n            prefixes.push(filtered.slice(0, i).join('/'))\n          }\n          return '(?:' + prefixes.join('|') + ')'\n        }\n\n        return filtered.join('/')\n      })\n      .join('|')\n\n    // need to wrap in parens if we had more than one thing with |,\n    // otherwise only the first will be anchored to ^ and the last to $\n    const [open, close] = set.length > 1 ? ['(?:', ')'] : ['', '']\n    // must match entire pattern\n    // ending in a * or ** will make it less strict.\n    re = '^' + open + re + close + '$'\n\n    // In partial mode, '/' should always match as it's a valid prefix for any pattern\n    if (this.partial) {\n      re = '^(?:\\\\/|' + open + re.slice(1, -1) + close + ')$'\n    }\n\n    // can match anything, as long as it's not this.\n    if (this.negate) re = '^(?!' + re + ').+$'\n\n    try {\n      this.regexp = new RegExp(re, [...flags].join(''))\n      /* c8 ignore start */\n    } catch (ex) {\n      // should be impossible\n      this.regexp = false\n    }\n    /* c8 ignore stop */\n    return this.regexp\n  }\n\n  slashSplit(p: string) {\n    // if p starts with // on windows, we preserve that\n    // so that UNC paths aren't broken.  Otherwise, any number of\n    // / characters are coalesced into one, unless\n    // preserveMultipleSlashes is set to true.\n    if (this.preserveMultipleSlashes) {\n      return p.split('/')\n    } else if (this.isWindows && /^\\/\\/[^\\/]+/.test(p)) {\n      // add an extra '' for the one we lose\n      return ['', ...p.split(/\\/+/)]\n    } else {\n      return p.split(/\\/+/)\n    }\n  }\n\n  match(f: string, partial = this.partial) {\n    this.debug('match', f, this.pattern)\n    // short-circuit in the case of busted things.\n    // comments, etc.\n    if (this.comment) {\n      return false\n    }\n    if (this.empty) {\n      return f === ''\n    }\n\n    if (f === '/' && partial) {\n      return true\n    }\n\n    const options = this.options\n\n    // windows: need to use /, not \\\n    if (this.isWindows) {\n      f = f.split('\\\\').join('/')\n    }\n\n    // treat the test path as a set of pathparts.\n    const ff = this.slashSplit(f)\n    this.debug(this.pattern, 'split', ff)\n\n    // just ONE of the pattern sets in this.set needs to match\n    // in order for it to be valid.  If negating, then just one\n    // match means that we have failed.\n    // Either way, return on the first hit.\n\n    const set = this.set\n    this.debug(this.pattern, 'set', set)\n\n    // Find the basename of the path by looking for the last non-empty segment\n    let filename: string = ff[ff.length - 1]\n    if (!filename) {\n      for (let i = ff.length - 2; !filename && i >= 0; i--) {\n        filename = ff[i]\n      }\n    }\n\n    for (let i = 0; i < set.length; i++) {\n      const pattern = set[i]\n      let file = ff\n      if (options.matchBase && pattern.length === 1) {\n        file = [filename]\n      }\n      const hit = this.matchOne(file, pattern, partial)\n      if (hit) {\n        if (options.flipNegate) {\n          return true\n        }\n        return !this.negate\n      }\n    }\n\n    // didn't get any hits.  this is success if it's a negative\n    // pattern, failure otherwise.\n    if (options.flipNegate) {\n      return false\n    }\n    return this.negate\n  }\n\n  static defaults(def: MinimatchOptions) {\n    return minimatch.defaults(def).Minimatch\n  }\n}\n/* c8 ignore start */\nexport { AST } from './ast.js'\nexport { escape } from './escape.js'\nexport { unescape } from './unescape.js'\n/* c8 ignore stop */\nminimatch.AST = AST\nminimatch.Minimatch = Minimatch\nminimatch.escape = escape\nminimatch.unescape = unescape\n"]}
\ No newline at end of file
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{ expand } from 'brace-expansion'\nimport { assertValidPattern } from './assert-valid-pattern.js'\nimport type { ExtglobType } from './ast.js'\nimport { AST } from './ast.js'\nimport { escape } from './escape.js'\nimport { unescape } from './unescape.js'\n\nexport type Platform =\n  | 'aix'\n  | 'android'\n  | 'darwin'\n  | 'freebsd'\n  | 'haiku'\n  | 'linux'\n  | 'openbsd'\n  | 'sunos'\n  | 'win32'\n  | 'cygwin'\n  | 'netbsd'\n\nexport interface MinimatchOptions {\n  /** do not expand `{x,y}` style braces */\n  nobrace?: boolean\n  /** do not treat patterns starting with `#` as a comment */\n  nocomment?: boolean\n  /** do not treat patterns starting with `!` as a negation */\n  nonegate?: boolean\n  /** print LOTS of debugging output */\n  debug?: boolean\n  /** treat `**` the same as `*` */\n  noglobstar?: boolean\n  /** do not expand extglobs like `+(a|b)` */\n  noext?: boolean\n  /** return the pattern if nothing matches */\n  nonull?: boolean\n  /** treat `\\\\` as a path separator, not an escape character */\n  windowsPathsNoEscape?: boolean\n  /**\n   * inverse of {@link MinimatchOptions.windowsPathsNoEscape}\n   * @deprecated\n   */\n  allowWindowsEscape?: boolean\n  /**\n   * Compare a partial path to a pattern. As long as the parts\n   * of the path that are present are not contradicted by the\n   * pattern, it will be treated as a match. This is useful in\n   * applications where you're walking through a folder structure,\n   * and don't yet have the full path, but want to ensure that you\n   * do not walk down paths that can never be a match.\n   */\n  partial?: boolean\n  /** allow matches that start with `.` even if the pattern does not */\n  dot?: boolean\n  /** ignore case */\n  nocase?: boolean\n  /** ignore case only in wildcard patterns */\n  nocaseMagicOnly?: boolean\n  /** consider braces to be \"magic\" for the purpose of `hasMagic` */\n  magicalBraces?: boolean\n  /**\n   * If set, then patterns without slashes will be matched\n   * against the basename of the path if it contains slashes.\n   * For example, `a?b` would match the path `/xyz/123/acb`, but\n   * not `/xyz/acb/123`.\n   */\n  matchBase?: boolean\n  /** invert the results of negated matches */\n  flipNegate?: boolean\n  /** do not collapse multiple `/` into a single `/` */\n  preserveMultipleSlashes?: boolean\n  /**\n   * A number indicating the level of optimization that should be done\n   * to the pattern prior to parsing and using it for matches.\n   */\n  optimizationLevel?: number\n  /** operating system platform */\n  platform?: Platform\n  /**\n   * When a pattern starts with a UNC path or drive letter, and in\n   * `nocase:true` mode, do not convert the root portions of the\n   * pattern into a case-insensitive regular expression, and instead\n   * leave them as strings.\n   *\n   * This is the default when the platform is `win32` and\n   * `nocase:true` is set.\n   */\n  windowsNoMagicRoot?: boolean\n  /**\n   * max number of `{...}` patterns to expand. Default 100_000.\n   */\n  braceExpandMax?: number\n  /**\n   * Max number of non-adjacent `**` patterns to recursively walk down.\n   *\n   * The default of 200 is almost certainly high enough for most purposes,\n   * and can handle absurdly excessive patterns.\n   */\n  maxGlobstarRecursion?: number\n\n  /**\n   * Max depth to traverse for nested extglobs like `*(a|b|c)`\n   *\n   * Default is 2, which is quite low, but any higher value\n   * swiftly results in punishing performance impacts. Note\n   * that this is *not*  relevant when the globstar types can\n   * be safely coalesced into a single set.\n   *\n   * For example, `*(a|@(b|c)|d)` would be flattened into\n   * `*(a|b|c|d)`. Thus, many common extglobs will retain good\n   * performance and  never hit this limit, even if they are\n   * excessively deep and complicated.\n   *\n   * If the limit is hit, then the extglob characters are simply\n   * not parsed, and the pattern effectively switches into\n   * `noextglob: true` mode for the contents of that nested\n   * sub-pattern. This will typically _not_ result in a match,\n   * but is considered a valid trade-off for security and\n   * performance.\n   */\n  maxExtglobRecursion?: number\n}\n\nexport const minimatch = (\n  p: string,\n  pattern: string,\n  options: MinimatchOptions = {},\n) => {\n  assertValidPattern(pattern)\n\n  // shortcut: comments match nothing.\n  if (!options.nocomment && pattern.charAt(0) === '#') {\n    return false\n  }\n\n  return new Minimatch(pattern, options).match(p)\n}\n\n// Optimized checking for the most common glob patterns.\nconst starDotExtRE = /^\\*+([^+@!?*[(]*)$/\nconst starDotExtTest = (ext: string) => (f: string) =>\n  !f.startsWith('.') && f.endsWith(ext)\nconst starDotExtTestDot = (ext: string) => (f: string) => f.endsWith(ext)\nconst starDotExtTestNocase = (ext: string) => {\n  ext = ext.toLowerCase()\n  return (f: string) => !f.startsWith('.') && f.toLowerCase().endsWith(ext)\n}\nconst starDotExtTestNocaseDot = (ext: string) => {\n  ext = ext.toLowerCase()\n  return (f: string) => f.toLowerCase().endsWith(ext)\n}\nconst starDotStarRE = /^\\*+\\.\\*+$/\nconst starDotStarTest = (f: string) =>\n  !f.startsWith('.') && f.includes('.')\nconst starDotStarTestDot = (f: string) =>\n  f !== '.' && f !== '..' && f.includes('.')\nconst dotStarRE = /^\\.\\*+$/\nconst dotStarTest = (f: string) =>\n  f !== '.' && f !== '..' && f.startsWith('.')\nconst starRE = /^\\*+$/\nconst starTest = (f: string) => f.length !== 0 && !f.startsWith('.')\nconst starTestDot = (f: string) =>\n  f.length !== 0 && f !== '.' && f !== '..'\nconst qmarksRE = /^\\?+([^+@!?*[(]*)?$/\nconst qmarksTestNocase = ([$0, ext = '']: RegExpMatchArray) => {\n  const noext = qmarksTestNoExt([$0])\n  if (!ext) return noext\n  ext = ext.toLowerCase()\n  return (f: string) => noext(f) && f.toLowerCase().endsWith(ext)\n}\nconst qmarksTestNocaseDot = ([$0, ext = '']: RegExpMatchArray) => {\n  const noext = qmarksTestNoExtDot([$0])\n  if (!ext) return noext\n  ext = ext.toLowerCase()\n  return (f: string) => noext(f) && f.toLowerCase().endsWith(ext)\n}\nconst qmarksTestDot = ([$0, ext = '']: RegExpMatchArray) => {\n  const noext = qmarksTestNoExtDot([$0])\n  return !ext ? noext : (f: string) => noext(f) && f.endsWith(ext)\n}\nconst qmarksTest = ([$0, ext = '']: RegExpMatchArray) => {\n  const noext = qmarksTestNoExt([$0])\n  return !ext ? noext : (f: string) => noext(f) && f.endsWith(ext)\n}\nconst qmarksTestNoExt = ([$0]: RegExpMatchArray) => {\n  const len = $0.length\n  return (f: string) => f.length === len && !f.startsWith('.')\n}\nconst qmarksTestNoExtDot = ([$0]: RegExpMatchArray) => {\n  const len = $0.length\n  return (f: string) => f.length === len && f !== '.' && f !== '..'\n}\n\n/* c8 ignore start */\nconst defaultPlatform: Platform = (\n  typeof process === 'object' && process ?\n    (typeof process.env === 'object' &&\n      process.env &&\n      process.env.__MINIMATCH_TESTING_PLATFORM__) ||\n    process.platform\n  : 'posix') as Platform\n\nexport type Sep = '\\\\' | '/'\n\nconst path: { [k: string]: { sep: Sep } } = {\n  win32: { sep: '\\\\' },\n  posix: { sep: '/' },\n}\n/* c8 ignore stop */\n\nexport const sep =\n  defaultPlatform === 'win32' ? path.win32.sep : path.posix.sep\nminimatch.sep = sep\n\nexport const GLOBSTAR = Symbol('globstar **')\nminimatch.GLOBSTAR = GLOBSTAR\n\n// any single thing other than /\n// don't need to escape / when using new RegExp()\nconst qmark = '[^/]'\n\n// * => any number of characters\nconst star = qmark + '*?'\n\n// ** when dots are allowed.  Anything goes, except .. and .\n// not (^ or / followed by one or two dots followed by $ or /),\n// followed by anything, any number of times.\nconst twoStarDot = '(?:(?!(?:\\\\/|^)(?:\\\\.{1,2})($|\\\\/)).)*?'\n\n// not a ^ or / followed by a dot,\n// followed by anything, any number of times.\nconst twoStarNoDot = '(?:(?!(?:\\\\/|^)\\\\.).)*?'\n\nexport const filter =\n  (pattern: string, options: MinimatchOptions = {}) =>\n  (p: string) =>\n    minimatch(p, pattern, options)\nminimatch.filter = filter\n\nconst ext = (a: MinimatchOptions, b: MinimatchOptions = {}) =>\n  Object.assign({}, a, b)\n\nexport const defaults = (def: MinimatchOptions): typeof minimatch => {\n  if (!def || typeof def !== 'object' || !Object.keys(def).length) {\n    return minimatch\n  }\n\n  const orig = minimatch\n\n  const m = (p: string, pattern: string, options: MinimatchOptions = {}) =>\n    orig(p, pattern, ext(def, options))\n\n  return Object.assign(m, {\n    Minimatch: class Minimatch extends orig.Minimatch {\n      constructor(pattern: string, options: MinimatchOptions = {}) {\n        super(pattern, ext(def, options))\n      }\n      static defaults(options: MinimatchOptions) {\n        return orig.defaults(ext(def, options)).Minimatch\n      }\n    },\n\n    AST: class AST extends orig.AST {\n      /* c8 ignore start */\n      constructor(\n        type: ExtglobType | null,\n        parent?: AST,\n        options: MinimatchOptions = {},\n      ) {\n        super(type, parent, ext(def, options))\n      }\n      /* c8 ignore stop */\n\n      static fromGlob(pattern: string, options: MinimatchOptions = {}) {\n        return orig.AST.fromGlob(pattern, ext(def, options))\n      }\n    },\n\n    unescape: (\n      s: string,\n      options: Pick<\n        MinimatchOptions,\n        'windowsPathsNoEscape' | 'magicalBraces'\n      > = {},\n    ) => orig.unescape(s, ext(def, options)),\n\n    escape: (\n      s: string,\n      options: Pick<\n        MinimatchOptions,\n        'windowsPathsNoEscape' | 'magicalBraces'\n      > = {},\n    ) => orig.escape(s, ext(def, options)),\n\n    filter: (pattern: string, options: MinimatchOptions = {}) =>\n      orig.filter(pattern, ext(def, options)),\n\n    defaults: (options: MinimatchOptions) =>\n      orig.defaults(ext(def, options)),\n\n    makeRe: (pattern: string, options: MinimatchOptions = {}) =>\n      orig.makeRe(pattern, ext(def, options)),\n\n    braceExpand: (pattern: string, options: MinimatchOptions = {}) =>\n      orig.braceExpand(pattern, ext(def, options)),\n\n    match: (\n      list: string[],\n      pattern: string,\n      options: MinimatchOptions = {},\n    ) => orig.match(list, pattern, ext(def, options)),\n\n    sep: orig.sep,\n    GLOBSTAR: GLOBSTAR as typeof GLOBSTAR,\n  })\n}\nminimatch.defaults = defaults\n\n// Brace expansion:\n// a{b,c}d -> abd acd\n// a{b,}c -> abc ac\n// a{0..3}d -> a0d a1d a2d a3d\n// a{b,c{d,e}f}g -> abg acdfg acefg\n// a{b,c}d{e,f}g -> abdeg acdeg abdeg abdfg\n//\n// Invalid sets are not expanded.\n// a{2..}b -> a{2..}b\n// a{b}c -> a{b}c\nexport const braceExpand = (\n  pattern: string,\n  options: MinimatchOptions = {},\n) => {\n  assertValidPattern(pattern)\n\n  // Thanks to Yeting Li  for\n  // improving this regexp to avoid a ReDOS vulnerability.\n  if (options.nobrace || !/\\{(?:(?!\\{).)*\\}/.test(pattern)) {\n    // shortcut. no need to expand.\n    return [pattern]\n  }\n\n  return expand(pattern, { max: options.braceExpandMax })\n}\nminimatch.braceExpand = braceExpand\n\n// parse a component of the expanded set.\n// At this point, no pattern may contain \"/\" in it\n// so we're going to return a 2d array, where each entry is the full\n// pattern, split on '/', and then turned into a regular expression.\n// A regexp is made at the end which joins each array with an\n// escaped /, and another full one which joins each regexp with |.\n//\n// Following the lead of Bash 4.1, note that \"**\" only has special meaning\n// when it is the *only* thing in a path portion.  Otherwise, any series\n// of * is equivalent to a single *.  Globstar behavior is enabled by\n// default, and can be disabled by setting options.noglobstar.\n\nexport const makeRe = (pattern: string, options: MinimatchOptions = {}) =>\n  new Minimatch(pattern, options).makeRe()\nminimatch.makeRe = makeRe\n\nexport const match = (\n  list: string[],\n  pattern: string,\n  options: MinimatchOptions = {},\n) => {\n  const mm = new Minimatch(pattern, options)\n  list = list.filter(f => mm.match(f))\n  if (mm.options.nonull && !list.length) {\n    list.push(pattern)\n  }\n  return list\n}\nminimatch.match = match\n\n// replace stuff like \\* with *\nconst globMagic = /[?*]|[+@!]\\(.*?\\)|\\[|\\]/\nconst regExpEscape = (s: string) =>\n  s.replace(/[-[\\]{}()*+?.,\\\\^$|#\\s]/g, '\\\\$&')\n\nexport type MMRegExp = RegExp & {\n  _src?: string\n  _glob?: string\n}\n\nexport type ParseReturnFiltered = string | MMRegExp | typeof GLOBSTAR\nexport type ParseReturn = ParseReturnFiltered | false\n\nexport class Minimatch {\n  options: MinimatchOptions\n  set: ParseReturnFiltered[][]\n  pattern: string\n\n  windowsPathsNoEscape: boolean\n  nonegate: boolean\n  negate: boolean\n  comment: boolean\n  empty: boolean\n  preserveMultipleSlashes: boolean\n  partial: boolean\n  globSet: string[]\n  globParts: string[][]\n  nocase: boolean\n\n  isWindows: boolean\n  platform: Platform\n  windowsNoMagicRoot: boolean\n  maxGlobstarRecursion: number\n\n  regexp: false | null | MMRegExp\n  constructor(pattern: string, options: MinimatchOptions = {}) {\n    assertValidPattern(pattern)\n\n    options = options || {}\n    this.options = options\n    this.maxGlobstarRecursion = options.maxGlobstarRecursion ?? 200\n    this.pattern = pattern\n    this.platform = options.platform || defaultPlatform\n    this.isWindows = this.platform === 'win32'\n    // avoid the annoying deprecation flag lol\n    const awe = ('allowWindow' + 'sEscape') as keyof MinimatchOptions\n    this.windowsPathsNoEscape =\n      !!options.windowsPathsNoEscape || options[awe] === false\n    if (this.windowsPathsNoEscape) {\n      this.pattern = this.pattern.replace(/\\\\/g, '/')\n    }\n    this.preserveMultipleSlashes = !!options.preserveMultipleSlashes\n    this.regexp = null\n    this.negate = false\n    this.nonegate = !!options.nonegate\n    this.comment = false\n    this.empty = false\n    this.partial = !!options.partial\n    this.nocase = !!this.options.nocase\n    this.windowsNoMagicRoot =\n      options.windowsNoMagicRoot !== undefined ?\n        options.windowsNoMagicRoot\n      : !!(this.isWindows && this.nocase)\n\n    this.globSet = []\n    this.globParts = []\n    this.set = []\n\n    // make the set of regexps etc.\n    this.make()\n  }\n\n  hasMagic(): boolean {\n    if (this.options.magicalBraces && this.set.length > 1) {\n      return true\n    }\n    for (const pattern of this.set) {\n      for (const part of pattern) {\n        if (typeof part !== 'string') return true\n      }\n    }\n    return false\n  }\n\n  debug(..._: unknown[]) {}\n\n  make() {\n    const pattern = this.pattern\n    const options = this.options\n\n    // empty patterns and comments match nothing.\n    if (!options.nocomment && pattern.charAt(0) === '#') {\n      this.comment = true\n      return\n    }\n\n    if (!pattern) {\n      this.empty = true\n      return\n    }\n\n    // step 1: figure out negation, etc.\n    this.parseNegate()\n\n    // step 2: expand braces\n    this.globSet = [...new Set(this.braceExpand())]\n\n    if (options.debug) {\n      //oxlint-disable-next-line no-console\n      this.debug = (...args: unknown[]) => console.error(...args)\n    }\n\n    this.debug(this.pattern, this.globSet)\n\n    // step 3: now we have a set, so turn each one into a series of\n    // path-portion matching patterns.\n    // These will be regexps, except in the case of \"**\", which is\n    // set to the GLOBSTAR object for globstar behavior,\n    // and will not contain any / characters\n    //\n    // First, we preprocess to make the glob pattern sets a bit simpler\n    // and deduped.  There are some perf-killing patterns that can cause\n    // problems with a glob walk, but we can simplify them down a bit.\n    const rawGlobParts = this.globSet.map(s => this.slashSplit(s))\n    this.globParts = this.preprocess(rawGlobParts)\n    this.debug(this.pattern, this.globParts)\n\n    // glob --> regexps\n    let set = this.globParts.map((s, _, __) => {\n      if (this.isWindows && this.windowsNoMagicRoot) {\n        // check if it's a drive or unc path.\n        const isUNC =\n          s[0] === '' &&\n          s[1] === '' &&\n          (s[2] === '?' || !globMagic.test(s[2])) &&\n          !globMagic.test(s[3])\n        const isDrive = /^[a-z]:/i.test(s[0])\n        if (isUNC) {\n          return [\n            ...s.slice(0, 4),\n            ...s.slice(4).map(ss => this.parse(ss)),\n          ]\n        } else if (isDrive) {\n          return [s[0], ...s.slice(1).map(ss => this.parse(ss))]\n        }\n      }\n      return s.map(ss => this.parse(ss))\n    })\n\n    this.debug(this.pattern, set)\n\n    // filter out everything that didn't compile properly.\n    this.set = set.filter(\n      s => s.indexOf(false) === -1,\n    ) as ParseReturnFiltered[][]\n\n    // do not treat the ? in UNC paths as magic\n    if (this.isWindows) {\n      for (let i = 0; i < this.set.length; i++) {\n        const p = this.set[i]\n        if (\n          p[0] === '' &&\n          p[1] === '' &&\n          this.globParts[i][2] === '?' &&\n          typeof p[3] === 'string' &&\n          /^[a-z]:$/i.test(p[3])\n        ) {\n          p[2] = '?'\n        }\n      }\n    }\n\n    this.debug(this.pattern, this.set)\n  }\n\n  // various transforms to equivalent pattern sets that are\n  // faster to process in a filesystem walk.  The goal is to\n  // eliminate what we can, and push all ** patterns as far\n  // to the right as possible, even if it increases the number\n  // of patterns that we have to process.\n  preprocess(globParts: string[][]) {\n    // if we're not in globstar mode, then turn ** into *\n    if (this.options.noglobstar) {\n      for (const partset of globParts) {\n        for (let j = 0; j < partset.length; j++) {\n          if (partset[j] === '**') {\n            partset[j] = '*'\n          }\n        }\n      }\n    }\n\n    const { optimizationLevel = 1 } = this.options\n\n    if (optimizationLevel >= 2) {\n      // aggressive optimization for the purpose of fs walking\n      globParts = this.firstPhasePreProcess(globParts)\n      globParts = this.secondPhasePreProcess(globParts)\n    } else if (optimizationLevel >= 1) {\n      // just basic optimizations to remove some .. parts\n      globParts = this.levelOneOptimize(globParts)\n    } else {\n      // just collapse multiple ** portions into one\n      globParts = this.adjascentGlobstarOptimize(globParts)\n    }\n\n    return globParts\n  }\n\n  // just get rid of adjascent ** portions\n  adjascentGlobstarOptimize(globParts: string[][]) {\n    return globParts.map(parts => {\n      let gs: number = -1\n      while (-1 !== (gs = parts.indexOf('**', gs + 1))) {\n        let i = gs\n        while (parts[i + 1] === '**') {\n          i++\n        }\n        if (i !== gs) {\n          parts.splice(gs, i - gs)\n        }\n      }\n      return parts\n    })\n  }\n\n  // get rid of adjascent ** and resolve .. portions\n  levelOneOptimize(globParts: string[][]) {\n    return globParts.map(parts => {\n      parts = parts.reduce((set: string[], part) => {\n        const prev = set[set.length - 1]\n        if (part === '**' && prev === '**') {\n          return set\n        }\n        if (part === '..') {\n          if (prev && prev !== '..' && prev !== '.' && prev !== '**') {\n            set.pop()\n            return set\n          }\n        }\n        set.push(part)\n        return set\n      }, [])\n      return parts.length === 0 ? [''] : parts\n    })\n  }\n\n  levelTwoFileOptimize(parts: string | string[]) {\n    if (!Array.isArray(parts)) {\n      parts = this.slashSplit(parts)\n    }\n    let didSomething: boolean = false\n\n    do {\n      didSomething = false\n      // 
// -> 
/\n      if (!this.preserveMultipleSlashes) {\n        for (let i = 1; i < parts.length - 1; i++) {\n          const p = parts[i]\n          // don't squeeze out UNC patterns\n          if (i === 1 && p === '' && parts[0] === '') continue\n          if (p === '.' || p === '') {\n            didSomething = true\n            parts.splice(i, 1)\n            i--\n          }\n        }\n        if (\n          parts[0] === '.' &&\n          parts.length === 2 &&\n          (parts[1] === '.' || parts[1] === '')\n        ) {\n          didSomething = true\n          parts.pop()\n        }\n      }\n\n      // 
/

/../ ->

/\n      let dd: number = 0\n      while (-1 !== (dd = parts.indexOf('..', dd + 1))) {\n        const p = parts[dd - 1]\n        if (\n          p &&\n          p !== '.' &&\n          p !== '..' &&\n          p !== '**' &&\n          !(this.isWindows && /^[a-z]:$/i.test(p))\n        ) {\n          didSomething = true\n          parts.splice(dd - 1, 2)\n          dd -= 2\n        }\n      }\n    } while (didSomething)\n    return parts.length === 0 ? [''] : parts\n  }\n\n  // First phase: single-pattern processing\n  // 
 is 1 or more portions\n  //  is 1 or more portions\n  // 

is any portion other than ., .., '', or **\n // is . or ''\n //\n // **/.. is *brutal* for filesystem walking performance, because\n // it effectively resets the recursive walk each time it occurs,\n // and ** cannot be reduced out by a .. pattern part like a regexp\n // or most strings (other than .., ., and '') can be.\n //\n //

/**/../

/

/ -> {

/../

/

/,

/**/

/

/}\n //

// -> 
/\n  // 
/

/../ ->

/\n  // **/**/ -> **/\n  //\n  // **/*/ -> */**/ <== not valid because ** doesn't follow\n  // this WOULD be allowed if ** did follow symlinks, or * didn't\n  firstPhasePreProcess(globParts: string[][]) {\n    let didSomething = false\n    do {\n      didSomething = false\n      // 
/**/../

/

/ -> {

/../

/

/,

/**/

/

/}\n for (let parts of globParts) {\n let gs: number = -1\n while (-1 !== (gs = parts.indexOf('**', gs + 1))) {\n let gss: number = gs\n while (parts[gss + 1] === '**') {\n //

/**/**/ -> 
/**/\n            gss++\n          }\n          // eg, if gs is 2 and gss is 4, that means we have 3 **\n          // parts, and can remove 2 of them.\n          if (gss > gs) {\n            parts.splice(gs + 1, gss - gs)\n          }\n\n          let next = parts[gs + 1]\n          const p = parts[gs + 2]\n          const p2 = parts[gs + 3]\n          if (next !== '..') continue\n          if (\n            !p ||\n            p === '.' ||\n            p === '..' ||\n            !p2 ||\n            p2 === '.' ||\n            p2 === '..'\n          ) {\n            continue\n          }\n          didSomething = true\n          // edit parts in place, and push the new one\n          parts.splice(gs, 1)\n          const other = parts.slice(0)\n          other[gs] = '**'\n          globParts.push(other)\n          gs--\n        }\n\n        // 
// -> 
/\n        if (!this.preserveMultipleSlashes) {\n          for (let i = 1; i < parts.length - 1; i++) {\n            const p = parts[i]\n            // don't squeeze out UNC patterns\n            if (i === 1 && p === '' && parts[0] === '') continue\n            if (p === '.' || p === '') {\n              didSomething = true\n              parts.splice(i, 1)\n              i--\n            }\n          }\n          if (\n            parts[0] === '.' &&\n            parts.length === 2 &&\n            (parts[1] === '.' || parts[1] === '')\n          ) {\n            didSomething = true\n            parts.pop()\n          }\n        }\n\n        // 
/

/../ ->

/\n        let dd: number = 0\n        while (-1 !== (dd = parts.indexOf('..', dd + 1))) {\n          const p = parts[dd - 1]\n          if (p && p !== '.' && p !== '..' && p !== '**') {\n            didSomething = true\n            const needDot = dd === 1 && parts[dd + 1] === '**'\n            const splin = needDot ? ['.'] : []\n            parts.splice(dd - 1, 2, ...splin)\n            if (parts.length === 0) parts.push('')\n            dd -= 2\n          }\n        }\n      }\n    } while (didSomething)\n\n    return globParts\n  }\n\n  // second phase: multi-pattern dedupes\n  // {
/*/,
/

/} ->

/*/\n  // {
/,
/} -> 
/\n  // {
/**/,
/} -> 
/**/\n  //\n  // {
/**/,
/**/

/} ->

/**/\n  // ^-- not valid because ** doens't follow symlinks\n  secondPhasePreProcess(globParts: string[][]): string[][] {\n    for (let i = 0; i < globParts.length - 1; i++) {\n      for (let j = i + 1; j < globParts.length; j++) {\n        const matched = this.partsMatch(\n          globParts[i],\n          globParts[j],\n          !this.preserveMultipleSlashes,\n        )\n        if (matched) {\n          globParts[i] = []\n          globParts[j] = matched\n          break\n        }\n      }\n    }\n    return globParts.filter(gs => gs.length)\n  }\n\n  partsMatch(\n    a: string[],\n    b: string[],\n    emptyGSMatch: boolean = false,\n  ): false | string[] {\n    let ai = 0\n    let bi = 0\n    let result: string[] = []\n    let which: string = ''\n    while (ai < a.length && bi < b.length) {\n      if (a[ai] === b[bi]) {\n        result.push(which === 'b' ? b[bi] : a[ai])\n        ai++\n        bi++\n      } else if (emptyGSMatch && a[ai] === '**' && b[bi] === a[ai + 1]) {\n        result.push(a[ai])\n        ai++\n      } else if (emptyGSMatch && b[bi] === '**' && a[ai] === b[bi + 1]) {\n        result.push(b[bi])\n        bi++\n      } else if (\n        a[ai] === '*' &&\n        b[bi] &&\n        (this.options.dot || !b[bi].startsWith('.')) &&\n        b[bi] !== '**'\n      ) {\n        if (which === 'b') return false\n        which = 'a'\n        result.push(a[ai])\n        ai++\n        bi++\n      } else if (\n        b[bi] === '*' &&\n        a[ai] &&\n        (this.options.dot || !a[ai].startsWith('.')) &&\n        a[ai] !== '**'\n      ) {\n        if (which === 'a') return false\n        which = 'b'\n        result.push(b[bi])\n        ai++\n        bi++\n      } else {\n        return false\n      }\n    }\n    // if we fall out of the loop, it means they two are identical\n    // as long as their lengths match\n    return a.length === b.length && result\n  }\n\n  parseNegate() {\n    if (this.nonegate) return\n\n    const pattern = this.pattern\n    let negate = false\n    let negateOffset = 0\n\n    for (let i = 0; i < pattern.length && pattern.charAt(i) === '!'; i++) {\n      negate = !negate\n      negateOffset++\n    }\n\n    if (negateOffset) this.pattern = pattern.slice(negateOffset)\n    this.negate = negate\n  }\n\n  // set partial to true to test if, for example,\n  // \"/a/b\" matches the start of \"/*/b/*/d\"\n  // Partial means, if you run out of file before you run\n  // out of pattern, then that's fine, as long as all\n  // the parts match.\n  matchOne(\n    file: string[],\n    pattern: ParseReturn[],\n    partial: boolean = false,\n  ) {\n    let fileStartIndex = 0\n    let patternStartIndex = 0\n\n    // UNC paths like //?/X:/... can match X:/... and vice versa\n    // Drive letters in absolute drive or unc paths are always compared\n    // case-insensitively.\n    if (this.isWindows) {\n      const fileDrive =\n        typeof file[0] === 'string' && /^[a-z]:$/i.test(file[0])\n      const fileUNC =\n        !fileDrive &&\n        file[0] === '' &&\n        file[1] === '' &&\n        file[2] === '?' &&\n        /^[a-z]:$/i.test(file[3])\n\n      const patternDrive =\n        typeof pattern[0] === 'string' && /^[a-z]:$/i.test(pattern[0])\n      const patternUNC =\n        !patternDrive &&\n        pattern[0] === '' &&\n        pattern[1] === '' &&\n        pattern[2] === '?' &&\n        typeof pattern[3] === 'string' &&\n        /^[a-z]:$/i.test(pattern[3])\n\n      const fdi =\n        fileUNC ? 3\n        : fileDrive ? 0\n        : undefined\n      const pdi =\n        patternUNC ? 3\n        : patternDrive ? 0\n        : undefined\n      if (typeof fdi === 'number' && typeof pdi === 'number') {\n        const [fd, pd]: [string, string] = [\n          file[fdi],\n          pattern[pdi] as string,\n        ]\n        // start matching at the drive letter index of each\n        if (fd.toLowerCase() === pd.toLowerCase()) {\n          pattern[pdi] = fd\n          patternStartIndex = pdi\n          fileStartIndex = fdi\n        }\n      }\n    }\n\n    // resolve and reduce . and .. portions in the file as well.\n    // don't need to do the second phase, because it's only one string[]\n    const { optimizationLevel = 1 } = this.options\n    if (optimizationLevel >= 2) {\n      file = this.levelTwoFileOptimize(file)\n    }\n\n    if (pattern.includes(GLOBSTAR)) {\n      return this.#matchGlobstar(\n        file,\n        pattern,\n        partial,\n        fileStartIndex,\n        patternStartIndex,\n      )\n    }\n\n    return this.#matchOne(\n      file,\n      pattern,\n      partial,\n      fileStartIndex,\n      patternStartIndex,\n    )\n  }\n\n  #matchGlobstar(\n    file: string[],\n    pattern: ParseReturn[],\n    partial: boolean,\n    fileIndex: number,\n    patternIndex: number,\n  ) {\n    // split the pattern into head, tail, and middle of ** delimited parts\n    const firstgs = pattern.indexOf(GLOBSTAR, patternIndex)\n    const lastgs = pattern.lastIndexOf(GLOBSTAR)\n\n    // split the pattern up into globstar-delimited sections\n    // the tail has to be at the end, and the others just have\n    // to be found in order from the head.\n    const [head, body, tail] =\n      partial ?\n        [\n          pattern.slice(patternIndex, firstgs),\n          pattern.slice(firstgs + 1),\n          [],\n        ]\n      : [\n          pattern.slice(patternIndex, firstgs),\n          pattern.slice(firstgs + 1, lastgs),\n          pattern.slice(lastgs + 1),\n        ]\n\n    // check the head, from the current file/pattern index.\n    if (head.length) {\n      const fileHead = file.slice(fileIndex, fileIndex + head.length)\n      if (!this.#matchOne(fileHead, head, partial, 0, 0)) {\n        return false\n      }\n      fileIndex += head.length\n      patternIndex += head.length\n    }\n    // now we know the head matches!\n\n    // if the last portion is not empty, it MUST match the end\n    // check the tail\n    let fileTailMatch: number = 0\n    if (tail.length) {\n      // if head + tail > file, then we cannot possibly match\n      if (tail.length + fileIndex > file.length) return false\n\n      // try to match the tail\n      let tailStart = file.length - tail.length\n      if (this.#matchOne(file, tail, partial, tailStart, 0)) {\n        fileTailMatch = tail.length\n      } else {\n        // affordance for stuff like a/**/* matching a/b/\n        // if the last file portion is '', and there's more to the pattern\n        // then try without the '' bit.\n        if (\n          file[file.length - 1] !== '' ||\n          fileIndex + tail.length === file.length\n        ) {\n          return false\n        }\n        tailStart--\n        if (!this.#matchOne(file, tail, partial, tailStart, 0)) {\n          return false\n        }\n        fileTailMatch = tail.length + 1\n      }\n    }\n\n    // now we know the tail matches!\n\n    // the middle is zero or more portions wrapped in **, possibly\n    // containing more ** sections.\n    // so a/**/b/**/c/**/d has become **/b/**/c/**\n    // if it's empty, it means a/**/b, just verify we have no bad dots\n    // if there's no tail, so it ends on /**, then we must have *something*\n    // after the head, or it's not a matc\n    if (!body.length) {\n      let sawSome = !!fileTailMatch\n      for (let i = fileIndex; i < file.length - fileTailMatch; i++) {\n        const f = String(file[i])\n        sawSome = true\n        if (\n          f === '.' ||\n          f === '..' ||\n          (!this.options.dot && f.startsWith('.'))\n        ) {\n          return false\n        }\n      }\n      // in partial mode, we just need to get past all file parts\n      return partial || sawSome\n    }\n\n    // now we know that there's one or more body sections, which can\n    // be matched anywhere from the 0 index (because the head was pruned)\n    // through to the length-fileTailMatch index.\n    // split the body up into sections, and note the minimum index it can\n    // be found at (start with the length of all previous segments)\n    // [section, before, after]\n    const bodySegments: [ParseReturn[], number][] = [[[], 0]]\n    let currentBody: [ParseReturn[], number] = bodySegments[0]\n    let nonGsParts = 0\n    const nonGsPartsSums: number[] = [0]\n    for (const b of body) {\n      if (b === GLOBSTAR) {\n        nonGsPartsSums.push(nonGsParts)\n        currentBody = [[], 0]\n        bodySegments.push(currentBody)\n      } else {\n        currentBody[0].push(b)\n        nonGsParts++\n      }\n    }\n    let i = bodySegments.length - 1\n    const fileLength = file.length - fileTailMatch\n    for (const b of bodySegments) {\n      b[1] = fileLength - ((nonGsPartsSums[i--] as number) + b[0].length)\n    }\n\n    return !!this.#matchGlobStarBodySections(\n      file,\n      bodySegments,\n      fileIndex,\n      0,\n      partial,\n      0,\n      !!fileTailMatch,\n    )\n  }\n\n  // return false for \"nope, not matching\"\n  // return null for \"not matching, cannot keep trying\"\n  #matchGlobStarBodySections(\n    file: string[],\n    // pattern section, last possible position for it\n    bodySegments: [ParseReturn[], number][],\n    fileIndex: number,\n    bodyIndex: number,\n    partial: boolean,\n    globStarDepth: number,\n    sawTail: boolean,\n  ): boolean | null {\n    // take the first body segment, and walk from fileIndex to its \"after\"\n    // value at the end\n    // If it doesn't match at that position, we increment, until we hit\n    // that final possible position, and give up.\n    // If it does match, then advance and try to rest.\n    // If any of them fail we keep walking forward.\n    // this is still a bit recursively painful, but it's more constrained\n    // than previous implementations, because we never test something that\n    // can't possibly be a valid matching condition.\n    const bs = bodySegments[bodyIndex]\n    if (!bs) {\n      // just make sure that there's no bad dots\n      for (let i = fileIndex; i < file.length; i++) {\n        sawTail = true\n        const f = file[i]\n        if (\n          f === '.' ||\n          f === '..' ||\n          (!this.options.dot && f.startsWith('.'))\n        ) {\n          return false\n        }\n      }\n      return sawTail\n    }\n\n    // have a non-globstar body section to test\n    const [body, after] = bs\n    while (fileIndex <= after) {\n      const m = this.#matchOne(\n        file.slice(0, fileIndex + body.length),\n        body,\n        partial,\n        fileIndex,\n        0,\n      )\n      // if limit exceeded, no match. intentional false negative,\n      // acceptable break in correctness for security.\n      if (m && globStarDepth < this.maxGlobstarRecursion) {\n        // match! see if the rest match. if so, we're done!\n        const sub = this.#matchGlobStarBodySections(\n          file,\n          bodySegments,\n          fileIndex + body.length,\n          bodyIndex + 1,\n          partial,\n          globStarDepth + 1,\n          sawTail,\n        )\n        if (sub !== false) {\n          return sub\n        }\n      }\n      const f = file[fileIndex]\n      if (\n        f === '.' ||\n        f === '..' ||\n        (!this.options.dot && f.startsWith('.'))\n      ) {\n        return false\n      }\n\n      fileIndex++\n    }\n    // walked off. no point continuing\n    return partial || null\n  }\n\n  #matchOne(\n    file: string[],\n    pattern: ParseReturn[],\n    partial: boolean,\n    fileIndex: number,\n    patternIndex: number,\n  ) {\n    let fi: number\n    let pi: number\n    let pl: number\n    let fl: number\n    for (\n      fi = fileIndex,\n        pi = patternIndex,\n        fl = file.length,\n        pl = pattern.length;\n      fi < fl && pi < pl;\n      fi++, pi++\n    ) {\n      this.debug('matchOne loop')\n      let p = pattern[pi]\n      let f = file[fi]\n\n      this.debug(pattern, p, f)\n\n      // should be impossible.\n      // some invalid regexp stuff in the set.\n      /* c8 ignore start */\n      if (p === false || p === GLOBSTAR) {\n        return false\n      }\n      /* c8 ignore stop */\n\n      // something other than **\n      // non-magic patterns just have to match exactly\n      // patterns with magic have been turned into regexps.\n      let hit: boolean\n      if (typeof p === 'string') {\n        hit = f === p\n        this.debug('string match', p, f, hit)\n      } else {\n        hit = p.test(f)\n        this.debug('pattern match', p, f, hit)\n      }\n\n      if (!hit) return false\n    }\n\n    // Note: ending in / means that we'll get a final \"\"\n    // at the end of the pattern.  This can only match a\n    // corresponding \"\" at the end of the file.\n    // If the file ends in /, then it can only match a\n    // a pattern that ends in /, unless the pattern just\n    // doesn't have any more for it. But, a/b/ should *not*\n    // match \"a/b/*\", even though \"\" matches against the\n    // [^/]*? pattern, except in partial mode, where it might\n    // simply not be reached yet.\n    // However, a/b/ should still satisfy a/*\n\n    // now either we fell off the end of the pattern, or we're done.\n    if (fi === fl && pi === pl) {\n      // ran out of pattern and filename at the same time.\n      // an exact hit!\n      return true\n    } else if (fi === fl) {\n      // ran out of file, but still had pattern left.\n      // this is ok if we're doing the match as part of\n      // a glob fs traversal.\n      return partial\n    } else if (pi === pl) {\n      // ran out of pattern, still have file left.\n      // this is only acceptable if we're on the very last\n      // empty segment of a file with a trailing slash.\n      // a/* should match a/b/\n      return fi === fl - 1 && file[fi] === ''\n\n      /* c8 ignore start */\n    } else {\n      // should be unreachable.\n      throw new Error('wtf?')\n    }\n    /* c8 ignore stop */\n  }\n\n  braceExpand() {\n    return braceExpand(this.pattern, this.options)\n  }\n\n  parse(pattern: string): ParseReturn {\n    assertValidPattern(pattern)\n\n    const options = this.options\n\n    // shortcuts\n    if (pattern === '**') return GLOBSTAR\n    if (pattern === '') return ''\n\n    // far and away, the most common glob pattern parts are\n    // *, *.*, and *.  Add a fast check method for those.\n    let m: RegExpMatchArray | null\n    let fastTest: null | ((f: string) => boolean) = null\n    if ((m = pattern.match(starRE))) {\n      fastTest = options.dot ? starTestDot : starTest\n    } else if ((m = pattern.match(starDotExtRE))) {\n      fastTest = (\n        options.nocase ?\n          options.dot ?\n            starDotExtTestNocaseDot\n          : starDotExtTestNocase\n        : options.dot ? starDotExtTestDot\n        : starDotExtTest)(m[1])\n    } else if ((m = pattern.match(qmarksRE))) {\n      fastTest = (\n        options.nocase ?\n          options.dot ?\n            qmarksTestNocaseDot\n          : qmarksTestNocase\n        : options.dot ? qmarksTestDot\n        : qmarksTest)(m)\n    } else if ((m = pattern.match(starDotStarRE))) {\n      fastTest = options.dot ? starDotStarTestDot : starDotStarTest\n    } else if ((m = pattern.match(dotStarRE))) {\n      fastTest = dotStarTest\n    }\n\n    const re = AST.fromGlob(pattern, this.options).toMMPattern()\n    if (fastTest && typeof re === 'object') {\n      // Avoids overriding in frozen environments\n      Reflect.defineProperty(re, 'test', { value: fastTest })\n    }\n    return re\n  }\n\n  makeRe() {\n    if (this.regexp || this.regexp === false) return this.regexp\n\n    // at this point, this.set is a 2d array of partial\n    // pattern strings, or \"**\".\n    //\n    // It's better to use .match().  This function shouldn't\n    // be used, really, but it's pretty convenient sometimes,\n    // when you just want to work with a regex.\n    const set = this.set\n\n    if (!set.length) {\n      this.regexp = false\n      return this.regexp\n    }\n    const options = this.options\n\n    const twoStar =\n      options.noglobstar ? star\n      : options.dot ? twoStarDot\n      : twoStarNoDot\n    const flags = new Set(options.nocase ? ['i'] : [])\n\n    // regexpify non-globstar patterns\n    // if ** is only item, then we just do one twoStar\n    // if ** is first, and there are more, prepend (\\/|twoStar\\/)? to next\n    // if ** is last, append (\\/twoStar|) to previous\n    // if ** is in the middle, append (\\/|\\/twoStar\\/) to previous\n    // then filter out GLOBSTAR symbols\n    let re = set\n      .map(pattern => {\n        const pp: (string | typeof GLOBSTAR)[] = pattern.map(p => {\n          if (p instanceof RegExp) {\n            for (const f of p.flags.split('')) flags.add(f)\n          }\n          return (\n            typeof p === 'string' ? regExpEscape(p)\n            : p === GLOBSTAR ? GLOBSTAR\n            : p._src\n          )\n        }) as (string | typeof GLOBSTAR)[]\n        pp.forEach((p, i) => {\n          const next = pp[i + 1]\n          const prev = pp[i - 1]\n          if (p !== GLOBSTAR || prev === GLOBSTAR) {\n            return\n          }\n          if (prev === undefined) {\n            if (next !== undefined && next !== GLOBSTAR) {\n              pp[i + 1] = '(?:\\\\/|' + twoStar + '\\\\/)?' + next\n            } else {\n              pp[i] = twoStar\n            }\n          } else if (next === undefined) {\n            pp[i - 1] = prev + '(?:\\\\/|\\\\/' + twoStar + ')?'\n          } else if (next !== GLOBSTAR) {\n            pp[i - 1] = prev + '(?:\\\\/|\\\\/' + twoStar + '\\\\/)' + next\n            pp[i + 1] = GLOBSTAR\n          }\n        })\n        const filtered = pp.filter(p => p !== GLOBSTAR)\n\n        // For partial matches, we need to make the pattern match\n        // any prefix of the full path. We do this by generating\n        // alternative patterns that match progressively longer prefixes.\n        if (this.partial && filtered.length >= 1) {\n          const prefixes: string[] = []\n          for (let i = 1; i <= filtered.length; i++) {\n            prefixes.push(filtered.slice(0, i).join('/'))\n          }\n          return '(?:' + prefixes.join('|') + ')'\n        }\n\n        return filtered.join('/')\n      })\n      .join('|')\n\n    // need to wrap in parens if we had more than one thing with |,\n    // otherwise only the first will be anchored to ^ and the last to $\n    const [open, close] = set.length > 1 ? ['(?:', ')'] : ['', '']\n    // must match entire pattern\n    // ending in a * or ** will make it less strict.\n    re = '^' + open + re + close + '$'\n\n    // In partial mode, '/' should always match as it's a valid prefix for any pattern\n    if (this.partial) {\n      re = '^(?:\\\\/|' + open + re.slice(1, -1) + close + ')$'\n    }\n\n    // can match anything, as long as it's not this.\n    if (this.negate) re = '^(?!' + re + ').+$'\n\n    try {\n      this.regexp = new RegExp(re, [...flags].join(''))\n      /* c8 ignore start */\n    } catch {\n      // should be impossible\n      this.regexp = false\n    }\n    /* c8 ignore stop */\n    return this.regexp\n  }\n\n  slashSplit(p: string) {\n    // if p starts with // on windows, we preserve that\n    // so that UNC paths aren't broken.  Otherwise, any number of\n    // / characters are coalesced into one, unless\n    // preserveMultipleSlashes is set to true.\n    if (this.preserveMultipleSlashes) {\n      return p.split('/')\n    } else if (this.isWindows && /^\\/\\/[^/]+/.test(p)) {\n      // add an extra '' for the one we lose\n      return ['', ...p.split(/\\/+/)]\n    } else {\n      return p.split(/\\/+/)\n    }\n  }\n\n  match(f: string, partial = this.partial) {\n    this.debug('match', f, this.pattern)\n    // short-circuit in the case of busted things.\n    // comments, etc.\n    if (this.comment) {\n      return false\n    }\n    if (this.empty) {\n      return f === ''\n    }\n\n    if (f === '/' && partial) {\n      return true\n    }\n\n    const options = this.options\n\n    // windows: need to use /, not \\\n    if (this.isWindows) {\n      f = f.split('\\\\').join('/')\n    }\n\n    // treat the test path as a set of pathparts.\n    const ff = this.slashSplit(f)\n    this.debug(this.pattern, 'split', ff)\n\n    // just ONE of the pattern sets in this.set needs to match\n    // in order for it to be valid.  If negating, then just one\n    // match means that we have failed.\n    // Either way, return on the first hit.\n\n    const set = this.set\n    this.debug(this.pattern, 'set', set)\n\n    // Find the basename of the path by looking for the last non-empty segment\n    let filename: string = ff[ff.length - 1]\n    if (!filename) {\n      for (let i = ff.length - 2; !filename && i >= 0; i--) {\n        filename = ff[i]\n      }\n    }\n\n    for (const pattern of set) {\n      let file = ff\n      if (options.matchBase && pattern.length === 1) {\n        file = [filename]\n      }\n      const hit = this.matchOne(file, pattern, partial)\n      if (hit) {\n        if (options.flipNegate) {\n          return true\n        }\n        return !this.negate\n      }\n    }\n\n    // didn't get any hits.  this is success if it's a negative\n    // pattern, failure otherwise.\n    if (options.flipNegate) {\n      return false\n    }\n    return this.negate\n  }\n\n  static defaults(def: MinimatchOptions) {\n    return minimatch.defaults(def).Minimatch\n  }\n}\n/* c8 ignore start */\nexport { AST } from './ast.js'\nexport { escape } from './escape.js'\nexport { unescape } from './unescape.js'\n/* c8 ignore stop */\nminimatch.AST = AST\nminimatch.Minimatch = Minimatch\nminimatch.escape = escape\nminimatch.unescape = unescape\n"]}
\ No newline at end of file
diff --git a/deps/minimatch/dist/commonjs/unescape.d.ts b/deps/minimatch/dist/commonjs/unescape.d.ts
index 30ec8292615b74..c4a14473afc706 100644
--- a/deps/minimatch/dist/commonjs/unescape.d.ts
+++ b/deps/minimatch/dist/commonjs/unescape.d.ts
@@ -1,4 +1,4 @@
-import { MinimatchOptions } from './index.js';
+import type { MinimatchOptions } from './index.js';
 /**
  * Un-escape a string that has been escaped with {@link escape}.
  *
diff --git a/deps/minimatch/dist/commonjs/unescape.d.ts.map b/deps/minimatch/dist/commonjs/unescape.d.ts.map
index 6b84d7538f8ce4..09d6eab4e6502c 100644
--- a/deps/minimatch/dist/commonjs/unescape.d.ts.map
+++ b/deps/minimatch/dist/commonjs/unescape.d.ts.map
@@ -1 +1 @@
-{"version":3,"file":"unescape.d.ts","sourceRoot":"","sources":["../../src/unescape.ts"],"names":[],"mappings":"AAAA,OAAO,EAAE,gBAAgB,EAAE,MAAM,YAAY,CAAA;AAE7C;;;;;;;;;;;;;;;;;;GAkBG;AAEH,eAAO,MAAM,QAAQ,GACnB,GAAG,MAAM,EACT,2CAGG,IAAI,CAAC,gBAAgB,EAAE,sBAAsB,GAAG,eAAe,CAAM,WAczE,CAAA"}
\ No newline at end of file
+{"version":3,"file":"unescape.d.ts","sourceRoot":"","sources":["../../src/unescape.ts"],"names":[],"mappings":"AAAA,OAAO,KAAK,EAAE,gBAAgB,EAAE,MAAM,YAAY,CAAA;AAElD;;;;;;;;;;;;;;;;;;GAkBG;AAEH,eAAO,MAAM,QAAQ,GACnB,GAAG,MAAM,EACT,2CAGG,IAAI,CAAC,gBAAgB,EAAE,sBAAsB,GAAG,eAAe,CAAM,WAczE,CAAA"}
\ No newline at end of file
diff --git a/deps/minimatch/dist/commonjs/unescape.js b/deps/minimatch/dist/commonjs/unescape.js
index db8d0c847d21b1..ad648fba64d40d 100644
--- a/deps/minimatch/dist/commonjs/unescape.js
+++ b/deps/minimatch/dist/commonjs/unescape.js
@@ -23,16 +23,16 @@ exports.unescape = void 0;
 const unescape = (s, { windowsPathsNoEscape = false, magicalBraces = true, } = {}) => {
     if (magicalBraces) {
         return windowsPathsNoEscape ?
-            s.replace(/\[([^\/\\])\]/g, '$1')
+            s.replace(/\[([^/\\])\]/g, '$1')
             : s
-                .replace(/((?!\\).|^)\[([^\/\\])\]/g, '$1$2')
-                .replace(/\\([^\/])/g, '$1');
+                .replace(/((?!\\).|^)\[([^/\\])\]/g, '$1$2')
+                .replace(/\\([^/])/g, '$1');
     }
     return windowsPathsNoEscape ?
-        s.replace(/\[([^\/\\{}])\]/g, '$1')
+        s.replace(/\[([^/\\{}])\]/g, '$1')
         : s
-            .replace(/((?!\\).|^)\[([^\/\\{}])\]/g, '$1$2')
-            .replace(/\\([^\/{}])/g, '$1');
+            .replace(/((?!\\).|^)\[([^/\\{}])\]/g, '$1$2')
+            .replace(/\\([^/{}])/g, '$1');
 };
 exports.unescape = unescape;
 //# sourceMappingURL=unescape.js.map
\ No newline at end of file
diff --git a/deps/minimatch/dist/commonjs/unescape.js.map b/deps/minimatch/dist/commonjs/unescape.js.map
index 8039823a097313..44387ec58d1bb4 100644
--- a/deps/minimatch/dist/commonjs/unescape.js.map
+++ b/deps/minimatch/dist/commonjs/unescape.js.map
@@ -1 +1 @@
-{"version":3,"file":"unescape.js","sourceRoot":"","sources":["../../src/unescape.ts"],"names":[],"mappings":";;;AAEA;;;;;;;;;;;;;;;;;;GAkBG;AAEI,MAAM,QAAQ,GAAG,CACtB,CAAS,EACT,EACE,oBAAoB,GAAG,KAAK,EAC5B,aAAa,GAAG,IAAI,MACgD,EAAE,EACxE,EAAE;IACF,IAAI,aAAa,EAAE,CAAC;QAClB,OAAO,oBAAoB,CAAC,CAAC;YACzB,CAAC,CAAC,OAAO,CAAC,gBAAgB,EAAE,IAAI,CAAC;YACnC,CAAC,CAAC,CAAC;iBACE,OAAO,CAAC,2BAA2B,EAAE,MAAM,CAAC;iBAC5C,OAAO,CAAC,YAAY,EAAE,IAAI,CAAC,CAAA;IACpC,CAAC;IACD,OAAO,oBAAoB,CAAC,CAAC;QACzB,CAAC,CAAC,OAAO,CAAC,kBAAkB,EAAE,IAAI,CAAC;QACrC,CAAC,CAAC,CAAC;aACE,OAAO,CAAC,6BAA6B,EAAE,MAAM,CAAC;aAC9C,OAAO,CAAC,cAAc,EAAE,IAAI,CAAC,CAAA;AACtC,CAAC,CAAA;AAnBY,QAAA,QAAQ,YAmBpB","sourcesContent":["import { MinimatchOptions } from './index.js'\n\n/**\n * Un-escape a string that has been escaped with {@link escape}.\n *\n * If the {@link MinimatchOptions.windowsPathsNoEscape} option is used, then\n * square-bracket escapes are removed, but not backslash escapes.\n *\n * For example, it will turn the string `'[*]'` into `*`, but it will not\n * turn `'\\\\*'` into `'*'`, because `\\` is a path separator in\n * `windowsPathsNoEscape` mode.\n *\n * When `windowsPathsNoEscape` is not set, then both square-bracket escapes and\n * backslash escapes are removed.\n *\n * Slashes (and backslashes in `windowsPathsNoEscape` mode) cannot be escaped\n * or unescaped.\n *\n * When `magicalBraces` is not set, escapes of braces (`{` and `}`) will not be\n * unescaped.\n */\n\nexport const unescape = (\n  s: string,\n  {\n    windowsPathsNoEscape = false,\n    magicalBraces = true,\n  }: Pick = {},\n) => {\n  if (magicalBraces) {\n    return windowsPathsNoEscape ?\n        s.replace(/\\[([^\\/\\\\])\\]/g, '$1')\n      : s\n          .replace(/((?!\\\\).|^)\\[([^\\/\\\\])\\]/g, '$1$2')\n          .replace(/\\\\([^\\/])/g, '$1')\n  }\n  return windowsPathsNoEscape ?\n      s.replace(/\\[([^\\/\\\\{}])\\]/g, '$1')\n    : s\n        .replace(/((?!\\\\).|^)\\[([^\\/\\\\{}])\\]/g, '$1$2')\n        .replace(/\\\\([^\\/{}])/g, '$1')\n}\n"]}
\ No newline at end of file
+{"version":3,"file":"unescape.js","sourceRoot":"","sources":["../../src/unescape.ts"],"names":[],"mappings":";;;AAEA;;;;;;;;;;;;;;;;;;GAkBG;AAEI,MAAM,QAAQ,GAAG,CACtB,CAAS,EACT,EACE,oBAAoB,GAAG,KAAK,EAC5B,aAAa,GAAG,IAAI,MACgD,EAAE,EACxE,EAAE;IACF,IAAI,aAAa,EAAE,CAAC;QAClB,OAAO,oBAAoB,CAAC,CAAC;YACzB,CAAC,CAAC,OAAO,CAAC,eAAe,EAAE,IAAI,CAAC;YAClC,CAAC,CAAC,CAAC;iBACE,OAAO,CAAC,0BAA0B,EAAE,MAAM,CAAC;iBAC3C,OAAO,CAAC,WAAW,EAAE,IAAI,CAAC,CAAA;IACnC,CAAC;IACD,OAAO,oBAAoB,CAAC,CAAC;QACzB,CAAC,CAAC,OAAO,CAAC,iBAAiB,EAAE,IAAI,CAAC;QACpC,CAAC,CAAC,CAAC;aACE,OAAO,CAAC,4BAA4B,EAAE,MAAM,CAAC;aAC7C,OAAO,CAAC,aAAa,EAAE,IAAI,CAAC,CAAA;AACrC,CAAC,CAAA;AAnBY,QAAA,QAAQ,YAmBpB","sourcesContent":["import type { MinimatchOptions } from './index.js'\n\n/**\n * Un-escape a string that has been escaped with {@link escape}.\n *\n * If the {@link MinimatchOptions.windowsPathsNoEscape} option is used, then\n * square-bracket escapes are removed, but not backslash escapes.\n *\n * For example, it will turn the string `'[*]'` into `*`, but it will not\n * turn `'\\\\*'` into `'*'`, because `\\` is a path separator in\n * `windowsPathsNoEscape` mode.\n *\n * When `windowsPathsNoEscape` is not set, then both square-bracket escapes and\n * backslash escapes are removed.\n *\n * Slashes (and backslashes in `windowsPathsNoEscape` mode) cannot be escaped\n * or unescaped.\n *\n * When `magicalBraces` is not set, escapes of braces (`{` and `}`) will not be\n * unescaped.\n */\n\nexport const unescape = (\n  s: string,\n  {\n    windowsPathsNoEscape = false,\n    magicalBraces = true,\n  }: Pick = {},\n) => {\n  if (magicalBraces) {\n    return windowsPathsNoEscape ?\n        s.replace(/\\[([^/\\\\])\\]/g, '$1')\n      : s\n          .replace(/((?!\\\\).|^)\\[([^/\\\\])\\]/g, '$1$2')\n          .replace(/\\\\([^/])/g, '$1')\n  }\n  return windowsPathsNoEscape ?\n      s.replace(/\\[([^/\\\\{}])\\]/g, '$1')\n    : s\n        .replace(/((?!\\\\).|^)\\[([^/\\\\{}])\\]/g, '$1$2')\n        .replace(/\\\\([^/{}])/g, '$1')\n}\n"]}
\ No newline at end of file
diff --git a/deps/minimatch/dist/esm/ast.d.ts b/deps/minimatch/dist/esm/ast.d.ts
index 27845ea71fb977..74f2cf9322b975 100644
--- a/deps/minimatch/dist/esm/ast.d.ts
+++ b/deps/minimatch/dist/esm/ast.d.ts
@@ -1,4 +1,4 @@
-import { MinimatchOptions, MMRegExp } from './index.js';
+import type { MinimatchOptions, MMRegExp } from './index.js';
 export type ExtglobType = '!' | '?' | '+' | '*' | '@';
 export declare class AST {
     #private;
@@ -9,7 +9,7 @@ export declare class AST {
     get hasMagic(): boolean | undefined;
     toString(): string;
     push(...parts: (string | AST)[]): void;
-    toJSON(): any[];
+    toJSON(): unknown[];
     isStart(): boolean;
     isEnd(): boolean;
     copyIn(part: AST | string): void;
diff --git a/deps/minimatch/dist/esm/ast.d.ts.map b/deps/minimatch/dist/esm/ast.d.ts.map
index ec7f7898870ff2..8965fd6a99ff91 100644
--- a/deps/minimatch/dist/esm/ast.d.ts.map
+++ b/deps/minimatch/dist/esm/ast.d.ts.map
@@ -1 +1 @@
-{"version":3,"file":"ast.d.ts","sourceRoot":"","sources":["../../src/ast.ts"],"names":[],"mappings":"AAGA,OAAO,EAAE,gBAAgB,EAAE,QAAQ,EAAE,MAAM,YAAY,CAAA;AAwCvD,MAAM,MAAM,WAAW,GAAG,GAAG,GAAG,GAAG,GAAG,GAAG,GAAG,GAAG,GAAG,GAAG,CAAA;AA6IrD,qBAAa,GAAG;;IACd,IAAI,EAAE,WAAW,GAAG,IAAI,CAAA;IAexB,EAAE,SAAO;IAET,IAAI,KAAK,IAAI,MAAM,CAElB;gBAgBC,IAAI,EAAE,WAAW,GAAG,IAAI,EACxB,MAAM,CAAC,EAAE,GAAG,EACZ,OAAO,GAAE,gBAAqB;IAahC,IAAI,QAAQ,IAAI,OAAO,GAAG,SAAS,CAUlC;IAGD,QAAQ,IAAI,MAAM;IA+ClB,IAAI,CAAC,GAAG,KAAK,EAAE,CAAC,MAAM,GAAG,GAAG,CAAC,EAAE;IAe/B,MAAM;IAkBN,OAAO,IAAI,OAAO;IAgBlB,KAAK,IAAI,OAAO;IAYhB,MAAM,CAAC,IAAI,EAAE,GAAG,GAAG,MAAM;IAKzB,KAAK,CAAC,MAAM,EAAE,GAAG;IAwQjB,MAAM,CAAC,QAAQ,CAAC,OAAO,EAAE,MAAM,EAAE,OAAO,GAAE,gBAAqB;IAQ/D,WAAW,IAAI,QAAQ,GAAG,MAAM;IA2BhC,IAAI,OAAO,qBAEV;IAuED,cAAc,CACZ,QAAQ,CAAC,EAAE,OAAO,GACjB,CAAC,EAAE,EAAE,MAAM,EAAE,IAAI,EAAE,MAAM,EAAE,QAAQ,EAAE,OAAO,EAAE,KAAK,EAAE,OAAO,CAAC;CA6OjE"}
\ No newline at end of file
+{"version":3,"file":"ast.d.ts","sourceRoot":"","sources":["../../src/ast.ts"],"names":[],"mappings":"AAGA,OAAO,KAAK,EAAE,gBAAgB,EAAE,QAAQ,EAAE,MAAM,YAAY,CAAA;AAwC5D,MAAM,MAAM,WAAW,GAAG,GAAG,GAAG,GAAG,GAAG,GAAG,GAAG,GAAG,GAAG,GAAG,CAAA;AAgJrD,qBAAa,GAAG;;IACd,IAAI,EAAE,WAAW,GAAG,IAAI,CAAA;IAexB,EAAE,SAAO;IAET,IAAI,KAAK,IAAI,MAAM,CAElB;gBAgBC,IAAI,EAAE,WAAW,GAAG,IAAI,EACxB,MAAM,CAAC,EAAE,GAAG,EACZ,OAAO,GAAE,gBAAqB;IAahC,IAAI,QAAQ,IAAI,OAAO,GAAG,SAAS,CAUlC;IAGD,QAAQ,IAAI,MAAM;IAkDlB,IAAI,CAAC,GAAG,KAAK,EAAE,CAAC,MAAM,GAAG,GAAG,CAAC,EAAE;IAe/B,MAAM;IAkBN,OAAO,IAAI,OAAO;IAgBlB,KAAK,IAAI,OAAO;IAYhB,MAAM,CAAC,IAAI,EAAE,GAAG,GAAG,MAAM;IAKzB,KAAK,CAAC,MAAM,EAAE,GAAG;IAsQjB,MAAM,CAAC,QAAQ,CAAC,OAAO,EAAE,MAAM,EAAE,OAAO,GAAE,gBAAqB;IAQ/D,WAAW,IAAI,QAAQ,GAAG,MAAM;IA2BhC,IAAI,OAAO,qBAEV;IAuED,cAAc,CACZ,QAAQ,CAAC,EAAE,OAAO,GACjB,CAAC,EAAE,EAAE,MAAM,EAAE,IAAI,EAAE,MAAM,EAAE,QAAQ,EAAE,OAAO,EAAE,KAAK,EAAE,OAAO,CAAC;CA6OjE"}
\ No newline at end of file
diff --git a/deps/minimatch/dist/esm/ast.js b/deps/minimatch/dist/esm/ast.js
index 943a86ceb43ac1..f639546593db64 100644
--- a/deps/minimatch/dist/esm/ast.js
+++ b/deps/minimatch/dist/esm/ast.js
@@ -189,15 +189,14 @@ export class AST {
     }
     // reconstructs the pattern
     toString() {
-        if (this.#toString !== undefined)
-            return this.#toString;
-        if (!this.type) {
-            return (this.#toString = this.#parts.map(p => String(p)).join(''));
-        }
-        else {
-            return (this.#toString =
-                this.type + '(' + this.#parts.map(p => String(p)).join('|') + ')');
-        }
+        return (this.#toString !== undefined ? this.#toString
+            : !this.type ?
+                (this.#toString = this.#parts.map(p => String(p)).join(''))
+                : (this.#toString =
+                    this.type +
+                        '(' +
+                        this.#parts.map(p => String(p)).join('|') +
+                        ')'));
     }
     #fillNegs() {
         /* c8 ignore start */
@@ -477,7 +476,7 @@ export class AST {
     }
     #canUsurpType(c) {
         const m = usurpMap.get(this.type);
-        return !!(m?.has(c));
+        return !!m?.has(c);
     }
     #canUsurp(child) {
         if (!child ||
diff --git a/deps/minimatch/dist/esm/ast.js.map b/deps/minimatch/dist/esm/ast.js.map
index abf30629460b79..f5cc3ee91a072b 100644
--- a/deps/minimatch/dist/esm/ast.js.map
+++ b/deps/minimatch/dist/esm/ast.js.map
@@ -1 +1 @@
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parse a single path portion\n\nimport { parseClass } from './brace-expressions.js'\nimport { MinimatchOptions, MMRegExp } from './index.js'\nimport { unescape } from './unescape.js'\n\n// classes [] are handled by the parseClass method\n// for positive extglobs, we sub-parse the contents, and combine,\n// with the appropriate regexp close.\n// for negative extglobs, we sub-parse the contents, but then\n// have to include the rest of the pattern, then the parent, etc.,\n// as the thing that cannot be because RegExp negative lookaheads\n// are different from globs.\n//\n// So for example:\n// a@(i|w!(x|y)z|j)b => ^a(i|w((!?(x|y)zb).*)z|j)b$\n//   1   2 3   4 5 6      1   2    3   46      5 6\n//\n// Assembling the extglob requires not just the negated patterns themselves,\n// but also anything following the negative patterns up to the boundary\n// of the current pattern, plus anything following in the parent pattern.\n//\n//\n// So, first, we parse the string into an AST of extglobs, without turning\n// anything into regexps yet.\n//\n// ['a', {@ [['i'], ['w', {!['x', 'y']}, 'z'], ['j']]}, 'b']\n//\n// Then, for all the negative extglobs, we append whatever comes after in\n// each parent as their tail\n//\n// ['a', {@ [['i'], ['w', {!['x', 'y'], 'z', 'b'}, 'z'], ['j']]}, 'b']\n//\n// Lastly, we turn each of these pieces into a regexp, and join\n//\n//                                 v----- .* because there's more following,\n//                                 v    v  otherwise, .+ because it must be\n//                                 v    v  *something* there.\n// ['^a', {@ ['i', 'w(?:(!?(?:x|y).*zb$).*)z', 'j' ]}, 'b$']\n//   copy what follows into here--^^^^^\n// ['^a', '(?:i|w(?:(?!(?:x|y).*zb$).*)z|j)', 'b$']\n// ['^a(?:i|w(?:(?!(?:x|y).*zb$).*)z|j)b$']\n\nexport type ExtglobType = '!' | '?' | '+' | '*' | '@'\nconst types = new Set(['!', '?', '+', '*', '@'])\nconst isExtglobType = (c: string | null): c is ExtglobType =>\n  types.has(c as ExtglobType)\nconst isExtglobAST = (c: AST): c is AST & { type: ExtglobType } =>\n  isExtglobType(c.type)\n\n// Map of which extglob types can adopt the children of a nested extglob\n//\n// anything but ! can adopt a matching type:\n// +(a|+(b|c)|d) => +(a|b|c|d)\n// *(a|*(b|c)|d) => *(a|b|c|d)\n// @(a|@(b|c)|d) => @(a|b|c|d)\n// ?(a|?(b|c)|d) => ?(a|b|c|d)\n//\n// * can adopt anything, because 0 or repetition is allowed\n// *(a|?(b|c)|d) => *(a|b|c|d)\n// *(a|+(b|c)|d) => *(a|b|c|d)\n// *(a|@(b|c)|d) => *(a|b|c|d)\n//\n// + can adopt @, because 1 or repetition is allowed\n// +(a|@(b|c)|d) => +(a|b|c|d)\n//\n// + and @ CANNOT adopt *, because 0 would be allowed\n// +(a|*(b|c)|d) => would match \"\", on *(b|c)\n// @(a|*(b|c)|d) => would match \"\", on *(b|c)\n//\n// + and @ CANNOT adopt ?, because 0 would be allowed\n// +(a|?(b|c)|d) => would match \"\", on ?(b|c)\n// @(a|?(b|c)|d) => would match \"\", on ?(b|c)\n//\n// ? can adopt @, because 0 or 1 is allowed\n// ?(a|@(b|c)|d) => ?(a|b|c|d)\n//\n// ? and @ CANNOT adopt * or +, because >1 would be allowed\n// ?(a|*(b|c)|d) => would match bbb on *(b|c)\n// @(a|*(b|c)|d) => would match bbb on *(b|c)\n// ?(a|+(b|c)|d) => would match bbb on +(b|c)\n// @(a|+(b|c)|d) => would match bbb on +(b|c)\n//\n// ! CANNOT adopt ! (nothing else can either)\n// !(a|!(b|c)|d) => !(a|b|c|d) would fail to match on b (not not b|c)\n//\n// ! can adopt @\n// !(a|@(b|c)|d) => !(a|b|c|d)\n//\n// ! CANNOT adopt *\n// !(a|*(b|c)|d) => !(a|b|c|d) would match on bbb, not allowed\n//\n// ! CANNOT adopt +\n// !(a|+(b|c)|d) => !(a|b|c|d) would match on bbb, not allowed\n//\n// ! CANNOT adopt ?\n// x!(a|?(b|c)|d) => x!(a|b|c|d) would fail to match \"x\"\nconst adoptionMap = new Map([\n  ['!', ['@']],\n  ['?', ['?', '@']],\n  ['@', ['@']],\n  ['*', ['*', '+', '?', '@']],\n  ['+', ['+', '@']],\n])\n\n// nested extglobs that can be adopted in, but with the addition of\n// a blank '' element.\nconst adoptionWithSpaceMap = new Map([\n  ['!', ['?']],\n  ['@', ['?']],\n  ['+', ['?', '*']],\n])\n\n// union of the previous two maps\nconst adoptionAnyMap = new Map([\n  ['!', ['?', '@']],\n  ['?', ['?', '@']],\n  ['@', ['?', '@']],\n  ['*', ['*', '+', '?', '@']],\n  ['+', ['+', '@', '?', '*']],\n])\n\n// Extglobs that can take over their parent if they are the only child\n// the key is parent, value maps child to resulting extglob parent type\n// '@' is omitted because it's a special case. An `@` extglob with a single\n// member can always be usurped by that subpattern.\nconst usurpMap = new Map>([\n  ['!', new Map([['!', '@']])],\n  [\n    '?',\n    new Map([\n      ['*', '*'],\n      ['+', '*'],\n    ]),\n  ],\n  [\n    '@',\n    new Map([\n      ['!', '!'],\n      ['?', '?'],\n      ['@', '@'],\n      ['*', '*'],\n      ['+', '+'],\n    ]),\n  ],\n  [\n    '+',\n    new Map([\n      ['?', '*'],\n      ['*', '*'],\n    ]),\n  ],\n])\n\n// Patterns that get prepended to bind to the start of either the\n// entire string, or just a single path portion, to prevent dots\n// and/or traversal patterns, when needed.\n// Exts don't need the ^ or / bit, because the root binds that already.\nconst startNoTraversal = '(?!(?:^|/)\\\\.\\\\.?(?:$|/))'\nconst startNoDot = '(?!\\\\.)'\n\n// characters that indicate a start of pattern needs the \"no dots\" bit,\n// because a dot *might* be matched. ( is not in the list, because in\n// the case of a child extglob, it will handle the prevention itself.\nconst addPatternStart = new Set(['[', '.'])\n// cases where traversal is A-OK, no dot prevention needed\nconst justDots = new Set(['..', '.'])\nconst reSpecials = new Set('().*{}+?[]^$\\\\!')\nconst regExpEscape = (s: string) =>\n  s.replace(/[-[\\]{}()*+?.,\\\\^$|#\\s]/g, '\\\\$&')\n\n// any single thing other than /\nconst qmark = '[^/]'\n\n// * => any number of characters\nconst star = qmark + '*?'\n// use + when we need to ensure that *something* matches, because the * is\n// the only thing in the path portion.\nconst starNoEmpty = qmark + '+?'\n\n// remove the \\ chars that we added if we end up doing a nonmagic compare\n// const deslash = (s: string) => s.replace(/\\\\(.)/g, '$1')\n\nlet ID = 0\nexport class AST {\n  type: ExtglobType | null\n  readonly #root: AST\n\n  #hasMagic?: boolean\n  #uflag: boolean = false\n  #parts: (string | AST)[] = []\n  #parent?: AST\n  #parentIndex: number\n  #negs: AST[]\n  #filledNegs: boolean = false\n  #options: MinimatchOptions\n  #toString?: string\n  // set to true if it's an extglob with no children\n  // (which really means one child of '')\n  #emptyExt: boolean = false\n  id = ++ID\n\n  get depth(): number {\n    return (this.#parent?.depth ?? -1) + 1\n  }\n\n  [Symbol.for('nodejs.util.inspect.custom')]() {\n    return {\n      '@@type': 'AST',\n      id: this.id,\n      type: this.type,\n      root: this.#root.id,\n      parent: this.#parent?.id,\n      depth: this.depth,\n      partsLength: this.#parts.length,\n      parts: this.#parts,\n    }\n  }\n\n  constructor(\n    type: ExtglobType | null,\n    parent?: AST,\n    options: MinimatchOptions = {},\n  ) {\n    this.type = type\n    // extglobs are inherently magical\n    if (type) this.#hasMagic = true\n    this.#parent = parent\n    this.#root = this.#parent ? this.#parent.#root : this\n    this.#options = this.#root === this ? options : this.#root.#options\n    this.#negs = this.#root === this ? [] : this.#root.#negs\n    if (type === '!' && !this.#root.#filledNegs) this.#negs.push(this)\n    this.#parentIndex = this.#parent ? this.#parent.#parts.length : 0\n  }\n\n  get hasMagic(): boolean | undefined {\n    /* c8 ignore start */\n    if (this.#hasMagic !== undefined) return this.#hasMagic\n    /* c8 ignore stop */\n    for (const p of this.#parts) {\n      if (typeof p === 'string') continue\n      if (p.type || p.hasMagic) return (this.#hasMagic = true)\n    }\n    // note: will be undefined until we generate the regexp src and find out\n    return this.#hasMagic\n  }\n\n  // reconstructs the pattern\n  toString(): string {\n    if (this.#toString !== undefined) return this.#toString\n    if (!this.type) {\n      return (this.#toString = this.#parts.map(p => String(p)).join(''))\n    } else {\n      return (this.#toString =\n        this.type + '(' + this.#parts.map(p => String(p)).join('|') + ')')\n    }\n  }\n\n  #fillNegs() {\n    /* c8 ignore start */\n    if (this !== this.#root) throw new Error('should only call on root')\n    if (this.#filledNegs) return this\n    /* c8 ignore stop */\n\n    // call toString() once to fill this out\n    this.toString()\n    this.#filledNegs = true\n    let n: AST | undefined\n    while ((n = this.#negs.pop())) {\n      if (n.type !== '!') continue\n      // walk up the tree, appending everthing that comes AFTER parentIndex\n      let p: AST | undefined = n\n      let pp = p.#parent\n      while (pp) {\n        for (\n          let i = p.#parentIndex + 1;\n          !pp.type && i < pp.#parts.length;\n          i++\n        ) {\n          for (const part of n.#parts) {\n            /* c8 ignore start */\n            if (typeof part === 'string') {\n              throw new Error('string part in extglob AST??')\n            }\n            /* c8 ignore stop */\n            part.copyIn(pp.#parts[i])\n          }\n        }\n        p = pp\n        pp = p.#parent\n      }\n    }\n    return this\n  }\n\n  push(...parts: (string | AST)[]) {\n    for (const p of parts) {\n      if (p === '') continue\n      /* c8 ignore start */\n      if (\n        typeof p !== 'string' &&\n        !(p instanceof AST && p.#parent === this)\n      ) {\n        throw new Error('invalid part: ' + p)\n      }\n      /* c8 ignore stop */\n      this.#parts.push(p)\n    }\n  }\n\n  toJSON() {\n    const ret: any[] =\n      this.type === null ?\n        this.#parts\n          .slice()\n          .map(p => (typeof p === 'string' ? p : p.toJSON()))\n      : [this.type, ...this.#parts.map(p => (p as AST).toJSON())]\n    if (this.isStart() && !this.type) ret.unshift([])\n    if (\n      this.isEnd() &&\n      (this === this.#root ||\n        (this.#root.#filledNegs && this.#parent?.type === '!'))\n    ) {\n      ret.push({})\n    }\n    return ret\n  }\n\n  isStart(): boolean {\n    if (this.#root === this) return true\n    // if (this.type) return !!this.#parent?.isStart()\n    if (!this.#parent?.isStart()) return false\n    if (this.#parentIndex === 0) return true\n    // if everything AHEAD of this is a negation, then it's still the \"start\"\n    const p = this.#parent\n    for (let i = 0; i < this.#parentIndex; i++) {\n      const pp = p.#parts[i]\n      if (!(pp instanceof AST && pp.type === '!')) {\n        return false\n      }\n    }\n    return true\n  }\n\n  isEnd(): boolean {\n    if (this.#root === this) return true\n    if (this.#parent?.type === '!') return true\n    if (!this.#parent?.isEnd()) return false\n    if (!this.type) return this.#parent?.isEnd()\n    // if not root, it'll always have a parent\n    /* c8 ignore start */\n    const pl = this.#parent ? this.#parent.#parts.length : 0\n    /* c8 ignore stop */\n    return this.#parentIndex === pl - 1\n  }\n\n  copyIn(part: AST | string) {\n    if (typeof part === 'string') this.push(part)\n    else this.push(part.clone(this))\n  }\n\n  clone(parent: AST) {\n    const c = new AST(this.type, parent)\n    for (const p of this.#parts) {\n      c.copyIn(p)\n    }\n    return c\n  }\n\n  static #parseAST(\n    str: string,\n    ast: AST,\n    pos: number,\n    opt: MinimatchOptions,\n    extDepth: number,\n  ): number {\n    const maxDepth = opt.maxExtglobRecursion ?? 2\n    let escaping = false\n    let inBrace = false\n    let braceStart = -1\n    let braceNeg = false\n    if (ast.type === null) {\n      // outside of a extglob, append until we find a start\n      let i = pos\n      let acc = ''\n      while (i < str.length) {\n        const c = str.charAt(i++)\n        // still accumulate escapes at this point, but we do ignore\n        // starts that are escaped\n        if (escaping || c === '\\\\') {\n          escaping = !escaping\n          acc += c\n          continue\n        }\n\n        if (inBrace) {\n          if (i === braceStart + 1) {\n            if (c === '^' || c === '!') {\n              braceNeg = true\n            }\n          } else if (c === ']' && !(i === braceStart + 2 && braceNeg)) {\n            inBrace = false\n          }\n          acc += c\n          continue\n        } else if (c === '[') {\n          inBrace = true\n          braceStart = i\n          braceNeg = false\n          acc += c\n          continue\n        }\n\n        // we don't have to check for adoption here, because that's\n        // done at the other recursion point.\n        const doRecurse =\n          !opt.noext &&\n          isExtglobType(c) &&\n          str.charAt(i) === '(' &&\n          extDepth <= maxDepth\n        if (doRecurse) {\n          ast.push(acc)\n          acc = ''\n          const ext = new AST(c, ast)\n          i = AST.#parseAST(str, ext, i, opt, extDepth + 1)\n          ast.push(ext)\n          continue\n        }\n        acc += c\n      }\n      ast.push(acc)\n      return i\n    }\n\n    // some kind of extglob, pos is at the (\n    // find the next | or )\n    let i = pos + 1\n    let part = new AST(null, ast)\n    const parts: AST[] = []\n    let acc = ''\n    while (i < str.length) {\n      const c = str.charAt(i++)\n      // still accumulate escapes at this point, but we do ignore\n      // starts that are escaped\n      if (escaping || c === '\\\\') {\n        escaping = !escaping\n        acc += c\n        continue\n      }\n\n      if (inBrace) {\n        if (i === braceStart + 1) {\n          if (c === '^' || c === '!') {\n            braceNeg = true\n          }\n        } else if (c === ']' && !(i === braceStart + 2 && braceNeg)) {\n          inBrace = false\n        }\n        acc += c\n        continue\n      } else if (c === '[') {\n        inBrace = true\n        braceStart = i\n        braceNeg = false\n        acc += c\n        continue\n      }\n\n      const doRecurse =\n        !opt.noext &&\n        isExtglobType(c) &&\n        str.charAt(i) === '(' &&\n        /* c8 ignore start - the maxDepth is sufficient here */\n        (extDepth <= maxDepth || (ast && ast.#canAdoptType(c)))\n      /* c8 ignore stop */\n      if (doRecurse) {\n        const depthAdd = ast && ast.#canAdoptType(c) ? 0 : 1\n        part.push(acc)\n        acc = ''\n        const ext = new AST(c, part)\n        part.push(ext)\n        i = AST.#parseAST(str, ext, i, opt, extDepth + depthAdd)\n        continue\n      }\n      if (c === '|') {\n        part.push(acc)\n        acc = ''\n        parts.push(part)\n        part = new AST(null, ast)\n        continue\n      }\n      if (c === ')') {\n        if (acc === '' && ast.#parts.length === 0) {\n          ast.#emptyExt = true\n        }\n        part.push(acc)\n        acc = ''\n        ast.push(...parts, part)\n        return i\n      }\n      acc += c\n    }\n\n    // unfinished extglob\n    // if we got here, it was a malformed extglob! not an extglob, but\n    // maybe something else in there.\n    ast.type = null\n    ast.#hasMagic = undefined\n    ast.#parts = [str.substring(pos - 1)]\n    return i\n  }\n\n  #canAdoptWithSpace(child?: AST | string): child is AST & {\n    type: null\n    parts: [AST & { type: ExtglobType }]\n  } {\n    return this.#canAdopt(child, adoptionWithSpaceMap)\n  }\n\n  #canAdopt(\n    child?: AST | string,\n    map: Map = adoptionMap,\n  ): child is AST & {\n    type: null\n    parts: [AST & { type: ExtglobType }]\n  } {\n    if (\n      !child ||\n      typeof child !== 'object' ||\n      child.type !== null ||\n      child.#parts.length !== 1 ||\n      this.type === null\n    ) {\n      return false\n    }\n    const gc = child.#parts[0]\n    if (!gc || typeof gc !== 'object' || gc.type === null) {\n      return false\n    }\n    return (this as AST & { type: ExtglobType }).#canAdoptType(\n      gc.type,\n      map,\n    )\n  }\n  #canAdoptType(\n    c: string,\n    map: Map = adoptionAnyMap,\n  ): c is ExtglobType {\n    return !!map.get(this.type as ExtglobType)?.includes(c as ExtglobType)\n  }\n\n  #adoptWithSpace(\n    this: AST & { type: ExtglobType },\n    child: AST & {\n      type: null\n    },\n    index: number,\n  ) {\n    const gc = child.#parts[0] as AST & { type: ExtglobType }\n    const blank = new AST(null, gc, this.options)\n    blank.#parts.push('')\n    gc.push(blank)\n    this.#adopt(child, index)\n  }\n\n  #adopt(\n    child: AST & {\n      type: null\n    },\n    index: number,\n  ) {\n    const gc = child.#parts[0] as AST & { type: ExtglobType }\n    this.#parts.splice(index, 1, ...gc.#parts)\n    for (const p of gc.#parts) {\n      if (typeof p === 'object') p.#parent = this\n    }\n    this.#toString = undefined\n  }\n\n  #canUsurpType(c: string): boolean {\n    const m = usurpMap.get(this.type as ExtglobType)\n    return !!(m?.has(c as ExtglobType))\n  }\n\n  #canUsurp (\n    child?: AST | string,\n  ): child is AST & {\n    type: null\n    parts: [AST & { type: ExtglobType }]\n  } {\n    if (\n      !child ||\n      typeof child !== 'object' ||\n      child.type !== null ||\n      child.#parts.length !== 1 ||\n      this.type === null ||\n      this.#parts.length !== 1\n    ) {\n      return false\n    }\n    const gc = child.#parts[0]\n    if (!gc || typeof gc !== 'object' || gc.type === null) {\n      return false\n    }\n    return (this as AST & { type: ExtglobType }).#canUsurpType(gc.type)\n  }\n\n  #usurp(this: AST & { type: ExtglobType }, child: AST & { type: null }) {\n    const m = usurpMap.get(this.type as ExtglobType)\n    const gc = child.#parts[0] as AST & { type: ExtglobType }\n    const nt = m?.get(gc.type)\n    /* c8 ignore start - impossible */\n    if (!nt) return false\n    /* c8 ignore stop */\n    this.#parts = gc.#parts\n    for (const p of this.#parts) {\n      if (typeof p === 'object') {\n        p.#parent = this\n      }\n    }\n    this.type = nt\n    this.#toString = undefined\n    this.#emptyExt = false\n  }\n\n  static fromGlob(pattern: string, options: MinimatchOptions = {}) {\n    const ast = new AST(null, undefined, options)\n    AST.#parseAST(pattern, ast, 0, options, 0)\n    return ast\n  }\n\n  // returns the regular expression if there's magic, or the unescaped\n  // string if not.\n  toMMPattern(): MMRegExp | string {\n    // should only be called on root\n    /* c8 ignore start */\n    if (this !== this.#root) return this.#root.toMMPattern()\n    /* c8 ignore stop */\n    const glob = this.toString()\n    const [re, body, hasMagic, uflag] = this.toRegExpSource()\n    // if we're in nocase mode, and not nocaseMagicOnly, then we do\n    // still need a regular expression if we have to case-insensitively\n    // match capital/lowercase characters.\n    const anyMagic =\n      hasMagic ||\n      this.#hasMagic ||\n      (this.#options.nocase &&\n        !this.#options.nocaseMagicOnly &&\n        glob.toUpperCase() !== glob.toLowerCase())\n    if (!anyMagic) {\n      return body\n    }\n\n    const flags = (this.#options.nocase ? 'i' : '') + (uflag ? 'u' : '')\n    return Object.assign(new RegExp(`^${re}$`, flags), {\n      _src: re,\n      _glob: glob,\n    })\n  }\n\n  get options() {\n    return this.#options\n  }\n\n  // returns the string match, the regexp source, whether there's magic\n  // in the regexp (so a regular expression is required) and whether or\n  // not the uflag is needed for the regular expression (for posix classes)\n  // TODO: instead of injecting the start/end at this point, just return\n  // the BODY of the regexp, along with the start/end portions suitable\n  // for binding the start/end in either a joined full-path makeRe context\n  // (where we bind to (^|/), or a standalone matchPart context (where\n  // we bind to ^, and not /).  Otherwise slashes get duped!\n  //\n  // In part-matching mode, the start is:\n  // - if not isStart: nothing\n  // - if traversal possible, but not allowed: ^(?!\\.\\.?$)\n  // - if dots allowed or not possible: ^\n  // - if dots possible and not allowed: ^(?!\\.)\n  // end is:\n  // - if not isEnd(): nothing\n  // - else: $\n  //\n  // In full-path matching mode, we put the slash at the START of the\n  // pattern, so start is:\n  // - if first pattern: same as part-matching mode\n  // - if not isStart(): nothing\n  // - if traversal possible, but not allowed: /(?!\\.\\.?(?:$|/))\n  // - if dots allowed or not possible: /\n  // - if dots possible and not allowed: /(?!\\.)\n  // end is:\n  // - if last pattern, same as part-matching mode\n  // - else nothing\n  //\n  // Always put the (?:$|/) on negated tails, though, because that has to be\n  // there to bind the end of the negated pattern portion, and it's easier to\n  // just stick it in now rather than try to inject it later in the middle of\n  // the pattern.\n  //\n  // We can just always return the same end, and leave it up to the caller\n  // to know whether it's going to be used joined or in parts.\n  // And, if the start is adjusted slightly, can do the same there:\n  // - if not isStart: nothing\n  // - if traversal possible, but not allowed: (?:/|^)(?!\\.\\.?$)\n  // - if dots allowed or not possible: (?:/|^)\n  // - if dots possible and not allowed: (?:/|^)(?!\\.)\n  //\n  // But it's better to have a simpler binding without a conditional, for\n  // performance, so probably better to return both start options.\n  //\n  // Then the caller just ignores the end if it's not the first pattern,\n  // and the start always gets applied.\n  //\n  // But that's always going to be $ if it's the ending pattern, or nothing,\n  // so the caller can just attach $ at the end of the pattern when building.\n  //\n  // So the todo is:\n  // - better detect what kind of start is needed\n  // - return both flavors of starting pattern\n  // - attach $ at the end of the pattern when creating the actual RegExp\n  //\n  // Ah, but wait, no, that all only applies to the root when the first pattern\n  // is not an extglob. If the first pattern IS an extglob, then we need all\n  // that dot prevention biz to live in the extglob portions, because eg\n  // +(*|.x*) can match .xy but not .yx.\n  //\n  // So, return the two flavors if it's #root and the first child is not an\n  // AST, otherwise leave it to the child AST to handle it, and there,\n  // use the (?:^|/) style of start binding.\n  //\n  // Even simplified further:\n  // - Since the start for a join is eg /(?!\\.) and the start for a part\n  // is ^(?!\\.), we can just prepend (?!\\.) to the pattern (either root\n  // or start or whatever) and prepend ^ or / at the Regexp construction.\n  toRegExpSource(\n    allowDot?: boolean,\n  ): [re: string, body: string, hasMagic: boolean, uflag: boolean] {\n    const dot = allowDot ?? !!this.#options.dot\n    if (this.#root === this) {\n      this.#flatten()\n      this.#fillNegs()\n    }\n    if (!isExtglobAST(this)) {\n      const noEmpty =\n        this.isStart() &&\n        this.isEnd() &&\n        !this.#parts.some(s => typeof s !== 'string')\n      const src = this.#parts\n        .map(p => {\n          const [re, _, hasMagic, uflag] =\n            typeof p === 'string' ?\n              AST.#parseGlob(p, this.#hasMagic, noEmpty)\n            : p.toRegExpSource(allowDot)\n          this.#hasMagic = this.#hasMagic || hasMagic\n          this.#uflag = this.#uflag || uflag\n          return re\n        })\n        .join('')\n\n      let start = ''\n      if (this.isStart()) {\n        if (typeof this.#parts[0] === 'string') {\n          // this is the string that will match the start of the pattern,\n          // so we need to protect against dots and such.\n\n          // '.' and '..' cannot match unless the pattern is that exactly,\n          // even if it starts with . or dot:true is set.\n          const dotTravAllowed =\n            this.#parts.length === 1 && justDots.has(this.#parts[0])\n          if (!dotTravAllowed) {\n            const aps = addPatternStart\n            // check if we have a possibility of matching . or ..,\n            // and prevent that.\n            const needNoTrav =\n              // dots are allowed, and the pattern starts with [ or .\n              (dot && aps.has(src.charAt(0))) ||\n              // the pattern starts with \\., and then [ or .\n              (src.startsWith('\\\\.') && aps.has(src.charAt(2))) ||\n              // the pattern starts with \\.\\., and then [ or .\n              (src.startsWith('\\\\.\\\\.') && aps.has(src.charAt(4)))\n            // no need to prevent dots if it can't match a dot, or if a\n            // sub-pattern will be preventing it anyway.\n            const needNoDot = !dot && !allowDot && aps.has(src.charAt(0))\n\n            start =\n              needNoTrav ? startNoTraversal\n              : needNoDot ? startNoDot\n              : ''\n          }\n        }\n      }\n\n      // append the \"end of path portion\" pattern to negation tails\n      let end = ''\n      if (\n        this.isEnd() &&\n        this.#root.#filledNegs &&\n        this.#parent?.type === '!'\n      ) {\n        end = '(?:$|\\\\/)'\n      }\n      const final = start + src + end\n      return [\n        final,\n        unescape(src),\n        (this.#hasMagic = !!this.#hasMagic),\n        this.#uflag,\n      ]\n    }\n\n    // We need to calculate the body *twice* if it's a repeat pattern\n    // at the start, once in nodot mode, then again in dot mode, so a\n    // pattern like *(?) can match 'x.y'\n\n    const repeated = this.type === '*' || this.type === '+'\n    // some kind of extglob\n    const start = this.type === '!' ? '(?:(?!(?:' : '(?:'\n    let body = this.#partsToRegExp(dot)\n\n    if (this.isStart() && this.isEnd() && !body && this.type !== '!') {\n      // invalid extglob, has to at least be *something* present, if it's\n      // the entire path portion.\n      const s = this.toString()\n      const me = this as AST\n      me.#parts = [s]\n      me.type = null\n      me.#hasMagic = undefined\n      return [s, unescape(this.toString()), false, false]\n    }\n\n    let bodyDotAllowed =\n      !repeated || allowDot || dot || !startNoDot ?\n        ''\n      : this.#partsToRegExp(true)\n    if (bodyDotAllowed === body) {\n      bodyDotAllowed = ''\n    }\n    if (bodyDotAllowed) {\n      body = `(?:${body})(?:${bodyDotAllowed})*?`\n    }\n\n    // an empty !() is exactly equivalent to a starNoEmpty\n    let final = ''\n    if (this.type === '!' && this.#emptyExt) {\n      final = (this.isStart() && !dot ? startNoDot : '') + starNoEmpty\n    } else {\n      const close =\n        this.type === '!' ?\n          // !() must match something,but !(x) can match ''\n          '))' +\n          (this.isStart() && !dot && !allowDot ? startNoDot : '') +\n          star +\n          ')'\n        : this.type === '@' ? ')'\n        : this.type === '?' ? ')?'\n        : this.type === '+' && bodyDotAllowed ? ')'\n        : this.type === '*' && bodyDotAllowed ? `)?`\n        : `)${this.type}`\n      final = start + body + close\n    }\n    return [\n      final,\n      unescape(body),\n      (this.#hasMagic = !!this.#hasMagic),\n      this.#uflag,\n    ]\n  }\n\n  #flatten() {\n    if (!isExtglobAST(this)) {\n      for (const p of this.#parts) {\n        if (typeof p === 'object') {\n          p.#flatten()\n        }\n      }\n    } else {\n      // do up to 10 passes to flatten as much as possible\n      let iterations = 0\n      let done = false\n      do {\n        done = true\n        for (let i = 0; i < this.#parts.length; i++) {\n          const c = this.#parts[i]\n          if (typeof c === 'object') {\n            c.#flatten()\n            if (this.#canAdopt(c)) {\n              done = false\n              this.#adopt(c, i)\n            } else if (this.#canAdoptWithSpace(c)) {\n              done = false\n              this.#adoptWithSpace(c, i)\n            } else if (this.#canUsurp(c)) {\n              done = false\n              this.#usurp(c)\n            }\n          }\n        }\n      } while (!done && ++iterations < 10)\n    }\n    this.#toString = undefined\n  }\n\n  #partsToRegExp(this: AST & { type: ExtglobType }, dot: boolean) {\n    return this.#parts\n      .map(p => {\n        // extglob ASTs should only contain parent ASTs\n        /* c8 ignore start */\n        if (typeof p === 'string') {\n          throw new Error('string type in extglob ast??')\n        }\n        /* c8 ignore stop */\n        // can ignore hasMagic, because extglobs are already always magic\n        const [re, _, _hasMagic, uflag] = p.toRegExpSource(dot)\n        this.#uflag = this.#uflag || uflag\n        return re\n      })\n      .filter(p => !(this.isStart() && this.isEnd()) || !!p)\n      .join('|')\n  }\n\n  static #parseGlob(\n    glob: string,\n    hasMagic: boolean | undefined,\n    noEmpty: boolean = false,\n  ): [re: string, body: string, hasMagic: boolean, uflag: boolean] {\n    let escaping = false\n    let re = ''\n    let uflag = false\n    // multiple stars that aren't globstars coalesce into one *\n    let inStar = false\n    for (let i = 0; i < glob.length; i++) {\n      const c = glob.charAt(i)\n      if (escaping) {\n        escaping = false\n        re += (reSpecials.has(c) ? '\\\\' : '') + c\n        continue\n      }\n      if (c === '*') {\n        if (inStar) continue\n        inStar = true\n        re += noEmpty && /^[*]+$/.test(glob) ? starNoEmpty : star\n        hasMagic = true\n        continue\n      } else {\n        inStar = false\n      }\n      if (c === '\\\\') {\n        if (i === glob.length - 1) {\n          re += '\\\\\\\\'\n        } else {\n          escaping = true\n        }\n        continue\n      }\n      if (c === '[') {\n        const [src, needUflag, consumed, magic] = parseClass(glob, i)\n        if (consumed) {\n          re += src\n          uflag = uflag || needUflag\n          i += consumed - 1\n          hasMagic = hasMagic || magic\n          continue\n        }\n      }\n      if (c === '?') {\n        re += qmark\n        hasMagic = true\n        continue\n      }\n      re += regExpEscape(c)\n    }\n    return [re, unescape(glob), !!hasMagic, uflag]\n  }\n}\n"]}
\ No newline at end of file
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parse a single path portion\n\nimport { parseClass } from './brace-expressions.js'\nimport type { MinimatchOptions, MMRegExp } from './index.js'\nimport { unescape } from './unescape.js'\n\n// classes [] are handled by the parseClass method\n// for positive extglobs, we sub-parse the contents, and combine,\n// with the appropriate regexp close.\n// for negative extglobs, we sub-parse the contents, but then\n// have to include the rest of the pattern, then the parent, etc.,\n// as the thing that cannot be because RegExp negative lookaheads\n// are different from globs.\n//\n// So for example:\n// a@(i|w!(x|y)z|j)b => ^a(i|w((!?(x|y)zb).*)z|j)b$\n//   1   2 3   4 5 6      1   2    3   46      5 6\n//\n// Assembling the extglob requires not just the negated patterns themselves,\n// but also anything following the negative patterns up to the boundary\n// of the current pattern, plus anything following in the parent pattern.\n//\n//\n// So, first, we parse the string into an AST of extglobs, without turning\n// anything into regexps yet.\n//\n// ['a', {@ [['i'], ['w', {!['x', 'y']}, 'z'], ['j']]}, 'b']\n//\n// Then, for all the negative extglobs, we append whatever comes after in\n// each parent as their tail\n//\n// ['a', {@ [['i'], ['w', {!['x', 'y'], 'z', 'b'}, 'z'], ['j']]}, 'b']\n//\n// Lastly, we turn each of these pieces into a regexp, and join\n//\n//                                 v----- .* because there's more following,\n//                                 v    v  otherwise, .+ because it must be\n//                                 v    v  *something* there.\n// ['^a', {@ ['i', 'w(?:(!?(?:x|y).*zb$).*)z', 'j' ]}, 'b$']\n//   copy what follows into here--^^^^^\n// ['^a', '(?:i|w(?:(?!(?:x|y).*zb$).*)z|j)', 'b$']\n// ['^a(?:i|w(?:(?!(?:x|y).*zb$).*)z|j)b$']\n\nexport type ExtglobType = '!' | '?' | '+' | '*' | '@'\nconst types = new Set(['!', '?', '+', '*', '@'])\nconst isExtglobType = (c: string | null): c is ExtglobType =>\n  types.has(c as ExtglobType)\nconst isExtglobAST = (c: AST): c is AST & { type: ExtglobType } =>\n  isExtglobType(c.type)\n\n// Map of which extglob types can adopt the children of a nested extglob\n//\n// anything but ! can adopt a matching type:\n// +(a|+(b|c)|d) => +(a|b|c|d)\n// *(a|*(b|c)|d) => *(a|b|c|d)\n// @(a|@(b|c)|d) => @(a|b|c|d)\n// ?(a|?(b|c)|d) => ?(a|b|c|d)\n//\n// * can adopt anything, because 0 or repetition is allowed\n// *(a|?(b|c)|d) => *(a|b|c|d)\n// *(a|+(b|c)|d) => *(a|b|c|d)\n// *(a|@(b|c)|d) => *(a|b|c|d)\n//\n// + can adopt @, because 1 or repetition is allowed\n// +(a|@(b|c)|d) => +(a|b|c|d)\n//\n// + and @ CANNOT adopt *, because 0 would be allowed\n// +(a|*(b|c)|d) => would match \"\", on *(b|c)\n// @(a|*(b|c)|d) => would match \"\", on *(b|c)\n//\n// + and @ CANNOT adopt ?, because 0 would be allowed\n// +(a|?(b|c)|d) => would match \"\", on ?(b|c)\n// @(a|?(b|c)|d) => would match \"\", on ?(b|c)\n//\n// ? can adopt @, because 0 or 1 is allowed\n// ?(a|@(b|c)|d) => ?(a|b|c|d)\n//\n// ? and @ CANNOT adopt * or +, because >1 would be allowed\n// ?(a|*(b|c)|d) => would match bbb on *(b|c)\n// @(a|*(b|c)|d) => would match bbb on *(b|c)\n// ?(a|+(b|c)|d) => would match bbb on +(b|c)\n// @(a|+(b|c)|d) => would match bbb on +(b|c)\n//\n// ! CANNOT adopt ! (nothing else can either)\n// !(a|!(b|c)|d) => !(a|b|c|d) would fail to match on b (not not b|c)\n//\n// ! can adopt @\n// !(a|@(b|c)|d) => !(a|b|c|d)\n//\n// ! CANNOT adopt *\n// !(a|*(b|c)|d) => !(a|b|c|d) would match on bbb, not allowed\n//\n// ! CANNOT adopt +\n// !(a|+(b|c)|d) => !(a|b|c|d) would match on bbb, not allowed\n//\n// ! CANNOT adopt ?\n// x!(a|?(b|c)|d) => x!(a|b|c|d) would fail to match \"x\"\nconst adoptionMap = new Map([\n  ['!', ['@']],\n  ['?', ['?', '@']],\n  ['@', ['@']],\n  ['*', ['*', '+', '?', '@']],\n  ['+', ['+', '@']],\n])\n\n// nested extglobs that can be adopted in, but with the addition of\n// a blank '' element.\nconst adoptionWithSpaceMap = new Map([\n  ['!', ['?']],\n  ['@', ['?']],\n  ['+', ['?', '*']],\n])\n\n// union of the previous two maps\nconst adoptionAnyMap = new Map([\n  ['!', ['?', '@']],\n  ['?', ['?', '@']],\n  ['@', ['?', '@']],\n  ['*', ['*', '+', '?', '@']],\n  ['+', ['+', '@', '?', '*']],\n])\n\n// Extglobs that can take over their parent if they are the only child\n// the key is parent, value maps child to resulting extglob parent type\n// '@' is omitted because it's a special case. An `@` extglob with a single\n// member can always be usurped by that subpattern.\nconst usurpMap = new Map<\n  ExtglobType,\n  Map\n>([\n  ['!', new Map([['!', '@']])],\n  [\n    '?',\n    new Map([\n      ['*', '*'],\n      ['+', '*'],\n    ]),\n  ],\n  [\n    '@',\n    new Map([\n      ['!', '!'],\n      ['?', '?'],\n      ['@', '@'],\n      ['*', '*'],\n      ['+', '+'],\n    ]),\n  ],\n  [\n    '+',\n    new Map([\n      ['?', '*'],\n      ['*', '*'],\n    ]),\n  ],\n])\n\n// Patterns that get prepended to bind to the start of either the\n// entire string, or just a single path portion, to prevent dots\n// and/or traversal patterns, when needed.\n// Exts don't need the ^ or / bit, because the root binds that already.\nconst startNoTraversal = '(?!(?:^|/)\\\\.\\\\.?(?:$|/))'\nconst startNoDot = '(?!\\\\.)'\n\n// characters that indicate a start of pattern needs the \"no dots\" bit,\n// because a dot *might* be matched. ( is not in the list, because in\n// the case of a child extglob, it will handle the prevention itself.\nconst addPatternStart = new Set(['[', '.'])\n// cases where traversal is A-OK, no dot prevention needed\nconst justDots = new Set(['..', '.'])\nconst reSpecials = new Set('().*{}+?[]^$\\\\!')\nconst regExpEscape = (s: string) =>\n  s.replace(/[-[\\]{}()*+?.,\\\\^$|#\\s]/g, '\\\\$&')\n\n// any single thing other than /\nconst qmark = '[^/]'\n\n// * => any number of characters\nconst star = qmark + '*?'\n// use + when we need to ensure that *something* matches, because the * is\n// the only thing in the path portion.\nconst starNoEmpty = qmark + '+?'\n\n// remove the \\ chars that we added if we end up doing a nonmagic compare\n// const deslash = (s: string) => s.replace(/\\\\(.)/g, '$1')\n\nlet ID = 0\nexport class AST {\n  type: ExtglobType | null\n  readonly #root: AST\n\n  #hasMagic?: boolean\n  #uflag: boolean = false\n  #parts: (string | AST)[] = []\n  #parent?: AST\n  #parentIndex: number\n  #negs: AST[]\n  #filledNegs: boolean = false\n  #options: MinimatchOptions\n  #toString?: string\n  // set to true if it's an extglob with no children\n  // (which really means one child of '')\n  #emptyExt: boolean = false\n  id = ++ID\n\n  get depth(): number {\n    return (this.#parent?.depth ?? -1) + 1\n  }\n\n  [Symbol.for('nodejs.util.inspect.custom')]() {\n    return {\n      '@@type': 'AST',\n      id: this.id,\n      type: this.type,\n      root: this.#root.id,\n      parent: this.#parent?.id,\n      depth: this.depth,\n      partsLength: this.#parts.length,\n      parts: this.#parts,\n    }\n  }\n\n  constructor(\n    type: ExtglobType | null,\n    parent?: AST,\n    options: MinimatchOptions = {},\n  ) {\n    this.type = type\n    // extglobs are inherently magical\n    if (type) this.#hasMagic = true\n    this.#parent = parent\n    this.#root = this.#parent ? this.#parent.#root : this\n    this.#options = this.#root === this ? options : this.#root.#options\n    this.#negs = this.#root === this ? [] : this.#root.#negs\n    if (type === '!' && !this.#root.#filledNegs) this.#negs.push(this)\n    this.#parentIndex = this.#parent ? this.#parent.#parts.length : 0\n  }\n\n  get hasMagic(): boolean | undefined {\n    /* c8 ignore start */\n    if (this.#hasMagic !== undefined) return this.#hasMagic\n    /* c8 ignore stop */\n    for (const p of this.#parts) {\n      if (typeof p === 'string') continue\n      if (p.type || p.hasMagic) return (this.#hasMagic = true)\n    }\n    // note: will be undefined until we generate the regexp src and find out\n    return this.#hasMagic\n  }\n\n  // reconstructs the pattern\n  toString(): string {\n    return (\n      this.#toString !== undefined ? this.#toString\n      : !this.type ?\n        (this.#toString = this.#parts.map(p => String(p)).join(''))\n      : (this.#toString =\n          this.type +\n          '(' +\n          this.#parts.map(p => String(p)).join('|') +\n          ')')\n    )\n  }\n\n  #fillNegs() {\n    /* c8 ignore start */\n    if (this !== this.#root) throw new Error('should only call on root')\n    if (this.#filledNegs) return this\n    /* c8 ignore stop */\n\n    // call toString() once to fill this out\n    this.toString()\n    this.#filledNegs = true\n    let n: AST | undefined\n    while ((n = this.#negs.pop())) {\n      if (n.type !== '!') continue\n      // walk up the tree, appending everthing that comes AFTER parentIndex\n      let p: AST | undefined = n\n      let pp = p.#parent\n      while (pp) {\n        for (\n          let i = p.#parentIndex + 1;\n          !pp.type && i < pp.#parts.length;\n          i++\n        ) {\n          for (const part of n.#parts) {\n            /* c8 ignore start */\n            if (typeof part === 'string') {\n              throw new Error('string part in extglob AST??')\n            }\n            /* c8 ignore stop */\n            part.copyIn(pp.#parts[i])\n          }\n        }\n        p = pp\n        pp = p.#parent\n      }\n    }\n    return this\n  }\n\n  push(...parts: (string | AST)[]) {\n    for (const p of parts) {\n      if (p === '') continue\n      /* c8 ignore start */\n      if (\n        typeof p !== 'string' &&\n        !(p instanceof AST && p.#parent === this)\n      ) {\n        throw new Error('invalid part: ' + p)\n      }\n      /* c8 ignore stop */\n      this.#parts.push(p)\n    }\n  }\n\n  toJSON() {\n    const ret: unknown[] =\n      this.type === null ?\n        this.#parts\n          .slice()\n          .map(p => (typeof p === 'string' ? p : p.toJSON()))\n      : [this.type, ...this.#parts.map(p => (p as AST).toJSON())]\n    if (this.isStart() && !this.type) ret.unshift([])\n    if (\n      this.isEnd() &&\n      (this === this.#root ||\n        (this.#root.#filledNegs && this.#parent?.type === '!'))\n    ) {\n      ret.push({})\n    }\n    return ret\n  }\n\n  isStart(): boolean {\n    if (this.#root === this) return true\n    // if (this.type) return !!this.#parent?.isStart()\n    if (!this.#parent?.isStart()) return false\n    if (this.#parentIndex === 0) return true\n    // if everything AHEAD of this is a negation, then it's still the \"start\"\n    const p = this.#parent\n    for (let i = 0; i < this.#parentIndex; i++) {\n      const pp = p.#parts[i]\n      if (!(pp instanceof AST && pp.type === '!')) {\n        return false\n      }\n    }\n    return true\n  }\n\n  isEnd(): boolean {\n    if (this.#root === this) return true\n    if (this.#parent?.type === '!') return true\n    if (!this.#parent?.isEnd()) return false\n    if (!this.type) return this.#parent?.isEnd()\n    // if not root, it'll always have a parent\n    /* c8 ignore start */\n    const pl = this.#parent ? this.#parent.#parts.length : 0\n    /* c8 ignore stop */\n    return this.#parentIndex === pl - 1\n  }\n\n  copyIn(part: AST | string) {\n    if (typeof part === 'string') this.push(part)\n    else this.push(part.clone(this))\n  }\n\n  clone(parent: AST) {\n    const c = new AST(this.type, parent)\n    for (const p of this.#parts) {\n      c.copyIn(p)\n    }\n    return c\n  }\n\n  static #parseAST(\n    str: string,\n    ast: AST,\n    pos: number,\n    opt: MinimatchOptions,\n    extDepth: number,\n  ): number {\n    const maxDepth = opt.maxExtglobRecursion ?? 2\n    let escaping = false\n    let inBrace = false\n    let braceStart = -1\n    let braceNeg = false\n    if (ast.type === null) {\n      // outside of a extglob, append until we find a start\n      let i = pos\n      let acc = ''\n      while (i < str.length) {\n        const c = str.charAt(i++)\n        // still accumulate escapes at this point, but we do ignore\n        // starts that are escaped\n        if (escaping || c === '\\\\') {\n          escaping = !escaping\n          acc += c\n          continue\n        }\n\n        if (inBrace) {\n          if (i === braceStart + 1) {\n            if (c === '^' || c === '!') {\n              braceNeg = true\n            }\n          } else if (c === ']' && !(i === braceStart + 2 && braceNeg)) {\n            inBrace = false\n          }\n          acc += c\n          continue\n        } else if (c === '[') {\n          inBrace = true\n          braceStart = i\n          braceNeg = false\n          acc += c\n          continue\n        }\n\n        // we don't have to check for adoption here, because that's\n        // done at the other recursion point.\n        const doRecurse =\n          !opt.noext &&\n          isExtglobType(c) &&\n          str.charAt(i) === '(' &&\n          extDepth <= maxDepth\n        if (doRecurse) {\n          ast.push(acc)\n          acc = ''\n          const ext = new AST(c, ast)\n          i = AST.#parseAST(str, ext, i, opt, extDepth + 1)\n          ast.push(ext)\n          continue\n        }\n        acc += c\n      }\n      ast.push(acc)\n      return i\n    }\n\n    // some kind of extglob, pos is at the (\n    // find the next | or )\n    let i = pos + 1\n    let part = new AST(null, ast)\n    const parts: AST[] = []\n    let acc = ''\n    while (i < str.length) {\n      const c = str.charAt(i++)\n      // still accumulate escapes at this point, but we do ignore\n      // starts that are escaped\n      if (escaping || c === '\\\\') {\n        escaping = !escaping\n        acc += c\n        continue\n      }\n\n      if (inBrace) {\n        if (i === braceStart + 1) {\n          if (c === '^' || c === '!') {\n            braceNeg = true\n          }\n        } else if (c === ']' && !(i === braceStart + 2 && braceNeg)) {\n          inBrace = false\n        }\n        acc += c\n        continue\n      } else if (c === '[') {\n        inBrace = true\n        braceStart = i\n        braceNeg = false\n        acc += c\n        continue\n      }\n\n      const doRecurse =\n        !opt.noext &&\n        isExtglobType(c) &&\n        str.charAt(i) === '(' &&\n        /* c8 ignore start - the maxDepth is sufficient here */\n        (extDepth <= maxDepth || (ast && ast.#canAdoptType(c)))\n      /* c8 ignore stop */\n      if (doRecurse) {\n        const depthAdd = ast && ast.#canAdoptType(c) ? 0 : 1\n        part.push(acc)\n        acc = ''\n        const ext = new AST(c, part)\n        part.push(ext)\n        i = AST.#parseAST(str, ext, i, opt, extDepth + depthAdd)\n        continue\n      }\n      if (c === '|') {\n        part.push(acc)\n        acc = ''\n        parts.push(part)\n        part = new AST(null, ast)\n        continue\n      }\n      if (c === ')') {\n        if (acc === '' && ast.#parts.length === 0) {\n          ast.#emptyExt = true\n        }\n        part.push(acc)\n        acc = ''\n        ast.push(...parts, part)\n        return i\n      }\n      acc += c\n    }\n\n    // unfinished extglob\n    // if we got here, it was a malformed extglob! not an extglob, but\n    // maybe something else in there.\n    ast.type = null\n    ast.#hasMagic = undefined\n    ast.#parts = [str.substring(pos - 1)]\n    return i\n  }\n\n  #canAdoptWithSpace(child?: AST | string): child is AST & {\n    type: null\n    parts: [AST & { type: ExtglobType }]\n  } {\n    return this.#canAdopt(child, adoptionWithSpaceMap)\n  }\n\n  #canAdopt(\n    child?: AST | string,\n    map: Map = adoptionMap,\n  ): child is AST & {\n    type: null\n    parts: [AST & { type: ExtglobType }]\n  } {\n    if (\n      !child ||\n      typeof child !== 'object' ||\n      child.type !== null ||\n      child.#parts.length !== 1 ||\n      this.type === null\n    ) {\n      return false\n    }\n    const gc = child.#parts[0]\n    if (!gc || typeof gc !== 'object' || gc.type === null) {\n      return false\n    }\n    return (this as AST & { type: ExtglobType }).#canAdoptType(\n      gc.type,\n      map,\n    )\n  }\n  #canAdoptType(\n    c: string,\n    map: Map = adoptionAnyMap,\n  ): c is ExtglobType {\n    return !!map.get(this.type as ExtglobType)?.includes(c as ExtglobType)\n  }\n\n  #adoptWithSpace(\n    this: AST & { type: ExtglobType },\n    child: AST & {\n      type: null\n    },\n    index: number,\n  ) {\n    const gc = child.#parts[0] as AST & { type: ExtglobType }\n    const blank = new AST(null, gc, this.options)\n    blank.#parts.push('')\n    gc.push(blank)\n    this.#adopt(child, index)\n  }\n\n  #adopt(\n    child: AST & {\n      type: null\n    },\n    index: number,\n  ) {\n    const gc = child.#parts[0] as AST & { type: ExtglobType }\n    this.#parts.splice(index, 1, ...gc.#parts)\n    for (const p of gc.#parts) {\n      if (typeof p === 'object') p.#parent = this\n    }\n    this.#toString = undefined\n  }\n\n  #canUsurpType(c: string): boolean {\n    const m = usurpMap.get(this.type as ExtglobType)\n    return !!m?.has(c as ExtglobType)\n  }\n\n  #canUsurp(child?: AST | string): child is AST & {\n    type: null\n    parts: [AST & { type: ExtglobType }]\n  } {\n    if (\n      !child ||\n      typeof child !== 'object' ||\n      child.type !== null ||\n      child.#parts.length !== 1 ||\n      this.type === null ||\n      this.#parts.length !== 1\n    ) {\n      return false\n    }\n    const gc = child.#parts[0]\n    if (!gc || typeof gc !== 'object' || gc.type === null) {\n      return false\n    }\n    return (this as AST & { type: ExtglobType }).#canUsurpType(gc.type)\n  }\n\n  #usurp(this: AST & { type: ExtglobType }, child: AST & { type: null }) {\n    const m = usurpMap.get(this.type as ExtglobType)\n    const gc = child.#parts[0] as AST & { type: ExtglobType }\n    const nt = m?.get(gc.type)\n    /* c8 ignore start - impossible */\n    if (!nt) return false\n    /* c8 ignore stop */\n    this.#parts = gc.#parts\n    for (const p of this.#parts) {\n      if (typeof p === 'object') {\n        p.#parent = this\n      }\n    }\n    this.type = nt\n    this.#toString = undefined\n    this.#emptyExt = false\n  }\n\n  static fromGlob(pattern: string, options: MinimatchOptions = {}) {\n    const ast = new AST(null, undefined, options)\n    AST.#parseAST(pattern, ast, 0, options, 0)\n    return ast\n  }\n\n  // returns the regular expression if there's magic, or the unescaped\n  // string if not.\n  toMMPattern(): MMRegExp | string {\n    // should only be called on root\n    /* c8 ignore start */\n    if (this !== this.#root) return this.#root.toMMPattern()\n    /* c8 ignore stop */\n    const glob = this.toString()\n    const [re, body, hasMagic, uflag] = this.toRegExpSource()\n    // if we're in nocase mode, and not nocaseMagicOnly, then we do\n    // still need a regular expression if we have to case-insensitively\n    // match capital/lowercase characters.\n    const anyMagic =\n      hasMagic ||\n      this.#hasMagic ||\n      (this.#options.nocase &&\n        !this.#options.nocaseMagicOnly &&\n        glob.toUpperCase() !== glob.toLowerCase())\n    if (!anyMagic) {\n      return body\n    }\n\n    const flags = (this.#options.nocase ? 'i' : '') + (uflag ? 'u' : '')\n    return Object.assign(new RegExp(`^${re}$`, flags), {\n      _src: re,\n      _glob: glob,\n    })\n  }\n\n  get options() {\n    return this.#options\n  }\n\n  // returns the string match, the regexp source, whether there's magic\n  // in the regexp (so a regular expression is required) and whether or\n  // not the uflag is needed for the regular expression (for posix classes)\n  // TODO: instead of injecting the start/end at this point, just return\n  // the BODY of the regexp, along with the start/end portions suitable\n  // for binding the start/end in either a joined full-path makeRe context\n  // (where we bind to (^|/), or a standalone matchPart context (where\n  // we bind to ^, and not /).  Otherwise slashes get duped!\n  //\n  // In part-matching mode, the start is:\n  // - if not isStart: nothing\n  // - if traversal possible, but not allowed: ^(?!\\.\\.?$)\n  // - if dots allowed or not possible: ^\n  // - if dots possible and not allowed: ^(?!\\.)\n  // end is:\n  // - if not isEnd(): nothing\n  // - else: $\n  //\n  // In full-path matching mode, we put the slash at the START of the\n  // pattern, so start is:\n  // - if first pattern: same as part-matching mode\n  // - if not isStart(): nothing\n  // - if traversal possible, but not allowed: /(?!\\.\\.?(?:$|/))\n  // - if dots allowed or not possible: /\n  // - if dots possible and not allowed: /(?!\\.)\n  // end is:\n  // - if last pattern, same as part-matching mode\n  // - else nothing\n  //\n  // Always put the (?:$|/) on negated tails, though, because that has to be\n  // there to bind the end of the negated pattern portion, and it's easier to\n  // just stick it in now rather than try to inject it later in the middle of\n  // the pattern.\n  //\n  // We can just always return the same end, and leave it up to the caller\n  // to know whether it's going to be used joined or in parts.\n  // And, if the start is adjusted slightly, can do the same there:\n  // - if not isStart: nothing\n  // - if traversal possible, but not allowed: (?:/|^)(?!\\.\\.?$)\n  // - if dots allowed or not possible: (?:/|^)\n  // - if dots possible and not allowed: (?:/|^)(?!\\.)\n  //\n  // But it's better to have a simpler binding without a conditional, for\n  // performance, so probably better to return both start options.\n  //\n  // Then the caller just ignores the end if it's not the first pattern,\n  // and the start always gets applied.\n  //\n  // But that's always going to be $ if it's the ending pattern, or nothing,\n  // so the caller can just attach $ at the end of the pattern when building.\n  //\n  // So the todo is:\n  // - better detect what kind of start is needed\n  // - return both flavors of starting pattern\n  // - attach $ at the end of the pattern when creating the actual RegExp\n  //\n  // Ah, but wait, no, that all only applies to the root when the first pattern\n  // is not an extglob. If the first pattern IS an extglob, then we need all\n  // that dot prevention biz to live in the extglob portions, because eg\n  // +(*|.x*) can match .xy but not .yx.\n  //\n  // So, return the two flavors if it's #root and the first child is not an\n  // AST, otherwise leave it to the child AST to handle it, and there,\n  // use the (?:^|/) style of start binding.\n  //\n  // Even simplified further:\n  // - Since the start for a join is eg /(?!\\.) and the start for a part\n  // is ^(?!\\.), we can just prepend (?!\\.) to the pattern (either root\n  // or start or whatever) and prepend ^ or / at the Regexp construction.\n  toRegExpSource(\n    allowDot?: boolean,\n  ): [re: string, body: string, hasMagic: boolean, uflag: boolean] {\n    const dot = allowDot ?? !!this.#options.dot\n    if (this.#root === this) {\n      this.#flatten()\n      this.#fillNegs()\n    }\n    if (!isExtglobAST(this)) {\n      const noEmpty =\n        this.isStart() &&\n        this.isEnd() &&\n        !this.#parts.some(s => typeof s !== 'string')\n      const src = this.#parts\n        .map(p => {\n          const [re, _, hasMagic, uflag] =\n            typeof p === 'string' ?\n              AST.#parseGlob(p, this.#hasMagic, noEmpty)\n            : p.toRegExpSource(allowDot)\n          this.#hasMagic = this.#hasMagic || hasMagic\n          this.#uflag = this.#uflag || uflag\n          return re\n        })\n        .join('')\n\n      let start = ''\n      if (this.isStart()) {\n        if (typeof this.#parts[0] === 'string') {\n          // this is the string that will match the start of the pattern,\n          // so we need to protect against dots and such.\n\n          // '.' and '..' cannot match unless the pattern is that exactly,\n          // even if it starts with . or dot:true is set.\n          const dotTravAllowed =\n            this.#parts.length === 1 && justDots.has(this.#parts[0])\n          if (!dotTravAllowed) {\n            const aps = addPatternStart\n            // check if we have a possibility of matching . or ..,\n            // and prevent that.\n            const needNoTrav =\n              // dots are allowed, and the pattern starts with [ or .\n              (dot && aps.has(src.charAt(0))) ||\n              // the pattern starts with \\., and then [ or .\n              (src.startsWith('\\\\.') && aps.has(src.charAt(2))) ||\n              // the pattern starts with \\.\\., and then [ or .\n              (src.startsWith('\\\\.\\\\.') && aps.has(src.charAt(4)))\n            // no need to prevent dots if it can't match a dot, or if a\n            // sub-pattern will be preventing it anyway.\n            const needNoDot = !dot && !allowDot && aps.has(src.charAt(0))\n\n            start =\n              needNoTrav ? startNoTraversal\n              : needNoDot ? startNoDot\n              : ''\n          }\n        }\n      }\n\n      // append the \"end of path portion\" pattern to negation tails\n      let end = ''\n      if (\n        this.isEnd() &&\n        this.#root.#filledNegs &&\n        this.#parent?.type === '!'\n      ) {\n        end = '(?:$|\\\\/)'\n      }\n      const final = start + src + end\n      return [\n        final,\n        unescape(src),\n        (this.#hasMagic = !!this.#hasMagic),\n        this.#uflag,\n      ]\n    }\n\n    // We need to calculate the body *twice* if it's a repeat pattern\n    // at the start, once in nodot mode, then again in dot mode, so a\n    // pattern like *(?) can match 'x.y'\n\n    const repeated = this.type === '*' || this.type === '+'\n    // some kind of extglob\n    const start = this.type === '!' ? '(?:(?!(?:' : '(?:'\n    let body = (this as AST & { type: ExtglobType }).#partsToRegExp(dot)\n\n    if (this.isStart() && this.isEnd() && !body && this.type !== '!') {\n      // invalid extglob, has to at least be *something* present, if it's\n      // the entire path portion.\n      const s = this.toString()\n      const me = this as AST\n      me.#parts = [s]\n      me.type = null\n      me.#hasMagic = undefined\n      return [s, unescape(this.toString()), false, false]\n    }\n\n    let bodyDotAllowed =\n      !repeated || allowDot || dot || !startNoDot ?\n        ''\n      : this.#partsToRegExp(true)\n    if (bodyDotAllowed === body) {\n      bodyDotAllowed = ''\n    }\n    if (bodyDotAllowed) {\n      body = `(?:${body})(?:${bodyDotAllowed})*?`\n    }\n\n    // an empty !() is exactly equivalent to a starNoEmpty\n    let final = ''\n    if (this.type === '!' && this.#emptyExt) {\n      final = (this.isStart() && !dot ? startNoDot : '') + starNoEmpty\n    } else {\n      const close =\n        this.type === '!' ?\n          // !() must match something,but !(x) can match ''\n          '))' +\n          (this.isStart() && !dot && !allowDot ? startNoDot : '') +\n          star +\n          ')'\n        : this.type === '@' ? ')'\n        : this.type === '?' ? ')?'\n        : this.type === '+' && bodyDotAllowed ? ')'\n        : this.type === '*' && bodyDotAllowed ? `)?`\n        : `)${this.type}`\n      final = start + body + close\n    }\n    return [\n      final,\n      unescape(body),\n      (this.#hasMagic = !!this.#hasMagic),\n      this.#uflag,\n    ]\n  }\n\n  #flatten() {\n    if (!isExtglobAST(this)) {\n      for (const p of this.#parts) {\n        if (typeof p === 'object') {\n          p.#flatten()\n        }\n      }\n    } else {\n      // do up to 10 passes to flatten as much as possible\n      let iterations = 0\n      let done = false\n      do {\n        done = true\n        for (let i = 0; i < this.#parts.length; i++) {\n          const c = this.#parts[i]\n          if (typeof c === 'object') {\n            c.#flatten()\n            if (this.#canAdopt(c)) {\n              done = false\n              this.#adopt(c, i)\n            } else if (this.#canAdoptWithSpace(c)) {\n              done = false\n              ;(this as AST & { type: ExtglobType }).#adoptWithSpace(c, i)\n            } else if (this.#canUsurp(c)) {\n              done = false\n              ;(this as AST & { type: ExtglobType }).#usurp(c)\n            }\n          }\n        }\n      } while (!done && ++iterations < 10)\n    }\n    this.#toString = undefined\n  }\n\n  #partsToRegExp(this: AST & { type: ExtglobType }, dot: boolean) {\n    return this.#parts\n      .map(p => {\n        // extglob ASTs should only contain parent ASTs\n        /* c8 ignore start */\n        if (typeof p === 'string') {\n          throw new Error('string type in extglob ast??')\n        }\n        /* c8 ignore stop */\n        // can ignore hasMagic, because extglobs are already always magic\n        const [re, _, _hasMagic, uflag] = p.toRegExpSource(dot)\n        this.#uflag = this.#uflag || uflag\n        return re\n      })\n      .filter(p => !(this.isStart() && this.isEnd()) || !!p)\n      .join('|')\n  }\n\n  static #parseGlob(\n    glob: string,\n    hasMagic: boolean | undefined,\n    noEmpty: boolean = false,\n  ): [re: string, body: string, hasMagic: boolean, uflag: boolean] {\n    let escaping = false\n    let re = ''\n    let uflag = false\n    // multiple stars that aren't globstars coalesce into one *\n    let inStar = false\n    for (let i = 0; i < glob.length; i++) {\n      const c = glob.charAt(i)\n      if (escaping) {\n        escaping = false\n        re += (reSpecials.has(c) ? '\\\\' : '') + c\n        continue\n      }\n      if (c === '*') {\n        if (inStar) continue\n        inStar = true\n        re += noEmpty && /^[*]+$/.test(glob) ? starNoEmpty : star\n        hasMagic = true\n        continue\n      } else {\n        inStar = false\n      }\n      if (c === '\\\\') {\n        if (i === glob.length - 1) {\n          re += '\\\\\\\\'\n        } else {\n          escaping = true\n        }\n        continue\n      }\n      if (c === '[') {\n        const [src, needUflag, consumed, magic] = parseClass(glob, i)\n        if (consumed) {\n          re += src\n          uflag = uflag || needUflag\n          i += consumed - 1\n          hasMagic = hasMagic || magic\n          continue\n        }\n      }\n      if (c === '?') {\n        re += qmark\n        hasMagic = true\n        continue\n      }\n      re += regExpEscape(c)\n    }\n    return [re, unescape(glob), !!hasMagic, uflag]\n  }\n}\n"]}
\ No newline at end of file
diff --git a/deps/minimatch/dist/esm/escape.d.ts b/deps/minimatch/dist/esm/escape.d.ts
index 92e88c8f08825b..141024a06bdf74 100644
--- a/deps/minimatch/dist/esm/escape.d.ts
+++ b/deps/minimatch/dist/esm/escape.d.ts
@@ -1,4 +1,4 @@
-import { MinimatchOptions } from './index.js';
+import type { MinimatchOptions } from './index.js';
 /**
  * Escape all magic characters in a glob pattern.
  *
diff --git a/deps/minimatch/dist/esm/escape.d.ts.map b/deps/minimatch/dist/esm/escape.d.ts.map
index e8d8a693fa4021..e167e30065a04e 100644
--- a/deps/minimatch/dist/esm/escape.d.ts.map
+++ b/deps/minimatch/dist/esm/escape.d.ts.map
@@ -1 +1 @@
-{"version":3,"file":"escape.d.ts","sourceRoot":"","sources":["../../src/escape.ts"],"names":[],"mappings":"AAAA,OAAO,EAAE,gBAAgB,EAAE,MAAM,YAAY,CAAA;AAE7C;;;;;;;;;;;GAWG;AACH,eAAO,MAAM,MAAM,GACjB,GAAG,MAAM,EACT,2CAGG,IAAI,CAAC,gBAAgB,EAAE,sBAAsB,GAAG,eAAe,CAAM,WAazE,CAAA"}
\ No newline at end of file
+{"version":3,"file":"escape.d.ts","sourceRoot":"","sources":["../../src/escape.ts"],"names":[],"mappings":"AAAA,OAAO,KAAK,EAAE,gBAAgB,EAAE,MAAM,YAAY,CAAA;AAElD;;;;;;;;;;;GAWG;AACH,eAAO,MAAM,MAAM,GACjB,GAAG,MAAM,EACT,2CAGG,IAAI,CAAC,gBAAgB,EAAE,sBAAsB,GAAG,eAAe,CAAM,WAazE,CAAA"}
\ No newline at end of file
diff --git a/deps/minimatch/dist/esm/escape.js.map b/deps/minimatch/dist/esm/escape.js.map
index f6733c65f13df2..4740508f687a90 100644
--- a/deps/minimatch/dist/esm/escape.js.map
+++ b/deps/minimatch/dist/esm/escape.js.map
@@ -1 +1 @@
-{"version":3,"file":"escape.js","sourceRoot":"","sources":["../../src/escape.ts"],"names":[],"mappings":"AAEA;;;;;;;;;;;GAWG;AACH,MAAM,CAAC,MAAM,MAAM,GAAG,CACpB,CAAS,EACT,EACE,oBAAoB,GAAG,KAAK,EAC5B,aAAa,GAAG,KAAK,MAC+C,EAAE,EACxE,EAAE;IACF,wDAAwD;IACxD,4DAA4D;IAC5D,sDAAsD;IACtD,IAAI,aAAa,EAAE,CAAC;QAClB,OAAO,oBAAoB,CAAC,CAAC;YACzB,CAAC,CAAC,OAAO,CAAC,cAAc,EAAE,MAAM,CAAC;YACnC,CAAC,CAAC,CAAC,CAAC,OAAO,CAAC,gBAAgB,EAAE,MAAM,CAAC,CAAA;IACzC,CAAC;IACD,OAAO,oBAAoB,CAAC,CAAC;QACzB,CAAC,CAAC,OAAO,CAAC,YAAY,EAAE,MAAM,CAAC;QACjC,CAAC,CAAC,CAAC,CAAC,OAAO,CAAC,cAAc,EAAE,MAAM,CAAC,CAAA;AACvC,CAAC,CAAA","sourcesContent":["import { MinimatchOptions } from './index.js'\n\n/**\n * Escape all magic characters in a glob pattern.\n *\n * If the {@link MinimatchOptions.windowsPathsNoEscape}\n * option is used, then characters are escaped by wrapping in `[]`, because\n * a magic character wrapped in a character class can only be satisfied by\n * that exact character.  In this mode, `\\` is _not_ escaped, because it is\n * not interpreted as a magic character, but instead as a path separator.\n *\n * If the {@link MinimatchOptions.magicalBraces} option is used,\n * then braces (`{` and `}`) will be escaped.\n */\nexport const escape = (\n  s: string,\n  {\n    windowsPathsNoEscape = false,\n    magicalBraces = false,\n  }: Pick = {},\n) => {\n  // don't need to escape +@! because we escape the parens\n  // that make those magic, and escaping ! as [!] isn't valid,\n  // because [!]] is a valid glob class meaning not ']'.\n  if (magicalBraces) {\n    return windowsPathsNoEscape ?\n        s.replace(/[?*()[\\]{}]/g, '[$&]')\n      : s.replace(/[?*()[\\]\\\\{}]/g, '\\\\$&')\n  }\n  return windowsPathsNoEscape ?\n      s.replace(/[?*()[\\]]/g, '[$&]')\n    : s.replace(/[?*()[\\]\\\\]/g, '\\\\$&')\n}\n"]}
\ No newline at end of file
+{"version":3,"file":"escape.js","sourceRoot":"","sources":["../../src/escape.ts"],"names":[],"mappings":"AAEA;;;;;;;;;;;GAWG;AACH,MAAM,CAAC,MAAM,MAAM,GAAG,CACpB,CAAS,EACT,EACE,oBAAoB,GAAG,KAAK,EAC5B,aAAa,GAAG,KAAK,MAC+C,EAAE,EACxE,EAAE;IACF,wDAAwD;IACxD,4DAA4D;IAC5D,sDAAsD;IACtD,IAAI,aAAa,EAAE,CAAC;QAClB,OAAO,oBAAoB,CAAC,CAAC;YACzB,CAAC,CAAC,OAAO,CAAC,cAAc,EAAE,MAAM,CAAC;YACnC,CAAC,CAAC,CAAC,CAAC,OAAO,CAAC,gBAAgB,EAAE,MAAM,CAAC,CAAA;IACzC,CAAC;IACD,OAAO,oBAAoB,CAAC,CAAC;QACzB,CAAC,CAAC,OAAO,CAAC,YAAY,EAAE,MAAM,CAAC;QACjC,CAAC,CAAC,CAAC,CAAC,OAAO,CAAC,cAAc,EAAE,MAAM,CAAC,CAAA;AACvC,CAAC,CAAA","sourcesContent":["import type { MinimatchOptions } from './index.js'\n\n/**\n * Escape all magic characters in a glob pattern.\n *\n * If the {@link MinimatchOptions.windowsPathsNoEscape}\n * option is used, then characters are escaped by wrapping in `[]`, because\n * a magic character wrapped in a character class can only be satisfied by\n * that exact character.  In this mode, `\\` is _not_ escaped, because it is\n * not interpreted as a magic character, but instead as a path separator.\n *\n * If the {@link MinimatchOptions.magicalBraces} option is used,\n * then braces (`{` and `}`) will be escaped.\n */\nexport const escape = (\n  s: string,\n  {\n    windowsPathsNoEscape = false,\n    magicalBraces = false,\n  }: Pick = {},\n) => {\n  // don't need to escape +@! because we escape the parens\n  // that make those magic, and escaping ! as [!] isn't valid,\n  // because [!]] is a valid glob class meaning not ']'.\n  if (magicalBraces) {\n    return windowsPathsNoEscape ?\n        s.replace(/[?*()[\\]{}]/g, '[$&]')\n      : s.replace(/[?*()[\\]\\\\{}]/g, '\\\\$&')\n  }\n  return windowsPathsNoEscape ?\n      s.replace(/[?*()[\\]]/g, '[$&]')\n    : s.replace(/[?*()[\\]\\\\]/g, '\\\\$&')\n}\n"]}
\ No newline at end of file
diff --git a/deps/minimatch/dist/esm/index.d.ts b/deps/minimatch/dist/esm/index.d.ts
index 137bd803690752..7e1fc2edaadbe0 100644
--- a/deps/minimatch/dist/esm/index.d.ts
+++ b/deps/minimatch/dist/esm/index.d.ts
@@ -150,7 +150,7 @@ export declare class Minimatch {
     regexp: false | null | MMRegExp;
     constructor(pattern: string, options?: MinimatchOptions);
     hasMagic(): boolean;
-    debug(..._: any[]): void;
+    debug(..._: unknown[]): void;
     make(): void;
     preprocess(globParts: string[][]): string[][];
     adjascentGlobstarOptimize(globParts: string[][]): string[][];
diff --git a/deps/minimatch/dist/esm/index.d.ts.map b/deps/minimatch/dist/esm/index.d.ts.map
index 1c65035ac63c5a..7620db91cc8185 100644
--- a/deps/minimatch/dist/esm/index.d.ts.map
+++ b/deps/minimatch/dist/esm/index.d.ts.map
@@ -1 +1 @@
-{"version":3,"file":"index.d.ts","sourceRoot":"","sources":["../../src/index.ts"],"names":[],"mappings":"AAEA,OAAO,EAAE,GAAG,EAAe,MAAM,UAAU,CAAA;AAI3C,MAAM,MAAM,QAAQ,GAChB,KAAK,GACL,SAAS,GACT,QAAQ,GACR,SAAS,GACT,OAAO,GACP,OAAO,GACP,SAAS,GACT,OAAO,GACP,OAAO,GACP,QAAQ,GACR,QAAQ,CAAA;AAEZ,MAAM,WAAW,gBAAgB;IAC/B,yCAAyC;IACzC,OAAO,CAAC,EAAE,OAAO,CAAA;IACjB,2DAA2D;IAC3D,SAAS,CAAC,EAAE,OAAO,CAAA;IACnB,4DAA4D;IAC5D,QAAQ,CAAC,EAAE,OAAO,CAAA;IAClB,qCAAqC;IACrC,KAAK,CAAC,EAAE,OAAO,CAAA;IACf,iCAAiC;IACjC,UAAU,CAAC,EAAE,OAAO,CAAA;IACpB,2CAA2C;IAC3C,KAAK,CAAC,EAAE,OAAO,CAAA;IACf,4CAA4C;IAC5C,MAAM,CAAC,EAAE,OAAO,CAAA;IAChB,8DAA8D;IAC9D,oBAAoB,CAAC,EAAE,OAAO,CAAA;IAC9B;;;OAGG;IACH,kBAAkB,CAAC,EAAE,OAAO,CAAA;IAC5B;;;;;;;OAOG;IACH,OAAO,CAAC,EAAE,OAAO,CAAA;IACjB,qEAAqE;IACrE,GAAG,CAAC,EAAE,OAAO,CAAA;IACb,kBAAkB;IAClB,MAAM,CAAC,EAAE,OAAO,CAAA;IAChB,4CAA4C;IAC5C,eAAe,CAAC,EAAE,OAAO,CAAA;IACzB,kEAAkE;IAClE,aAAa,CAAC,EAAE,OAAO,CAAA;IACvB;;;;;OAKG;IACH,SAAS,CAAC,EAAE,OAAO,CAAA;IACnB,4CAA4C;IAC5C,UAAU,CAAC,EAAE,OAAO,CAAA;IACpB,qDAAqD;IACrD,uBAAuB,CAAC,EAAE,OAAO,CAAA;IACjC;;;OAGG;IACH,iBAAiB,CAAC,EAAE,MAAM,CAAA;IAC1B,gCAAgC;IAChC,QAAQ,CAAC,EAAE,QAAQ,CAAA;IACnB;;;;;;;;OAQG;IACH,kBAAkB,CAAC,EAAE,OAAO,CAAA;IAC5B;;OAEG;IACH,cAAc,CAAC,EAAE,MAAM,CAAA;IACvB;;;;;OAKG;IACH,oBAAoB,CAAC,EAAE,MAAM,CAAA;IAE7B;;;;;;;;;;;;;;;;;;;OAmBG;IACH,mBAAmB,CAAC,EAAE,MAAM,CAAA;CAC7B;AAED,eAAO,MAAM,SAAS;QACjB,MAAM,WACA,MAAM,YACN,gBAAgB;;;sBA4Gf,MAAM,YAAW,gBAAgB,MAC1C,GAAG,MAAM;oBAOkB,gBAAgB,KAAG,OAAO,SAAS;2BAuFtD,MAAM,YACN,gBAAgB;sBA2BK,MAAM,YAAW,gBAAgB;kBAKzD,MAAM,EAAE,WACL,MAAM,YACN,gBAAgB;;;;;CApO1B,CAAA;AAkED,MAAM,MAAM,GAAG,GAAG,IAAI,GAAG,GAAG,CAAA;AAQ5B,eAAO,MAAM,GAAG,KAC+C,CAAA;AAG/D,eAAO,MAAM,QAAQ,eAAwB,CAAA;AAmB7C,eAAO,MAAM,MAAM,GAChB,SAAS,MAAM,EAAE,UAAS,gBAAqB,MAC/C,GAAG,MAAM,YACsB,CAAA;AAMlC,eAAO,MAAM,QAAQ,GAAI,KAAK,gBAAgB,KAAG,OAAO,SAyEvD,CAAA;AAaD,eAAO,MAAM,WAAW,GACtB,SAAS,MAAM,EACf,UAAS,gBAAqB,aAY/B,CAAA;AAeD,eAAO,MAAM,MAAM,GAAI,SAAS,MAAM,EAAE,UAAS,gBAAqB,qBAC5B,CAAA;AAG1C,eAAO,MAAM,KAAK,GAChB,MAAM,MAAM,EAAE,EACd,SAAS,MAAM,EACf,UAAS,gBAAqB,aAQ/B,CAAA;AAQD,MAAM,MAAM,QAAQ,GAAG,MAAM,GAAG;IAC9B,IAAI,CAAC,EAAE,MAAM,CAAA;IACb,KAAK,CAAC,EAAE,MAAM,CAAA;CACf,CAAA;AAED,MAAM,MAAM,mBAAmB,GAAG,MAAM,GAAG,QAAQ,GAAG,OAAO,QAAQ,CAAA;AACrE,MAAM,MAAM,WAAW,GAAG,mBAAmB,GAAG,KAAK,CAAA;AAErD,qBAAa,SAAS;;IACpB,OAAO,EAAE,gBAAgB,CAAA;IACzB,GAAG,EAAE,mBAAmB,EAAE,EAAE,CAAA;IAC5B,OAAO,EAAE,MAAM,CAAA;IAEf,oBAAoB,EAAE,OAAO,CAAA;IAC7B,QAAQ,EAAE,OAAO,CAAA;IACjB,MAAM,EAAE,OAAO,CAAA;IACf,OAAO,EAAE,OAAO,CAAA;IAChB,KAAK,EAAE,OAAO,CAAA;IACd,uBAAuB,EAAE,OAAO,CAAA;IAChC,OAAO,EAAE,OAAO,CAAA;IAChB,OAAO,EAAE,MAAM,EAAE,CAAA;IACjB,SAAS,EAAE,MAAM,EAAE,EAAE,CAAA;IACrB,MAAM,EAAE,OAAO,CAAA;IAEf,SAAS,EAAE,OAAO,CAAA;IAClB,QAAQ,EAAE,QAAQ,CAAA;IAClB,kBAAkB,EAAE,OAAO,CAAA;IAC3B,oBAAoB,EAAE,MAAM,CAAA;IAE5B,MAAM,EAAE,KAAK,GAAG,IAAI,GAAG,QAAQ,CAAA;gBACnB,OAAO,EAAE,MAAM,EAAE,OAAO,GAAE,gBAAqB;IAqC3D,QAAQ,IAAI,OAAO;IAYnB,KAAK,CAAC,GAAG,CAAC,EAAE,GAAG,EAAE;IAEjB,IAAI;IA6FJ,UAAU,CAAC,SAAS,EAAE,MAAM,EAAE,EAAE;IA8BhC,yBAAyB,CAAC,SAAS,EAAE,MAAM,EAAE,EAAE;IAiB/C,gBAAgB,CAAC,SAAS,EAAE,MAAM,EAAE,EAAE;IAoBtC,oBAAoB,CAAC,KAAK,EAAE,MAAM,GAAG,MAAM,EAAE;IA6D7C,oBAAoB,CAAC,SAAS,EAAE,MAAM,EAAE,EAAE;IA0F1C,qBAAqB,CAAC,SAAS,EAAE,MAAM,EAAE,EAAE,GAAG,MAAM,EAAE,EAAE;IAkBxD,UAAU,CACR,CAAC,EAAE,MAAM,EAAE,EACX,CAAC,EAAE,MAAM,EAAE,EACX,YAAY,GAAE,OAAe,GAC5B,KAAK,GAAG,MAAM,EAAE;IA+CnB,WAAW;IAqBX,QAAQ,CACN,IAAI,EAAE,MAAM,EAAE,EACd,OAAO,EAAE,WAAW,EAAE,EACtB,OAAO,GAAE,OAAe;IA8W1B,WAAW;IAIX,KAAK,CAAC,OAAO,EAAE,MAAM,GAAG,WAAW;IA6CnC,MAAM;IAuGN,UAAU,CAAC,CAAC,EAAE,MAAM;IAepB,KAAK,CAAC,CAAC,EAAE,MAAM,EAAE,OAAO,UAAe;IAiEvC,MAAM,CAAC,QAAQ,CAAC,GAAG,EAAE,gBAAgB;CAGtC;AAED,OAAO,EAAE,GAAG,EAAE,MAAM,UAAU,CAAA;AAC9B,OAAO,EAAE,MAAM,EAAE,MAAM,aAAa,CAAA;AACpC,OAAO,EAAE,QAAQ,EAAE,MAAM,eAAe,CAAA"}
\ No newline at end of file
+{"version":3,"file":"index.d.ts","sourceRoot":"","sources":["../../src/index.ts"],"names":[],"mappings":"AAGA,OAAO,EAAE,GAAG,EAAE,MAAM,UAAU,CAAA;AAI9B,MAAM,MAAM,QAAQ,GAChB,KAAK,GACL,SAAS,GACT,QAAQ,GACR,SAAS,GACT,OAAO,GACP,OAAO,GACP,SAAS,GACT,OAAO,GACP,OAAO,GACP,QAAQ,GACR,QAAQ,CAAA;AAEZ,MAAM,WAAW,gBAAgB;IAC/B,yCAAyC;IACzC,OAAO,CAAC,EAAE,OAAO,CAAA;IACjB,2DAA2D;IAC3D,SAAS,CAAC,EAAE,OAAO,CAAA;IACnB,4DAA4D;IAC5D,QAAQ,CAAC,EAAE,OAAO,CAAA;IAClB,qCAAqC;IACrC,KAAK,CAAC,EAAE,OAAO,CAAA;IACf,iCAAiC;IACjC,UAAU,CAAC,EAAE,OAAO,CAAA;IACpB,2CAA2C;IAC3C,KAAK,CAAC,EAAE,OAAO,CAAA;IACf,4CAA4C;IAC5C,MAAM,CAAC,EAAE,OAAO,CAAA;IAChB,8DAA8D;IAC9D,oBAAoB,CAAC,EAAE,OAAO,CAAA;IAC9B;;;OAGG;IACH,kBAAkB,CAAC,EAAE,OAAO,CAAA;IAC5B;;;;;;;OAOG;IACH,OAAO,CAAC,EAAE,OAAO,CAAA;IACjB,qEAAqE;IACrE,GAAG,CAAC,EAAE,OAAO,CAAA;IACb,kBAAkB;IAClB,MAAM,CAAC,EAAE,OAAO,CAAA;IAChB,4CAA4C;IAC5C,eAAe,CAAC,EAAE,OAAO,CAAA;IACzB,kEAAkE;IAClE,aAAa,CAAC,EAAE,OAAO,CAAA;IACvB;;;;;OAKG;IACH,SAAS,CAAC,EAAE,OAAO,CAAA;IACnB,4CAA4C;IAC5C,UAAU,CAAC,EAAE,OAAO,CAAA;IACpB,qDAAqD;IACrD,uBAAuB,CAAC,EAAE,OAAO,CAAA;IACjC;;;OAGG;IACH,iBAAiB,CAAC,EAAE,MAAM,CAAA;IAC1B,gCAAgC;IAChC,QAAQ,CAAC,EAAE,QAAQ,CAAA;IACnB;;;;;;;;OAQG;IACH,kBAAkB,CAAC,EAAE,OAAO,CAAA;IAC5B;;OAEG;IACH,cAAc,CAAC,EAAE,MAAM,CAAA;IACvB;;;;;OAKG;IACH,oBAAoB,CAAC,EAAE,MAAM,CAAA;IAE7B;;;;;;;;;;;;;;;;;;;OAmBG;IACH,mBAAmB,CAAC,EAAE,MAAM,CAAA;CAC7B;AAED,eAAO,MAAM,SAAS;QACjB,MAAM,WACA,MAAM,YACN,gBAAgB;;;sBA4Gf,MAAM,YAAW,gBAAgB,MAC1C,GAAG,MAAM;oBAOkB,gBAAgB,KAAG,OAAO,SAAS;2BAuFtD,MAAM,YACN,gBAAgB;sBA2BK,MAAM,YAAW,gBAAgB;kBAKzD,MAAM,EAAE,WACL,MAAM,YACN,gBAAgB;;;;;CApO1B,CAAA;AAkED,MAAM,MAAM,GAAG,GAAG,IAAI,GAAG,GAAG,CAAA;AAQ5B,eAAO,MAAM,GAAG,KAC+C,CAAA;AAG/D,eAAO,MAAM,QAAQ,eAAwB,CAAA;AAmB7C,eAAO,MAAM,MAAM,GAChB,SAAS,MAAM,EAAE,UAAS,gBAAqB,MAC/C,GAAG,MAAM,YACsB,CAAA;AAMlC,eAAO,MAAM,QAAQ,GAAI,KAAK,gBAAgB,KAAG,OAAO,SAyEvD,CAAA;AAaD,eAAO,MAAM,WAAW,GACtB,SAAS,MAAM,EACf,UAAS,gBAAqB,aAY/B,CAAA;AAeD,eAAO,MAAM,MAAM,GAAI,SAAS,MAAM,EAAE,UAAS,gBAAqB,qBAC5B,CAAA;AAG1C,eAAO,MAAM,KAAK,GAChB,MAAM,MAAM,EAAE,EACd,SAAS,MAAM,EACf,UAAS,gBAAqB,aAQ/B,CAAA;AAQD,MAAM,MAAM,QAAQ,GAAG,MAAM,GAAG;IAC9B,IAAI,CAAC,EAAE,MAAM,CAAA;IACb,KAAK,CAAC,EAAE,MAAM,CAAA;CACf,CAAA;AAED,MAAM,MAAM,mBAAmB,GAAG,MAAM,GAAG,QAAQ,GAAG,OAAO,QAAQ,CAAA;AACrE,MAAM,MAAM,WAAW,GAAG,mBAAmB,GAAG,KAAK,CAAA;AAErD,qBAAa,SAAS;;IACpB,OAAO,EAAE,gBAAgB,CAAA;IACzB,GAAG,EAAE,mBAAmB,EAAE,EAAE,CAAA;IAC5B,OAAO,EAAE,MAAM,CAAA;IAEf,oBAAoB,EAAE,OAAO,CAAA;IAC7B,QAAQ,EAAE,OAAO,CAAA;IACjB,MAAM,EAAE,OAAO,CAAA;IACf,OAAO,EAAE,OAAO,CAAA;IAChB,KAAK,EAAE,OAAO,CAAA;IACd,uBAAuB,EAAE,OAAO,CAAA;IAChC,OAAO,EAAE,OAAO,CAAA;IAChB,OAAO,EAAE,MAAM,EAAE,CAAA;IACjB,SAAS,EAAE,MAAM,EAAE,EAAE,CAAA;IACrB,MAAM,EAAE,OAAO,CAAA;IAEf,SAAS,EAAE,OAAO,CAAA;IAClB,QAAQ,EAAE,QAAQ,CAAA;IAClB,kBAAkB,EAAE,OAAO,CAAA;IAC3B,oBAAoB,EAAE,MAAM,CAAA;IAE5B,MAAM,EAAE,KAAK,GAAG,IAAI,GAAG,QAAQ,CAAA;gBACnB,OAAO,EAAE,MAAM,EAAE,OAAO,GAAE,gBAAqB;IAqC3D,QAAQ,IAAI,OAAO;IAYnB,KAAK,CAAC,GAAG,CAAC,EAAE,OAAO,EAAE;IAErB,IAAI;IA8FJ,UAAU,CAAC,SAAS,EAAE,MAAM,EAAE,EAAE;IA8BhC,yBAAyB,CAAC,SAAS,EAAE,MAAM,EAAE,EAAE;IAiB/C,gBAAgB,CAAC,SAAS,EAAE,MAAM,EAAE,EAAE;IAoBtC,oBAAoB,CAAC,KAAK,EAAE,MAAM,GAAG,MAAM,EAAE;IAoE7C,oBAAoB,CAAC,SAAS,EAAE,MAAM,EAAE,EAAE;IA0F1C,qBAAqB,CAAC,SAAS,EAAE,MAAM,EAAE,EAAE,GAAG,MAAM,EAAE,EAAE;IAkBxD,UAAU,CACR,CAAC,EAAE,MAAM,EAAE,EACX,CAAC,EAAE,MAAM,EAAE,EACX,YAAY,GAAE,OAAe,GAC5B,KAAK,GAAG,MAAM,EAAE;IA+CnB,WAAW;IAqBX,QAAQ,CACN,IAAI,EAAE,MAAM,EAAE,EACd,OAAO,EAAE,WAAW,EAAE,EACtB,OAAO,GAAE,OAAe;IAiX1B,WAAW;IAIX,KAAK,CAAC,OAAO,EAAE,MAAM,GAAG,WAAW;IA6CnC,MAAM;IAuGN,UAAU,CAAC,CAAC,EAAE,MAAM;IAepB,KAAK,CAAC,CAAC,EAAE,MAAM,EAAE,OAAO,UAAe;IAgEvC,MAAM,CAAC,QAAQ,CAAC,GAAG,EAAE,gBAAgB;CAGtC;AAED,OAAO,EAAE,GAAG,EAAE,MAAM,UAAU,CAAA;AAC9B,OAAO,EAAE,MAAM,EAAE,MAAM,aAAa,CAAA;AACpC,OAAO,EAAE,QAAQ,EAAE,MAAM,eAAe,CAAA"}
\ No newline at end of file
diff --git a/deps/minimatch/dist/esm/index.js b/deps/minimatch/dist/esm/index.js
index ac45d7c48e309f..75ad8f6ddeba4f 100644
--- a/deps/minimatch/dist/esm/index.js
+++ b/deps/minimatch/dist/esm/index.js
@@ -12,7 +12,7 @@ export const minimatch = (p, pattern, options = {}) => {
     return new Minimatch(pattern, options).match(p);
 };
 // Optimized checking for the most common glob patterns.
-const starDotExtRE = /^\*+([^+@!?\*\[\(]*)$/;
+const starDotExtRE = /^\*+([^+@!?*[(]*)$/;
 const starDotExtTest = (ext) => (f) => !f.startsWith('.') && f.endsWith(ext);
 const starDotExtTestDot = (ext) => (f) => f.endsWith(ext);
 const starDotExtTestNocase = (ext) => {
@@ -31,7 +31,7 @@ const dotStarTest = (f) => f !== '.' && f !== '..' && f.startsWith('.');
 const starRE = /^\*+$/;
 const starTest = (f) => f.length !== 0 && !f.startsWith('.');
 const starTestDot = (f) => f.length !== 0 && f !== '.' && f !== '..';
-const qmarksRE = /^\?+([^+@!?\*\[\(]*)?$/;
+const qmarksRE = /^\?+([^+@!?*[(]*)?$/;
 const qmarksTestNocase = ([$0, ext = '']) => {
     const noext = qmarksTestNoExt([$0]);
     if (!ext)
@@ -258,6 +258,7 @@ export class Minimatch {
         // step 2: expand braces
         this.globSet = [...new Set(this.braceExpand())];
         if (options.debug) {
+            //oxlint-disable-next-line no-console
             this.debug = (...args) => console.error(...args);
         }
         this.debug(this.pattern, this.globSet);
@@ -320,10 +321,10 @@ export class Minimatch {
     preprocess(globParts) {
         // if we're not in globstar mode, then turn ** into *
         if (this.options.noglobstar) {
-            for (let i = 0; i < globParts.length; i++) {
-                for (let j = 0; j < globParts[i].length; j++) {
-                    if (globParts[i][j] === '**') {
-                        globParts[i][j] = '*';
+            for (const partset of globParts) {
+                for (let j = 0; j < partset.length; j++) {
+                    if (partset[j] === '**') {
+                        partset[j] = '*';
                     }
                 }
             }
@@ -411,7 +412,11 @@ export class Minimatch {
             let dd = 0;
             while (-1 !== (dd = parts.indexOf('..', dd + 1))) {
                 const p = parts[dd - 1];
-                if (p && p !== '.' && p !== '..' && p !== '**') {
+                if (p &&
+                    p !== '.' &&
+                    p !== '..' &&
+                    p !== '**' &&
+                    !(this.isWindows && /^[a-z]:$/i.test(p))) {
                     didSomething = true;
                     parts.splice(dd - 1, 2);
                     dd -= 2;
@@ -660,15 +665,17 @@ export class Minimatch {
         // split the pattern up into globstar-delimited sections
         // the tail has to be at the end, and the others just have
         // to be found in order from the head.
-        const [head, body, tail] = partial ? [
-            pattern.slice(patternIndex, firstgs),
-            pattern.slice(firstgs + 1),
-            [],
-        ] : [
-            pattern.slice(patternIndex, firstgs),
-            pattern.slice(firstgs + 1, lastgs),
-            pattern.slice(lastgs + 1),
-        ];
+        const [head, body, tail] = partial ?
+            [
+                pattern.slice(patternIndex, firstgs),
+                pattern.slice(firstgs + 1),
+                [],
+            ]
+            : [
+                pattern.slice(patternIndex, firstgs),
+                pattern.slice(firstgs + 1, lastgs),
+                pattern.slice(lastgs + 1),
+            ];
         // check the head, from the current file/pattern index.
         if (head.length) {
             const fileHead = file.slice(fileIndex, fileIndex + head.length);
@@ -1014,7 +1021,7 @@ export class Minimatch {
             this.regexp = new RegExp(re, [...flags].join(''));
             /* c8 ignore start */
         }
-        catch (ex) {
+        catch {
             // should be impossible
             this.regexp = false;
         }
@@ -1029,7 +1036,7 @@ export class Minimatch {
         if (this.preserveMultipleSlashes) {
             return p.split('/');
         }
-        else if (this.isWindows && /^\/\/[^\/]+/.test(p)) {
+        else if (this.isWindows && /^\/\/[^/]+/.test(p)) {
             // add an extra '' for the one we lose
             return ['', ...p.split(/\/+/)];
         }
@@ -1071,8 +1078,7 @@ export class Minimatch {
                 filename = ff[i];
             }
         }
-        for (let i = 0; i < set.length; i++) {
-            const pattern = set[i];
+        for (const pattern of set) {
             let file = ff;
             if (options.matchBase && pattern.length === 1) {
                 file = [filename];
diff --git a/deps/minimatch/dist/esm/index.js.map b/deps/minimatch/dist/esm/index.js.map
index 2dc46400d4755b..431b3a15a00c29 100644
--- a/deps/minimatch/dist/esm/index.js.map
+++ b/deps/minimatch/dist/esm/index.js.map
@@ -1 +1 @@
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 windowsPathsNoEscape?: boolean\n  /**\n   * inverse of {@link MinimatchOptions.windowsPathsNoEscape}\n   * @deprecated\n   */\n  allowWindowsEscape?: boolean\n  /**\n   * Compare a partial path to a pattern. As long as the parts\n   * of the path that are present are not contradicted by the\n   * pattern, it will be treated as a match. This is useful in\n   * applications where you're walking through a folder structure,\n   * and don't yet have the full path, but want to ensure that you\n   * do not walk down paths that can never be a match.\n   */\n  partial?: boolean\n  /** allow matches that start with `.` even if the pattern does not */\n  dot?: boolean\n  /** ignore case */\n  nocase?: boolean\n  /** ignore case only in wildcard patterns */\n  nocaseMagicOnly?: boolean\n  /** consider braces to be \"magic\" for the purpose of `hasMagic` */\n  magicalBraces?: boolean\n  /**\n   * If set, then patterns without slashes will be matched\n   * against the basename of the path if it contains slashes.\n   * For example, `a?b` would match the path `/xyz/123/acb`, but\n   * not `/xyz/acb/123`.\n   */\n  matchBase?: boolean\n  /** invert the results of negated matches */\n  flipNegate?: boolean\n  /** do not collapse multiple `/` into a single `/` */\n  preserveMultipleSlashes?: boolean\n  /**\n   * A number indicating the level of optimization that should be done\n   * to the pattern prior to parsing and using it for matches.\n   */\n  optimizationLevel?: number\n  /** operating system platform */\n  platform?: Platform\n  /**\n   * When a pattern starts with a UNC path or drive letter, and in\n   * `nocase:true` mode, do not convert the root portions of the\n   * pattern into a case-insensitive regular expression, and instead\n   * leave them as strings.\n   *\n   * This is the default when the platform is `win32` and\n   * `nocase:true` is set.\n   */\n  windowsNoMagicRoot?: boolean\n  /**\n   * max number of `{...}` patterns to expand. Default 100_000.\n   */\n  braceExpandMax?: number\n  /**\n   * Max number of non-adjacent `**` patterns to recursively walk down.\n   *\n   * The default of 200 is almost certainly high enough for most purposes,\n   * and can handle absurdly excessive patterns.\n   */\n  maxGlobstarRecursion?: number\n\n  /**\n   * Max depth to traverse for nested extglobs like `*(a|b|c)`\n   *\n   * Default is 2, which is quite low, but any higher value\n   * swiftly results in punishing performance impacts. Note\n   * that this is *not*  relevant when the globstar types can\n   * be safely coalesced into a single set.\n   *\n   * For example, `*(a|@(b|c)|d)` would be flattened into\n   * `*(a|b|c|d)`. Thus, many common extglobs will retain good\n   * performance and  never hit this limit, even if they are\n   * excessively deep and complicated.\n   *\n   * If the limit is hit, then the extglob characters are simply\n   * not parsed, and the pattern effectively switches into\n   * `noextglob: true` mode for the contents of that nested\n   * sub-pattern. This will typically _not_ result in a match,\n   * but is considered a valid trade-off for security and\n   * performance.\n   */\n  maxExtglobRecursion?: number\n}\n\nexport const minimatch = (\n  p: string,\n  pattern: string,\n  options: MinimatchOptions = {},\n) => {\n  assertValidPattern(pattern)\n\n  // shortcut: comments match nothing.\n  if (!options.nocomment && pattern.charAt(0) === '#') {\n    return false\n  }\n\n  return new Minimatch(pattern, options).match(p)\n}\n\n// Optimized checking for the most common glob patterns.\nconst starDotExtRE = /^\\*+([^+@!?\\*\\[\\(]*)$/\nconst starDotExtTest = (ext: string) => (f: string) =>\n  !f.startsWith('.') && f.endsWith(ext)\nconst starDotExtTestDot = (ext: string) => (f: string) => f.endsWith(ext)\nconst starDotExtTestNocase = (ext: string) => {\n  ext = ext.toLowerCase()\n  return (f: string) => !f.startsWith('.') && f.toLowerCase().endsWith(ext)\n}\nconst starDotExtTestNocaseDot = (ext: string) => {\n  ext = ext.toLowerCase()\n  return (f: string) => f.toLowerCase().endsWith(ext)\n}\nconst starDotStarRE = /^\\*+\\.\\*+$/\nconst starDotStarTest = (f: string) =>\n  !f.startsWith('.') && f.includes('.')\nconst starDotStarTestDot = (f: string) =>\n  f !== '.' && f !== '..' && f.includes('.')\nconst dotStarRE = /^\\.\\*+$/\nconst dotStarTest = (f: string) =>\n  f !== '.' && f !== '..' && f.startsWith('.')\nconst starRE = /^\\*+$/\nconst starTest = (f: string) => f.length !== 0 && !f.startsWith('.')\nconst starTestDot = (f: string) =>\n  f.length !== 0 && f !== '.' && f !== '..'\nconst qmarksRE = /^\\?+([^+@!?\\*\\[\\(]*)?$/\nconst qmarksTestNocase = ([$0, ext = '']: RegExpMatchArray) => {\n  const noext = qmarksTestNoExt([$0])\n  if (!ext) return noext\n  ext = ext.toLowerCase()\n  return (f: string) => noext(f) && f.toLowerCase().endsWith(ext)\n}\nconst qmarksTestNocaseDot = ([$0, ext = '']: RegExpMatchArray) => {\n  const noext = qmarksTestNoExtDot([$0])\n  if (!ext) return noext\n  ext = ext.toLowerCase()\n  return (f: string) => noext(f) && f.toLowerCase().endsWith(ext)\n}\nconst qmarksTestDot = ([$0, ext = '']: RegExpMatchArray) => {\n  const noext = qmarksTestNoExtDot([$0])\n  return !ext ? noext : (f: string) => noext(f) && f.endsWith(ext)\n}\nconst qmarksTest = ([$0, ext = '']: RegExpMatchArray) => {\n  const noext = qmarksTestNoExt([$0])\n  return !ext ? noext : (f: string) => noext(f) && f.endsWith(ext)\n}\nconst qmarksTestNoExt = ([$0]: RegExpMatchArray) => {\n  const len = $0.length\n  return (f: string) => f.length === len && !f.startsWith('.')\n}\nconst qmarksTestNoExtDot = ([$0]: RegExpMatchArray) => {\n  const len = $0.length\n  return (f: string) => f.length === len && f !== '.' && f !== '..'\n}\n\n/* c8 ignore start */\nconst defaultPlatform: Platform = (\n  typeof process === 'object' && process ?\n    (typeof process.env === 'object' &&\n      process.env &&\n      process.env.__MINIMATCH_TESTING_PLATFORM__) ||\n    process.platform\n  : 'posix') as Platform\n\nexport type Sep = '\\\\' | '/'\n\nconst path: { [k: string]: { sep: Sep } } = {\n  win32: { sep: '\\\\' },\n  posix: { sep: '/' },\n}\n/* c8 ignore stop */\n\nexport const sep =\n  defaultPlatform === 'win32' ? path.win32.sep : path.posix.sep\nminimatch.sep = sep\n\nexport const GLOBSTAR = Symbol('globstar **')\nminimatch.GLOBSTAR = GLOBSTAR\n\n// any single thing other than /\n// don't need to escape / when using new RegExp()\nconst qmark = '[^/]'\n\n// * => any number of characters\nconst star = qmark + '*?'\n\n// ** when dots are allowed.  Anything goes, except .. and .\n// not (^ or / followed by one or two dots followed by $ or /),\n// followed by anything, any number of times.\nconst twoStarDot = '(?:(?!(?:\\\\/|^)(?:\\\\.{1,2})($|\\\\/)).)*?'\n\n// not a ^ or / followed by a dot,\n// followed by anything, any number of times.\nconst twoStarNoDot = '(?:(?!(?:\\\\/|^)\\\\.).)*?'\n\nexport const filter =\n  (pattern: string, options: MinimatchOptions = {}) =>\n  (p: string) =>\n    minimatch(p, pattern, options)\nminimatch.filter = filter\n\nconst ext = (a: MinimatchOptions, b: MinimatchOptions = {}) =>\n  Object.assign({}, a, b)\n\nexport const defaults = (def: MinimatchOptions): typeof minimatch => {\n  if (!def || typeof def !== 'object' || !Object.keys(def).length) {\n    return minimatch\n  }\n\n  const orig = minimatch\n\n  const m = (p: string, pattern: string, options: MinimatchOptions = {}) =>\n    orig(p, pattern, ext(def, options))\n\n  return Object.assign(m, {\n    Minimatch: class Minimatch extends orig.Minimatch {\n      constructor(pattern: string, options: MinimatchOptions = {}) {\n        super(pattern, ext(def, options))\n      }\n      static defaults(options: MinimatchOptions) {\n        return orig.defaults(ext(def, options)).Minimatch\n      }\n    },\n\n    AST: class AST extends orig.AST {\n      /* c8 ignore start */\n      constructor(\n        type: ExtglobType | null,\n        parent?: AST,\n        options: MinimatchOptions = {},\n      ) {\n        super(type, parent, ext(def, options))\n      }\n      /* c8 ignore stop */\n\n      static fromGlob(pattern: string, options: MinimatchOptions = {}) {\n        return orig.AST.fromGlob(pattern, ext(def, options))\n      }\n    },\n\n    unescape: (\n      s: string,\n      options: Pick<\n        MinimatchOptions,\n        'windowsPathsNoEscape' | 'magicalBraces'\n      > = {},\n    ) => orig.unescape(s, ext(def, options)),\n\n    escape: (\n      s: string,\n      options: Pick<\n        MinimatchOptions,\n        'windowsPathsNoEscape' | 'magicalBraces'\n      > = {},\n    ) => orig.escape(s, ext(def, options)),\n\n    filter: (pattern: string, options: MinimatchOptions = {}) =>\n      orig.filter(pattern, ext(def, options)),\n\n    defaults: (options: MinimatchOptions) =>\n      orig.defaults(ext(def, options)),\n\n    makeRe: (pattern: string, options: MinimatchOptions = {}) =>\n      orig.makeRe(pattern, ext(def, options)),\n\n    braceExpand: (pattern: string, options: MinimatchOptions = {}) =>\n      orig.braceExpand(pattern, ext(def, options)),\n\n    match: (\n      list: string[],\n      pattern: string,\n      options: MinimatchOptions = {},\n    ) => orig.match(list, pattern, ext(def, options)),\n\n    sep: orig.sep,\n    GLOBSTAR: GLOBSTAR as typeof GLOBSTAR,\n  })\n}\nminimatch.defaults = defaults\n\n// Brace expansion:\n// a{b,c}d -> abd acd\n// a{b,}c -> abc ac\n// a{0..3}d -> a0d a1d a2d a3d\n// a{b,c{d,e}f}g -> abg acdfg acefg\n// a{b,c}d{e,f}g -> abdeg acdeg abdeg abdfg\n//\n// Invalid sets are not expanded.\n// a{2..}b -> a{2..}b\n// a{b}c -> a{b}c\nexport const braceExpand = (\n  pattern: string,\n  options: MinimatchOptions = {},\n) => {\n  assertValidPattern(pattern)\n\n  // Thanks to Yeting Li  for\n  // improving this regexp to avoid a ReDOS vulnerability.\n  if (options.nobrace || !/\\{(?:(?!\\{).)*\\}/.test(pattern)) {\n    // shortcut. no need to expand.\n    return [pattern]\n  }\n\n  return expand(pattern, { max: options.braceExpandMax })\n}\nminimatch.braceExpand = braceExpand\n\n// parse a component of the expanded set.\n// At this point, no pattern may contain \"/\" in it\n// so we're going to return a 2d array, where each entry is the full\n// pattern, split on '/', and then turned into a regular expression.\n// A regexp is made at the end which joins each array with an\n// escaped /, and another full one which joins each regexp with |.\n//\n// Following the lead of Bash 4.1, note that \"**\" only has special meaning\n// when it is the *only* thing in a path portion.  Otherwise, any series\n// of * is equivalent to a single *.  Globstar behavior is enabled by\n// default, and can be disabled by setting options.noglobstar.\n\nexport const makeRe = (pattern: string, options: MinimatchOptions = {}) =>\n  new Minimatch(pattern, options).makeRe()\nminimatch.makeRe = makeRe\n\nexport const match = (\n  list: string[],\n  pattern: string,\n  options: MinimatchOptions = {},\n) => {\n  const mm = new Minimatch(pattern, options)\n  list = list.filter(f => mm.match(f))\n  if (mm.options.nonull && !list.length) {\n    list.push(pattern)\n  }\n  return list\n}\nminimatch.match = match\n\n// replace stuff like \\* with *\nconst globMagic = /[?*]|[+@!]\\(.*?\\)|\\[|\\]/\nconst regExpEscape = (s: string) =>\n  s.replace(/[-[\\]{}()*+?.,\\\\^$|#\\s]/g, '\\\\$&')\n\nexport type MMRegExp = RegExp & {\n  _src?: string\n  _glob?: string\n}\n\nexport type ParseReturnFiltered = string | MMRegExp | typeof GLOBSTAR\nexport type ParseReturn = ParseReturnFiltered | false\n\nexport class Minimatch {\n  options: MinimatchOptions\n  set: ParseReturnFiltered[][]\n  pattern: string\n\n  windowsPathsNoEscape: boolean\n  nonegate: boolean\n  negate: boolean\n  comment: boolean\n  empty: boolean\n  preserveMultipleSlashes: boolean\n  partial: boolean\n  globSet: string[]\n  globParts: string[][]\n  nocase: boolean\n\n  isWindows: boolean\n  platform: Platform\n  windowsNoMagicRoot: boolean\n  maxGlobstarRecursion: number\n\n  regexp: false | null | MMRegExp\n  constructor(pattern: string, options: MinimatchOptions = {}) {\n    assertValidPattern(pattern)\n\n    options = options || {}\n    this.options = options\n    this.maxGlobstarRecursion = options.maxGlobstarRecursion ?? 200\n    this.pattern = pattern\n    this.platform = options.platform || defaultPlatform\n    this.isWindows = this.platform === 'win32'\n    // avoid the annoying deprecation flag lol\n    const awe = ('allowWindow' + 'sEscape') as keyof MinimatchOptions\n    this.windowsPathsNoEscape =\n      !!options.windowsPathsNoEscape || options[awe] === false\n    if (this.windowsPathsNoEscape) {\n      this.pattern = this.pattern.replace(/\\\\/g, '/')\n    }\n    this.preserveMultipleSlashes = !!options.preserveMultipleSlashes\n    this.regexp = null\n    this.negate = false\n    this.nonegate = !!options.nonegate\n    this.comment = false\n    this.empty = false\n    this.partial = !!options.partial\n    this.nocase = !!this.options.nocase\n    this.windowsNoMagicRoot =\n      options.windowsNoMagicRoot !== undefined ?\n        options.windowsNoMagicRoot\n      : !!(this.isWindows && this.nocase)\n\n    this.globSet = []\n    this.globParts = []\n    this.set = []\n\n    // make the set of regexps etc.\n    this.make()\n  }\n\n  hasMagic(): boolean {\n    if (this.options.magicalBraces && this.set.length > 1) {\n      return true\n    }\n    for (const pattern of this.set) {\n      for (const part of pattern) {\n        if (typeof part !== 'string') return true\n      }\n    }\n    return false\n  }\n\n  debug(..._: any[]) {}\n\n  make() {\n    const pattern = this.pattern\n    const options = this.options\n\n    // empty patterns and comments match nothing.\n    if (!options.nocomment && pattern.charAt(0) === '#') {\n      this.comment = true\n      return\n    }\n\n    if (!pattern) {\n      this.empty = true\n      return\n    }\n\n    // step 1: figure out negation, etc.\n    this.parseNegate()\n\n    // step 2: expand braces\n    this.globSet = [...new Set(this.braceExpand())]\n\n    if (options.debug) {\n      this.debug = (...args: any[]) => console.error(...args)\n    }\n\n    this.debug(this.pattern, this.globSet)\n\n    // step 3: now we have a set, so turn each one into a series of\n    // path-portion matching patterns.\n    // These will be regexps, except in the case of \"**\", which is\n    // set to the GLOBSTAR object for globstar behavior,\n    // and will not contain any / characters\n    //\n    // First, we preprocess to make the glob pattern sets a bit simpler\n    // and deduped.  There are some perf-killing patterns that can cause\n    // problems with a glob walk, but we can simplify them down a bit.\n    const rawGlobParts = this.globSet.map(s => this.slashSplit(s))\n    this.globParts = this.preprocess(rawGlobParts)\n    this.debug(this.pattern, this.globParts)\n\n    // glob --> regexps\n    let set = this.globParts.map((s, _, __) => {\n      if (this.isWindows && this.windowsNoMagicRoot) {\n        // check if it's a drive or unc path.\n        const isUNC =\n          s[0] === '' &&\n          s[1] === '' &&\n          (s[2] === '?' || !globMagic.test(s[2])) &&\n          !globMagic.test(s[3])\n        const isDrive = /^[a-z]:/i.test(s[0])\n        if (isUNC) {\n          return [\n            ...s.slice(0, 4),\n            ...s.slice(4).map(ss => this.parse(ss)),\n          ]\n        } else if (isDrive) {\n          return [s[0], ...s.slice(1).map(ss => this.parse(ss))]\n        }\n      }\n      return s.map(ss => this.parse(ss))\n    })\n\n    this.debug(this.pattern, set)\n\n    // filter out everything that didn't compile properly.\n    this.set = set.filter(\n      s => s.indexOf(false) === -1,\n    ) as ParseReturnFiltered[][]\n\n    // do not treat the ? in UNC paths as magic\n    if (this.isWindows) {\n      for (let i = 0; i < this.set.length; i++) {\n        const p = this.set[i]\n        if (\n          p[0] === '' &&\n          p[1] === '' &&\n          this.globParts[i][2] === '?' &&\n          typeof p[3] === 'string' &&\n          /^[a-z]:$/i.test(p[3])\n        ) {\n          p[2] = '?'\n        }\n      }\n    }\n\n    this.debug(this.pattern, this.set)\n  }\n\n  // various transforms to equivalent pattern sets that are\n  // faster to process in a filesystem walk.  The goal is to\n  // eliminate what we can, and push all ** patterns as far\n  // to the right as possible, even if it increases the number\n  // of patterns that we have to process.\n  preprocess(globParts: string[][]) {\n    // if we're not in globstar mode, then turn ** into *\n    if (this.options.noglobstar) {\n      for (let i = 0; i < globParts.length; i++) {\n        for (let j = 0; j < globParts[i].length; j++) {\n          if (globParts[i][j] === '**') {\n            globParts[i][j] = '*'\n          }\n        }\n      }\n    }\n\n    const { optimizationLevel = 1 } = this.options\n\n    if (optimizationLevel >= 2) {\n      // aggressive optimization for the purpose of fs walking\n      globParts = this.firstPhasePreProcess(globParts)\n      globParts = this.secondPhasePreProcess(globParts)\n    } else if (optimizationLevel >= 1) {\n      // just basic optimizations to remove some .. parts\n      globParts = this.levelOneOptimize(globParts)\n    } else {\n      // just collapse multiple ** portions into one\n      globParts = this.adjascentGlobstarOptimize(globParts)\n    }\n\n    return globParts\n  }\n\n  // just get rid of adjascent ** portions\n  adjascentGlobstarOptimize(globParts: string[][]) {\n    return globParts.map(parts => {\n      let gs: number = -1\n      while (-1 !== (gs = parts.indexOf('**', gs + 1))) {\n        let i = gs\n        while (parts[i + 1] === '**') {\n          i++\n        }\n        if (i !== gs) {\n          parts.splice(gs, i - gs)\n        }\n      }\n      return parts\n    })\n  }\n\n  // get rid of adjascent ** and resolve .. portions\n  levelOneOptimize(globParts: string[][]) {\n    return globParts.map(parts => {\n      parts = parts.reduce((set: string[], part) => {\n        const prev = set[set.length - 1]\n        if (part === '**' && prev === '**') {\n          return set\n        }\n        if (part === '..') {\n          if (prev && prev !== '..' && prev !== '.' && prev !== '**') {\n            set.pop()\n            return set\n          }\n        }\n        set.push(part)\n        return set\n      }, [])\n      return parts.length === 0 ? [''] : parts\n    })\n  }\n\n  levelTwoFileOptimize(parts: string | string[]) {\n    if (!Array.isArray(parts)) {\n      parts = this.slashSplit(parts)\n    }\n    let didSomething: boolean = false\n    do {\n      didSomething = false\n      // 
// -> 
/\n      if (!this.preserveMultipleSlashes) {\n        for (let i = 1; i < parts.length - 1; i++) {\n          const p = parts[i]\n          // don't squeeze out UNC patterns\n          if (i === 1 && p === '' && parts[0] === '') continue\n          if (p === '.' || p === '') {\n            didSomething = true\n            parts.splice(i, 1)\n            i--\n          }\n        }\n        if (\n          parts[0] === '.' &&\n          parts.length === 2 &&\n          (parts[1] === '.' || parts[1] === '')\n        ) {\n          didSomething = true\n          parts.pop()\n        }\n      }\n\n      // 
/

/../ ->

/\n      let dd: number = 0\n      while (-1 !== (dd = parts.indexOf('..', dd + 1))) {\n        const p = parts[dd - 1]\n        if (p && p !== '.' && p !== '..' && p !== '**') {\n          didSomething = true\n          parts.splice(dd - 1, 2)\n          dd -= 2\n        }\n      }\n    } while (didSomething)\n    return parts.length === 0 ? [''] : parts\n  }\n\n  // First phase: single-pattern processing\n  // 
 is 1 or more portions\n  //  is 1 or more portions\n  // 

is any portion other than ., .., '', or **\n // is . or ''\n //\n // **/.. is *brutal* for filesystem walking performance, because\n // it effectively resets the recursive walk each time it occurs,\n // and ** cannot be reduced out by a .. pattern part like a regexp\n // or most strings (other than .., ., and '') can be.\n //\n //

/**/../

/

/ -> {

/../

/

/,

/**/

/

/}\n //

// -> 
/\n  // 
/

/../ ->

/\n  // **/**/ -> **/\n  //\n  // **/*/ -> */**/ <== not valid because ** doesn't follow\n  // this WOULD be allowed if ** did follow symlinks, or * didn't\n  firstPhasePreProcess(globParts: string[][]) {\n    let didSomething = false\n    do {\n      didSomething = false\n      // 
/**/../

/

/ -> {

/../

/

/,

/**/

/

/}\n for (let parts of globParts) {\n let gs: number = -1\n while (-1 !== (gs = parts.indexOf('**', gs + 1))) {\n let gss: number = gs\n while (parts[gss + 1] === '**') {\n //

/**/**/ -> 
/**/\n            gss++\n          }\n          // eg, if gs is 2 and gss is 4, that means we have 3 **\n          // parts, and can remove 2 of them.\n          if (gss > gs) {\n            parts.splice(gs + 1, gss - gs)\n          }\n\n          let next = parts[gs + 1]\n          const p = parts[gs + 2]\n          const p2 = parts[gs + 3]\n          if (next !== '..') continue\n          if (\n            !p ||\n            p === '.' ||\n            p === '..' ||\n            !p2 ||\n            p2 === '.' ||\n            p2 === '..'\n          ) {\n            continue\n          }\n          didSomething = true\n          // edit parts in place, and push the new one\n          parts.splice(gs, 1)\n          const other = parts.slice(0)\n          other[gs] = '**'\n          globParts.push(other)\n          gs--\n        }\n\n        // 
// -> 
/\n        if (!this.preserveMultipleSlashes) {\n          for (let i = 1; i < parts.length - 1; i++) {\n            const p = parts[i]\n            // don't squeeze out UNC patterns\n            if (i === 1 && p === '' && parts[0] === '') continue\n            if (p === '.' || p === '') {\n              didSomething = true\n              parts.splice(i, 1)\n              i--\n            }\n          }\n          if (\n            parts[0] === '.' &&\n            parts.length === 2 &&\n            (parts[1] === '.' || parts[1] === '')\n          ) {\n            didSomething = true\n            parts.pop()\n          }\n        }\n\n        // 
/

/../ ->

/\n        let dd: number = 0\n        while (-1 !== (dd = parts.indexOf('..', dd + 1))) {\n          const p = parts[dd - 1]\n          if (p && p !== '.' && p !== '..' && p !== '**') {\n            didSomething = true\n            const needDot = dd === 1 && parts[dd + 1] === '**'\n            const splin = needDot ? ['.'] : []\n            parts.splice(dd - 1, 2, ...splin)\n            if (parts.length === 0) parts.push('')\n            dd -= 2\n          }\n        }\n      }\n    } while (didSomething)\n\n    return globParts\n  }\n\n  // second phase: multi-pattern dedupes\n  // {
/*/,
/

/} ->

/*/\n  // {
/,
/} -> 
/\n  // {
/**/,
/} -> 
/**/\n  //\n  // {
/**/,
/**/

/} ->

/**/\n  // ^-- not valid because ** doens't follow symlinks\n  secondPhasePreProcess(globParts: string[][]): string[][] {\n    for (let i = 0; i < globParts.length - 1; i++) {\n      for (let j = i + 1; j < globParts.length; j++) {\n        const matched = this.partsMatch(\n          globParts[i],\n          globParts[j],\n          !this.preserveMultipleSlashes,\n        )\n        if (matched) {\n          globParts[i] = []\n          globParts[j] = matched\n          break\n        }\n      }\n    }\n    return globParts.filter(gs => gs.length)\n  }\n\n  partsMatch(\n    a: string[],\n    b: string[],\n    emptyGSMatch: boolean = false,\n  ): false | string[] {\n    let ai = 0\n    let bi = 0\n    let result: string[] = []\n    let which: string = ''\n    while (ai < a.length && bi < b.length) {\n      if (a[ai] === b[bi]) {\n        result.push(which === 'b' ? b[bi] : a[ai])\n        ai++\n        bi++\n      } else if (emptyGSMatch && a[ai] === '**' && b[bi] === a[ai + 1]) {\n        result.push(a[ai])\n        ai++\n      } else if (emptyGSMatch && b[bi] === '**' && a[ai] === b[bi + 1]) {\n        result.push(b[bi])\n        bi++\n      } else if (\n        a[ai] === '*' &&\n        b[bi] &&\n        (this.options.dot || !b[bi].startsWith('.')) &&\n        b[bi] !== '**'\n      ) {\n        if (which === 'b') return false\n        which = 'a'\n        result.push(a[ai])\n        ai++\n        bi++\n      } else if (\n        b[bi] === '*' &&\n        a[ai] &&\n        (this.options.dot || !a[ai].startsWith('.')) &&\n        a[ai] !== '**'\n      ) {\n        if (which === 'a') return false\n        which = 'b'\n        result.push(b[bi])\n        ai++\n        bi++\n      } else {\n        return false\n      }\n    }\n    // if we fall out of the loop, it means they two are identical\n    // as long as their lengths match\n    return a.length === b.length && result\n  }\n\n  parseNegate() {\n    if (this.nonegate) return\n\n    const pattern = this.pattern\n    let negate = false\n    let negateOffset = 0\n\n    for (let i = 0; i < pattern.length && pattern.charAt(i) === '!'; i++) {\n      negate = !negate\n      negateOffset++\n    }\n\n    if (negateOffset) this.pattern = pattern.slice(negateOffset)\n    this.negate = negate\n  }\n\n  // set partial to true to test if, for example,\n  // \"/a/b\" matches the start of \"/*/b/*/d\"\n  // Partial means, if you run out of file before you run\n  // out of pattern, then that's fine, as long as all\n  // the parts match.\n  matchOne(\n    file: string[],\n    pattern: ParseReturn[],\n    partial: boolean = false,\n  ) {\n    let fileStartIndex = 0\n    let patternStartIndex = 0\n\n    // UNC paths like //?/X:/... can match X:/... and vice versa\n    // Drive letters in absolute drive or unc paths are always compared\n    // case-insensitively.\n    if (this.isWindows) {\n      const fileDrive =\n        typeof file[0] === 'string' && /^[a-z]:$/i.test(file[0])\n      const fileUNC =\n        !fileDrive &&\n        file[0] === '' &&\n        file[1] === '' &&\n        file[2] === '?' &&\n        /^[a-z]:$/i.test(file[3])\n\n      const patternDrive =\n        typeof pattern[0] === 'string' && /^[a-z]:$/i.test(pattern[0])\n      const patternUNC =\n        !patternDrive &&\n        pattern[0] === '' &&\n        pattern[1] === '' &&\n        pattern[2] === '?' &&\n        typeof pattern[3] === 'string' &&\n        /^[a-z]:$/i.test(pattern[3])\n\n      const fdi =\n        fileUNC ? 3\n        : fileDrive ? 0\n        : undefined\n      const pdi =\n        patternUNC ? 3\n        : patternDrive ? 0\n        : undefined\n      if (typeof fdi === 'number' && typeof pdi === 'number') {\n        const [fd, pd]: [string, string] = [\n          file[fdi],\n          pattern[pdi] as string,\n        ]\n        // start matching at the drive letter index of each\n        if (fd.toLowerCase() === pd.toLowerCase()) {\n          pattern[pdi] = fd\n          patternStartIndex = pdi\n          fileStartIndex = fdi\n        }\n      }\n    }\n\n    // resolve and reduce . and .. portions in the file as well.\n    // don't need to do the second phase, because it's only one string[]\n    const { optimizationLevel = 1 } = this.options\n    if (optimizationLevel >= 2) {\n      file = this.levelTwoFileOptimize(file)\n    }\n\n    if (pattern.includes(GLOBSTAR)) {\n      return this.#matchGlobstar(\n        file,\n        pattern,\n        partial,\n        fileStartIndex,\n        patternStartIndex,\n      )\n    }\n\n    return this.#matchOne(\n      file,\n      pattern,\n      partial,\n      fileStartIndex,\n      patternStartIndex,\n    )\n  }\n\n  #matchGlobstar(\n    file: string[],\n    pattern: ParseReturn[],\n    partial: boolean,\n    fileIndex: number,\n    patternIndex: number,\n  ) {\n    // split the pattern into head, tail, and middle of ** delimited parts\n    const firstgs = pattern.indexOf(GLOBSTAR, patternIndex)\n    const lastgs = pattern.lastIndexOf(GLOBSTAR)\n\n    // split the pattern up into globstar-delimited sections\n    // the tail has to be at the end, and the others just have\n    // to be found in order from the head.\n    const [head, body, tail] = partial ? [\n      pattern.slice(patternIndex, firstgs),\n      pattern.slice(firstgs + 1),\n      [],\n    ] : [\n      pattern.slice(patternIndex, firstgs),\n      pattern.slice(firstgs + 1, lastgs),\n      pattern.slice(lastgs + 1),\n    ]\n\n    // check the head, from the current file/pattern index.\n    if (head.length) {\n      const fileHead = file.slice(fileIndex, fileIndex + head.length)\n      if (!this.#matchOne(fileHead, head, partial, 0, 0)) {\n        return false\n      }\n      fileIndex += head.length\n      patternIndex += head.length\n    }\n    // now we know the head matches!\n\n    // if the last portion is not empty, it MUST match the end\n    // check the tail\n    let fileTailMatch: number = 0\n    if (tail.length) {\n      // if head + tail > file, then we cannot possibly match\n      if (tail.length + fileIndex > file.length) return false\n\n      // try to match the tail\n      let tailStart = file.length - tail.length\n      if (this.#matchOne(file, tail, partial, tailStart, 0)) {\n        fileTailMatch = tail.length\n      } else {\n        // affordance for stuff like a/**/* matching a/b/\n        // if the last file portion is '', and there's more to the pattern\n        // then try without the '' bit.\n        if (\n          file[file.length - 1] !== '' ||\n          fileIndex + tail.length === file.length\n        ) {\n          return false\n        }\n        tailStart--\n        if (!this.#matchOne(file, tail, partial, tailStart, 0)) {\n          return false\n        }\n        fileTailMatch = tail.length + 1\n      }\n    }\n\n    // now we know the tail matches!\n\n    // the middle is zero or more portions wrapped in **, possibly\n    // containing more ** sections.\n    // so a/**/b/**/c/**/d has become **/b/**/c/**\n    // if it's empty, it means a/**/b, just verify we have no bad dots\n    // if there's no tail, so it ends on /**, then we must have *something*\n    // after the head, or it's not a matc\n    if (!body.length) {\n      let sawSome = !!fileTailMatch\n      for (let i = fileIndex; i < file.length - fileTailMatch; i++) {\n        const f = String(file[i])\n        sawSome = true\n        if (\n          f === '.' ||\n          f === '..' ||\n          (!this.options.dot && f.startsWith('.'))\n        ) {\n          return false\n        }\n      }\n      // in partial mode, we just need to get past all file parts\n      return partial || sawSome\n    }\n\n    // now we know that there's one or more body sections, which can\n    // be matched anywhere from the 0 index (because the head was pruned)\n    // through to the length-fileTailMatch index.\n    // split the body up into sections, and note the minimum index it can\n    // be found at (start with the length of all previous segments)\n    // [section, before, after]\n    const bodySegments: [ParseReturn[], number][] = [[[], 0]]\n    let currentBody: [ParseReturn[], number] = bodySegments[0]\n    let nonGsParts = 0\n    const nonGsPartsSums: number[] = [0]\n    for (const b of body) {\n      if (b === GLOBSTAR) {\n        nonGsPartsSums.push(nonGsParts)\n        currentBody = [[], 0]\n        bodySegments.push(currentBody)\n      } else {\n        currentBody[0].push(b)\n        nonGsParts++\n      }\n    }\n    let i = bodySegments.length - 1\n    const fileLength = file.length - fileTailMatch\n    for (const b of bodySegments) {\n      b[1] = fileLength - ((nonGsPartsSums[i--] as number) + b[0].length)\n    }\n\n    return !!this.#matchGlobStarBodySections(\n      file,\n      bodySegments,\n      fileIndex,\n      0,\n      partial,\n      0,\n      !!fileTailMatch,\n    )\n  }\n\n  // return false for \"nope, not matching\"\n  // return null for \"not matching, cannot keep trying\"\n  #matchGlobStarBodySections(\n    file: string[],\n    // pattern section, last possible position for it\n    bodySegments: [ParseReturn[], number][],\n    fileIndex: number,\n    bodyIndex: number,\n    partial: boolean,\n    globStarDepth: number,\n    sawTail: boolean,\n  ): boolean | null {\n    // take the first body segment, and walk from fileIndex to its \"after\"\n    // value at the end\n    // If it doesn't match at that position, we increment, until we hit\n    // that final possible position, and give up.\n    // If it does match, then advance and try to rest.\n    // If any of them fail we keep walking forward.\n    // this is still a bit recursively painful, but it's more constrained\n    // than previous implementations, because we never test something that\n    // can't possibly be a valid matching condition.\n    const bs = bodySegments[bodyIndex]\n    if (!bs) {\n      // just make sure that there's no bad dots\n      for (let i = fileIndex; i < file.length; i++) {\n        sawTail = true\n        const f = file[i]\n        if (\n          f === '.' ||\n          f === '..' ||\n          (!this.options.dot && f.startsWith('.'))\n        ) {\n          return false\n        }\n      }\n      return sawTail\n    }\n\n    // have a non-globstar body section to test\n    const [body, after] = bs\n    while (fileIndex <= after) {\n      const m = this.#matchOne(\n        file.slice(0, fileIndex + body.length),\n        body,\n        partial,\n        fileIndex,\n        0,\n      )\n      // if limit exceeded, no match. intentional false negative,\n      // acceptable break in correctness for security.\n      if (m && globStarDepth < this.maxGlobstarRecursion) {\n        // match! see if the rest match. if so, we're done!\n        const sub = this.#matchGlobStarBodySections(\n          file,\n          bodySegments,\n          fileIndex + body.length,\n          bodyIndex + 1,\n          partial,\n          globStarDepth + 1,\n          sawTail,\n        )\n        if (sub !== false) {\n          return sub\n        }\n      }\n      const f = file[fileIndex]\n      if (\n        f === '.' ||\n        f === '..' ||\n        (!this.options.dot && f.startsWith('.'))\n      ) {\n        return false\n      }\n\n      fileIndex++\n    }\n    // walked off. no point continuing\n    return partial || null\n  }\n\n  #matchOne(\n    file: string[],\n    pattern: ParseReturn[],\n    partial: boolean,\n    fileIndex: number,\n    patternIndex: number,\n  ) {\n    let fi: number\n    let pi: number\n    let pl: number\n    let fl: number\n    for (\n      fi = fileIndex,\n        pi = patternIndex,\n        fl = file.length,\n        pl = pattern.length;\n      fi < fl && pi < pl;\n      fi++, pi++\n    ) {\n      this.debug('matchOne loop')\n      let p = pattern[pi]\n      let f = file[fi]\n\n      this.debug(pattern, p, f)\n\n      // should be impossible.\n      // some invalid regexp stuff in the set.\n      /* c8 ignore start */\n      if (p === false || p === GLOBSTAR) {\n        return false\n      }\n      /* c8 ignore stop */\n\n      // something other than **\n      // non-magic patterns just have to match exactly\n      // patterns with magic have been turned into regexps.\n      let hit: boolean\n      if (typeof p === 'string') {\n        hit = f === p\n        this.debug('string match', p, f, hit)\n      } else {\n        hit = p.test(f)\n        this.debug('pattern match', p, f, hit)\n      }\n\n      if (!hit) return false\n    }\n\n    // Note: ending in / means that we'll get a final \"\"\n    // at the end of the pattern.  This can only match a\n    // corresponding \"\" at the end of the file.\n    // If the file ends in /, then it can only match a\n    // a pattern that ends in /, unless the pattern just\n    // doesn't have any more for it. But, a/b/ should *not*\n    // match \"a/b/*\", even though \"\" matches against the\n    // [^/]*? pattern, except in partial mode, where it might\n    // simply not be reached yet.\n    // However, a/b/ should still satisfy a/*\n\n    // now either we fell off the end of the pattern, or we're done.\n    if (fi === fl && pi === pl) {\n      // ran out of pattern and filename at the same time.\n      // an exact hit!\n      return true\n    } else if (fi === fl) {\n      // ran out of file, but still had pattern left.\n      // this is ok if we're doing the match as part of\n      // a glob fs traversal.\n      return partial\n    } else if (pi === pl) {\n      // ran out of pattern, still have file left.\n      // this is only acceptable if we're on the very last\n      // empty segment of a file with a trailing slash.\n      // a/* should match a/b/\n      return fi === fl - 1 && file[fi] === ''\n\n      /* c8 ignore start */\n    } else {\n      // should be unreachable.\n      throw new Error('wtf?')\n    }\n    /* c8 ignore stop */\n  }\n\n  braceExpand() {\n    return braceExpand(this.pattern, this.options)\n  }\n\n  parse(pattern: string): ParseReturn {\n    assertValidPattern(pattern)\n\n    const options = this.options\n\n    // shortcuts\n    if (pattern === '**') return GLOBSTAR\n    if (pattern === '') return ''\n\n    // far and away, the most common glob pattern parts are\n    // *, *.*, and *.  Add a fast check method for those.\n    let m: RegExpMatchArray | null\n    let fastTest: null | ((f: string) => boolean) = null\n    if ((m = pattern.match(starRE))) {\n      fastTest = options.dot ? starTestDot : starTest\n    } else if ((m = pattern.match(starDotExtRE))) {\n      fastTest = (\n        options.nocase ?\n          options.dot ?\n            starDotExtTestNocaseDot\n          : starDotExtTestNocase\n        : options.dot ? starDotExtTestDot\n        : starDotExtTest)(m[1])\n    } else if ((m = pattern.match(qmarksRE))) {\n      fastTest = (\n        options.nocase ?\n          options.dot ?\n            qmarksTestNocaseDot\n          : qmarksTestNocase\n        : options.dot ? qmarksTestDot\n        : qmarksTest)(m)\n    } else if ((m = pattern.match(starDotStarRE))) {\n      fastTest = options.dot ? starDotStarTestDot : starDotStarTest\n    } else if ((m = pattern.match(dotStarRE))) {\n      fastTest = dotStarTest\n    }\n\n    const re = AST.fromGlob(pattern, this.options).toMMPattern()\n    if (fastTest && typeof re === 'object') {\n      // Avoids overriding in frozen environments\n      Reflect.defineProperty(re, 'test', { value: fastTest })\n    }\n    return re\n  }\n\n  makeRe() {\n    if (this.regexp || this.regexp === false) return this.regexp\n\n    // at this point, this.set is a 2d array of partial\n    // pattern strings, or \"**\".\n    //\n    // It's better to use .match().  This function shouldn't\n    // be used, really, but it's pretty convenient sometimes,\n    // when you just want to work with a regex.\n    const set = this.set\n\n    if (!set.length) {\n      this.regexp = false\n      return this.regexp\n    }\n    const options = this.options\n\n    const twoStar =\n      options.noglobstar ? star\n      : options.dot ? twoStarDot\n      : twoStarNoDot\n    const flags = new Set(options.nocase ? ['i'] : [])\n\n    // regexpify non-globstar patterns\n    // if ** is only item, then we just do one twoStar\n    // if ** is first, and there are more, prepend (\\/|twoStar\\/)? to next\n    // if ** is last, append (\\/twoStar|) to previous\n    // if ** is in the middle, append (\\/|\\/twoStar\\/) to previous\n    // then filter out GLOBSTAR symbols\n    let re = set\n      .map(pattern => {\n        const pp: (string | typeof GLOBSTAR)[] = pattern.map(p => {\n          if (p instanceof RegExp) {\n            for (const f of p.flags.split('')) flags.add(f)\n          }\n          return (\n            typeof p === 'string' ? regExpEscape(p)\n            : p === GLOBSTAR ? GLOBSTAR\n            : p._src\n          )\n        }) as (string | typeof GLOBSTAR)[]\n        pp.forEach((p, i) => {\n          const next = pp[i + 1]\n          const prev = pp[i - 1]\n          if (p !== GLOBSTAR || prev === GLOBSTAR) {\n            return\n          }\n          if (prev === undefined) {\n            if (next !== undefined && next !== GLOBSTAR) {\n              pp[i + 1] = '(?:\\\\/|' + twoStar + '\\\\/)?' + next\n            } else {\n              pp[i] = twoStar\n            }\n          } else if (next === undefined) {\n            pp[i - 1] = prev + '(?:\\\\/|\\\\/' + twoStar + ')?'\n          } else if (next !== GLOBSTAR) {\n            pp[i - 1] = prev + '(?:\\\\/|\\\\/' + twoStar + '\\\\/)' + next\n            pp[i + 1] = GLOBSTAR\n          }\n        })\n        const filtered = pp.filter(p => p !== GLOBSTAR)\n\n        // For partial matches, we need to make the pattern match\n        // any prefix of the full path. We do this by generating\n        // alternative patterns that match progressively longer prefixes.\n        if (this.partial && filtered.length >= 1) {\n          const prefixes: string[] = []\n          for (let i = 1; i <= filtered.length; i++) {\n            prefixes.push(filtered.slice(0, i).join('/'))\n          }\n          return '(?:' + prefixes.join('|') + ')'\n        }\n\n        return filtered.join('/')\n      })\n      .join('|')\n\n    // need to wrap in parens if we had more than one thing with |,\n    // otherwise only the first will be anchored to ^ and the last to $\n    const [open, close] = set.length > 1 ? ['(?:', ')'] : ['', '']\n    // must match entire pattern\n    // ending in a * or ** will make it less strict.\n    re = '^' + open + re + close + '$'\n\n    // In partial mode, '/' should always match as it's a valid prefix for any pattern\n    if (this.partial) {\n      re = '^(?:\\\\/|' + open + re.slice(1, -1) + close + ')$'\n    }\n\n    // can match anything, as long as it's not this.\n    if (this.negate) re = '^(?!' + re + ').+$'\n\n    try {\n      this.regexp = new RegExp(re, [...flags].join(''))\n      /* c8 ignore start */\n    } catch (ex) {\n      // should be impossible\n      this.regexp = false\n    }\n    /* c8 ignore stop */\n    return this.regexp\n  }\n\n  slashSplit(p: string) {\n    // if p starts with // on windows, we preserve that\n    // so that UNC paths aren't broken.  Otherwise, any number of\n    // / characters are coalesced into one, unless\n    // preserveMultipleSlashes is set to true.\n    if (this.preserveMultipleSlashes) {\n      return p.split('/')\n    } else if (this.isWindows && /^\\/\\/[^\\/]+/.test(p)) {\n      // add an extra '' for the one we lose\n      return ['', ...p.split(/\\/+/)]\n    } else {\n      return p.split(/\\/+/)\n    }\n  }\n\n  match(f: string, partial = this.partial) {\n    this.debug('match', f, this.pattern)\n    // short-circuit in the case of busted things.\n    // comments, etc.\n    if (this.comment) {\n      return false\n    }\n    if (this.empty) {\n      return f === ''\n    }\n\n    if (f === '/' && partial) {\n      return true\n    }\n\n    const options = this.options\n\n    // windows: need to use /, not \\\n    if (this.isWindows) {\n      f = f.split('\\\\').join('/')\n    }\n\n    // treat the test path as a set of pathparts.\n    const ff = this.slashSplit(f)\n    this.debug(this.pattern, 'split', ff)\n\n    // just ONE of the pattern sets in this.set needs to match\n    // in order for it to be valid.  If negating, then just one\n    // match means that we have failed.\n    // Either way, return on the first hit.\n\n    const set = this.set\n    this.debug(this.pattern, 'set', set)\n\n    // Find the basename of the path by looking for the last non-empty segment\n    let filename: string = ff[ff.length - 1]\n    if (!filename) {\n      for (let i = ff.length - 2; !filename && i >= 0; i--) {\n        filename = ff[i]\n      }\n    }\n\n    for (let i = 0; i < set.length; i++) {\n      const pattern = set[i]\n      let file = ff\n      if (options.matchBase && pattern.length === 1) {\n        file = [filename]\n      }\n      const hit = this.matchOne(file, pattern, partial)\n      if (hit) {\n        if (options.flipNegate) {\n          return true\n        }\n        return !this.negate\n      }\n    }\n\n    // didn't get any hits.  this is success if it's a negative\n    // pattern, failure otherwise.\n    if (options.flipNegate) {\n      return false\n    }\n    return this.negate\n  }\n\n  static defaults(def: MinimatchOptions) {\n    return minimatch.defaults(def).Minimatch\n  }\n}\n/* c8 ignore start */\nexport { AST } from './ast.js'\nexport { escape } from './escape.js'\nexport { unescape } from './unescape.js'\n/* c8 ignore stop */\nminimatch.AST = AST\nminimatch.Minimatch = Minimatch\nminimatch.escape = escape\nminimatch.unescape = unescape\n"]}
\ No newline at end of file
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{ expand } from 'brace-expansion'\nimport { assertValidPattern } from './assert-valid-pattern.js'\nimport type { ExtglobType } from './ast.js'\nimport { AST } from './ast.js'\nimport { escape } from './escape.js'\nimport { unescape } from './unescape.js'\n\nexport type Platform =\n  | 'aix'\n  | 'android'\n  | 'darwin'\n  | 'freebsd'\n  | 'haiku'\n  | 'linux'\n  | 'openbsd'\n  | 'sunos'\n  | 'win32'\n  | 'cygwin'\n  | 'netbsd'\n\nexport interface MinimatchOptions {\n  /** do not expand `{x,y}` style braces */\n  nobrace?: boolean\n  /** do not treat patterns starting with `#` as a comment */\n  nocomment?: boolean\n  /** do not treat patterns starting with `!` as a negation */\n  nonegate?: boolean\n  /** print LOTS of debugging output */\n  debug?: boolean\n  /** treat `**` the same as `*` */\n  noglobstar?: boolean\n  /** do not expand extglobs like `+(a|b)` */\n  noext?: boolean\n  /** return the pattern if nothing matches */\n  nonull?: boolean\n  /** treat `\\\\` as a path separator, not an escape character */\n  windowsPathsNoEscape?: boolean\n  /**\n   * inverse of {@link MinimatchOptions.windowsPathsNoEscape}\n   * @deprecated\n   */\n  allowWindowsEscape?: boolean\n  /**\n   * Compare a partial path to a pattern. As long as the parts\n   * of the path that are present are not contradicted by the\n   * pattern, it will be treated as a match. This is useful in\n   * applications where you're walking through a folder structure,\n   * and don't yet have the full path, but want to ensure that you\n   * do not walk down paths that can never be a match.\n   */\n  partial?: boolean\n  /** allow matches that start with `.` even if the pattern does not */\n  dot?: boolean\n  /** ignore case */\n  nocase?: boolean\n  /** ignore case only in wildcard patterns */\n  nocaseMagicOnly?: boolean\n  /** consider braces to be \"magic\" for the purpose of `hasMagic` */\n  magicalBraces?: boolean\n  /**\n   * If set, then patterns without slashes will be matched\n   * against the basename of the path if it contains slashes.\n   * For example, `a?b` would match the path `/xyz/123/acb`, but\n   * not `/xyz/acb/123`.\n   */\n  matchBase?: boolean\n  /** invert the results of negated matches */\n  flipNegate?: boolean\n  /** do not collapse multiple `/` into a single `/` */\n  preserveMultipleSlashes?: boolean\n  /**\n   * A number indicating the level of optimization that should be done\n   * to the pattern prior to parsing and using it for matches.\n   */\n  optimizationLevel?: number\n  /** operating system platform */\n  platform?: Platform\n  /**\n   * When a pattern starts with a UNC path or drive letter, and in\n   * `nocase:true` mode, do not convert the root portions of the\n   * pattern into a case-insensitive regular expression, and instead\n   * leave them as strings.\n   *\n   * This is the default when the platform is `win32` and\n   * `nocase:true` is set.\n   */\n  windowsNoMagicRoot?: boolean\n  /**\n   * max number of `{...}` patterns to expand. Default 100_000.\n   */\n  braceExpandMax?: number\n  /**\n   * Max number of non-adjacent `**` patterns to recursively walk down.\n   *\n   * The default of 200 is almost certainly high enough for most purposes,\n   * and can handle absurdly excessive patterns.\n   */\n  maxGlobstarRecursion?: number\n\n  /**\n   * Max depth to traverse for nested extglobs like `*(a|b|c)`\n   *\n   * Default is 2, which is quite low, but any higher value\n   * swiftly results in punishing performance impacts. Note\n   * that this is *not*  relevant when the globstar types can\n   * be safely coalesced into a single set.\n   *\n   * For example, `*(a|@(b|c)|d)` would be flattened into\n   * `*(a|b|c|d)`. Thus, many common extglobs will retain good\n   * performance and  never hit this limit, even if they are\n   * excessively deep and complicated.\n   *\n   * If the limit is hit, then the extglob characters are simply\n   * not parsed, and the pattern effectively switches into\n   * `noextglob: true` mode for the contents of that nested\n   * sub-pattern. This will typically _not_ result in a match,\n   * but is considered a valid trade-off for security and\n   * performance.\n   */\n  maxExtglobRecursion?: number\n}\n\nexport const minimatch = (\n  p: string,\n  pattern: string,\n  options: MinimatchOptions = {},\n) => {\n  assertValidPattern(pattern)\n\n  // shortcut: comments match nothing.\n  if (!options.nocomment && pattern.charAt(0) === '#') {\n    return false\n  }\n\n  return new Minimatch(pattern, options).match(p)\n}\n\n// Optimized checking for the most common glob patterns.\nconst starDotExtRE = /^\\*+([^+@!?*[(]*)$/\nconst starDotExtTest = (ext: string) => (f: string) =>\n  !f.startsWith('.') && f.endsWith(ext)\nconst starDotExtTestDot = (ext: string) => (f: string) => f.endsWith(ext)\nconst starDotExtTestNocase = (ext: string) => {\n  ext = ext.toLowerCase()\n  return (f: string) => !f.startsWith('.') && f.toLowerCase().endsWith(ext)\n}\nconst starDotExtTestNocaseDot = (ext: string) => {\n  ext = ext.toLowerCase()\n  return (f: string) => f.toLowerCase().endsWith(ext)\n}\nconst starDotStarRE = /^\\*+\\.\\*+$/\nconst starDotStarTest = (f: string) =>\n  !f.startsWith('.') && f.includes('.')\nconst starDotStarTestDot = (f: string) =>\n  f !== '.' && f !== '..' && f.includes('.')\nconst dotStarRE = /^\\.\\*+$/\nconst dotStarTest = (f: string) =>\n  f !== '.' && f !== '..' && f.startsWith('.')\nconst starRE = /^\\*+$/\nconst starTest = (f: string) => f.length !== 0 && !f.startsWith('.')\nconst starTestDot = (f: string) =>\n  f.length !== 0 && f !== '.' && f !== '..'\nconst qmarksRE = /^\\?+([^+@!?*[(]*)?$/\nconst qmarksTestNocase = ([$0, ext = '']: RegExpMatchArray) => {\n  const noext = qmarksTestNoExt([$0])\n  if (!ext) return noext\n  ext = ext.toLowerCase()\n  return (f: string) => noext(f) && f.toLowerCase().endsWith(ext)\n}\nconst qmarksTestNocaseDot = ([$0, ext = '']: RegExpMatchArray) => {\n  const noext = qmarksTestNoExtDot([$0])\n  if (!ext) return noext\n  ext = ext.toLowerCase()\n  return (f: string) => noext(f) && f.toLowerCase().endsWith(ext)\n}\nconst qmarksTestDot = ([$0, ext = '']: RegExpMatchArray) => {\n  const noext = qmarksTestNoExtDot([$0])\n  return !ext ? noext : (f: string) => noext(f) && f.endsWith(ext)\n}\nconst qmarksTest = ([$0, ext = '']: RegExpMatchArray) => {\n  const noext = qmarksTestNoExt([$0])\n  return !ext ? noext : (f: string) => noext(f) && f.endsWith(ext)\n}\nconst qmarksTestNoExt = ([$0]: RegExpMatchArray) => {\n  const len = $0.length\n  return (f: string) => f.length === len && !f.startsWith('.')\n}\nconst qmarksTestNoExtDot = ([$0]: RegExpMatchArray) => {\n  const len = $0.length\n  return (f: string) => f.length === len && f !== '.' && f !== '..'\n}\n\n/* c8 ignore start */\nconst defaultPlatform: Platform = (\n  typeof process === 'object' && process ?\n    (typeof process.env === 'object' &&\n      process.env &&\n      process.env.__MINIMATCH_TESTING_PLATFORM__) ||\n    process.platform\n  : 'posix') as Platform\n\nexport type Sep = '\\\\' | '/'\n\nconst path: { [k: string]: { sep: Sep } } = {\n  win32: { sep: '\\\\' },\n  posix: { sep: '/' },\n}\n/* c8 ignore stop */\n\nexport const sep =\n  defaultPlatform === 'win32' ? path.win32.sep : path.posix.sep\nminimatch.sep = sep\n\nexport const GLOBSTAR = Symbol('globstar **')\nminimatch.GLOBSTAR = GLOBSTAR\n\n// any single thing other than /\n// don't need to escape / when using new RegExp()\nconst qmark = '[^/]'\n\n// * => any number of characters\nconst star = qmark + '*?'\n\n// ** when dots are allowed.  Anything goes, except .. and .\n// not (^ or / followed by one or two dots followed by $ or /),\n// followed by anything, any number of times.\nconst twoStarDot = '(?:(?!(?:\\\\/|^)(?:\\\\.{1,2})($|\\\\/)).)*?'\n\n// not a ^ or / followed by a dot,\n// followed by anything, any number of times.\nconst twoStarNoDot = '(?:(?!(?:\\\\/|^)\\\\.).)*?'\n\nexport const filter =\n  (pattern: string, options: MinimatchOptions = {}) =>\n  (p: string) =>\n    minimatch(p, pattern, options)\nminimatch.filter = filter\n\nconst ext = (a: MinimatchOptions, b: MinimatchOptions = {}) =>\n  Object.assign({}, a, b)\n\nexport const defaults = (def: MinimatchOptions): typeof minimatch => {\n  if (!def || typeof def !== 'object' || !Object.keys(def).length) {\n    return minimatch\n  }\n\n  const orig = minimatch\n\n  const m = (p: string, pattern: string, options: MinimatchOptions = {}) =>\n    orig(p, pattern, ext(def, options))\n\n  return Object.assign(m, {\n    Minimatch: class Minimatch extends orig.Minimatch {\n      constructor(pattern: string, options: MinimatchOptions = {}) {\n        super(pattern, ext(def, options))\n      }\n      static defaults(options: MinimatchOptions) {\n        return orig.defaults(ext(def, options)).Minimatch\n      }\n    },\n\n    AST: class AST extends orig.AST {\n      /* c8 ignore start */\n      constructor(\n        type: ExtglobType | null,\n        parent?: AST,\n        options: MinimatchOptions = {},\n      ) {\n        super(type, parent, ext(def, options))\n      }\n      /* c8 ignore stop */\n\n      static fromGlob(pattern: string, options: MinimatchOptions = {}) {\n        return orig.AST.fromGlob(pattern, ext(def, options))\n      }\n    },\n\n    unescape: (\n      s: string,\n      options: Pick<\n        MinimatchOptions,\n        'windowsPathsNoEscape' | 'magicalBraces'\n      > = {},\n    ) => orig.unescape(s, ext(def, options)),\n\n    escape: (\n      s: string,\n      options: Pick<\n        MinimatchOptions,\n        'windowsPathsNoEscape' | 'magicalBraces'\n      > = {},\n    ) => orig.escape(s, ext(def, options)),\n\n    filter: (pattern: string, options: MinimatchOptions = {}) =>\n      orig.filter(pattern, ext(def, options)),\n\n    defaults: (options: MinimatchOptions) =>\n      orig.defaults(ext(def, options)),\n\n    makeRe: (pattern: string, options: MinimatchOptions = {}) =>\n      orig.makeRe(pattern, ext(def, options)),\n\n    braceExpand: (pattern: string, options: MinimatchOptions = {}) =>\n      orig.braceExpand(pattern, ext(def, options)),\n\n    match: (\n      list: string[],\n      pattern: string,\n      options: MinimatchOptions = {},\n    ) => orig.match(list, pattern, ext(def, options)),\n\n    sep: orig.sep,\n    GLOBSTAR: GLOBSTAR as typeof GLOBSTAR,\n  })\n}\nminimatch.defaults = defaults\n\n// Brace expansion:\n// a{b,c}d -> abd acd\n// a{b,}c -> abc ac\n// a{0..3}d -> a0d a1d a2d a3d\n// a{b,c{d,e}f}g -> abg acdfg acefg\n// a{b,c}d{e,f}g -> abdeg acdeg abdeg abdfg\n//\n// Invalid sets are not expanded.\n// a{2..}b -> a{2..}b\n// a{b}c -> a{b}c\nexport const braceExpand = (\n  pattern: string,\n  options: MinimatchOptions = {},\n) => {\n  assertValidPattern(pattern)\n\n  // Thanks to Yeting Li  for\n  // improving this regexp to avoid a ReDOS vulnerability.\n  if (options.nobrace || !/\\{(?:(?!\\{).)*\\}/.test(pattern)) {\n    // shortcut. no need to expand.\n    return [pattern]\n  }\n\n  return expand(pattern, { max: options.braceExpandMax })\n}\nminimatch.braceExpand = braceExpand\n\n// parse a component of the expanded set.\n// At this point, no pattern may contain \"/\" in it\n// so we're going to return a 2d array, where each entry is the full\n// pattern, split on '/', and then turned into a regular expression.\n// A regexp is made at the end which joins each array with an\n// escaped /, and another full one which joins each regexp with |.\n//\n// Following the lead of Bash 4.1, note that \"**\" only has special meaning\n// when it is the *only* thing in a path portion.  Otherwise, any series\n// of * is equivalent to a single *.  Globstar behavior is enabled by\n// default, and can be disabled by setting options.noglobstar.\n\nexport const makeRe = (pattern: string, options: MinimatchOptions = {}) =>\n  new Minimatch(pattern, options).makeRe()\nminimatch.makeRe = makeRe\n\nexport const match = (\n  list: string[],\n  pattern: string,\n  options: MinimatchOptions = {},\n) => {\n  const mm = new Minimatch(pattern, options)\n  list = list.filter(f => mm.match(f))\n  if (mm.options.nonull && !list.length) {\n    list.push(pattern)\n  }\n  return list\n}\nminimatch.match = match\n\n// replace stuff like \\* with *\nconst globMagic = /[?*]|[+@!]\\(.*?\\)|\\[|\\]/\nconst regExpEscape = (s: string) =>\n  s.replace(/[-[\\]{}()*+?.,\\\\^$|#\\s]/g, '\\\\$&')\n\nexport type MMRegExp = RegExp & {\n  _src?: string\n  _glob?: string\n}\n\nexport type ParseReturnFiltered = string | MMRegExp | typeof GLOBSTAR\nexport type ParseReturn = ParseReturnFiltered | false\n\nexport class Minimatch {\n  options: MinimatchOptions\n  set: ParseReturnFiltered[][]\n  pattern: string\n\n  windowsPathsNoEscape: boolean\n  nonegate: boolean\n  negate: boolean\n  comment: boolean\n  empty: boolean\n  preserveMultipleSlashes: boolean\n  partial: boolean\n  globSet: string[]\n  globParts: string[][]\n  nocase: boolean\n\n  isWindows: boolean\n  platform: Platform\n  windowsNoMagicRoot: boolean\n  maxGlobstarRecursion: number\n\n  regexp: false | null | MMRegExp\n  constructor(pattern: string, options: MinimatchOptions = {}) {\n    assertValidPattern(pattern)\n\n    options = options || {}\n    this.options = options\n    this.maxGlobstarRecursion = options.maxGlobstarRecursion ?? 200\n    this.pattern = pattern\n    this.platform = options.platform || defaultPlatform\n    this.isWindows = this.platform === 'win32'\n    // avoid the annoying deprecation flag lol\n    const awe = ('allowWindow' + 'sEscape') as keyof MinimatchOptions\n    this.windowsPathsNoEscape =\n      !!options.windowsPathsNoEscape || options[awe] === false\n    if (this.windowsPathsNoEscape) {\n      this.pattern = this.pattern.replace(/\\\\/g, '/')\n    }\n    this.preserveMultipleSlashes = !!options.preserveMultipleSlashes\n    this.regexp = null\n    this.negate = false\n    this.nonegate = !!options.nonegate\n    this.comment = false\n    this.empty = false\n    this.partial = !!options.partial\n    this.nocase = !!this.options.nocase\n    this.windowsNoMagicRoot =\n      options.windowsNoMagicRoot !== undefined ?\n        options.windowsNoMagicRoot\n      : !!(this.isWindows && this.nocase)\n\n    this.globSet = []\n    this.globParts = []\n    this.set = []\n\n    // make the set of regexps etc.\n    this.make()\n  }\n\n  hasMagic(): boolean {\n    if (this.options.magicalBraces && this.set.length > 1) {\n      return true\n    }\n    for (const pattern of this.set) {\n      for (const part of pattern) {\n        if (typeof part !== 'string') return true\n      }\n    }\n    return false\n  }\n\n  debug(..._: unknown[]) {}\n\n  make() {\n    const pattern = this.pattern\n    const options = this.options\n\n    // empty patterns and comments match nothing.\n    if (!options.nocomment && pattern.charAt(0) === '#') {\n      this.comment = true\n      return\n    }\n\n    if (!pattern) {\n      this.empty = true\n      return\n    }\n\n    // step 1: figure out negation, etc.\n    this.parseNegate()\n\n    // step 2: expand braces\n    this.globSet = [...new Set(this.braceExpand())]\n\n    if (options.debug) {\n      //oxlint-disable-next-line no-console\n      this.debug = (...args: unknown[]) => console.error(...args)\n    }\n\n    this.debug(this.pattern, this.globSet)\n\n    // step 3: now we have a set, so turn each one into a series of\n    // path-portion matching patterns.\n    // These will be regexps, except in the case of \"**\", which is\n    // set to the GLOBSTAR object for globstar behavior,\n    // and will not contain any / characters\n    //\n    // First, we preprocess to make the glob pattern sets a bit simpler\n    // and deduped.  There are some perf-killing patterns that can cause\n    // problems with a glob walk, but we can simplify them down a bit.\n    const rawGlobParts = this.globSet.map(s => this.slashSplit(s))\n    this.globParts = this.preprocess(rawGlobParts)\n    this.debug(this.pattern, this.globParts)\n\n    // glob --> regexps\n    let set = this.globParts.map((s, _, __) => {\n      if (this.isWindows && this.windowsNoMagicRoot) {\n        // check if it's a drive or unc path.\n        const isUNC =\n          s[0] === '' &&\n          s[1] === '' &&\n          (s[2] === '?' || !globMagic.test(s[2])) &&\n          !globMagic.test(s[3])\n        const isDrive = /^[a-z]:/i.test(s[0])\n        if (isUNC) {\n          return [\n            ...s.slice(0, 4),\n            ...s.slice(4).map(ss => this.parse(ss)),\n          ]\n        } else if (isDrive) {\n          return [s[0], ...s.slice(1).map(ss => this.parse(ss))]\n        }\n      }\n      return s.map(ss => this.parse(ss))\n    })\n\n    this.debug(this.pattern, set)\n\n    // filter out everything that didn't compile properly.\n    this.set = set.filter(\n      s => s.indexOf(false) === -1,\n    ) as ParseReturnFiltered[][]\n\n    // do not treat the ? in UNC paths as magic\n    if (this.isWindows) {\n      for (let i = 0; i < this.set.length; i++) {\n        const p = this.set[i]\n        if (\n          p[0] === '' &&\n          p[1] === '' &&\n          this.globParts[i][2] === '?' &&\n          typeof p[3] === 'string' &&\n          /^[a-z]:$/i.test(p[3])\n        ) {\n          p[2] = '?'\n        }\n      }\n    }\n\n    this.debug(this.pattern, this.set)\n  }\n\n  // various transforms to equivalent pattern sets that are\n  // faster to process in a filesystem walk.  The goal is to\n  // eliminate what we can, and push all ** patterns as far\n  // to the right as possible, even if it increases the number\n  // of patterns that we have to process.\n  preprocess(globParts: string[][]) {\n    // if we're not in globstar mode, then turn ** into *\n    if (this.options.noglobstar) {\n      for (const partset of globParts) {\n        for (let j = 0; j < partset.length; j++) {\n          if (partset[j] === '**') {\n            partset[j] = '*'\n          }\n        }\n      }\n    }\n\n    const { optimizationLevel = 1 } = this.options\n\n    if (optimizationLevel >= 2) {\n      // aggressive optimization for the purpose of fs walking\n      globParts = this.firstPhasePreProcess(globParts)\n      globParts = this.secondPhasePreProcess(globParts)\n    } else if (optimizationLevel >= 1) {\n      // just basic optimizations to remove some .. parts\n      globParts = this.levelOneOptimize(globParts)\n    } else {\n      // just collapse multiple ** portions into one\n      globParts = this.adjascentGlobstarOptimize(globParts)\n    }\n\n    return globParts\n  }\n\n  // just get rid of adjascent ** portions\n  adjascentGlobstarOptimize(globParts: string[][]) {\n    return globParts.map(parts => {\n      let gs: number = -1\n      while (-1 !== (gs = parts.indexOf('**', gs + 1))) {\n        let i = gs\n        while (parts[i + 1] === '**') {\n          i++\n        }\n        if (i !== gs) {\n          parts.splice(gs, i - gs)\n        }\n      }\n      return parts\n    })\n  }\n\n  // get rid of adjascent ** and resolve .. portions\n  levelOneOptimize(globParts: string[][]) {\n    return globParts.map(parts => {\n      parts = parts.reduce((set: string[], part) => {\n        const prev = set[set.length - 1]\n        if (part === '**' && prev === '**') {\n          return set\n        }\n        if (part === '..') {\n          if (prev && prev !== '..' && prev !== '.' && prev !== '**') {\n            set.pop()\n            return set\n          }\n        }\n        set.push(part)\n        return set\n      }, [])\n      return parts.length === 0 ? [''] : parts\n    })\n  }\n\n  levelTwoFileOptimize(parts: string | string[]) {\n    if (!Array.isArray(parts)) {\n      parts = this.slashSplit(parts)\n    }\n    let didSomething: boolean = false\n\n    do {\n      didSomething = false\n      // 
// -> 
/\n      if (!this.preserveMultipleSlashes) {\n        for (let i = 1; i < parts.length - 1; i++) {\n          const p = parts[i]\n          // don't squeeze out UNC patterns\n          if (i === 1 && p === '' && parts[0] === '') continue\n          if (p === '.' || p === '') {\n            didSomething = true\n            parts.splice(i, 1)\n            i--\n          }\n        }\n        if (\n          parts[0] === '.' &&\n          parts.length === 2 &&\n          (parts[1] === '.' || parts[1] === '')\n        ) {\n          didSomething = true\n          parts.pop()\n        }\n      }\n\n      // 
/

/../ ->

/\n      let dd: number = 0\n      while (-1 !== (dd = parts.indexOf('..', dd + 1))) {\n        const p = parts[dd - 1]\n        if (\n          p &&\n          p !== '.' &&\n          p !== '..' &&\n          p !== '**' &&\n          !(this.isWindows && /^[a-z]:$/i.test(p))\n        ) {\n          didSomething = true\n          parts.splice(dd - 1, 2)\n          dd -= 2\n        }\n      }\n    } while (didSomething)\n    return parts.length === 0 ? [''] : parts\n  }\n\n  // First phase: single-pattern processing\n  // 
 is 1 or more portions\n  //  is 1 or more portions\n  // 

is any portion other than ., .., '', or **\n // is . or ''\n //\n // **/.. is *brutal* for filesystem walking performance, because\n // it effectively resets the recursive walk each time it occurs,\n // and ** cannot be reduced out by a .. pattern part like a regexp\n // or most strings (other than .., ., and '') can be.\n //\n //

/**/../

/

/ -> {

/../

/

/,

/**/

/

/}\n //

// -> 
/\n  // 
/

/../ ->

/\n  // **/**/ -> **/\n  //\n  // **/*/ -> */**/ <== not valid because ** doesn't follow\n  // this WOULD be allowed if ** did follow symlinks, or * didn't\n  firstPhasePreProcess(globParts: string[][]) {\n    let didSomething = false\n    do {\n      didSomething = false\n      // 
/**/../

/

/ -> {

/../

/

/,

/**/

/

/}\n for (let parts of globParts) {\n let gs: number = -1\n while (-1 !== (gs = parts.indexOf('**', gs + 1))) {\n let gss: number = gs\n while (parts[gss + 1] === '**') {\n //

/**/**/ -> 
/**/\n            gss++\n          }\n          // eg, if gs is 2 and gss is 4, that means we have 3 **\n          // parts, and can remove 2 of them.\n          if (gss > gs) {\n            parts.splice(gs + 1, gss - gs)\n          }\n\n          let next = parts[gs + 1]\n          const p = parts[gs + 2]\n          const p2 = parts[gs + 3]\n          if (next !== '..') continue\n          if (\n            !p ||\n            p === '.' ||\n            p === '..' ||\n            !p2 ||\n            p2 === '.' ||\n            p2 === '..'\n          ) {\n            continue\n          }\n          didSomething = true\n          // edit parts in place, and push the new one\n          parts.splice(gs, 1)\n          const other = parts.slice(0)\n          other[gs] = '**'\n          globParts.push(other)\n          gs--\n        }\n\n        // 
// -> 
/\n        if (!this.preserveMultipleSlashes) {\n          for (let i = 1; i < parts.length - 1; i++) {\n            const p = parts[i]\n            // don't squeeze out UNC patterns\n            if (i === 1 && p === '' && parts[0] === '') continue\n            if (p === '.' || p === '') {\n              didSomething = true\n              parts.splice(i, 1)\n              i--\n            }\n          }\n          if (\n            parts[0] === '.' &&\n            parts.length === 2 &&\n            (parts[1] === '.' || parts[1] === '')\n          ) {\n            didSomething = true\n            parts.pop()\n          }\n        }\n\n        // 
/

/../ ->

/\n        let dd: number = 0\n        while (-1 !== (dd = parts.indexOf('..', dd + 1))) {\n          const p = parts[dd - 1]\n          if (p && p !== '.' && p !== '..' && p !== '**') {\n            didSomething = true\n            const needDot = dd === 1 && parts[dd + 1] === '**'\n            const splin = needDot ? ['.'] : []\n            parts.splice(dd - 1, 2, ...splin)\n            if (parts.length === 0) parts.push('')\n            dd -= 2\n          }\n        }\n      }\n    } while (didSomething)\n\n    return globParts\n  }\n\n  // second phase: multi-pattern dedupes\n  // {
/*/,
/

/} ->

/*/\n  // {
/,
/} -> 
/\n  // {
/**/,
/} -> 
/**/\n  //\n  // {
/**/,
/**/

/} ->

/**/\n  // ^-- not valid because ** doens't follow symlinks\n  secondPhasePreProcess(globParts: string[][]): string[][] {\n    for (let i = 0; i < globParts.length - 1; i++) {\n      for (let j = i + 1; j < globParts.length; j++) {\n        const matched = this.partsMatch(\n          globParts[i],\n          globParts[j],\n          !this.preserveMultipleSlashes,\n        )\n        if (matched) {\n          globParts[i] = []\n          globParts[j] = matched\n          break\n        }\n      }\n    }\n    return globParts.filter(gs => gs.length)\n  }\n\n  partsMatch(\n    a: string[],\n    b: string[],\n    emptyGSMatch: boolean = false,\n  ): false | string[] {\n    let ai = 0\n    let bi = 0\n    let result: string[] = []\n    let which: string = ''\n    while (ai < a.length && bi < b.length) {\n      if (a[ai] === b[bi]) {\n        result.push(which === 'b' ? b[bi] : a[ai])\n        ai++\n        bi++\n      } else if (emptyGSMatch && a[ai] === '**' && b[bi] === a[ai + 1]) {\n        result.push(a[ai])\n        ai++\n      } else if (emptyGSMatch && b[bi] === '**' && a[ai] === b[bi + 1]) {\n        result.push(b[bi])\n        bi++\n      } else if (\n        a[ai] === '*' &&\n        b[bi] &&\n        (this.options.dot || !b[bi].startsWith('.')) &&\n        b[bi] !== '**'\n      ) {\n        if (which === 'b') return false\n        which = 'a'\n        result.push(a[ai])\n        ai++\n        bi++\n      } else if (\n        b[bi] === '*' &&\n        a[ai] &&\n        (this.options.dot || !a[ai].startsWith('.')) &&\n        a[ai] !== '**'\n      ) {\n        if (which === 'a') return false\n        which = 'b'\n        result.push(b[bi])\n        ai++\n        bi++\n      } else {\n        return false\n      }\n    }\n    // if we fall out of the loop, it means they two are identical\n    // as long as their lengths match\n    return a.length === b.length && result\n  }\n\n  parseNegate() {\n    if (this.nonegate) return\n\n    const pattern = this.pattern\n    let negate = false\n    let negateOffset = 0\n\n    for (let i = 0; i < pattern.length && pattern.charAt(i) === '!'; i++) {\n      negate = !negate\n      negateOffset++\n    }\n\n    if (negateOffset) this.pattern = pattern.slice(negateOffset)\n    this.negate = negate\n  }\n\n  // set partial to true to test if, for example,\n  // \"/a/b\" matches the start of \"/*/b/*/d\"\n  // Partial means, if you run out of file before you run\n  // out of pattern, then that's fine, as long as all\n  // the parts match.\n  matchOne(\n    file: string[],\n    pattern: ParseReturn[],\n    partial: boolean = false,\n  ) {\n    let fileStartIndex = 0\n    let patternStartIndex = 0\n\n    // UNC paths like //?/X:/... can match X:/... and vice versa\n    // Drive letters in absolute drive or unc paths are always compared\n    // case-insensitively.\n    if (this.isWindows) {\n      const fileDrive =\n        typeof file[0] === 'string' && /^[a-z]:$/i.test(file[0])\n      const fileUNC =\n        !fileDrive &&\n        file[0] === '' &&\n        file[1] === '' &&\n        file[2] === '?' &&\n        /^[a-z]:$/i.test(file[3])\n\n      const patternDrive =\n        typeof pattern[0] === 'string' && /^[a-z]:$/i.test(pattern[0])\n      const patternUNC =\n        !patternDrive &&\n        pattern[0] === '' &&\n        pattern[1] === '' &&\n        pattern[2] === '?' &&\n        typeof pattern[3] === 'string' &&\n        /^[a-z]:$/i.test(pattern[3])\n\n      const fdi =\n        fileUNC ? 3\n        : fileDrive ? 0\n        : undefined\n      const pdi =\n        patternUNC ? 3\n        : patternDrive ? 0\n        : undefined\n      if (typeof fdi === 'number' && typeof pdi === 'number') {\n        const [fd, pd]: [string, string] = [\n          file[fdi],\n          pattern[pdi] as string,\n        ]\n        // start matching at the drive letter index of each\n        if (fd.toLowerCase() === pd.toLowerCase()) {\n          pattern[pdi] = fd\n          patternStartIndex = pdi\n          fileStartIndex = fdi\n        }\n      }\n    }\n\n    // resolve and reduce . and .. portions in the file as well.\n    // don't need to do the second phase, because it's only one string[]\n    const { optimizationLevel = 1 } = this.options\n    if (optimizationLevel >= 2) {\n      file = this.levelTwoFileOptimize(file)\n    }\n\n    if (pattern.includes(GLOBSTAR)) {\n      return this.#matchGlobstar(\n        file,\n        pattern,\n        partial,\n        fileStartIndex,\n        patternStartIndex,\n      )\n    }\n\n    return this.#matchOne(\n      file,\n      pattern,\n      partial,\n      fileStartIndex,\n      patternStartIndex,\n    )\n  }\n\n  #matchGlobstar(\n    file: string[],\n    pattern: ParseReturn[],\n    partial: boolean,\n    fileIndex: number,\n    patternIndex: number,\n  ) {\n    // split the pattern into head, tail, and middle of ** delimited parts\n    const firstgs = pattern.indexOf(GLOBSTAR, patternIndex)\n    const lastgs = pattern.lastIndexOf(GLOBSTAR)\n\n    // split the pattern up into globstar-delimited sections\n    // the tail has to be at the end, and the others just have\n    // to be found in order from the head.\n    const [head, body, tail] =\n      partial ?\n        [\n          pattern.slice(patternIndex, firstgs),\n          pattern.slice(firstgs + 1),\n          [],\n        ]\n      : [\n          pattern.slice(patternIndex, firstgs),\n          pattern.slice(firstgs + 1, lastgs),\n          pattern.slice(lastgs + 1),\n        ]\n\n    // check the head, from the current file/pattern index.\n    if (head.length) {\n      const fileHead = file.slice(fileIndex, fileIndex + head.length)\n      if (!this.#matchOne(fileHead, head, partial, 0, 0)) {\n        return false\n      }\n      fileIndex += head.length\n      patternIndex += head.length\n    }\n    // now we know the head matches!\n\n    // if the last portion is not empty, it MUST match the end\n    // check the tail\n    let fileTailMatch: number = 0\n    if (tail.length) {\n      // if head + tail > file, then we cannot possibly match\n      if (tail.length + fileIndex > file.length) return false\n\n      // try to match the tail\n      let tailStart = file.length - tail.length\n      if (this.#matchOne(file, tail, partial, tailStart, 0)) {\n        fileTailMatch = tail.length\n      } else {\n        // affordance for stuff like a/**/* matching a/b/\n        // if the last file portion is '', and there's more to the pattern\n        // then try without the '' bit.\n        if (\n          file[file.length - 1] !== '' ||\n          fileIndex + tail.length === file.length\n        ) {\n          return false\n        }\n        tailStart--\n        if (!this.#matchOne(file, tail, partial, tailStart, 0)) {\n          return false\n        }\n        fileTailMatch = tail.length + 1\n      }\n    }\n\n    // now we know the tail matches!\n\n    // the middle is zero or more portions wrapped in **, possibly\n    // containing more ** sections.\n    // so a/**/b/**/c/**/d has become **/b/**/c/**\n    // if it's empty, it means a/**/b, just verify we have no bad dots\n    // if there's no tail, so it ends on /**, then we must have *something*\n    // after the head, or it's not a matc\n    if (!body.length) {\n      let sawSome = !!fileTailMatch\n      for (let i = fileIndex; i < file.length - fileTailMatch; i++) {\n        const f = String(file[i])\n        sawSome = true\n        if (\n          f === '.' ||\n          f === '..' ||\n          (!this.options.dot && f.startsWith('.'))\n        ) {\n          return false\n        }\n      }\n      // in partial mode, we just need to get past all file parts\n      return partial || sawSome\n    }\n\n    // now we know that there's one or more body sections, which can\n    // be matched anywhere from the 0 index (because the head was pruned)\n    // through to the length-fileTailMatch index.\n    // split the body up into sections, and note the minimum index it can\n    // be found at (start with the length of all previous segments)\n    // [section, before, after]\n    const bodySegments: [ParseReturn[], number][] = [[[], 0]]\n    let currentBody: [ParseReturn[], number] = bodySegments[0]\n    let nonGsParts = 0\n    const nonGsPartsSums: number[] = [0]\n    for (const b of body) {\n      if (b === GLOBSTAR) {\n        nonGsPartsSums.push(nonGsParts)\n        currentBody = [[], 0]\n        bodySegments.push(currentBody)\n      } else {\n        currentBody[0].push(b)\n        nonGsParts++\n      }\n    }\n    let i = bodySegments.length - 1\n    const fileLength = file.length - fileTailMatch\n    for (const b of bodySegments) {\n      b[1] = fileLength - ((nonGsPartsSums[i--] as number) + b[0].length)\n    }\n\n    return !!this.#matchGlobStarBodySections(\n      file,\n      bodySegments,\n      fileIndex,\n      0,\n      partial,\n      0,\n      !!fileTailMatch,\n    )\n  }\n\n  // return false for \"nope, not matching\"\n  // return null for \"not matching, cannot keep trying\"\n  #matchGlobStarBodySections(\n    file: string[],\n    // pattern section, last possible position for it\n    bodySegments: [ParseReturn[], number][],\n    fileIndex: number,\n    bodyIndex: number,\n    partial: boolean,\n    globStarDepth: number,\n    sawTail: boolean,\n  ): boolean | null {\n    // take the first body segment, and walk from fileIndex to its \"after\"\n    // value at the end\n    // If it doesn't match at that position, we increment, until we hit\n    // that final possible position, and give up.\n    // If it does match, then advance and try to rest.\n    // If any of them fail we keep walking forward.\n    // this is still a bit recursively painful, but it's more constrained\n    // than previous implementations, because we never test something that\n    // can't possibly be a valid matching condition.\n    const bs = bodySegments[bodyIndex]\n    if (!bs) {\n      // just make sure that there's no bad dots\n      for (let i = fileIndex; i < file.length; i++) {\n        sawTail = true\n        const f = file[i]\n        if (\n          f === '.' ||\n          f === '..' ||\n          (!this.options.dot && f.startsWith('.'))\n        ) {\n          return false\n        }\n      }\n      return sawTail\n    }\n\n    // have a non-globstar body section to test\n    const [body, after] = bs\n    while (fileIndex <= after) {\n      const m = this.#matchOne(\n        file.slice(0, fileIndex + body.length),\n        body,\n        partial,\n        fileIndex,\n        0,\n      )\n      // if limit exceeded, no match. intentional false negative,\n      // acceptable break in correctness for security.\n      if (m && globStarDepth < this.maxGlobstarRecursion) {\n        // match! see if the rest match. if so, we're done!\n        const sub = this.#matchGlobStarBodySections(\n          file,\n          bodySegments,\n          fileIndex + body.length,\n          bodyIndex + 1,\n          partial,\n          globStarDepth + 1,\n          sawTail,\n        )\n        if (sub !== false) {\n          return sub\n        }\n      }\n      const f = file[fileIndex]\n      if (\n        f === '.' ||\n        f === '..' ||\n        (!this.options.dot && f.startsWith('.'))\n      ) {\n        return false\n      }\n\n      fileIndex++\n    }\n    // walked off. no point continuing\n    return partial || null\n  }\n\n  #matchOne(\n    file: string[],\n    pattern: ParseReturn[],\n    partial: boolean,\n    fileIndex: number,\n    patternIndex: number,\n  ) {\n    let fi: number\n    let pi: number\n    let pl: number\n    let fl: number\n    for (\n      fi = fileIndex,\n        pi = patternIndex,\n        fl = file.length,\n        pl = pattern.length;\n      fi < fl && pi < pl;\n      fi++, pi++\n    ) {\n      this.debug('matchOne loop')\n      let p = pattern[pi]\n      let f = file[fi]\n\n      this.debug(pattern, p, f)\n\n      // should be impossible.\n      // some invalid regexp stuff in the set.\n      /* c8 ignore start */\n      if (p === false || p === GLOBSTAR) {\n        return false\n      }\n      /* c8 ignore stop */\n\n      // something other than **\n      // non-magic patterns just have to match exactly\n      // patterns with magic have been turned into regexps.\n      let hit: boolean\n      if (typeof p === 'string') {\n        hit = f === p\n        this.debug('string match', p, f, hit)\n      } else {\n        hit = p.test(f)\n        this.debug('pattern match', p, f, hit)\n      }\n\n      if (!hit) return false\n    }\n\n    // Note: ending in / means that we'll get a final \"\"\n    // at the end of the pattern.  This can only match a\n    // corresponding \"\" at the end of the file.\n    // If the file ends in /, then it can only match a\n    // a pattern that ends in /, unless the pattern just\n    // doesn't have any more for it. But, a/b/ should *not*\n    // match \"a/b/*\", even though \"\" matches against the\n    // [^/]*? pattern, except in partial mode, where it might\n    // simply not be reached yet.\n    // However, a/b/ should still satisfy a/*\n\n    // now either we fell off the end of the pattern, or we're done.\n    if (fi === fl && pi === pl) {\n      // ran out of pattern and filename at the same time.\n      // an exact hit!\n      return true\n    } else if (fi === fl) {\n      // ran out of file, but still had pattern left.\n      // this is ok if we're doing the match as part of\n      // a glob fs traversal.\n      return partial\n    } else if (pi === pl) {\n      // ran out of pattern, still have file left.\n      // this is only acceptable if we're on the very last\n      // empty segment of a file with a trailing slash.\n      // a/* should match a/b/\n      return fi === fl - 1 && file[fi] === ''\n\n      /* c8 ignore start */\n    } else {\n      // should be unreachable.\n      throw new Error('wtf?')\n    }\n    /* c8 ignore stop */\n  }\n\n  braceExpand() {\n    return braceExpand(this.pattern, this.options)\n  }\n\n  parse(pattern: string): ParseReturn {\n    assertValidPattern(pattern)\n\n    const options = this.options\n\n    // shortcuts\n    if (pattern === '**') return GLOBSTAR\n    if (pattern === '') return ''\n\n    // far and away, the most common glob pattern parts are\n    // *, *.*, and *.  Add a fast check method for those.\n    let m: RegExpMatchArray | null\n    let fastTest: null | ((f: string) => boolean) = null\n    if ((m = pattern.match(starRE))) {\n      fastTest = options.dot ? starTestDot : starTest\n    } else if ((m = pattern.match(starDotExtRE))) {\n      fastTest = (\n        options.nocase ?\n          options.dot ?\n            starDotExtTestNocaseDot\n          : starDotExtTestNocase\n        : options.dot ? starDotExtTestDot\n        : starDotExtTest)(m[1])\n    } else if ((m = pattern.match(qmarksRE))) {\n      fastTest = (\n        options.nocase ?\n          options.dot ?\n            qmarksTestNocaseDot\n          : qmarksTestNocase\n        : options.dot ? qmarksTestDot\n        : qmarksTest)(m)\n    } else if ((m = pattern.match(starDotStarRE))) {\n      fastTest = options.dot ? starDotStarTestDot : starDotStarTest\n    } else if ((m = pattern.match(dotStarRE))) {\n      fastTest = dotStarTest\n    }\n\n    const re = AST.fromGlob(pattern, this.options).toMMPattern()\n    if (fastTest && typeof re === 'object') {\n      // Avoids overriding in frozen environments\n      Reflect.defineProperty(re, 'test', { value: fastTest })\n    }\n    return re\n  }\n\n  makeRe() {\n    if (this.regexp || this.regexp === false) return this.regexp\n\n    // at this point, this.set is a 2d array of partial\n    // pattern strings, or \"**\".\n    //\n    // It's better to use .match().  This function shouldn't\n    // be used, really, but it's pretty convenient sometimes,\n    // when you just want to work with a regex.\n    const set = this.set\n\n    if (!set.length) {\n      this.regexp = false\n      return this.regexp\n    }\n    const options = this.options\n\n    const twoStar =\n      options.noglobstar ? star\n      : options.dot ? twoStarDot\n      : twoStarNoDot\n    const flags = new Set(options.nocase ? ['i'] : [])\n\n    // regexpify non-globstar patterns\n    // if ** is only item, then we just do one twoStar\n    // if ** is first, and there are more, prepend (\\/|twoStar\\/)? to next\n    // if ** is last, append (\\/twoStar|) to previous\n    // if ** is in the middle, append (\\/|\\/twoStar\\/) to previous\n    // then filter out GLOBSTAR symbols\n    let re = set\n      .map(pattern => {\n        const pp: (string | typeof GLOBSTAR)[] = pattern.map(p => {\n          if (p instanceof RegExp) {\n            for (const f of p.flags.split('')) flags.add(f)\n          }\n          return (\n            typeof p === 'string' ? regExpEscape(p)\n            : p === GLOBSTAR ? GLOBSTAR\n            : p._src\n          )\n        }) as (string | typeof GLOBSTAR)[]\n        pp.forEach((p, i) => {\n          const next = pp[i + 1]\n          const prev = pp[i - 1]\n          if (p !== GLOBSTAR || prev === GLOBSTAR) {\n            return\n          }\n          if (prev === undefined) {\n            if (next !== undefined && next !== GLOBSTAR) {\n              pp[i + 1] = '(?:\\\\/|' + twoStar + '\\\\/)?' + next\n            } else {\n              pp[i] = twoStar\n            }\n          } else if (next === undefined) {\n            pp[i - 1] = prev + '(?:\\\\/|\\\\/' + twoStar + ')?'\n          } else if (next !== GLOBSTAR) {\n            pp[i - 1] = prev + '(?:\\\\/|\\\\/' + twoStar + '\\\\/)' + next\n            pp[i + 1] = GLOBSTAR\n          }\n        })\n        const filtered = pp.filter(p => p !== GLOBSTAR)\n\n        // For partial matches, we need to make the pattern match\n        // any prefix of the full path. We do this by generating\n        // alternative patterns that match progressively longer prefixes.\n        if (this.partial && filtered.length >= 1) {\n          const prefixes: string[] = []\n          for (let i = 1; i <= filtered.length; i++) {\n            prefixes.push(filtered.slice(0, i).join('/'))\n          }\n          return '(?:' + prefixes.join('|') + ')'\n        }\n\n        return filtered.join('/')\n      })\n      .join('|')\n\n    // need to wrap in parens if we had more than one thing with |,\n    // otherwise only the first will be anchored to ^ and the last to $\n    const [open, close] = set.length > 1 ? ['(?:', ')'] : ['', '']\n    // must match entire pattern\n    // ending in a * or ** will make it less strict.\n    re = '^' + open + re + close + '$'\n\n    // In partial mode, '/' should always match as it's a valid prefix for any pattern\n    if (this.partial) {\n      re = '^(?:\\\\/|' + open + re.slice(1, -1) + close + ')$'\n    }\n\n    // can match anything, as long as it's not this.\n    if (this.negate) re = '^(?!' + re + ').+$'\n\n    try {\n      this.regexp = new RegExp(re, [...flags].join(''))\n      /* c8 ignore start */\n    } catch {\n      // should be impossible\n      this.regexp = false\n    }\n    /* c8 ignore stop */\n    return this.regexp\n  }\n\n  slashSplit(p: string) {\n    // if p starts with // on windows, we preserve that\n    // so that UNC paths aren't broken.  Otherwise, any number of\n    // / characters are coalesced into one, unless\n    // preserveMultipleSlashes is set to true.\n    if (this.preserveMultipleSlashes) {\n      return p.split('/')\n    } else if (this.isWindows && /^\\/\\/[^/]+/.test(p)) {\n      // add an extra '' for the one we lose\n      return ['', ...p.split(/\\/+/)]\n    } else {\n      return p.split(/\\/+/)\n    }\n  }\n\n  match(f: string, partial = this.partial) {\n    this.debug('match', f, this.pattern)\n    // short-circuit in the case of busted things.\n    // comments, etc.\n    if (this.comment) {\n      return false\n    }\n    if (this.empty) {\n      return f === ''\n    }\n\n    if (f === '/' && partial) {\n      return true\n    }\n\n    const options = this.options\n\n    // windows: need to use /, not \\\n    if (this.isWindows) {\n      f = f.split('\\\\').join('/')\n    }\n\n    // treat the test path as a set of pathparts.\n    const ff = this.slashSplit(f)\n    this.debug(this.pattern, 'split', ff)\n\n    // just ONE of the pattern sets in this.set needs to match\n    // in order for it to be valid.  If negating, then just one\n    // match means that we have failed.\n    // Either way, return on the first hit.\n\n    const set = this.set\n    this.debug(this.pattern, 'set', set)\n\n    // Find the basename of the path by looking for the last non-empty segment\n    let filename: string = ff[ff.length - 1]\n    if (!filename) {\n      for (let i = ff.length - 2; !filename && i >= 0; i--) {\n        filename = ff[i]\n      }\n    }\n\n    for (const pattern of set) {\n      let file = ff\n      if (options.matchBase && pattern.length === 1) {\n        file = [filename]\n      }\n      const hit = this.matchOne(file, pattern, partial)\n      if (hit) {\n        if (options.flipNegate) {\n          return true\n        }\n        return !this.negate\n      }\n    }\n\n    // didn't get any hits.  this is success if it's a negative\n    // pattern, failure otherwise.\n    if (options.flipNegate) {\n      return false\n    }\n    return this.negate\n  }\n\n  static defaults(def: MinimatchOptions) {\n    return minimatch.defaults(def).Minimatch\n  }\n}\n/* c8 ignore start */\nexport { AST } from './ast.js'\nexport { escape } from './escape.js'\nexport { unescape } from './unescape.js'\n/* c8 ignore stop */\nminimatch.AST = AST\nminimatch.Minimatch = Minimatch\nminimatch.escape = escape\nminimatch.unescape = unescape\n"]}
\ No newline at end of file
diff --git a/deps/minimatch/dist/esm/unescape.d.ts b/deps/minimatch/dist/esm/unescape.d.ts
index 30ec8292615b74..c4a14473afc706 100644
--- a/deps/minimatch/dist/esm/unescape.d.ts
+++ b/deps/minimatch/dist/esm/unescape.d.ts
@@ -1,4 +1,4 @@
-import { MinimatchOptions } from './index.js';
+import type { MinimatchOptions } from './index.js';
 /**
  * Un-escape a string that has been escaped with {@link escape}.
  *
diff --git a/deps/minimatch/dist/esm/unescape.d.ts.map b/deps/minimatch/dist/esm/unescape.d.ts.map
index 6b84d7538f8ce4..09d6eab4e6502c 100644
--- a/deps/minimatch/dist/esm/unescape.d.ts.map
+++ b/deps/minimatch/dist/esm/unescape.d.ts.map
@@ -1 +1 @@
-{"version":3,"file":"unescape.d.ts","sourceRoot":"","sources":["../../src/unescape.ts"],"names":[],"mappings":"AAAA,OAAO,EAAE,gBAAgB,EAAE,MAAM,YAAY,CAAA;AAE7C;;;;;;;;;;;;;;;;;;GAkBG;AAEH,eAAO,MAAM,QAAQ,GACnB,GAAG,MAAM,EACT,2CAGG,IAAI,CAAC,gBAAgB,EAAE,sBAAsB,GAAG,eAAe,CAAM,WAczE,CAAA"}
\ No newline at end of file
+{"version":3,"file":"unescape.d.ts","sourceRoot":"","sources":["../../src/unescape.ts"],"names":[],"mappings":"AAAA,OAAO,KAAK,EAAE,gBAAgB,EAAE,MAAM,YAAY,CAAA;AAElD;;;;;;;;;;;;;;;;;;GAkBG;AAEH,eAAO,MAAM,QAAQ,GACnB,GAAG,MAAM,EACT,2CAGG,IAAI,CAAC,gBAAgB,EAAE,sBAAsB,GAAG,eAAe,CAAM,WAczE,CAAA"}
\ No newline at end of file
diff --git a/deps/minimatch/dist/esm/unescape.js b/deps/minimatch/dist/esm/unescape.js
index b31bd40a028407..19ce86e7c86052 100644
--- a/deps/minimatch/dist/esm/unescape.js
+++ b/deps/minimatch/dist/esm/unescape.js
@@ -20,15 +20,15 @@
 export const unescape = (s, { windowsPathsNoEscape = false, magicalBraces = true, } = {}) => {
     if (magicalBraces) {
         return windowsPathsNoEscape ?
-            s.replace(/\[([^\/\\])\]/g, '$1')
+            s.replace(/\[([^/\\])\]/g, '$1')
             : s
-                .replace(/((?!\\).|^)\[([^\/\\])\]/g, '$1$2')
-                .replace(/\\([^\/])/g, '$1');
+                .replace(/((?!\\).|^)\[([^/\\])\]/g, '$1$2')
+                .replace(/\\([^/])/g, '$1');
     }
     return windowsPathsNoEscape ?
-        s.replace(/\[([^\/\\{}])\]/g, '$1')
+        s.replace(/\[([^/\\{}])\]/g, '$1')
         : s
-            .replace(/((?!\\).|^)\[([^\/\\{}])\]/g, '$1$2')
-            .replace(/\\([^\/{}])/g, '$1');
+            .replace(/((?!\\).|^)\[([^/\\{}])\]/g, '$1$2')
+            .replace(/\\([^/{}])/g, '$1');
 };
 //# sourceMappingURL=unescape.js.map
\ No newline at end of file
diff --git a/deps/minimatch/dist/esm/unescape.js.map b/deps/minimatch/dist/esm/unescape.js.map
index 288321b86c686d..6d507391171b5f 100644
--- a/deps/minimatch/dist/esm/unescape.js.map
+++ b/deps/minimatch/dist/esm/unescape.js.map
@@ -1 +1 @@
-{"version":3,"file":"unescape.js","sourceRoot":"","sources":["../../src/unescape.ts"],"names":[],"mappings":"AAEA;;;;;;;;;;;;;;;;;;GAkBG;AAEH,MAAM,CAAC,MAAM,QAAQ,GAAG,CACtB,CAAS,EACT,EACE,oBAAoB,GAAG,KAAK,EAC5B,aAAa,GAAG,IAAI,MACgD,EAAE,EACxE,EAAE;IACF,IAAI,aAAa,EAAE,CAAC;QAClB,OAAO,oBAAoB,CAAC,CAAC;YACzB,CAAC,CAAC,OAAO,CAAC,gBAAgB,EAAE,IAAI,CAAC;YACnC,CAAC,CAAC,CAAC;iBACE,OAAO,CAAC,2BAA2B,EAAE,MAAM,CAAC;iBAC5C,OAAO,CAAC,YAAY,EAAE,IAAI,CAAC,CAAA;IACpC,CAAC;IACD,OAAO,oBAAoB,CAAC,CAAC;QACzB,CAAC,CAAC,OAAO,CAAC,kBAAkB,EAAE,IAAI,CAAC;QACrC,CAAC,CAAC,CAAC;aACE,OAAO,CAAC,6BAA6B,EAAE,MAAM,CAAC;aAC9C,OAAO,CAAC,cAAc,EAAE,IAAI,CAAC,CAAA;AACtC,CAAC,CAAA","sourcesContent":["import { MinimatchOptions } from './index.js'\n\n/**\n * Un-escape a string that has been escaped with {@link escape}.\n *\n * If the {@link MinimatchOptions.windowsPathsNoEscape} option is used, then\n * square-bracket escapes are removed, but not backslash escapes.\n *\n * For example, it will turn the string `'[*]'` into `*`, but it will not\n * turn `'\\\\*'` into `'*'`, because `\\` is a path separator in\n * `windowsPathsNoEscape` mode.\n *\n * When `windowsPathsNoEscape` is not set, then both square-bracket escapes and\n * backslash escapes are removed.\n *\n * Slashes (and backslashes in `windowsPathsNoEscape` mode) cannot be escaped\n * or unescaped.\n *\n * When `magicalBraces` is not set, escapes of braces (`{` and `}`) will not be\n * unescaped.\n */\n\nexport const unescape = (\n  s: string,\n  {\n    windowsPathsNoEscape = false,\n    magicalBraces = true,\n  }: Pick = {},\n) => {\n  if (magicalBraces) {\n    return windowsPathsNoEscape ?\n        s.replace(/\\[([^\\/\\\\])\\]/g, '$1')\n      : s\n          .replace(/((?!\\\\).|^)\\[([^\\/\\\\])\\]/g, '$1$2')\n          .replace(/\\\\([^\\/])/g, '$1')\n  }\n  return windowsPathsNoEscape ?\n      s.replace(/\\[([^\\/\\\\{}])\\]/g, '$1')\n    : s\n        .replace(/((?!\\\\).|^)\\[([^\\/\\\\{}])\\]/g, '$1$2')\n        .replace(/\\\\([^\\/{}])/g, '$1')\n}\n"]}
\ No newline at end of file
+{"version":3,"file":"unescape.js","sourceRoot":"","sources":["../../src/unescape.ts"],"names":[],"mappings":"AAEA;;;;;;;;;;;;;;;;;;GAkBG;AAEH,MAAM,CAAC,MAAM,QAAQ,GAAG,CACtB,CAAS,EACT,EACE,oBAAoB,GAAG,KAAK,EAC5B,aAAa,GAAG,IAAI,MACgD,EAAE,EACxE,EAAE;IACF,IAAI,aAAa,EAAE,CAAC;QAClB,OAAO,oBAAoB,CAAC,CAAC;YACzB,CAAC,CAAC,OAAO,CAAC,eAAe,EAAE,IAAI,CAAC;YAClC,CAAC,CAAC,CAAC;iBACE,OAAO,CAAC,0BAA0B,EAAE,MAAM,CAAC;iBAC3C,OAAO,CAAC,WAAW,EAAE,IAAI,CAAC,CAAA;IACnC,CAAC;IACD,OAAO,oBAAoB,CAAC,CAAC;QACzB,CAAC,CAAC,OAAO,CAAC,iBAAiB,EAAE,IAAI,CAAC;QACpC,CAAC,CAAC,CAAC;aACE,OAAO,CAAC,4BAA4B,EAAE,MAAM,CAAC;aAC7C,OAAO,CAAC,aAAa,EAAE,IAAI,CAAC,CAAA;AACrC,CAAC,CAAA","sourcesContent":["import type { MinimatchOptions } from './index.js'\n\n/**\n * Un-escape a string that has been escaped with {@link escape}.\n *\n * If the {@link MinimatchOptions.windowsPathsNoEscape} option is used, then\n * square-bracket escapes are removed, but not backslash escapes.\n *\n * For example, it will turn the string `'[*]'` into `*`, but it will not\n * turn `'\\\\*'` into `'*'`, because `\\` is a path separator in\n * `windowsPathsNoEscape` mode.\n *\n * When `windowsPathsNoEscape` is not set, then both square-bracket escapes and\n * backslash escapes are removed.\n *\n * Slashes (and backslashes in `windowsPathsNoEscape` mode) cannot be escaped\n * or unescaped.\n *\n * When `magicalBraces` is not set, escapes of braces (`{` and `}`) will not be\n * unescaped.\n */\n\nexport const unescape = (\n  s: string,\n  {\n    windowsPathsNoEscape = false,\n    magicalBraces = true,\n  }: Pick = {},\n) => {\n  if (magicalBraces) {\n    return windowsPathsNoEscape ?\n        s.replace(/\\[([^/\\\\])\\]/g, '$1')\n      : s\n          .replace(/((?!\\\\).|^)\\[([^/\\\\])\\]/g, '$1$2')\n          .replace(/\\\\([^/])/g, '$1')\n  }\n  return windowsPathsNoEscape ?\n      s.replace(/\\[([^/\\\\{}])\\]/g, '$1')\n    : s\n        .replace(/((?!\\\\).|^)\\[([^/\\\\{}])\\]/g, '$1$2')\n        .replace(/\\\\([^/{}])/g, '$1')\n}\n"]}
\ No newline at end of file
diff --git a/deps/minimatch/index.js b/deps/minimatch/index.js
index d28609b10808f9..c30673985f9b5d 100644
--- a/deps/minimatch/index.js
+++ b/deps/minimatch/index.js
@@ -183,7 +183,7 @@ var require_commonjs2 = __commonJS({
           const x = numeric(n[0]);
           const y = numeric(n[1]);
           const width = Math.max(n[0].length, n[1].length);
-          let incr = n.length === 3 && n[2] !== void 0 ? Math.abs(numeric(n[2])) : 1;
+          let incr = n.length === 3 && n[2] !== void 0 ? Math.max(Math.abs(numeric(n[2])), 1) : 1;
           let test = lte;
           const reverse = y < x;
           if (reverse) {
@@ -379,9 +379,9 @@ var require_unescape = __commonJS({
     exports2.unescape = void 0;
     var unescape = (s, { windowsPathsNoEscape = false, magicalBraces = true } = {}) => {
       if (magicalBraces) {
-        return windowsPathsNoEscape ? s.replace(/\[([^\/\\])\]/g, "$1") : s.replace(/((?!\\).|^)\[([^\/\\])\]/g, "$1$2").replace(/\\([^\/])/g, "$1");
+        return windowsPathsNoEscape ? s.replace(/\[([^/\\])\]/g, "$1") : s.replace(/((?!\\).|^)\[([^/\\])\]/g, "$1$2").replace(/\\([^/])/g, "$1");
       }
-      return windowsPathsNoEscape ? s.replace(/\[([^\/\\{}])\]/g, "$1") : s.replace(/((?!\\).|^)\[([^\/\\{}])\]/g, "$1$2").replace(/\\([^\/{}])/g, "$1");
+      return windowsPathsNoEscape ? s.replace(/\[([^/\\{}])\]/g, "$1") : s.replace(/((?!\\).|^)\[([^/\\{}])\]/g, "$1$2").replace(/\\([^/{}])/g, "$1");
     };
     exports2.unescape = unescape;
   }
@@ -511,13 +511,7 @@ var require_ast = __commonJS({
       }
       // reconstructs the pattern
       toString() {
-        if (this.#toString !== void 0)
-          return this.#toString;
-        if (!this.type) {
-          return this.#toString = this.#parts.map((p) => String(p)).join("");
-        } else {
-          return this.#toString = this.type + "(" + this.#parts.map((p) => String(p)).join("|") + ")";
-        }
+        return this.#toString !== void 0 ? this.#toString : !this.type ? this.#toString = this.#parts.map((p) => String(p)).join("") : this.#toString = this.type + "(" + this.#parts.map((p) => String(p)).join("|") + ")";
       }
       #fillNegs() {
         if (this !== this.#root)
@@ -1079,7 +1073,7 @@ var minimatch = (p, pattern, options = {}) => {
   return new Minimatch(pattern, options).match(p);
 };
 exports.minimatch = minimatch;
-var starDotExtRE = /^\*+([^+@!?\*\[\(]*)$/;
+var starDotExtRE = /^\*+([^+@!?*[(]*)$/;
 var starDotExtTest = (ext2) => (f) => !f.startsWith(".") && f.endsWith(ext2);
 var starDotExtTestDot = (ext2) => (f) => f.endsWith(ext2);
 var starDotExtTestNocase = (ext2) => {
@@ -1098,7 +1092,7 @@ var dotStarTest = (f) => f !== "." && f !== ".." && f.startsWith(".");
 var starRE = /^\*+$/;
 var starTest = (f) => f.length !== 0 && !f.startsWith(".");
 var starTestDot = (f) => f.length !== 0 && f !== "." && f !== "..";
-var qmarksRE = /^\?+([^+@!?\*\[\(]*)?$/;
+var qmarksRE = /^\?+([^+@!?*[(]*)?$/;
 var qmarksTestNocase = ([$0, ext2 = ""]) => {
   const noext = qmarksTestNoExt([$0]);
   if (!ext2)
@@ -1322,10 +1316,10 @@ var Minimatch = class {
   // of patterns that we have to process.
   preprocess(globParts) {
     if (this.options.noglobstar) {
-      for (let i = 0; i < globParts.length; i++) {
-        for (let j = 0; j < globParts[i].length; j++) {
-          if (globParts[i][j] === "**") {
-            globParts[i][j] = "*";
+      for (const partset of globParts) {
+        for (let j = 0; j < partset.length; j++) {
+          if (partset[j] === "**") {
+            partset[j] = "*";
           }
         }
       }
@@ -1403,7 +1397,7 @@ var Minimatch = class {
       let dd = 0;
       while (-1 !== (dd = parts.indexOf("..", dd + 1))) {
         const p = parts[dd - 1];
-        if (p && p !== "." && p !== ".." && p !== "**") {
+        if (p && p !== "." && p !== ".." && p !== "**" && !(this.isWindows && /^[a-z]:$/i.test(p))) {
           didSomething = true;
           parts.splice(dd - 1, 2);
           dd -= 2;
@@ -1819,7 +1813,7 @@ var Minimatch = class {
       re = "^(?!" + re + ").+$";
     try {
       this.regexp = new RegExp(re, [...flags].join(""));
-    } catch (ex) {
+    } catch {
       this.regexp = false;
     }
     return this.regexp;
@@ -1827,7 +1821,7 @@ var Minimatch = class {
   slashSplit(p) {
     if (this.preserveMultipleSlashes) {
       return p.split("/");
-    } else if (this.isWindows && /^\/\/[^\/]+/.test(p)) {
+    } else if (this.isWindows && /^\/\/[^/]+/.test(p)) {
       return ["", ...p.split(/\/+/)];
     } else {
       return p.split(/\/+/);
@@ -1858,8 +1852,7 @@ var Minimatch = class {
         filename = ff[i];
       }
     }
-    for (let i = 0; i < set.length; i++) {
-      const pattern = set[i];
+    for (const pattern of set) {
       let file = ff;
       if (options.matchBase && pattern.length === 1) {
         file = [filename];
diff --git a/deps/minimatch/package-lock.json b/deps/minimatch/package-lock.json
index 1022f59865f99d..78a7acf719f6b4 100644
--- a/deps/minimatch/package-lock.json
+++ b/deps/minimatch/package-lock.json
@@ -1,24 +1,26 @@
 {
   "name": "minimatch",
-  "version": "10.2.4",
+  "version": "10.2.5",
   "lockfileVersion": 3,
   "requires": true,
   "packages": {
     "": {
       "name": "minimatch",
-      "version": "10.2.4",
+      "version": "10.2.5",
       "license": "BlueOak-1.0.0",
       "dependencies": {
-        "brace-expansion": "^5.0.2"
+        "brace-expansion": "^5.0.5"
       },
       "devDependencies": {
-        "@types/node": "^25.3.0",
-        "esbuild": "^0.27.3",
+        "@types/node": "^25.5.0",
+        "esbuild": "^0.28.0",
         "mkdirp": "^3.0.1",
-        "prettier": "^3.6.2",
+        "oxlint": "^1.57.0",
+        "oxlint-tsgolint": "^0.18.1",
+        "prettier": "^3.8.1",
         "tap": "^21.6.2",
-        "tshy": "^3.0.2",
-        "typedoc": "^0.28.5"
+        "tshy": "^4.0.0",
+        "typedoc": "^0.28.18"
       },
       "engines": {
         "node": "18 || 20 || >=22"
@@ -72,9 +74,9 @@
       }
     },
     "node_modules/@esbuild/aix-ppc64": {
-      "version": "0.27.3",
-      "resolved": "https://registry.npmjs.org/@esbuild/aix-ppc64/-/aix-ppc64-0.27.3.tgz",
-      "integrity": "sha512-9fJMTNFTWZMh5qwrBItuziu834eOCUcEqymSH7pY+zoMVEZg3gcPuBNxH1EvfVYe9h0x/Ptw8KBzv7qxb7l8dg==",
+      "version": "0.28.0",
+      "resolved": "https://registry.npmjs.org/@esbuild/aix-ppc64/-/aix-ppc64-0.28.0.tgz",
+      "integrity": "sha512-lhRUCeuOyJQURhTxl4WkpFTjIsbDayJHih5kZC1giwE+MhIzAb7mEsQMqMf18rHLsrb5qI1tafG20mLxEWcWlA==",
       "cpu": [
         "ppc64"
       ],
@@ -89,9 +91,9 @@
       }
     },
     "node_modules/@esbuild/android-arm": {
-      "version": "0.27.3",
-      "resolved": "https://registry.npmjs.org/@esbuild/android-arm/-/android-arm-0.27.3.tgz",
-      "integrity": "sha512-i5D1hPY7GIQmXlXhs2w8AWHhenb00+GxjxRncS2ZM7YNVGNfaMxgzSGuO8o8SJzRc/oZwU2bcScvVERk03QhzA==",
+      "version": "0.28.0",
+      "resolved": "https://registry.npmjs.org/@esbuild/android-arm/-/android-arm-0.28.0.tgz",
+      "integrity": "sha512-wqh0ByljabXLKHeWXYLqoJ5jKC4XBaw6Hk08OfMrCRd2nP2ZQ5eleDZC41XHyCNgktBGYMbqnrJKq/K/lzPMSQ==",
       "cpu": [
         "arm"
       ],
@@ -106,9 +108,9 @@
       }
     },
     "node_modules/@esbuild/android-arm64": {
-      "version": "0.27.3",
-      "resolved": "https://registry.npmjs.org/@esbuild/android-arm64/-/android-arm64-0.27.3.tgz",
-      "integrity": "sha512-YdghPYUmj/FX2SYKJ0OZxf+iaKgMsKHVPF1MAq/P8WirnSpCStzKJFjOjzsW0QQ7oIAiccHdcqjbHmJxRb/dmg==",
+      "version": "0.28.0",
+      "resolved": "https://registry.npmjs.org/@esbuild/android-arm64/-/android-arm64-0.28.0.tgz",
+      "integrity": "sha512-+WzIXQOSaGs33tLEgYPYe/yQHf0WTU0X42Jca3y8NWMbUVhp7rUnw+vAsRC/QiDrdD31IszMrZy+qwPOPjd+rw==",
       "cpu": [
         "arm64"
       ],
@@ -123,9 +125,9 @@
       }
     },
     "node_modules/@esbuild/android-x64": {
-      "version": "0.27.3",
-      "resolved": "https://registry.npmjs.org/@esbuild/android-x64/-/android-x64-0.27.3.tgz",
-      "integrity": "sha512-IN/0BNTkHtk8lkOM8JWAYFg4ORxBkZQf9zXiEOfERX/CzxW3Vg1ewAhU7QSWQpVIzTW+b8Xy+lGzdYXV6UZObQ==",
+      "version": "0.28.0",
+      "resolved": "https://registry.npmjs.org/@esbuild/android-x64/-/android-x64-0.28.0.tgz",
+      "integrity": "sha512-+VJggoaKhk2VNNqVL7f6S189UzShHC/mR9EE8rDdSkdpN0KflSwWY/gWjDrNxxisg8Fp1ZCD9jLMo4m0OUfeUA==",
       "cpu": [
         "x64"
       ],
@@ -140,9 +142,9 @@
       }
     },
     "node_modules/@esbuild/darwin-arm64": {
-      "version": "0.27.3",
-      "resolved": "https://registry.npmjs.org/@esbuild/darwin-arm64/-/darwin-arm64-0.27.3.tgz",
-      "integrity": "sha512-Re491k7ByTVRy0t3EKWajdLIr0gz2kKKfzafkth4Q8A5n1xTHrkqZgLLjFEHVD+AXdUGgQMq+Godfq45mGpCKg==",
+      "version": "0.28.0",
+      "resolved": "https://registry.npmjs.org/@esbuild/darwin-arm64/-/darwin-arm64-0.28.0.tgz",
+      "integrity": "sha512-0T+A9WZm+bZ84nZBtk1ckYsOvyA3x7e2Acj1KdVfV4/2tdG4fzUp91YHx+GArWLtwqp77pBXVCPn2We7Letr0Q==",
       "cpu": [
         "arm64"
       ],
@@ -157,9 +159,9 @@
       }
     },
     "node_modules/@esbuild/darwin-x64": {
-      "version": "0.27.3",
-      "resolved": "https://registry.npmjs.org/@esbuild/darwin-x64/-/darwin-x64-0.27.3.tgz",
-      "integrity": "sha512-vHk/hA7/1AckjGzRqi6wbo+jaShzRowYip6rt6q7VYEDX4LEy1pZfDpdxCBnGtl+A5zq8iXDcyuxwtv3hNtHFg==",
+      "version": "0.28.0",
+      "resolved": "https://registry.npmjs.org/@esbuild/darwin-x64/-/darwin-x64-0.28.0.tgz",
+      "integrity": "sha512-fyzLm/DLDl/84OCfp2f/XQ4flmORsjU7VKt8HLjvIXChJoFFOIL6pLJPH4Yhd1n1gGFF9mPwtlN5Wf82DZs+LQ==",
       "cpu": [
         "x64"
       ],
@@ -174,9 +176,9 @@
       }
     },
     "node_modules/@esbuild/freebsd-arm64": {
-      "version": "0.27.3",
-      "resolved": "https://registry.npmjs.org/@esbuild/freebsd-arm64/-/freebsd-arm64-0.27.3.tgz",
-      "integrity": "sha512-ipTYM2fjt3kQAYOvo6vcxJx3nBYAzPjgTCk7QEgZG8AUO3ydUhvelmhrbOheMnGOlaSFUoHXB6un+A7q4ygY9w==",
+      "version": "0.28.0",
+      "resolved": "https://registry.npmjs.org/@esbuild/freebsd-arm64/-/freebsd-arm64-0.28.0.tgz",
+      "integrity": "sha512-l9GeW5UZBT9k9brBYI+0WDffcRxgHQD8ShN2Ur4xWq/NFzUKm3k5lsH4PdaRgb2w7mI9u61nr2gI2mLI27Nh3Q==",
       "cpu": [
         "arm64"
       ],
@@ -191,9 +193,9 @@
       }
     },
     "node_modules/@esbuild/freebsd-x64": {
-      "version": "0.27.3",
-      "resolved": "https://registry.npmjs.org/@esbuild/freebsd-x64/-/freebsd-x64-0.27.3.tgz",
-      "integrity": "sha512-dDk0X87T7mI6U3K9VjWtHOXqwAMJBNN2r7bejDsc+j03SEjtD9HrOl8gVFByeM0aJksoUuUVU9TBaZa2rgj0oA==",
+      "version": "0.28.0",
+      "resolved": "https://registry.npmjs.org/@esbuild/freebsd-x64/-/freebsd-x64-0.28.0.tgz",
+      "integrity": "sha512-BXoQai/A0wPO6Es3yFJ7APCiKGc1tdAEOgeTNy3SsB491S3aHn4S4r3e976eUnPdU+NbdtmBuLncYir2tMU9Nw==",
       "cpu": [
         "x64"
       ],
@@ -208,9 +210,9 @@
       }
     },
     "node_modules/@esbuild/linux-arm": {
-      "version": "0.27.3",
-      "resolved": "https://registry.npmjs.org/@esbuild/linux-arm/-/linux-arm-0.27.3.tgz",
-      "integrity": "sha512-s6nPv2QkSupJwLYyfS+gwdirm0ukyTFNl3KTgZEAiJDd+iHZcbTPPcWCcRYH+WlNbwChgH2QkE9NSlNrMT8Gfw==",
+      "version": "0.28.0",
+      "resolved": "https://registry.npmjs.org/@esbuild/linux-arm/-/linux-arm-0.28.0.tgz",
+      "integrity": "sha512-CjaaREJagqJp7iTaNQjjidaNbCKYcd4IDkzbwwxtSvjI7NZm79qiHc8HqciMddQ6CKvJT6aBd8lO9kN/ZudLlw==",
       "cpu": [
         "arm"
       ],
@@ -225,9 +227,9 @@
       }
     },
     "node_modules/@esbuild/linux-arm64": {
-      "version": "0.27.3",
-      "resolved": "https://registry.npmjs.org/@esbuild/linux-arm64/-/linux-arm64-0.27.3.tgz",
-      "integrity": "sha512-sZOuFz/xWnZ4KH3YfFrKCf1WyPZHakVzTiqji3WDc0BCl2kBwiJLCXpzLzUBLgmp4veFZdvN5ChW4Eq/8Fc2Fg==",
+      "version": "0.28.0",
+      "resolved": "https://registry.npmjs.org/@esbuild/linux-arm64/-/linux-arm64-0.28.0.tgz",
+      "integrity": "sha512-RVyzfb3FWsGA55n6WY0MEIEPURL1FcbhFE6BffZEMEekfCzCIMtB5yyDcFnVbTnwk+CLAgTujmV/Lgvih56W+A==",
       "cpu": [
         "arm64"
       ],
@@ -242,9 +244,9 @@
       }
     },
     "node_modules/@esbuild/linux-ia32": {
-      "version": "0.27.3",
-      "resolved": "https://registry.npmjs.org/@esbuild/linux-ia32/-/linux-ia32-0.27.3.tgz",
-      "integrity": "sha512-yGlQYjdxtLdh0a3jHjuwOrxQjOZYD/C9PfdbgJJF3TIZWnm/tMd/RcNiLngiu4iwcBAOezdnSLAwQDPqTmtTYg==",
+      "version": "0.28.0",
+      "resolved": "https://registry.npmjs.org/@esbuild/linux-ia32/-/linux-ia32-0.28.0.tgz",
+      "integrity": "sha512-KBnSTt1kxl9x70q+ydterVdl+Cn0H18ngRMRCEQfrbqdUuntQQ0LoMZv47uB97NljZFzY6HcfqEZ2SAyIUTQBQ==",
       "cpu": [
         "ia32"
       ],
@@ -259,9 +261,9 @@
       }
     },
     "node_modules/@esbuild/linux-loong64": {
-      "version": "0.27.3",
-      "resolved": "https://registry.npmjs.org/@esbuild/linux-loong64/-/linux-loong64-0.27.3.tgz",
-      "integrity": "sha512-WO60Sn8ly3gtzhyjATDgieJNet/KqsDlX5nRC5Y3oTFcS1l0KWba+SEa9Ja1GfDqSF1z6hif/SkpQJbL63cgOA==",
+      "version": "0.28.0",
+      "resolved": "https://registry.npmjs.org/@esbuild/linux-loong64/-/linux-loong64-0.28.0.tgz",
+      "integrity": "sha512-zpSlUce1mnxzgBADvxKXX5sl8aYQHo2ezvMNI8I0lbblJtp8V4odlm3Yzlj7gPyt3T8ReksE6bK+pT3WD+aJRg==",
       "cpu": [
         "loong64"
       ],
@@ -276,9 +278,9 @@
       }
     },
     "node_modules/@esbuild/linux-mips64el": {
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-      "resolved": "https://registry.npmjs.org/retry/-/retry-0.12.0.tgz",
-      "integrity": "sha512-9LkiTwjUh6rT555DtE9rTX+BKByPfrMzEAtnlEtdEwr3Nkffwiihqe2bWADg+OQRjt9gl6ICdmB/ZFDCGAtSow==",
-      "dev": true,
-      "license": "MIT",
-      "engines": {
-        "node": ">= 4"
-      }
-    },
     "node_modules/punycode.js": {
       "version": "2.3.1",
       "resolved": "https://registry.npmjs.org/punycode.js/-/punycode.js-2.3.1.tgz",
@@ -3711,16 +4205,6 @@
       "dev": true,
       "license": "ISC"
     },
-    "node_modules/retry": {
-      "version": "0.13.1",
-      "resolved": "https://registry.npmjs.org/retry/-/retry-0.13.1.tgz",
-      "integrity": "sha512-XQBQ3I8W1Cge0Seh+6gjj03LbmRFWuoszgK9ooCpwYIrhhoO80pfq4cUkU5DkknwfOfFteRwlZ56PYOGYyFWdg==",
-      "dev": true,
-      "license": "MIT",
-      "engines": {
-        "node": ">= 4"
-      }
-    },
     "node_modules/rimraf": {
       "version": "6.1.3",
       "resolved": "https://registry.npmjs.org/rimraf/-/rimraf-6.1.3.tgz",
@@ -4186,9 +4670,9 @@
       }
     },
     "node_modules/tar": {
-      "version": "7.5.9",
-      "resolved": "https://registry.npmjs.org/tar/-/tar-7.5.9.tgz",
-      "integrity": "sha512-BTLcK0xsDh2+PUe9F6c2TlRp4zOOBMTkoQHQIWSIzI0R7KG46uEwq4OPk2W7bZcprBMsuaeFsqwYr7pjh6CuHg==",
+      "version": "7.5.13",
+      "resolved": "https://registry.npmjs.org/tar/-/tar-7.5.13.tgz",
+      "integrity": "sha512-tOG/7GyXpFevhXVh8jOPJrmtRpOTsYqUIkVdVooZYJS/z8WhfQUX8RJILmeuJNinGAMSu1veBr4asSHFt5/hng==",
       "dev": true,
       "license": "BlueOak-1.0.0",
       "dependencies": {
@@ -4257,9 +4741,9 @@
       "license": "MIT"
     },
     "node_modules/test-exclude/node_modules/brace-expansion": {
-      "version": "2.0.2",
-      "resolved": "https://registry.npmjs.org/brace-expansion/-/brace-expansion-2.0.2.tgz",
-      "integrity": "sha512-Jt0vHyM+jmUBqojB7E1NIYadt0vI0Qxjxd2TErW94wDz+E2LAm5vKMXXwg6ZZBTHPuUlDgQHKXvjGBdfcF1ZDQ==",
+      "version": "2.0.3",
+      "resolved": "https://registry.npmjs.org/brace-expansion/-/brace-expansion-2.0.3.tgz",
+      "integrity": "sha512-MCV/fYJEbqx68aE58kv2cA/kiky1G8vux3OR6/jbS+jIMe/6fJWa0DTzJU7dqijOWYwHi1t29FlfYI9uytqlpA==",
       "dev": true,
       "license": "MIT",
       "dependencies": {
@@ -4432,9 +4916,9 @@
       }
     },
     "node_modules/tshy": {
-      "version": "3.3.2",
-      "resolved": "https://registry.npmjs.org/tshy/-/tshy-3.3.2.tgz",
-      "integrity": "sha512-vOIXkqMtBWNjKUR/c99+6N50LhWdnKG1xE3+5wf8IPdzxx2lcIFPvbGgFdBBgoTMbdNb8mz06MUm7hY+TFnJcw==",
+      "version": "4.1.0",
+      "resolved": "https://registry.npmjs.org/tshy/-/tshy-4.1.0.tgz",
+      "integrity": "sha512-0aB7s1VIBSiMlEZIDJPG7NbDiLwqnp7zB7gMFt8ALV9HbtFDEC+Vv/+gjz2G/Eg1/lHxIlgwsPmuHRu542dGVw==",
       "dev": true,
       "license": "BlueOak-1.0.0",
       "dependencies": {
@@ -4449,7 +4933,7 @@
         "resolve-import": "^2.4.0",
         "rimraf": "^6.1.2",
         "sync-content": "^2.0.3",
-        "typescript": "^5.9.3",
+        "typescript": "^6.0.2",
         "walk-up-path": "^4.0.0"
       },
       "bin": {
@@ -4488,17 +4972,17 @@
       }
     },
     "node_modules/typedoc": {
-      "version": "0.28.17",
-      "resolved": "https://registry.npmjs.org/typedoc/-/typedoc-0.28.17.tgz",
-      "integrity": "sha512-ZkJ2G7mZrbxrKxinTQMjFqsCoYY6a5Luwv2GKbTnBCEgV2ihYm5CflA9JnJAwH0pZWavqfYxmDkFHPt4yx2oDQ==",
+      "version": "0.28.18",
+      "resolved": "https://registry.npmjs.org/typedoc/-/typedoc-0.28.18.tgz",
+      "integrity": "sha512-NTWTUOFRQ9+SGKKTuWKUioUkjxNwtS3JDRPVKZAXGHZy2wCA8bdv2iJiyeePn0xkmK+TCCqZFT0X7+2+FLjngA==",
       "dev": true,
       "license": "Apache-2.0",
       "dependencies": {
-        "@gerrit0/mini-shiki": "^3.17.0",
+        "@gerrit0/mini-shiki": "^3.23.0",
         "lunr": "^2.3.9",
-        "markdown-it": "^14.1.0",
-        "minimatch": "^9.0.5",
-        "yaml": "^2.8.1"
+        "markdown-it": "^14.1.1",
+        "minimatch": "^10.2.4",
+        "yaml": "^2.8.2"
       },
       "bin": {
         "typedoc": "bin/typedoc"
@@ -4508,46 +4992,13 @@
         "pnpm": ">= 10"
       },
       "peerDependencies": {
-        "typescript": "5.0.x || 5.1.x || 5.2.x || 5.3.x || 5.4.x || 5.5.x || 5.6.x || 5.7.x || 5.8.x || 5.9.x"
-      }
-    },
-    "node_modules/typedoc/node_modules/balanced-match": {
-      "version": "1.0.2",
-      "resolved": "https://registry.npmjs.org/balanced-match/-/balanced-match-1.0.2.tgz",
-      "integrity": "sha512-3oSeUO0TMV67hN1AmbXsK4yaqU7tjiHlbxRDZOpH0KW9+CeX4bRAaX0Anxt0tx2MrpRpWwQaPwIlISEJhYU5Pw==",
-      "dev": true,
-      "license": "MIT"
-    },
-    "node_modules/typedoc/node_modules/brace-expansion": {
-      "version": "2.0.2",
-      "resolved": "https://registry.npmjs.org/brace-expansion/-/brace-expansion-2.0.2.tgz",
-      "integrity": "sha512-Jt0vHyM+jmUBqojB7E1NIYadt0vI0Qxjxd2TErW94wDz+E2LAm5vKMXXwg6ZZBTHPuUlDgQHKXvjGBdfcF1ZDQ==",
-      "dev": true,
-      "license": "MIT",
-      "dependencies": {
-        "balanced-match": "^1.0.0"
-      }
-    },
-    "node_modules/typedoc/node_modules/minimatch": {
-      "version": "9.0.9",
-      "resolved": "https://registry.npmjs.org/minimatch/-/minimatch-9.0.9.tgz",
-      "integrity": "sha512-OBwBN9AL4dqmETlpS2zasx+vTeWclWzkblfZk7KTA5j3jeOONz/tRCnZomUyvNg83wL5Zv9Ss6HMJXAgL8R2Yg==",
-      "dev": true,
-      "license": "ISC",
-      "dependencies": {
-        "brace-expansion": "^2.0.2"
-      },
-      "engines": {
-        "node": ">=16 || 14 >=14.17"
-      },
-      "funding": {
-        "url": "https://github.com/sponsors/isaacs"
+        "typescript": "5.0.x || 5.1.x || 5.2.x || 5.3.x || 5.4.x || 5.5.x || 5.6.x || 5.7.x || 5.8.x || 5.9.x || 6.0.x"
       }
     },
     "node_modules/typescript": {
-      "version": "5.9.3",
-      "resolved": "https://registry.npmjs.org/typescript/-/typescript-5.9.3.tgz",
-      "integrity": "sha512-jl1vZzPDinLr9eUt3J/t7V6FgNEw9QjvBPdysz9KfQDD41fQrC2Y4vKQdiaUpFT4bXlb1RHhLpp8wtm6M5TgSw==",
+      "version": "6.0.2",
+      "resolved": "https://registry.npmjs.org/typescript/-/typescript-6.0.2.tgz",
+      "integrity": "sha512-bGdAIrZ0wiGDo5l8c++HWtbaNCWTS4UTv7RaTH/ThVIgjkveJt83m74bBHMJkuCbslY8ixgLBVZJIOiQlQTjfQ==",
       "dev": true,
       "license": "Apache-2.0",
       "bin": {
@@ -4572,32 +5023,6 @@
       "dev": true,
       "license": "MIT"
     },
-    "node_modules/unique-filename": {
-      "version": "5.0.0",
-      "resolved": "https://registry.npmjs.org/unique-filename/-/unique-filename-5.0.0.tgz",
-      "integrity": "sha512-2RaJTAvAb4owyjllTfXzFClJ7WsGxlykkPvCr9pA//LD9goVq+m4PPAeBgNodGZ7nSrntT/auWpJ6Y5IFXcfjg==",
-      "dev": true,
-      "license": "ISC",
-      "dependencies": {
-        "unique-slug": "^6.0.0"
-      },
-      "engines": {
-        "node": "^20.17.0 || >=22.9.0"
-      }
-    },
-    "node_modules/unique-slug": {
-      "version": "6.0.0",
-      "resolved": "https://registry.npmjs.org/unique-slug/-/unique-slug-6.0.0.tgz",
-      "integrity": "sha512-4Lup7Ezn8W3d52/xBhZBVdx323ckxa7DEvd9kPQHppTkLoJXw6ltrBCyj5pnrxj0qKDxYMJ56CoxNuFCscdTiw==",
-      "dev": true,
-      "license": "ISC",
-      "dependencies": {
-        "imurmurhash": "^0.1.4"
-      },
-      "engines": {
-        "node": "^20.17.0 || >=22.9.0"
-      }
-    },
     "node_modules/uuid": {
       "version": "8.3.2",
       "resolved": "https://registry.npmjs.org/uuid/-/uuid-8.3.2.tgz",
@@ -4802,9 +5227,9 @@
       }
     },
     "node_modules/ws": {
-      "version": "8.19.0",
-      "resolved": "https://registry.npmjs.org/ws/-/ws-8.19.0.tgz",
-      "integrity": "sha512-blAT2mjOEIi0ZzruJfIhb3nps74PRWTCz1IjglWEEpQl5XS/UNama6u2/rjFkDDouqr4L67ry+1aGIALViWjDg==",
+      "version": "8.20.0",
+      "resolved": "https://registry.npmjs.org/ws/-/ws-8.20.0.tgz",
+      "integrity": "sha512-sAt8BhgNbzCtgGbt2OxmpuryO63ZoDk/sqaB/znQm94T4fCEsy/yV+7CdC1kJhOU9lboAEU7R3kquuycDoibVA==",
       "dev": true,
       "license": "MIT",
       "engines": {
@@ -4844,9 +5269,9 @@
       }
     },
     "node_modules/yaml": {
-      "version": "2.8.2",
-      "resolved": "https://registry.npmjs.org/yaml/-/yaml-2.8.2.tgz",
-      "integrity": "sha512-mplynKqc1C2hTVYxd0PU2xQAc22TI1vShAYGksCCfxbn/dFwnHTNi1bvYsBTkhdUNtGIf5xNOg938rrSSYvS9A==",
+      "version": "2.8.3",
+      "resolved": "https://registry.npmjs.org/yaml/-/yaml-2.8.3.tgz",
+      "integrity": "sha512-AvbaCLOO2Otw/lW5bmh9d/WEdcDFdQp2Z2ZUH3pX9U2ihyUY0nvLv7J6TrWowklRGPYbB/IuIMfYgxaCPg5Bpg==",
       "dev": true,
       "license": "ISC",
       "bin": {
diff --git a/deps/minimatch/package.json b/deps/minimatch/package.json
index d4d13530281b7e..92cf6a604773d6 100644
--- a/deps/minimatch/package.json
+++ b/deps/minimatch/package.json
@@ -2,7 +2,7 @@
   "author": "Isaac Z. Schlueter  (http://blog.izs.me)",
   "name": "minimatch",
   "description": "a glob matcher in javascript",
-  "version": "10.2.4",
+  "version": "10.2.5",
   "repository": {
     "type": "git",
     "url": "git@github.com:isaacs/minimatch"
@@ -37,19 +37,24 @@
     "format": "prettier --write .",
     "benchmark": "node benchmark/index.js",
     "typedoc": "typedoc --tsconfig .tshy/esm.json ./src/*.ts",
+    "lint": "oxlint --fix src test",
+    "postsnap": "npm run lint",
+    "postlint": "npm run format",
     "node-build": "esbuild ./dist/commonjs/index.js --bundle --platform=node --outfile=index.js"
   },
   "engines": {
     "node": "18 || 20 || >=22"
   },
   "devDependencies": {
-    "@types/node": "^25.3.0",
-    "esbuild": "^0.27.3",
+    "@types/node": "^25.5.0",
+    "esbuild": "^0.28.0",
     "mkdirp": "^3.0.1",
-    "prettier": "^3.6.2",
+    "oxlint": "^1.57.0",
+    "oxlint-tsgolint": "^0.18.1",
+    "prettier": "^3.8.1",
     "tap": "^21.6.2",
-    "tshy": "^3.0.2",
-    "typedoc": "^0.28.5"
+    "tshy": "^4.0.0",
+    "typedoc": "^0.28.18"
   },
   "funding": {
     "url": "https://github.com/sponsors/isaacs"
@@ -59,11 +64,12 @@
     "exports": {
       "./package.json": "./package.json",
       ".": "./src/index.ts"
-    }
+    },
+    "selfLink": false
   },
   "type": "module",
   "module": "./dist/esm/index.js",
   "dependencies": {
-    "brace-expansion": "^5.0.2"
+    "brace-expansion": "^5.0.5"
   }
 }
diff --git a/deps/nbytes/.release-please-manifest.json b/deps/nbytes/.release-please-manifest.json
index c05df9b5541987..88f7c73eadc71b 100644
--- a/deps/nbytes/.release-please-manifest.json
+++ b/deps/nbytes/.release-please-manifest.json
@@ -1,3 +1,3 @@
 {
-  ".": "0.1.3"
+  ".": "0.1.4"
 }
diff --git a/deps/nbytes/CHANGELOG.md b/deps/nbytes/CHANGELOG.md
index 067a946eb30cbd..5a740eb2350667 100644
--- a/deps/nbytes/CHANGELOG.md
+++ b/deps/nbytes/CHANGELOG.md
@@ -1,5 +1,12 @@
 # Changelog
 
+## [0.1.4](https://github.com/nodejs/nbytes/compare/v0.1.3...v0.1.4) (2026-04-09)
+
+
+### Bug Fixes
+
+* **build:** add `NBYTES_ENABLE_TESTING` CMake option ([#15](https://github.com/nodejs/nbytes/issues/15)) ([e1c6be3](https://github.com/nodejs/nbytes/commit/e1c6be3ed112f2375207c7626e10961e92d3f69f))
+
 ## [0.1.3](https://github.com/nodejs/nbytes/compare/v0.1.2...v0.1.3) (2026-02-18)
 
 
diff --git a/deps/nbytes/CMakeLists.txt b/deps/nbytes/CMakeLists.txt
index 5ac0e31aaa4fce..b3d7c897b91ed4 100644
--- a/deps/nbytes/CMakeLists.txt
+++ b/deps/nbytes/CMakeLists.txt
@@ -1,5 +1,5 @@
 cmake_minimum_required(VERSION 3.28)
-project(nbytes VERSION 0.1.3) # x-release-please-version
+project(nbytes VERSION 0.1.4) # x-release-please-version
 
 set(CMAKE_CXX_STANDARD 20)
 set(CMAKE_CXX_STANDARD_REQUIRED True)
@@ -12,18 +12,26 @@ option(NBYTES_DEVELOPMENT_CHECKS "Enable development checks" OFF)
 
 include(GNUInstallDirs)
 include(FetchContent)
+include(CTest)
+
+option(NBYTES_ENABLE_TESTING "Enable testing" ${BUILD_TESTING})
 
-FetchContent_Declare(
-  googletest
-  URL https://github.com/google/googletest/archive/03597a01ee50ed33e9dfd640b249b4be3799d395.zip
-)
-# For Windows: Prevent overriding the parent project's compiler/linker settings
-set(gtest_force_shared_crt ON CACHE BOOL "" FORCE)
-FetchContent_MakeAvailable(googletest)
 
 add_subdirectory(src)
-enable_testing()
-add_subdirectory(tests)
+
+if (NBYTES_ENABLE_TESTING)
+  FetchContent_Declare(
+    googletest
+    URL https://github.com/google/googletest/archive/03597a01ee50ed33e9dfd640b249b4be3799d395.zip
+    URL_HASH SHA256=edd885a1ab32b6999515a880f669efadb80b3f880215f315985fa3f6eca7c4d3
+    FIND_PACKAGE_ARGS NAMES GTest
+  )
+  # For Windows: Prevent overriding the parent project's compiler/linker settings
+  set(gtest_force_shared_crt ON CACHE BOOL "" FORCE)
+  FetchContent_MakeAvailable(googletest)
+
+  add_subdirectory(tests)
+endif()
 
 install(
   FILES include/nbytes.h
diff --git a/deps/nbytes/include/nbytes.h b/deps/nbytes/include/nbytes.h
index 3a2bcc605bfa58..27f1449c620124 100644
--- a/deps/nbytes/include/nbytes.h
+++ b/deps/nbytes/include/nbytes.h
@@ -836,12 +836,12 @@ size_t SearchString(const char *haystack, size_t haystack_length,
 
 // ============================================================================
 // Version metadata
-#define NBYTES_VERSION "0.1.3"  // x-release-please-version
+#define NBYTES_VERSION "0.1.4"  // x-release-please-version
 
 enum {
   NBYTES_VERSION_MAJOR = 0,     // x-release-please-major
   NBYTES_VERSION_MINOR = 1,     // x-release-please-minor
-  NBYTES_VERSION_REVISION = 3,  // x-release-please-patch
+  NBYTES_VERSION_REVISION = 4,  // x-release-please-patch
 };
 
 }  // namespace nbytes
diff --git a/deps/ncrypto/ncrypto.cc b/deps/ncrypto/ncrypto.cc
index 46d8ce128a6fa3..e0a5816970ec16 100644
--- a/deps/ncrypto/ncrypto.cc
+++ b/deps/ncrypto/ncrypto.cc
@@ -2820,8 +2820,38 @@ bool ECKeyPointer::setPublicKey(const ECPointPointer& pub) {
 bool ECKeyPointer::setPublicKeyRaw(const BignumPointer& x,
                                    const BignumPointer& y) {
   if (!key_) return false;
-  return EC_KEY_set_public_key_affine_coordinates(
-             key_.get(), x.get(), y.get()) == 1;
+  const EC_GROUP* group = EC_KEY_get0_group(key_.get());
+  if (group == nullptr) return false;
+
+  // For curves with cofactor h=1, use EC_POINT_oct2point +
+  // EC_KEY_set_public_key instead of EC_KEY_set_public_key_affine_coordinates.
+  // The latter internally calls EC_KEY_check_key() which performs a scalar
+  // multiplication (n*Q) for order validation — redundant when h=1 since every
+  // on-curve point already has order n. EC_POINT_oct2point validates the point
+  // is on the curve, which is sufficient. For curves with h!=1, fall back to
+  // the full check.
+  auto cofactor = BignumPointer::New();
+  if (!cofactor || !EC_GROUP_get_cofactor(group, cofactor.get(), nullptr) ||
+      !cofactor.isOne()) {
+    return EC_KEY_set_public_key_affine_coordinates(
+               key_.get(), x.get(), y.get()) == 1;
+  }
+
+  // Field element byte length: ceil(degree_bits / 8).
+  size_t field_len = (EC_GROUP_get_degree(group) + 7) / 8;
+  // Build an uncompressed point: 0x04 || x || y, each padded to field_len.
+  size_t uncompressed_len = 1 + 2 * field_len;
+  auto buf = DataPointer::Alloc(uncompressed_len);
+  if (!buf) return false;
+  unsigned char* ptr = static_cast(buf.get());
+  ptr[0] = POINT_CONVERSION_UNCOMPRESSED;
+  x.encodePaddedInto(ptr + 1, field_len);
+  y.encodePaddedInto(ptr + 1 + field_len, field_len);
+
+  auto point = ECPointPointer::New(group);
+  if (!point) return false;
+  if (!point.setFromBuffer({ptr, uncompressed_len}, group)) return false;
+  return EC_KEY_set_public_key(key_.get(), point.get()) == 1;
 }
 
 bool ECKeyPointer::setPrivateKey(const BignumPointer& priv) {
diff --git a/deps/simdjson/simdjson.cpp b/deps/simdjson/simdjson.cpp
index 8f3305987681e6..6fa9693596be0c 100644
--- a/deps/simdjson/simdjson.cpp
+++ b/deps/simdjson/simdjson.cpp
@@ -1,4 +1,4 @@
-/* auto-generated on 2026-03-25 17:25:37 -0400. version 4.5.0 Do not edit! */
+/* auto-generated on 2026-05-06 17:28:39 -0400. version 4.6.4 Do not edit! */
 /* including simdjson.cpp:  */
 /* begin file simdjson.cpp */
 #define SIMDJSON_SRC_SIMDJSON_CPP
diff --git a/deps/simdjson/simdjson.h b/deps/simdjson/simdjson.h
index 3a413a7d1e046e..b9befc5b17ed3c 100644
--- a/deps/simdjson/simdjson.h
+++ b/deps/simdjson/simdjson.h
@@ -1,4 +1,4 @@
-/* auto-generated on 2026-03-25 17:25:37 -0400. version 4.5.0 Do not edit! */
+/* auto-generated on 2026-05-06 17:28:39 -0400. version 4.6.4 Do not edit! */
 /* including simdjson.h:  */
 /* begin file simdjson.h */
 #ifndef SIMDJSON_H
@@ -2538,7 +2538,7 @@ namespace std {
 #define SIMDJSON_SIMDJSON_VERSION_H
 
 /** The version of simdjson being used (major.minor.revision) */
-#define SIMDJSON_VERSION "4.5.0"
+#define SIMDJSON_VERSION "4.6.4"
 
 namespace simdjson {
 enum {
@@ -2549,11 +2549,11 @@ enum {
   /**
    * The minor version (major.MINOR.revision) of simdjson being used.
    */
-  SIMDJSON_VERSION_MINOR = 5,
+  SIMDJSON_VERSION_MINOR = 6,
   /**
    * The revision (major.minor.REVISION) of simdjson being used.
    */
-  SIMDJSON_VERSION_REVISION = 0
+  SIMDJSON_VERSION_REVISION = 4
 };
 } // namespace simdjson
 
@@ -4846,10 +4846,13 @@ inline padded_string::operator padded_string_view() const noexcept simdjson_life
 }
 
 inline simdjson_result padded_string::load(std::string_view filename) noexcept {
+  // std::string_view is not guaranteed to be null-terminated, but std::fopen requires
+  // a null-terminated C string. Construct a temporary std::string to ensure null-termination.
+  const std::string null_terminated_filename(filename);
   // Open the file
   SIMDJSON_PUSH_DISABLE_WARNINGS
   SIMDJSON_DISABLE_DEPRECATED_WARNING // Disable CRT_SECURE warning on MSVC: manually verified this is safe
-  std::FILE *fp = std::fopen(filename.data(), "rb");
+  std::FILE *fp = std::fopen(null_terminated_filename.c_str(), "rb");
   SIMDJSON_POP_DISABLE_WARNINGS
 
   if (fp == nullptr) {
@@ -4901,10 +4904,13 @@ inline simdjson_result padded_string::load(std::string_view filen
 
 #if defined(_WIN32) && SIMDJSON_CPLUSPLUS17
 inline simdjson_result padded_string::load(std::wstring_view filename) noexcept {
+  // std::wstring_view is not guaranteed to be null-terminated, but _wfopen requires
+  // a null-terminated wide C string. Construct a temporary std::wstring to ensure null-termination.
+  const std::wstring null_terminated_filename(filename);
   // Open the file using the wide characters
   SIMDJSON_PUSH_DISABLE_WARNINGS
   SIMDJSON_DISABLE_DEPRECATED_WARNING // Disable CRT_SECURE warning on MSVC: manually verified this is safe
-  std::FILE *fp = _wfopen(filename.data(), L"rb");
+  std::FILE *fp = _wfopen(null_terminated_filename.c_str(), L"rb");
   SIMDJSON_POP_DISABLE_WARNINGS
 
   if (fp == nullptr) {
@@ -5027,6 +5033,9 @@ inline padded_string padded_string_builder::convert() noexcept {
 }
 
 inline bool padded_string_builder::reserve(size_t additional) noexcept {
+  if (simdjson_unlikely(additional + size < size)) {
+    return false; // overflow: cannot satisfy request
+  }
   size_t needed = size + additional;
   if (needed <= capacity) {
     return true;
@@ -5036,8 +5045,9 @@ inline bool padded_string_builder::reserve(size_t additional) noexcept {
   // repeated allocations.
   if (new_capacity < 4096) {
     new_capacity *= 2;
-  } else {
-    new_capacity += new_capacity/2; // grow by 1.5x
+    // overflow guard: ensure new_capacity + new_capacity/2 does not overflow
+  } else if (new_capacity + new_capacity / 2 > new_capacity) {
+    new_capacity += new_capacity / 2; // grow by 1.5x
   }
   char *new_data = internal::allocate_padded_buffer(new_capacity);
   if (new_data == nullptr) {
@@ -9488,10 +9498,11 @@ inline bool parser::dump_raw_tape(std::ostream &os) const noexcept {
 }
 
 inline simdjson_result parser::read_file(std::string_view path) noexcept {
+  const std::string path_copy(path);
   // Open the file
   SIMDJSON_PUSH_DISABLE_WARNINGS
   SIMDJSON_DISABLE_DEPRECATED_WARNING // Disable CRT_SECURE warning on MSVC: manually verified this is safe
-  std::FILE *fp = std::fopen(path.data(), "rb");
+  std::FILE *fp = std::fopen(path_copy.c_str(), "rb");
   SIMDJSON_POP_DISABLE_WARNINGS
 
   if (fp == nullptr) {
@@ -39783,6 +39794,7 @@ simdjson_warn_unused simdjson_result extract_fractured_json(
 /* begin file simdjson/generic/builder/json_string_builder-inl.h for arm64 */
 #include 
 #include 
+#include 
 #include 
 #ifndef SIMDJSON_GENERIC_STRING_BUILDER_INL_H
 
@@ -40538,6 +40550,11 @@ simdjson_inline void string_builder::append(number_type v) noexcept {
 simdjson_inline void
 string_builder::escape_and_append(std::string_view input) noexcept {
   // escaping might turn a control character into \x00xx so 6 characters.
+  // Guard against size_t overflow in the multiplication below.
+  if (input.size() > (std::numeric_limits::max)() / 6) {
+    set_valid(false);
+    return;
+  }
   if (capacity_check(6 * input.size())) {
     position += write_string_escaped(input, buffer.get() + position);
   }
@@ -40546,6 +40563,11 @@ string_builder::escape_and_append(std::string_view input) noexcept {
 simdjson_inline void
 string_builder::escape_and_append_with_quotes(std::string_view input) noexcept {
   // escaping might turn a control character into \x00xx so 6 characters.
+  // Guard against size_t overflow in the arithmetic below.
+  if (input.size() > ((std::numeric_limits::max)() - 2) / 6) {
+    set_valid(false);
+    return;
+  }
   if (capacity_check(2 + 6 * input.size())) {
     buffer.get()[position++] = '"';
     position += write_string_escaped(input, buffer.get() + position);
@@ -41867,6 +41889,7 @@ simdjson_warn_unused simdjson_result extract_fractured_json(
 /* begin file simdjson/generic/builder/json_string_builder-inl.h for fallback */
 #include 
 #include 
+#include 
 #include 
 #ifndef SIMDJSON_GENERIC_STRING_BUILDER_INL_H
 
@@ -42622,6 +42645,11 @@ simdjson_inline void string_builder::append(number_type v) noexcept {
 simdjson_inline void
 string_builder::escape_and_append(std::string_view input) noexcept {
   // escaping might turn a control character into \x00xx so 6 characters.
+  // Guard against size_t overflow in the multiplication below.
+  if (input.size() > (std::numeric_limits::max)() / 6) {
+    set_valid(false);
+    return;
+  }
   if (capacity_check(6 * input.size())) {
     position += write_string_escaped(input, buffer.get() + position);
   }
@@ -42630,6 +42658,11 @@ string_builder::escape_and_append(std::string_view input) noexcept {
 simdjson_inline void
 string_builder::escape_and_append_with_quotes(std::string_view input) noexcept {
   // escaping might turn a control character into \x00xx so 6 characters.
+  // Guard against size_t overflow in the arithmetic below.
+  if (input.size() > ((std::numeric_limits::max)() - 2) / 6) {
+    set_valid(false);
+    return;
+  }
   if (capacity_check(2 + 6 * input.size())) {
     buffer.get()[position++] = '"';
     position += write_string_escaped(input, buffer.get() + position);
@@ -44438,6 +44471,7 @@ simdjson_warn_unused simdjson_result extract_fractured_json(
 /* begin file simdjson/generic/builder/json_string_builder-inl.h for haswell */
 #include 
 #include 
+#include 
 #include 
 #ifndef SIMDJSON_GENERIC_STRING_BUILDER_INL_H
 
@@ -45193,6 +45227,11 @@ simdjson_inline void string_builder::append(number_type v) noexcept {
 simdjson_inline void
 string_builder::escape_and_append(std::string_view input) noexcept {
   // escaping might turn a control character into \x00xx so 6 characters.
+  // Guard against size_t overflow in the multiplication below.
+  if (input.size() > (std::numeric_limits::max)() / 6) {
+    set_valid(false);
+    return;
+  }
   if (capacity_check(6 * input.size())) {
     position += write_string_escaped(input, buffer.get() + position);
   }
@@ -45201,6 +45240,11 @@ string_builder::escape_and_append(std::string_view input) noexcept {
 simdjson_inline void
 string_builder::escape_and_append_with_quotes(std::string_view input) noexcept {
   // escaping might turn a control character into \x00xx so 6 characters.
+  // Guard against size_t overflow in the arithmetic below.
+  if (input.size() > ((std::numeric_limits::max)() - 2) / 6) {
+    set_valid(false);
+    return;
+  }
   if (capacity_check(2 + 6 * input.size())) {
     buffer.get()[position++] = '"';
     position += write_string_escaped(input, buffer.get() + position);
@@ -47009,6 +47053,7 @@ simdjson_warn_unused simdjson_result extract_fractured_json(
 /* begin file simdjson/generic/builder/json_string_builder-inl.h for icelake */
 #include 
 #include 
+#include 
 #include 
 #ifndef SIMDJSON_GENERIC_STRING_BUILDER_INL_H
 
@@ -47764,6 +47809,11 @@ simdjson_inline void string_builder::append(number_type v) noexcept {
 simdjson_inline void
 string_builder::escape_and_append(std::string_view input) noexcept {
   // escaping might turn a control character into \x00xx so 6 characters.
+  // Guard against size_t overflow in the multiplication below.
+  if (input.size() > (std::numeric_limits::max)() / 6) {
+    set_valid(false);
+    return;
+  }
   if (capacity_check(6 * input.size())) {
     position += write_string_escaped(input, buffer.get() + position);
   }
@@ -47772,6 +47822,11 @@ string_builder::escape_and_append(std::string_view input) noexcept {
 simdjson_inline void
 string_builder::escape_and_append_with_quotes(std::string_view input) noexcept {
   // escaping might turn a control character into \x00xx so 6 characters.
+  // Guard against size_t overflow in the arithmetic below.
+  if (input.size() > ((std::numeric_limits::max)() - 2) / 6) {
+    set_valid(false);
+    return;
+  }
   if (capacity_check(2 + 6 * input.size())) {
     buffer.get()[position++] = '"';
     position += write_string_escaped(input, buffer.get() + position);
@@ -49695,6 +49750,7 @@ simdjson_warn_unused simdjson_result extract_fractured_json(
 /* begin file simdjson/generic/builder/json_string_builder-inl.h for ppc64 */
 #include 
 #include 
+#include 
 #include 
 #ifndef SIMDJSON_GENERIC_STRING_BUILDER_INL_H
 
@@ -50450,6 +50506,11 @@ simdjson_inline void string_builder::append(number_type v) noexcept {
 simdjson_inline void
 string_builder::escape_and_append(std::string_view input) noexcept {
   // escaping might turn a control character into \x00xx so 6 characters.
+  // Guard against size_t overflow in the multiplication below.
+  if (input.size() > (std::numeric_limits::max)() / 6) {
+    set_valid(false);
+    return;
+  }
   if (capacity_check(6 * input.size())) {
     position += write_string_escaped(input, buffer.get() + position);
   }
@@ -50458,6 +50519,11 @@ string_builder::escape_and_append(std::string_view input) noexcept {
 simdjson_inline void
 string_builder::escape_and_append_with_quotes(std::string_view input) noexcept {
   // escaping might turn a control character into \x00xx so 6 characters.
+  // Guard against size_t overflow in the arithmetic below.
+  if (input.size() > ((std::numeric_limits::max)() - 2) / 6) {
+    set_valid(false);
+    return;
+  }
   if (capacity_check(2 + 6 * input.size())) {
     buffer.get()[position++] = '"';
     position += write_string_escaped(input, buffer.get() + position);
@@ -52698,6 +52764,7 @@ simdjson_warn_unused simdjson_result extract_fractured_json(
 /* begin file simdjson/generic/builder/json_string_builder-inl.h for westmere */
 #include 
 #include 
+#include 
 #include 
 #ifndef SIMDJSON_GENERIC_STRING_BUILDER_INL_H
 
@@ -53453,6 +53520,11 @@ simdjson_inline void string_builder::append(number_type v) noexcept {
 simdjson_inline void
 string_builder::escape_and_append(std::string_view input) noexcept {
   // escaping might turn a control character into \x00xx so 6 characters.
+  // Guard against size_t overflow in the multiplication below.
+  if (input.size() > (std::numeric_limits::max)() / 6) {
+    set_valid(false);
+    return;
+  }
   if (capacity_check(6 * input.size())) {
     position += write_string_escaped(input, buffer.get() + position);
   }
@@ -53461,6 +53533,11 @@ string_builder::escape_and_append(std::string_view input) noexcept {
 simdjson_inline void
 string_builder::escape_and_append_with_quotes(std::string_view input) noexcept {
   // escaping might turn a control character into \x00xx so 6 characters.
+  // Guard against size_t overflow in the arithmetic below.
+  if (input.size() > ((std::numeric_limits::max)() - 2) / 6) {
+    set_valid(false);
+    return;
+  }
   if (capacity_check(2 + 6 * input.size())) {
     buffer.get()[position++] = '"';
     position += write_string_escaped(input, buffer.get() + position);
@@ -55175,6 +55252,7 @@ simdjson_warn_unused simdjson_result extract_fractured_json(
 /* begin file simdjson/generic/builder/json_string_builder-inl.h for lsx */
 #include 
 #include 
+#include 
 #include 
 #ifndef SIMDJSON_GENERIC_STRING_BUILDER_INL_H
 
@@ -55930,6 +56008,11 @@ simdjson_inline void string_builder::append(number_type v) noexcept {
 simdjson_inline void
 string_builder::escape_and_append(std::string_view input) noexcept {
   // escaping might turn a control character into \x00xx so 6 characters.
+  // Guard against size_t overflow in the multiplication below.
+  if (input.size() > (std::numeric_limits::max)() / 6) {
+    set_valid(false);
+    return;
+  }
   if (capacity_check(6 * input.size())) {
     position += write_string_escaped(input, buffer.get() + position);
   }
@@ -55938,6 +56021,11 @@ string_builder::escape_and_append(std::string_view input) noexcept {
 simdjson_inline void
 string_builder::escape_and_append_with_quotes(std::string_view input) noexcept {
   // escaping might turn a control character into \x00xx so 6 characters.
+  // Guard against size_t overflow in the arithmetic below.
+  if (input.size() > ((std::numeric_limits::max)() - 2) / 6) {
+    set_valid(false);
+    return;
+  }
   if (capacity_check(2 + 6 * input.size())) {
     buffer.get()[position++] = '"';
     position += write_string_escaped(input, buffer.get() + position);
@@ -57675,6 +57763,7 @@ simdjson_warn_unused simdjson_result extract_fractured_json(
 /* begin file simdjson/generic/builder/json_string_builder-inl.h for lasx */
 #include 
 #include 
+#include 
 #include 
 #ifndef SIMDJSON_GENERIC_STRING_BUILDER_INL_H
 
@@ -58430,6 +58519,11 @@ simdjson_inline void string_builder::append(number_type v) noexcept {
 simdjson_inline void
 string_builder::escape_and_append(std::string_view input) noexcept {
   // escaping might turn a control character into \x00xx so 6 characters.
+  // Guard against size_t overflow in the multiplication below.
+  if (input.size() > (std::numeric_limits::max)() / 6) {
+    set_valid(false);
+    return;
+  }
   if (capacity_check(6 * input.size())) {
     position += write_string_escaped(input, buffer.get() + position);
   }
@@ -58438,6 +58532,11 @@ string_builder::escape_and_append(std::string_view input) noexcept {
 simdjson_inline void
 string_builder::escape_and_append_with_quotes(std::string_view input) noexcept {
   // escaping might turn a control character into \x00xx so 6 characters.
+  // Guard against size_t overflow in the arithmetic below.
+  if (input.size() > ((std::numeric_limits::max)() - 2) / 6) {
+    set_valid(false);
+    return;
+  }
   if (capacity_check(2 + 6 * input.size())) {
     buffer.get()[position++] = '"';
     position += write_string_escaped(input, buffer.get() + position);
@@ -60179,6 +60278,7 @@ simdjson_warn_unused simdjson_result extract_fractured_json(
 /* begin file simdjson/generic/builder/json_string_builder-inl.h for rvv_vls */
 #include 
 #include 
+#include 
 #include 
 #ifndef SIMDJSON_GENERIC_STRING_BUILDER_INL_H
 
@@ -60934,6 +61034,11 @@ simdjson_inline void string_builder::append(number_type v) noexcept {
 simdjson_inline void
 string_builder::escape_and_append(std::string_view input) noexcept {
   // escaping might turn a control character into \x00xx so 6 characters.
+  // Guard against size_t overflow in the multiplication below.
+  if (input.size() > (std::numeric_limits::max)() / 6) {
+    set_valid(false);
+    return;
+  }
   if (capacity_check(6 * input.size())) {
     position += write_string_escaped(input, buffer.get() + position);
   }
@@ -60942,6 +61047,11 @@ string_builder::escape_and_append(std::string_view input) noexcept {
 simdjson_inline void
 string_builder::escape_and_append_with_quotes(std::string_view input) noexcept {
   // escaping might turn a control character into \x00xx so 6 characters.
+  // Guard against size_t overflow in the arithmetic below.
+  if (input.size() > ((std::numeric_limits::max)() - 2) / 6) {
+    set_valid(false);
+    return;
+  }
   if (capacity_check(2 + 6 * input.size())) {
     buffer.get()[position++] = '"';
     position += write_string_escaped(input, buffer.get() + position);
@@ -62964,6 +63074,28 @@ class value {
    */
   simdjson_inline simdjson_result get_int64_in_string() noexcept;
 
+  /**
+   * Cast this JSON value to a 32-bit unsigned integer.
+   *
+   * Calls get_uint64() and checks that the result fits in a uint32_t.
+   *
+   * @returns A 32-bit unsigned integer.
+   * @returns INCORRECT_TYPE If the JSON value is not an unsigned integer.
+   * @returns NUMBER_OUT_OF_RANGE If the value does not fit in a uint32_t.
+   */
+  simdjson_inline simdjson_result get_uint32() noexcept;
+
+  /**
+   * Cast this JSON value to a 32-bit signed integer.
+   *
+   * Calls get_int64() and checks that the result fits in an int32_t.
+   *
+   * @returns A 32-bit signed integer.
+   * @returns INCORRECT_TYPE If the JSON value is not an integer.
+   * @returns NUMBER_OUT_OF_RANGE If the value does not fit in an int32_t.
+   */
+  simdjson_inline simdjson_result get_int32() noexcept;
+
   /**
    * Cast this JSON value to a double.
    *
@@ -63479,13 +63611,21 @@ class value {
   simdjson_inline simdjson_result at_path(std::string_view at_path) noexcept;
 
   /**
-   * Get all values matching the given JSONPath expression with wildcard support.
+   * Call the provided callback for each value matching the given JSONPath
+   * expression with wildcard support.
    * Supports wildcard character (*) for arrays or ".*" for objects.
    *
    * @param json_path JSONPath expression with wildcards
-   * @return Vector of values matching the wildcard pattern
+   * @param callback Function called for each matching value
+   * @return error_code indicating success or failure
    */
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 
 protected:
   /**
@@ -63549,6 +63689,8 @@ struct simdjson_result : public arm64::implementation_si
   simdjson_inline simdjson_result get_uint64_in_string() noexcept;
   simdjson_inline simdjson_result get_int64() noexcept;
   simdjson_inline simdjson_result get_int64_in_string() noexcept;
+  simdjson_inline simdjson_result get_uint32() noexcept;
+  simdjson_inline simdjson_result get_int32() noexcept;
   simdjson_inline simdjson_result get_double() noexcept;
   simdjson_inline simdjson_result get_double_in_string() noexcept;
   simdjson_inline simdjson_result get_string(bool allow_replacement = false) noexcept;
@@ -63676,9 +63818,23 @@ struct simdjson_result : public arm64::implementation_si
   simdjson_inline simdjson_result current_depth() const noexcept;
   simdjson_inline simdjson_result at_pointer(std::string_view json_pointer) noexcept;
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 };
 
+// Forward-declare explicit specializations so MSVC /permissive- sees them before
+// any template instantiation that would resolve element.get(val) to the primary.
+template<> simdjson_inline error_code
+simdjson_result::get(
+    arm64::ondemand::value &out) noexcept;
+template<> simdjson_inline simdjson_result
+simdjson_result::get() noexcept;
+
 } // namespace simdjson
 
 #endif // SIMDJSON_GENERIC_ONDEMAND_VALUE_H
@@ -65017,8 +65173,6 @@ class parser {
   static simdjson_inline bool release_parser();
 
 private:
-  friend bool release_parser();
-  friend ondemand::parser& get_parser();
   /** Get the thread-local parser instance, allocates it if needed */
   static simdjson_inline simdjson_warn_unused std::unique_ptr& get_parser_instance();
   /** Get the thread-local parser instance, it might be null */
@@ -65181,13 +65335,21 @@ class array {
   inline simdjson_result at_path(std::string_view json_path) noexcept;
 
   /**
-   * Get all values matching the given JSONPath expression with wildcard support.
+   * Call the provided callback for each value matching the given JSONPath
+   * expression with wildcard support.
    * Supports wildcard patterns like "[*]" to match all array elements.
    *
    * @param json_path JSONPath expression with wildcards
-   * @return Vector of values matching the wildcard pattern
+   * @param callback Function called for each matching value
+   * @return error_code indicating success or failure
   */
-  inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 
   /**
    * Consumes the array and returns a string_view instance corresponding to the
@@ -65311,7 +65473,13 @@ struct simdjson_result : public arm64::implementation_si
   simdjson_inline simdjson_result at(size_t index) noexcept;
   simdjson_inline simdjson_result at_pointer(std::string_view json_pointer) noexcept;
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
   simdjson_inline simdjson_result raw_json() noexcept;
 #if SIMDJSON_SUPPORTS_CONCEPTS
   // TODO: move this code into object-inl.h
@@ -65543,6 +65711,26 @@ class document {
    * @returns INCORRECT_TYPE If the JSON value is not a 64-bit integer.
    */
   simdjson_inline simdjson_result get_int64_in_string() noexcept;
+  /**
+   * Cast this JSON value to a 32-bit unsigned integer.
+   *
+   * Calls get_uint64() and checks that the result fits in a uint32_t.
+   *
+   * @returns A 32-bit unsigned integer.
+   * @returns INCORRECT_TYPE If the JSON value is not an unsigned integer.
+   * @returns NUMBER_OUT_OF_RANGE If the value does not fit in a uint32_t.
+   */
+  simdjson_inline simdjson_result get_uint32() noexcept;
+  /**
+   * Cast this JSON value to a 32-bit signed integer.
+   *
+   * Calls get_int64() and checks that the result fits in an int32_t.
+   *
+   * @returns A 32-bit signed integer.
+   * @returns INCORRECT_TYPE If the JSON value is not an integer.
+   * @returns NUMBER_OUT_OF_RANGE If the value does not fit in an int32_t.
+   */
+  simdjson_inline simdjson_result get_int32() noexcept;
   /**
    * Cast this JSON value to a double.
    *
@@ -66191,21 +66379,24 @@ class document {
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
 
   /**
-   * Get all values matching the given JSONPath expression with wildcard support.
+   * Call the provided callback for each value matching the given JSONPath
+   * expression with wildcard support.
    *
    * Supports wildcard patterns like "$.array[*]" or "$.object.*" to match multiple elements.
    *
-   * This method materializes all matching values into a vector.
    * The document will be consumed after this call.
    *
    * @param json_path JSONPath expression with wildcards
-   * @return Vector of values matching the wildcard pattern, or:
-   *         - INVALID_JSON_POINTER if the JSONPath cannot be parsed
-   *         - NO_SUCH_FIELD if a field does not exist
-   *         - INDEX_OUT_OF_BOUNDS if an array index is out of bounds
-   *         - INCORRECT_TYPE if path traversal encounters wrong type
+   * @param callback Function called for each matching value
+   * @return error_code indicating success or failure
    */
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 
   /**
    * Consumes the document and returns a string_view instance corresponding to the
@@ -66296,6 +66487,8 @@ class document_reference {
   simdjson_inline simdjson_result get_uint64_in_string() noexcept;
   simdjson_inline simdjson_result get_int64() noexcept;
   simdjson_inline simdjson_result get_int64_in_string() noexcept;
+  simdjson_inline simdjson_result get_uint32() noexcept;
+  simdjson_inline simdjson_result get_int32() noexcept;
   simdjson_inline simdjson_result get_double() noexcept;
   simdjson_inline simdjson_result get_double_in_string() noexcept;
   simdjson_inline simdjson_result get_string(bool allow_replacement = false) noexcept;
@@ -66424,7 +66617,13 @@ class document_reference {
   simdjson_inline simdjson_result raw_json_token() noexcept;
   simdjson_inline simdjson_result at_pointer(std::string_view json_pointer) noexcept;
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 
 private:
   document *doc{nullptr};
@@ -66449,6 +66648,8 @@ struct simdjson_result : public arm64::implementation
   simdjson_inline simdjson_result get_uint64_in_string() noexcept;
   simdjson_inline simdjson_result get_int64() noexcept;
   simdjson_inline simdjson_result get_int64_in_string() noexcept;
+  simdjson_inline simdjson_result get_uint32() noexcept;
+  simdjson_inline simdjson_result get_int32() noexcept;
   simdjson_inline simdjson_result get_double() noexcept;
   simdjson_inline simdjson_result get_double_in_string() noexcept;
   simdjson_inline simdjson_result get_string(bool allow_replacement = false) noexcept;
@@ -66508,7 +66709,13 @@ struct simdjson_result : public arm64::implementation
 
   simdjson_inline simdjson_result at_pointer(std::string_view json_pointer) noexcept;
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 #if SIMDJSON_STATIC_REFLECTION
   template
     requires(std::is_class_v && (sizeof...(FieldNames) > 0))
@@ -66536,6 +66743,8 @@ struct simdjson_result : public arm64::impl
   simdjson_inline simdjson_result get_uint64_in_string() noexcept;
   simdjson_inline simdjson_result get_int64() noexcept;
   simdjson_inline simdjson_result get_int64_in_string() noexcept;
+  simdjson_inline simdjson_result get_uint32() noexcept;
+  simdjson_inline simdjson_result get_int32() noexcept;
   simdjson_inline simdjson_result get_double() noexcept;
   simdjson_inline simdjson_result get_double_in_string() noexcept;
   simdjson_inline simdjson_result get_string(bool allow_replacement = false) noexcept;
@@ -66591,7 +66800,13 @@ struct simdjson_result : public arm64::impl
 
   simdjson_inline simdjson_result at_pointer(std::string_view json_pointer) noexcept;
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 #if SIMDJSON_STATIC_REFLECTION
   template
     requires(std::is_class_v && (sizeof...(FieldNames) > 0))
@@ -67244,13 +67459,21 @@ class object {
   inline simdjson_result at_path(std::string_view json_path) noexcept;
 
   /**
-   * Get all values matching the given JSONPath expression with wildcard support.
+   * Call the provided callback for each value matching the given JSONPath
+   * expression with wildcard support.
    * Supports wildcard patterns like ".*" to match all object fields.
    *
    * @param json_path JSONPath expression with wildcards
-   * @return Vector of values matching the wildcard pattern
+   * @param callback Function called for each matching value
+   * @return error_code indicating success or failure
   */
-  inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 
   /**
    * Reset the iterator so that we are pointing back at the
@@ -67400,7 +67623,13 @@ struct simdjson_result : public arm64::implementation_s
   simdjson_inline simdjson_result operator[](std::string_view key) && noexcept;
   simdjson_inline simdjson_result at_pointer(std::string_view json_pointer) noexcept;
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
   inline simdjson_result reset() noexcept;
   inline simdjson_result is_empty() noexcept;
   inline simdjson_result count_fields() & noexcept;
@@ -68414,46 +68643,34 @@ inline simdjson_result array::at_path(std::string_view json_path) noexcep
   return at_pointer(json_pointer);
 }
 
-inline simdjson_result> array::at_path_with_wildcard(std::string_view json_path) noexcept {
-  std::vector result;
-
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+inline error_code array::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   auto result_pair = get_next_key_and_json_path(json_path);
   std::string_view key = result_pair.first;
   std::string_view remaining_path = result_pair.second;
   // Wildcard case
-  if(key=="*"){
-    for(auto element: *this){
-
-      if(element.error()){
-        return element.error();
-      }
-
-      if(remaining_path.empty()){
-        // Use value_unsafe() because we've already checked for errors above.
-        // The 'element' is a simdjson_result wrapper, and we need to extract
-        // the underlying value. value_unsafe() is safe here because error() returned false.
-        result.push_back(std::move(element).value_unsafe());
-
-      }else{
-        auto nested_result = element.at_path_with_wildcard(remaining_path);
-
-        if(nested_result.error()){
-          return nested_result.error();
-        }
-        // Same logic as above.
-        std::vector nested_matches = std::move(nested_result).value_unsafe();
-
-        result.insert(result.end(),
-                      std::make_move_iterator(nested_matches.begin()),
-                      std::make_move_iterator(nested_matches.end()));
+  if (key=="*"){
+    for(auto element: *this) {
+      value val;
+        SIMDJSON_TRY(element.get(val));
+      if (remaining_path.empty()) {
+        callback(val);
+      } else {
+        error_code err = element.for_each_at_path_with_wildcard(remaining_path, callback);
+        if(err) { return err; }
       }
     }
-    return result;
-  }else{
+    return SUCCESS;
+  } else {
     // Specific index case in which we access the element at the given index
-    size_t idx=0;
+    size_t idx = 0;
 
-    for(char c:key){
+    for (char c : key) {
       if(c < '0' || c > '9'){
         return INVALID_JSON_POINTER;
       }
@@ -68461,16 +68678,13 @@ inline simdjson_result> array::at_path_with_wildcard(std::str
     }
 
     auto element = at(idx);
-
-    if(element.error()){
-      return element.error();
-    }
-
-    if(remaining_path.empty()){
-      result.push_back(std::move(element).value_unsafe());
-      return result;
-    }else{
-      return element.at_path_with_wildcard(remaining_path);
+    value val;
+    SIMDJSON_TRY(element.get(val));
+    if (remaining_path.empty()){
+      callback(val);
+      return SUCCESS;
+    } else {
+      return element.for_each_at_path_with_wildcard(remaining_path, callback);
     }
   }
 }
@@ -68533,9 +68747,15 @@ simdjson_inline  simdjson_result simdjson_result> simdjson_result::at_path_with_wildcard(std::string_view json_path) noexcept {
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+simdjson_inline error_code simdjson_result::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   if (error()) { return error(); }
-  return first.at_path_with_wildcard(json_path);
+  return first.for_each_at_path_with_wildcard(json_path, std::forward(callback));
 }
 simdjson_inline  simdjson_result simdjson_result::raw_json() noexcept {
   if (error()) { return error(); }
@@ -68654,6 +68874,8 @@ simdjson_inline bool simdjson_result::at_end()
 /* amalgamation skipped (editor-only): #include "simdjson/generic/ondemand/value.h" */
 /* amalgamation skipped (editor-only): #endif // SIMDJSON_CONDITIONAL_INCLUDE */
 
+#include 
+
 namespace simdjson {
 namespace arm64 {
 namespace ondemand {
@@ -68714,6 +68936,18 @@ simdjson_inline simdjson_result value::get_int64() noexcept {
 simdjson_inline simdjson_result value::get_int64_in_string() noexcept {
   return iter.get_int64_in_string();
 }
+simdjson_inline simdjson_result value::get_uint32() noexcept {
+  uint64_t result;
+  SIMDJSON_TRY(get_uint64().get(result));
+  if (result > (std::numeric_limits::max)()) { return NUMBER_OUT_OF_RANGE; }
+  return static_cast(result);
+}
+simdjson_inline simdjson_result value::get_int32() noexcept {
+  int64_t result;
+  SIMDJSON_TRY(get_int64().get(result));
+  if (result > (std::numeric_limits::max)() || result < (std::numeric_limits::min)()) { return NUMBER_OUT_OF_RANGE; }
+  return static_cast(result);
+}
 simdjson_inline simdjson_result value::get_bool() noexcept {
   return iter.get_bool();
 }
@@ -68729,6 +68963,8 @@ template<> simdjson_inline simdjson_result value::get() noexcept { retur
 template<> simdjson_inline simdjson_result value::get() noexcept { return get_double(); }
 template<> simdjson_inline simdjson_result value::get() noexcept { return get_uint64(); }
 template<> simdjson_inline simdjson_result value::get() noexcept { return get_int64(); }
+template<> simdjson_inline simdjson_result value::get() noexcept { return get_uint32(); }
+template<> simdjson_inline simdjson_result value::get() noexcept { return get_int32(); }
 template<> simdjson_inline simdjson_result value::get() noexcept { return get_bool(); }
 
 
@@ -68740,6 +68976,8 @@ template<> simdjson_warn_unused simdjson_inline error_code value::get(number& ou
 template<> simdjson_warn_unused simdjson_inline error_code value::get(double& out) noexcept { return get_double().get(out); }
 template<> simdjson_warn_unused simdjson_inline error_code value::get(uint64_t& out) noexcept { return get_uint64().get(out); }
 template<> simdjson_warn_unused simdjson_inline error_code value::get(int64_t& out) noexcept { return get_int64().get(out); }
+template<> simdjson_warn_unused simdjson_inline error_code value::get(uint32_t& out) noexcept { return get_uint32().get(out); }
+template<> simdjson_warn_unused simdjson_inline error_code value::get(int32_t& out) noexcept { return get_int32().get(out); }
 template<>  simdjson_warn_unused simdjson_inline error_code value::get(bool& out) noexcept { return get_bool().get(out); }
 
 #if SIMDJSON_EXCEPTIONS
@@ -68938,14 +69176,20 @@ simdjson_inline simdjson_result value::at_path(std::string_view json_path
   }
 }
 
-inline simdjson_result> value::at_path_with_wildcard(std::string_view json_path) noexcept {
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+inline error_code value::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   json_type t;
   SIMDJSON_TRY(type().get(t));
   switch (t) {
   case json_type::array:
-      return (*this).get_array().at_path_with_wildcard(json_path);
+      return (*this).get_array().for_each_at_path_with_wildcard(json_path, std::forward(callback));
   case json_type::object:
-      return (*this).get_object().at_path_with_wildcard(json_path);
+      return (*this).get_object().for_each_at_path_with_wildcard(json_path, std::forward(callback));
   default:
       return INVALID_JSON_POINTER;
   }
@@ -69043,6 +69287,14 @@ simdjson_inline simdjson_result simdjson_result
   if (error()) { return error(); }
   return first.get_int64_in_string();
 }
+simdjson_inline simdjson_result simdjson_result::get_uint32() noexcept {
+  if (error()) { return error(); }
+  return first.get_uint32();
+}
+simdjson_inline simdjson_result simdjson_result::get_int32() noexcept {
+  if (error()) { return error(); }
+  return first.get_int32();
+}
 simdjson_inline simdjson_result simdjson_result::get_double() noexcept {
   if (error()) { return error(); }
   return first.get_double();
@@ -69201,12 +69453,18 @@ simdjson_inline simdjson_result simdjson_result> simdjson_result::at_path_with_wildcard(
-      std::string_view json_path) noexcept {
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+inline error_code simdjson_result::for_each_at_path_with_wildcard(
+      std::string_view json_path, Func&& callback) noexcept {
   if (error()) {
     return error();
   }
-  return first.at_path_with_wildcard(json_path);
+  return first.for_each_at_path_with_wildcard(json_path, std::forward(callback));
 }
 
 } // namespace simdjson
@@ -69233,6 +69491,8 @@ inline simdjson_result> simdjson_result
+
 namespace simdjson {
 namespace arm64 {
 namespace ondemand {
@@ -69348,6 +69608,18 @@ simdjson_inline simdjson_result document::get_int64() noexcept {
 simdjson_inline simdjson_result document::get_int64_in_string() noexcept {
   return get_root_value_iterator().get_root_int64_in_string(true);
 }
+simdjson_inline simdjson_result document::get_uint32() noexcept {
+  uint64_t result;
+  SIMDJSON_TRY(get_uint64().get(result));
+  if (result > (std::numeric_limits::max)()) { return NUMBER_OUT_OF_RANGE; }
+  return static_cast(result);
+}
+simdjson_inline simdjson_result document::get_int32() noexcept {
+  int64_t result;
+  SIMDJSON_TRY(get_int64().get(result));
+  if (result > (std::numeric_limits::max)() || result < (std::numeric_limits::min)()) { return NUMBER_OUT_OF_RANGE; }
+  return static_cast(result);
+}
 simdjson_inline simdjson_result document::get_double() noexcept {
   return get_root_value_iterator().get_root_double(true);
 }
@@ -69381,6 +69653,8 @@ template<> simdjson_inline simdjson_result document::get() & n
 template<> simdjson_inline simdjson_result document::get() & noexcept { return get_double(); }
 template<> simdjson_inline simdjson_result document::get() & noexcept { return get_uint64(); }
 template<> simdjson_inline simdjson_result document::get() & noexcept { return get_int64(); }
+template<> simdjson_inline simdjson_result document::get() & noexcept { return get_uint32(); }
+template<> simdjson_inline simdjson_result document::get() & noexcept { return get_int32(); }
 template<> simdjson_inline simdjson_result document::get() & noexcept { return get_bool(); }
 template<> simdjson_inline simdjson_result document::get() & noexcept { return get_value(); }
 
@@ -69391,6 +69665,8 @@ template<> simdjson_warn_unused simdjson_inline error_code document::get(std::st
 template<> simdjson_warn_unused simdjson_inline error_code document::get(double& out) & noexcept { return get_double().get(out); }
 template<> simdjson_warn_unused simdjson_inline error_code document::get(uint64_t& out) & noexcept { return get_uint64().get(out); }
 template<> simdjson_warn_unused simdjson_inline error_code document::get(int64_t& out) & noexcept { return get_int64().get(out); }
+template<> simdjson_warn_unused simdjson_inline error_code document::get(uint32_t& out) & noexcept { return get_uint32().get(out); }
+template<> simdjson_warn_unused simdjson_inline error_code document::get(int32_t& out) & noexcept { return get_int32().get(out); }
 template<> simdjson_warn_unused simdjson_inline error_code document::get(bool& out) & noexcept { return get_bool().get(out); }
 template<> simdjson_warn_unused simdjson_inline error_code document::get(value& out) & noexcept { return get_value().get(out); }
 
@@ -69564,8 +69840,14 @@ simdjson_inline simdjson_result document::at_path(std::string_view json_p
   }
 }
 
-simdjson_inline simdjson_result> document::at_path_with_wildcard(std::string_view json_path) noexcept {
-  rewind(); // Rewind the document each time at_path_with_wildcard is called
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+simdjson_inline error_code document::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
+  rewind(); // Rewind the document each time for_each_at_path_with_wildcard is called
   if (json_path.empty()) {
       return INVALID_JSON_POINTER;
   }
@@ -69573,9 +69855,9 @@ simdjson_inline simdjson_result> document::at_path_with_wildc
   SIMDJSON_TRY(type().get(t));
   switch (t) {
   case json_type::array:
-      return (*this).get_array().at_path_with_wildcard(json_path);
+      return (*this).get_array().for_each_at_path_with_wildcard(json_path, std::forward(callback));
   case json_type::object:
-      return (*this).get_object().at_path_with_wildcard(json_path);
+      return (*this).get_object().for_each_at_path_with_wildcard(json_path, std::forward(callback));
   default:
       return INVALID_JSON_POINTER;
   }
@@ -69721,6 +70003,14 @@ simdjson_inline simdjson_result simdjson_result simdjson_result::get_uint32() noexcept {
+  if (error()) { return error(); }
+  return first.get_uint32();
+}
+simdjson_inline simdjson_result simdjson_result::get_int32() noexcept {
+  if (error()) { return error(); }
+  return first.get_int32();
+}
 simdjson_inline simdjson_result simdjson_result::get_double() noexcept {
   if (error()) { return error(); }
   return first.get_double();
@@ -69904,9 +70194,15 @@ simdjson_inline simdjson_result simdjson_result> simdjson_result::at_path_with_wildcard(std::string_view json_path) noexcept {
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+simdjson_inline error_code simdjson_result::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   if (error()) { return error(); }
-  return first.at_path_with_wildcard(json_path);
+  return first.for_each_at_path_with_wildcard(json_path, std::forward(callback));
 }
 
 #if SIMDJSON_STATIC_REFLECTION
@@ -69948,6 +70244,18 @@ simdjson_inline simdjson_result document_reference::get_uint64() noexc
 simdjson_inline simdjson_result document_reference::get_uint64_in_string() noexcept { return doc->get_root_value_iterator().get_root_uint64_in_string(false); }
 simdjson_inline simdjson_result document_reference::get_int64() noexcept { return doc->get_root_value_iterator().get_root_int64(false); }
 simdjson_inline simdjson_result document_reference::get_int64_in_string() noexcept { return doc->get_root_value_iterator().get_root_int64_in_string(false); }
+simdjson_inline simdjson_result document_reference::get_uint32() noexcept {
+  uint64_t result;
+  SIMDJSON_TRY(doc->get_root_value_iterator().get_root_uint64(false).get(result));
+  if (result > (std::numeric_limits::max)()) { return NUMBER_OUT_OF_RANGE; }
+  return static_cast(result);
+}
+simdjson_inline simdjson_result document_reference::get_int32() noexcept {
+  int64_t result;
+  SIMDJSON_TRY(doc->get_root_value_iterator().get_root_int64(false).get(result));
+  if (result > (std::numeric_limits::max)() || result < (std::numeric_limits::min)()) { return NUMBER_OUT_OF_RANGE; }
+  return static_cast(result);
+}
 simdjson_inline simdjson_result document_reference::get_double() noexcept { return doc->get_root_value_iterator().get_root_double(false); }
 simdjson_inline simdjson_result document_reference::get_double_in_string() noexcept { return doc->get_root_value_iterator().get_root_double(false); }
 simdjson_inline simdjson_result document_reference::get_string(bool allow_replacement) noexcept { return doc->get_root_value_iterator().get_root_string(false, allow_replacement); }
@@ -69965,6 +70273,8 @@ template<> simdjson_inline simdjson_result document_reference:
 template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_double(); }
 template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_uint64(); }
 template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_int64(); }
+template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_uint32(); }
+template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_int32(); }
 template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_bool(); }
 template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_value(); }
 #if SIMDJSON_EXCEPTIONS
@@ -70003,7 +70313,13 @@ simdjson_inline simdjson_result document_reference::get_number() noexcep
 simdjson_inline simdjson_result document_reference::raw_json_token() noexcept { return doc->raw_json_token(); }
 simdjson_inline simdjson_result document_reference::at_pointer(std::string_view json_pointer) noexcept { return doc->at_pointer(json_pointer); }
 simdjson_inline simdjson_result document_reference::at_path(std::string_view json_path) noexcept { return doc->at_path(json_path); }
-simdjson_inline simdjson_result> document_reference::at_path_with_wildcard(std::string_view json_path) noexcept { return doc->at_path_with_wildcard(json_path); }
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+simdjson_inline error_code document_reference::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept { return doc->for_each_at_path_with_wildcard(json_path, std::forward(callback)); }
 simdjson_inline simdjson_result document_reference::raw_json() noexcept { return doc->raw_json();}
 simdjson_inline document_reference::operator document&() const noexcept { return *doc; }
 #if SIMDJSON_SUPPORTS_CONCEPTS && SIMDJSON_STATIC_REFLECTION
@@ -70096,6 +70412,14 @@ simdjson_inline simdjson_result simdjson_result simdjson_result::get_uint32() noexcept {
+  if (error()) { return error(); }
+  return first.get_uint32();
+}
+simdjson_inline simdjson_result simdjson_result::get_int32() noexcept {
+  if (error()) { return error(); }
+  return first.get_int32();
+}
 simdjson_inline simdjson_result simdjson_result::get_double() noexcept {
   if (error()) { return error(); }
   return first.get_double();
@@ -70260,11 +70584,17 @@ simdjson_inline simdjson_result simdjson_result> simdjson_result::at_path_with_wildcard(std::string_view json_path) noexcept {
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+simdjson_inline error_code simdjson_result::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   if (error()) {
       return error();
   }
-  return first.at_path_with_wildcard(json_path);
+  return first.for_each_at_path_with_wildcard(json_path, std::forward(callback));
 }
 #if SIMDJSON_STATIC_REFLECTION
 template
@@ -71842,9 +72172,13 @@ inline simdjson_result object::at_path(std::string_view json_path) noexce
   return at_pointer(json_pointer);
 }
 
-inline simdjson_result> object::at_path_with_wildcard(std::string_view json_path) noexcept {
-  std::vector result;
-
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+inline error_code object::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   auto result_pair = get_next_key_and_json_path(json_path);
   std::string_view key = result_pair.first;
   std::string_view remaining_path = result_pair.second;
@@ -71854,34 +72188,22 @@ inline simdjson_result> object::at_path_with_wildcard(std::st
     for (auto field : *this) {
       value val;
       SIMDJSON_TRY(field.value().get(val));
-
       if (remaining_path.empty()) {
-        result.push_back(std::move(val));
+        callback(val);
       } else {
-        auto nested_result = val.at_path_with_wildcard(remaining_path);
-
-        if (nested_result.error()) {
-          return nested_result.error();
-        }
-        // Extract and append all nested matches to our result
-        std::vector nested_vec;
-        SIMDJSON_TRY(std::move(nested_result).get(nested_vec));
-
-        result.insert(result.end(),
-                     std::make_move_iterator(nested_vec.begin()),
-                     std::make_move_iterator(nested_vec.end()));
+        SIMDJSON_TRY(val.for_each_at_path_with_wildcard(remaining_path, callback));
       }
     }
-    return result;
+    return SUCCESS;
   } else {
     value val;
     SIMDJSON_TRY(find_field(key).get(val));
 
     if (remaining_path.empty()) {
-      result.push_back(std::move(val));
-      return result;
+      callback(val);
+      return SUCCESS;
     } else {
-      return val.at_path_with_wildcard(remaining_path);
+      return val.for_each_at_path_with_wildcard(remaining_path, callback);
     }
   }
 }
@@ -72012,9 +72334,15 @@ simdjson_inline simdjson_result simdjson_result> simdjson_result::at_path_with_wildcard(std::string_view json_path) noexcept {
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+simdjson_inline error_code simdjson_result::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   if (error()) { return error(); }
-  return first.at_path_with_wildcard(json_path);
+  return first.for_each_at_path_with_wildcard(json_path, std::forward(callback));
 }
 
 inline simdjson_result simdjson_result::reset() noexcept {
@@ -72368,7 +72696,7 @@ simdjson_pure simdjson_inline size_t parser::max_depth() const noexcept {
 }
 
 simdjson_inline void parser::set_max_capacity(size_t max_capacity) noexcept {
-  if(max_capacity < dom::MINIMAL_DOCUMENT_CAPACITY) {
+  if(max_capacity > dom::MINIMAL_DOCUMENT_CAPACITY) {
     _max_capacity = max_capacity;
   } else {
     _max_capacity = dom::MINIMAL_DOCUMENT_CAPACITY;
@@ -72395,7 +72723,7 @@ simdjson_inline simdjson_warn_unused ondemand::parser& parser::get_parser() {
   return *parser::get_parser_instance();
 }
 
-simdjson_inline bool release_parser() {
+simdjson_inline bool parser::release_parser() {
   auto &parser_instance = parser::get_threadlocal_parser_if_exists();
   if (parser_instance) {
     parser_instance.reset();
@@ -76116,6 +76444,28 @@ class value {
    */
   simdjson_inline simdjson_result get_int64_in_string() noexcept;
 
+  /**
+   * Cast this JSON value to a 32-bit unsigned integer.
+   *
+   * Calls get_uint64() and checks that the result fits in a uint32_t.
+   *
+   * @returns A 32-bit unsigned integer.
+   * @returns INCORRECT_TYPE If the JSON value is not an unsigned integer.
+   * @returns NUMBER_OUT_OF_RANGE If the value does not fit in a uint32_t.
+   */
+  simdjson_inline simdjson_result get_uint32() noexcept;
+
+  /**
+   * Cast this JSON value to a 32-bit signed integer.
+   *
+   * Calls get_int64() and checks that the result fits in an int32_t.
+   *
+   * @returns A 32-bit signed integer.
+   * @returns INCORRECT_TYPE If the JSON value is not an integer.
+   * @returns NUMBER_OUT_OF_RANGE If the value does not fit in an int32_t.
+   */
+  simdjson_inline simdjson_result get_int32() noexcept;
+
   /**
    * Cast this JSON value to a double.
    *
@@ -76631,13 +76981,21 @@ class value {
   simdjson_inline simdjson_result at_path(std::string_view at_path) noexcept;
 
   /**
-   * Get all values matching the given JSONPath expression with wildcard support.
+   * Call the provided callback for each value matching the given JSONPath
+   * expression with wildcard support.
    * Supports wildcard character (*) for arrays or ".*" for objects.
    *
    * @param json_path JSONPath expression with wildcards
-   * @return Vector of values matching the wildcard pattern
+   * @param callback Function called for each matching value
+   * @return error_code indicating success or failure
    */
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 
 protected:
   /**
@@ -76701,6 +77059,8 @@ struct simdjson_result : public fallback::implementat
   simdjson_inline simdjson_result get_uint64_in_string() noexcept;
   simdjson_inline simdjson_result get_int64() noexcept;
   simdjson_inline simdjson_result get_int64_in_string() noexcept;
+  simdjson_inline simdjson_result get_uint32() noexcept;
+  simdjson_inline simdjson_result get_int32() noexcept;
   simdjson_inline simdjson_result get_double() noexcept;
   simdjson_inline simdjson_result get_double_in_string() noexcept;
   simdjson_inline simdjson_result get_string(bool allow_replacement = false) noexcept;
@@ -76828,9 +77188,23 @@ struct simdjson_result : public fallback::implementat
   simdjson_inline simdjson_result current_depth() const noexcept;
   simdjson_inline simdjson_result at_pointer(std::string_view json_pointer) noexcept;
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 };
 
+// Forward-declare explicit specializations so MSVC /permissive- sees them before
+// any template instantiation that would resolve element.get(val) to the primary.
+template<> simdjson_inline error_code
+simdjson_result::get(
+    fallback::ondemand::value &out) noexcept;
+template<> simdjson_inline simdjson_result
+simdjson_result::get() noexcept;
+
 } // namespace simdjson
 
 #endif // SIMDJSON_GENERIC_ONDEMAND_VALUE_H
@@ -78169,8 +78543,6 @@ class parser {
   static simdjson_inline bool release_parser();
 
 private:
-  friend bool release_parser();
-  friend ondemand::parser& get_parser();
   /** Get the thread-local parser instance, allocates it if needed */
   static simdjson_inline simdjson_warn_unused std::unique_ptr& get_parser_instance();
   /** Get the thread-local parser instance, it might be null */
@@ -78333,13 +78705,21 @@ class array {
   inline simdjson_result at_path(std::string_view json_path) noexcept;
 
   /**
-   * Get all values matching the given JSONPath expression with wildcard support.
+   * Call the provided callback for each value matching the given JSONPath
+   * expression with wildcard support.
    * Supports wildcard patterns like "[*]" to match all array elements.
    *
    * @param json_path JSONPath expression with wildcards
-   * @return Vector of values matching the wildcard pattern
+   * @param callback Function called for each matching value
+   * @return error_code indicating success or failure
   */
-  inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 
   /**
    * Consumes the array and returns a string_view instance corresponding to the
@@ -78463,7 +78843,13 @@ struct simdjson_result : public fallback::implementat
   simdjson_inline simdjson_result at(size_t index) noexcept;
   simdjson_inline simdjson_result at_pointer(std::string_view json_pointer) noexcept;
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
   simdjson_inline simdjson_result raw_json() noexcept;
 #if SIMDJSON_SUPPORTS_CONCEPTS
   // TODO: move this code into object-inl.h
@@ -78695,6 +79081,26 @@ class document {
    * @returns INCORRECT_TYPE If the JSON value is not a 64-bit integer.
    */
   simdjson_inline simdjson_result get_int64_in_string() noexcept;
+  /**
+   * Cast this JSON value to a 32-bit unsigned integer.
+   *
+   * Calls get_uint64() and checks that the result fits in a uint32_t.
+   *
+   * @returns A 32-bit unsigned integer.
+   * @returns INCORRECT_TYPE If the JSON value is not an unsigned integer.
+   * @returns NUMBER_OUT_OF_RANGE If the value does not fit in a uint32_t.
+   */
+  simdjson_inline simdjson_result get_uint32() noexcept;
+  /**
+   * Cast this JSON value to a 32-bit signed integer.
+   *
+   * Calls get_int64() and checks that the result fits in an int32_t.
+   *
+   * @returns A 32-bit signed integer.
+   * @returns INCORRECT_TYPE If the JSON value is not an integer.
+   * @returns NUMBER_OUT_OF_RANGE If the value does not fit in an int32_t.
+   */
+  simdjson_inline simdjson_result get_int32() noexcept;
   /**
    * Cast this JSON value to a double.
    *
@@ -79343,21 +79749,24 @@ class document {
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
 
   /**
-   * Get all values matching the given JSONPath expression with wildcard support.
+   * Call the provided callback for each value matching the given JSONPath
+   * expression with wildcard support.
    *
    * Supports wildcard patterns like "$.array[*]" or "$.object.*" to match multiple elements.
    *
-   * This method materializes all matching values into a vector.
    * The document will be consumed after this call.
    *
    * @param json_path JSONPath expression with wildcards
-   * @return Vector of values matching the wildcard pattern, or:
-   *         - INVALID_JSON_POINTER if the JSONPath cannot be parsed
-   *         - NO_SUCH_FIELD if a field does not exist
-   *         - INDEX_OUT_OF_BOUNDS if an array index is out of bounds
-   *         - INCORRECT_TYPE if path traversal encounters wrong type
+   * @param callback Function called for each matching value
+   * @return error_code indicating success or failure
    */
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 
   /**
    * Consumes the document and returns a string_view instance corresponding to the
@@ -79448,6 +79857,8 @@ class document_reference {
   simdjson_inline simdjson_result get_uint64_in_string() noexcept;
   simdjson_inline simdjson_result get_int64() noexcept;
   simdjson_inline simdjson_result get_int64_in_string() noexcept;
+  simdjson_inline simdjson_result get_uint32() noexcept;
+  simdjson_inline simdjson_result get_int32() noexcept;
   simdjson_inline simdjson_result get_double() noexcept;
   simdjson_inline simdjson_result get_double_in_string() noexcept;
   simdjson_inline simdjson_result get_string(bool allow_replacement = false) noexcept;
@@ -79576,7 +79987,13 @@ class document_reference {
   simdjson_inline simdjson_result raw_json_token() noexcept;
   simdjson_inline simdjson_result at_pointer(std::string_view json_pointer) noexcept;
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 
 private:
   document *doc{nullptr};
@@ -79601,6 +80018,8 @@ struct simdjson_result : public fallback::implemen
   simdjson_inline simdjson_result get_uint64_in_string() noexcept;
   simdjson_inline simdjson_result get_int64() noexcept;
   simdjson_inline simdjson_result get_int64_in_string() noexcept;
+  simdjson_inline simdjson_result get_uint32() noexcept;
+  simdjson_inline simdjson_result get_int32() noexcept;
   simdjson_inline simdjson_result get_double() noexcept;
   simdjson_inline simdjson_result get_double_in_string() noexcept;
   simdjson_inline simdjson_result get_string(bool allow_replacement = false) noexcept;
@@ -79660,7 +80079,13 @@ struct simdjson_result : public fallback::implemen
 
   simdjson_inline simdjson_result at_pointer(std::string_view json_pointer) noexcept;
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 #if SIMDJSON_STATIC_REFLECTION
   template
     requires(std::is_class_v && (sizeof...(FieldNames) > 0))
@@ -79688,6 +80113,8 @@ struct simdjson_result : public fallback
   simdjson_inline simdjson_result get_uint64_in_string() noexcept;
   simdjson_inline simdjson_result get_int64() noexcept;
   simdjson_inline simdjson_result get_int64_in_string() noexcept;
+  simdjson_inline simdjson_result get_uint32() noexcept;
+  simdjson_inline simdjson_result get_int32() noexcept;
   simdjson_inline simdjson_result get_double() noexcept;
   simdjson_inline simdjson_result get_double_in_string() noexcept;
   simdjson_inline simdjson_result get_string(bool allow_replacement = false) noexcept;
@@ -79743,7 +80170,13 @@ struct simdjson_result : public fallback
 
   simdjson_inline simdjson_result at_pointer(std::string_view json_pointer) noexcept;
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 #if SIMDJSON_STATIC_REFLECTION
   template
     requires(std::is_class_v && (sizeof...(FieldNames) > 0))
@@ -80396,13 +80829,21 @@ class object {
   inline simdjson_result at_path(std::string_view json_path) noexcept;
 
   /**
-   * Get all values matching the given JSONPath expression with wildcard support.
+   * Call the provided callback for each value matching the given JSONPath
+   * expression with wildcard support.
    * Supports wildcard patterns like ".*" to match all object fields.
    *
    * @param json_path JSONPath expression with wildcards
-   * @return Vector of values matching the wildcard pattern
+   * @param callback Function called for each matching value
+   * @return error_code indicating success or failure
   */
-  inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 
   /**
    * Reset the iterator so that we are pointing back at the
@@ -80552,7 +80993,13 @@ struct simdjson_result : public fallback::implementa
   simdjson_inline simdjson_result operator[](std::string_view key) && noexcept;
   simdjson_inline simdjson_result at_pointer(std::string_view json_pointer) noexcept;
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
   inline simdjson_result reset() noexcept;
   inline simdjson_result is_empty() noexcept;
   inline simdjson_result count_fields() & noexcept;
@@ -81566,46 +82013,34 @@ inline simdjson_result array::at_path(std::string_view json_path) noexcep
   return at_pointer(json_pointer);
 }
 
-inline simdjson_result> array::at_path_with_wildcard(std::string_view json_path) noexcept {
-  std::vector result;
-
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+inline error_code array::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   auto result_pair = get_next_key_and_json_path(json_path);
   std::string_view key = result_pair.first;
   std::string_view remaining_path = result_pair.second;
   // Wildcard case
-  if(key=="*"){
-    for(auto element: *this){
-
-      if(element.error()){
-        return element.error();
-      }
-
-      if(remaining_path.empty()){
-        // Use value_unsafe() because we've already checked for errors above.
-        // The 'element' is a simdjson_result wrapper, and we need to extract
-        // the underlying value. value_unsafe() is safe here because error() returned false.
-        result.push_back(std::move(element).value_unsafe());
-
-      }else{
-        auto nested_result = element.at_path_with_wildcard(remaining_path);
-
-        if(nested_result.error()){
-          return nested_result.error();
-        }
-        // Same logic as above.
-        std::vector nested_matches = std::move(nested_result).value_unsafe();
-
-        result.insert(result.end(),
-                      std::make_move_iterator(nested_matches.begin()),
-                      std::make_move_iterator(nested_matches.end()));
+  if (key=="*"){
+    for(auto element: *this) {
+      value val;
+        SIMDJSON_TRY(element.get(val));
+      if (remaining_path.empty()) {
+        callback(val);
+      } else {
+        error_code err = element.for_each_at_path_with_wildcard(remaining_path, callback);
+        if(err) { return err; }
       }
     }
-    return result;
-  }else{
+    return SUCCESS;
+  } else {
     // Specific index case in which we access the element at the given index
-    size_t idx=0;
+    size_t idx = 0;
 
-    for(char c:key){
+    for (char c : key) {
       if(c < '0' || c > '9'){
         return INVALID_JSON_POINTER;
       }
@@ -81613,16 +82048,13 @@ inline simdjson_result> array::at_path_with_wildcard(std::str
     }
 
     auto element = at(idx);
-
-    if(element.error()){
-      return element.error();
-    }
-
-    if(remaining_path.empty()){
-      result.push_back(std::move(element).value_unsafe());
-      return result;
-    }else{
-      return element.at_path_with_wildcard(remaining_path);
+    value val;
+    SIMDJSON_TRY(element.get(val));
+    if (remaining_path.empty()){
+      callback(val);
+      return SUCCESS;
+    } else {
+      return element.for_each_at_path_with_wildcard(remaining_path, callback);
     }
   }
 }
@@ -81685,9 +82117,15 @@ simdjson_inline  simdjson_result simdjson_result> simdjson_result::at_path_with_wildcard(std::string_view json_path) noexcept {
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+simdjson_inline error_code simdjson_result::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   if (error()) { return error(); }
-  return first.at_path_with_wildcard(json_path);
+  return first.for_each_at_path_with_wildcard(json_path, std::forward(callback));
 }
 simdjson_inline  simdjson_result simdjson_result::raw_json() noexcept {
   if (error()) { return error(); }
@@ -81806,6 +82244,8 @@ simdjson_inline bool simdjson_result::at_end
 /* amalgamation skipped (editor-only): #include "simdjson/generic/ondemand/value.h" */
 /* amalgamation skipped (editor-only): #endif // SIMDJSON_CONDITIONAL_INCLUDE */
 
+#include 
+
 namespace simdjson {
 namespace fallback {
 namespace ondemand {
@@ -81866,6 +82306,18 @@ simdjson_inline simdjson_result value::get_int64() noexcept {
 simdjson_inline simdjson_result value::get_int64_in_string() noexcept {
   return iter.get_int64_in_string();
 }
+simdjson_inline simdjson_result value::get_uint32() noexcept {
+  uint64_t result;
+  SIMDJSON_TRY(get_uint64().get(result));
+  if (result > (std::numeric_limits::max)()) { return NUMBER_OUT_OF_RANGE; }
+  return static_cast(result);
+}
+simdjson_inline simdjson_result value::get_int32() noexcept {
+  int64_t result;
+  SIMDJSON_TRY(get_int64().get(result));
+  if (result > (std::numeric_limits::max)() || result < (std::numeric_limits::min)()) { return NUMBER_OUT_OF_RANGE; }
+  return static_cast(result);
+}
 simdjson_inline simdjson_result value::get_bool() noexcept {
   return iter.get_bool();
 }
@@ -81881,6 +82333,8 @@ template<> simdjson_inline simdjson_result value::get() noexcept { retur
 template<> simdjson_inline simdjson_result value::get() noexcept { return get_double(); }
 template<> simdjson_inline simdjson_result value::get() noexcept { return get_uint64(); }
 template<> simdjson_inline simdjson_result value::get() noexcept { return get_int64(); }
+template<> simdjson_inline simdjson_result value::get() noexcept { return get_uint32(); }
+template<> simdjson_inline simdjson_result value::get() noexcept { return get_int32(); }
 template<> simdjson_inline simdjson_result value::get() noexcept { return get_bool(); }
 
 
@@ -81892,6 +82346,8 @@ template<> simdjson_warn_unused simdjson_inline error_code value::get(number& ou
 template<> simdjson_warn_unused simdjson_inline error_code value::get(double& out) noexcept { return get_double().get(out); }
 template<> simdjson_warn_unused simdjson_inline error_code value::get(uint64_t& out) noexcept { return get_uint64().get(out); }
 template<> simdjson_warn_unused simdjson_inline error_code value::get(int64_t& out) noexcept { return get_int64().get(out); }
+template<> simdjson_warn_unused simdjson_inline error_code value::get(uint32_t& out) noexcept { return get_uint32().get(out); }
+template<> simdjson_warn_unused simdjson_inline error_code value::get(int32_t& out) noexcept { return get_int32().get(out); }
 template<>  simdjson_warn_unused simdjson_inline error_code value::get(bool& out) noexcept { return get_bool().get(out); }
 
 #if SIMDJSON_EXCEPTIONS
@@ -82090,14 +82546,20 @@ simdjson_inline simdjson_result value::at_path(std::string_view json_path
   }
 }
 
-inline simdjson_result> value::at_path_with_wildcard(std::string_view json_path) noexcept {
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+inline error_code value::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   json_type t;
   SIMDJSON_TRY(type().get(t));
   switch (t) {
   case json_type::array:
-      return (*this).get_array().at_path_with_wildcard(json_path);
+      return (*this).get_array().for_each_at_path_with_wildcard(json_path, std::forward(callback));
   case json_type::object:
-      return (*this).get_object().at_path_with_wildcard(json_path);
+      return (*this).get_object().for_each_at_path_with_wildcard(json_path, std::forward(callback));
   default:
       return INVALID_JSON_POINTER;
   }
@@ -82195,6 +82657,14 @@ simdjson_inline simdjson_result simdjson_result simdjson_result::get_uint32() noexcept {
+  if (error()) { return error(); }
+  return first.get_uint32();
+}
+simdjson_inline simdjson_result simdjson_result::get_int32() noexcept {
+  if (error()) { return error(); }
+  return first.get_int32();
+}
 simdjson_inline simdjson_result simdjson_result::get_double() noexcept {
   if (error()) { return error(); }
   return first.get_double();
@@ -82353,12 +82823,18 @@ simdjson_inline simdjson_result simdjson_result> simdjson_result::at_path_with_wildcard(
-      std::string_view json_path) noexcept {
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+inline error_code simdjson_result::for_each_at_path_with_wildcard(
+      std::string_view json_path, Func&& callback) noexcept {
   if (error()) {
     return error();
   }
-  return first.at_path_with_wildcard(json_path);
+  return first.for_each_at_path_with_wildcard(json_path, std::forward(callback));
 }
 
 } // namespace simdjson
@@ -82385,6 +82861,8 @@ inline simdjson_result> simdjson_result
+
 namespace simdjson {
 namespace fallback {
 namespace ondemand {
@@ -82500,6 +82978,18 @@ simdjson_inline simdjson_result document::get_int64() noexcept {
 simdjson_inline simdjson_result document::get_int64_in_string() noexcept {
   return get_root_value_iterator().get_root_int64_in_string(true);
 }
+simdjson_inline simdjson_result document::get_uint32() noexcept {
+  uint64_t result;
+  SIMDJSON_TRY(get_uint64().get(result));
+  if (result > (std::numeric_limits::max)()) { return NUMBER_OUT_OF_RANGE; }
+  return static_cast(result);
+}
+simdjson_inline simdjson_result document::get_int32() noexcept {
+  int64_t result;
+  SIMDJSON_TRY(get_int64().get(result));
+  if (result > (std::numeric_limits::max)() || result < (std::numeric_limits::min)()) { return NUMBER_OUT_OF_RANGE; }
+  return static_cast(result);
+}
 simdjson_inline simdjson_result document::get_double() noexcept {
   return get_root_value_iterator().get_root_double(true);
 }
@@ -82533,6 +83023,8 @@ template<> simdjson_inline simdjson_result document::get() & n
 template<> simdjson_inline simdjson_result document::get() & noexcept { return get_double(); }
 template<> simdjson_inline simdjson_result document::get() & noexcept { return get_uint64(); }
 template<> simdjson_inline simdjson_result document::get() & noexcept { return get_int64(); }
+template<> simdjson_inline simdjson_result document::get() & noexcept { return get_uint32(); }
+template<> simdjson_inline simdjson_result document::get() & noexcept { return get_int32(); }
 template<> simdjson_inline simdjson_result document::get() & noexcept { return get_bool(); }
 template<> simdjson_inline simdjson_result document::get() & noexcept { return get_value(); }
 
@@ -82543,6 +83035,8 @@ template<> simdjson_warn_unused simdjson_inline error_code document::get(std::st
 template<> simdjson_warn_unused simdjson_inline error_code document::get(double& out) & noexcept { return get_double().get(out); }
 template<> simdjson_warn_unused simdjson_inline error_code document::get(uint64_t& out) & noexcept { return get_uint64().get(out); }
 template<> simdjson_warn_unused simdjson_inline error_code document::get(int64_t& out) & noexcept { return get_int64().get(out); }
+template<> simdjson_warn_unused simdjson_inline error_code document::get(uint32_t& out) & noexcept { return get_uint32().get(out); }
+template<> simdjson_warn_unused simdjson_inline error_code document::get(int32_t& out) & noexcept { return get_int32().get(out); }
 template<> simdjson_warn_unused simdjson_inline error_code document::get(bool& out) & noexcept { return get_bool().get(out); }
 template<> simdjson_warn_unused simdjson_inline error_code document::get(value& out) & noexcept { return get_value().get(out); }
 
@@ -82716,8 +83210,14 @@ simdjson_inline simdjson_result document::at_path(std::string_view json_p
   }
 }
 
-simdjson_inline simdjson_result> document::at_path_with_wildcard(std::string_view json_path) noexcept {
-  rewind(); // Rewind the document each time at_path_with_wildcard is called
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+simdjson_inline error_code document::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
+  rewind(); // Rewind the document each time for_each_at_path_with_wildcard is called
   if (json_path.empty()) {
       return INVALID_JSON_POINTER;
   }
@@ -82725,9 +83225,9 @@ simdjson_inline simdjson_result> document::at_path_with_wildc
   SIMDJSON_TRY(type().get(t));
   switch (t) {
   case json_type::array:
-      return (*this).get_array().at_path_with_wildcard(json_path);
+      return (*this).get_array().for_each_at_path_with_wildcard(json_path, std::forward(callback));
   case json_type::object:
-      return (*this).get_object().at_path_with_wildcard(json_path);
+      return (*this).get_object().for_each_at_path_with_wildcard(json_path, std::forward(callback));
   default:
       return INVALID_JSON_POINTER;
   }
@@ -82873,6 +83373,14 @@ simdjson_inline simdjson_result simdjson_result simdjson_result::get_uint32() noexcept {
+  if (error()) { return error(); }
+  return first.get_uint32();
+}
+simdjson_inline simdjson_result simdjson_result::get_int32() noexcept {
+  if (error()) { return error(); }
+  return first.get_int32();
+}
 simdjson_inline simdjson_result simdjson_result::get_double() noexcept {
   if (error()) { return error(); }
   return first.get_double();
@@ -83056,9 +83564,15 @@ simdjson_inline simdjson_result simdjson_result> simdjson_result::at_path_with_wildcard(std::string_view json_path) noexcept {
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+simdjson_inline error_code simdjson_result::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   if (error()) { return error(); }
-  return first.at_path_with_wildcard(json_path);
+  return first.for_each_at_path_with_wildcard(json_path, std::forward(callback));
 }
 
 #if SIMDJSON_STATIC_REFLECTION
@@ -83100,6 +83614,18 @@ simdjson_inline simdjson_result document_reference::get_uint64() noexc
 simdjson_inline simdjson_result document_reference::get_uint64_in_string() noexcept { return doc->get_root_value_iterator().get_root_uint64_in_string(false); }
 simdjson_inline simdjson_result document_reference::get_int64() noexcept { return doc->get_root_value_iterator().get_root_int64(false); }
 simdjson_inline simdjson_result document_reference::get_int64_in_string() noexcept { return doc->get_root_value_iterator().get_root_int64_in_string(false); }
+simdjson_inline simdjson_result document_reference::get_uint32() noexcept {
+  uint64_t result;
+  SIMDJSON_TRY(doc->get_root_value_iterator().get_root_uint64(false).get(result));
+  if (result > (std::numeric_limits::max)()) { return NUMBER_OUT_OF_RANGE; }
+  return static_cast(result);
+}
+simdjson_inline simdjson_result document_reference::get_int32() noexcept {
+  int64_t result;
+  SIMDJSON_TRY(doc->get_root_value_iterator().get_root_int64(false).get(result));
+  if (result > (std::numeric_limits::max)() || result < (std::numeric_limits::min)()) { return NUMBER_OUT_OF_RANGE; }
+  return static_cast(result);
+}
 simdjson_inline simdjson_result document_reference::get_double() noexcept { return doc->get_root_value_iterator().get_root_double(false); }
 simdjson_inline simdjson_result document_reference::get_double_in_string() noexcept { return doc->get_root_value_iterator().get_root_double(false); }
 simdjson_inline simdjson_result document_reference::get_string(bool allow_replacement) noexcept { return doc->get_root_value_iterator().get_root_string(false, allow_replacement); }
@@ -83117,6 +83643,8 @@ template<> simdjson_inline simdjson_result document_reference:
 template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_double(); }
 template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_uint64(); }
 template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_int64(); }
+template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_uint32(); }
+template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_int32(); }
 template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_bool(); }
 template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_value(); }
 #if SIMDJSON_EXCEPTIONS
@@ -83155,7 +83683,13 @@ simdjson_inline simdjson_result document_reference::get_number() noexcep
 simdjson_inline simdjson_result document_reference::raw_json_token() noexcept { return doc->raw_json_token(); }
 simdjson_inline simdjson_result document_reference::at_pointer(std::string_view json_pointer) noexcept { return doc->at_pointer(json_pointer); }
 simdjson_inline simdjson_result document_reference::at_path(std::string_view json_path) noexcept { return doc->at_path(json_path); }
-simdjson_inline simdjson_result> document_reference::at_path_with_wildcard(std::string_view json_path) noexcept { return doc->at_path_with_wildcard(json_path); }
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+simdjson_inline error_code document_reference::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept { return doc->for_each_at_path_with_wildcard(json_path, std::forward(callback)); }
 simdjson_inline simdjson_result document_reference::raw_json() noexcept { return doc->raw_json();}
 simdjson_inline document_reference::operator document&() const noexcept { return *doc; }
 #if SIMDJSON_SUPPORTS_CONCEPTS && SIMDJSON_STATIC_REFLECTION
@@ -83248,6 +83782,14 @@ simdjson_inline simdjson_result simdjson_result simdjson_result::get_uint32() noexcept {
+  if (error()) { return error(); }
+  return first.get_uint32();
+}
+simdjson_inline simdjson_result simdjson_result::get_int32() noexcept {
+  if (error()) { return error(); }
+  return first.get_int32();
+}
 simdjson_inline simdjson_result simdjson_result::get_double() noexcept {
   if (error()) { return error(); }
   return first.get_double();
@@ -83412,11 +83954,17 @@ simdjson_inline simdjson_result simdjson_result> simdjson_result::at_path_with_wildcard(std::string_view json_path) noexcept {
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+simdjson_inline error_code simdjson_result::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   if (error()) {
       return error();
   }
-  return first.at_path_with_wildcard(json_path);
+  return first.for_each_at_path_with_wildcard(json_path, std::forward(callback));
 }
 #if SIMDJSON_STATIC_REFLECTION
 template
@@ -84994,9 +85542,13 @@ inline simdjson_result object::at_path(std::string_view json_path) noexce
   return at_pointer(json_pointer);
 }
 
-inline simdjson_result> object::at_path_with_wildcard(std::string_view json_path) noexcept {
-  std::vector result;
-
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+inline error_code object::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   auto result_pair = get_next_key_and_json_path(json_path);
   std::string_view key = result_pair.first;
   std::string_view remaining_path = result_pair.second;
@@ -85006,34 +85558,22 @@ inline simdjson_result> object::at_path_with_wildcard(std::st
     for (auto field : *this) {
       value val;
       SIMDJSON_TRY(field.value().get(val));
-
       if (remaining_path.empty()) {
-        result.push_back(std::move(val));
+        callback(val);
       } else {
-        auto nested_result = val.at_path_with_wildcard(remaining_path);
-
-        if (nested_result.error()) {
-          return nested_result.error();
-        }
-        // Extract and append all nested matches to our result
-        std::vector nested_vec;
-        SIMDJSON_TRY(std::move(nested_result).get(nested_vec));
-
-        result.insert(result.end(),
-                     std::make_move_iterator(nested_vec.begin()),
-                     std::make_move_iterator(nested_vec.end()));
+        SIMDJSON_TRY(val.for_each_at_path_with_wildcard(remaining_path, callback));
       }
     }
-    return result;
+    return SUCCESS;
   } else {
     value val;
     SIMDJSON_TRY(find_field(key).get(val));
 
     if (remaining_path.empty()) {
-      result.push_back(std::move(val));
-      return result;
+      callback(val);
+      return SUCCESS;
     } else {
-      return val.at_path_with_wildcard(remaining_path);
+      return val.for_each_at_path_with_wildcard(remaining_path, callback);
     }
   }
 }
@@ -85164,9 +85704,15 @@ simdjson_inline simdjson_result simdjson_result> simdjson_result::at_path_with_wildcard(std::string_view json_path) noexcept {
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+simdjson_inline error_code simdjson_result::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   if (error()) { return error(); }
-  return first.at_path_with_wildcard(json_path);
+  return first.for_each_at_path_with_wildcard(json_path, std::forward(callback));
 }
 
 inline simdjson_result simdjson_result::reset() noexcept {
@@ -85520,7 +86066,7 @@ simdjson_pure simdjson_inline size_t parser::max_depth() const noexcept {
 }
 
 simdjson_inline void parser::set_max_capacity(size_t max_capacity) noexcept {
-  if(max_capacity < dom::MINIMAL_DOCUMENT_CAPACITY) {
+  if(max_capacity > dom::MINIMAL_DOCUMENT_CAPACITY) {
     _max_capacity = max_capacity;
   } else {
     _max_capacity = dom::MINIMAL_DOCUMENT_CAPACITY;
@@ -85547,7 +86093,7 @@ simdjson_inline simdjson_warn_unused ondemand::parser& parser::get_parser() {
   return *parser::get_parser_instance();
 }
 
-simdjson_inline bool release_parser() {
+simdjson_inline bool parser::release_parser() {
   auto &parser_instance = parser::get_threadlocal_parser_if_exists();
   if (parser_instance) {
     parser_instance.reset();
@@ -89755,6 +90301,28 @@ class value {
    */
   simdjson_inline simdjson_result get_int64_in_string() noexcept;
 
+  /**
+   * Cast this JSON value to a 32-bit unsigned integer.
+   *
+   * Calls get_uint64() and checks that the result fits in a uint32_t.
+   *
+   * @returns A 32-bit unsigned integer.
+   * @returns INCORRECT_TYPE If the JSON value is not an unsigned integer.
+   * @returns NUMBER_OUT_OF_RANGE If the value does not fit in a uint32_t.
+   */
+  simdjson_inline simdjson_result get_uint32() noexcept;
+
+  /**
+   * Cast this JSON value to a 32-bit signed integer.
+   *
+   * Calls get_int64() and checks that the result fits in an int32_t.
+   *
+   * @returns A 32-bit signed integer.
+   * @returns INCORRECT_TYPE If the JSON value is not an integer.
+   * @returns NUMBER_OUT_OF_RANGE If the value does not fit in an int32_t.
+   */
+  simdjson_inline simdjson_result get_int32() noexcept;
+
   /**
    * Cast this JSON value to a double.
    *
@@ -90270,13 +90838,21 @@ class value {
   simdjson_inline simdjson_result at_path(std::string_view at_path) noexcept;
 
   /**
-   * Get all values matching the given JSONPath expression with wildcard support.
+   * Call the provided callback for each value matching the given JSONPath
+   * expression with wildcard support.
    * Supports wildcard character (*) for arrays or ".*" for objects.
    *
    * @param json_path JSONPath expression with wildcards
-   * @return Vector of values matching the wildcard pattern
+   * @param callback Function called for each matching value
+   * @return error_code indicating success or failure
    */
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 
 protected:
   /**
@@ -90340,6 +90916,8 @@ struct simdjson_result : public haswell::implementatio
   simdjson_inline simdjson_result get_uint64_in_string() noexcept;
   simdjson_inline simdjson_result get_int64() noexcept;
   simdjson_inline simdjson_result get_int64_in_string() noexcept;
+  simdjson_inline simdjson_result get_uint32() noexcept;
+  simdjson_inline simdjson_result get_int32() noexcept;
   simdjson_inline simdjson_result get_double() noexcept;
   simdjson_inline simdjson_result get_double_in_string() noexcept;
   simdjson_inline simdjson_result get_string(bool allow_replacement = false) noexcept;
@@ -90467,9 +91045,23 @@ struct simdjson_result : public haswell::implementatio
   simdjson_inline simdjson_result current_depth() const noexcept;
   simdjson_inline simdjson_result at_pointer(std::string_view json_pointer) noexcept;
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 };
 
+// Forward-declare explicit specializations so MSVC /permissive- sees them before
+// any template instantiation that would resolve element.get(val) to the primary.
+template<> simdjson_inline error_code
+simdjson_result::get(
+    haswell::ondemand::value &out) noexcept;
+template<> simdjson_inline simdjson_result
+simdjson_result::get() noexcept;
+
 } // namespace simdjson
 
 #endif // SIMDJSON_GENERIC_ONDEMAND_VALUE_H
@@ -91808,8 +92400,6 @@ class parser {
   static simdjson_inline bool release_parser();
 
 private:
-  friend bool release_parser();
-  friend ondemand::parser& get_parser();
   /** Get the thread-local parser instance, allocates it if needed */
   static simdjson_inline simdjson_warn_unused std::unique_ptr& get_parser_instance();
   /** Get the thread-local parser instance, it might be null */
@@ -91972,13 +92562,21 @@ class array {
   inline simdjson_result at_path(std::string_view json_path) noexcept;
 
   /**
-   * Get all values matching the given JSONPath expression with wildcard support.
+   * Call the provided callback for each value matching the given JSONPath
+   * expression with wildcard support.
    * Supports wildcard patterns like "[*]" to match all array elements.
    *
    * @param json_path JSONPath expression with wildcards
-   * @return Vector of values matching the wildcard pattern
+   * @param callback Function called for each matching value
+   * @return error_code indicating success or failure
   */
-  inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 
   /**
    * Consumes the array and returns a string_view instance corresponding to the
@@ -92102,7 +92700,13 @@ struct simdjson_result : public haswell::implementatio
   simdjson_inline simdjson_result at(size_t index) noexcept;
   simdjson_inline simdjson_result at_pointer(std::string_view json_pointer) noexcept;
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
   simdjson_inline simdjson_result raw_json() noexcept;
 #if SIMDJSON_SUPPORTS_CONCEPTS
   // TODO: move this code into object-inl.h
@@ -92334,6 +92938,26 @@ class document {
    * @returns INCORRECT_TYPE If the JSON value is not a 64-bit integer.
    */
   simdjson_inline simdjson_result get_int64_in_string() noexcept;
+  /**
+   * Cast this JSON value to a 32-bit unsigned integer.
+   *
+   * Calls get_uint64() and checks that the result fits in a uint32_t.
+   *
+   * @returns A 32-bit unsigned integer.
+   * @returns INCORRECT_TYPE If the JSON value is not an unsigned integer.
+   * @returns NUMBER_OUT_OF_RANGE If the value does not fit in a uint32_t.
+   */
+  simdjson_inline simdjson_result get_uint32() noexcept;
+  /**
+   * Cast this JSON value to a 32-bit signed integer.
+   *
+   * Calls get_int64() and checks that the result fits in an int32_t.
+   *
+   * @returns A 32-bit signed integer.
+   * @returns INCORRECT_TYPE If the JSON value is not an integer.
+   * @returns NUMBER_OUT_OF_RANGE If the value does not fit in an int32_t.
+   */
+  simdjson_inline simdjson_result get_int32() noexcept;
   /**
    * Cast this JSON value to a double.
    *
@@ -92982,21 +93606,24 @@ class document {
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
 
   /**
-   * Get all values matching the given JSONPath expression with wildcard support.
+   * Call the provided callback for each value matching the given JSONPath
+   * expression with wildcard support.
    *
    * Supports wildcard patterns like "$.array[*]" or "$.object.*" to match multiple elements.
    *
-   * This method materializes all matching values into a vector.
    * The document will be consumed after this call.
    *
    * @param json_path JSONPath expression with wildcards
-   * @return Vector of values matching the wildcard pattern, or:
-   *         - INVALID_JSON_POINTER if the JSONPath cannot be parsed
-   *         - NO_SUCH_FIELD if a field does not exist
-   *         - INDEX_OUT_OF_BOUNDS if an array index is out of bounds
-   *         - INCORRECT_TYPE if path traversal encounters wrong type
+   * @param callback Function called for each matching value
+   * @return error_code indicating success or failure
    */
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 
   /**
    * Consumes the document and returns a string_view instance corresponding to the
@@ -93087,6 +93714,8 @@ class document_reference {
   simdjson_inline simdjson_result get_uint64_in_string() noexcept;
   simdjson_inline simdjson_result get_int64() noexcept;
   simdjson_inline simdjson_result get_int64_in_string() noexcept;
+  simdjson_inline simdjson_result get_uint32() noexcept;
+  simdjson_inline simdjson_result get_int32() noexcept;
   simdjson_inline simdjson_result get_double() noexcept;
   simdjson_inline simdjson_result get_double_in_string() noexcept;
   simdjson_inline simdjson_result get_string(bool allow_replacement = false) noexcept;
@@ -93215,7 +93844,13 @@ class document_reference {
   simdjson_inline simdjson_result raw_json_token() noexcept;
   simdjson_inline simdjson_result at_pointer(std::string_view json_pointer) noexcept;
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 
 private:
   document *doc{nullptr};
@@ -93240,6 +93875,8 @@ struct simdjson_result : public haswell::implementa
   simdjson_inline simdjson_result get_uint64_in_string() noexcept;
   simdjson_inline simdjson_result get_int64() noexcept;
   simdjson_inline simdjson_result get_int64_in_string() noexcept;
+  simdjson_inline simdjson_result get_uint32() noexcept;
+  simdjson_inline simdjson_result get_int32() noexcept;
   simdjson_inline simdjson_result get_double() noexcept;
   simdjson_inline simdjson_result get_double_in_string() noexcept;
   simdjson_inline simdjson_result get_string(bool allow_replacement = false) noexcept;
@@ -93299,7 +93936,13 @@ struct simdjson_result : public haswell::implementa
 
   simdjson_inline simdjson_result at_pointer(std::string_view json_pointer) noexcept;
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 #if SIMDJSON_STATIC_REFLECTION
   template
     requires(std::is_class_v && (sizeof...(FieldNames) > 0))
@@ -93327,6 +93970,8 @@ struct simdjson_result : public haswell::
   simdjson_inline simdjson_result get_uint64_in_string() noexcept;
   simdjson_inline simdjson_result get_int64() noexcept;
   simdjson_inline simdjson_result get_int64_in_string() noexcept;
+  simdjson_inline simdjson_result get_uint32() noexcept;
+  simdjson_inline simdjson_result get_int32() noexcept;
   simdjson_inline simdjson_result get_double() noexcept;
   simdjson_inline simdjson_result get_double_in_string() noexcept;
   simdjson_inline simdjson_result get_string(bool allow_replacement = false) noexcept;
@@ -93382,7 +94027,13 @@ struct simdjson_result : public haswell::
 
   simdjson_inline simdjson_result at_pointer(std::string_view json_pointer) noexcept;
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 #if SIMDJSON_STATIC_REFLECTION
   template
     requires(std::is_class_v && (sizeof...(FieldNames) > 0))
@@ -94035,13 +94686,21 @@ class object {
   inline simdjson_result at_path(std::string_view json_path) noexcept;
 
   /**
-   * Get all values matching the given JSONPath expression with wildcard support.
+   * Call the provided callback for each value matching the given JSONPath
+   * expression with wildcard support.
    * Supports wildcard patterns like ".*" to match all object fields.
    *
    * @param json_path JSONPath expression with wildcards
-   * @return Vector of values matching the wildcard pattern
+   * @param callback Function called for each matching value
+   * @return error_code indicating success or failure
   */
-  inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 
   /**
    * Reset the iterator so that we are pointing back at the
@@ -94191,7 +94850,13 @@ struct simdjson_result : public haswell::implementati
   simdjson_inline simdjson_result operator[](std::string_view key) && noexcept;
   simdjson_inline simdjson_result at_pointer(std::string_view json_pointer) noexcept;
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
   inline simdjson_result reset() noexcept;
   inline simdjson_result is_empty() noexcept;
   inline simdjson_result count_fields() & noexcept;
@@ -95205,46 +95870,34 @@ inline simdjson_result array::at_path(std::string_view json_path) noexcep
   return at_pointer(json_pointer);
 }
 
-inline simdjson_result> array::at_path_with_wildcard(std::string_view json_path) noexcept {
-  std::vector result;
-
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+inline error_code array::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   auto result_pair = get_next_key_and_json_path(json_path);
   std::string_view key = result_pair.first;
   std::string_view remaining_path = result_pair.second;
   // Wildcard case
-  if(key=="*"){
-    for(auto element: *this){
-
-      if(element.error()){
-        return element.error();
-      }
-
-      if(remaining_path.empty()){
-        // Use value_unsafe() because we've already checked for errors above.
-        // The 'element' is a simdjson_result wrapper, and we need to extract
-        // the underlying value. value_unsafe() is safe here because error() returned false.
-        result.push_back(std::move(element).value_unsafe());
-
-      }else{
-        auto nested_result = element.at_path_with_wildcard(remaining_path);
-
-        if(nested_result.error()){
-          return nested_result.error();
-        }
-        // Same logic as above.
-        std::vector nested_matches = std::move(nested_result).value_unsafe();
-
-        result.insert(result.end(),
-                      std::make_move_iterator(nested_matches.begin()),
-                      std::make_move_iterator(nested_matches.end()));
+  if (key=="*"){
+    for(auto element: *this) {
+      value val;
+        SIMDJSON_TRY(element.get(val));
+      if (remaining_path.empty()) {
+        callback(val);
+      } else {
+        error_code err = element.for_each_at_path_with_wildcard(remaining_path, callback);
+        if(err) { return err; }
       }
     }
-    return result;
-  }else{
+    return SUCCESS;
+  } else {
     // Specific index case in which we access the element at the given index
-    size_t idx=0;
+    size_t idx = 0;
 
-    for(char c:key){
+    for (char c : key) {
       if(c < '0' || c > '9'){
         return INVALID_JSON_POINTER;
       }
@@ -95252,16 +95905,13 @@ inline simdjson_result> array::at_path_with_wildcard(std::str
     }
 
     auto element = at(idx);
-
-    if(element.error()){
-      return element.error();
-    }
-
-    if(remaining_path.empty()){
-      result.push_back(std::move(element).value_unsafe());
-      return result;
-    }else{
-      return element.at_path_with_wildcard(remaining_path);
+    value val;
+    SIMDJSON_TRY(element.get(val));
+    if (remaining_path.empty()){
+      callback(val);
+      return SUCCESS;
+    } else {
+      return element.for_each_at_path_with_wildcard(remaining_path, callback);
     }
   }
 }
@@ -95324,9 +95974,15 @@ simdjson_inline  simdjson_result simdjson_result> simdjson_result::at_path_with_wildcard(std::string_view json_path) noexcept {
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+simdjson_inline error_code simdjson_result::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   if (error()) { return error(); }
-  return first.at_path_with_wildcard(json_path);
+  return first.for_each_at_path_with_wildcard(json_path, std::forward(callback));
 }
 simdjson_inline  simdjson_result simdjson_result::raw_json() noexcept {
   if (error()) { return error(); }
@@ -95445,6 +96101,8 @@ simdjson_inline bool simdjson_result::at_end(
 /* amalgamation skipped (editor-only): #include "simdjson/generic/ondemand/value.h" */
 /* amalgamation skipped (editor-only): #endif // SIMDJSON_CONDITIONAL_INCLUDE */
 
+#include 
+
 namespace simdjson {
 namespace haswell {
 namespace ondemand {
@@ -95505,6 +96163,18 @@ simdjson_inline simdjson_result value::get_int64() noexcept {
 simdjson_inline simdjson_result value::get_int64_in_string() noexcept {
   return iter.get_int64_in_string();
 }
+simdjson_inline simdjson_result value::get_uint32() noexcept {
+  uint64_t result;
+  SIMDJSON_TRY(get_uint64().get(result));
+  if (result > (std::numeric_limits::max)()) { return NUMBER_OUT_OF_RANGE; }
+  return static_cast(result);
+}
+simdjson_inline simdjson_result value::get_int32() noexcept {
+  int64_t result;
+  SIMDJSON_TRY(get_int64().get(result));
+  if (result > (std::numeric_limits::max)() || result < (std::numeric_limits::min)()) { return NUMBER_OUT_OF_RANGE; }
+  return static_cast(result);
+}
 simdjson_inline simdjson_result value::get_bool() noexcept {
   return iter.get_bool();
 }
@@ -95520,6 +96190,8 @@ template<> simdjson_inline simdjson_result value::get() noexcept { retur
 template<> simdjson_inline simdjson_result value::get() noexcept { return get_double(); }
 template<> simdjson_inline simdjson_result value::get() noexcept { return get_uint64(); }
 template<> simdjson_inline simdjson_result value::get() noexcept { return get_int64(); }
+template<> simdjson_inline simdjson_result value::get() noexcept { return get_uint32(); }
+template<> simdjson_inline simdjson_result value::get() noexcept { return get_int32(); }
 template<> simdjson_inline simdjson_result value::get() noexcept { return get_bool(); }
 
 
@@ -95531,6 +96203,8 @@ template<> simdjson_warn_unused simdjson_inline error_code value::get(number& ou
 template<> simdjson_warn_unused simdjson_inline error_code value::get(double& out) noexcept { return get_double().get(out); }
 template<> simdjson_warn_unused simdjson_inline error_code value::get(uint64_t& out) noexcept { return get_uint64().get(out); }
 template<> simdjson_warn_unused simdjson_inline error_code value::get(int64_t& out) noexcept { return get_int64().get(out); }
+template<> simdjson_warn_unused simdjson_inline error_code value::get(uint32_t& out) noexcept { return get_uint32().get(out); }
+template<> simdjson_warn_unused simdjson_inline error_code value::get(int32_t& out) noexcept { return get_int32().get(out); }
 template<>  simdjson_warn_unused simdjson_inline error_code value::get(bool& out) noexcept { return get_bool().get(out); }
 
 #if SIMDJSON_EXCEPTIONS
@@ -95729,14 +96403,20 @@ simdjson_inline simdjson_result value::at_path(std::string_view json_path
   }
 }
 
-inline simdjson_result> value::at_path_with_wildcard(std::string_view json_path) noexcept {
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+inline error_code value::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   json_type t;
   SIMDJSON_TRY(type().get(t));
   switch (t) {
   case json_type::array:
-      return (*this).get_array().at_path_with_wildcard(json_path);
+      return (*this).get_array().for_each_at_path_with_wildcard(json_path, std::forward(callback));
   case json_type::object:
-      return (*this).get_object().at_path_with_wildcard(json_path);
+      return (*this).get_object().for_each_at_path_with_wildcard(json_path, std::forward(callback));
   default:
       return INVALID_JSON_POINTER;
   }
@@ -95834,6 +96514,14 @@ simdjson_inline simdjson_result simdjson_result simdjson_result::get_uint32() noexcept {
+  if (error()) { return error(); }
+  return first.get_uint32();
+}
+simdjson_inline simdjson_result simdjson_result::get_int32() noexcept {
+  if (error()) { return error(); }
+  return first.get_int32();
+}
 simdjson_inline simdjson_result simdjson_result::get_double() noexcept {
   if (error()) { return error(); }
   return first.get_double();
@@ -95992,12 +96680,18 @@ simdjson_inline simdjson_result simdjson_result> simdjson_result::at_path_with_wildcard(
-      std::string_view json_path) noexcept {
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+inline error_code simdjson_result::for_each_at_path_with_wildcard(
+      std::string_view json_path, Func&& callback) noexcept {
   if (error()) {
     return error();
   }
-  return first.at_path_with_wildcard(json_path);
+  return first.for_each_at_path_with_wildcard(json_path, std::forward(callback));
 }
 
 } // namespace simdjson
@@ -96024,6 +96718,8 @@ inline simdjson_result> simdjson_result
+
 namespace simdjson {
 namespace haswell {
 namespace ondemand {
@@ -96139,6 +96835,18 @@ simdjson_inline simdjson_result document::get_int64() noexcept {
 simdjson_inline simdjson_result document::get_int64_in_string() noexcept {
   return get_root_value_iterator().get_root_int64_in_string(true);
 }
+simdjson_inline simdjson_result document::get_uint32() noexcept {
+  uint64_t result;
+  SIMDJSON_TRY(get_uint64().get(result));
+  if (result > (std::numeric_limits::max)()) { return NUMBER_OUT_OF_RANGE; }
+  return static_cast(result);
+}
+simdjson_inline simdjson_result document::get_int32() noexcept {
+  int64_t result;
+  SIMDJSON_TRY(get_int64().get(result));
+  if (result > (std::numeric_limits::max)() || result < (std::numeric_limits::min)()) { return NUMBER_OUT_OF_RANGE; }
+  return static_cast(result);
+}
 simdjson_inline simdjson_result document::get_double() noexcept {
   return get_root_value_iterator().get_root_double(true);
 }
@@ -96172,6 +96880,8 @@ template<> simdjson_inline simdjson_result document::get() & n
 template<> simdjson_inline simdjson_result document::get() & noexcept { return get_double(); }
 template<> simdjson_inline simdjson_result document::get() & noexcept { return get_uint64(); }
 template<> simdjson_inline simdjson_result document::get() & noexcept { return get_int64(); }
+template<> simdjson_inline simdjson_result document::get() & noexcept { return get_uint32(); }
+template<> simdjson_inline simdjson_result document::get() & noexcept { return get_int32(); }
 template<> simdjson_inline simdjson_result document::get() & noexcept { return get_bool(); }
 template<> simdjson_inline simdjson_result document::get() & noexcept { return get_value(); }
 
@@ -96182,6 +96892,8 @@ template<> simdjson_warn_unused simdjson_inline error_code document::get(std::st
 template<> simdjson_warn_unused simdjson_inline error_code document::get(double& out) & noexcept { return get_double().get(out); }
 template<> simdjson_warn_unused simdjson_inline error_code document::get(uint64_t& out) & noexcept { return get_uint64().get(out); }
 template<> simdjson_warn_unused simdjson_inline error_code document::get(int64_t& out) & noexcept { return get_int64().get(out); }
+template<> simdjson_warn_unused simdjson_inline error_code document::get(uint32_t& out) & noexcept { return get_uint32().get(out); }
+template<> simdjson_warn_unused simdjson_inline error_code document::get(int32_t& out) & noexcept { return get_int32().get(out); }
 template<> simdjson_warn_unused simdjson_inline error_code document::get(bool& out) & noexcept { return get_bool().get(out); }
 template<> simdjson_warn_unused simdjson_inline error_code document::get(value& out) & noexcept { return get_value().get(out); }
 
@@ -96355,8 +97067,14 @@ simdjson_inline simdjson_result document::at_path(std::string_view json_p
   }
 }
 
-simdjson_inline simdjson_result> document::at_path_with_wildcard(std::string_view json_path) noexcept {
-  rewind(); // Rewind the document each time at_path_with_wildcard is called
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+simdjson_inline error_code document::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
+  rewind(); // Rewind the document each time for_each_at_path_with_wildcard is called
   if (json_path.empty()) {
       return INVALID_JSON_POINTER;
   }
@@ -96364,9 +97082,9 @@ simdjson_inline simdjson_result> document::at_path_with_wildc
   SIMDJSON_TRY(type().get(t));
   switch (t) {
   case json_type::array:
-      return (*this).get_array().at_path_with_wildcard(json_path);
+      return (*this).get_array().for_each_at_path_with_wildcard(json_path, std::forward(callback));
   case json_type::object:
-      return (*this).get_object().at_path_with_wildcard(json_path);
+      return (*this).get_object().for_each_at_path_with_wildcard(json_path, std::forward(callback));
   default:
       return INVALID_JSON_POINTER;
   }
@@ -96512,6 +97230,14 @@ simdjson_inline simdjson_result simdjson_result simdjson_result::get_uint32() noexcept {
+  if (error()) { return error(); }
+  return first.get_uint32();
+}
+simdjson_inline simdjson_result simdjson_result::get_int32() noexcept {
+  if (error()) { return error(); }
+  return first.get_int32();
+}
 simdjson_inline simdjson_result simdjson_result::get_double() noexcept {
   if (error()) { return error(); }
   return first.get_double();
@@ -96695,9 +97421,15 @@ simdjson_inline simdjson_result simdjson_result> simdjson_result::at_path_with_wildcard(std::string_view json_path) noexcept {
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+simdjson_inline error_code simdjson_result::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   if (error()) { return error(); }
-  return first.at_path_with_wildcard(json_path);
+  return first.for_each_at_path_with_wildcard(json_path, std::forward(callback));
 }
 
 #if SIMDJSON_STATIC_REFLECTION
@@ -96739,6 +97471,18 @@ simdjson_inline simdjson_result document_reference::get_uint64() noexc
 simdjson_inline simdjson_result document_reference::get_uint64_in_string() noexcept { return doc->get_root_value_iterator().get_root_uint64_in_string(false); }
 simdjson_inline simdjson_result document_reference::get_int64() noexcept { return doc->get_root_value_iterator().get_root_int64(false); }
 simdjson_inline simdjson_result document_reference::get_int64_in_string() noexcept { return doc->get_root_value_iterator().get_root_int64_in_string(false); }
+simdjson_inline simdjson_result document_reference::get_uint32() noexcept {
+  uint64_t result;
+  SIMDJSON_TRY(doc->get_root_value_iterator().get_root_uint64(false).get(result));
+  if (result > (std::numeric_limits::max)()) { return NUMBER_OUT_OF_RANGE; }
+  return static_cast(result);
+}
+simdjson_inline simdjson_result document_reference::get_int32() noexcept {
+  int64_t result;
+  SIMDJSON_TRY(doc->get_root_value_iterator().get_root_int64(false).get(result));
+  if (result > (std::numeric_limits::max)() || result < (std::numeric_limits::min)()) { return NUMBER_OUT_OF_RANGE; }
+  return static_cast(result);
+}
 simdjson_inline simdjson_result document_reference::get_double() noexcept { return doc->get_root_value_iterator().get_root_double(false); }
 simdjson_inline simdjson_result document_reference::get_double_in_string() noexcept { return doc->get_root_value_iterator().get_root_double(false); }
 simdjson_inline simdjson_result document_reference::get_string(bool allow_replacement) noexcept { return doc->get_root_value_iterator().get_root_string(false, allow_replacement); }
@@ -96756,6 +97500,8 @@ template<> simdjson_inline simdjson_result document_reference:
 template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_double(); }
 template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_uint64(); }
 template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_int64(); }
+template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_uint32(); }
+template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_int32(); }
 template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_bool(); }
 template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_value(); }
 #if SIMDJSON_EXCEPTIONS
@@ -96794,7 +97540,13 @@ simdjson_inline simdjson_result document_reference::get_number() noexcep
 simdjson_inline simdjson_result document_reference::raw_json_token() noexcept { return doc->raw_json_token(); }
 simdjson_inline simdjson_result document_reference::at_pointer(std::string_view json_pointer) noexcept { return doc->at_pointer(json_pointer); }
 simdjson_inline simdjson_result document_reference::at_path(std::string_view json_path) noexcept { return doc->at_path(json_path); }
-simdjson_inline simdjson_result> document_reference::at_path_with_wildcard(std::string_view json_path) noexcept { return doc->at_path_with_wildcard(json_path); }
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+simdjson_inline error_code document_reference::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept { return doc->for_each_at_path_with_wildcard(json_path, std::forward(callback)); }
 simdjson_inline simdjson_result document_reference::raw_json() noexcept { return doc->raw_json();}
 simdjson_inline document_reference::operator document&() const noexcept { return *doc; }
 #if SIMDJSON_SUPPORTS_CONCEPTS && SIMDJSON_STATIC_REFLECTION
@@ -96887,6 +97639,14 @@ simdjson_inline simdjson_result simdjson_result simdjson_result::get_uint32() noexcept {
+  if (error()) { return error(); }
+  return first.get_uint32();
+}
+simdjson_inline simdjson_result simdjson_result::get_int32() noexcept {
+  if (error()) { return error(); }
+  return first.get_int32();
+}
 simdjson_inline simdjson_result simdjson_result::get_double() noexcept {
   if (error()) { return error(); }
   return first.get_double();
@@ -97051,11 +97811,17 @@ simdjson_inline simdjson_result simdjson_result> simdjson_result::at_path_with_wildcard(std::string_view json_path) noexcept {
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+simdjson_inline error_code simdjson_result::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   if (error()) {
       return error();
   }
-  return first.at_path_with_wildcard(json_path);
+  return first.for_each_at_path_with_wildcard(json_path, std::forward(callback));
 }
 #if SIMDJSON_STATIC_REFLECTION
 template
@@ -98633,9 +99399,13 @@ inline simdjson_result object::at_path(std::string_view json_path) noexce
   return at_pointer(json_pointer);
 }
 
-inline simdjson_result> object::at_path_with_wildcard(std::string_view json_path) noexcept {
-  std::vector result;
-
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+inline error_code object::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   auto result_pair = get_next_key_and_json_path(json_path);
   std::string_view key = result_pair.first;
   std::string_view remaining_path = result_pair.second;
@@ -98645,34 +99415,22 @@ inline simdjson_result> object::at_path_with_wildcard(std::st
     for (auto field : *this) {
       value val;
       SIMDJSON_TRY(field.value().get(val));
-
       if (remaining_path.empty()) {
-        result.push_back(std::move(val));
+        callback(val);
       } else {
-        auto nested_result = val.at_path_with_wildcard(remaining_path);
-
-        if (nested_result.error()) {
-          return nested_result.error();
-        }
-        // Extract and append all nested matches to our result
-        std::vector nested_vec;
-        SIMDJSON_TRY(std::move(nested_result).get(nested_vec));
-
-        result.insert(result.end(),
-                     std::make_move_iterator(nested_vec.begin()),
-                     std::make_move_iterator(nested_vec.end()));
+        SIMDJSON_TRY(val.for_each_at_path_with_wildcard(remaining_path, callback));
       }
     }
-    return result;
+    return SUCCESS;
   } else {
     value val;
     SIMDJSON_TRY(find_field(key).get(val));
 
     if (remaining_path.empty()) {
-      result.push_back(std::move(val));
-      return result;
+      callback(val);
+      return SUCCESS;
     } else {
-      return val.at_path_with_wildcard(remaining_path);
+      return val.for_each_at_path_with_wildcard(remaining_path, callback);
     }
   }
 }
@@ -98803,9 +99561,15 @@ simdjson_inline simdjson_result simdjson_result> simdjson_result::at_path_with_wildcard(std::string_view json_path) noexcept {
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+simdjson_inline error_code simdjson_result::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   if (error()) { return error(); }
-  return first.at_path_with_wildcard(json_path);
+  return first.for_each_at_path_with_wildcard(json_path, std::forward(callback));
 }
 
 inline simdjson_result simdjson_result::reset() noexcept {
@@ -99159,7 +99923,7 @@ simdjson_pure simdjson_inline size_t parser::max_depth() const noexcept {
 }
 
 simdjson_inline void parser::set_max_capacity(size_t max_capacity) noexcept {
-  if(max_capacity < dom::MINIMAL_DOCUMENT_CAPACITY) {
+  if(max_capacity > dom::MINIMAL_DOCUMENT_CAPACITY) {
     _max_capacity = max_capacity;
   } else {
     _max_capacity = dom::MINIMAL_DOCUMENT_CAPACITY;
@@ -99186,7 +99950,7 @@ simdjson_inline simdjson_warn_unused ondemand::parser& parser::get_parser() {
   return *parser::get_parser_instance();
 }
 
-simdjson_inline bool release_parser() {
+simdjson_inline bool parser::release_parser() {
   auto &parser_instance = parser::get_threadlocal_parser_if_exists();
   if (parser_instance) {
     parser_instance.reset();
@@ -103394,6 +104158,28 @@ class value {
    */
   simdjson_inline simdjson_result get_int64_in_string() noexcept;
 
+  /**
+   * Cast this JSON value to a 32-bit unsigned integer.
+   *
+   * Calls get_uint64() and checks that the result fits in a uint32_t.
+   *
+   * @returns A 32-bit unsigned integer.
+   * @returns INCORRECT_TYPE If the JSON value is not an unsigned integer.
+   * @returns NUMBER_OUT_OF_RANGE If the value does not fit in a uint32_t.
+   */
+  simdjson_inline simdjson_result get_uint32() noexcept;
+
+  /**
+   * Cast this JSON value to a 32-bit signed integer.
+   *
+   * Calls get_int64() and checks that the result fits in an int32_t.
+   *
+   * @returns A 32-bit signed integer.
+   * @returns INCORRECT_TYPE If the JSON value is not an integer.
+   * @returns NUMBER_OUT_OF_RANGE If the value does not fit in an int32_t.
+   */
+  simdjson_inline simdjson_result get_int32() noexcept;
+
   /**
    * Cast this JSON value to a double.
    *
@@ -103909,13 +104695,21 @@ class value {
   simdjson_inline simdjson_result at_path(std::string_view at_path) noexcept;
 
   /**
-   * Get all values matching the given JSONPath expression with wildcard support.
+   * Call the provided callback for each value matching the given JSONPath
+   * expression with wildcard support.
    * Supports wildcard character (*) for arrays or ".*" for objects.
    *
    * @param json_path JSONPath expression with wildcards
-   * @return Vector of values matching the wildcard pattern
+   * @param callback Function called for each matching value
+   * @return error_code indicating success or failure
    */
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 
 protected:
   /**
@@ -103979,6 +104773,8 @@ struct simdjson_result : public icelake::implementatio
   simdjson_inline simdjson_result get_uint64_in_string() noexcept;
   simdjson_inline simdjson_result get_int64() noexcept;
   simdjson_inline simdjson_result get_int64_in_string() noexcept;
+  simdjson_inline simdjson_result get_uint32() noexcept;
+  simdjson_inline simdjson_result get_int32() noexcept;
   simdjson_inline simdjson_result get_double() noexcept;
   simdjson_inline simdjson_result get_double_in_string() noexcept;
   simdjson_inline simdjson_result get_string(bool allow_replacement = false) noexcept;
@@ -104106,9 +104902,23 @@ struct simdjson_result : public icelake::implementatio
   simdjson_inline simdjson_result current_depth() const noexcept;
   simdjson_inline simdjson_result at_pointer(std::string_view json_pointer) noexcept;
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 };
 
+// Forward-declare explicit specializations so MSVC /permissive- sees them before
+// any template instantiation that would resolve element.get(val) to the primary.
+template<> simdjson_inline error_code
+simdjson_result::get(
+    icelake::ondemand::value &out) noexcept;
+template<> simdjson_inline simdjson_result
+simdjson_result::get() noexcept;
+
 } // namespace simdjson
 
 #endif // SIMDJSON_GENERIC_ONDEMAND_VALUE_H
@@ -105447,8 +106257,6 @@ class parser {
   static simdjson_inline bool release_parser();
 
 private:
-  friend bool release_parser();
-  friend ondemand::parser& get_parser();
   /** Get the thread-local parser instance, allocates it if needed */
   static simdjson_inline simdjson_warn_unused std::unique_ptr& get_parser_instance();
   /** Get the thread-local parser instance, it might be null */
@@ -105611,13 +106419,21 @@ class array {
   inline simdjson_result at_path(std::string_view json_path) noexcept;
 
   /**
-   * Get all values matching the given JSONPath expression with wildcard support.
+   * Call the provided callback for each value matching the given JSONPath
+   * expression with wildcard support.
    * Supports wildcard patterns like "[*]" to match all array elements.
    *
    * @param json_path JSONPath expression with wildcards
-   * @return Vector of values matching the wildcard pattern
+   * @param callback Function called for each matching value
+   * @return error_code indicating success or failure
   */
-  inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 
   /**
    * Consumes the array and returns a string_view instance corresponding to the
@@ -105741,7 +106557,13 @@ struct simdjson_result : public icelake::implementatio
   simdjson_inline simdjson_result at(size_t index) noexcept;
   simdjson_inline simdjson_result at_pointer(std::string_view json_pointer) noexcept;
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
   simdjson_inline simdjson_result raw_json() noexcept;
 #if SIMDJSON_SUPPORTS_CONCEPTS
   // TODO: move this code into object-inl.h
@@ -105973,6 +106795,26 @@ class document {
    * @returns INCORRECT_TYPE If the JSON value is not a 64-bit integer.
    */
   simdjson_inline simdjson_result get_int64_in_string() noexcept;
+  /**
+   * Cast this JSON value to a 32-bit unsigned integer.
+   *
+   * Calls get_uint64() and checks that the result fits in a uint32_t.
+   *
+   * @returns A 32-bit unsigned integer.
+   * @returns INCORRECT_TYPE If the JSON value is not an unsigned integer.
+   * @returns NUMBER_OUT_OF_RANGE If the value does not fit in a uint32_t.
+   */
+  simdjson_inline simdjson_result get_uint32() noexcept;
+  /**
+   * Cast this JSON value to a 32-bit signed integer.
+   *
+   * Calls get_int64() and checks that the result fits in an int32_t.
+   *
+   * @returns A 32-bit signed integer.
+   * @returns INCORRECT_TYPE If the JSON value is not an integer.
+   * @returns NUMBER_OUT_OF_RANGE If the value does not fit in an int32_t.
+   */
+  simdjson_inline simdjson_result get_int32() noexcept;
   /**
    * Cast this JSON value to a double.
    *
@@ -106621,21 +107463,24 @@ class document {
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
 
   /**
-   * Get all values matching the given JSONPath expression with wildcard support.
+   * Call the provided callback for each value matching the given JSONPath
+   * expression with wildcard support.
    *
    * Supports wildcard patterns like "$.array[*]" or "$.object.*" to match multiple elements.
    *
-   * This method materializes all matching values into a vector.
    * The document will be consumed after this call.
    *
    * @param json_path JSONPath expression with wildcards
-   * @return Vector of values matching the wildcard pattern, or:
-   *         - INVALID_JSON_POINTER if the JSONPath cannot be parsed
-   *         - NO_SUCH_FIELD if a field does not exist
-   *         - INDEX_OUT_OF_BOUNDS if an array index is out of bounds
-   *         - INCORRECT_TYPE if path traversal encounters wrong type
+   * @param callback Function called for each matching value
+   * @return error_code indicating success or failure
    */
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 
   /**
    * Consumes the document and returns a string_view instance corresponding to the
@@ -106726,6 +107571,8 @@ class document_reference {
   simdjson_inline simdjson_result get_uint64_in_string() noexcept;
   simdjson_inline simdjson_result get_int64() noexcept;
   simdjson_inline simdjson_result get_int64_in_string() noexcept;
+  simdjson_inline simdjson_result get_uint32() noexcept;
+  simdjson_inline simdjson_result get_int32() noexcept;
   simdjson_inline simdjson_result get_double() noexcept;
   simdjson_inline simdjson_result get_double_in_string() noexcept;
   simdjson_inline simdjson_result get_string(bool allow_replacement = false) noexcept;
@@ -106854,7 +107701,13 @@ class document_reference {
   simdjson_inline simdjson_result raw_json_token() noexcept;
   simdjson_inline simdjson_result at_pointer(std::string_view json_pointer) noexcept;
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 
 private:
   document *doc{nullptr};
@@ -106879,6 +107732,8 @@ struct simdjson_result : public icelake::implementa
   simdjson_inline simdjson_result get_uint64_in_string() noexcept;
   simdjson_inline simdjson_result get_int64() noexcept;
   simdjson_inline simdjson_result get_int64_in_string() noexcept;
+  simdjson_inline simdjson_result get_uint32() noexcept;
+  simdjson_inline simdjson_result get_int32() noexcept;
   simdjson_inline simdjson_result get_double() noexcept;
   simdjson_inline simdjson_result get_double_in_string() noexcept;
   simdjson_inline simdjson_result get_string(bool allow_replacement = false) noexcept;
@@ -106938,7 +107793,13 @@ struct simdjson_result : public icelake::implementa
 
   simdjson_inline simdjson_result at_pointer(std::string_view json_pointer) noexcept;
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 #if SIMDJSON_STATIC_REFLECTION
   template
     requires(std::is_class_v && (sizeof...(FieldNames) > 0))
@@ -106966,6 +107827,8 @@ struct simdjson_result : public icelake::
   simdjson_inline simdjson_result get_uint64_in_string() noexcept;
   simdjson_inline simdjson_result get_int64() noexcept;
   simdjson_inline simdjson_result get_int64_in_string() noexcept;
+  simdjson_inline simdjson_result get_uint32() noexcept;
+  simdjson_inline simdjson_result get_int32() noexcept;
   simdjson_inline simdjson_result get_double() noexcept;
   simdjson_inline simdjson_result get_double_in_string() noexcept;
   simdjson_inline simdjson_result get_string(bool allow_replacement = false) noexcept;
@@ -107021,7 +107884,13 @@ struct simdjson_result : public icelake::
 
   simdjson_inline simdjson_result at_pointer(std::string_view json_pointer) noexcept;
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 #if SIMDJSON_STATIC_REFLECTION
   template
     requires(std::is_class_v && (sizeof...(FieldNames) > 0))
@@ -107674,13 +108543,21 @@ class object {
   inline simdjson_result at_path(std::string_view json_path) noexcept;
 
   /**
-   * Get all values matching the given JSONPath expression with wildcard support.
+   * Call the provided callback for each value matching the given JSONPath
+   * expression with wildcard support.
    * Supports wildcard patterns like ".*" to match all object fields.
    *
    * @param json_path JSONPath expression with wildcards
-   * @return Vector of values matching the wildcard pattern
+   * @param callback Function called for each matching value
+   * @return error_code indicating success or failure
   */
-  inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 
   /**
    * Reset the iterator so that we are pointing back at the
@@ -107830,7 +108707,13 @@ struct simdjson_result : public icelake::implementati
   simdjson_inline simdjson_result operator[](std::string_view key) && noexcept;
   simdjson_inline simdjson_result at_pointer(std::string_view json_pointer) noexcept;
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
   inline simdjson_result reset() noexcept;
   inline simdjson_result is_empty() noexcept;
   inline simdjson_result count_fields() & noexcept;
@@ -108844,46 +109727,34 @@ inline simdjson_result array::at_path(std::string_view json_path) noexcep
   return at_pointer(json_pointer);
 }
 
-inline simdjson_result> array::at_path_with_wildcard(std::string_view json_path) noexcept {
-  std::vector result;
-
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+inline error_code array::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   auto result_pair = get_next_key_and_json_path(json_path);
   std::string_view key = result_pair.first;
   std::string_view remaining_path = result_pair.second;
   // Wildcard case
-  if(key=="*"){
-    for(auto element: *this){
-
-      if(element.error()){
-        return element.error();
-      }
-
-      if(remaining_path.empty()){
-        // Use value_unsafe() because we've already checked for errors above.
-        // The 'element' is a simdjson_result wrapper, and we need to extract
-        // the underlying value. value_unsafe() is safe here because error() returned false.
-        result.push_back(std::move(element).value_unsafe());
-
-      }else{
-        auto nested_result = element.at_path_with_wildcard(remaining_path);
-
-        if(nested_result.error()){
-          return nested_result.error();
-        }
-        // Same logic as above.
-        std::vector nested_matches = std::move(nested_result).value_unsafe();
-
-        result.insert(result.end(),
-                      std::make_move_iterator(nested_matches.begin()),
-                      std::make_move_iterator(nested_matches.end()));
+  if (key=="*"){
+    for(auto element: *this) {
+      value val;
+        SIMDJSON_TRY(element.get(val));
+      if (remaining_path.empty()) {
+        callback(val);
+      } else {
+        error_code err = element.for_each_at_path_with_wildcard(remaining_path, callback);
+        if(err) { return err; }
       }
     }
-    return result;
-  }else{
+    return SUCCESS;
+  } else {
     // Specific index case in which we access the element at the given index
-    size_t idx=0;
+    size_t idx = 0;
 
-    for(char c:key){
+    for (char c : key) {
       if(c < '0' || c > '9'){
         return INVALID_JSON_POINTER;
       }
@@ -108891,16 +109762,13 @@ inline simdjson_result> array::at_path_with_wildcard(std::str
     }
 
     auto element = at(idx);
-
-    if(element.error()){
-      return element.error();
-    }
-
-    if(remaining_path.empty()){
-      result.push_back(std::move(element).value_unsafe());
-      return result;
-    }else{
-      return element.at_path_with_wildcard(remaining_path);
+    value val;
+    SIMDJSON_TRY(element.get(val));
+    if (remaining_path.empty()){
+      callback(val);
+      return SUCCESS;
+    } else {
+      return element.for_each_at_path_with_wildcard(remaining_path, callback);
     }
   }
 }
@@ -108963,9 +109831,15 @@ simdjson_inline  simdjson_result simdjson_result> simdjson_result::at_path_with_wildcard(std::string_view json_path) noexcept {
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+simdjson_inline error_code simdjson_result::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   if (error()) { return error(); }
-  return first.at_path_with_wildcard(json_path);
+  return first.for_each_at_path_with_wildcard(json_path, std::forward(callback));
 }
 simdjson_inline  simdjson_result simdjson_result::raw_json() noexcept {
   if (error()) { return error(); }
@@ -109084,6 +109958,8 @@ simdjson_inline bool simdjson_result::at_end(
 /* amalgamation skipped (editor-only): #include "simdjson/generic/ondemand/value.h" */
 /* amalgamation skipped (editor-only): #endif // SIMDJSON_CONDITIONAL_INCLUDE */
 
+#include 
+
 namespace simdjson {
 namespace icelake {
 namespace ondemand {
@@ -109144,6 +110020,18 @@ simdjson_inline simdjson_result value::get_int64() noexcept {
 simdjson_inline simdjson_result value::get_int64_in_string() noexcept {
   return iter.get_int64_in_string();
 }
+simdjson_inline simdjson_result value::get_uint32() noexcept {
+  uint64_t result;
+  SIMDJSON_TRY(get_uint64().get(result));
+  if (result > (std::numeric_limits::max)()) { return NUMBER_OUT_OF_RANGE; }
+  return static_cast(result);
+}
+simdjson_inline simdjson_result value::get_int32() noexcept {
+  int64_t result;
+  SIMDJSON_TRY(get_int64().get(result));
+  if (result > (std::numeric_limits::max)() || result < (std::numeric_limits::min)()) { return NUMBER_OUT_OF_RANGE; }
+  return static_cast(result);
+}
 simdjson_inline simdjson_result value::get_bool() noexcept {
   return iter.get_bool();
 }
@@ -109159,6 +110047,8 @@ template<> simdjson_inline simdjson_result value::get() noexcept { retur
 template<> simdjson_inline simdjson_result value::get() noexcept { return get_double(); }
 template<> simdjson_inline simdjson_result value::get() noexcept { return get_uint64(); }
 template<> simdjson_inline simdjson_result value::get() noexcept { return get_int64(); }
+template<> simdjson_inline simdjson_result value::get() noexcept { return get_uint32(); }
+template<> simdjson_inline simdjson_result value::get() noexcept { return get_int32(); }
 template<> simdjson_inline simdjson_result value::get() noexcept { return get_bool(); }
 
 
@@ -109170,6 +110060,8 @@ template<> simdjson_warn_unused simdjson_inline error_code value::get(number& ou
 template<> simdjson_warn_unused simdjson_inline error_code value::get(double& out) noexcept { return get_double().get(out); }
 template<> simdjson_warn_unused simdjson_inline error_code value::get(uint64_t& out) noexcept { return get_uint64().get(out); }
 template<> simdjson_warn_unused simdjson_inline error_code value::get(int64_t& out) noexcept { return get_int64().get(out); }
+template<> simdjson_warn_unused simdjson_inline error_code value::get(uint32_t& out) noexcept { return get_uint32().get(out); }
+template<> simdjson_warn_unused simdjson_inline error_code value::get(int32_t& out) noexcept { return get_int32().get(out); }
 template<>  simdjson_warn_unused simdjson_inline error_code value::get(bool& out) noexcept { return get_bool().get(out); }
 
 #if SIMDJSON_EXCEPTIONS
@@ -109368,14 +110260,20 @@ simdjson_inline simdjson_result value::at_path(std::string_view json_path
   }
 }
 
-inline simdjson_result> value::at_path_with_wildcard(std::string_view json_path) noexcept {
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+inline error_code value::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   json_type t;
   SIMDJSON_TRY(type().get(t));
   switch (t) {
   case json_type::array:
-      return (*this).get_array().at_path_with_wildcard(json_path);
+      return (*this).get_array().for_each_at_path_with_wildcard(json_path, std::forward(callback));
   case json_type::object:
-      return (*this).get_object().at_path_with_wildcard(json_path);
+      return (*this).get_object().for_each_at_path_with_wildcard(json_path, std::forward(callback));
   default:
       return INVALID_JSON_POINTER;
   }
@@ -109473,6 +110371,14 @@ simdjson_inline simdjson_result simdjson_result simdjson_result::get_uint32() noexcept {
+  if (error()) { return error(); }
+  return first.get_uint32();
+}
+simdjson_inline simdjson_result simdjson_result::get_int32() noexcept {
+  if (error()) { return error(); }
+  return first.get_int32();
+}
 simdjson_inline simdjson_result simdjson_result::get_double() noexcept {
   if (error()) { return error(); }
   return first.get_double();
@@ -109631,12 +110537,18 @@ simdjson_inline simdjson_result simdjson_result> simdjson_result::at_path_with_wildcard(
-      std::string_view json_path) noexcept {
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+inline error_code simdjson_result::for_each_at_path_with_wildcard(
+      std::string_view json_path, Func&& callback) noexcept {
   if (error()) {
     return error();
   }
-  return first.at_path_with_wildcard(json_path);
+  return first.for_each_at_path_with_wildcard(json_path, std::forward(callback));
 }
 
 } // namespace simdjson
@@ -109663,6 +110575,8 @@ inline simdjson_result> simdjson_result
+
 namespace simdjson {
 namespace icelake {
 namespace ondemand {
@@ -109778,6 +110692,18 @@ simdjson_inline simdjson_result document::get_int64() noexcept {
 simdjson_inline simdjson_result document::get_int64_in_string() noexcept {
   return get_root_value_iterator().get_root_int64_in_string(true);
 }
+simdjson_inline simdjson_result document::get_uint32() noexcept {
+  uint64_t result;
+  SIMDJSON_TRY(get_uint64().get(result));
+  if (result > (std::numeric_limits::max)()) { return NUMBER_OUT_OF_RANGE; }
+  return static_cast(result);
+}
+simdjson_inline simdjson_result document::get_int32() noexcept {
+  int64_t result;
+  SIMDJSON_TRY(get_int64().get(result));
+  if (result > (std::numeric_limits::max)() || result < (std::numeric_limits::min)()) { return NUMBER_OUT_OF_RANGE; }
+  return static_cast(result);
+}
 simdjson_inline simdjson_result document::get_double() noexcept {
   return get_root_value_iterator().get_root_double(true);
 }
@@ -109811,6 +110737,8 @@ template<> simdjson_inline simdjson_result document::get() & n
 template<> simdjson_inline simdjson_result document::get() & noexcept { return get_double(); }
 template<> simdjson_inline simdjson_result document::get() & noexcept { return get_uint64(); }
 template<> simdjson_inline simdjson_result document::get() & noexcept { return get_int64(); }
+template<> simdjson_inline simdjson_result document::get() & noexcept { return get_uint32(); }
+template<> simdjson_inline simdjson_result document::get() & noexcept { return get_int32(); }
 template<> simdjson_inline simdjson_result document::get() & noexcept { return get_bool(); }
 template<> simdjson_inline simdjson_result document::get() & noexcept { return get_value(); }
 
@@ -109821,6 +110749,8 @@ template<> simdjson_warn_unused simdjson_inline error_code document::get(std::st
 template<> simdjson_warn_unused simdjson_inline error_code document::get(double& out) & noexcept { return get_double().get(out); }
 template<> simdjson_warn_unused simdjson_inline error_code document::get(uint64_t& out) & noexcept { return get_uint64().get(out); }
 template<> simdjson_warn_unused simdjson_inline error_code document::get(int64_t& out) & noexcept { return get_int64().get(out); }
+template<> simdjson_warn_unused simdjson_inline error_code document::get(uint32_t& out) & noexcept { return get_uint32().get(out); }
+template<> simdjson_warn_unused simdjson_inline error_code document::get(int32_t& out) & noexcept { return get_int32().get(out); }
 template<> simdjson_warn_unused simdjson_inline error_code document::get(bool& out) & noexcept { return get_bool().get(out); }
 template<> simdjson_warn_unused simdjson_inline error_code document::get(value& out) & noexcept { return get_value().get(out); }
 
@@ -109994,8 +110924,14 @@ simdjson_inline simdjson_result document::at_path(std::string_view json_p
   }
 }
 
-simdjson_inline simdjson_result> document::at_path_with_wildcard(std::string_view json_path) noexcept {
-  rewind(); // Rewind the document each time at_path_with_wildcard is called
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+simdjson_inline error_code document::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
+  rewind(); // Rewind the document each time for_each_at_path_with_wildcard is called
   if (json_path.empty()) {
       return INVALID_JSON_POINTER;
   }
@@ -110003,9 +110939,9 @@ simdjson_inline simdjson_result> document::at_path_with_wildc
   SIMDJSON_TRY(type().get(t));
   switch (t) {
   case json_type::array:
-      return (*this).get_array().at_path_with_wildcard(json_path);
+      return (*this).get_array().for_each_at_path_with_wildcard(json_path, std::forward(callback));
   case json_type::object:
-      return (*this).get_object().at_path_with_wildcard(json_path);
+      return (*this).get_object().for_each_at_path_with_wildcard(json_path, std::forward(callback));
   default:
       return INVALID_JSON_POINTER;
   }
@@ -110151,6 +111087,14 @@ simdjson_inline simdjson_result simdjson_result simdjson_result::get_uint32() noexcept {
+  if (error()) { return error(); }
+  return first.get_uint32();
+}
+simdjson_inline simdjson_result simdjson_result::get_int32() noexcept {
+  if (error()) { return error(); }
+  return first.get_int32();
+}
 simdjson_inline simdjson_result simdjson_result::get_double() noexcept {
   if (error()) { return error(); }
   return first.get_double();
@@ -110334,9 +111278,15 @@ simdjson_inline simdjson_result simdjson_result> simdjson_result::at_path_with_wildcard(std::string_view json_path) noexcept {
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+simdjson_inline error_code simdjson_result::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   if (error()) { return error(); }
-  return first.at_path_with_wildcard(json_path);
+  return first.for_each_at_path_with_wildcard(json_path, std::forward(callback));
 }
 
 #if SIMDJSON_STATIC_REFLECTION
@@ -110378,6 +111328,18 @@ simdjson_inline simdjson_result document_reference::get_uint64() noexc
 simdjson_inline simdjson_result document_reference::get_uint64_in_string() noexcept { return doc->get_root_value_iterator().get_root_uint64_in_string(false); }
 simdjson_inline simdjson_result document_reference::get_int64() noexcept { return doc->get_root_value_iterator().get_root_int64(false); }
 simdjson_inline simdjson_result document_reference::get_int64_in_string() noexcept { return doc->get_root_value_iterator().get_root_int64_in_string(false); }
+simdjson_inline simdjson_result document_reference::get_uint32() noexcept {
+  uint64_t result;
+  SIMDJSON_TRY(doc->get_root_value_iterator().get_root_uint64(false).get(result));
+  if (result > (std::numeric_limits::max)()) { return NUMBER_OUT_OF_RANGE; }
+  return static_cast(result);
+}
+simdjson_inline simdjson_result document_reference::get_int32() noexcept {
+  int64_t result;
+  SIMDJSON_TRY(doc->get_root_value_iterator().get_root_int64(false).get(result));
+  if (result > (std::numeric_limits::max)() || result < (std::numeric_limits::min)()) { return NUMBER_OUT_OF_RANGE; }
+  return static_cast(result);
+}
 simdjson_inline simdjson_result document_reference::get_double() noexcept { return doc->get_root_value_iterator().get_root_double(false); }
 simdjson_inline simdjson_result document_reference::get_double_in_string() noexcept { return doc->get_root_value_iterator().get_root_double(false); }
 simdjson_inline simdjson_result document_reference::get_string(bool allow_replacement) noexcept { return doc->get_root_value_iterator().get_root_string(false, allow_replacement); }
@@ -110395,6 +111357,8 @@ template<> simdjson_inline simdjson_result document_reference:
 template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_double(); }
 template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_uint64(); }
 template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_int64(); }
+template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_uint32(); }
+template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_int32(); }
 template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_bool(); }
 template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_value(); }
 #if SIMDJSON_EXCEPTIONS
@@ -110433,7 +111397,13 @@ simdjson_inline simdjson_result document_reference::get_number() noexcep
 simdjson_inline simdjson_result document_reference::raw_json_token() noexcept { return doc->raw_json_token(); }
 simdjson_inline simdjson_result document_reference::at_pointer(std::string_view json_pointer) noexcept { return doc->at_pointer(json_pointer); }
 simdjson_inline simdjson_result document_reference::at_path(std::string_view json_path) noexcept { return doc->at_path(json_path); }
-simdjson_inline simdjson_result> document_reference::at_path_with_wildcard(std::string_view json_path) noexcept { return doc->at_path_with_wildcard(json_path); }
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+simdjson_inline error_code document_reference::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept { return doc->for_each_at_path_with_wildcard(json_path, std::forward(callback)); }
 simdjson_inline simdjson_result document_reference::raw_json() noexcept { return doc->raw_json();}
 simdjson_inline document_reference::operator document&() const noexcept { return *doc; }
 #if SIMDJSON_SUPPORTS_CONCEPTS && SIMDJSON_STATIC_REFLECTION
@@ -110526,6 +111496,14 @@ simdjson_inline simdjson_result simdjson_result simdjson_result::get_uint32() noexcept {
+  if (error()) { return error(); }
+  return first.get_uint32();
+}
+simdjson_inline simdjson_result simdjson_result::get_int32() noexcept {
+  if (error()) { return error(); }
+  return first.get_int32();
+}
 simdjson_inline simdjson_result simdjson_result::get_double() noexcept {
   if (error()) { return error(); }
   return first.get_double();
@@ -110690,11 +111668,17 @@ simdjson_inline simdjson_result simdjson_result> simdjson_result::at_path_with_wildcard(std::string_view json_path) noexcept {
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+simdjson_inline error_code simdjson_result::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   if (error()) {
       return error();
   }
-  return first.at_path_with_wildcard(json_path);
+  return first.for_each_at_path_with_wildcard(json_path, std::forward(callback));
 }
 #if SIMDJSON_STATIC_REFLECTION
 template
@@ -112272,9 +113256,13 @@ inline simdjson_result object::at_path(std::string_view json_path) noexce
   return at_pointer(json_pointer);
 }
 
-inline simdjson_result> object::at_path_with_wildcard(std::string_view json_path) noexcept {
-  std::vector result;
-
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+inline error_code object::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   auto result_pair = get_next_key_and_json_path(json_path);
   std::string_view key = result_pair.first;
   std::string_view remaining_path = result_pair.second;
@@ -112284,34 +113272,22 @@ inline simdjson_result> object::at_path_with_wildcard(std::st
     for (auto field : *this) {
       value val;
       SIMDJSON_TRY(field.value().get(val));
-
       if (remaining_path.empty()) {
-        result.push_back(std::move(val));
+        callback(val);
       } else {
-        auto nested_result = val.at_path_with_wildcard(remaining_path);
-
-        if (nested_result.error()) {
-          return nested_result.error();
-        }
-        // Extract and append all nested matches to our result
-        std::vector nested_vec;
-        SIMDJSON_TRY(std::move(nested_result).get(nested_vec));
-
-        result.insert(result.end(),
-                     std::make_move_iterator(nested_vec.begin()),
-                     std::make_move_iterator(nested_vec.end()));
+        SIMDJSON_TRY(val.for_each_at_path_with_wildcard(remaining_path, callback));
       }
     }
-    return result;
+    return SUCCESS;
   } else {
     value val;
     SIMDJSON_TRY(find_field(key).get(val));
 
     if (remaining_path.empty()) {
-      result.push_back(std::move(val));
-      return result;
+      callback(val);
+      return SUCCESS;
     } else {
-      return val.at_path_with_wildcard(remaining_path);
+      return val.for_each_at_path_with_wildcard(remaining_path, callback);
     }
   }
 }
@@ -112442,9 +113418,15 @@ simdjson_inline simdjson_result simdjson_result> simdjson_result::at_path_with_wildcard(std::string_view json_path) noexcept {
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+simdjson_inline error_code simdjson_result::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   if (error()) { return error(); }
-  return first.at_path_with_wildcard(json_path);
+  return first.for_each_at_path_with_wildcard(json_path, std::forward(callback));
 }
 
 inline simdjson_result simdjson_result::reset() noexcept {
@@ -112798,7 +113780,7 @@ simdjson_pure simdjson_inline size_t parser::max_depth() const noexcept {
 }
 
 simdjson_inline void parser::set_max_capacity(size_t max_capacity) noexcept {
-  if(max_capacity < dom::MINIMAL_DOCUMENT_CAPACITY) {
+  if(max_capacity > dom::MINIMAL_DOCUMENT_CAPACITY) {
     _max_capacity = max_capacity;
   } else {
     _max_capacity = dom::MINIMAL_DOCUMENT_CAPACITY;
@@ -112825,7 +113807,7 @@ simdjson_inline simdjson_warn_unused ondemand::parser& parser::get_parser() {
   return *parser::get_parser_instance();
 }
 
-simdjson_inline bool release_parser() {
+simdjson_inline bool parser::release_parser() {
   auto &parser_instance = parser::get_threadlocal_parser_if_exists();
   if (parser_instance) {
     parser_instance.reset();
@@ -117148,6 +118130,28 @@ class value {
    */
   simdjson_inline simdjson_result get_int64_in_string() noexcept;
 
+  /**
+   * Cast this JSON value to a 32-bit unsigned integer.
+   *
+   * Calls get_uint64() and checks that the result fits in a uint32_t.
+   *
+   * @returns A 32-bit unsigned integer.
+   * @returns INCORRECT_TYPE If the JSON value is not an unsigned integer.
+   * @returns NUMBER_OUT_OF_RANGE If the value does not fit in a uint32_t.
+   */
+  simdjson_inline simdjson_result get_uint32() noexcept;
+
+  /**
+   * Cast this JSON value to a 32-bit signed integer.
+   *
+   * Calls get_int64() and checks that the result fits in an int32_t.
+   *
+   * @returns A 32-bit signed integer.
+   * @returns INCORRECT_TYPE If the JSON value is not an integer.
+   * @returns NUMBER_OUT_OF_RANGE If the value does not fit in an int32_t.
+   */
+  simdjson_inline simdjson_result get_int32() noexcept;
+
   /**
    * Cast this JSON value to a double.
    *
@@ -117663,13 +118667,21 @@ class value {
   simdjson_inline simdjson_result at_path(std::string_view at_path) noexcept;
 
   /**
-   * Get all values matching the given JSONPath expression with wildcard support.
+   * Call the provided callback for each value matching the given JSONPath
+   * expression with wildcard support.
    * Supports wildcard character (*) for arrays or ".*" for objects.
    *
    * @param json_path JSONPath expression with wildcards
-   * @return Vector of values matching the wildcard pattern
+   * @param callback Function called for each matching value
+   * @return error_code indicating success or failure
    */
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 
 protected:
   /**
@@ -117733,6 +118745,8 @@ struct simdjson_result : public ppc64::implementation_si
   simdjson_inline simdjson_result get_uint64_in_string() noexcept;
   simdjson_inline simdjson_result get_int64() noexcept;
   simdjson_inline simdjson_result get_int64_in_string() noexcept;
+  simdjson_inline simdjson_result get_uint32() noexcept;
+  simdjson_inline simdjson_result get_int32() noexcept;
   simdjson_inline simdjson_result get_double() noexcept;
   simdjson_inline simdjson_result get_double_in_string() noexcept;
   simdjson_inline simdjson_result get_string(bool allow_replacement = false) noexcept;
@@ -117860,9 +118874,23 @@ struct simdjson_result : public ppc64::implementation_si
   simdjson_inline simdjson_result current_depth() const noexcept;
   simdjson_inline simdjson_result at_pointer(std::string_view json_pointer) noexcept;
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 };
 
+// Forward-declare explicit specializations so MSVC /permissive- sees them before
+// any template instantiation that would resolve element.get(val) to the primary.
+template<> simdjson_inline error_code
+simdjson_result::get(
+    ppc64::ondemand::value &out) noexcept;
+template<> simdjson_inline simdjson_result
+simdjson_result::get() noexcept;
+
 } // namespace simdjson
 
 #endif // SIMDJSON_GENERIC_ONDEMAND_VALUE_H
@@ -119201,8 +120229,6 @@ class parser {
   static simdjson_inline bool release_parser();
 
 private:
-  friend bool release_parser();
-  friend ondemand::parser& get_parser();
   /** Get the thread-local parser instance, allocates it if needed */
   static simdjson_inline simdjson_warn_unused std::unique_ptr& get_parser_instance();
   /** Get the thread-local parser instance, it might be null */
@@ -119365,13 +120391,21 @@ class array {
   inline simdjson_result at_path(std::string_view json_path) noexcept;
 
   /**
-   * Get all values matching the given JSONPath expression with wildcard support.
+   * Call the provided callback for each value matching the given JSONPath
+   * expression with wildcard support.
    * Supports wildcard patterns like "[*]" to match all array elements.
    *
    * @param json_path JSONPath expression with wildcards
-   * @return Vector of values matching the wildcard pattern
+   * @param callback Function called for each matching value
+   * @return error_code indicating success or failure
   */
-  inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 
   /**
    * Consumes the array and returns a string_view instance corresponding to the
@@ -119495,7 +120529,13 @@ struct simdjson_result : public ppc64::implementation_si
   simdjson_inline simdjson_result at(size_t index) noexcept;
   simdjson_inline simdjson_result at_pointer(std::string_view json_pointer) noexcept;
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
   simdjson_inline simdjson_result raw_json() noexcept;
 #if SIMDJSON_SUPPORTS_CONCEPTS
   // TODO: move this code into object-inl.h
@@ -119727,6 +120767,26 @@ class document {
    * @returns INCORRECT_TYPE If the JSON value is not a 64-bit integer.
    */
   simdjson_inline simdjson_result get_int64_in_string() noexcept;
+  /**
+   * Cast this JSON value to a 32-bit unsigned integer.
+   *
+   * Calls get_uint64() and checks that the result fits in a uint32_t.
+   *
+   * @returns A 32-bit unsigned integer.
+   * @returns INCORRECT_TYPE If the JSON value is not an unsigned integer.
+   * @returns NUMBER_OUT_OF_RANGE If the value does not fit in a uint32_t.
+   */
+  simdjson_inline simdjson_result get_uint32() noexcept;
+  /**
+   * Cast this JSON value to a 32-bit signed integer.
+   *
+   * Calls get_int64() and checks that the result fits in an int32_t.
+   *
+   * @returns A 32-bit signed integer.
+   * @returns INCORRECT_TYPE If the JSON value is not an integer.
+   * @returns NUMBER_OUT_OF_RANGE If the value does not fit in an int32_t.
+   */
+  simdjson_inline simdjson_result get_int32() noexcept;
   /**
    * Cast this JSON value to a double.
    *
@@ -120375,21 +121435,24 @@ class document {
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
 
   /**
-   * Get all values matching the given JSONPath expression with wildcard support.
+   * Call the provided callback for each value matching the given JSONPath
+   * expression with wildcard support.
    *
    * Supports wildcard patterns like "$.array[*]" or "$.object.*" to match multiple elements.
    *
-   * This method materializes all matching values into a vector.
    * The document will be consumed after this call.
    *
    * @param json_path JSONPath expression with wildcards
-   * @return Vector of values matching the wildcard pattern, or:
-   *         - INVALID_JSON_POINTER if the JSONPath cannot be parsed
-   *         - NO_SUCH_FIELD if a field does not exist
-   *         - INDEX_OUT_OF_BOUNDS if an array index is out of bounds
-   *         - INCORRECT_TYPE if path traversal encounters wrong type
+   * @param callback Function called for each matching value
+   * @return error_code indicating success or failure
    */
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 
   /**
    * Consumes the document and returns a string_view instance corresponding to the
@@ -120480,6 +121543,8 @@ class document_reference {
   simdjson_inline simdjson_result get_uint64_in_string() noexcept;
   simdjson_inline simdjson_result get_int64() noexcept;
   simdjson_inline simdjson_result get_int64_in_string() noexcept;
+  simdjson_inline simdjson_result get_uint32() noexcept;
+  simdjson_inline simdjson_result get_int32() noexcept;
   simdjson_inline simdjson_result get_double() noexcept;
   simdjson_inline simdjson_result get_double_in_string() noexcept;
   simdjson_inline simdjson_result get_string(bool allow_replacement = false) noexcept;
@@ -120608,7 +121673,13 @@ class document_reference {
   simdjson_inline simdjson_result raw_json_token() noexcept;
   simdjson_inline simdjson_result at_pointer(std::string_view json_pointer) noexcept;
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 
 private:
   document *doc{nullptr};
@@ -120633,6 +121704,8 @@ struct simdjson_result : public ppc64::implementation
   simdjson_inline simdjson_result get_uint64_in_string() noexcept;
   simdjson_inline simdjson_result get_int64() noexcept;
   simdjson_inline simdjson_result get_int64_in_string() noexcept;
+  simdjson_inline simdjson_result get_uint32() noexcept;
+  simdjson_inline simdjson_result get_int32() noexcept;
   simdjson_inline simdjson_result get_double() noexcept;
   simdjson_inline simdjson_result get_double_in_string() noexcept;
   simdjson_inline simdjson_result get_string(bool allow_replacement = false) noexcept;
@@ -120692,7 +121765,13 @@ struct simdjson_result : public ppc64::implementation
 
   simdjson_inline simdjson_result at_pointer(std::string_view json_pointer) noexcept;
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 #if SIMDJSON_STATIC_REFLECTION
   template
     requires(std::is_class_v && (sizeof...(FieldNames) > 0))
@@ -120720,6 +121799,8 @@ struct simdjson_result : public ppc64::impl
   simdjson_inline simdjson_result get_uint64_in_string() noexcept;
   simdjson_inline simdjson_result get_int64() noexcept;
   simdjson_inline simdjson_result get_int64_in_string() noexcept;
+  simdjson_inline simdjson_result get_uint32() noexcept;
+  simdjson_inline simdjson_result get_int32() noexcept;
   simdjson_inline simdjson_result get_double() noexcept;
   simdjson_inline simdjson_result get_double_in_string() noexcept;
   simdjson_inline simdjson_result get_string(bool allow_replacement = false) noexcept;
@@ -120775,7 +121856,13 @@ struct simdjson_result : public ppc64::impl
 
   simdjson_inline simdjson_result at_pointer(std::string_view json_pointer) noexcept;
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 #if SIMDJSON_STATIC_REFLECTION
   template
     requires(std::is_class_v && (sizeof...(FieldNames) > 0))
@@ -121428,13 +122515,21 @@ class object {
   inline simdjson_result at_path(std::string_view json_path) noexcept;
 
   /**
-   * Get all values matching the given JSONPath expression with wildcard support.
+   * Call the provided callback for each value matching the given JSONPath
+   * expression with wildcard support.
    * Supports wildcard patterns like ".*" to match all object fields.
    *
    * @param json_path JSONPath expression with wildcards
-   * @return Vector of values matching the wildcard pattern
+   * @param callback Function called for each matching value
+   * @return error_code indicating success or failure
   */
-  inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 
   /**
    * Reset the iterator so that we are pointing back at the
@@ -121584,7 +122679,13 @@ struct simdjson_result : public ppc64::implementation_s
   simdjson_inline simdjson_result operator[](std::string_view key) && noexcept;
   simdjson_inline simdjson_result at_pointer(std::string_view json_pointer) noexcept;
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
   inline simdjson_result reset() noexcept;
   inline simdjson_result is_empty() noexcept;
   inline simdjson_result count_fields() & noexcept;
@@ -122598,46 +123699,34 @@ inline simdjson_result array::at_path(std::string_view json_path) noexcep
   return at_pointer(json_pointer);
 }
 
-inline simdjson_result> array::at_path_with_wildcard(std::string_view json_path) noexcept {
-  std::vector result;
-
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+inline error_code array::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   auto result_pair = get_next_key_and_json_path(json_path);
   std::string_view key = result_pair.first;
   std::string_view remaining_path = result_pair.second;
   // Wildcard case
-  if(key=="*"){
-    for(auto element: *this){
-
-      if(element.error()){
-        return element.error();
-      }
-
-      if(remaining_path.empty()){
-        // Use value_unsafe() because we've already checked for errors above.
-        // The 'element' is a simdjson_result wrapper, and we need to extract
-        // the underlying value. value_unsafe() is safe here because error() returned false.
-        result.push_back(std::move(element).value_unsafe());
-
-      }else{
-        auto nested_result = element.at_path_with_wildcard(remaining_path);
-
-        if(nested_result.error()){
-          return nested_result.error();
-        }
-        // Same logic as above.
-        std::vector nested_matches = std::move(nested_result).value_unsafe();
-
-        result.insert(result.end(),
-                      std::make_move_iterator(nested_matches.begin()),
-                      std::make_move_iterator(nested_matches.end()));
+  if (key=="*"){
+    for(auto element: *this) {
+      value val;
+        SIMDJSON_TRY(element.get(val));
+      if (remaining_path.empty()) {
+        callback(val);
+      } else {
+        error_code err = element.for_each_at_path_with_wildcard(remaining_path, callback);
+        if(err) { return err; }
       }
     }
-    return result;
-  }else{
+    return SUCCESS;
+  } else {
     // Specific index case in which we access the element at the given index
-    size_t idx=0;
+    size_t idx = 0;
 
-    for(char c:key){
+    for (char c : key) {
       if(c < '0' || c > '9'){
         return INVALID_JSON_POINTER;
       }
@@ -122645,16 +123734,13 @@ inline simdjson_result> array::at_path_with_wildcard(std::str
     }
 
     auto element = at(idx);
-
-    if(element.error()){
-      return element.error();
-    }
-
-    if(remaining_path.empty()){
-      result.push_back(std::move(element).value_unsafe());
-      return result;
-    }else{
-      return element.at_path_with_wildcard(remaining_path);
+    value val;
+    SIMDJSON_TRY(element.get(val));
+    if (remaining_path.empty()){
+      callback(val);
+      return SUCCESS;
+    } else {
+      return element.for_each_at_path_with_wildcard(remaining_path, callback);
     }
   }
 }
@@ -122717,9 +123803,15 @@ simdjson_inline  simdjson_result simdjson_result> simdjson_result::at_path_with_wildcard(std::string_view json_path) noexcept {
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+simdjson_inline error_code simdjson_result::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   if (error()) { return error(); }
-  return first.at_path_with_wildcard(json_path);
+  return first.for_each_at_path_with_wildcard(json_path, std::forward(callback));
 }
 simdjson_inline  simdjson_result simdjson_result::raw_json() noexcept {
   if (error()) { return error(); }
@@ -122838,6 +123930,8 @@ simdjson_inline bool simdjson_result::at_end()
 /* amalgamation skipped (editor-only): #include "simdjson/generic/ondemand/value.h" */
 /* amalgamation skipped (editor-only): #endif // SIMDJSON_CONDITIONAL_INCLUDE */
 
+#include 
+
 namespace simdjson {
 namespace ppc64 {
 namespace ondemand {
@@ -122898,6 +123992,18 @@ simdjson_inline simdjson_result value::get_int64() noexcept {
 simdjson_inline simdjson_result value::get_int64_in_string() noexcept {
   return iter.get_int64_in_string();
 }
+simdjson_inline simdjson_result value::get_uint32() noexcept {
+  uint64_t result;
+  SIMDJSON_TRY(get_uint64().get(result));
+  if (result > (std::numeric_limits::max)()) { return NUMBER_OUT_OF_RANGE; }
+  return static_cast(result);
+}
+simdjson_inline simdjson_result value::get_int32() noexcept {
+  int64_t result;
+  SIMDJSON_TRY(get_int64().get(result));
+  if (result > (std::numeric_limits::max)() || result < (std::numeric_limits::min)()) { return NUMBER_OUT_OF_RANGE; }
+  return static_cast(result);
+}
 simdjson_inline simdjson_result value::get_bool() noexcept {
   return iter.get_bool();
 }
@@ -122913,6 +124019,8 @@ template<> simdjson_inline simdjson_result value::get() noexcept { retur
 template<> simdjson_inline simdjson_result value::get() noexcept { return get_double(); }
 template<> simdjson_inline simdjson_result value::get() noexcept { return get_uint64(); }
 template<> simdjson_inline simdjson_result value::get() noexcept { return get_int64(); }
+template<> simdjson_inline simdjson_result value::get() noexcept { return get_uint32(); }
+template<> simdjson_inline simdjson_result value::get() noexcept { return get_int32(); }
 template<> simdjson_inline simdjson_result value::get() noexcept { return get_bool(); }
 
 
@@ -122924,6 +124032,8 @@ template<> simdjson_warn_unused simdjson_inline error_code value::get(number& ou
 template<> simdjson_warn_unused simdjson_inline error_code value::get(double& out) noexcept { return get_double().get(out); }
 template<> simdjson_warn_unused simdjson_inline error_code value::get(uint64_t& out) noexcept { return get_uint64().get(out); }
 template<> simdjson_warn_unused simdjson_inline error_code value::get(int64_t& out) noexcept { return get_int64().get(out); }
+template<> simdjson_warn_unused simdjson_inline error_code value::get(uint32_t& out) noexcept { return get_uint32().get(out); }
+template<> simdjson_warn_unused simdjson_inline error_code value::get(int32_t& out) noexcept { return get_int32().get(out); }
 template<>  simdjson_warn_unused simdjson_inline error_code value::get(bool& out) noexcept { return get_bool().get(out); }
 
 #if SIMDJSON_EXCEPTIONS
@@ -123122,14 +124232,20 @@ simdjson_inline simdjson_result value::at_path(std::string_view json_path
   }
 }
 
-inline simdjson_result> value::at_path_with_wildcard(std::string_view json_path) noexcept {
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+inline error_code value::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   json_type t;
   SIMDJSON_TRY(type().get(t));
   switch (t) {
   case json_type::array:
-      return (*this).get_array().at_path_with_wildcard(json_path);
+      return (*this).get_array().for_each_at_path_with_wildcard(json_path, std::forward(callback));
   case json_type::object:
-      return (*this).get_object().at_path_with_wildcard(json_path);
+      return (*this).get_object().for_each_at_path_with_wildcard(json_path, std::forward(callback));
   default:
       return INVALID_JSON_POINTER;
   }
@@ -123227,6 +124343,14 @@ simdjson_inline simdjson_result simdjson_result
   if (error()) { return error(); }
   return first.get_int64_in_string();
 }
+simdjson_inline simdjson_result simdjson_result::get_uint32() noexcept {
+  if (error()) { return error(); }
+  return first.get_uint32();
+}
+simdjson_inline simdjson_result simdjson_result::get_int32() noexcept {
+  if (error()) { return error(); }
+  return first.get_int32();
+}
 simdjson_inline simdjson_result simdjson_result::get_double() noexcept {
   if (error()) { return error(); }
   return first.get_double();
@@ -123385,12 +124509,18 @@ simdjson_inline simdjson_result simdjson_result> simdjson_result::at_path_with_wildcard(
-      std::string_view json_path) noexcept {
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+inline error_code simdjson_result::for_each_at_path_with_wildcard(
+      std::string_view json_path, Func&& callback) noexcept {
   if (error()) {
     return error();
   }
-  return first.at_path_with_wildcard(json_path);
+  return first.for_each_at_path_with_wildcard(json_path, std::forward(callback));
 }
 
 } // namespace simdjson
@@ -123417,6 +124547,8 @@ inline simdjson_result> simdjson_result
+
 namespace simdjson {
 namespace ppc64 {
 namespace ondemand {
@@ -123532,6 +124664,18 @@ simdjson_inline simdjson_result document::get_int64() noexcept {
 simdjson_inline simdjson_result document::get_int64_in_string() noexcept {
   return get_root_value_iterator().get_root_int64_in_string(true);
 }
+simdjson_inline simdjson_result document::get_uint32() noexcept {
+  uint64_t result;
+  SIMDJSON_TRY(get_uint64().get(result));
+  if (result > (std::numeric_limits::max)()) { return NUMBER_OUT_OF_RANGE; }
+  return static_cast(result);
+}
+simdjson_inline simdjson_result document::get_int32() noexcept {
+  int64_t result;
+  SIMDJSON_TRY(get_int64().get(result));
+  if (result > (std::numeric_limits::max)() || result < (std::numeric_limits::min)()) { return NUMBER_OUT_OF_RANGE; }
+  return static_cast(result);
+}
 simdjson_inline simdjson_result document::get_double() noexcept {
   return get_root_value_iterator().get_root_double(true);
 }
@@ -123565,6 +124709,8 @@ template<> simdjson_inline simdjson_result document::get() & n
 template<> simdjson_inline simdjson_result document::get() & noexcept { return get_double(); }
 template<> simdjson_inline simdjson_result document::get() & noexcept { return get_uint64(); }
 template<> simdjson_inline simdjson_result document::get() & noexcept { return get_int64(); }
+template<> simdjson_inline simdjson_result document::get() & noexcept { return get_uint32(); }
+template<> simdjson_inline simdjson_result document::get() & noexcept { return get_int32(); }
 template<> simdjson_inline simdjson_result document::get() & noexcept { return get_bool(); }
 template<> simdjson_inline simdjson_result document::get() & noexcept { return get_value(); }
 
@@ -123575,6 +124721,8 @@ template<> simdjson_warn_unused simdjson_inline error_code document::get(std::st
 template<> simdjson_warn_unused simdjson_inline error_code document::get(double& out) & noexcept { return get_double().get(out); }
 template<> simdjson_warn_unused simdjson_inline error_code document::get(uint64_t& out) & noexcept { return get_uint64().get(out); }
 template<> simdjson_warn_unused simdjson_inline error_code document::get(int64_t& out) & noexcept { return get_int64().get(out); }
+template<> simdjson_warn_unused simdjson_inline error_code document::get(uint32_t& out) & noexcept { return get_uint32().get(out); }
+template<> simdjson_warn_unused simdjson_inline error_code document::get(int32_t& out) & noexcept { return get_int32().get(out); }
 template<> simdjson_warn_unused simdjson_inline error_code document::get(bool& out) & noexcept { return get_bool().get(out); }
 template<> simdjson_warn_unused simdjson_inline error_code document::get(value& out) & noexcept { return get_value().get(out); }
 
@@ -123748,8 +124896,14 @@ simdjson_inline simdjson_result document::at_path(std::string_view json_p
   }
 }
 
-simdjson_inline simdjson_result> document::at_path_with_wildcard(std::string_view json_path) noexcept {
-  rewind(); // Rewind the document each time at_path_with_wildcard is called
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+simdjson_inline error_code document::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
+  rewind(); // Rewind the document each time for_each_at_path_with_wildcard is called
   if (json_path.empty()) {
       return INVALID_JSON_POINTER;
   }
@@ -123757,9 +124911,9 @@ simdjson_inline simdjson_result> document::at_path_with_wildc
   SIMDJSON_TRY(type().get(t));
   switch (t) {
   case json_type::array:
-      return (*this).get_array().at_path_with_wildcard(json_path);
+      return (*this).get_array().for_each_at_path_with_wildcard(json_path, std::forward(callback));
   case json_type::object:
-      return (*this).get_object().at_path_with_wildcard(json_path);
+      return (*this).get_object().for_each_at_path_with_wildcard(json_path, std::forward(callback));
   default:
       return INVALID_JSON_POINTER;
   }
@@ -123905,6 +125059,14 @@ simdjson_inline simdjson_result simdjson_result simdjson_result::get_uint32() noexcept {
+  if (error()) { return error(); }
+  return first.get_uint32();
+}
+simdjson_inline simdjson_result simdjson_result::get_int32() noexcept {
+  if (error()) { return error(); }
+  return first.get_int32();
+}
 simdjson_inline simdjson_result simdjson_result::get_double() noexcept {
   if (error()) { return error(); }
   return first.get_double();
@@ -124088,9 +125250,15 @@ simdjson_inline simdjson_result simdjson_result> simdjson_result::at_path_with_wildcard(std::string_view json_path) noexcept {
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+simdjson_inline error_code simdjson_result::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   if (error()) { return error(); }
-  return first.at_path_with_wildcard(json_path);
+  return first.for_each_at_path_with_wildcard(json_path, std::forward(callback));
 }
 
 #if SIMDJSON_STATIC_REFLECTION
@@ -124132,6 +125300,18 @@ simdjson_inline simdjson_result document_reference::get_uint64() noexc
 simdjson_inline simdjson_result document_reference::get_uint64_in_string() noexcept { return doc->get_root_value_iterator().get_root_uint64_in_string(false); }
 simdjson_inline simdjson_result document_reference::get_int64() noexcept { return doc->get_root_value_iterator().get_root_int64(false); }
 simdjson_inline simdjson_result document_reference::get_int64_in_string() noexcept { return doc->get_root_value_iterator().get_root_int64_in_string(false); }
+simdjson_inline simdjson_result document_reference::get_uint32() noexcept {
+  uint64_t result;
+  SIMDJSON_TRY(doc->get_root_value_iterator().get_root_uint64(false).get(result));
+  if (result > (std::numeric_limits::max)()) { return NUMBER_OUT_OF_RANGE; }
+  return static_cast(result);
+}
+simdjson_inline simdjson_result document_reference::get_int32() noexcept {
+  int64_t result;
+  SIMDJSON_TRY(doc->get_root_value_iterator().get_root_int64(false).get(result));
+  if (result > (std::numeric_limits::max)() || result < (std::numeric_limits::min)()) { return NUMBER_OUT_OF_RANGE; }
+  return static_cast(result);
+}
 simdjson_inline simdjson_result document_reference::get_double() noexcept { return doc->get_root_value_iterator().get_root_double(false); }
 simdjson_inline simdjson_result document_reference::get_double_in_string() noexcept { return doc->get_root_value_iterator().get_root_double(false); }
 simdjson_inline simdjson_result document_reference::get_string(bool allow_replacement) noexcept { return doc->get_root_value_iterator().get_root_string(false, allow_replacement); }
@@ -124149,6 +125329,8 @@ template<> simdjson_inline simdjson_result document_reference:
 template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_double(); }
 template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_uint64(); }
 template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_int64(); }
+template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_uint32(); }
+template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_int32(); }
 template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_bool(); }
 template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_value(); }
 #if SIMDJSON_EXCEPTIONS
@@ -124187,7 +125369,13 @@ simdjson_inline simdjson_result document_reference::get_number() noexcep
 simdjson_inline simdjson_result document_reference::raw_json_token() noexcept { return doc->raw_json_token(); }
 simdjson_inline simdjson_result document_reference::at_pointer(std::string_view json_pointer) noexcept { return doc->at_pointer(json_pointer); }
 simdjson_inline simdjson_result document_reference::at_path(std::string_view json_path) noexcept { return doc->at_path(json_path); }
-simdjson_inline simdjson_result> document_reference::at_path_with_wildcard(std::string_view json_path) noexcept { return doc->at_path_with_wildcard(json_path); }
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+simdjson_inline error_code document_reference::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept { return doc->for_each_at_path_with_wildcard(json_path, std::forward(callback)); }
 simdjson_inline simdjson_result document_reference::raw_json() noexcept { return doc->raw_json();}
 simdjson_inline document_reference::operator document&() const noexcept { return *doc; }
 #if SIMDJSON_SUPPORTS_CONCEPTS && SIMDJSON_STATIC_REFLECTION
@@ -124280,6 +125468,14 @@ simdjson_inline simdjson_result simdjson_result simdjson_result::get_uint32() noexcept {
+  if (error()) { return error(); }
+  return first.get_uint32();
+}
+simdjson_inline simdjson_result simdjson_result::get_int32() noexcept {
+  if (error()) { return error(); }
+  return first.get_int32();
+}
 simdjson_inline simdjson_result simdjson_result::get_double() noexcept {
   if (error()) { return error(); }
   return first.get_double();
@@ -124444,11 +125640,17 @@ simdjson_inline simdjson_result simdjson_result> simdjson_result::at_path_with_wildcard(std::string_view json_path) noexcept {
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+simdjson_inline error_code simdjson_result::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   if (error()) {
       return error();
   }
-  return first.at_path_with_wildcard(json_path);
+  return first.for_each_at_path_with_wildcard(json_path, std::forward(callback));
 }
 #if SIMDJSON_STATIC_REFLECTION
 template
@@ -126026,9 +127228,13 @@ inline simdjson_result object::at_path(std::string_view json_path) noexce
   return at_pointer(json_pointer);
 }
 
-inline simdjson_result> object::at_path_with_wildcard(std::string_view json_path) noexcept {
-  std::vector result;
-
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+inline error_code object::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   auto result_pair = get_next_key_and_json_path(json_path);
   std::string_view key = result_pair.first;
   std::string_view remaining_path = result_pair.second;
@@ -126038,34 +127244,22 @@ inline simdjson_result> object::at_path_with_wildcard(std::st
     for (auto field : *this) {
       value val;
       SIMDJSON_TRY(field.value().get(val));
-
       if (remaining_path.empty()) {
-        result.push_back(std::move(val));
+        callback(val);
       } else {
-        auto nested_result = val.at_path_with_wildcard(remaining_path);
-
-        if (nested_result.error()) {
-          return nested_result.error();
-        }
-        // Extract and append all nested matches to our result
-        std::vector nested_vec;
-        SIMDJSON_TRY(std::move(nested_result).get(nested_vec));
-
-        result.insert(result.end(),
-                     std::make_move_iterator(nested_vec.begin()),
-                     std::make_move_iterator(nested_vec.end()));
+        SIMDJSON_TRY(val.for_each_at_path_with_wildcard(remaining_path, callback));
       }
     }
-    return result;
+    return SUCCESS;
   } else {
     value val;
     SIMDJSON_TRY(find_field(key).get(val));
 
     if (remaining_path.empty()) {
-      result.push_back(std::move(val));
-      return result;
+      callback(val);
+      return SUCCESS;
     } else {
-      return val.at_path_with_wildcard(remaining_path);
+      return val.for_each_at_path_with_wildcard(remaining_path, callback);
     }
   }
 }
@@ -126196,9 +127390,15 @@ simdjson_inline simdjson_result simdjson_result> simdjson_result::at_path_with_wildcard(std::string_view json_path) noexcept {
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+simdjson_inline error_code simdjson_result::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   if (error()) { return error(); }
-  return first.at_path_with_wildcard(json_path);
+  return first.for_each_at_path_with_wildcard(json_path, std::forward(callback));
 }
 
 inline simdjson_result simdjson_result::reset() noexcept {
@@ -126552,7 +127752,7 @@ simdjson_pure simdjson_inline size_t parser::max_depth() const noexcept {
 }
 
 simdjson_inline void parser::set_max_capacity(size_t max_capacity) noexcept {
-  if(max_capacity < dom::MINIMAL_DOCUMENT_CAPACITY) {
+  if(max_capacity > dom::MINIMAL_DOCUMENT_CAPACITY) {
     _max_capacity = max_capacity;
   } else {
     _max_capacity = dom::MINIMAL_DOCUMENT_CAPACITY;
@@ -126579,7 +127779,7 @@ simdjson_inline simdjson_warn_unused ondemand::parser& parser::get_parser() {
   return *parser::get_parser_instance();
 }
 
-simdjson_inline bool release_parser() {
+simdjson_inline bool parser::release_parser() {
   auto &parser_instance = parser::get_threadlocal_parser_if_exists();
   if (parser_instance) {
     parser_instance.reset();
@@ -131219,6 +132419,28 @@ class value {
    */
   simdjson_inline simdjson_result get_int64_in_string() noexcept;
 
+  /**
+   * Cast this JSON value to a 32-bit unsigned integer.
+   *
+   * Calls get_uint64() and checks that the result fits in a uint32_t.
+   *
+   * @returns A 32-bit unsigned integer.
+   * @returns INCORRECT_TYPE If the JSON value is not an unsigned integer.
+   * @returns NUMBER_OUT_OF_RANGE If the value does not fit in a uint32_t.
+   */
+  simdjson_inline simdjson_result get_uint32() noexcept;
+
+  /**
+   * Cast this JSON value to a 32-bit signed integer.
+   *
+   * Calls get_int64() and checks that the result fits in an int32_t.
+   *
+   * @returns A 32-bit signed integer.
+   * @returns INCORRECT_TYPE If the JSON value is not an integer.
+   * @returns NUMBER_OUT_OF_RANGE If the value does not fit in an int32_t.
+   */
+  simdjson_inline simdjson_result get_int32() noexcept;
+
   /**
    * Cast this JSON value to a double.
    *
@@ -131734,13 +132956,21 @@ class value {
   simdjson_inline simdjson_result at_path(std::string_view at_path) noexcept;
 
   /**
-   * Get all values matching the given JSONPath expression with wildcard support.
+   * Call the provided callback for each value matching the given JSONPath
+   * expression with wildcard support.
    * Supports wildcard character (*) for arrays or ".*" for objects.
    *
    * @param json_path JSONPath expression with wildcards
-   * @return Vector of values matching the wildcard pattern
+   * @param callback Function called for each matching value
+   * @return error_code indicating success or failure
    */
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 
 protected:
   /**
@@ -131804,6 +133034,8 @@ struct simdjson_result : public westmere::implementat
   simdjson_inline simdjson_result get_uint64_in_string() noexcept;
   simdjson_inline simdjson_result get_int64() noexcept;
   simdjson_inline simdjson_result get_int64_in_string() noexcept;
+  simdjson_inline simdjson_result get_uint32() noexcept;
+  simdjson_inline simdjson_result get_int32() noexcept;
   simdjson_inline simdjson_result get_double() noexcept;
   simdjson_inline simdjson_result get_double_in_string() noexcept;
   simdjson_inline simdjson_result get_string(bool allow_replacement = false) noexcept;
@@ -131931,9 +133163,23 @@ struct simdjson_result : public westmere::implementat
   simdjson_inline simdjson_result current_depth() const noexcept;
   simdjson_inline simdjson_result at_pointer(std::string_view json_pointer) noexcept;
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 };
 
+// Forward-declare explicit specializations so MSVC /permissive- sees them before
+// any template instantiation that would resolve element.get(val) to the primary.
+template<> simdjson_inline error_code
+simdjson_result::get(
+    westmere::ondemand::value &out) noexcept;
+template<> simdjson_inline simdjson_result
+simdjson_result::get() noexcept;
+
 } // namespace simdjson
 
 #endif // SIMDJSON_GENERIC_ONDEMAND_VALUE_H
@@ -133272,8 +134518,6 @@ class parser {
   static simdjson_inline bool release_parser();
 
 private:
-  friend bool release_parser();
-  friend ondemand::parser& get_parser();
   /** Get the thread-local parser instance, allocates it if needed */
   static simdjson_inline simdjson_warn_unused std::unique_ptr& get_parser_instance();
   /** Get the thread-local parser instance, it might be null */
@@ -133436,13 +134680,21 @@ class array {
   inline simdjson_result at_path(std::string_view json_path) noexcept;
 
   /**
-   * Get all values matching the given JSONPath expression with wildcard support.
+   * Call the provided callback for each value matching the given JSONPath
+   * expression with wildcard support.
    * Supports wildcard patterns like "[*]" to match all array elements.
    *
    * @param json_path JSONPath expression with wildcards
-   * @return Vector of values matching the wildcard pattern
+   * @param callback Function called for each matching value
+   * @return error_code indicating success or failure
   */
-  inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 
   /**
    * Consumes the array and returns a string_view instance corresponding to the
@@ -133566,7 +134818,13 @@ struct simdjson_result : public westmere::implementat
   simdjson_inline simdjson_result at(size_t index) noexcept;
   simdjson_inline simdjson_result at_pointer(std::string_view json_pointer) noexcept;
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
   simdjson_inline simdjson_result raw_json() noexcept;
 #if SIMDJSON_SUPPORTS_CONCEPTS
   // TODO: move this code into object-inl.h
@@ -133798,6 +135056,26 @@ class document {
    * @returns INCORRECT_TYPE If the JSON value is not a 64-bit integer.
    */
   simdjson_inline simdjson_result get_int64_in_string() noexcept;
+  /**
+   * Cast this JSON value to a 32-bit unsigned integer.
+   *
+   * Calls get_uint64() and checks that the result fits in a uint32_t.
+   *
+   * @returns A 32-bit unsigned integer.
+   * @returns INCORRECT_TYPE If the JSON value is not an unsigned integer.
+   * @returns NUMBER_OUT_OF_RANGE If the value does not fit in a uint32_t.
+   */
+  simdjson_inline simdjson_result get_uint32() noexcept;
+  /**
+   * Cast this JSON value to a 32-bit signed integer.
+   *
+   * Calls get_int64() and checks that the result fits in an int32_t.
+   *
+   * @returns A 32-bit signed integer.
+   * @returns INCORRECT_TYPE If the JSON value is not an integer.
+   * @returns NUMBER_OUT_OF_RANGE If the value does not fit in an int32_t.
+   */
+  simdjson_inline simdjson_result get_int32() noexcept;
   /**
    * Cast this JSON value to a double.
    *
@@ -134446,21 +135724,24 @@ class document {
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
 
   /**
-   * Get all values matching the given JSONPath expression with wildcard support.
+   * Call the provided callback for each value matching the given JSONPath
+   * expression with wildcard support.
    *
    * Supports wildcard patterns like "$.array[*]" or "$.object.*" to match multiple elements.
    *
-   * This method materializes all matching values into a vector.
    * The document will be consumed after this call.
    *
    * @param json_path JSONPath expression with wildcards
-   * @return Vector of values matching the wildcard pattern, or:
-   *         - INVALID_JSON_POINTER if the JSONPath cannot be parsed
-   *         - NO_SUCH_FIELD if a field does not exist
-   *         - INDEX_OUT_OF_BOUNDS if an array index is out of bounds
-   *         - INCORRECT_TYPE if path traversal encounters wrong type
+   * @param callback Function called for each matching value
+   * @return error_code indicating success or failure
    */
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 
   /**
    * Consumes the document and returns a string_view instance corresponding to the
@@ -134551,6 +135832,8 @@ class document_reference {
   simdjson_inline simdjson_result get_uint64_in_string() noexcept;
   simdjson_inline simdjson_result get_int64() noexcept;
   simdjson_inline simdjson_result get_int64_in_string() noexcept;
+  simdjson_inline simdjson_result get_uint32() noexcept;
+  simdjson_inline simdjson_result get_int32() noexcept;
   simdjson_inline simdjson_result get_double() noexcept;
   simdjson_inline simdjson_result get_double_in_string() noexcept;
   simdjson_inline simdjson_result get_string(bool allow_replacement = false) noexcept;
@@ -134679,7 +135962,13 @@ class document_reference {
   simdjson_inline simdjson_result raw_json_token() noexcept;
   simdjson_inline simdjson_result at_pointer(std::string_view json_pointer) noexcept;
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 
 private:
   document *doc{nullptr};
@@ -134704,6 +135993,8 @@ struct simdjson_result : public westmere::implemen
   simdjson_inline simdjson_result get_uint64_in_string() noexcept;
   simdjson_inline simdjson_result get_int64() noexcept;
   simdjson_inline simdjson_result get_int64_in_string() noexcept;
+  simdjson_inline simdjson_result get_uint32() noexcept;
+  simdjson_inline simdjson_result get_int32() noexcept;
   simdjson_inline simdjson_result get_double() noexcept;
   simdjson_inline simdjson_result get_double_in_string() noexcept;
   simdjson_inline simdjson_result get_string(bool allow_replacement = false) noexcept;
@@ -134763,7 +136054,13 @@ struct simdjson_result : public westmere::implemen
 
   simdjson_inline simdjson_result at_pointer(std::string_view json_pointer) noexcept;
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 #if SIMDJSON_STATIC_REFLECTION
   template
     requires(std::is_class_v && (sizeof...(FieldNames) > 0))
@@ -134791,6 +136088,8 @@ struct simdjson_result : public westmere
   simdjson_inline simdjson_result get_uint64_in_string() noexcept;
   simdjson_inline simdjson_result get_int64() noexcept;
   simdjson_inline simdjson_result get_int64_in_string() noexcept;
+  simdjson_inline simdjson_result get_uint32() noexcept;
+  simdjson_inline simdjson_result get_int32() noexcept;
   simdjson_inline simdjson_result get_double() noexcept;
   simdjson_inline simdjson_result get_double_in_string() noexcept;
   simdjson_inline simdjson_result get_string(bool allow_replacement = false) noexcept;
@@ -134846,7 +136145,13 @@ struct simdjson_result : public westmere
 
   simdjson_inline simdjson_result at_pointer(std::string_view json_pointer) noexcept;
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 #if SIMDJSON_STATIC_REFLECTION
   template
     requires(std::is_class_v && (sizeof...(FieldNames) > 0))
@@ -135499,13 +136804,21 @@ class object {
   inline simdjson_result at_path(std::string_view json_path) noexcept;
 
   /**
-   * Get all values matching the given JSONPath expression with wildcard support.
+   * Call the provided callback for each value matching the given JSONPath
+   * expression with wildcard support.
    * Supports wildcard patterns like ".*" to match all object fields.
    *
    * @param json_path JSONPath expression with wildcards
-   * @return Vector of values matching the wildcard pattern
+   * @param callback Function called for each matching value
+   * @return error_code indicating success or failure
   */
-  inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 
   /**
    * Reset the iterator so that we are pointing back at the
@@ -135655,7 +136968,13 @@ struct simdjson_result : public westmere::implementa
   simdjson_inline simdjson_result operator[](std::string_view key) && noexcept;
   simdjson_inline simdjson_result at_pointer(std::string_view json_pointer) noexcept;
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
   inline simdjson_result reset() noexcept;
   inline simdjson_result is_empty() noexcept;
   inline simdjson_result count_fields() & noexcept;
@@ -136669,46 +137988,34 @@ inline simdjson_result array::at_path(std::string_view json_path) noexcep
   return at_pointer(json_pointer);
 }
 
-inline simdjson_result> array::at_path_with_wildcard(std::string_view json_path) noexcept {
-  std::vector result;
-
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+inline error_code array::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   auto result_pair = get_next_key_and_json_path(json_path);
   std::string_view key = result_pair.first;
   std::string_view remaining_path = result_pair.second;
   // Wildcard case
-  if(key=="*"){
-    for(auto element: *this){
-
-      if(element.error()){
-        return element.error();
-      }
-
-      if(remaining_path.empty()){
-        // Use value_unsafe() because we've already checked for errors above.
-        // The 'element' is a simdjson_result wrapper, and we need to extract
-        // the underlying value. value_unsafe() is safe here because error() returned false.
-        result.push_back(std::move(element).value_unsafe());
-
-      }else{
-        auto nested_result = element.at_path_with_wildcard(remaining_path);
-
-        if(nested_result.error()){
-          return nested_result.error();
-        }
-        // Same logic as above.
-        std::vector nested_matches = std::move(nested_result).value_unsafe();
-
-        result.insert(result.end(),
-                      std::make_move_iterator(nested_matches.begin()),
-                      std::make_move_iterator(nested_matches.end()));
+  if (key=="*"){
+    for(auto element: *this) {
+      value val;
+        SIMDJSON_TRY(element.get(val));
+      if (remaining_path.empty()) {
+        callback(val);
+      } else {
+        error_code err = element.for_each_at_path_with_wildcard(remaining_path, callback);
+        if(err) { return err; }
       }
     }
-    return result;
-  }else{
+    return SUCCESS;
+  } else {
     // Specific index case in which we access the element at the given index
-    size_t idx=0;
+    size_t idx = 0;
 
-    for(char c:key){
+    for (char c : key) {
       if(c < '0' || c > '9'){
         return INVALID_JSON_POINTER;
       }
@@ -136716,16 +138023,13 @@ inline simdjson_result> array::at_path_with_wildcard(std::str
     }
 
     auto element = at(idx);
-
-    if(element.error()){
-      return element.error();
-    }
-
-    if(remaining_path.empty()){
-      result.push_back(std::move(element).value_unsafe());
-      return result;
-    }else{
-      return element.at_path_with_wildcard(remaining_path);
+    value val;
+    SIMDJSON_TRY(element.get(val));
+    if (remaining_path.empty()){
+      callback(val);
+      return SUCCESS;
+    } else {
+      return element.for_each_at_path_with_wildcard(remaining_path, callback);
     }
   }
 }
@@ -136788,9 +138092,15 @@ simdjson_inline  simdjson_result simdjson_result> simdjson_result::at_path_with_wildcard(std::string_view json_path) noexcept {
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+simdjson_inline error_code simdjson_result::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   if (error()) { return error(); }
-  return first.at_path_with_wildcard(json_path);
+  return first.for_each_at_path_with_wildcard(json_path, std::forward(callback));
 }
 simdjson_inline  simdjson_result simdjson_result::raw_json() noexcept {
   if (error()) { return error(); }
@@ -136909,6 +138219,8 @@ simdjson_inline bool simdjson_result::at_end
 /* amalgamation skipped (editor-only): #include "simdjson/generic/ondemand/value.h" */
 /* amalgamation skipped (editor-only): #endif // SIMDJSON_CONDITIONAL_INCLUDE */
 
+#include 
+
 namespace simdjson {
 namespace westmere {
 namespace ondemand {
@@ -136969,6 +138281,18 @@ simdjson_inline simdjson_result value::get_int64() noexcept {
 simdjson_inline simdjson_result value::get_int64_in_string() noexcept {
   return iter.get_int64_in_string();
 }
+simdjson_inline simdjson_result value::get_uint32() noexcept {
+  uint64_t result;
+  SIMDJSON_TRY(get_uint64().get(result));
+  if (result > (std::numeric_limits::max)()) { return NUMBER_OUT_OF_RANGE; }
+  return static_cast(result);
+}
+simdjson_inline simdjson_result value::get_int32() noexcept {
+  int64_t result;
+  SIMDJSON_TRY(get_int64().get(result));
+  if (result > (std::numeric_limits::max)() || result < (std::numeric_limits::min)()) { return NUMBER_OUT_OF_RANGE; }
+  return static_cast(result);
+}
 simdjson_inline simdjson_result value::get_bool() noexcept {
   return iter.get_bool();
 }
@@ -136984,6 +138308,8 @@ template<> simdjson_inline simdjson_result value::get() noexcept { retur
 template<> simdjson_inline simdjson_result value::get() noexcept { return get_double(); }
 template<> simdjson_inline simdjson_result value::get() noexcept { return get_uint64(); }
 template<> simdjson_inline simdjson_result value::get() noexcept { return get_int64(); }
+template<> simdjson_inline simdjson_result value::get() noexcept { return get_uint32(); }
+template<> simdjson_inline simdjson_result value::get() noexcept { return get_int32(); }
 template<> simdjson_inline simdjson_result value::get() noexcept { return get_bool(); }
 
 
@@ -136995,6 +138321,8 @@ template<> simdjson_warn_unused simdjson_inline error_code value::get(number& ou
 template<> simdjson_warn_unused simdjson_inline error_code value::get(double& out) noexcept { return get_double().get(out); }
 template<> simdjson_warn_unused simdjson_inline error_code value::get(uint64_t& out) noexcept { return get_uint64().get(out); }
 template<> simdjson_warn_unused simdjson_inline error_code value::get(int64_t& out) noexcept { return get_int64().get(out); }
+template<> simdjson_warn_unused simdjson_inline error_code value::get(uint32_t& out) noexcept { return get_uint32().get(out); }
+template<> simdjson_warn_unused simdjson_inline error_code value::get(int32_t& out) noexcept { return get_int32().get(out); }
 template<>  simdjson_warn_unused simdjson_inline error_code value::get(bool& out) noexcept { return get_bool().get(out); }
 
 #if SIMDJSON_EXCEPTIONS
@@ -137193,14 +138521,20 @@ simdjson_inline simdjson_result value::at_path(std::string_view json_path
   }
 }
 
-inline simdjson_result> value::at_path_with_wildcard(std::string_view json_path) noexcept {
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+inline error_code value::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   json_type t;
   SIMDJSON_TRY(type().get(t));
   switch (t) {
   case json_type::array:
-      return (*this).get_array().at_path_with_wildcard(json_path);
+      return (*this).get_array().for_each_at_path_with_wildcard(json_path, std::forward(callback));
   case json_type::object:
-      return (*this).get_object().at_path_with_wildcard(json_path);
+      return (*this).get_object().for_each_at_path_with_wildcard(json_path, std::forward(callback));
   default:
       return INVALID_JSON_POINTER;
   }
@@ -137298,6 +138632,14 @@ simdjson_inline simdjson_result simdjson_result simdjson_result::get_uint32() noexcept {
+  if (error()) { return error(); }
+  return first.get_uint32();
+}
+simdjson_inline simdjson_result simdjson_result::get_int32() noexcept {
+  if (error()) { return error(); }
+  return first.get_int32();
+}
 simdjson_inline simdjson_result simdjson_result::get_double() noexcept {
   if (error()) { return error(); }
   return first.get_double();
@@ -137456,12 +138798,18 @@ simdjson_inline simdjson_result simdjson_result> simdjson_result::at_path_with_wildcard(
-      std::string_view json_path) noexcept {
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+inline error_code simdjson_result::for_each_at_path_with_wildcard(
+      std::string_view json_path, Func&& callback) noexcept {
   if (error()) {
     return error();
   }
-  return first.at_path_with_wildcard(json_path);
+  return first.for_each_at_path_with_wildcard(json_path, std::forward(callback));
 }
 
 } // namespace simdjson
@@ -137488,6 +138836,8 @@ inline simdjson_result> simdjson_result
+
 namespace simdjson {
 namespace westmere {
 namespace ondemand {
@@ -137603,6 +138953,18 @@ simdjson_inline simdjson_result document::get_int64() noexcept {
 simdjson_inline simdjson_result document::get_int64_in_string() noexcept {
   return get_root_value_iterator().get_root_int64_in_string(true);
 }
+simdjson_inline simdjson_result document::get_uint32() noexcept {
+  uint64_t result;
+  SIMDJSON_TRY(get_uint64().get(result));
+  if (result > (std::numeric_limits::max)()) { return NUMBER_OUT_OF_RANGE; }
+  return static_cast(result);
+}
+simdjson_inline simdjson_result document::get_int32() noexcept {
+  int64_t result;
+  SIMDJSON_TRY(get_int64().get(result));
+  if (result > (std::numeric_limits::max)() || result < (std::numeric_limits::min)()) { return NUMBER_OUT_OF_RANGE; }
+  return static_cast(result);
+}
 simdjson_inline simdjson_result document::get_double() noexcept {
   return get_root_value_iterator().get_root_double(true);
 }
@@ -137636,6 +138998,8 @@ template<> simdjson_inline simdjson_result document::get() & n
 template<> simdjson_inline simdjson_result document::get() & noexcept { return get_double(); }
 template<> simdjson_inline simdjson_result document::get() & noexcept { return get_uint64(); }
 template<> simdjson_inline simdjson_result document::get() & noexcept { return get_int64(); }
+template<> simdjson_inline simdjson_result document::get() & noexcept { return get_uint32(); }
+template<> simdjson_inline simdjson_result document::get() & noexcept { return get_int32(); }
 template<> simdjson_inline simdjson_result document::get() & noexcept { return get_bool(); }
 template<> simdjson_inline simdjson_result document::get() & noexcept { return get_value(); }
 
@@ -137646,6 +139010,8 @@ template<> simdjson_warn_unused simdjson_inline error_code document::get(std::st
 template<> simdjson_warn_unused simdjson_inline error_code document::get(double& out) & noexcept { return get_double().get(out); }
 template<> simdjson_warn_unused simdjson_inline error_code document::get(uint64_t& out) & noexcept { return get_uint64().get(out); }
 template<> simdjson_warn_unused simdjson_inline error_code document::get(int64_t& out) & noexcept { return get_int64().get(out); }
+template<> simdjson_warn_unused simdjson_inline error_code document::get(uint32_t& out) & noexcept { return get_uint32().get(out); }
+template<> simdjson_warn_unused simdjson_inline error_code document::get(int32_t& out) & noexcept { return get_int32().get(out); }
 template<> simdjson_warn_unused simdjson_inline error_code document::get(bool& out) & noexcept { return get_bool().get(out); }
 template<> simdjson_warn_unused simdjson_inline error_code document::get(value& out) & noexcept { return get_value().get(out); }
 
@@ -137819,8 +139185,14 @@ simdjson_inline simdjson_result document::at_path(std::string_view json_p
   }
 }
 
-simdjson_inline simdjson_result> document::at_path_with_wildcard(std::string_view json_path) noexcept {
-  rewind(); // Rewind the document each time at_path_with_wildcard is called
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+simdjson_inline error_code document::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
+  rewind(); // Rewind the document each time for_each_at_path_with_wildcard is called
   if (json_path.empty()) {
       return INVALID_JSON_POINTER;
   }
@@ -137828,9 +139200,9 @@ simdjson_inline simdjson_result> document::at_path_with_wildc
   SIMDJSON_TRY(type().get(t));
   switch (t) {
   case json_type::array:
-      return (*this).get_array().at_path_with_wildcard(json_path);
+      return (*this).get_array().for_each_at_path_with_wildcard(json_path, std::forward(callback));
   case json_type::object:
-      return (*this).get_object().at_path_with_wildcard(json_path);
+      return (*this).get_object().for_each_at_path_with_wildcard(json_path, std::forward(callback));
   default:
       return INVALID_JSON_POINTER;
   }
@@ -137976,6 +139348,14 @@ simdjson_inline simdjson_result simdjson_result simdjson_result::get_uint32() noexcept {
+  if (error()) { return error(); }
+  return first.get_uint32();
+}
+simdjson_inline simdjson_result simdjson_result::get_int32() noexcept {
+  if (error()) { return error(); }
+  return first.get_int32();
+}
 simdjson_inline simdjson_result simdjson_result::get_double() noexcept {
   if (error()) { return error(); }
   return first.get_double();
@@ -138159,9 +139539,15 @@ simdjson_inline simdjson_result simdjson_result> simdjson_result::at_path_with_wildcard(std::string_view json_path) noexcept {
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+simdjson_inline error_code simdjson_result::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   if (error()) { return error(); }
-  return first.at_path_with_wildcard(json_path);
+  return first.for_each_at_path_with_wildcard(json_path, std::forward(callback));
 }
 
 #if SIMDJSON_STATIC_REFLECTION
@@ -138203,6 +139589,18 @@ simdjson_inline simdjson_result document_reference::get_uint64() noexc
 simdjson_inline simdjson_result document_reference::get_uint64_in_string() noexcept { return doc->get_root_value_iterator().get_root_uint64_in_string(false); }
 simdjson_inline simdjson_result document_reference::get_int64() noexcept { return doc->get_root_value_iterator().get_root_int64(false); }
 simdjson_inline simdjson_result document_reference::get_int64_in_string() noexcept { return doc->get_root_value_iterator().get_root_int64_in_string(false); }
+simdjson_inline simdjson_result document_reference::get_uint32() noexcept {
+  uint64_t result;
+  SIMDJSON_TRY(doc->get_root_value_iterator().get_root_uint64(false).get(result));
+  if (result > (std::numeric_limits::max)()) { return NUMBER_OUT_OF_RANGE; }
+  return static_cast(result);
+}
+simdjson_inline simdjson_result document_reference::get_int32() noexcept {
+  int64_t result;
+  SIMDJSON_TRY(doc->get_root_value_iterator().get_root_int64(false).get(result));
+  if (result > (std::numeric_limits::max)() || result < (std::numeric_limits::min)()) { return NUMBER_OUT_OF_RANGE; }
+  return static_cast(result);
+}
 simdjson_inline simdjson_result document_reference::get_double() noexcept { return doc->get_root_value_iterator().get_root_double(false); }
 simdjson_inline simdjson_result document_reference::get_double_in_string() noexcept { return doc->get_root_value_iterator().get_root_double(false); }
 simdjson_inline simdjson_result document_reference::get_string(bool allow_replacement) noexcept { return doc->get_root_value_iterator().get_root_string(false, allow_replacement); }
@@ -138220,6 +139618,8 @@ template<> simdjson_inline simdjson_result document_reference:
 template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_double(); }
 template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_uint64(); }
 template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_int64(); }
+template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_uint32(); }
+template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_int32(); }
 template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_bool(); }
 template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_value(); }
 #if SIMDJSON_EXCEPTIONS
@@ -138258,7 +139658,13 @@ simdjson_inline simdjson_result document_reference::get_number() noexcep
 simdjson_inline simdjson_result document_reference::raw_json_token() noexcept { return doc->raw_json_token(); }
 simdjson_inline simdjson_result document_reference::at_pointer(std::string_view json_pointer) noexcept { return doc->at_pointer(json_pointer); }
 simdjson_inline simdjson_result document_reference::at_path(std::string_view json_path) noexcept { return doc->at_path(json_path); }
-simdjson_inline simdjson_result> document_reference::at_path_with_wildcard(std::string_view json_path) noexcept { return doc->at_path_with_wildcard(json_path); }
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+simdjson_inline error_code document_reference::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept { return doc->for_each_at_path_with_wildcard(json_path, std::forward(callback)); }
 simdjson_inline simdjson_result document_reference::raw_json() noexcept { return doc->raw_json();}
 simdjson_inline document_reference::operator document&() const noexcept { return *doc; }
 #if SIMDJSON_SUPPORTS_CONCEPTS && SIMDJSON_STATIC_REFLECTION
@@ -138351,6 +139757,14 @@ simdjson_inline simdjson_result simdjson_result simdjson_result::get_uint32() noexcept {
+  if (error()) { return error(); }
+  return first.get_uint32();
+}
+simdjson_inline simdjson_result simdjson_result::get_int32() noexcept {
+  if (error()) { return error(); }
+  return first.get_int32();
+}
 simdjson_inline simdjson_result simdjson_result::get_double() noexcept {
   if (error()) { return error(); }
   return first.get_double();
@@ -138515,11 +139929,17 @@ simdjson_inline simdjson_result simdjson_result> simdjson_result::at_path_with_wildcard(std::string_view json_path) noexcept {
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+simdjson_inline error_code simdjson_result::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   if (error()) {
       return error();
   }
-  return first.at_path_with_wildcard(json_path);
+  return first.for_each_at_path_with_wildcard(json_path, std::forward(callback));
 }
 #if SIMDJSON_STATIC_REFLECTION
 template
@@ -140097,9 +141517,13 @@ inline simdjson_result object::at_path(std::string_view json_path) noexce
   return at_pointer(json_pointer);
 }
 
-inline simdjson_result> object::at_path_with_wildcard(std::string_view json_path) noexcept {
-  std::vector result;
-
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+inline error_code object::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   auto result_pair = get_next_key_and_json_path(json_path);
   std::string_view key = result_pair.first;
   std::string_view remaining_path = result_pair.second;
@@ -140109,34 +141533,22 @@ inline simdjson_result> object::at_path_with_wildcard(std::st
     for (auto field : *this) {
       value val;
       SIMDJSON_TRY(field.value().get(val));
-
       if (remaining_path.empty()) {
-        result.push_back(std::move(val));
+        callback(val);
       } else {
-        auto nested_result = val.at_path_with_wildcard(remaining_path);
-
-        if (nested_result.error()) {
-          return nested_result.error();
-        }
-        // Extract and append all nested matches to our result
-        std::vector nested_vec;
-        SIMDJSON_TRY(std::move(nested_result).get(nested_vec));
-
-        result.insert(result.end(),
-                     std::make_move_iterator(nested_vec.begin()),
-                     std::make_move_iterator(nested_vec.end()));
+        SIMDJSON_TRY(val.for_each_at_path_with_wildcard(remaining_path, callback));
       }
     }
-    return result;
+    return SUCCESS;
   } else {
     value val;
     SIMDJSON_TRY(find_field(key).get(val));
 
     if (remaining_path.empty()) {
-      result.push_back(std::move(val));
-      return result;
+      callback(val);
+      return SUCCESS;
     } else {
-      return val.at_path_with_wildcard(remaining_path);
+      return val.for_each_at_path_with_wildcard(remaining_path, callback);
     }
   }
 }
@@ -140267,9 +141679,15 @@ simdjson_inline simdjson_result simdjson_result> simdjson_result::at_path_with_wildcard(std::string_view json_path) noexcept {
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+simdjson_inline error_code simdjson_result::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   if (error()) { return error(); }
-  return first.at_path_with_wildcard(json_path);
+  return first.for_each_at_path_with_wildcard(json_path, std::forward(callback));
 }
 
 inline simdjson_result simdjson_result::reset() noexcept {
@@ -140623,7 +142041,7 @@ simdjson_pure simdjson_inline size_t parser::max_depth() const noexcept {
 }
 
 simdjson_inline void parser::set_max_capacity(size_t max_capacity) noexcept {
-  if(max_capacity < dom::MINIMAL_DOCUMENT_CAPACITY) {
+  if(max_capacity > dom::MINIMAL_DOCUMENT_CAPACITY) {
     _max_capacity = max_capacity;
   } else {
     _max_capacity = dom::MINIMAL_DOCUMENT_CAPACITY;
@@ -140650,7 +142068,7 @@ simdjson_inline simdjson_warn_unused ondemand::parser& parser::get_parser() {
   return *parser::get_parser_instance();
 }
 
-simdjson_inline bool release_parser() {
+simdjson_inline bool parser::release_parser() {
   auto &parser_instance = parser::get_threadlocal_parser_if_exists();
   if (parser_instance) {
     parser_instance.reset();
@@ -144764,6 +146182,28 @@ class value {
    */
   simdjson_inline simdjson_result get_int64_in_string() noexcept;
 
+  /**
+   * Cast this JSON value to a 32-bit unsigned integer.
+   *
+   * Calls get_uint64() and checks that the result fits in a uint32_t.
+   *
+   * @returns A 32-bit unsigned integer.
+   * @returns INCORRECT_TYPE If the JSON value is not an unsigned integer.
+   * @returns NUMBER_OUT_OF_RANGE If the value does not fit in a uint32_t.
+   */
+  simdjson_inline simdjson_result get_uint32() noexcept;
+
+  /**
+   * Cast this JSON value to a 32-bit signed integer.
+   *
+   * Calls get_int64() and checks that the result fits in an int32_t.
+   *
+   * @returns A 32-bit signed integer.
+   * @returns INCORRECT_TYPE If the JSON value is not an integer.
+   * @returns NUMBER_OUT_OF_RANGE If the value does not fit in an int32_t.
+   */
+  simdjson_inline simdjson_result get_int32() noexcept;
+
   /**
    * Cast this JSON value to a double.
    *
@@ -145279,13 +146719,21 @@ class value {
   simdjson_inline simdjson_result at_path(std::string_view at_path) noexcept;
 
   /**
-   * Get all values matching the given JSONPath expression with wildcard support.
+   * Call the provided callback for each value matching the given JSONPath
+   * expression with wildcard support.
    * Supports wildcard character (*) for arrays or ".*" for objects.
    *
    * @param json_path JSONPath expression with wildcards
-   * @return Vector of values matching the wildcard pattern
+   * @param callback Function called for each matching value
+   * @return error_code indicating success or failure
    */
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 
 protected:
   /**
@@ -145349,6 +146797,8 @@ struct simdjson_result : public lsx::implementation_simdjs
   simdjson_inline simdjson_result get_uint64_in_string() noexcept;
   simdjson_inline simdjson_result get_int64() noexcept;
   simdjson_inline simdjson_result get_int64_in_string() noexcept;
+  simdjson_inline simdjson_result get_uint32() noexcept;
+  simdjson_inline simdjson_result get_int32() noexcept;
   simdjson_inline simdjson_result get_double() noexcept;
   simdjson_inline simdjson_result get_double_in_string() noexcept;
   simdjson_inline simdjson_result get_string(bool allow_replacement = false) noexcept;
@@ -145476,9 +146926,23 @@ struct simdjson_result : public lsx::implementation_simdjs
   simdjson_inline simdjson_result current_depth() const noexcept;
   simdjson_inline simdjson_result at_pointer(std::string_view json_pointer) noexcept;
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 };
 
+// Forward-declare explicit specializations so MSVC /permissive- sees them before
+// any template instantiation that would resolve element.get(val) to the primary.
+template<> simdjson_inline error_code
+simdjson_result::get(
+    lsx::ondemand::value &out) noexcept;
+template<> simdjson_inline simdjson_result
+simdjson_result::get() noexcept;
+
 } // namespace simdjson
 
 #endif // SIMDJSON_GENERIC_ONDEMAND_VALUE_H
@@ -146817,8 +148281,6 @@ class parser {
   static simdjson_inline bool release_parser();
 
 private:
-  friend bool release_parser();
-  friend ondemand::parser& get_parser();
   /** Get the thread-local parser instance, allocates it if needed */
   static simdjson_inline simdjson_warn_unused std::unique_ptr& get_parser_instance();
   /** Get the thread-local parser instance, it might be null */
@@ -146981,13 +148443,21 @@ class array {
   inline simdjson_result at_path(std::string_view json_path) noexcept;
 
   /**
-   * Get all values matching the given JSONPath expression with wildcard support.
+   * Call the provided callback for each value matching the given JSONPath
+   * expression with wildcard support.
    * Supports wildcard patterns like "[*]" to match all array elements.
    *
    * @param json_path JSONPath expression with wildcards
-   * @return Vector of values matching the wildcard pattern
+   * @param callback Function called for each matching value
+   * @return error_code indicating success or failure
   */
-  inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 
   /**
    * Consumes the array and returns a string_view instance corresponding to the
@@ -147111,7 +148581,13 @@ struct simdjson_result : public lsx::implementation_simdjs
   simdjson_inline simdjson_result at(size_t index) noexcept;
   simdjson_inline simdjson_result at_pointer(std::string_view json_pointer) noexcept;
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
   simdjson_inline simdjson_result raw_json() noexcept;
 #if SIMDJSON_SUPPORTS_CONCEPTS
   // TODO: move this code into object-inl.h
@@ -147343,6 +148819,26 @@ class document {
    * @returns INCORRECT_TYPE If the JSON value is not a 64-bit integer.
    */
   simdjson_inline simdjson_result get_int64_in_string() noexcept;
+  /**
+   * Cast this JSON value to a 32-bit unsigned integer.
+   *
+   * Calls get_uint64() and checks that the result fits in a uint32_t.
+   *
+   * @returns A 32-bit unsigned integer.
+   * @returns INCORRECT_TYPE If the JSON value is not an unsigned integer.
+   * @returns NUMBER_OUT_OF_RANGE If the value does not fit in a uint32_t.
+   */
+  simdjson_inline simdjson_result get_uint32() noexcept;
+  /**
+   * Cast this JSON value to a 32-bit signed integer.
+   *
+   * Calls get_int64() and checks that the result fits in an int32_t.
+   *
+   * @returns A 32-bit signed integer.
+   * @returns INCORRECT_TYPE If the JSON value is not an integer.
+   * @returns NUMBER_OUT_OF_RANGE If the value does not fit in an int32_t.
+   */
+  simdjson_inline simdjson_result get_int32() noexcept;
   /**
    * Cast this JSON value to a double.
    *
@@ -147991,21 +149487,24 @@ class document {
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
 
   /**
-   * Get all values matching the given JSONPath expression with wildcard support.
+   * Call the provided callback for each value matching the given JSONPath
+   * expression with wildcard support.
    *
    * Supports wildcard patterns like "$.array[*]" or "$.object.*" to match multiple elements.
    *
-   * This method materializes all matching values into a vector.
    * The document will be consumed after this call.
    *
    * @param json_path JSONPath expression with wildcards
-   * @return Vector of values matching the wildcard pattern, or:
-   *         - INVALID_JSON_POINTER if the JSONPath cannot be parsed
-   *         - NO_SUCH_FIELD if a field does not exist
-   *         - INDEX_OUT_OF_BOUNDS if an array index is out of bounds
-   *         - INCORRECT_TYPE if path traversal encounters wrong type
+   * @param callback Function called for each matching value
+   * @return error_code indicating success or failure
    */
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 
   /**
    * Consumes the document and returns a string_view instance corresponding to the
@@ -148096,6 +149595,8 @@ class document_reference {
   simdjson_inline simdjson_result get_uint64_in_string() noexcept;
   simdjson_inline simdjson_result get_int64() noexcept;
   simdjson_inline simdjson_result get_int64_in_string() noexcept;
+  simdjson_inline simdjson_result get_uint32() noexcept;
+  simdjson_inline simdjson_result get_int32() noexcept;
   simdjson_inline simdjson_result get_double() noexcept;
   simdjson_inline simdjson_result get_double_in_string() noexcept;
   simdjson_inline simdjson_result get_string(bool allow_replacement = false) noexcept;
@@ -148224,7 +149725,13 @@ class document_reference {
   simdjson_inline simdjson_result raw_json_token() noexcept;
   simdjson_inline simdjson_result at_pointer(std::string_view json_pointer) noexcept;
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 
 private:
   document *doc{nullptr};
@@ -148249,6 +149756,8 @@ struct simdjson_result : public lsx::implementation_sim
   simdjson_inline simdjson_result get_uint64_in_string() noexcept;
   simdjson_inline simdjson_result get_int64() noexcept;
   simdjson_inline simdjson_result get_int64_in_string() noexcept;
+  simdjson_inline simdjson_result get_uint32() noexcept;
+  simdjson_inline simdjson_result get_int32() noexcept;
   simdjson_inline simdjson_result get_double() noexcept;
   simdjson_inline simdjson_result get_double_in_string() noexcept;
   simdjson_inline simdjson_result get_string(bool allow_replacement = false) noexcept;
@@ -148308,7 +149817,13 @@ struct simdjson_result : public lsx::implementation_sim
 
   simdjson_inline simdjson_result at_pointer(std::string_view json_pointer) noexcept;
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 #if SIMDJSON_STATIC_REFLECTION
   template
     requires(std::is_class_v && (sizeof...(FieldNames) > 0))
@@ -148336,6 +149851,8 @@ struct simdjson_result : public lsx::implemen
   simdjson_inline simdjson_result get_uint64_in_string() noexcept;
   simdjson_inline simdjson_result get_int64() noexcept;
   simdjson_inline simdjson_result get_int64_in_string() noexcept;
+  simdjson_inline simdjson_result get_uint32() noexcept;
+  simdjson_inline simdjson_result get_int32() noexcept;
   simdjson_inline simdjson_result get_double() noexcept;
   simdjson_inline simdjson_result get_double_in_string() noexcept;
   simdjson_inline simdjson_result get_string(bool allow_replacement = false) noexcept;
@@ -148391,7 +149908,13 @@ struct simdjson_result : public lsx::implemen
 
   simdjson_inline simdjson_result at_pointer(std::string_view json_pointer) noexcept;
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 #if SIMDJSON_STATIC_REFLECTION
   template
     requires(std::is_class_v && (sizeof...(FieldNames) > 0))
@@ -149044,13 +150567,21 @@ class object {
   inline simdjson_result at_path(std::string_view json_path) noexcept;
 
   /**
-   * Get all values matching the given JSONPath expression with wildcard support.
+   * Call the provided callback for each value matching the given JSONPath
+   * expression with wildcard support.
    * Supports wildcard patterns like ".*" to match all object fields.
    *
    * @param json_path JSONPath expression with wildcards
-   * @return Vector of values matching the wildcard pattern
+   * @param callback Function called for each matching value
+   * @return error_code indicating success or failure
   */
-  inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 
   /**
    * Reset the iterator so that we are pointing back at the
@@ -149200,7 +150731,13 @@ struct simdjson_result : public lsx::implementation_simdj
   simdjson_inline simdjson_result operator[](std::string_view key) && noexcept;
   simdjson_inline simdjson_result at_pointer(std::string_view json_pointer) noexcept;
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
   inline simdjson_result reset() noexcept;
   inline simdjson_result is_empty() noexcept;
   inline simdjson_result count_fields() & noexcept;
@@ -150214,46 +151751,34 @@ inline simdjson_result array::at_path(std::string_view json_path) noexcep
   return at_pointer(json_pointer);
 }
 
-inline simdjson_result> array::at_path_with_wildcard(std::string_view json_path) noexcept {
-  std::vector result;
-
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+inline error_code array::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   auto result_pair = get_next_key_and_json_path(json_path);
   std::string_view key = result_pair.first;
   std::string_view remaining_path = result_pair.second;
   // Wildcard case
-  if(key=="*"){
-    for(auto element: *this){
-
-      if(element.error()){
-        return element.error();
-      }
-
-      if(remaining_path.empty()){
-        // Use value_unsafe() because we've already checked for errors above.
-        // The 'element' is a simdjson_result wrapper, and we need to extract
-        // the underlying value. value_unsafe() is safe here because error() returned false.
-        result.push_back(std::move(element).value_unsafe());
-
-      }else{
-        auto nested_result = element.at_path_with_wildcard(remaining_path);
-
-        if(nested_result.error()){
-          return nested_result.error();
-        }
-        // Same logic as above.
-        std::vector nested_matches = std::move(nested_result).value_unsafe();
-
-        result.insert(result.end(),
-                      std::make_move_iterator(nested_matches.begin()),
-                      std::make_move_iterator(nested_matches.end()));
+  if (key=="*"){
+    for(auto element: *this) {
+      value val;
+        SIMDJSON_TRY(element.get(val));
+      if (remaining_path.empty()) {
+        callback(val);
+      } else {
+        error_code err = element.for_each_at_path_with_wildcard(remaining_path, callback);
+        if(err) { return err; }
       }
     }
-    return result;
-  }else{
+    return SUCCESS;
+  } else {
     // Specific index case in which we access the element at the given index
-    size_t idx=0;
+    size_t idx = 0;
 
-    for(char c:key){
+    for (char c : key) {
       if(c < '0' || c > '9'){
         return INVALID_JSON_POINTER;
       }
@@ -150261,16 +151786,13 @@ inline simdjson_result> array::at_path_with_wildcard(std::str
     }
 
     auto element = at(idx);
-
-    if(element.error()){
-      return element.error();
-    }
-
-    if(remaining_path.empty()){
-      result.push_back(std::move(element).value_unsafe());
-      return result;
-    }else{
-      return element.at_path_with_wildcard(remaining_path);
+    value val;
+    SIMDJSON_TRY(element.get(val));
+    if (remaining_path.empty()){
+      callback(val);
+      return SUCCESS;
+    } else {
+      return element.for_each_at_path_with_wildcard(remaining_path, callback);
     }
   }
 }
@@ -150333,9 +151855,15 @@ simdjson_inline  simdjson_result simdjson_result> simdjson_result::at_path_with_wildcard(std::string_view json_path) noexcept {
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+simdjson_inline error_code simdjson_result::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   if (error()) { return error(); }
-  return first.at_path_with_wildcard(json_path);
+  return first.for_each_at_path_with_wildcard(json_path, std::forward(callback));
 }
 simdjson_inline  simdjson_result simdjson_result::raw_json() noexcept {
   if (error()) { return error(); }
@@ -150454,6 +151982,8 @@ simdjson_inline bool simdjson_result::at_end() co
 /* amalgamation skipped (editor-only): #include "simdjson/generic/ondemand/value.h" */
 /* amalgamation skipped (editor-only): #endif // SIMDJSON_CONDITIONAL_INCLUDE */
 
+#include 
+
 namespace simdjson {
 namespace lsx {
 namespace ondemand {
@@ -150514,6 +152044,18 @@ simdjson_inline simdjson_result value::get_int64() noexcept {
 simdjson_inline simdjson_result value::get_int64_in_string() noexcept {
   return iter.get_int64_in_string();
 }
+simdjson_inline simdjson_result value::get_uint32() noexcept {
+  uint64_t result;
+  SIMDJSON_TRY(get_uint64().get(result));
+  if (result > (std::numeric_limits::max)()) { return NUMBER_OUT_OF_RANGE; }
+  return static_cast(result);
+}
+simdjson_inline simdjson_result value::get_int32() noexcept {
+  int64_t result;
+  SIMDJSON_TRY(get_int64().get(result));
+  if (result > (std::numeric_limits::max)() || result < (std::numeric_limits::min)()) { return NUMBER_OUT_OF_RANGE; }
+  return static_cast(result);
+}
 simdjson_inline simdjson_result value::get_bool() noexcept {
   return iter.get_bool();
 }
@@ -150529,6 +152071,8 @@ template<> simdjson_inline simdjson_result value::get() noexcept { retur
 template<> simdjson_inline simdjson_result value::get() noexcept { return get_double(); }
 template<> simdjson_inline simdjson_result value::get() noexcept { return get_uint64(); }
 template<> simdjson_inline simdjson_result value::get() noexcept { return get_int64(); }
+template<> simdjson_inline simdjson_result value::get() noexcept { return get_uint32(); }
+template<> simdjson_inline simdjson_result value::get() noexcept { return get_int32(); }
 template<> simdjson_inline simdjson_result value::get() noexcept { return get_bool(); }
 
 
@@ -150540,6 +152084,8 @@ template<> simdjson_warn_unused simdjson_inline error_code value::get(number& ou
 template<> simdjson_warn_unused simdjson_inline error_code value::get(double& out) noexcept { return get_double().get(out); }
 template<> simdjson_warn_unused simdjson_inline error_code value::get(uint64_t& out) noexcept { return get_uint64().get(out); }
 template<> simdjson_warn_unused simdjson_inline error_code value::get(int64_t& out) noexcept { return get_int64().get(out); }
+template<> simdjson_warn_unused simdjson_inline error_code value::get(uint32_t& out) noexcept { return get_uint32().get(out); }
+template<> simdjson_warn_unused simdjson_inline error_code value::get(int32_t& out) noexcept { return get_int32().get(out); }
 template<>  simdjson_warn_unused simdjson_inline error_code value::get(bool& out) noexcept { return get_bool().get(out); }
 
 #if SIMDJSON_EXCEPTIONS
@@ -150738,14 +152284,20 @@ simdjson_inline simdjson_result value::at_path(std::string_view json_path
   }
 }
 
-inline simdjson_result> value::at_path_with_wildcard(std::string_view json_path) noexcept {
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+inline error_code value::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   json_type t;
   SIMDJSON_TRY(type().get(t));
   switch (t) {
   case json_type::array:
-      return (*this).get_array().at_path_with_wildcard(json_path);
+      return (*this).get_array().for_each_at_path_with_wildcard(json_path, std::forward(callback));
   case json_type::object:
-      return (*this).get_object().at_path_with_wildcard(json_path);
+      return (*this).get_object().for_each_at_path_with_wildcard(json_path, std::forward(callback));
   default:
       return INVALID_JSON_POINTER;
   }
@@ -150843,6 +152395,14 @@ simdjson_inline simdjson_result simdjson_result::
   if (error()) { return error(); }
   return first.get_int64_in_string();
 }
+simdjson_inline simdjson_result simdjson_result::get_uint32() noexcept {
+  if (error()) { return error(); }
+  return first.get_uint32();
+}
+simdjson_inline simdjson_result simdjson_result::get_int32() noexcept {
+  if (error()) { return error(); }
+  return first.get_int32();
+}
 simdjson_inline simdjson_result simdjson_result::get_double() noexcept {
   if (error()) { return error(); }
   return first.get_double();
@@ -151001,12 +152561,18 @@ simdjson_inline simdjson_result simdjson_result> simdjson_result::at_path_with_wildcard(
-      std::string_view json_path) noexcept {
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+inline error_code simdjson_result::for_each_at_path_with_wildcard(
+      std::string_view json_path, Func&& callback) noexcept {
   if (error()) {
     return error();
   }
-  return first.at_path_with_wildcard(json_path);
+  return first.for_each_at_path_with_wildcard(json_path, std::forward(callback));
 }
 
 } // namespace simdjson
@@ -151033,6 +152599,8 @@ inline simdjson_result> simdjson_result
+
 namespace simdjson {
 namespace lsx {
 namespace ondemand {
@@ -151148,6 +152716,18 @@ simdjson_inline simdjson_result document::get_int64() noexcept {
 simdjson_inline simdjson_result document::get_int64_in_string() noexcept {
   return get_root_value_iterator().get_root_int64_in_string(true);
 }
+simdjson_inline simdjson_result document::get_uint32() noexcept {
+  uint64_t result;
+  SIMDJSON_TRY(get_uint64().get(result));
+  if (result > (std::numeric_limits::max)()) { return NUMBER_OUT_OF_RANGE; }
+  return static_cast(result);
+}
+simdjson_inline simdjson_result document::get_int32() noexcept {
+  int64_t result;
+  SIMDJSON_TRY(get_int64().get(result));
+  if (result > (std::numeric_limits::max)() || result < (std::numeric_limits::min)()) { return NUMBER_OUT_OF_RANGE; }
+  return static_cast(result);
+}
 simdjson_inline simdjson_result document::get_double() noexcept {
   return get_root_value_iterator().get_root_double(true);
 }
@@ -151181,6 +152761,8 @@ template<> simdjson_inline simdjson_result document::get() & n
 template<> simdjson_inline simdjson_result document::get() & noexcept { return get_double(); }
 template<> simdjson_inline simdjson_result document::get() & noexcept { return get_uint64(); }
 template<> simdjson_inline simdjson_result document::get() & noexcept { return get_int64(); }
+template<> simdjson_inline simdjson_result document::get() & noexcept { return get_uint32(); }
+template<> simdjson_inline simdjson_result document::get() & noexcept { return get_int32(); }
 template<> simdjson_inline simdjson_result document::get() & noexcept { return get_bool(); }
 template<> simdjson_inline simdjson_result document::get() & noexcept { return get_value(); }
 
@@ -151191,6 +152773,8 @@ template<> simdjson_warn_unused simdjson_inline error_code document::get(std::st
 template<> simdjson_warn_unused simdjson_inline error_code document::get(double& out) & noexcept { return get_double().get(out); }
 template<> simdjson_warn_unused simdjson_inline error_code document::get(uint64_t& out) & noexcept { return get_uint64().get(out); }
 template<> simdjson_warn_unused simdjson_inline error_code document::get(int64_t& out) & noexcept { return get_int64().get(out); }
+template<> simdjson_warn_unused simdjson_inline error_code document::get(uint32_t& out) & noexcept { return get_uint32().get(out); }
+template<> simdjson_warn_unused simdjson_inline error_code document::get(int32_t& out) & noexcept { return get_int32().get(out); }
 template<> simdjson_warn_unused simdjson_inline error_code document::get(bool& out) & noexcept { return get_bool().get(out); }
 template<> simdjson_warn_unused simdjson_inline error_code document::get(value& out) & noexcept { return get_value().get(out); }
 
@@ -151364,8 +152948,14 @@ simdjson_inline simdjson_result document::at_path(std::string_view json_p
   }
 }
 
-simdjson_inline simdjson_result> document::at_path_with_wildcard(std::string_view json_path) noexcept {
-  rewind(); // Rewind the document each time at_path_with_wildcard is called
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+simdjson_inline error_code document::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
+  rewind(); // Rewind the document each time for_each_at_path_with_wildcard is called
   if (json_path.empty()) {
       return INVALID_JSON_POINTER;
   }
@@ -151373,9 +152963,9 @@ simdjson_inline simdjson_result> document::at_path_with_wildc
   SIMDJSON_TRY(type().get(t));
   switch (t) {
   case json_type::array:
-      return (*this).get_array().at_path_with_wildcard(json_path);
+      return (*this).get_array().for_each_at_path_with_wildcard(json_path, std::forward(callback));
   case json_type::object:
-      return (*this).get_object().at_path_with_wildcard(json_path);
+      return (*this).get_object().for_each_at_path_with_wildcard(json_path, std::forward(callback));
   default:
       return INVALID_JSON_POINTER;
   }
@@ -151521,6 +153111,14 @@ simdjson_inline simdjson_result simdjson_result simdjson_result::get_uint32() noexcept {
+  if (error()) { return error(); }
+  return first.get_uint32();
+}
+simdjson_inline simdjson_result simdjson_result::get_int32() noexcept {
+  if (error()) { return error(); }
+  return first.get_int32();
+}
 simdjson_inline simdjson_result simdjson_result::get_double() noexcept {
   if (error()) { return error(); }
   return first.get_double();
@@ -151704,9 +153302,15 @@ simdjson_inline simdjson_result simdjson_result> simdjson_result::at_path_with_wildcard(std::string_view json_path) noexcept {
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+simdjson_inline error_code simdjson_result::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   if (error()) { return error(); }
-  return first.at_path_with_wildcard(json_path);
+  return first.for_each_at_path_with_wildcard(json_path, std::forward(callback));
 }
 
 #if SIMDJSON_STATIC_REFLECTION
@@ -151748,6 +153352,18 @@ simdjson_inline simdjson_result document_reference::get_uint64() noexc
 simdjson_inline simdjson_result document_reference::get_uint64_in_string() noexcept { return doc->get_root_value_iterator().get_root_uint64_in_string(false); }
 simdjson_inline simdjson_result document_reference::get_int64() noexcept { return doc->get_root_value_iterator().get_root_int64(false); }
 simdjson_inline simdjson_result document_reference::get_int64_in_string() noexcept { return doc->get_root_value_iterator().get_root_int64_in_string(false); }
+simdjson_inline simdjson_result document_reference::get_uint32() noexcept {
+  uint64_t result;
+  SIMDJSON_TRY(doc->get_root_value_iterator().get_root_uint64(false).get(result));
+  if (result > (std::numeric_limits::max)()) { return NUMBER_OUT_OF_RANGE; }
+  return static_cast(result);
+}
+simdjson_inline simdjson_result document_reference::get_int32() noexcept {
+  int64_t result;
+  SIMDJSON_TRY(doc->get_root_value_iterator().get_root_int64(false).get(result));
+  if (result > (std::numeric_limits::max)() || result < (std::numeric_limits::min)()) { return NUMBER_OUT_OF_RANGE; }
+  return static_cast(result);
+}
 simdjson_inline simdjson_result document_reference::get_double() noexcept { return doc->get_root_value_iterator().get_root_double(false); }
 simdjson_inline simdjson_result document_reference::get_double_in_string() noexcept { return doc->get_root_value_iterator().get_root_double(false); }
 simdjson_inline simdjson_result document_reference::get_string(bool allow_replacement) noexcept { return doc->get_root_value_iterator().get_root_string(false, allow_replacement); }
@@ -151765,6 +153381,8 @@ template<> simdjson_inline simdjson_result document_reference:
 template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_double(); }
 template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_uint64(); }
 template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_int64(); }
+template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_uint32(); }
+template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_int32(); }
 template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_bool(); }
 template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_value(); }
 #if SIMDJSON_EXCEPTIONS
@@ -151803,7 +153421,13 @@ simdjson_inline simdjson_result document_reference::get_number() noexcep
 simdjson_inline simdjson_result document_reference::raw_json_token() noexcept { return doc->raw_json_token(); }
 simdjson_inline simdjson_result document_reference::at_pointer(std::string_view json_pointer) noexcept { return doc->at_pointer(json_pointer); }
 simdjson_inline simdjson_result document_reference::at_path(std::string_view json_path) noexcept { return doc->at_path(json_path); }
-simdjson_inline simdjson_result> document_reference::at_path_with_wildcard(std::string_view json_path) noexcept { return doc->at_path_with_wildcard(json_path); }
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+simdjson_inline error_code document_reference::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept { return doc->for_each_at_path_with_wildcard(json_path, std::forward(callback)); }
 simdjson_inline simdjson_result document_reference::raw_json() noexcept { return doc->raw_json();}
 simdjson_inline document_reference::operator document&() const noexcept { return *doc; }
 #if SIMDJSON_SUPPORTS_CONCEPTS && SIMDJSON_STATIC_REFLECTION
@@ -151896,6 +153520,14 @@ simdjson_inline simdjson_result simdjson_result simdjson_result::get_uint32() noexcept {
+  if (error()) { return error(); }
+  return first.get_uint32();
+}
+simdjson_inline simdjson_result simdjson_result::get_int32() noexcept {
+  if (error()) { return error(); }
+  return first.get_int32();
+}
 simdjson_inline simdjson_result simdjson_result::get_double() noexcept {
   if (error()) { return error(); }
   return first.get_double();
@@ -152060,11 +153692,17 @@ simdjson_inline simdjson_result simdjson_result> simdjson_result::at_path_with_wildcard(std::string_view json_path) noexcept {
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+simdjson_inline error_code simdjson_result::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   if (error()) {
       return error();
   }
-  return first.at_path_with_wildcard(json_path);
+  return first.for_each_at_path_with_wildcard(json_path, std::forward(callback));
 }
 #if SIMDJSON_STATIC_REFLECTION
 template
@@ -153642,9 +155280,13 @@ inline simdjson_result object::at_path(std::string_view json_path) noexce
   return at_pointer(json_pointer);
 }
 
-inline simdjson_result> object::at_path_with_wildcard(std::string_view json_path) noexcept {
-  std::vector result;
-
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+inline error_code object::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   auto result_pair = get_next_key_and_json_path(json_path);
   std::string_view key = result_pair.first;
   std::string_view remaining_path = result_pair.second;
@@ -153654,34 +155296,22 @@ inline simdjson_result> object::at_path_with_wildcard(std::st
     for (auto field : *this) {
       value val;
       SIMDJSON_TRY(field.value().get(val));
-
       if (remaining_path.empty()) {
-        result.push_back(std::move(val));
+        callback(val);
       } else {
-        auto nested_result = val.at_path_with_wildcard(remaining_path);
-
-        if (nested_result.error()) {
-          return nested_result.error();
-        }
-        // Extract and append all nested matches to our result
-        std::vector nested_vec;
-        SIMDJSON_TRY(std::move(nested_result).get(nested_vec));
-
-        result.insert(result.end(),
-                     std::make_move_iterator(nested_vec.begin()),
-                     std::make_move_iterator(nested_vec.end()));
+        SIMDJSON_TRY(val.for_each_at_path_with_wildcard(remaining_path, callback));
       }
     }
-    return result;
+    return SUCCESS;
   } else {
     value val;
     SIMDJSON_TRY(find_field(key).get(val));
 
     if (remaining_path.empty()) {
-      result.push_back(std::move(val));
-      return result;
+      callback(val);
+      return SUCCESS;
     } else {
-      return val.at_path_with_wildcard(remaining_path);
+      return val.for_each_at_path_with_wildcard(remaining_path, callback);
     }
   }
 }
@@ -153812,9 +155442,15 @@ simdjson_inline simdjson_result simdjson_result> simdjson_result::at_path_with_wildcard(std::string_view json_path) noexcept {
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+simdjson_inline error_code simdjson_result::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   if (error()) { return error(); }
-  return first.at_path_with_wildcard(json_path);
+  return first.for_each_at_path_with_wildcard(json_path, std::forward(callback));
 }
 
 inline simdjson_result simdjson_result::reset() noexcept {
@@ -154168,7 +155804,7 @@ simdjson_pure simdjson_inline size_t parser::max_depth() const noexcept {
 }
 
 simdjson_inline void parser::set_max_capacity(size_t max_capacity) noexcept {
-  if(max_capacity < dom::MINIMAL_DOCUMENT_CAPACITY) {
+  if(max_capacity > dom::MINIMAL_DOCUMENT_CAPACITY) {
     _max_capacity = max_capacity;
   } else {
     _max_capacity = dom::MINIMAL_DOCUMENT_CAPACITY;
@@ -154195,7 +155831,7 @@ simdjson_inline simdjson_warn_unused ondemand::parser& parser::get_parser() {
   return *parser::get_parser_instance();
 }
 
-simdjson_inline bool release_parser() {
+simdjson_inline bool parser::release_parser() {
   auto &parser_instance = parser::get_threadlocal_parser_if_exists();
   if (parser_instance) {
     parser_instance.reset();
@@ -158332,6 +159968,28 @@ class value {
    */
   simdjson_inline simdjson_result get_int64_in_string() noexcept;
 
+  /**
+   * Cast this JSON value to a 32-bit unsigned integer.
+   *
+   * Calls get_uint64() and checks that the result fits in a uint32_t.
+   *
+   * @returns A 32-bit unsigned integer.
+   * @returns INCORRECT_TYPE If the JSON value is not an unsigned integer.
+   * @returns NUMBER_OUT_OF_RANGE If the value does not fit in a uint32_t.
+   */
+  simdjson_inline simdjson_result get_uint32() noexcept;
+
+  /**
+   * Cast this JSON value to a 32-bit signed integer.
+   *
+   * Calls get_int64() and checks that the result fits in an int32_t.
+   *
+   * @returns A 32-bit signed integer.
+   * @returns INCORRECT_TYPE If the JSON value is not an integer.
+   * @returns NUMBER_OUT_OF_RANGE If the value does not fit in an int32_t.
+   */
+  simdjson_inline simdjson_result get_int32() noexcept;
+
   /**
    * Cast this JSON value to a double.
    *
@@ -158847,13 +160505,21 @@ class value {
   simdjson_inline simdjson_result at_path(std::string_view at_path) noexcept;
 
   /**
-   * Get all values matching the given JSONPath expression with wildcard support.
+   * Call the provided callback for each value matching the given JSONPath
+   * expression with wildcard support.
    * Supports wildcard character (*) for arrays or ".*" for objects.
    *
    * @param json_path JSONPath expression with wildcards
-   * @return Vector of values matching the wildcard pattern
+   * @param callback Function called for each matching value
+   * @return error_code indicating success or failure
    */
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 
 protected:
   /**
@@ -158917,6 +160583,8 @@ struct simdjson_result : public lasx::implementation_simd
   simdjson_inline simdjson_result get_uint64_in_string() noexcept;
   simdjson_inline simdjson_result get_int64() noexcept;
   simdjson_inline simdjson_result get_int64_in_string() noexcept;
+  simdjson_inline simdjson_result get_uint32() noexcept;
+  simdjson_inline simdjson_result get_int32() noexcept;
   simdjson_inline simdjson_result get_double() noexcept;
   simdjson_inline simdjson_result get_double_in_string() noexcept;
   simdjson_inline simdjson_result get_string(bool allow_replacement = false) noexcept;
@@ -159044,9 +160712,23 @@ struct simdjson_result : public lasx::implementation_simd
   simdjson_inline simdjson_result current_depth() const noexcept;
   simdjson_inline simdjson_result at_pointer(std::string_view json_pointer) noexcept;
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 };
 
+// Forward-declare explicit specializations so MSVC /permissive- sees them before
+// any template instantiation that would resolve element.get(val) to the primary.
+template<> simdjson_inline error_code
+simdjson_result::get(
+    lasx::ondemand::value &out) noexcept;
+template<> simdjson_inline simdjson_result
+simdjson_result::get() noexcept;
+
 } // namespace simdjson
 
 #endif // SIMDJSON_GENERIC_ONDEMAND_VALUE_H
@@ -160385,8 +162067,6 @@ class parser {
   static simdjson_inline bool release_parser();
 
 private:
-  friend bool release_parser();
-  friend ondemand::parser& get_parser();
   /** Get the thread-local parser instance, allocates it if needed */
   static simdjson_inline simdjson_warn_unused std::unique_ptr& get_parser_instance();
   /** Get the thread-local parser instance, it might be null */
@@ -160549,13 +162229,21 @@ class array {
   inline simdjson_result at_path(std::string_view json_path) noexcept;
 
   /**
-   * Get all values matching the given JSONPath expression with wildcard support.
+   * Call the provided callback for each value matching the given JSONPath
+   * expression with wildcard support.
    * Supports wildcard patterns like "[*]" to match all array elements.
    *
    * @param json_path JSONPath expression with wildcards
-   * @return Vector of values matching the wildcard pattern
+   * @param callback Function called for each matching value
+   * @return error_code indicating success or failure
   */
-  inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 
   /**
    * Consumes the array and returns a string_view instance corresponding to the
@@ -160679,7 +162367,13 @@ struct simdjson_result : public lasx::implementation_simd
   simdjson_inline simdjson_result at(size_t index) noexcept;
   simdjson_inline simdjson_result at_pointer(std::string_view json_pointer) noexcept;
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
   simdjson_inline simdjson_result raw_json() noexcept;
 #if SIMDJSON_SUPPORTS_CONCEPTS
   // TODO: move this code into object-inl.h
@@ -160911,6 +162605,26 @@ class document {
    * @returns INCORRECT_TYPE If the JSON value is not a 64-bit integer.
    */
   simdjson_inline simdjson_result get_int64_in_string() noexcept;
+  /**
+   * Cast this JSON value to a 32-bit unsigned integer.
+   *
+   * Calls get_uint64() and checks that the result fits in a uint32_t.
+   *
+   * @returns A 32-bit unsigned integer.
+   * @returns INCORRECT_TYPE If the JSON value is not an unsigned integer.
+   * @returns NUMBER_OUT_OF_RANGE If the value does not fit in a uint32_t.
+   */
+  simdjson_inline simdjson_result get_uint32() noexcept;
+  /**
+   * Cast this JSON value to a 32-bit signed integer.
+   *
+   * Calls get_int64() and checks that the result fits in an int32_t.
+   *
+   * @returns A 32-bit signed integer.
+   * @returns INCORRECT_TYPE If the JSON value is not an integer.
+   * @returns NUMBER_OUT_OF_RANGE If the value does not fit in an int32_t.
+   */
+  simdjson_inline simdjson_result get_int32() noexcept;
   /**
    * Cast this JSON value to a double.
    *
@@ -161559,21 +163273,24 @@ class document {
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
 
   /**
-   * Get all values matching the given JSONPath expression with wildcard support.
+   * Call the provided callback for each value matching the given JSONPath
+   * expression with wildcard support.
    *
    * Supports wildcard patterns like "$.array[*]" or "$.object.*" to match multiple elements.
    *
-   * This method materializes all matching values into a vector.
    * The document will be consumed after this call.
    *
    * @param json_path JSONPath expression with wildcards
-   * @return Vector of values matching the wildcard pattern, or:
-   *         - INVALID_JSON_POINTER if the JSONPath cannot be parsed
-   *         - NO_SUCH_FIELD if a field does not exist
-   *         - INDEX_OUT_OF_BOUNDS if an array index is out of bounds
-   *         - INCORRECT_TYPE if path traversal encounters wrong type
+   * @param callback Function called for each matching value
+   * @return error_code indicating success or failure
    */
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 
   /**
    * Consumes the document and returns a string_view instance corresponding to the
@@ -161664,6 +163381,8 @@ class document_reference {
   simdjson_inline simdjson_result get_uint64_in_string() noexcept;
   simdjson_inline simdjson_result get_int64() noexcept;
   simdjson_inline simdjson_result get_int64_in_string() noexcept;
+  simdjson_inline simdjson_result get_uint32() noexcept;
+  simdjson_inline simdjson_result get_int32() noexcept;
   simdjson_inline simdjson_result get_double() noexcept;
   simdjson_inline simdjson_result get_double_in_string() noexcept;
   simdjson_inline simdjson_result get_string(bool allow_replacement = false) noexcept;
@@ -161792,7 +163511,13 @@ class document_reference {
   simdjson_inline simdjson_result raw_json_token() noexcept;
   simdjson_inline simdjson_result at_pointer(std::string_view json_pointer) noexcept;
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 
 private:
   document *doc{nullptr};
@@ -161817,6 +163542,8 @@ struct simdjson_result : public lasx::implementation_s
   simdjson_inline simdjson_result get_uint64_in_string() noexcept;
   simdjson_inline simdjson_result get_int64() noexcept;
   simdjson_inline simdjson_result get_int64_in_string() noexcept;
+  simdjson_inline simdjson_result get_uint32() noexcept;
+  simdjson_inline simdjson_result get_int32() noexcept;
   simdjson_inline simdjson_result get_double() noexcept;
   simdjson_inline simdjson_result get_double_in_string() noexcept;
   simdjson_inline simdjson_result get_string(bool allow_replacement = false) noexcept;
@@ -161876,7 +163603,13 @@ struct simdjson_result : public lasx::implementation_s
 
   simdjson_inline simdjson_result at_pointer(std::string_view json_pointer) noexcept;
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 #if SIMDJSON_STATIC_REFLECTION
   template
     requires(std::is_class_v && (sizeof...(FieldNames) > 0))
@@ -161904,6 +163637,8 @@ struct simdjson_result : public lasx::implem
   simdjson_inline simdjson_result get_uint64_in_string() noexcept;
   simdjson_inline simdjson_result get_int64() noexcept;
   simdjson_inline simdjson_result get_int64_in_string() noexcept;
+  simdjson_inline simdjson_result get_uint32() noexcept;
+  simdjson_inline simdjson_result get_int32() noexcept;
   simdjson_inline simdjson_result get_double() noexcept;
   simdjson_inline simdjson_result get_double_in_string() noexcept;
   simdjson_inline simdjson_result get_string(bool allow_replacement = false) noexcept;
@@ -161959,7 +163694,13 @@ struct simdjson_result : public lasx::implem
 
   simdjson_inline simdjson_result at_pointer(std::string_view json_pointer) noexcept;
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 #if SIMDJSON_STATIC_REFLECTION
   template
     requires(std::is_class_v && (sizeof...(FieldNames) > 0))
@@ -162612,13 +164353,21 @@ class object {
   inline simdjson_result at_path(std::string_view json_path) noexcept;
 
   /**
-   * Get all values matching the given JSONPath expression with wildcard support.
+   * Call the provided callback for each value matching the given JSONPath
+   * expression with wildcard support.
    * Supports wildcard patterns like ".*" to match all object fields.
    *
    * @param json_path JSONPath expression with wildcards
-   * @return Vector of values matching the wildcard pattern
+   * @param callback Function called for each matching value
+   * @return error_code indicating success or failure
   */
-  inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 
   /**
    * Reset the iterator so that we are pointing back at the
@@ -162768,7 +164517,13 @@ struct simdjson_result : public lasx::implementation_sim
   simdjson_inline simdjson_result operator[](std::string_view key) && noexcept;
   simdjson_inline simdjson_result at_pointer(std::string_view json_pointer) noexcept;
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
   inline simdjson_result reset() noexcept;
   inline simdjson_result is_empty() noexcept;
   inline simdjson_result count_fields() & noexcept;
@@ -163782,46 +165537,34 @@ inline simdjson_result array::at_path(std::string_view json_path) noexcep
   return at_pointer(json_pointer);
 }
 
-inline simdjson_result> array::at_path_with_wildcard(std::string_view json_path) noexcept {
-  std::vector result;
-
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+inline error_code array::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   auto result_pair = get_next_key_and_json_path(json_path);
   std::string_view key = result_pair.first;
   std::string_view remaining_path = result_pair.second;
   // Wildcard case
-  if(key=="*"){
-    for(auto element: *this){
-
-      if(element.error()){
-        return element.error();
-      }
-
-      if(remaining_path.empty()){
-        // Use value_unsafe() because we've already checked for errors above.
-        // The 'element' is a simdjson_result wrapper, and we need to extract
-        // the underlying value. value_unsafe() is safe here because error() returned false.
-        result.push_back(std::move(element).value_unsafe());
-
-      }else{
-        auto nested_result = element.at_path_with_wildcard(remaining_path);
-
-        if(nested_result.error()){
-          return nested_result.error();
-        }
-        // Same logic as above.
-        std::vector nested_matches = std::move(nested_result).value_unsafe();
-
-        result.insert(result.end(),
-                      std::make_move_iterator(nested_matches.begin()),
-                      std::make_move_iterator(nested_matches.end()));
+  if (key=="*"){
+    for(auto element: *this) {
+      value val;
+        SIMDJSON_TRY(element.get(val));
+      if (remaining_path.empty()) {
+        callback(val);
+      } else {
+        error_code err = element.for_each_at_path_with_wildcard(remaining_path, callback);
+        if(err) { return err; }
       }
     }
-    return result;
-  }else{
+    return SUCCESS;
+  } else {
     // Specific index case in which we access the element at the given index
-    size_t idx=0;
+    size_t idx = 0;
 
-    for(char c:key){
+    for (char c : key) {
       if(c < '0' || c > '9'){
         return INVALID_JSON_POINTER;
       }
@@ -163829,16 +165572,13 @@ inline simdjson_result> array::at_path_with_wildcard(std::str
     }
 
     auto element = at(idx);
-
-    if(element.error()){
-      return element.error();
-    }
-
-    if(remaining_path.empty()){
-      result.push_back(std::move(element).value_unsafe());
-      return result;
-    }else{
-      return element.at_path_with_wildcard(remaining_path);
+    value val;
+    SIMDJSON_TRY(element.get(val));
+    if (remaining_path.empty()){
+      callback(val);
+      return SUCCESS;
+    } else {
+      return element.for_each_at_path_with_wildcard(remaining_path, callback);
     }
   }
 }
@@ -163901,9 +165641,15 @@ simdjson_inline  simdjson_result simdjson_result> simdjson_result::at_path_with_wildcard(std::string_view json_path) noexcept {
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+simdjson_inline error_code simdjson_result::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   if (error()) { return error(); }
-  return first.at_path_with_wildcard(json_path);
+  return first.for_each_at_path_with_wildcard(json_path, std::forward(callback));
 }
 simdjson_inline  simdjson_result simdjson_result::raw_json() noexcept {
   if (error()) { return error(); }
@@ -164022,6 +165768,8 @@ simdjson_inline bool simdjson_result::at_end() c
 /* amalgamation skipped (editor-only): #include "simdjson/generic/ondemand/value.h" */
 /* amalgamation skipped (editor-only): #endif // SIMDJSON_CONDITIONAL_INCLUDE */
 
+#include 
+
 namespace simdjson {
 namespace lasx {
 namespace ondemand {
@@ -164082,6 +165830,18 @@ simdjson_inline simdjson_result value::get_int64() noexcept {
 simdjson_inline simdjson_result value::get_int64_in_string() noexcept {
   return iter.get_int64_in_string();
 }
+simdjson_inline simdjson_result value::get_uint32() noexcept {
+  uint64_t result;
+  SIMDJSON_TRY(get_uint64().get(result));
+  if (result > (std::numeric_limits::max)()) { return NUMBER_OUT_OF_RANGE; }
+  return static_cast(result);
+}
+simdjson_inline simdjson_result value::get_int32() noexcept {
+  int64_t result;
+  SIMDJSON_TRY(get_int64().get(result));
+  if (result > (std::numeric_limits::max)() || result < (std::numeric_limits::min)()) { return NUMBER_OUT_OF_RANGE; }
+  return static_cast(result);
+}
 simdjson_inline simdjson_result value::get_bool() noexcept {
   return iter.get_bool();
 }
@@ -164097,6 +165857,8 @@ template<> simdjson_inline simdjson_result value::get() noexcept { retur
 template<> simdjson_inline simdjson_result value::get() noexcept { return get_double(); }
 template<> simdjson_inline simdjson_result value::get() noexcept { return get_uint64(); }
 template<> simdjson_inline simdjson_result value::get() noexcept { return get_int64(); }
+template<> simdjson_inline simdjson_result value::get() noexcept { return get_uint32(); }
+template<> simdjson_inline simdjson_result value::get() noexcept { return get_int32(); }
 template<> simdjson_inline simdjson_result value::get() noexcept { return get_bool(); }
 
 
@@ -164108,6 +165870,8 @@ template<> simdjson_warn_unused simdjson_inline error_code value::get(number& ou
 template<> simdjson_warn_unused simdjson_inline error_code value::get(double& out) noexcept { return get_double().get(out); }
 template<> simdjson_warn_unused simdjson_inline error_code value::get(uint64_t& out) noexcept { return get_uint64().get(out); }
 template<> simdjson_warn_unused simdjson_inline error_code value::get(int64_t& out) noexcept { return get_int64().get(out); }
+template<> simdjson_warn_unused simdjson_inline error_code value::get(uint32_t& out) noexcept { return get_uint32().get(out); }
+template<> simdjson_warn_unused simdjson_inline error_code value::get(int32_t& out) noexcept { return get_int32().get(out); }
 template<>  simdjson_warn_unused simdjson_inline error_code value::get(bool& out) noexcept { return get_bool().get(out); }
 
 #if SIMDJSON_EXCEPTIONS
@@ -164306,14 +166070,20 @@ simdjson_inline simdjson_result value::at_path(std::string_view json_path
   }
 }
 
-inline simdjson_result> value::at_path_with_wildcard(std::string_view json_path) noexcept {
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+inline error_code value::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   json_type t;
   SIMDJSON_TRY(type().get(t));
   switch (t) {
   case json_type::array:
-      return (*this).get_array().at_path_with_wildcard(json_path);
+      return (*this).get_array().for_each_at_path_with_wildcard(json_path, std::forward(callback));
   case json_type::object:
-      return (*this).get_object().at_path_with_wildcard(json_path);
+      return (*this).get_object().for_each_at_path_with_wildcard(json_path, std::forward(callback));
   default:
       return INVALID_JSON_POINTER;
   }
@@ -164411,6 +166181,14 @@ simdjson_inline simdjson_result simdjson_result:
   if (error()) { return error(); }
   return first.get_int64_in_string();
 }
+simdjson_inline simdjson_result simdjson_result::get_uint32() noexcept {
+  if (error()) { return error(); }
+  return first.get_uint32();
+}
+simdjson_inline simdjson_result simdjson_result::get_int32() noexcept {
+  if (error()) { return error(); }
+  return first.get_int32();
+}
 simdjson_inline simdjson_result simdjson_result::get_double() noexcept {
   if (error()) { return error(); }
   return first.get_double();
@@ -164569,12 +166347,18 @@ simdjson_inline simdjson_result simdjson_result> simdjson_result::at_path_with_wildcard(
-      std::string_view json_path) noexcept {
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+inline error_code simdjson_result::for_each_at_path_with_wildcard(
+      std::string_view json_path, Func&& callback) noexcept {
   if (error()) {
     return error();
   }
-  return first.at_path_with_wildcard(json_path);
+  return first.for_each_at_path_with_wildcard(json_path, std::forward(callback));
 }
 
 } // namespace simdjson
@@ -164601,6 +166385,8 @@ inline simdjson_result> simdjson_result
+
 namespace simdjson {
 namespace lasx {
 namespace ondemand {
@@ -164716,6 +166502,18 @@ simdjson_inline simdjson_result document::get_int64() noexcept {
 simdjson_inline simdjson_result document::get_int64_in_string() noexcept {
   return get_root_value_iterator().get_root_int64_in_string(true);
 }
+simdjson_inline simdjson_result document::get_uint32() noexcept {
+  uint64_t result;
+  SIMDJSON_TRY(get_uint64().get(result));
+  if (result > (std::numeric_limits::max)()) { return NUMBER_OUT_OF_RANGE; }
+  return static_cast(result);
+}
+simdjson_inline simdjson_result document::get_int32() noexcept {
+  int64_t result;
+  SIMDJSON_TRY(get_int64().get(result));
+  if (result > (std::numeric_limits::max)() || result < (std::numeric_limits::min)()) { return NUMBER_OUT_OF_RANGE; }
+  return static_cast(result);
+}
 simdjson_inline simdjson_result document::get_double() noexcept {
   return get_root_value_iterator().get_root_double(true);
 }
@@ -164749,6 +166547,8 @@ template<> simdjson_inline simdjson_result document::get() & n
 template<> simdjson_inline simdjson_result document::get() & noexcept { return get_double(); }
 template<> simdjson_inline simdjson_result document::get() & noexcept { return get_uint64(); }
 template<> simdjson_inline simdjson_result document::get() & noexcept { return get_int64(); }
+template<> simdjson_inline simdjson_result document::get() & noexcept { return get_uint32(); }
+template<> simdjson_inline simdjson_result document::get() & noexcept { return get_int32(); }
 template<> simdjson_inline simdjson_result document::get() & noexcept { return get_bool(); }
 template<> simdjson_inline simdjson_result document::get() & noexcept { return get_value(); }
 
@@ -164759,6 +166559,8 @@ template<> simdjson_warn_unused simdjson_inline error_code document::get(std::st
 template<> simdjson_warn_unused simdjson_inline error_code document::get(double& out) & noexcept { return get_double().get(out); }
 template<> simdjson_warn_unused simdjson_inline error_code document::get(uint64_t& out) & noexcept { return get_uint64().get(out); }
 template<> simdjson_warn_unused simdjson_inline error_code document::get(int64_t& out) & noexcept { return get_int64().get(out); }
+template<> simdjson_warn_unused simdjson_inline error_code document::get(uint32_t& out) & noexcept { return get_uint32().get(out); }
+template<> simdjson_warn_unused simdjson_inline error_code document::get(int32_t& out) & noexcept { return get_int32().get(out); }
 template<> simdjson_warn_unused simdjson_inline error_code document::get(bool& out) & noexcept { return get_bool().get(out); }
 template<> simdjson_warn_unused simdjson_inline error_code document::get(value& out) & noexcept { return get_value().get(out); }
 
@@ -164932,8 +166734,14 @@ simdjson_inline simdjson_result document::at_path(std::string_view json_p
   }
 }
 
-simdjson_inline simdjson_result> document::at_path_with_wildcard(std::string_view json_path) noexcept {
-  rewind(); // Rewind the document each time at_path_with_wildcard is called
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+simdjson_inline error_code document::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
+  rewind(); // Rewind the document each time for_each_at_path_with_wildcard is called
   if (json_path.empty()) {
       return INVALID_JSON_POINTER;
   }
@@ -164941,9 +166749,9 @@ simdjson_inline simdjson_result> document::at_path_with_wildc
   SIMDJSON_TRY(type().get(t));
   switch (t) {
   case json_type::array:
-      return (*this).get_array().at_path_with_wildcard(json_path);
+      return (*this).get_array().for_each_at_path_with_wildcard(json_path, std::forward(callback));
   case json_type::object:
-      return (*this).get_object().at_path_with_wildcard(json_path);
+      return (*this).get_object().for_each_at_path_with_wildcard(json_path, std::forward(callback));
   default:
       return INVALID_JSON_POINTER;
   }
@@ -165089,6 +166897,14 @@ simdjson_inline simdjson_result simdjson_result simdjson_result::get_uint32() noexcept {
+  if (error()) { return error(); }
+  return first.get_uint32();
+}
+simdjson_inline simdjson_result simdjson_result::get_int32() noexcept {
+  if (error()) { return error(); }
+  return first.get_int32();
+}
 simdjson_inline simdjson_result simdjson_result::get_double() noexcept {
   if (error()) { return error(); }
   return first.get_double();
@@ -165272,9 +167088,15 @@ simdjson_inline simdjson_result simdjson_result> simdjson_result::at_path_with_wildcard(std::string_view json_path) noexcept {
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+simdjson_inline error_code simdjson_result::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   if (error()) { return error(); }
-  return first.at_path_with_wildcard(json_path);
+  return first.for_each_at_path_with_wildcard(json_path, std::forward(callback));
 }
 
 #if SIMDJSON_STATIC_REFLECTION
@@ -165316,6 +167138,18 @@ simdjson_inline simdjson_result document_reference::get_uint64() noexc
 simdjson_inline simdjson_result document_reference::get_uint64_in_string() noexcept { return doc->get_root_value_iterator().get_root_uint64_in_string(false); }
 simdjson_inline simdjson_result document_reference::get_int64() noexcept { return doc->get_root_value_iterator().get_root_int64(false); }
 simdjson_inline simdjson_result document_reference::get_int64_in_string() noexcept { return doc->get_root_value_iterator().get_root_int64_in_string(false); }
+simdjson_inline simdjson_result document_reference::get_uint32() noexcept {
+  uint64_t result;
+  SIMDJSON_TRY(doc->get_root_value_iterator().get_root_uint64(false).get(result));
+  if (result > (std::numeric_limits::max)()) { return NUMBER_OUT_OF_RANGE; }
+  return static_cast(result);
+}
+simdjson_inline simdjson_result document_reference::get_int32() noexcept {
+  int64_t result;
+  SIMDJSON_TRY(doc->get_root_value_iterator().get_root_int64(false).get(result));
+  if (result > (std::numeric_limits::max)() || result < (std::numeric_limits::min)()) { return NUMBER_OUT_OF_RANGE; }
+  return static_cast(result);
+}
 simdjson_inline simdjson_result document_reference::get_double() noexcept { return doc->get_root_value_iterator().get_root_double(false); }
 simdjson_inline simdjson_result document_reference::get_double_in_string() noexcept { return doc->get_root_value_iterator().get_root_double(false); }
 simdjson_inline simdjson_result document_reference::get_string(bool allow_replacement) noexcept { return doc->get_root_value_iterator().get_root_string(false, allow_replacement); }
@@ -165333,6 +167167,8 @@ template<> simdjson_inline simdjson_result document_reference:
 template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_double(); }
 template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_uint64(); }
 template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_int64(); }
+template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_uint32(); }
+template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_int32(); }
 template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_bool(); }
 template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_value(); }
 #if SIMDJSON_EXCEPTIONS
@@ -165371,7 +167207,13 @@ simdjson_inline simdjson_result document_reference::get_number() noexcep
 simdjson_inline simdjson_result document_reference::raw_json_token() noexcept { return doc->raw_json_token(); }
 simdjson_inline simdjson_result document_reference::at_pointer(std::string_view json_pointer) noexcept { return doc->at_pointer(json_pointer); }
 simdjson_inline simdjson_result document_reference::at_path(std::string_view json_path) noexcept { return doc->at_path(json_path); }
-simdjson_inline simdjson_result> document_reference::at_path_with_wildcard(std::string_view json_path) noexcept { return doc->at_path_with_wildcard(json_path); }
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+simdjson_inline error_code document_reference::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept { return doc->for_each_at_path_with_wildcard(json_path, std::forward(callback)); }
 simdjson_inline simdjson_result document_reference::raw_json() noexcept { return doc->raw_json();}
 simdjson_inline document_reference::operator document&() const noexcept { return *doc; }
 #if SIMDJSON_SUPPORTS_CONCEPTS && SIMDJSON_STATIC_REFLECTION
@@ -165464,6 +167306,14 @@ simdjson_inline simdjson_result simdjson_result simdjson_result::get_uint32() noexcept {
+  if (error()) { return error(); }
+  return first.get_uint32();
+}
+simdjson_inline simdjson_result simdjson_result::get_int32() noexcept {
+  if (error()) { return error(); }
+  return first.get_int32();
+}
 simdjson_inline simdjson_result simdjson_result::get_double() noexcept {
   if (error()) { return error(); }
   return first.get_double();
@@ -165628,11 +167478,17 @@ simdjson_inline simdjson_result simdjson_result> simdjson_result::at_path_with_wildcard(std::string_view json_path) noexcept {
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+simdjson_inline error_code simdjson_result::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   if (error()) {
       return error();
   }
-  return first.at_path_with_wildcard(json_path);
+  return first.for_each_at_path_with_wildcard(json_path, std::forward(callback));
 }
 #if SIMDJSON_STATIC_REFLECTION
 template
@@ -167210,9 +169066,13 @@ inline simdjson_result object::at_path(std::string_view json_path) noexce
   return at_pointer(json_pointer);
 }
 
-inline simdjson_result> object::at_path_with_wildcard(std::string_view json_path) noexcept {
-  std::vector result;
-
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+inline error_code object::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   auto result_pair = get_next_key_and_json_path(json_path);
   std::string_view key = result_pair.first;
   std::string_view remaining_path = result_pair.second;
@@ -167222,34 +169082,22 @@ inline simdjson_result> object::at_path_with_wildcard(std::st
     for (auto field : *this) {
       value val;
       SIMDJSON_TRY(field.value().get(val));
-
       if (remaining_path.empty()) {
-        result.push_back(std::move(val));
+        callback(val);
       } else {
-        auto nested_result = val.at_path_with_wildcard(remaining_path);
-
-        if (nested_result.error()) {
-          return nested_result.error();
-        }
-        // Extract and append all nested matches to our result
-        std::vector nested_vec;
-        SIMDJSON_TRY(std::move(nested_result).get(nested_vec));
-
-        result.insert(result.end(),
-                     std::make_move_iterator(nested_vec.begin()),
-                     std::make_move_iterator(nested_vec.end()));
+        SIMDJSON_TRY(val.for_each_at_path_with_wildcard(remaining_path, callback));
       }
     }
-    return result;
+    return SUCCESS;
   } else {
     value val;
     SIMDJSON_TRY(find_field(key).get(val));
 
     if (remaining_path.empty()) {
-      result.push_back(std::move(val));
-      return result;
+      callback(val);
+      return SUCCESS;
     } else {
-      return val.at_path_with_wildcard(remaining_path);
+      return val.for_each_at_path_with_wildcard(remaining_path, callback);
     }
   }
 }
@@ -167380,9 +169228,15 @@ simdjson_inline simdjson_result simdjson_result> simdjson_result::at_path_with_wildcard(std::string_view json_path) noexcept {
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+simdjson_inline error_code simdjson_result::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   if (error()) { return error(); }
-  return first.at_path_with_wildcard(json_path);
+  return first.for_each_at_path_with_wildcard(json_path, std::forward(callback));
 }
 
 inline simdjson_result simdjson_result::reset() noexcept {
@@ -167736,7 +169590,7 @@ simdjson_pure simdjson_inline size_t parser::max_depth() const noexcept {
 }
 
 simdjson_inline void parser::set_max_capacity(size_t max_capacity) noexcept {
-  if(max_capacity < dom::MINIMAL_DOCUMENT_CAPACITY) {
+  if(max_capacity > dom::MINIMAL_DOCUMENT_CAPACITY) {
     _max_capacity = max_capacity;
   } else {
     _max_capacity = dom::MINIMAL_DOCUMENT_CAPACITY;
@@ -167763,7 +169617,7 @@ simdjson_inline simdjson_warn_unused ondemand::parser& parser::get_parser() {
   return *parser::get_parser_instance();
 }
 
-simdjson_inline bool release_parser() {
+simdjson_inline bool parser::release_parser() {
   auto &parser_instance = parser::get_threadlocal_parser_if_exists();
   if (parser_instance) {
     parser_instance.reset();
@@ -171904,6 +173758,28 @@ class value {
    */
   simdjson_inline simdjson_result get_int64_in_string() noexcept;
 
+  /**
+   * Cast this JSON value to a 32-bit unsigned integer.
+   *
+   * Calls get_uint64() and checks that the result fits in a uint32_t.
+   *
+   * @returns A 32-bit unsigned integer.
+   * @returns INCORRECT_TYPE If the JSON value is not an unsigned integer.
+   * @returns NUMBER_OUT_OF_RANGE If the value does not fit in a uint32_t.
+   */
+  simdjson_inline simdjson_result get_uint32() noexcept;
+
+  /**
+   * Cast this JSON value to a 32-bit signed integer.
+   *
+   * Calls get_int64() and checks that the result fits in an int32_t.
+   *
+   * @returns A 32-bit signed integer.
+   * @returns INCORRECT_TYPE If the JSON value is not an integer.
+   * @returns NUMBER_OUT_OF_RANGE If the value does not fit in an int32_t.
+   */
+  simdjson_inline simdjson_result get_int32() noexcept;
+
   /**
    * Cast this JSON value to a double.
    *
@@ -172419,13 +174295,21 @@ class value {
   simdjson_inline simdjson_result at_path(std::string_view at_path) noexcept;
 
   /**
-   * Get all values matching the given JSONPath expression with wildcard support.
+   * Call the provided callback for each value matching the given JSONPath
+   * expression with wildcard support.
    * Supports wildcard character (*) for arrays or ".*" for objects.
    *
    * @param json_path JSONPath expression with wildcards
-   * @return Vector of values matching the wildcard pattern
+   * @param callback Function called for each matching value
+   * @return error_code indicating success or failure
    */
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 
 protected:
   /**
@@ -172489,6 +174373,8 @@ struct simdjson_result : public rvv_vls::implementatio
   simdjson_inline simdjson_result get_uint64_in_string() noexcept;
   simdjson_inline simdjson_result get_int64() noexcept;
   simdjson_inline simdjson_result get_int64_in_string() noexcept;
+  simdjson_inline simdjson_result get_uint32() noexcept;
+  simdjson_inline simdjson_result get_int32() noexcept;
   simdjson_inline simdjson_result get_double() noexcept;
   simdjson_inline simdjson_result get_double_in_string() noexcept;
   simdjson_inline simdjson_result get_string(bool allow_replacement = false) noexcept;
@@ -172616,9 +174502,23 @@ struct simdjson_result : public rvv_vls::implementatio
   simdjson_inline simdjson_result current_depth() const noexcept;
   simdjson_inline simdjson_result at_pointer(std::string_view json_pointer) noexcept;
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 };
 
+// Forward-declare explicit specializations so MSVC /permissive- sees them before
+// any template instantiation that would resolve element.get(val) to the primary.
+template<> simdjson_inline error_code
+simdjson_result::get(
+    rvv_vls::ondemand::value &out) noexcept;
+template<> simdjson_inline simdjson_result
+simdjson_result::get() noexcept;
+
 } // namespace simdjson
 
 #endif // SIMDJSON_GENERIC_ONDEMAND_VALUE_H
@@ -173957,8 +175857,6 @@ class parser {
   static simdjson_inline bool release_parser();
 
 private:
-  friend bool release_parser();
-  friend ondemand::parser& get_parser();
   /** Get the thread-local parser instance, allocates it if needed */
   static simdjson_inline simdjson_warn_unused std::unique_ptr& get_parser_instance();
   /** Get the thread-local parser instance, it might be null */
@@ -174121,13 +176019,21 @@ class array {
   inline simdjson_result at_path(std::string_view json_path) noexcept;
 
   /**
-   * Get all values matching the given JSONPath expression with wildcard support.
+   * Call the provided callback for each value matching the given JSONPath
+   * expression with wildcard support.
    * Supports wildcard patterns like "[*]" to match all array elements.
    *
    * @param json_path JSONPath expression with wildcards
-   * @return Vector of values matching the wildcard pattern
+   * @param callback Function called for each matching value
+   * @return error_code indicating success or failure
   */
-  inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 
   /**
    * Consumes the array and returns a string_view instance corresponding to the
@@ -174251,7 +176157,13 @@ struct simdjson_result : public rvv_vls::implementatio
   simdjson_inline simdjson_result at(size_t index) noexcept;
   simdjson_inline simdjson_result at_pointer(std::string_view json_pointer) noexcept;
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
   simdjson_inline simdjson_result raw_json() noexcept;
 #if SIMDJSON_SUPPORTS_CONCEPTS
   // TODO: move this code into object-inl.h
@@ -174483,6 +176395,26 @@ class document {
    * @returns INCORRECT_TYPE If the JSON value is not a 64-bit integer.
    */
   simdjson_inline simdjson_result get_int64_in_string() noexcept;
+  /**
+   * Cast this JSON value to a 32-bit unsigned integer.
+   *
+   * Calls get_uint64() and checks that the result fits in a uint32_t.
+   *
+   * @returns A 32-bit unsigned integer.
+   * @returns INCORRECT_TYPE If the JSON value is not an unsigned integer.
+   * @returns NUMBER_OUT_OF_RANGE If the value does not fit in a uint32_t.
+   */
+  simdjson_inline simdjson_result get_uint32() noexcept;
+  /**
+   * Cast this JSON value to a 32-bit signed integer.
+   *
+   * Calls get_int64() and checks that the result fits in an int32_t.
+   *
+   * @returns A 32-bit signed integer.
+   * @returns INCORRECT_TYPE If the JSON value is not an integer.
+   * @returns NUMBER_OUT_OF_RANGE If the value does not fit in an int32_t.
+   */
+  simdjson_inline simdjson_result get_int32() noexcept;
   /**
    * Cast this JSON value to a double.
    *
@@ -175131,21 +177063,24 @@ class document {
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
 
   /**
-   * Get all values matching the given JSONPath expression with wildcard support.
+   * Call the provided callback for each value matching the given JSONPath
+   * expression with wildcard support.
    *
    * Supports wildcard patterns like "$.array[*]" or "$.object.*" to match multiple elements.
    *
-   * This method materializes all matching values into a vector.
    * The document will be consumed after this call.
    *
    * @param json_path JSONPath expression with wildcards
-   * @return Vector of values matching the wildcard pattern, or:
-   *         - INVALID_JSON_POINTER if the JSONPath cannot be parsed
-   *         - NO_SUCH_FIELD if a field does not exist
-   *         - INDEX_OUT_OF_BOUNDS if an array index is out of bounds
-   *         - INCORRECT_TYPE if path traversal encounters wrong type
+   * @param callback Function called for each matching value
+   * @return error_code indicating success or failure
    */
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 
   /**
    * Consumes the document and returns a string_view instance corresponding to the
@@ -175236,6 +177171,8 @@ class document_reference {
   simdjson_inline simdjson_result get_uint64_in_string() noexcept;
   simdjson_inline simdjson_result get_int64() noexcept;
   simdjson_inline simdjson_result get_int64_in_string() noexcept;
+  simdjson_inline simdjson_result get_uint32() noexcept;
+  simdjson_inline simdjson_result get_int32() noexcept;
   simdjson_inline simdjson_result get_double() noexcept;
   simdjson_inline simdjson_result get_double_in_string() noexcept;
   simdjson_inline simdjson_result get_string(bool allow_replacement = false) noexcept;
@@ -175364,7 +177301,13 @@ class document_reference {
   simdjson_inline simdjson_result raw_json_token() noexcept;
   simdjson_inline simdjson_result at_pointer(std::string_view json_pointer) noexcept;
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 
 private:
   document *doc{nullptr};
@@ -175389,6 +177332,8 @@ struct simdjson_result : public rvv_vls::implementa
   simdjson_inline simdjson_result get_uint64_in_string() noexcept;
   simdjson_inline simdjson_result get_int64() noexcept;
   simdjson_inline simdjson_result get_int64_in_string() noexcept;
+  simdjson_inline simdjson_result get_uint32() noexcept;
+  simdjson_inline simdjson_result get_int32() noexcept;
   simdjson_inline simdjson_result get_double() noexcept;
   simdjson_inline simdjson_result get_double_in_string() noexcept;
   simdjson_inline simdjson_result get_string(bool allow_replacement = false) noexcept;
@@ -175448,7 +177393,13 @@ struct simdjson_result : public rvv_vls::implementa
 
   simdjson_inline simdjson_result at_pointer(std::string_view json_pointer) noexcept;
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 #if SIMDJSON_STATIC_REFLECTION
   template
     requires(std::is_class_v && (sizeof...(FieldNames) > 0))
@@ -175476,6 +177427,8 @@ struct simdjson_result : public rvv_vls::
   simdjson_inline simdjson_result get_uint64_in_string() noexcept;
   simdjson_inline simdjson_result get_int64() noexcept;
   simdjson_inline simdjson_result get_int64_in_string() noexcept;
+  simdjson_inline simdjson_result get_uint32() noexcept;
+  simdjson_inline simdjson_result get_int32() noexcept;
   simdjson_inline simdjson_result get_double() noexcept;
   simdjson_inline simdjson_result get_double_in_string() noexcept;
   simdjson_inline simdjson_result get_string(bool allow_replacement = false) noexcept;
@@ -175531,7 +177484,13 @@ struct simdjson_result : public rvv_vls::
 
   simdjson_inline simdjson_result at_pointer(std::string_view json_pointer) noexcept;
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 #if SIMDJSON_STATIC_REFLECTION
   template
     requires(std::is_class_v && (sizeof...(FieldNames) > 0))
@@ -176184,13 +178143,21 @@ class object {
   inline simdjson_result at_path(std::string_view json_path) noexcept;
 
   /**
-   * Get all values matching the given JSONPath expression with wildcard support.
+   * Call the provided callback for each value matching the given JSONPath
+   * expression with wildcard support.
    * Supports wildcard patterns like ".*" to match all object fields.
    *
    * @param json_path JSONPath expression with wildcards
-   * @return Vector of values matching the wildcard pattern
+   * @param callback Function called for each matching value
+   * @return error_code indicating success or failure
   */
-  inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
 
   /**
    * Reset the iterator so that we are pointing back at the
@@ -176340,7 +178307,13 @@ struct simdjson_result : public rvv_vls::implementati
   simdjson_inline simdjson_result operator[](std::string_view key) && noexcept;
   simdjson_inline simdjson_result at_pointer(std::string_view json_pointer) noexcept;
   simdjson_inline simdjson_result at_path(std::string_view json_path) noexcept;
-  simdjson_inline simdjson_result> at_path_with_wildcard(std::string_view json_path) noexcept;
+#if SIMDJSON_SUPPORTS_CONCEPTS
+  template 
+    requires std::invocable
+#else
+  template 
+#endif
+  simdjson_inline error_code for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept;
   inline simdjson_result reset() noexcept;
   inline simdjson_result is_empty() noexcept;
   inline simdjson_result count_fields() & noexcept;
@@ -177354,46 +179327,34 @@ inline simdjson_result array::at_path(std::string_view json_path) noexcep
   return at_pointer(json_pointer);
 }
 
-inline simdjson_result> array::at_path_with_wildcard(std::string_view json_path) noexcept {
-  std::vector result;
-
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+inline error_code array::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   auto result_pair = get_next_key_and_json_path(json_path);
   std::string_view key = result_pair.first;
   std::string_view remaining_path = result_pair.second;
   // Wildcard case
-  if(key=="*"){
-    for(auto element: *this){
-
-      if(element.error()){
-        return element.error();
-      }
-
-      if(remaining_path.empty()){
-        // Use value_unsafe() because we've already checked for errors above.
-        // The 'element' is a simdjson_result wrapper, and we need to extract
-        // the underlying value. value_unsafe() is safe here because error() returned false.
-        result.push_back(std::move(element).value_unsafe());
-
-      }else{
-        auto nested_result = element.at_path_with_wildcard(remaining_path);
-
-        if(nested_result.error()){
-          return nested_result.error();
-        }
-        // Same logic as above.
-        std::vector nested_matches = std::move(nested_result).value_unsafe();
-
-        result.insert(result.end(),
-                      std::make_move_iterator(nested_matches.begin()),
-                      std::make_move_iterator(nested_matches.end()));
+  if (key=="*"){
+    for(auto element: *this) {
+      value val;
+        SIMDJSON_TRY(element.get(val));
+      if (remaining_path.empty()) {
+        callback(val);
+      } else {
+        error_code err = element.for_each_at_path_with_wildcard(remaining_path, callback);
+        if(err) { return err; }
       }
     }
-    return result;
-  }else{
+    return SUCCESS;
+  } else {
     // Specific index case in which we access the element at the given index
-    size_t idx=0;
+    size_t idx = 0;
 
-    for(char c:key){
+    for (char c : key) {
       if(c < '0' || c > '9'){
         return INVALID_JSON_POINTER;
       }
@@ -177401,16 +179362,13 @@ inline simdjson_result> array::at_path_with_wildcard(std::str
     }
 
     auto element = at(idx);
-
-    if(element.error()){
-      return element.error();
-    }
-
-    if(remaining_path.empty()){
-      result.push_back(std::move(element).value_unsafe());
-      return result;
-    }else{
-      return element.at_path_with_wildcard(remaining_path);
+    value val;
+    SIMDJSON_TRY(element.get(val));
+    if (remaining_path.empty()){
+      callback(val);
+      return SUCCESS;
+    } else {
+      return element.for_each_at_path_with_wildcard(remaining_path, callback);
     }
   }
 }
@@ -177473,9 +179431,15 @@ simdjson_inline  simdjson_result simdjson_result> simdjson_result::at_path_with_wildcard(std::string_view json_path) noexcept {
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+simdjson_inline error_code simdjson_result::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   if (error()) { return error(); }
-  return first.at_path_with_wildcard(json_path);
+  return first.for_each_at_path_with_wildcard(json_path, std::forward(callback));
 }
 simdjson_inline  simdjson_result simdjson_result::raw_json() noexcept {
   if (error()) { return error(); }
@@ -177594,6 +179558,8 @@ simdjson_inline bool simdjson_result::at_end(
 /* amalgamation skipped (editor-only): #include "simdjson/generic/ondemand/value.h" */
 /* amalgamation skipped (editor-only): #endif // SIMDJSON_CONDITIONAL_INCLUDE */
 
+#include 
+
 namespace simdjson {
 namespace rvv_vls {
 namespace ondemand {
@@ -177654,6 +179620,18 @@ simdjson_inline simdjson_result value::get_int64() noexcept {
 simdjson_inline simdjson_result value::get_int64_in_string() noexcept {
   return iter.get_int64_in_string();
 }
+simdjson_inline simdjson_result value::get_uint32() noexcept {
+  uint64_t result;
+  SIMDJSON_TRY(get_uint64().get(result));
+  if (result > (std::numeric_limits::max)()) { return NUMBER_OUT_OF_RANGE; }
+  return static_cast(result);
+}
+simdjson_inline simdjson_result value::get_int32() noexcept {
+  int64_t result;
+  SIMDJSON_TRY(get_int64().get(result));
+  if (result > (std::numeric_limits::max)() || result < (std::numeric_limits::min)()) { return NUMBER_OUT_OF_RANGE; }
+  return static_cast(result);
+}
 simdjson_inline simdjson_result value::get_bool() noexcept {
   return iter.get_bool();
 }
@@ -177669,6 +179647,8 @@ template<> simdjson_inline simdjson_result value::get() noexcept { retur
 template<> simdjson_inline simdjson_result value::get() noexcept { return get_double(); }
 template<> simdjson_inline simdjson_result value::get() noexcept { return get_uint64(); }
 template<> simdjson_inline simdjson_result value::get() noexcept { return get_int64(); }
+template<> simdjson_inline simdjson_result value::get() noexcept { return get_uint32(); }
+template<> simdjson_inline simdjson_result value::get() noexcept { return get_int32(); }
 template<> simdjson_inline simdjson_result value::get() noexcept { return get_bool(); }
 
 
@@ -177680,6 +179660,8 @@ template<> simdjson_warn_unused simdjson_inline error_code value::get(number& ou
 template<> simdjson_warn_unused simdjson_inline error_code value::get(double& out) noexcept { return get_double().get(out); }
 template<> simdjson_warn_unused simdjson_inline error_code value::get(uint64_t& out) noexcept { return get_uint64().get(out); }
 template<> simdjson_warn_unused simdjson_inline error_code value::get(int64_t& out) noexcept { return get_int64().get(out); }
+template<> simdjson_warn_unused simdjson_inline error_code value::get(uint32_t& out) noexcept { return get_uint32().get(out); }
+template<> simdjson_warn_unused simdjson_inline error_code value::get(int32_t& out) noexcept { return get_int32().get(out); }
 template<>  simdjson_warn_unused simdjson_inline error_code value::get(bool& out) noexcept { return get_bool().get(out); }
 
 #if SIMDJSON_EXCEPTIONS
@@ -177878,14 +179860,20 @@ simdjson_inline simdjson_result value::at_path(std::string_view json_path
   }
 }
 
-inline simdjson_result> value::at_path_with_wildcard(std::string_view json_path) noexcept {
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+inline error_code value::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   json_type t;
   SIMDJSON_TRY(type().get(t));
   switch (t) {
   case json_type::array:
-      return (*this).get_array().at_path_with_wildcard(json_path);
+      return (*this).get_array().for_each_at_path_with_wildcard(json_path, std::forward(callback));
   case json_type::object:
-      return (*this).get_object().at_path_with_wildcard(json_path);
+      return (*this).get_object().for_each_at_path_with_wildcard(json_path, std::forward(callback));
   default:
       return INVALID_JSON_POINTER;
   }
@@ -177983,6 +179971,14 @@ simdjson_inline simdjson_result simdjson_result simdjson_result::get_uint32() noexcept {
+  if (error()) { return error(); }
+  return first.get_uint32();
+}
+simdjson_inline simdjson_result simdjson_result::get_int32() noexcept {
+  if (error()) { return error(); }
+  return first.get_int32();
+}
 simdjson_inline simdjson_result simdjson_result::get_double() noexcept {
   if (error()) { return error(); }
   return first.get_double();
@@ -178141,12 +180137,18 @@ simdjson_inline simdjson_result simdjson_result> simdjson_result::at_path_with_wildcard(
-      std::string_view json_path) noexcept {
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+inline error_code simdjson_result::for_each_at_path_with_wildcard(
+      std::string_view json_path, Func&& callback) noexcept {
   if (error()) {
     return error();
   }
-  return first.at_path_with_wildcard(json_path);
+  return first.for_each_at_path_with_wildcard(json_path, std::forward(callback));
 }
 
 } // namespace simdjson
@@ -178173,6 +180175,8 @@ inline simdjson_result> simdjson_result
+
 namespace simdjson {
 namespace rvv_vls {
 namespace ondemand {
@@ -178288,6 +180292,18 @@ simdjson_inline simdjson_result document::get_int64() noexcept {
 simdjson_inline simdjson_result document::get_int64_in_string() noexcept {
   return get_root_value_iterator().get_root_int64_in_string(true);
 }
+simdjson_inline simdjson_result document::get_uint32() noexcept {
+  uint64_t result;
+  SIMDJSON_TRY(get_uint64().get(result));
+  if (result > (std::numeric_limits::max)()) { return NUMBER_OUT_OF_RANGE; }
+  return static_cast(result);
+}
+simdjson_inline simdjson_result document::get_int32() noexcept {
+  int64_t result;
+  SIMDJSON_TRY(get_int64().get(result));
+  if (result > (std::numeric_limits::max)() || result < (std::numeric_limits::min)()) { return NUMBER_OUT_OF_RANGE; }
+  return static_cast(result);
+}
 simdjson_inline simdjson_result document::get_double() noexcept {
   return get_root_value_iterator().get_root_double(true);
 }
@@ -178321,6 +180337,8 @@ template<> simdjson_inline simdjson_result document::get() & n
 template<> simdjson_inline simdjson_result document::get() & noexcept { return get_double(); }
 template<> simdjson_inline simdjson_result document::get() & noexcept { return get_uint64(); }
 template<> simdjson_inline simdjson_result document::get() & noexcept { return get_int64(); }
+template<> simdjson_inline simdjson_result document::get() & noexcept { return get_uint32(); }
+template<> simdjson_inline simdjson_result document::get() & noexcept { return get_int32(); }
 template<> simdjson_inline simdjson_result document::get() & noexcept { return get_bool(); }
 template<> simdjson_inline simdjson_result document::get() & noexcept { return get_value(); }
 
@@ -178331,6 +180349,8 @@ template<> simdjson_warn_unused simdjson_inline error_code document::get(std::st
 template<> simdjson_warn_unused simdjson_inline error_code document::get(double& out) & noexcept { return get_double().get(out); }
 template<> simdjson_warn_unused simdjson_inline error_code document::get(uint64_t& out) & noexcept { return get_uint64().get(out); }
 template<> simdjson_warn_unused simdjson_inline error_code document::get(int64_t& out) & noexcept { return get_int64().get(out); }
+template<> simdjson_warn_unused simdjson_inline error_code document::get(uint32_t& out) & noexcept { return get_uint32().get(out); }
+template<> simdjson_warn_unused simdjson_inline error_code document::get(int32_t& out) & noexcept { return get_int32().get(out); }
 template<> simdjson_warn_unused simdjson_inline error_code document::get(bool& out) & noexcept { return get_bool().get(out); }
 template<> simdjson_warn_unused simdjson_inline error_code document::get(value& out) & noexcept { return get_value().get(out); }
 
@@ -178504,8 +180524,14 @@ simdjson_inline simdjson_result document::at_path(std::string_view json_p
   }
 }
 
-simdjson_inline simdjson_result> document::at_path_with_wildcard(std::string_view json_path) noexcept {
-  rewind(); // Rewind the document each time at_path_with_wildcard is called
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+simdjson_inline error_code document::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
+  rewind(); // Rewind the document each time for_each_at_path_with_wildcard is called
   if (json_path.empty()) {
       return INVALID_JSON_POINTER;
   }
@@ -178513,9 +180539,9 @@ simdjson_inline simdjson_result> document::at_path_with_wildc
   SIMDJSON_TRY(type().get(t));
   switch (t) {
   case json_type::array:
-      return (*this).get_array().at_path_with_wildcard(json_path);
+      return (*this).get_array().for_each_at_path_with_wildcard(json_path, std::forward(callback));
   case json_type::object:
-      return (*this).get_object().at_path_with_wildcard(json_path);
+      return (*this).get_object().for_each_at_path_with_wildcard(json_path, std::forward(callback));
   default:
       return INVALID_JSON_POINTER;
   }
@@ -178661,6 +180687,14 @@ simdjson_inline simdjson_result simdjson_result simdjson_result::get_uint32() noexcept {
+  if (error()) { return error(); }
+  return first.get_uint32();
+}
+simdjson_inline simdjson_result simdjson_result::get_int32() noexcept {
+  if (error()) { return error(); }
+  return first.get_int32();
+}
 simdjson_inline simdjson_result simdjson_result::get_double() noexcept {
   if (error()) { return error(); }
   return first.get_double();
@@ -178844,9 +180878,15 @@ simdjson_inline simdjson_result simdjson_result> simdjson_result::at_path_with_wildcard(std::string_view json_path) noexcept {
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+simdjson_inline error_code simdjson_result::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   if (error()) { return error(); }
-  return first.at_path_with_wildcard(json_path);
+  return first.for_each_at_path_with_wildcard(json_path, std::forward(callback));
 }
 
 #if SIMDJSON_STATIC_REFLECTION
@@ -178888,6 +180928,18 @@ simdjson_inline simdjson_result document_reference::get_uint64() noexc
 simdjson_inline simdjson_result document_reference::get_uint64_in_string() noexcept { return doc->get_root_value_iterator().get_root_uint64_in_string(false); }
 simdjson_inline simdjson_result document_reference::get_int64() noexcept { return doc->get_root_value_iterator().get_root_int64(false); }
 simdjson_inline simdjson_result document_reference::get_int64_in_string() noexcept { return doc->get_root_value_iterator().get_root_int64_in_string(false); }
+simdjson_inline simdjson_result document_reference::get_uint32() noexcept {
+  uint64_t result;
+  SIMDJSON_TRY(doc->get_root_value_iterator().get_root_uint64(false).get(result));
+  if (result > (std::numeric_limits::max)()) { return NUMBER_OUT_OF_RANGE; }
+  return static_cast(result);
+}
+simdjson_inline simdjson_result document_reference::get_int32() noexcept {
+  int64_t result;
+  SIMDJSON_TRY(doc->get_root_value_iterator().get_root_int64(false).get(result));
+  if (result > (std::numeric_limits::max)() || result < (std::numeric_limits::min)()) { return NUMBER_OUT_OF_RANGE; }
+  return static_cast(result);
+}
 simdjson_inline simdjson_result document_reference::get_double() noexcept { return doc->get_root_value_iterator().get_root_double(false); }
 simdjson_inline simdjson_result document_reference::get_double_in_string() noexcept { return doc->get_root_value_iterator().get_root_double(false); }
 simdjson_inline simdjson_result document_reference::get_string(bool allow_replacement) noexcept { return doc->get_root_value_iterator().get_root_string(false, allow_replacement); }
@@ -178905,6 +180957,8 @@ template<> simdjson_inline simdjson_result document_reference:
 template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_double(); }
 template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_uint64(); }
 template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_int64(); }
+template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_uint32(); }
+template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_int32(); }
 template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_bool(); }
 template<> simdjson_inline simdjson_result document_reference::get() & noexcept { return get_value(); }
 #if SIMDJSON_EXCEPTIONS
@@ -178943,7 +180997,13 @@ simdjson_inline simdjson_result document_reference::get_number() noexcep
 simdjson_inline simdjson_result document_reference::raw_json_token() noexcept { return doc->raw_json_token(); }
 simdjson_inline simdjson_result document_reference::at_pointer(std::string_view json_pointer) noexcept { return doc->at_pointer(json_pointer); }
 simdjson_inline simdjson_result document_reference::at_path(std::string_view json_path) noexcept { return doc->at_path(json_path); }
-simdjson_inline simdjson_result> document_reference::at_path_with_wildcard(std::string_view json_path) noexcept { return doc->at_path_with_wildcard(json_path); }
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+simdjson_inline error_code document_reference::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept { return doc->for_each_at_path_with_wildcard(json_path, std::forward(callback)); }
 simdjson_inline simdjson_result document_reference::raw_json() noexcept { return doc->raw_json();}
 simdjson_inline document_reference::operator document&() const noexcept { return *doc; }
 #if SIMDJSON_SUPPORTS_CONCEPTS && SIMDJSON_STATIC_REFLECTION
@@ -179036,6 +181096,14 @@ simdjson_inline simdjson_result simdjson_result simdjson_result::get_uint32() noexcept {
+  if (error()) { return error(); }
+  return first.get_uint32();
+}
+simdjson_inline simdjson_result simdjson_result::get_int32() noexcept {
+  if (error()) { return error(); }
+  return first.get_int32();
+}
 simdjson_inline simdjson_result simdjson_result::get_double() noexcept {
   if (error()) { return error(); }
   return first.get_double();
@@ -179200,11 +181268,17 @@ simdjson_inline simdjson_result simdjson_result> simdjson_result::at_path_with_wildcard(std::string_view json_path) noexcept {
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+simdjson_inline error_code simdjson_result::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   if (error()) {
       return error();
   }
-  return first.at_path_with_wildcard(json_path);
+  return first.for_each_at_path_with_wildcard(json_path, std::forward(callback));
 }
 #if SIMDJSON_STATIC_REFLECTION
 template
@@ -180782,9 +182856,13 @@ inline simdjson_result object::at_path(std::string_view json_path) noexce
   return at_pointer(json_pointer);
 }
 
-inline simdjson_result> object::at_path_with_wildcard(std::string_view json_path) noexcept {
-  std::vector result;
-
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+inline error_code object::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   auto result_pair = get_next_key_and_json_path(json_path);
   std::string_view key = result_pair.first;
   std::string_view remaining_path = result_pair.second;
@@ -180794,34 +182872,22 @@ inline simdjson_result> object::at_path_with_wildcard(std::st
     for (auto field : *this) {
       value val;
       SIMDJSON_TRY(field.value().get(val));
-
       if (remaining_path.empty()) {
-        result.push_back(std::move(val));
+        callback(val);
       } else {
-        auto nested_result = val.at_path_with_wildcard(remaining_path);
-
-        if (nested_result.error()) {
-          return nested_result.error();
-        }
-        // Extract and append all nested matches to our result
-        std::vector nested_vec;
-        SIMDJSON_TRY(std::move(nested_result).get(nested_vec));
-
-        result.insert(result.end(),
-                     std::make_move_iterator(nested_vec.begin()),
-                     std::make_move_iterator(nested_vec.end()));
+        SIMDJSON_TRY(val.for_each_at_path_with_wildcard(remaining_path, callback));
       }
     }
-    return result;
+    return SUCCESS;
   } else {
     value val;
     SIMDJSON_TRY(find_field(key).get(val));
 
     if (remaining_path.empty()) {
-      result.push_back(std::move(val));
-      return result;
+      callback(val);
+      return SUCCESS;
     } else {
-      return val.at_path_with_wildcard(remaining_path);
+      return val.for_each_at_path_with_wildcard(remaining_path, callback);
     }
   }
 }
@@ -180952,9 +183018,15 @@ simdjson_inline simdjson_result simdjson_result> simdjson_result::at_path_with_wildcard(std::string_view json_path) noexcept {
+#if SIMDJSON_SUPPORTS_CONCEPTS
+template 
+  requires std::invocable
+#else
+template 
+#endif
+simdjson_inline error_code simdjson_result::for_each_at_path_with_wildcard(std::string_view json_path, Func&& callback) noexcept {
   if (error()) { return error(); }
-  return first.at_path_with_wildcard(json_path);
+  return first.for_each_at_path_with_wildcard(json_path, std::forward(callback));
 }
 
 inline simdjson_result simdjson_result::reset() noexcept {
@@ -181308,7 +183380,7 @@ simdjson_pure simdjson_inline size_t parser::max_depth() const noexcept {
 }
 
 simdjson_inline void parser::set_max_capacity(size_t max_capacity) noexcept {
-  if(max_capacity < dom::MINIMAL_DOCUMENT_CAPACITY) {
+  if(max_capacity > dom::MINIMAL_DOCUMENT_CAPACITY) {
     _max_capacity = max_capacity;
   } else {
     _max_capacity = dom::MINIMAL_DOCUMENT_CAPACITY;
@@ -181335,7 +183407,7 @@ simdjson_inline simdjson_warn_unused ondemand::parser& parser::get_parser() {
   return *parser::get_parser_instance();
 }
 
-simdjson_inline bool release_parser() {
+simdjson_inline bool parser::release_parser() {
   auto &parser_instance = parser::get_threadlocal_parser_if_exists();
   if (parser_instance) {
     parser_instance.reset();
diff --git a/deps/sqlite/sqlite.gyp b/deps/sqlite/sqlite.gyp
index 72b36fb0df760d..db57db1f4acdfd 100644
--- a/deps/sqlite/sqlite.gyp
+++ b/deps/sqlite/sqlite.gyp
@@ -21,6 +21,7 @@
         'SQLITE_ENABLE_FTS5',
         'SQLITE_ENABLE_GEOPOLY',
         'SQLITE_ENABLE_MATH_FUNCTIONS',
+        'SQLITE_ENABLE_PERCENTILE',
         'SQLITE_ENABLE_PREUPDATE_HOOK',
         'SQLITE_ENABLE_RBU',
         'SQLITE_ENABLE_RTREE',
diff --git a/deps/sqlite/sqlite3.c b/deps/sqlite/sqlite3.c
index 851a2504cd0bde..0c83f247e89464 100644
--- a/deps/sqlite/sqlite3.c
+++ b/deps/sqlite/sqlite3.c
@@ -1,6 +1,6 @@
 /******************************************************************************
 ** This file is an amalgamation of many separate C source files from SQLite
-** version 3.51.3.  By combining all the individual C code files into this
+** version 3.53.1.  By combining all the individual C code files into this
 ** single large file, the entire code can be compiled as a single translation
 ** unit.  This allows many compilers to do optimizations that would not be
 ** possible if the files were compiled separately.  Performance improvements
@@ -18,7 +18,7 @@
 ** separate file. This file contains only code for the core SQLite library.
 **
 ** The content in this amalgamation comes from Fossil check-in
-** 737ae4a34738ffa0c3ff7f9bb18df914dd1c with changes in files:
+** c88b22011a54b4f6fbd149e9f8e4de77658c with changes in files:
 **
 **    
 */
@@ -467,12 +467,12 @@ extern "C" {
 ** [sqlite3_libversion_number()], [sqlite3_sourceid()],
 ** [sqlite_version()] and [sqlite_source_id()].
 */
-#define SQLITE_VERSION        "3.51.3"
-#define SQLITE_VERSION_NUMBER 3051003
-#define SQLITE_SOURCE_ID      "2026-03-13 10:38:09 737ae4a34738ffa0c3ff7f9bb18df914dd1cad163f28fd6b6e114a344fe6d618"
-#define SQLITE_SCM_BRANCH     "branch-3.51"
-#define SQLITE_SCM_TAGS       "release version-3.51.3"
-#define SQLITE_SCM_DATETIME   "2026-03-13T10:38:09.694Z"
+#define SQLITE_VERSION        "3.53.1"
+#define SQLITE_VERSION_NUMBER 3053001
+#define SQLITE_SOURCE_ID      "2026-05-05 10:34:17 c88b22011a54b4f6fbd149e9f8e4de77658ce58143a1af0e3785e4e6475127e9"
+#define SQLITE_SCM_BRANCH     "branch-3.53"
+#define SQLITE_SCM_TAGS       "release version-3.53.1"
+#define SQLITE_SCM_DATETIME   "2026-05-05T10:34:17.344Z"
 
 /*
 ** CAPI3REF: Run-Time Library Version Numbers
@@ -899,7 +899,7 @@ SQLITE_API int sqlite3_exec(
 #define SQLITE_WARNING_AUTOINDEX       (SQLITE_WARNING | (1<<8))
 #define SQLITE_AUTH_USER               (SQLITE_AUTH | (1<<8))
 #define SQLITE_OK_LOAD_PERMANENTLY     (SQLITE_OK | (1<<8))
-#define SQLITE_OK_SYMLINK              (SQLITE_OK | (2<<8)) /* internal use only */
+#define SQLITE_OK_SYMLINK              (SQLITE_OK | (2<<8)) /* internal only */
 
 /*
 ** CAPI3REF: Flags For File Open Operations
@@ -1611,6 +1611,12 @@ struct sqlite3_io_methods {
 #define SQLITE_SET_LOCKPROXYFILE      SQLITE_FCNTL_SET_LOCKPROXYFILE
 #define SQLITE_LAST_ERRNO             SQLITE_FCNTL_LAST_ERRNO
 
+/* reserved file-control numbers:
+**                                         101
+**                                         102
+**                                         103
+*/
+
 
 /*
 ** CAPI3REF: Mutex Handle
@@ -1811,7 +1817,7 @@ typedef const char *sqlite3_filename;
 ** greater and the function pointer is not NULL) and will fall back
 ** to xCurrentTime() if xCurrentTimeInt64() is unavailable.
 **
-** ^The xSetSystemCall(), xGetSystemCall(), and xNestSystemCall() interfaces
+** ^The xSetSystemCall(), xGetSystemCall(), and xNextSystemCall() interfaces
 ** are not used by the SQLite core.  These optional interfaces are provided
 ** by some VFSes to facilitate testing of the VFS code. By overriding
 ** system calls with functions under its control, a test program can
@@ -2032,7 +2038,8 @@ SQLITE_API int sqlite3_os_end(void);
 ** are called "anytime configuration options".
 ** ^If sqlite3_config() is called after [sqlite3_initialize()] and before
 ** [sqlite3_shutdown()] with a first argument that is not an anytime
-** configuration option, then the sqlite3_config() call will return SQLITE_MISUSE.
+** configuration option, then the sqlite3_config() call will
+** return SQLITE_MISUSE.
 ** Note, however, that ^sqlite3_config() can be called as part of the
 ** implementation of an application-defined [sqlite3_os_init()].
 **
@@ -2598,9 +2605,10 @@ struct sqlite3_mem_methods {
 ** is less than 8.  The "sz" argument should be a multiple of 8 less than
 ** 65536.  If "sz" does not meet this constraint, it is reduced in size until
 ** it does.
-** 
  • The third argument ("cnt") is the number of slots. Lookaside is disabled -** if "cnt"is less than 1. The "cnt" value will be reduced, if necessary, so -** that the product of "sz" and "cnt" does not exceed 2,147,418,112. The "cnt" +**

  • The third argument ("cnt") is the number of slots. +** Lookaside is disabled if "cnt"is less than 1. +* The "cnt" value will be reduced, if necessary, so +** that the product of "sz" and "cnt" does not exceed 2,147,418,112. The "cnt" ** parameter is usually chosen so that the product of "sz" and "cnt" is less ** than 1,000,000. ** @@ -2888,12 +2896,15 @@ struct sqlite3_mem_methods { ** [[SQLITE_DBCONFIG_STMT_SCANSTATUS]] **

    SQLITE_DBCONFIG_STMT_SCANSTATUS
    **
    The SQLITE_DBCONFIG_STMT_SCANSTATUS option is only useful in -** SQLITE_ENABLE_STMT_SCANSTATUS builds. In this case, it sets or clears -** a flag that enables collection of the sqlite3_stmt_scanstatus_v2() -** statistics. For statistics to be collected, the flag must be set on -** the database handle both when the SQL statement is prepared and when it -** is stepped. The flag is set (collection of statistics is enabled) -** by default.

    This option takes two arguments: an integer and a pointer to +** [SQLITE_ENABLE_STMT_SCANSTATUS] builds. In this case, it sets or clears +** a flag that enables collection of run-time performance statistics +** used by [sqlite3_stmt_scanstatus_v2()] and the [nexec and ncycle] +** columns of the [bytecode virtual table]. +** For statistics to be collected, the flag must be set on +** the database handle both when the SQL statement is +** [sqlite3_prepare|prepared] and when it is [sqlite3_step|stepped]. +** The flag is set (collection of statistics is enabled) by default. +**

    This option takes two arguments: an integer and a pointer to ** an integer. The first argument is 1, 0, or -1 to enable, disable, or ** leave unchanged the statement scanstatus option. If the second argument ** is not NULL, then the value of the statement scanstatus setting after @@ -2966,16 +2977,34 @@ struct sqlite3_mem_methods { ** comments are allowed in SQL text after processing the first argument. **

    ** +** [[SQLITE_DBCONFIG_FP_DIGITS]] +**
    SQLITE_DBCONFIG_FP_DIGITS
    +**
    The SQLITE_DBCONFIG_FP_DIGITS setting is a small integer that determines +** the number of significant digits that SQLite will attempt to preserve when +** converting floating point numbers (IEEE 754 "doubles") into text. The +** default value 17, as of SQLite version 3.52.0. The value was 15 in all +** prior versions.

    +** This option takes two arguments which are an integer and a pointer +** to an integer. The first argument is a small integer, between 3 and 23, or +** zero. The FP_DIGITS setting is changed to that small integer, or left +** unaltered if the first argument is zero or out of range. The second argument +** is a pointer to an integer. If the pointer is not NULL, then the value of +** the FP_DIGITS setting, after possibly being modified by the first +** arguments, is written into the integer to which the second argument points. +**

    +** ** ** ** [[DBCONFIG arguments]]

    Arguments To SQLITE_DBCONFIG Options

    ** **

    Most of the SQLITE_DBCONFIG options take two arguments, so that the ** overall call to [sqlite3_db_config()] has a total of four parameters. -** The first argument (the third parameter to sqlite3_db_config()) is an integer. -** The second argument is a pointer to an integer. If the first argument is 1, -** then the option becomes enabled. If the first integer argument is 0, then the -** option is disabled. If the first argument is -1, then the option setting +** The first argument (the third parameter to sqlite3_db_config()) is +** an integer. +** The second argument is a pointer to an integer. If the first argument is 1, +** then the option becomes enabled. If the first integer argument is 0, +** then the option is disabled. +** If the first argument is -1, then the option setting ** is unchanged. The second argument, the pointer to an integer, may be NULL. ** If the second argument is not NULL, then a value of 0 or 1 is written into ** the integer to which the second argument points, depending on whether the @@ -2983,9 +3012,10 @@ struct sqlite3_mem_methods { ** the first argument. ** **

    While most SQLITE_DBCONFIG options use the argument format -** described in the previous paragraph, the [SQLITE_DBCONFIG_MAINDBNAME] -** and [SQLITE_DBCONFIG_LOOKASIDE] options are different. See the -** documentation of those exceptional options for details. +** described in the previous paragraph, the [SQLITE_DBCONFIG_MAINDBNAME], +** [SQLITE_DBCONFIG_LOOKASIDE], and [SQLITE_DBCONFIG_FP_DIGITS] options +** are different. See the documentation of those exceptional options for +** details. */ #define SQLITE_DBCONFIG_MAINDBNAME 1000 /* const char* */ #define SQLITE_DBCONFIG_LOOKASIDE 1001 /* void* int int */ @@ -3010,7 +3040,8 @@ struct sqlite3_mem_methods { #define SQLITE_DBCONFIG_ENABLE_ATTACH_CREATE 1020 /* int int* */ #define SQLITE_DBCONFIG_ENABLE_ATTACH_WRITE 1021 /* int int* */ #define SQLITE_DBCONFIG_ENABLE_COMMENTS 1022 /* int int* */ -#define SQLITE_DBCONFIG_MAX 1022 /* Largest DBCONFIG */ +#define SQLITE_DBCONFIG_FP_DIGITS 1023 /* int int* */ +#define SQLITE_DBCONFIG_MAX 1023 /* Largest DBCONFIG */ /* ** CAPI3REF: Enable Or Disable Extended Result Codes @@ -4492,6 +4523,7 @@ SQLITE_API void sqlite3_free_filename(sqlite3_filename); **

  • sqlite3_errmsg() **
  • sqlite3_errmsg16() **
  • sqlite3_error_offset() +**
  • sqlite3_db_handle() ** ** ** ^The sqlite3_errmsg() and sqlite3_errmsg16() return English-language @@ -4538,7 +4570,7 @@ SQLITE_API const char *sqlite3_errstr(int); SQLITE_API int sqlite3_error_offset(sqlite3 *db); /* -** CAPI3REF: Set Error Codes And Message +** CAPI3REF: Set Error Code And Message ** METHOD: sqlite3 ** ** Set the error code of the database handle passed as the first argument @@ -4657,6 +4689,10 @@ SQLITE_API int sqlite3_limit(sqlite3*, int id, int newVal); ** [[SQLITE_LIMIT_EXPR_DEPTH]] ^(
    SQLITE_LIMIT_EXPR_DEPTH
    **
    The maximum depth of the parse tree on any expression.
    )^ ** +** [[SQLITE_LIMIT_PARSER_DEPTH]] ^(
    SQLITE_LIMIT_PARSER_DEPTH
    +**
    The maximum depth of the LALR(1) parser stack used to analyze +** input SQL statements.
    )^ +** ** [[SQLITE_LIMIT_COMPOUND_SELECT]] ^(
    SQLITE_LIMIT_COMPOUND_SELECT
    **
    The maximum number of terms in a compound SELECT statement.
    )^ ** @@ -4701,6 +4737,7 @@ SQLITE_API int sqlite3_limit(sqlite3*, int id, int newVal); #define SQLITE_LIMIT_VARIABLE_NUMBER 9 #define SQLITE_LIMIT_TRIGGER_DEPTH 10 #define SQLITE_LIMIT_WORKER_THREADS 11 +#define SQLITE_LIMIT_PARSER_DEPTH 12 /* ** CAPI3REF: Prepare Flags @@ -4745,12 +4782,29 @@ SQLITE_API int sqlite3_limit(sqlite3*, int id, int newVal); ** fails, the sqlite3_prepare_v3() call returns the same error indications ** with or without this flag; it just omits the call to [sqlite3_log()] that ** logs the error. +** +** [[SQLITE_PREPARE_FROM_DDL]]
    SQLITE_PREPARE_FROM_DDL
    +**
    The SQLITE_PREPARE_FROM_DDL flag causes the SQL compiler to enforce +** security constraints that would otherwise only be enforced when parsing +** the database schema. In other words, the SQLITE_PREPARE_FROM_DDL flag +** causes the SQL compiler to treat the SQL statement being prepared as if +** it had come from an attacker. When SQLITE_PREPARE_FROM_DDL is used and +** [SQLITE_DBCONFIG_TRUSTED_SCHEMA] is off, SQL functions may only be called +** if they are tagged with [SQLITE_INNOCUOUS] and virtual tables may only +** be used if they are tagged with [SQLITE_VTAB_INNOCUOUS]. Best practice +** is to use the SQLITE_PREPARE_FROM_DDL option when preparing any SQL that +** is derived from parts of the database schema. In particular, virtual +** table implementations that run SQL statements that are derived from +** arguments to their CREATE VIRTUAL TABLE statement should always use +** [sqlite3_prepare_v3()] and set the SQLITE_PREPARE_FROM_DDL flag to +** prevent bypass of the [SQLITE_DBCONFIG_TRUSTED_SCHEMA] security checks. ** */ #define SQLITE_PREPARE_PERSISTENT 0x01 #define SQLITE_PREPARE_NORMALIZE 0x02 #define SQLITE_PREPARE_NO_VTAB 0x04 #define SQLITE_PREPARE_DONT_LOG 0x10 +#define SQLITE_PREPARE_FROM_DDL 0x20 /* ** CAPI3REF: Compiling An SQL Statement @@ -4764,8 +4818,9 @@ SQLITE_API int sqlite3_limit(sqlite3*, int id, int newVal); ** ** The preferred routine to use is [sqlite3_prepare_v2()]. The ** [sqlite3_prepare()] interface is legacy and should be avoided. -** [sqlite3_prepare_v3()] has an extra "prepFlags" option that is used -** for special purposes. +** [sqlite3_prepare_v3()] has an extra +** [SQLITE_PREPARE_FROM_DDL|"prepFlags" option] that is sometimes +** needed for special purpose or to pass along security restrictions. ** ** The use of the UTF-8 interfaces is preferred, as SQLite currently ** does all parsing using UTF-8. The UTF-16 interfaces are provided @@ -5170,8 +5225,8 @@ typedef struct sqlite3_context sqlite3_context; ** it should be a pointer to well-formed UTF16 text. ** ^If the third parameter to sqlite3_bind_text64() is not NULL, then ** it should be a pointer to a well-formed unicode string that is -** either UTF8 if the sixth parameter is SQLITE_UTF8, or UTF16 -** otherwise. +** either UTF8 if the sixth parameter is SQLITE_UTF8 or SQLITE_UTF8_ZT, +** or UTF16 otherwise. ** ** [[byte-order determination rules]] ^The byte-order of ** UTF16 input text is determined by the byte-order mark (BOM, U+FEFF) @@ -5217,10 +5272,15 @@ typedef struct sqlite3_context sqlite3_context; ** object and pointer to it must remain valid until then. ^SQLite will then ** manage the lifetime of its private copy. ** -** ^The sixth argument to sqlite3_bind_text64() must be one of -** [SQLITE_UTF8], [SQLITE_UTF16], [SQLITE_UTF16BE], or [SQLITE_UTF16LE] -** to specify the encoding of the text in the third parameter. If -** the sixth argument to sqlite3_bind_text64() is not one of the +** ^The sixth argument (the E argument) +** to sqlite3_bind_text64(S,K,Z,N,D,E) must be one of +** [SQLITE_UTF8], [SQLITE_UTF8_ZT], [SQLITE_UTF16], [SQLITE_UTF16BE], +** or [SQLITE_UTF16LE] to specify the encoding of the text in the +** third parameter, Z. The special value [SQLITE_UTF8_ZT] means that the +** string argument is both UTF-8 encoded and is zero-terminated. In other +** words, SQLITE_UTF8_ZT means that the Z array is allocated to hold at +** least N+1 bytes and that the Z[N] byte is zero. If +** the E argument to sqlite3_bind_text64(S,K,Z,N,D,E) is not one of the ** allowed values shown above, or if the text encoding is different ** from the encoding specified by the sixth parameter, then the behavior ** is undefined. @@ -6087,6 +6147,52 @@ SQLITE_API int sqlite3_create_window_function( ** ** These constants define integer codes that represent the various ** text encodings supported by SQLite. +** +**
    +** [[SQLITE_UTF8]]
    SQLITE_UTF8
    Text is encoding as UTF-8
    +** +** [[SQLITE_UTF16LE]]
    SQLITE_UTF16LE
    Text is encoding as UTF-16 +** with each code point being expressed "little endian" - the least significant +** byte first. This is the usual encoding, for example on Windows.
    +** +** [[SQLITE_UTF16BE]]
    SQLITE_UTF16BE
    Text is encoding as UTF-16 +** with each code point being expressed "big endian" - the most significant +** byte first. This encoding is less common, but is still sometimes seen, +** specially on older systems. +** +** [[SQLITE_UTF16]]
    SQLITE_UTF16
    Text is encoding as UTF-16 +** with each code point being expressed either little endian or as big +** endian, according to the native endianness of the host computer. +** +** [[SQLITE_ANY]]
    SQLITE_ANY
    This encoding value may only be used +** to declare the preferred text for [application-defined SQL functions] +** created using [sqlite3_create_function()] and similar. If the preferred +** encoding (the 4th parameter to sqlite3_create_function() - the eTextRep +** parameter) is SQLITE_ANY, that indicates that the function does not have +** a preference regarding the text encoding of its parameters and can take +** any text encoding that the SQLite core find convenient to supply. This +** option is deprecated. Please do not use it in new applications. +** +** [[SQLITE_UTF16_ALIGNED]]
    SQLITE_UTF16_ALIGNED
    This encoding +** value may be used as the 3rd parameter (the eTextRep parameter) to +** [sqlite3_create_collation()] and similar. This encoding value means +** that the application-defined collating sequence created expects its +** input strings to be in UTF16 in native byte order, and that the start +** of the strings must be aligned to a 2-byte boundary. +** +** [[SQLITE_UTF8_ZT]]
    SQLITE_UTF8_ZT
    This option can only be +** used to specify the text encoding to strings input to +** [sqlite3_result_text64()] and [sqlite3_bind_text64()]. +** The SQLITE_UTF8_ZT encoding means that the input string (call it "z") +** is UTF-8 encoded and that it is zero-terminated. If the length parameter +** (call it "n") is non-negative, this encoding option means that the caller +** guarantees that z array contains at least n+1 bytes and that the z[n] +** byte has a value of zero. +** This option gives the same output as SQLITE_UTF8, but can be more efficient +** by avoiding the need to make a copy of the input string, in some cases. +** However, if z is allocated to hold fewer than n+1 bytes or if the +** z[n] byte is not zero, undefined behavior may result. +**
    */ #define SQLITE_UTF8 1 /* IMP: R-37514-35566 */ #define SQLITE_UTF16LE 2 /* IMP: R-03371-37637 */ @@ -6094,6 +6200,7 @@ SQLITE_API int sqlite3_create_window_function( #define SQLITE_UTF16 4 /* Use native byte order */ #define SQLITE_ANY 5 /* Deprecated */ #define SQLITE_UTF16_ALIGNED 8 /* sqlite3_create_collation only */ +#define SQLITE_UTF8_ZT 16 /* Zero-terminated UTF8 */ /* ** CAPI3REF: Function Flags @@ -6328,26 +6435,22 @@ SQLITE_API SQLITE_DEPRECATED int sqlite3_memory_alarm(void(*)(void*,sqlite3_int6 ** the SQL function that supplied the [sqlite3_value*] parameters. ** ** As long as the input parameter is correct, these routines can only -** fail if an out-of-memory error occurs during a format conversion. -** Only the following subset of interfaces are subject to out-of-memory -** errors: -** -**
      -**
    • sqlite3_value_blob() -**
    • sqlite3_value_text() -**
    • sqlite3_value_text16() -**
    • sqlite3_value_text16le() -**
    • sqlite3_value_text16be() -**
    • sqlite3_value_bytes() -**
    • sqlite3_value_bytes16() -**
    -** +** fail if an out-of-memory error occurs while trying to do a +** UTF8→UTF16 or UTF16→UTF8 conversion. ** If an out-of-memory error occurs, then the return value from these ** routines is the same as if the column had contained an SQL NULL value. -** Valid SQL NULL returns can be distinguished from out-of-memory errors -** by invoking the [sqlite3_errcode()] immediately after the suspect +** If the input sqlite3_value was not obtained from [sqlite3_value_dup()], +** then valid SQL NULL returns can also be distinguished from +** out-of-memory errors after extracting the value +** by invoking the [sqlite3_errcode()] immediately after the suspicious ** return value is obtained and before any ** other SQLite interface is called on the same [database connection]. +** If the input sqlite3_value was obtained from sqlite3_value_dup() then +** it is disconnected from the database connection and so sqlite3_errcode() +** will not work. +** In that case, the only way to distinguish an out-of-memory +** condition from a true SQL NULL is to invoke sqlite3_value_type() on the +** input to see if it is NULL prior to trying to extract the value. */ SQLITE_API const void *sqlite3_value_blob(sqlite3_value*); SQLITE_API double sqlite3_value_double(sqlite3_value*); @@ -6374,7 +6477,8 @@ SQLITE_API int sqlite3_value_frombind(sqlite3_value*); ** of the value X, assuming that X has type TEXT.)^ If sqlite3_value_type(X) ** returns something other than SQLITE_TEXT, then the return value from ** sqlite3_value_encoding(X) is meaningless. ^Calls to -** [sqlite3_value_text(X)], [sqlite3_value_text16(X)], [sqlite3_value_text16be(X)], +** [sqlite3_value_text(X)], [sqlite3_value_text16(X)], +** [sqlite3_value_text16be(X)], ** [sqlite3_value_text16le(X)], [sqlite3_value_bytes(X)], or ** [sqlite3_value_bytes16(X)] might change the encoding of the value X and ** thus change the return from subsequent calls to sqlite3_value_encoding(X). @@ -6505,17 +6609,17 @@ SQLITE_API sqlite3 *sqlite3_context_db_handle(sqlite3_context*); ** query execution, under some circumstances the associated auxiliary data ** might be preserved. An example of where this might be useful is in a ** regular-expression matching function. The compiled version of the regular -** expression can be stored as auxiliary data associated with the pattern string. -** Then as long as the pattern string remains the same, +** expression can be stored as auxiliary data associated with the pattern +** string. Then as long as the pattern string remains the same, ** the compiled regular expression can be reused on multiple ** invocations of the same function. ** -** ^The sqlite3_get_auxdata(C,N) interface returns a pointer to the auxiliary data -** associated by the sqlite3_set_auxdata(C,N,P,X) function with the Nth argument -** value to the application-defined function. ^N is zero for the left-most -** function argument. ^If there is no auxiliary data -** associated with the function argument, the sqlite3_get_auxdata(C,N) interface -** returns a NULL pointer. +** ^The sqlite3_get_auxdata(C,N) interface returns a pointer to the auxiliary +** data associated by the sqlite3_set_auxdata(C,N,P,X) function with the +** Nth argument value to the application-defined function. ^N is zero +** for the left-most function argument. ^If there is no auxiliary data +** associated with the function argument, the sqlite3_get_auxdata(C,N) +** interface returns a NULL pointer. ** ** ^The sqlite3_set_auxdata(C,N,P,X) interface saves P as auxiliary data for the ** N-th argument of the application-defined function. ^Subsequent @@ -6599,10 +6703,14 @@ SQLITE_API void sqlite3_set_auxdata(sqlite3_context*, int N, void*, void (*)(voi ** ** There is no limit (other than available memory) on the number of different ** client data pointers (with different names) that can be attached to a -** single database connection. However, the implementation is optimized -** for the case of having only one or two different client data names. -** Applications and wrapper libraries are discouraged from using more than -** one client data name each. +** single database connection. However, the current implementation stores +** the content on a linked list. Insert and retrieval performance will +** be proportional to the number of entries. The design use case, and +** the use case for which the implementation is optimized, is +** that an application will store only small number of client data names, +** typically just one or two. This interface is not intended to be a +** generalized key/value store for thousands or millions of keys. It +** will work for that, but performance might be disappointing. ** ** There is no way to enumerate the client data pointers ** associated with a database connection. The N parameter can be thought @@ -6710,10 +6818,14 @@ typedef void (*sqlite3_destructor_type)(void*); ** set the return value of the application-defined function to be ** a text string which is represented as UTF-8, UTF-16 native byte order, ** UTF-16 little endian, or UTF-16 big endian, respectively. -** ^The sqlite3_result_text64() interface sets the return value of an +** ^The sqlite3_result_text64(C,Z,N,D,E) interface sets the return value of an ** application-defined function to be a text string in an encoding -** specified by the fifth (and last) parameter, which must be one -** of [SQLITE_UTF8], [SQLITE_UTF16], [SQLITE_UTF16BE], or [SQLITE_UTF16LE]. +** specified the E parameter, which must be one +** of [SQLITE_UTF8], [SQLITE_UTF8_ZT], [SQLITE_UTF16], [SQLITE_UTF16BE], +** or [SQLITE_UTF16LE]. ^The special value [SQLITE_UTF8_ZT] means that +** the result text is both UTF-8 and zero-terminated. In other words, +** SQLITE_UTF8_ZT means that the Z array holds at least N+1 bytes and that +** the Z[N] is zero. ** ^SQLite takes the text result from the application from ** the 2nd parameter of the sqlite3_result_text* interfaces. ** ^If the 3rd parameter to any of the sqlite3_result_text* interfaces @@ -6800,7 +6912,7 @@ SQLITE_API void sqlite3_result_int(sqlite3_context*, int); SQLITE_API void sqlite3_result_int64(sqlite3_context*, sqlite3_int64); SQLITE_API void sqlite3_result_null(sqlite3_context*); SQLITE_API void sqlite3_result_text(sqlite3_context*, const char*, int, void(*)(void*)); -SQLITE_API void sqlite3_result_text64(sqlite3_context*, const char*,sqlite3_uint64, +SQLITE_API void sqlite3_result_text64(sqlite3_context*, const char *z, sqlite3_uint64 n, void(*)(void*), unsigned char encoding); SQLITE_API void sqlite3_result_text16(sqlite3_context*, const void*, int, void(*)(void*)); SQLITE_API void sqlite3_result_text16le(sqlite3_context*, const void*, int,void(*)(void*)); @@ -7739,7 +7851,7 @@ SQLITE_API int sqlite3_table_column_metadata( ** ^The sqlite3_load_extension() interface attempts to load an ** [SQLite extension] library contained in the file zFile. If ** the file cannot be loaded directly, attempts are made to load -** with various operating-system specific extensions added. +** with various operating-system specific filename extensions added. ** So for example, if "samplelib" cannot be loaded, then names like ** "samplelib.so" or "samplelib.dylib" or "samplelib.dll" might ** be tried also. @@ -7747,10 +7859,10 @@ SQLITE_API int sqlite3_table_column_metadata( ** ^The entry point is zProc. ** ^(zProc may be 0, in which case SQLite will try to come up with an ** entry point name on its own. It first tries "sqlite3_extension_init". -** If that does not work, it constructs a name "sqlite3_X_init" where -** X consists of the lower-case equivalent of all ASCII alphabetic -** characters in the filename from the last "/" to the first following -** "." and omitting any initial "lib".)^ +** If that does not work, it tries names of the form "sqlite3_X_init" +** where X consists of the lower-case equivalent of all ASCII alphabetic +** characters or all ASCII alphanumeric characters in the filename from +** the last "/" to the first following "." and omitting any initial "lib".)^ ** ^The sqlite3_load_extension() interface returns ** [SQLITE_OK] on success and [SQLITE_ERROR] if something goes wrong. ** ^If an error occurs and pzErrMsg is not 0, then the @@ -7824,7 +7936,7 @@ SQLITE_API int sqlite3_enable_load_extension(sqlite3 *db, int onoff); **
     **    int xEntryPoint(
     **      sqlite3 *db,
    -**      const char **pzErrMsg,
    +**      char **pzErrMsg,
     **      const struct sqlite3_api_routines *pThunk
     **    );
     ** 
    )^ @@ -8574,13 +8686,6 @@ SQLITE_API int sqlite3_vfs_unregister(sqlite3_vfs*); ** SQLITE_MUTEX_W32 implementations are appropriate for use on Unix ** and Windows. ** -** If SQLite is compiled with the SQLITE_MUTEX_APPDEF preprocessor -** macro defined (with "-DSQLITE_MUTEX_APPDEF=1"), then no mutex -** implementation is included with the library. In this case the -** application must supply a custom mutex implementation using the -** [SQLITE_CONFIG_MUTEX] option of the sqlite3_config() function -** before calling sqlite3_initialize() or any other public sqlite3_ -** function that calls sqlite3_initialize(). ** ** ^The sqlite3_mutex_alloc() routine allocates a new ** mutex and returns a pointer to it. ^The sqlite3_mutex_alloc() @@ -8935,6 +9040,7 @@ SQLITE_API int sqlite3_test_control(int op, ...); #define SQLITE_TESTCTRL_TUNE 32 #define SQLITE_TESTCTRL_LOGEST 33 #define SQLITE_TESTCTRL_USELONGDOUBLE 34 /* NOT USED */ +#define SQLITE_TESTCTRL_ATOF 34 #define SQLITE_TESTCTRL_LAST 34 /* Largest TESTCTRL */ /* @@ -9043,17 +9149,22 @@ SQLITE_API sqlite3_str *sqlite3_str_new(sqlite3*); ** pass the returned value to [sqlite3_free()] to avoid a memory leak. ** ^The [sqlite3_str_finish(X)] interface may return a NULL pointer if any ** errors were encountered during construction of the string. ^The -** [sqlite3_str_finish(X)] interface will also return a NULL pointer if the +** [sqlite3_str_finish(X)] interface might also return a NULL pointer if the ** string in [sqlite3_str] object X is zero bytes long. +** +** ^The [sqlite3_str_free(X)] interface destroys both the sqlite3_str object +** X and the string content it contains. Calling sqlite3_str_free(X) is +** the equivalent of calling [sqlite3_free](sqlite3_str_finish(X)). */ SQLITE_API char *sqlite3_str_finish(sqlite3_str*); +SQLITE_API void sqlite3_str_free(sqlite3_str*); /* ** CAPI3REF: Add Content To A Dynamic String ** METHOD: sqlite3_str ** -** These interfaces add content to an sqlite3_str object previously obtained -** from [sqlite3_str_new()]. +** These interfaces add or remove content to an sqlite3_str object +** previously obtained from [sqlite3_str_new()]. ** ** ^The [sqlite3_str_appendf(X,F,...)] and ** [sqlite3_str_vappendf(X,F,V)] interfaces uses the [built-in printf] @@ -9076,6 +9187,10 @@ SQLITE_API char *sqlite3_str_finish(sqlite3_str*); ** ^The [sqlite3_str_reset(X)] method resets the string under construction ** inside [sqlite3_str] object X back to zero bytes in length. ** +** ^The [sqlite3_str_truncate(X,N)] method changes the length of the string +** under construction to be N bytes or less. This routine is a no-op if +** N is negative or if the string is already N bytes or smaller in size. +** ** These methods do not return a result code. ^If an error occurs, that fact ** is recorded in the [sqlite3_str] object and can be recovered by a ** subsequent call to [sqlite3_str_errcode(X)]. @@ -9086,6 +9201,7 @@ SQLITE_API void sqlite3_str_append(sqlite3_str*, const char *zIn, int N); SQLITE_API void sqlite3_str_appendall(sqlite3_str*, const char *zIn); SQLITE_API void sqlite3_str_appendchar(sqlite3_str*, int N, char C); SQLITE_API void sqlite3_str_reset(sqlite3_str*); +SQLITE_API void sqlite3_str_truncate(sqlite3_str*,int N); /* ** CAPI3REF: Status Of A Dynamic String @@ -10616,7 +10732,8 @@ SQLITE_API const char *sqlite3_vtab_collation(sqlite3_index_info*,int); ** ** sqlite3_vtab_distinct() return value ** Rows are returned in aOrderBy order -** Rows with the same value in all aOrderBy columns are adjacent +** Rows with the same value in all aOrderBy columns are +** adjacent ** Duplicates over all colUsed columns may be omitted ** 0yesyesno ** 1noyesno @@ -10625,8 +10742,8 @@ SQLITE_API const char *sqlite3_vtab_collation(sqlite3_index_info*,int); ** ** ** ^For the purposes of comparing virtual table output values to see if the -** values are the same value for sorting purposes, two NULL values are considered -** to be the same. In other words, the comparison operator is "IS" +** values are the same value for sorting purposes, two NULL values are +** considered to be the same. In other words, the comparison operator is "IS" ** (or "IS NOT DISTINCT FROM") and not "==". ** ** If a virtual table implementation is unable to meet the requirements @@ -10919,9 +11036,9 @@ SQLITE_API int sqlite3_vtab_rhs_value(sqlite3_index_info*, int, sqlite3_value ** ** a variable pointed to by the "pOut" parameter. ** ** The "flags" parameter must be passed a mask of flags. At present only -** one flag is defined - SQLITE_SCANSTAT_COMPLEX. If SQLITE_SCANSTAT_COMPLEX +** one flag is defined - [SQLITE_SCANSTAT_COMPLEX]. If SQLITE_SCANSTAT_COMPLEX ** is specified, then status information is available for all elements -** of a query plan that are reported by "EXPLAIN QUERY PLAN" output. If +** of a query plan that are reported by "[EXPLAIN QUERY PLAN]" output. If ** SQLITE_SCANSTAT_COMPLEX is not specified, then only query plan elements ** that correspond to query loops (the "SCAN..." and "SEARCH..." elements of ** the EXPLAIN QUERY PLAN output) are available. Invoking API @@ -10935,7 +11052,8 @@ SQLITE_API int sqlite3_vtab_rhs_value(sqlite3_index_info*, int, sqlite3_value ** ** elements used to implement the statement - a non-zero value is returned and ** the variable that pOut points to is unchanged. ** -** See also: [sqlite3_stmt_scanstatus_reset()] +** See also: [sqlite3_stmt_scanstatus_reset()] and the +** [nexec and ncycle] columns of the [bytecode virtual table]. */ SQLITE_API int sqlite3_stmt_scanstatus( sqlite3_stmt *pStmt, /* Prepared statement for which info desired */ @@ -11477,19 +11595,42 @@ SQLITE_API int sqlite3_deserialize( /* ** CAPI3REF: Bind array values to the CARRAY table-valued function ** -** The sqlite3_carray_bind(S,I,P,N,F,X) interface binds an array value to -** one of the first argument of the [carray() table-valued function]. The -** S parameter is a pointer to the [prepared statement] that uses the carray() -** functions. I is the parameter index to be bound. P is a pointer to the -** array to be bound, and N is the number of eements in the array. The -** F argument is one of constants [SQLITE_CARRAY_INT32], [SQLITE_CARRAY_INT64], -** [SQLITE_CARRAY_DOUBLE], [SQLITE_CARRAY_TEXT], or [SQLITE_CARRAY_BLOB] to -** indicate the datatype of the array being bound. The X argument is not a -** NULL pointer, then SQLite will invoke the function X on the P parameter -** after it has finished using P, even if the call to -** sqlite3_carray_bind() fails. The special-case finalizer -** SQLITE_TRANSIENT has no effect here. -*/ +** The sqlite3_carray_bind_v2(S,I,P,N,F,X,D) interface binds an array value to +** parameter that is the first argument of the [carray() table-valued function]. +** The S parameter is a pointer to the [prepared statement] that uses the +** carray() functions. I is the parameter index to be bound. I must be the +** index of the parameter that is the first argument to the carray() +** table-valued function. P is a pointer to the array to be bound, and N +** is the number of elements in the array. The F argument is one of +** constants [SQLITE_CARRAY_INT32], [SQLITE_CARRAY_INT64], +** [SQLITE_CARRAY_DOUBLE], [SQLITE_CARRAY_TEXT], +** or [SQLITE_CARRAY_BLOB] to indicate the datatype of the array P. +** +** If the X argument is not a NULL pointer or one of the special +** values [SQLITE_STATIC] or [SQLITE_TRANSIENT], then SQLite will invoke +** the function X with argument D when it is finished using the data in P. +** The call to X(D) is a destructor for the array P. The destructor X(D) +** is invoked even if the call to sqlite3_carray_bind_v2() fails. If the X +** parameter is the special-case value [SQLITE_STATIC], then SQLite assumes +** that the data static and the destructor is never invoked. If the X +** parameter is the special-case value [SQLITE_TRANSIENT], then +** sqlite3_carray_bind_v2() makes its own private copy of the data prior +** to returning and never invokes the destructor X. +** +** The sqlite3_carray_bind() function works the same as sqlite3_carray_bind_v2() +** with a D parameter set to P. In other words, +** sqlite3_carray_bind(S,I,P,N,F,X) is same as +** sqlite3_carray_bind_v2(S,I,P,N,F,X,P). +*/ +SQLITE_API int sqlite3_carray_bind_v2( + sqlite3_stmt *pStmt, /* Statement to be bound */ + int i, /* Parameter index */ + void *aData, /* Pointer to array data */ + int nData, /* Number of data elements */ + int mFlags, /* CARRAY flags */ + void (*xDel)(void*), /* Destructor for aData */ + void *pDel /* Optional argument to xDel() */ +); SQLITE_API int sqlite3_carray_bind( sqlite3_stmt *pStmt, /* Statement to be bound */ int i, /* Parameter index */ @@ -13520,6 +13661,232 @@ SQLITE_API int sqlite3session_config(int op, void *pArg); */ #define SQLITE_SESSION_CONFIG_STRMSIZE 1 +/* +** CAPI3REF: Configure a changegroup object +** +** Configure the changegroup object passed as the first argument. +** At present the only valid value for the second parameter is +** [SQLITE_CHANGEGROUP_CONFIG_PATCHSET]. +*/ +SQLITE_API int sqlite3changegroup_config(sqlite3_changegroup*, int, void *pArg); + +/* +** CAPI3REF: Options for sqlite3changegroup_config(). +** +** The following values may be passed as the 2nd parameter to +** sqlite3changegroup_config(). +** +**
    SQLITE_CHANGEGROUP_CONFIG_PATCHSET
    +** A changegroup object generates either a changeset or patchset. Usually, +** this is determined by whether the first call to sqlite3changegroup_add() +** is passed a changeset or a patchset. Or, if the first changes are added +** to the changegroup object using the sqlite3changegroup_change_xxx() +** APIs, then this option may be used to configure whether the changegroup +** object generates a changeset or patchset. +** +** When this option is invoked, parameter pArg must point to a value of +** type int. If the changegroup currently contains zero changes, and the +** value of the int variable is zero or greater than zero, then the +** changegroup is configured to generate a changeset or patchset, +** respectively. It is a no-op, not an error, if the changegroup is not +** configured because it has already started accumulating changes. +** +** Before returning, the int variable is set to 0 if the changegroup is +** configured to generate a changeset, or 1 if it is configured to generate +** a patchset. +*/ +#define SQLITE_CHANGEGROUP_CONFIG_PATCHSET 1 + + +/* +** CAPI3REF: Begin adding a change to a changegroup +** +** This API is used, in concert with other sqlite3changegroup_change_xxx() +** APIs, to add changes to a changegroup object one at a time. To add a +** single change, the caller must: +** +** 1. Invoke sqlite3changegroup_change_begin() to indicate the type of +** change (INSERT, UPDATE or DELETE), the affected table and whether +** or not the change should be marked as indirect. +** +** 2. Invoke sqlite3changegroup_change_int64() or one of the other four +** value functions - _null(), _double(), _text() or _blob() - one or +** more times to specify old.* and new.* values for the change being +** constructed. +** +** 3. Invoke sqlite3changegroup_change_finish() to either finish adding +** the change to the group, or to discard the change altogether. +** +** The first argument to this function must be a pointer to the existing +** changegroup object that the change will be added to. The second argument +** must be SQLITE_INSERT, SQLITE_UPDATE or SQLITE_DELETE. The third is the +** name of the table that the change affects, and the fourth is a boolean +** flag specifying whether the change should be marked as "indirect" (if +** bIndirect is non-zero) or not indirect (if bIndirect is zero). +** +** Following a successful call to this function, this function may not be +** called again on the same changegroup object until after +** sqlite3changegroup_change_finish() has been called. Doing so is an +** SQLITE_MISUSE error. +** +** The changegroup object passed as the first argument must be already +** configured with schema data for the specified table. It may be configured +** either by calling sqlite3changegroup_schema() with a database that contains +** the table, or sqlite3changegroup_add() with a changeset that contains the +** table. If the changegroup object has not been configured with a schema for +** the specified table when this function is called, SQLITE_ERROR is returned. +** +** If successful, SQLITE_OK is returned. Otherwise, if an error occurs, an +** SQLite error code is returned. In this case, if argument pzErr is non-NULL, +** then (*pzErr) may be set to point to a buffer containing a utf-8 formated, +** nul-terminated, English language error message. It is the responsibility +** of the caller to eventually free this buffer using sqlite3_free(). +*/ +SQLITE_API int sqlite3changegroup_change_begin( + sqlite3_changegroup*, + int eOp, + const char *zTab, + int bIndirect, + char **pzErr +); + +/* +** CAPI3REF: Add a 64-bit integer to a changegroup +** +** This function may only be called between a successful call to +** sqlite3changegroup_change_begin() and its matching +** sqlite3changegroup_change_finish() call. If it is called at any +** other time, it is an SQLITE_MISUSE error. Calling this function +** specifies a 64-bit integer value to be used in the change currently being +** added to the changegroup object passed as the first argument. +** +** The second parameter, bNew, specifies whether the value is to be part of +** the new.* (if bNew is non-zero) or old.* (if bNew is zero) record of +** the change under construction. If this does not match the type of change +** specified by the preceding call to sqlite3changegroup_change_begin() (i.e. +** an old.* value for an SQLITE_INSERT change, or a new.* value for an +** SQLITE_DELETE), then SQLITE_ERROR is returned. +** +** The third parameter specifies the column of the old.* or new.* record that +** the value will be a part of. If the specified table has an explicit primary +** key, then this is the index of the table column, numbered from 0 in the order +** specified within the CREATE TABLE statement. Or, if the table uses an +** implicit rowid key, then the column 0 is the rowid and the explicit columns +** are numbered starting from 1. If the iCol parameter is less than 0 or greater +** than the index of the last column in the table, SQLITE_RANGE is returned. +** +** The fourth parameter is the integer value to use as part of the old.* or +** new.* record. +** +** If this call is successful, SQLITE_OK is returned. Otherwise, if an +** error occurs, an SQLite error code is returned. +*/ +SQLITE_API int sqlite3changegroup_change_int64( + sqlite3_changegroup*, + int bNew, + int iCol, + sqlite3_int64 iVal +); + +/* +** CAPI3REF: Add a NULL to a changegroup +** +** This function is similar to sqlite3changegroup_change_int64(). Except that +** it configures the change currently under construction with a NULL value +** instead of a 64-bit integer. +*/ +SQLITE_API int sqlite3changegroup_change_null(sqlite3_changegroup*, int, int); + +/* +** CAPI3REF: Add an double to a changegroup +** +** This function is similar to sqlite3changegroup_change_int64(). Except that +** it configures the change currently being constructed with a real value +** instead of a 64-bit integer. +*/ +SQLITE_API int sqlite3changegroup_change_double(sqlite3_changegroup*, int, int, double); + +/* +** CAPI3REF: Add a text value to a changegroup +** +** This function is similar to sqlite3changegroup_change_int64(). It configures +** the currently accumulated change with a text value instead of a 64-bit +** integer. Parameter pVal points to a buffer containing the text encoded using +** utf-8. Parameter nVal may either be the size of the text value in bytes, or +** else a negative value, in which case the buffer pVal points to is assumed to +** be nul-terminated. +*/ +SQLITE_API int sqlite3changegroup_change_text( + sqlite3_changegroup*, int, int, const char *pVal, int nVal +); + +/* +** CAPI3REF: Add a blob to a changegroup +** +** This function is similar to sqlite3changegroup_change_int64(). It configures +** the currently accumulated change with a blob value instead of a 64-bit +** integer. Parameter pVal points to a buffer containing the blob. Parameter +** nVal is the size of the blob in bytes. +*/ +SQLITE_API int sqlite3changegroup_change_blob( + sqlite3_changegroup*, int, int, const void *pVal, int nVal +); + +/* +** CAPI3REF: Finish adding one-at-at-time changes to a changegroup +** +** This function may only be called following a successful call to +** sqlite3changegroup_change_begin(). Otherwise, it is an SQLITE_MISUSE error. +** +** If parameter bDiscard is non-zero, then the current change is simply +** discarded. In this case this function is always successful and SQLITE_OK +** returned. +** +** If parameter bDiscard is zero, then an attempt is made to add the current +** change to the changegroup. Assuming the changegroup is configured to +** produce a changeset (not a patchset), this requires that: +** +** * If the change is an INSERT or DELETE, then a value must be specified +** for all columns of the new.* or old.* record, respectively. +** +** * If the change is an UPDATE record, then values must be provided for +** the PRIMARY KEY columns of the old.* record, but must not be provided +** for PRIMARY KEY columns of the new.* record. +** +** * If the change is an UPDATE record, then for each non-PRIMARY KEY +** column in the old.* record for which a value has been provided, a +** value must also be provided for the same column in the new.* record. +** Similarly, for each non-PK column in the old.* record for which +** a value is not provided, a value must not be provided for the same +** column in the new.* record. +** +** * All values specified for PRIMARY KEY columns must be non-NULL. +** +** Otherwise, it is an error. +** +** If the changegroup already contains a change for the same row (identified +** by PRIMARY KEY columns), then the current change is combined with the +** existing change in the same way as for sqlite3changegroup_add(). +** +** For a patchset, all of the above rules apply except that it doesn't matter +** whether or not values are provided for the non-PK old.* record columns +** for an UPDATE or DELETE change. This means that code used to produce +** a changeset using the sqlite3changegroup_change_xxx() APIs may also +** be used to produce patchsets. +** +** If the call is successful, SQLITE_OK is returned. Otherwise, if an error +** occurs, an SQLite error code is returned. If an error is returned and +** parameter pzErr is not NULL, then (*pzErr) may be set to point to a buffer +** containing a nul-terminated, utf-8 encoded, English language error message. +** It is the responsibility of the caller to eventually free any such error +** message buffer using sqlite3_free(). +*/ +SQLITE_API int sqlite3changegroup_change_finish( + sqlite3_changegroup*, + int bDiscard, + char **pzErr +); + /* ** Make sure we can call this stuff from C++. */ @@ -14390,21 +14757,42 @@ struct fts5_api { ** It used to be the case that setting this value to zero would ** turn the limit off. That is no longer true. It is not possible ** to turn this limit off. +** +** The hard limit is the largest possible 32-bit signed integer less +** 1024, or 2147482624. */ #ifndef SQLITE_MAX_SQL_LENGTH # define SQLITE_MAX_SQL_LENGTH 1000000000 #endif /* -** The maximum depth of an expression tree. This is limited to -** some extent by SQLITE_MAX_SQL_LENGTH. But sometime you might -** want to place more severe limits on the complexity of an -** expression. A value of 0 means that there is no limit. +** The maximum depth of an expression tree. The expression tree depth +** is also limited indirectly by SQLITE_MAX_SQL_LENGTH and by +** SQLITE_MAX_PARSER_DEPTH. Reducing the maximum complexity of +** expressions can help prevent excess memory usage by hostile SQL. +** +** A value of 0 for this compile-time option causes all expression +** depth limiting code to be omitted. */ #ifndef SQLITE_MAX_EXPR_DEPTH # define SQLITE_MAX_EXPR_DEPTH 1000 #endif +/* +** The maximum depth of the LALR(1) stack used in the parser that +** interprets SQL inputs. The parser stack depth can also be limited +** indirectly by SQLITE_MAX_SQL_LENGTH. Limiting the parser stack +** depth can help prevent excess memory usage and excess CPU stack +** usage when processing hostile SQL. +** +** Prior to version 3.45.0 (2024-01-15), the parser stack was +** hard-coded to 100 entries, and that worked fine for almost all +** applications. So the upper bound on this limit need not be large. +*/ +#ifndef SQLITE_MAX_PARSER_DEPTH +# define SQLITE_MAX_PARSER_DEPTH 2500 +#endif + /* ** The maximum number of terms in a compound SELECT statement. ** The code generator for compound SELECT statements does one @@ -14520,6 +14908,10 @@ struct fts5_api { # undef SQLITE_MAX_DEFAULT_PAGE_SIZE # define SQLITE_MAX_DEFAULT_PAGE_SIZE SQLITE_MAX_PAGE_SIZE #endif +#if SQLITE_MAX_DEFAULT_PAGE_SIZE -#endif #ifdef HAVE_INTTYPES_H #include #endif @@ -15290,6 +15680,7 @@ SQLITE_PRIVATE void sqlite3HashClear(Hash*); # define float sqlite_int64 # define fabs(X) ((X)<0?-(X):(X)) # define sqlite3IsOverflow(X) 0 +# define INFINITY (9223372036854775807LL) # ifndef SQLITE_BIG_DBL # define SQLITE_BIG_DBL (((sqlite3_int64)1)<<50) # endif @@ -15699,6 +16090,7 @@ typedef INT16_TYPE LogEst; #else # define EIGHT_BYTE_ALIGNMENT(X) ((((uptr)(X) - (uptr)0)&7)==0) #endif +#define TWO_BYTE_ALIGNMENT(X) ((((uptr)(X) - (uptr)0)&1)==0) /* ** Disable MMAP on platforms where it is known to not work @@ -17157,6 +17549,7 @@ struct VdbeOp { SubProgram *pProgram; /* Used when p4type is P4_SUBPROGRAM */ Table *pTab; /* Used when p4type is P4_TABLE */ SubrtnSig *pSubrtnSig; /* Used when p4type is P4_SUBRTNSIG */ + Index *pIdx; /* Used when p4type is P4_INDEX */ #ifdef SQLITE_ENABLE_CURSOR_HINTS Expr *pExpr; /* Used when p4type is P4_EXPR */ #endif @@ -17211,20 +17604,21 @@ typedef struct VdbeOpList VdbeOpList; #define P4_INT32 (-3) /* P4 is a 32-bit signed integer */ #define P4_SUBPROGRAM (-4) /* P4 is a pointer to a SubProgram structure */ #define P4_TABLE (-5) /* P4 is a pointer to a Table structure */ +#define P4_INDEX (-6) /* P4 is a pointer to an Index structure */ /* Above do not own any resources. Must free those below */ -#define P4_FREE_IF_LE (-6) -#define P4_DYNAMIC (-6) /* Pointer to memory from sqliteMalloc() */ -#define P4_FUNCDEF (-7) /* P4 is a pointer to a FuncDef structure */ -#define P4_KEYINFO (-8) /* P4 is a pointer to a KeyInfo structure */ -#define P4_EXPR (-9) /* P4 is a pointer to an Expr tree */ -#define P4_MEM (-10) /* P4 is a pointer to a Mem* structure */ -#define P4_VTAB (-11) /* P4 is a pointer to an sqlite3_vtab structure */ -#define P4_REAL (-12) /* P4 is a 64-bit floating point value */ -#define P4_INT64 (-13) /* P4 is a 64-bit signed integer */ -#define P4_INTARRAY (-14) /* P4 is a vector of 32-bit integers */ -#define P4_FUNCCTX (-15) /* P4 is a pointer to an sqlite3_context object */ -#define P4_TABLEREF (-16) /* Like P4_TABLE, but reference counted */ -#define P4_SUBRTNSIG (-17) /* P4 is a SubrtnSig pointer */ +#define P4_FREE_IF_LE (-7) +#define P4_DYNAMIC (-7) /* Pointer to memory from sqliteMalloc() */ +#define P4_FUNCDEF (-8) /* P4 is a pointer to a FuncDef structure */ +#define P4_KEYINFO (-9) /* P4 is a pointer to a KeyInfo structure */ +#define P4_EXPR (-10) /* P4 is a pointer to an Expr tree */ +#define P4_MEM (-11) /* P4 is a pointer to a Mem* structure */ +#define P4_VTAB (-12) /* P4 is a pointer to an sqlite3_vtab structure */ +#define P4_REAL (-13) /* P4 is a 64-bit floating point value */ +#define P4_INT64 (-14) /* P4 is a 64-bit signed integer */ +#define P4_INTARRAY (-15) /* P4 is a vector of 32-bit integers */ +#define P4_FUNCCTX (-16) /* P4 is a pointer to an sqlite3_context object */ +#define P4_TABLEREF (-17) /* Like P4_TABLE, but reference counted */ +#define P4_SUBRTNSIG (-18) /* P4 is a SubrtnSig pointer */ /* Error message codes for OP_Halt */ #define P5_ConstraintNotNull 1 @@ -17313,10 +17707,10 @@ typedef struct VdbeOpList VdbeOpList; #define OP_And 44 /* same as TK_AND, synopsis: r[P3]=(r[P1] && r[P2]) */ #define OP_IdxLT 45 /* jump, synopsis: key=r[P3@P4] */ #define OP_IdxGE 46 /* jump, synopsis: key=r[P3@P4] */ -#define OP_RowSetRead 47 /* jump, synopsis: r[P3]=rowset(P1) */ -#define OP_RowSetTest 48 /* jump, synopsis: if r[P3] in rowset(P1) goto P2 */ -#define OP_Program 49 /* jump0 */ -#define OP_FkIfZero 50 /* jump, synopsis: if fkctr[P1]==0 goto P2 */ +#define OP_IFindKey 47 /* jump */ +#define OP_RowSetRead 48 /* jump, synopsis: r[P3]=rowset(P1) */ +#define OP_RowSetTest 49 /* jump, synopsis: if r[P3] in rowset(P1) goto P2 */ +#define OP_Program 50 /* jump0 */ #define OP_IsNull 51 /* jump, same as TK_ISNULL, synopsis: if r[P1]==NULL goto P2 */ #define OP_NotNull 52 /* jump, same as TK_NOTNULL, synopsis: if r[P1]!=NULL goto P2 */ #define OP_Ne 53 /* jump, same as TK_NE, synopsis: IF r[P3]!=r[P1] */ @@ -17326,49 +17720,49 @@ typedef struct VdbeOpList VdbeOpList; #define OP_Lt 57 /* jump, same as TK_LT, synopsis: IF r[P3]=r[P1] */ #define OP_ElseEq 59 /* jump, same as TK_ESCAPE */ -#define OP_IfPos 60 /* jump, synopsis: if r[P1]>0 then r[P1]-=P3, goto P2 */ -#define OP_IfNotZero 61 /* jump, synopsis: if r[P1]!=0 then r[P1]--, goto P2 */ -#define OP_DecrJumpZero 62 /* jump, synopsis: if (--r[P1])==0 goto P2 */ -#define OP_IncrVacuum 63 /* jump */ -#define OP_VNext 64 /* jump */ -#define OP_Filter 65 /* jump, synopsis: if key(P3@P4) not in filter(P1) goto P2 */ -#define OP_PureFunc 66 /* synopsis: r[P3]=func(r[P2@NP]) */ -#define OP_Function 67 /* synopsis: r[P3]=func(r[P2@NP]) */ -#define OP_Return 68 -#define OP_EndCoroutine 69 -#define OP_HaltIfNull 70 /* synopsis: if r[P3]=null halt */ -#define OP_Halt 71 -#define OP_Integer 72 /* synopsis: r[P2]=P1 */ -#define OP_Int64 73 /* synopsis: r[P2]=P4 */ -#define OP_String 74 /* synopsis: r[P2]='P4' (len=P1) */ -#define OP_BeginSubrtn 75 /* synopsis: r[P2]=NULL */ -#define OP_Null 76 /* synopsis: r[P2..P3]=NULL */ -#define OP_SoftNull 77 /* synopsis: r[P1]=NULL */ -#define OP_Blob 78 /* synopsis: r[P2]=P4 (len=P1) */ -#define OP_Variable 79 /* synopsis: r[P2]=parameter(P1) */ -#define OP_Move 80 /* synopsis: r[P2@P3]=r[P1@P3] */ -#define OP_Copy 81 /* synopsis: r[P2@P3+1]=r[P1@P3+1] */ -#define OP_SCopy 82 /* synopsis: r[P2]=r[P1] */ -#define OP_IntCopy 83 /* synopsis: r[P2]=r[P1] */ -#define OP_FkCheck 84 -#define OP_ResultRow 85 /* synopsis: output=r[P1@P2] */ -#define OP_CollSeq 86 -#define OP_AddImm 87 /* synopsis: r[P1]=r[P1]+P2 */ -#define OP_RealAffinity 88 -#define OP_Cast 89 /* synopsis: affinity(r[P1]) */ -#define OP_Permutation 90 -#define OP_Compare 91 /* synopsis: r[P1@P3] <-> r[P2@P3] */ -#define OP_IsTrue 92 /* synopsis: r[P2] = coalesce(r[P1]==TRUE,P3) ^ P4 */ -#define OP_ZeroOrNull 93 /* synopsis: r[P2] = 0 OR NULL */ -#define OP_Offset 94 /* synopsis: r[P3] = sqlite_offset(P1) */ -#define OP_Column 95 /* synopsis: r[P3]=PX cursor P1 column P2 */ -#define OP_TypeCheck 96 /* synopsis: typecheck(r[P1@P2]) */ -#define OP_Affinity 97 /* synopsis: affinity(r[P1@P2]) */ -#define OP_MakeRecord 98 /* synopsis: r[P3]=mkrec(r[P1@P2]) */ -#define OP_Count 99 /* synopsis: r[P2]=count() */ -#define OP_ReadCookie 100 -#define OP_SetCookie 101 -#define OP_ReopenIdx 102 /* synopsis: root=P2 iDb=P3 */ +#define OP_FkIfZero 60 /* jump, synopsis: if fkctr[P1]==0 goto P2 */ +#define OP_IfPos 61 /* jump, synopsis: if r[P1]>0 then r[P1]-=P3, goto P2 */ +#define OP_IfNotZero 62 /* jump, synopsis: if r[P1]!=0 then r[P1]--, goto P2 */ +#define OP_DecrJumpZero 63 /* jump, synopsis: if (--r[P1])==0 goto P2 */ +#define OP_IncrVacuum 64 /* jump */ +#define OP_VNext 65 /* jump */ +#define OP_Filter 66 /* jump, synopsis: if key(P3@P4) not in filter(P1) goto P2 */ +#define OP_PureFunc 67 /* synopsis: r[P3]=func(r[P2@NP]) */ +#define OP_Function 68 /* synopsis: r[P3]=func(r[P2@NP]) */ +#define OP_Return 69 +#define OP_EndCoroutine 70 +#define OP_HaltIfNull 71 /* synopsis: if r[P3]=null halt */ +#define OP_Halt 72 +#define OP_Integer 73 /* synopsis: r[P2]=P1 */ +#define OP_Int64 74 /* synopsis: r[P2]=P4 */ +#define OP_String 75 /* synopsis: r[P2]='P4' (len=P1) */ +#define OP_BeginSubrtn 76 /* synopsis: r[P2]=NULL */ +#define OP_Null 77 /* synopsis: r[P2..P3]=NULL */ +#define OP_SoftNull 78 /* synopsis: r[P1]=NULL */ +#define OP_Blob 79 /* synopsis: r[P2]=P4 (len=P1) */ +#define OP_Variable 80 /* synopsis: r[P2]=parameter(P1) */ +#define OP_Move 81 /* synopsis: r[P2@P3]=r[P1@P3] */ +#define OP_Copy 82 /* synopsis: r[P2@P3+1]=r[P1@P3+1] */ +#define OP_SCopy 83 /* synopsis: r[P2]=r[P1] */ +#define OP_IntCopy 84 /* synopsis: r[P2]=r[P1] */ +#define OP_FkCheck 85 +#define OP_ResultRow 86 /* synopsis: output=r[P1@P2] */ +#define OP_CollSeq 87 +#define OP_AddImm 88 /* synopsis: r[P1]=r[P1]+P2 */ +#define OP_RealAffinity 89 +#define OP_Cast 90 /* synopsis: affinity(r[P1]) */ +#define OP_Permutation 91 +#define OP_Compare 92 /* synopsis: r[P1@P3] <-> r[P2@P3] */ +#define OP_IsTrue 93 /* synopsis: r[P2] = coalesce(r[P1]==TRUE,P3) ^ P4 */ +#define OP_ZeroOrNull 94 /* synopsis: r[P2] = 0 OR NULL */ +#define OP_Offset 95 /* synopsis: r[P3] = sqlite_offset(P1) */ +#define OP_Column 96 /* synopsis: r[P3]=PX cursor P1 column P2 */ +#define OP_TypeCheck 97 /* synopsis: typecheck(r[P1@P2]) */ +#define OP_Affinity 98 /* synopsis: affinity(r[P1@P2]) */ +#define OP_MakeRecord 99 /* synopsis: r[P3]=mkrec(r[P1@P2]) */ +#define OP_Count 100 /* synopsis: r[P2]=count() */ +#define OP_ReadCookie 101 +#define OP_SetCookie 102 #define OP_BitAnd 103 /* same as TK_BITAND, synopsis: r[P3]=r[P1]&r[P2] */ #define OP_BitOr 104 /* same as TK_BITOR, synopsis: r[P3]=r[P1]|r[P2] */ #define OP_ShiftLeft 105 /* same as TK_LSHIFT, synopsis: r[P3]=r[P2]<0 then r[P2]=r[P1]+max(0,r[P3]) else r[P2]=(-1) */ -#define OP_AggInverse 162 /* synopsis: accum=r[P3] inverse(r[P2@P5]) */ -#define OP_AggStep 163 /* synopsis: accum=r[P3] step(r[P2@P5]) */ -#define OP_AggStep1 164 /* synopsis: accum=r[P3] step(r[P2@P5]) */ -#define OP_AggValue 165 /* synopsis: r[P3]=value N=P2 */ -#define OP_AggFinal 166 /* synopsis: accum=r[P1] N=P2 */ -#define OP_Expire 167 -#define OP_CursorLock 168 -#define OP_CursorUnlock 169 -#define OP_TableLock 170 /* synopsis: iDb=P1 root=P2 write=P3 */ -#define OP_VBegin 171 -#define OP_VCreate 172 -#define OP_VDestroy 173 -#define OP_VOpen 174 -#define OP_VCheck 175 -#define OP_VInitIn 176 /* synopsis: r[P2]=ValueList(P1,P3) */ -#define OP_VColumn 177 /* synopsis: r[P3]=vcolumn(P2) */ -#define OP_VRename 178 -#define OP_Pagecount 179 -#define OP_MaxPgcnt 180 -#define OP_ClrSubtype 181 /* synopsis: r[P1].subtype = 0 */ -#define OP_GetSubtype 182 /* synopsis: r[P2] = r[P1].subtype */ -#define OP_SetSubtype 183 /* synopsis: r[P2].subtype = r[P1] */ -#define OP_FilterAdd 184 /* synopsis: filter(P1) += key(P3@P4) */ -#define OP_Trace 185 -#define OP_CursorHint 186 -#define OP_ReleaseReg 187 /* synopsis: release r[P1@P2] mask P3 */ -#define OP_Noop 188 -#define OP_Explain 189 -#define OP_Abortable 190 +#define OP_DropIndex 155 +#define OP_DropTrigger 156 +#define OP_IntegrityCk 157 +#define OP_RowSetAdd 158 /* synopsis: rowset(P1)=r[P2] */ +#define OP_Param 159 +#define OP_FkCounter 160 /* synopsis: fkctr[P1]+=P2 */ +#define OP_MemMax 161 /* synopsis: r[P1]=max(r[P1],r[P2]) */ +#define OP_OffsetLimit 162 /* synopsis: if r[P1]>0 then r[P2]=r[P1]+max(0,r[P3]) else r[P2]=(-1) */ +#define OP_AggInverse 163 /* synopsis: accum=r[P3] inverse(r[P2@P5]) */ +#define OP_AggStep 164 /* synopsis: accum=r[P3] step(r[P2@P5]) */ +#define OP_AggStep1 165 /* synopsis: accum=r[P3] step(r[P2@P5]) */ +#define OP_AggValue 166 /* synopsis: r[P3]=value N=P2 */ +#define OP_AggFinal 167 /* synopsis: accum=r[P1] N=P2 */ +#define OP_Expire 168 +#define OP_CursorLock 169 +#define OP_CursorUnlock 170 +#define OP_TableLock 171 /* synopsis: iDb=P1 root=P2 write=P3 */ +#define OP_VBegin 172 +#define OP_VCreate 173 +#define OP_VDestroy 174 +#define OP_VOpen 175 +#define OP_VCheck 176 +#define OP_VInitIn 177 /* synopsis: r[P2]=ValueList(P1,P3) */ +#define OP_VColumn 178 /* synopsis: r[P3]=vcolumn(P2) */ +#define OP_VRename 179 +#define OP_Pagecount 180 +#define OP_MaxPgcnt 181 +#define OP_ClrSubtype 182 /* synopsis: r[P1].subtype = 0 */ +#define OP_GetSubtype 183 /* synopsis: r[P2] = r[P1].subtype */ +#define OP_SetSubtype 184 /* synopsis: r[P2].subtype = r[P1] */ +#define OP_FilterAdd 185 /* synopsis: filter(P1) += key(P3@P4) */ +#define OP_Trace 186 +#define OP_CursorHint 187 +#define OP_ReleaseReg 188 /* synopsis: release r[P1@P2] mask P3 */ +#define OP_Noop 189 +#define OP_Explain 190 +#define OP_Abortable 191 /* Properties such as "out2" or "jump" that are specified in ** comments following the "case" for each opcode in the vdbe.c @@ -17476,25 +17871,26 @@ typedef struct VdbeOpList VdbeOpList; /* 16 */ 0x03, 0x03, 0x01, 0x12, 0x01, 0xc9, 0xc9, 0xc9,\ /* 24 */ 0xc9, 0x01, 0x49, 0x49, 0x49, 0x49, 0xc9, 0x49,\ /* 32 */ 0xc1, 0x01, 0x41, 0x41, 0xc1, 0x01, 0x01, 0x41,\ -/* 40 */ 0x41, 0x41, 0x41, 0x26, 0x26, 0x41, 0x41, 0x23,\ -/* 48 */ 0x0b, 0x81, 0x01, 0x03, 0x03, 0x0b, 0x0b, 0x0b,\ -/* 56 */ 0x0b, 0x0b, 0x0b, 0x01, 0x03, 0x03, 0x03, 0x01,\ -/* 64 */ 0x41, 0x01, 0x00, 0x00, 0x02, 0x02, 0x08, 0x00,\ -/* 72 */ 0x10, 0x10, 0x10, 0x00, 0x10, 0x00, 0x10, 0x10,\ -/* 80 */ 0x00, 0x00, 0x10, 0x10, 0x00, 0x00, 0x00, 0x02,\ -/* 88 */ 0x02, 0x02, 0x00, 0x00, 0x12, 0x1e, 0x20, 0x40,\ -/* 96 */ 0x00, 0x00, 0x00, 0x10, 0x10, 0x00, 0x40, 0x26,\ +/* 40 */ 0x41, 0x41, 0x41, 0x26, 0x26, 0x41, 0x41, 0x09,\ +/* 48 */ 0x23, 0x0b, 0x81, 0x03, 0x03, 0x0b, 0x0b, 0x0b,\ +/* 56 */ 0x0b, 0x0b, 0x0b, 0x01, 0x01, 0x03, 0x03, 0x03,\ +/* 64 */ 0x01, 0x41, 0x01, 0x00, 0x00, 0x02, 0x02, 0x08,\ +/* 72 */ 0x00, 0x10, 0x10, 0x10, 0x00, 0x10, 0x00, 0x10,\ +/* 80 */ 0x10, 0x00, 0x00, 0x10, 0x10, 0x00, 0x00, 0x00,\ +/* 88 */ 0x02, 0x02, 0x02, 0x00, 0x00, 0x12, 0x1e, 0x20,\ +/* 96 */ 0x40, 0x00, 0x00, 0x00, 0x10, 0x10, 0x00, 0x26,\ /* 104 */ 0x26, 0x26, 0x26, 0x26, 0x26, 0x26, 0x26, 0x26,\ -/* 112 */ 0x26, 0x40, 0x00, 0x12, 0x40, 0x40, 0x10, 0x40,\ -/* 120 */ 0x00, 0x00, 0x00, 0x40, 0x00, 0x40, 0x40, 0x10,\ -/* 128 */ 0x10, 0x00, 0x00, 0x00, 0x00, 0x00, 0x40, 0x00,\ -/* 136 */ 0x50, 0x00, 0x40, 0x04, 0x04, 0x00, 0x40, 0x50,\ -/* 144 */ 0x40, 0x10, 0x00, 0x00, 0x10, 0x00, 0x00, 0x00,\ -/* 152 */ 0x00, 0x00, 0x10, 0x00, 0x00, 0x06, 0x10, 0x00,\ -/* 160 */ 0x04, 0x1a, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,\ -/* 168 */ 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x40, 0x10,\ -/* 176 */ 0x50, 0x40, 0x00, 0x10, 0x10, 0x02, 0x12, 0x12,\ -/* 184 */ 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,} +/* 112 */ 0x26, 0x40, 0x40, 0x12, 0x00, 0x40, 0x10, 0x40,\ +/* 120 */ 0x40, 0x00, 0x00, 0x00, 0x40, 0x00, 0x40, 0x40,\ +/* 128 */ 0x10, 0x10, 0x00, 0x00, 0x00, 0x00, 0x00, 0x40,\ +/* 136 */ 0x00, 0x50, 0x00, 0x40, 0x04, 0x04, 0x00, 0x40,\ +/* 144 */ 0x50, 0x40, 0x10, 0x00, 0x00, 0x10, 0x00, 0x00,\ +/* 152 */ 0x00, 0x00, 0x10, 0x00, 0x00, 0x00, 0x06, 0x10,\ +/* 160 */ 0x00, 0x04, 0x1a, 0x00, 0x00, 0x00, 0x00, 0x00,\ +/* 168 */ 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x40,\ +/* 176 */ 0x10, 0x50, 0x40, 0x00, 0x10, 0x10, 0x02, 0x12,\ +/* 184 */ 0x12, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,\ +} /* The resolve3P2Values() routine is able to run faster if it knows ** the value of the largest JUMP opcode. The smaller the maximum @@ -17502,7 +17898,7 @@ typedef struct VdbeOpList VdbeOpList; ** generated this include file strives to group all JUMP opcodes ** together near the beginning of the list. */ -#define SQLITE_MX_JUMP_OPCODE 65 /* Maximum JUMP opcode */ +#define SQLITE_MX_JUMP_OPCODE 66 /* Maximum JUMP opcode */ /************** End of opcodes.h *********************************************/ /************** Continuing where we left off in vdbe.h ***********************/ @@ -17511,7 +17907,7 @@ typedef struct VdbeOpList VdbeOpList; ** Additional non-public SQLITE_PREPARE_* flags */ #define SQLITE_PREPARE_SAVESQL 0x80 /* Preserve SQL text */ -#define SQLITE_PREPARE_MASK 0x1f /* Mask of public flags */ +#define SQLITE_PREPARE_MASK 0x3f /* Mask of public flags */ /* ** Prototypes for the VDBE interface. See comments on the implementation @@ -17793,10 +18189,10 @@ struct PgHdr { PCache *pCache; /* PRIVATE: Cache that owns this page */ PgHdr *pDirty; /* Transient list of dirty sorted by pgno */ Pager *pPager; /* The pager this page is part of */ - Pgno pgno; /* Page number for this page */ #ifdef SQLITE_CHECK_PAGES - u32 pageHash; /* Hash of page content */ + u64 pageHash; /* Hash of page content */ #endif + Pgno pgno; /* Page number for this page */ u16 flags; /* PGHDR flags defined below */ /********************************************************************** @@ -18136,7 +18532,7 @@ struct Schema { ** The number of different kinds of things that can be limited ** using the sqlite3_limit() interface. */ -#define SQLITE_N_LIMIT (SQLITE_LIMIT_WORKER_THREADS+1) +#define SQLITE_N_LIMIT (SQLITE_LIMIT_PARSER_DEPTH+1) /* ** Lookaside malloc is a set of fixed-size buffers that can be used @@ -18290,6 +18686,7 @@ struct sqlite3 { u8 noSharedCache; /* True if no shared-cache backends */ u8 nSqlExec; /* Number of pending OP_SqlExec opcodes */ u8 eOpenState; /* Current condition of the connection */ + u8 nFpDigit; /* Significant digits to keep on double->text */ int nextPagesize; /* Pagesize after VACUUM if >0 */ i64 nChange; /* Value returned by sqlite3_changes() */ i64 nTotalChange; /* Value returned by sqlite3_total_changes() */ @@ -20184,19 +20581,6 @@ struct Upsert { /* ** An instance of the following structure contains all information ** needed to generate code for a single SELECT statement. -** -** See the header comment on the computeLimitRegisters() routine for a -** detailed description of the meaning of the iLimit and iOffset fields. -** -** addrOpenEphm[] entries contain the address of OP_OpenEphemeral opcodes. -** These addresses must be stored so that we can go back and fill in -** the P4_KEYINFO and P2 parameters later. Neither the KeyInfo nor -** the number of columns in P2 can be computed at the same time -** as the OP_OpenEphm instruction is coded because not -** enough information about the compound query is known at that point. -** The KeyInfo for addrOpenTran[0] and [1] contains collating sequences -** for the result set. The KeyInfo for addrOpenEphm[2] contains collating -** sequences for the ORDER BY clause. */ struct Select { u8 op; /* One of: TK_UNION TK_ALL TK_INTERSECT TK_EXCEPT */ @@ -20204,7 +20588,6 @@ struct Select { u32 selFlags; /* Various SF_* values */ int iLimit, iOffset; /* Memory registers holding LIMIT & OFFSET counters */ u32 selId; /* Unique identifier number for this SELECT */ - int addrOpenEphm[2]; /* OP_OpenEphem opcodes related to this select */ ExprList *pEList; /* The fields of the result */ SrcList *pSrc; /* The FROM clause */ Expr *pWhere; /* The WHERE clause */ @@ -20236,7 +20619,7 @@ struct Select { #define SF_Resolved 0x0000004 /* Identifiers have been resolved */ #define SF_Aggregate 0x0000008 /* Contains agg functions or a GROUP BY */ #define SF_HasAgg 0x0000010 /* Contains aggregate functions */ -#define SF_UsesEphemeral 0x0000020 /* Uses the OpenEphemeral opcode */ +#define SF_ClonedRhsIn 0x0000020 /* Cloned RHS of an IN operator */ #define SF_Expanded 0x0000040 /* sqlite3SelectExpand() called on this */ #define SF_HasTypeInfo 0x0000080 /* FROM subqueries have Table metadata */ #define SF_Compound 0x0000100 /* Part of a compound query */ @@ -20246,14 +20629,14 @@ struct Select { #define SF_MinMaxAgg 0x0001000 /* Aggregate containing min() or max() */ #define SF_Recursive 0x0002000 /* The recursive part of a recursive CTE */ #define SF_FixedLimit 0x0004000 /* nSelectRow set by a constant LIMIT */ -#define SF_MaybeConvert 0x0008000 /* Need convertCompoundSelectToSubquery() */ +/* 0x0008000 // available for reuse */ #define SF_Converted 0x0010000 /* By convertCompoundSelectToSubquery() */ #define SF_IncludeHidden 0x0020000 /* Include hidden columns in output */ #define SF_ComplexResult 0x0040000 /* Result contains subquery or function */ #define SF_WhereBegin 0x0080000 /* Really a WhereBegin() call. Debug Only */ #define SF_WinRewrite 0x0100000 /* Window function rewrite accomplished */ #define SF_View 0x0200000 /* SELECT statement is a view */ -#define SF_NoopOrderBy 0x0400000 /* ORDER BY is ignored for this query */ +/* 0x0400000 // available for reuse */ #define SF_UFSrcCheck 0x0800000 /* Check pSrc as required by UPDATE...FROM */ #define SF_PushDown 0x1000000 /* Modified by WHERE-clause push-down opt */ #define SF_MultiPart 0x2000000 /* Has multiple incompatible PARTITIONs */ @@ -20273,11 +20656,6 @@ struct Select { ** by one of the following macros. The "SRT" prefix means "SELECT Result ** Type". ** -** SRT_Union Store results as a key in a temporary index -** identified by pDest->iSDParm. -** -** SRT_Except Remove results from the temporary index pDest->iSDParm. -** ** SRT_Exists Store a 1 in memory cell pDest->iSDParm if the result ** set is not empty. ** @@ -20341,30 +20719,28 @@ struct Select { ** table. (pDest->iSDParm) is the number of key columns in ** each index record in this case. */ -#define SRT_Union 1 /* Store result as keys in an index */ -#define SRT_Except 2 /* Remove result from a UNION index */ -#define SRT_Exists 3 /* Store 1 if the result is not empty */ -#define SRT_Discard 4 /* Do not save the results anywhere */ -#define SRT_DistFifo 5 /* Like SRT_Fifo, but unique results only */ -#define SRT_DistQueue 6 /* Like SRT_Queue, but unique results only */ +#define SRT_Exists 1 /* Store 1 if the result is not empty */ +#define SRT_Discard 2 /* Do not save the results anywhere */ +#define SRT_DistFifo 3 /* Like SRT_Fifo, but unique results only */ +#define SRT_DistQueue 4 /* Like SRT_Queue, but unique results only */ /* The DISTINCT clause is ignored for all of the above. Not that ** IgnorableDistinct() implies IgnorableOrderby() */ #define IgnorableDistinct(X) ((X->eDest)<=SRT_DistQueue) -#define SRT_Queue 7 /* Store result in an queue */ -#define SRT_Fifo 8 /* Store result as data with an automatic rowid */ +#define SRT_Queue 5 /* Store result in an queue */ +#define SRT_Fifo 6 /* Store result as data with an automatic rowid */ /* The ORDER BY clause is ignored for all of the above */ #define IgnorableOrderby(X) ((X->eDest)<=SRT_Fifo) -#define SRT_Output 9 /* Output each row of result */ -#define SRT_Mem 10 /* Store result in a memory cell */ -#define SRT_Set 11 /* Store results as keys in an index */ -#define SRT_EphemTab 12 /* Create transient tab and store like SRT_Table */ -#define SRT_Coroutine 13 /* Generate a single row of result */ -#define SRT_Table 14 /* Store result as data with an automatic rowid */ -#define SRT_Upfrom 15 /* Store result as data with rowid */ +#define SRT_Output 7 /* Output each row of result */ +#define SRT_Mem 8 /* Store result in a memory cell */ +#define SRT_Set 9 /* Store results as keys in an index */ +#define SRT_EphemTab 10 /* Create transient tab and store like SRT_Table */ +#define SRT_Coroutine 11 /* Generate a single row of result */ +#define SRT_Table 12 /* Store result as data with an automatic rowid */ +#define SRT_Upfrom 13 /* Store result as data with rowid */ /* ** An instance of this object describes where to put of the results of @@ -20500,17 +20876,12 @@ struct Parse { u8 nested; /* Number of nested calls to the parser/code generator */ u8 nTempReg; /* Number of temporary registers in aTempReg[] */ u8 isMultiWrite; /* True if statement may modify/insert multiple rows */ - u8 mayAbort; /* True if statement may throw an ABORT exception */ - u8 hasCompound; /* Need to invoke convertCompoundSelectToSubquery() */ u8 disableLookaside; /* Number of times lookaside has been disabled */ u8 prepFlags; /* SQLITE_PREPARE_* flags */ u8 withinRJSubrtn; /* Nesting level for RIGHT JOIN body subroutines */ - u8 bHasExists; /* Has a correlated "EXISTS (SELECT ....)" expression */ u8 mSubrtnSig; /* mini Bloom filter on available SubrtnSig.selId */ u8 eTriggerOp; /* TK_UPDATE, TK_INSERT or TK_DELETE */ - u8 bReturning; /* Coding a RETURNING trigger */ u8 eOrconf; /* Default ON CONFLICT policy for trigger steps */ - u8 disableTriggers; /* True to disable triggers */ #if defined(SQLITE_DEBUG) || defined(SQLITE_COVERAGE_TEST) u8 earlyCleanup; /* OOM inside sqlite3ParserAddCleanup() */ #endif @@ -20519,10 +20890,15 @@ struct Parse { u8 isCreate; /* CREATE TABLE, INDEX, or VIEW (but not TRIGGER) ** and ALTER TABLE ADD COLUMN. */ #endif - bft colNamesSet :1; /* TRUE after OP_ColumnName has been issued to pVdbe */ - bft bHasWith :1; /* True if statement contains WITH */ - bft okConstFactor :1; /* OK to factor out constants */ - bft checkSchema :1; /* Causes schema cookie check after an error */ + bft disableTriggers:1; /* True to disable triggers */ + bft mayAbort :1; /* True if statement may throw an ABORT exception */ + bft hasCompound :1; /* Need to invoke convertCompoundSelectToSubquery() */ + bft bReturning :1; /* Coding a RETURNING trigger */ + bft bHasExists :1; /* Has a correlated "EXISTS (SELECT ....)" expression */ + bft colNamesSet :1; /* TRUE after OP_ColumnName has been issued to pVdbe */ + bft bHasWith :1; /* True if statement contains WITH */ + bft okConstFactor:1; /* OK to factor out constants */ + bft checkSchema :1; /* Causes schema cookie check after an error */ int nRangeReg; /* Size of the temporary register block */ int iRangeReg; /* First register in temporary register block */ int nErr; /* Number of errors seen */ @@ -20751,19 +21127,19 @@ struct Trigger { ** orconf -> stores the ON CONFLICT algorithm ** pSelect -> The content to be inserted - either a SELECT statement or ** a VALUES clause. -** zTarget -> Dequoted name of the table to insert into. +** pSrc -> Table to insert into. ** pIdList -> If this is an INSERT INTO ... () VALUES ... ** statement, then this stores the column-names to be ** inserted into. ** pUpsert -> The ON CONFLICT clauses for an Upsert ** ** (op == TK_DELETE) -** zTarget -> Dequoted name of the table to delete from. +** pSrc -> Table to delete from ** pWhere -> The WHERE clause of the DELETE statement if one is specified. ** Otherwise NULL. ** ** (op == TK_UPDATE) -** zTarget -> Dequoted name of the table to update. +** pSrc -> Table to update, followed by any FROM clause tables. ** pWhere -> The WHERE clause of the UPDATE statement if one is specified. ** Otherwise NULL. ** pExprList -> A list of the columns to update and the expressions to update @@ -20783,8 +21159,7 @@ struct TriggerStep { u8 orconf; /* OE_Rollback etc. */ Trigger *pTrig; /* The trigger that this step is a part of */ Select *pSelect; /* SELECT statement or RHS of INSERT INTO SELECT ... */ - char *zTarget; /* Target table for DELETE, UPDATE, INSERT */ - SrcList *pFrom; /* FROM clause for UPDATE statement (if any) */ + SrcList *pSrc; /* Table to insert/update/delete */ Expr *pWhere; /* The WHERE clause for DELETE or UPDATE steps */ ExprList *pExprList; /* SET clause for UPDATE, or RETURNING clause */ IdList *pIdList; /* Column names for INSERT */ @@ -20867,10 +21242,11 @@ typedef struct { /* ** Allowed values for mInitFlags */ -#define INITFLAG_AlterMask 0x0003 /* Types of ALTER */ +#define INITFLAG_AlterMask 0x0007 /* Types of ALTER */ #define INITFLAG_AlterRename 0x0001 /* Reparse after a RENAME */ #define INITFLAG_AlterDrop 0x0002 /* Reparse after a DROP COLUMN */ #define INITFLAG_AlterAdd 0x0003 /* Reparse after an ADD COLUMN */ +#define INITFLAG_AlterDropCons 0x0004 /* Reparse after an ADD COLUMN */ /* Tuning parameters are set using SQLITE_TESTCTRL_TUNE and are controlled ** on debug-builds of the CLI using ".testctrl tune ID VALUE". Tuning @@ -21000,6 +21376,7 @@ struct Walker { NameContext *pNC; /* Naming context */ int n; /* A counter */ int iCur; /* A cursor number */ + int sz; /* String literal length */ SrcList *pSrcList; /* FROM clause */ struct CCurHint *pCCurHint; /* Used by codeCursorHint() */ struct RefSrcList *pRefSrcList; /* sqlite3ReferencesSrcList() */ @@ -21404,7 +21781,20 @@ SQLITE_PRIVATE int sqlite3LookasideUsed(sqlite3*,int*); SQLITE_PRIVATE sqlite3_mutex *sqlite3Pcache1Mutex(void); SQLITE_PRIVATE sqlite3_mutex *sqlite3MallocMutex(void); -#if defined(SQLITE_ENABLE_MULTITHREADED_CHECKS) && !defined(SQLITE_MUTEX_OMIT) + +/* The SQLITE_THREAD_MISUSE_WARNINGS compile-time option used to be called +** SQLITE_ENABLE_MULTITHREADED_CHECKS. Keep that older macro for backwards +** compatibility, at least for a while... */ +#ifdef SQLITE_ENABLE_MULTITHREADED_CHECKS +# define SQLITE_THREAD_MISUSE_WARNINGS 1 +#endif + +/* SQLITE_THREAD_MISUSE_ABORT implies SQLITE_THREAD_MISUSE_WARNINGS */ +#ifdef SQLITE_THREAD_MISUSE_ABORT +# define SQLITE_THREAD_MISUSE_WARNINGS 1 +#endif + +#if defined(SQLITE_THREAD_MISUSE_WARNINGS) && !defined(SQLITE_MUTEX_OMIT) SQLITE_PRIVATE void sqlite3MutexWarnOnContention(sqlite3_mutex*); #else # define sqlite3MutexWarnOnContention(x) @@ -21433,17 +21823,22 @@ struct PrintfArguments { sqlite3_value **apArg; /* The argument values */ }; +/* +** Maxium number of base-10 digits in an unsigned 64-bit integer +*/ +#define SQLITE_U64_DIGITS 20 + /* ** An instance of this object receives the decoding of a floating point ** value into an approximate decimal representation. */ struct FpDecode { - char sign; /* '+' or '-' */ - char isSpecial; /* 1: Infinity 2: NaN */ - int n; /* Significant digits in the decode */ - int iDP; /* Location of the decimal point */ - char *z; /* Start of significant digits */ - char zBuf[24]; /* Storage for significant digits */ + int n; /* Significant digits in the decode */ + int iDP; /* Location of the decimal point */ + char *z; /* Start of significant digits */ + char zBuf[SQLITE_U64_DIGITS+1]; /* Storage for significant digits */ + char sign; /* '+' or '-' */ + char isSpecial; /* 1: Infinity 2: NaN */ }; SQLITE_PRIVATE void sqlite3FpDecode(FpDecode*,double,int,int); @@ -21532,6 +21927,7 @@ SQLITE_PRIVATE int sqlite3NoTempsInRange(Parse*,int,int); #endif SQLITE_PRIVATE Expr *sqlite3ExprAlloc(sqlite3*,int,const Token*,int); SQLITE_PRIVATE Expr *sqlite3Expr(sqlite3*,int,const char*); +SQLITE_PRIVATE Expr *sqlite3ExprInt32(sqlite3*,int); SQLITE_PRIVATE void sqlite3ExprAttachSubtrees(sqlite3*,Expr*,Expr*,Expr*); SQLITE_PRIVATE Expr *sqlite3PExpr(Parse*, int, Expr*, Expr*); SQLITE_PRIVATE void sqlite3PExprAddSelect(Parse*, Expr*, Select*); @@ -21783,6 +22179,7 @@ SQLITE_PRIVATE int sqlite3ExprContainsSubquery(Expr*); SQLITE_PRIVATE int sqlite3ExprIsInteger(const Expr*, int*, Parse*); SQLITE_PRIVATE int sqlite3ExprCanBeNull(const Expr*); SQLITE_PRIVATE int sqlite3ExprNeedsNoAffinityChange(const Expr*, char); +SQLITE_PRIVATE int sqlite3ExprIsLikeOperator(const Expr*); SQLITE_PRIVATE int sqlite3IsRowid(const char*); SQLITE_PRIVATE const char *sqlite3RowidAlias(Table *pTab); SQLITE_PRIVATE void sqlite3GenerateRowDelete( @@ -21851,17 +22248,16 @@ SQLITE_PRIVATE void sqlite3CodeRowTriggerDirect(Parse *, Trigger *, Table *, i SQLITE_PRIVATE void sqlite3DeleteTriggerStep(sqlite3*, TriggerStep*); SQLITE_PRIVATE TriggerStep *sqlite3TriggerSelectStep(sqlite3*,Select*, const char*,const char*); -SQLITE_PRIVATE TriggerStep *sqlite3TriggerInsertStep(Parse*,Token*, IdList*, +SQLITE_PRIVATE TriggerStep *sqlite3TriggerInsertStep(Parse*,SrcList*, IdList*, Select*,u8,Upsert*, const char*,const char*); -SQLITE_PRIVATE TriggerStep *sqlite3TriggerUpdateStep(Parse*,Token*,SrcList*,ExprList*, +SQLITE_PRIVATE TriggerStep *sqlite3TriggerUpdateStep(Parse*,SrcList*,SrcList*,ExprList*, Expr*, u8, const char*,const char*); -SQLITE_PRIVATE TriggerStep *sqlite3TriggerDeleteStep(Parse*,Token*, Expr*, +SQLITE_PRIVATE TriggerStep *sqlite3TriggerDeleteStep(Parse*,SrcList*, Expr*, const char*,const char*); SQLITE_PRIVATE void sqlite3DeleteTrigger(sqlite3*, Trigger*); SQLITE_PRIVATE void sqlite3UnlinkAndDeleteTrigger(sqlite3*,int,const char*); SQLITE_PRIVATE u32 sqlite3TriggerColmask(Parse*,Trigger*,ExprList*,int,int,Table*,int); -SQLITE_PRIVATE SrcList *sqlite3TriggerStepSrc(Parse*, TriggerStep*); # define sqlite3ParseToplevel(p) ((p)->pToplevel ? (p)->pToplevel : (p)) # define sqlite3IsToplevel(p) ((p)->pToplevel==0) #else @@ -21875,7 +22271,6 @@ SQLITE_PRIVATE SrcList *sqlite3TriggerStepSrc(Parse*, TriggerStep*); # define sqlite3ParseToplevel(p) p # define sqlite3IsToplevel(p) 1 # define sqlite3TriggerColmask(A,B,C,D,E,F,G) 0 -# define sqlite3TriggerStepSrc(A,B) 0 #endif SQLITE_PRIVATE int sqlite3JoinType(Parse*, Token*, Token*, Token*); @@ -21908,7 +22303,7 @@ SQLITE_PRIVATE int sqlite3FixTriggerStep(DbFixer*, TriggerStep*); SQLITE_PRIVATE int sqlite3RealSameAsInt(double,sqlite3_int64); SQLITE_PRIVATE i64 sqlite3RealToI64(double); SQLITE_PRIVATE int sqlite3Int64ToText(i64,char*); -SQLITE_PRIVATE int sqlite3AtoF(const char *z, double*, int, u8); +SQLITE_PRIVATE int sqlite3AtoF(const char *z, double*); SQLITE_PRIVATE int sqlite3GetInt32(const char *, int*); SQLITE_PRIVATE int sqlite3GetUInt32(const char*, u32*); SQLITE_PRIVATE int sqlite3Atoi(const char*); @@ -22052,10 +22447,13 @@ SQLITE_PRIVATE void sqlite3Reindex(Parse*, Token*, Token*); SQLITE_PRIVATE void sqlite3AlterFunctions(void); SQLITE_PRIVATE void sqlite3AlterRenameTable(Parse*, SrcList*, Token*); SQLITE_PRIVATE void sqlite3AlterRenameColumn(Parse*, SrcList*, Token*, Token*); +SQLITE_PRIVATE void sqlite3AlterDropConstraint(Parse*,SrcList*,Token*,Token*); +SQLITE_PRIVATE void sqlite3AlterAddConstraint(Parse*,SrcList*,Token*,Token*,const char*,int); +SQLITE_PRIVATE void sqlite3AlterSetNotNull(Parse*, SrcList*, Token*, Token*); SQLITE_PRIVATE i64 sqlite3GetToken(const unsigned char *, int *); SQLITE_PRIVATE void sqlite3NestedParse(Parse*, const char*, ...); SQLITE_PRIVATE void sqlite3ExpirePreparedStatements(sqlite3*, int); -SQLITE_PRIVATE void sqlite3CodeRhsOfIN(Parse*, Expr*, int); +SQLITE_PRIVATE void sqlite3CodeRhsOfIN(Parse*, Expr*, int, int); SQLITE_PRIVATE int sqlite3CodeSubselect(Parse*, Expr*); SQLITE_PRIVATE void sqlite3SelectPrep(Parse*, Select*, NameContext*); SQLITE_PRIVATE int sqlite3ExpandSubquery(Parse*, SrcItem*); @@ -22128,6 +22526,7 @@ SQLITE_PRIVATE char *sqlite3RCStrResize(char*,u64); SQLITE_PRIVATE void sqlite3StrAccumInit(StrAccum*, sqlite3*, char*, int, int); SQLITE_PRIVATE int sqlite3StrAccumEnlarge(StrAccum*, i64); +SQLITE_PRIVATE int sqlite3StrAccumEnlargeIfNeeded(StrAccum*, i64); SQLITE_PRIVATE char *sqlite3StrAccumFinish(StrAccum*); SQLITE_PRIVATE void sqlite3StrAccumSetError(StrAccum*, u8); SQLITE_PRIVATE void sqlite3ResultStrAccum(sqlite3_context*,StrAccum*); @@ -23355,6 +23754,9 @@ static const char * const sqlite3azCompileOpt[] = { #ifdef SQLITE_STMTJRNL_SPILL "STMTJRNL_SPILL=" CTIMEOPT_VAL(SQLITE_STMTJRNL_SPILL), #endif +#ifdef SQLITE_STRICT_SUBTYPE + "STRICT_SUBTYPE", +#endif #ifdef SQLITE_SUBSTR_COMPATIBILITY "SUBSTR_COMPATIBILITY", #endif @@ -24470,6 +24872,7 @@ SQLITE_PRIVATE void sqlite3VdbeMemShallowCopy(Mem*, const Mem*, int); SQLITE_PRIVATE void sqlite3VdbeMemMove(Mem*, Mem*); SQLITE_PRIVATE int sqlite3VdbeMemNulTerminate(Mem*); SQLITE_PRIVATE int sqlite3VdbeMemSetStr(Mem*, const char*, i64, u8, void(*)(void*)); +SQLITE_PRIVATE int sqlite3VdbeMemSetText(Mem*, const char*, i64, void(*)(void*)); SQLITE_PRIVATE void sqlite3VdbeMemSetInt64(Mem*, i64); #ifdef SQLITE_OMIT_FLOATING_POINT # define sqlite3VdbeMemSetDouble sqlite3VdbeMemSetInt64 @@ -24488,13 +24891,14 @@ SQLITE_PRIVATE int sqlite3VdbeMemSetZeroBlob(Mem*,int); SQLITE_PRIVATE int sqlite3VdbeMemIsRowSet(const Mem*); #endif SQLITE_PRIVATE int sqlite3VdbeMemSetRowSet(Mem*); -SQLITE_PRIVATE void sqlite3VdbeMemZeroTerminateIfAble(Mem*); +SQLITE_PRIVATE int sqlite3VdbeMemZeroTerminateIfAble(Mem*); SQLITE_PRIVATE int sqlite3VdbeMemMakeWriteable(Mem*); SQLITE_PRIVATE int sqlite3VdbeMemStringify(Mem*, u8, u8); SQLITE_PRIVATE int sqlite3IntFloatCompare(i64,double); SQLITE_PRIVATE i64 sqlite3VdbeIntValue(const Mem*); SQLITE_PRIVATE int sqlite3VdbeMemIntegerify(Mem*); SQLITE_PRIVATE double sqlite3VdbeRealValue(Mem*); +SQLITE_PRIVATE int sqlite3MemRealValueRC(Mem*, double*); SQLITE_PRIVATE int sqlite3VdbeBooleanValue(Mem*, int ifNull); SQLITE_PRIVATE void sqlite3VdbeIntegerAffinity(Mem*); SQLITE_PRIVATE int sqlite3VdbeMemRealify(Mem*); @@ -24525,6 +24929,7 @@ SQLITE_PRIVATE void sqlite3VdbePreUpdateHook( Vdbe*,VdbeCursor*,int,const char*,Table*,i64,int,int); #endif SQLITE_PRIVATE int sqlite3VdbeTransferError(Vdbe *p); +SQLITE_PRIVATE int sqlite3VdbeFindIndexKey(BtCursor*, Index*, UnpackedRecord*, int*, int); SQLITE_PRIVATE int sqlite3VdbeSorterInit(sqlite3 *, int, VdbeCursor *); SQLITE_PRIVATE void sqlite3VdbeSorterReset(sqlite3 *, VdbeSorter *); @@ -25454,7 +25859,7 @@ static int parseDateOrTime( return 0; }else if( sqlite3StrICmp(zDate,"now")==0 && sqlite3NotPureFunc(context) ){ return setDateTimeToCurrent(context, p); - }else if( sqlite3AtoF(zDate, &r, sqlite3Strlen30(zDate), SQLITE_UTF8)>0 ){ + }else if( sqlite3AtoF(zDate, &r)>0 ){ setRawDateNumber(p, r); return 0; }else if( (sqlite3StrICmp(zDate,"subsec")==0 @@ -25900,7 +26305,7 @@ static int parseModifier( ** date is already on the appropriate weekday, this is a no-op. */ if( sqlite3_strnicmp(z, "weekday ", 8)==0 - && sqlite3AtoF(&z[8], &r, sqlite3Strlen30(&z[8]), SQLITE_UTF8)>0 + && sqlite3AtoF(&z[8], &r)>0 && r>=0.0 && r<7.0 && (n=(int)r)==r ){ sqlite3_int64 Z; computeYMD_HMS(p); @@ -25971,9 +26376,11 @@ static int parseModifier( case '8': case '9': { double rRounder; - int i; + int i, rx; int Y,M,D,h,m,x; const char *z2 = z; + char *zCopy; + sqlite3 *db = sqlite3_context_db_handle(pCtx); char z0 = z[0]; for(n=1; z[n]; n++){ if( z[n]==':' ) break; @@ -25983,7 +26390,11 @@ static int parseModifier( if( n==6 && getDigits(&z[1], "50f", &Y)==1 ) break; } } - if( sqlite3AtoF(z, &r, n, SQLITE_UTF8)<=0 ){ + zCopy = sqlite3DbStrNDup(db, z, n); + if( zCopy==0 ) break; + rx = sqlite3AtoF(zCopy, &r)<=0; + sqlite3DbFree(db, zCopy); + if( rx ){ assert( rc==1 ); break; } @@ -26803,7 +27214,7 @@ static void datedebugFunc( char *zJson; zJson = sqlite3_mprintf( "{iJD:%lld,Y:%d,M:%d,D:%d,h:%d,m:%d,tz:%d," - "s:%.3f,validJD:%d,validYMS:%d,validHMS:%d," + "s:%.3f,validJD:%d,validYMD:%d,validHMS:%d," "nFloor:%d,rawS:%d,isError:%d,useSubsec:%d," "isUtc:%d,isLocal:%d}", x.iJD, x.Y, x.M, x.D, x.h, x.m, x.tz, @@ -29582,23 +29993,28 @@ static SQLITE_WSD int mutexIsInit = 0; #ifndef SQLITE_MUTEX_OMIT -#ifdef SQLITE_ENABLE_MULTITHREADED_CHECKS +#ifdef SQLITE_THREAD_MISUSE_WARNINGS /* -** This block (enclosed by SQLITE_ENABLE_MULTITHREADED_CHECKS) contains +** This block (enclosed by SQLITE_THREAD_MISUSE_WARNINGS) contains ** the implementation of a wrapper around the system default mutex ** implementation (sqlite3DefaultMutex()). ** ** Most calls are passed directly through to the underlying default ** mutex implementation. Except, if a mutex is configured by calling ** sqlite3MutexWarnOnContention() on it, then if contention is ever -** encountered within xMutexEnter() a warning is emitted via sqlite3_log(). +** encountered within xMutexEnter() then a warning is emitted via +** sqlite3_log(). Furthermore, if SQLITE_THREAD_MISUSE_ABORT is +** defined then abort() is called after the sqlite3_log() warning. ** -** This type of mutex is used as the database handle mutex when testing -** apps that usually use SQLITE_CONFIG_MULTITHREAD mode. +** This type of mutex is used on the database handle mutex when testing +** apps that usually use SQLITE_CONFIG_MULTITHREAD mode. A failure +** indicates that the app ought to be using SQLITE_OPEN_FULLMUTEX or +** similar because it is trying to use the same database handle from +** two different connections at the same time. */ /* -** Type for all mutexes used when SQLITE_ENABLE_MULTITHREADED_CHECKS +** Type for all mutexes used when SQLITE_THREAD_MISUSE_WARNINGS ** is defined. Variable CheckMutex.mutex is a pointer to the real mutex ** allocated by the system mutex implementation. Variable iType is usually set ** to the type of mutex requested - SQLITE_MUTEX_RECURSIVE, SQLITE_MUTEX_FAST @@ -29634,11 +30050,12 @@ static int checkMutexNotheld(sqlite3_mutex *p){ */ static int checkMutexInit(void){ pGlobalMutexMethods = sqlite3DefaultMutex(); - return SQLITE_OK; + return pGlobalMutexMethods->xMutexInit(); } static int checkMutexEnd(void){ + int rc = pGlobalMutexMethods->xMutexEnd(); pGlobalMutexMethods = 0; - return SQLITE_OK; + return rc; } /* @@ -29715,6 +30132,9 @@ static void checkMutexEnter(sqlite3_mutex *p){ sqlite3_log(SQLITE_MISUSE, "illegal multi-threaded access to database connection" ); +#if SQLITE_THREAD_MISUSE_ABORT + abort(); +#endif } pGlobalMutexMethods->xMutexEnter(pCheck->mutex); } @@ -29766,7 +30186,7 @@ SQLITE_PRIVATE void sqlite3MutexWarnOnContention(sqlite3_mutex *p){ pCheck->iType = SQLITE_MUTEX_WARNONCONTENTION; } } -#endif /* ifdef SQLITE_ENABLE_MULTITHREADED_CHECKS */ +#endif /* ifdef SQLITE_THREAD_MISUSE_WARNINGS */ /* ** Initialize the mutex system. @@ -29783,7 +30203,7 @@ SQLITE_PRIVATE int sqlite3MutexInit(void){ sqlite3_mutex_methods *pTo = &sqlite3GlobalConfig.mutex; if( sqlite3GlobalConfig.bCoreMutex ){ -#ifdef SQLITE_ENABLE_MULTITHREADED_CHECKS +#ifdef SQLITE_THREAD_MISUSE_WARNINGS pFrom = multiThreadedCheckMutex(); #else pFrom = sqlite3DefaultMutex(); @@ -30631,14 +31051,6 @@ SQLITE_PRIVATE sqlite3_mutex_methods const *sqlite3DefaultMutex(void){ # define SQLITE_OS_WINCE 0 #endif -/* -** Determine if we are dealing with WinRT, which provides only a subset of -** the full Win32 API. -*/ -#if !defined(SQLITE_OS_WINRT) -# define SQLITE_OS_WINRT 0 -#endif - /* ** For WinCE, some API function parameters do not appear to be declared as ** volatile. @@ -30653,7 +31065,7 @@ SQLITE_PRIVATE sqlite3_mutex_methods const *sqlite3DefaultMutex(void){ ** For some Windows sub-platforms, the _beginthreadex() / _endthreadex() ** functions are not available (e.g. those not using MSVC, Cygwin, etc). */ -#if SQLITE_OS_WIN && !SQLITE_OS_WINCE && !SQLITE_OS_WINRT && \ +#if SQLITE_OS_WIN && !SQLITE_OS_WINCE && \ SQLITE_THREADSAFE>0 && !defined(__CYGWIN__) # define SQLITE_OS_WIN_THREADS 1 #else @@ -30770,11 +31182,7 @@ static int winMutexInit(void){ if( InterlockedCompareExchange(&winMutex_lock, 1, 0)==0 ){ int i; for(i=0; itrace = 1; #endif #endif -#if SQLITE_OS_WINRT - InitializeCriticalSectionEx(&p->mutex, 0, 0); -#else InitializeCriticalSection(&p->mutex); -#endif } break; } @@ -32109,7 +32513,7 @@ static char *printfTempBuf(sqlite3_str *pAccum, sqlite3_int64 n){ sqlite3StrAccumSetError(pAccum, SQLITE_TOOBIG); return 0; } - z = sqlite3DbMallocRaw(pAccum->db, n); + z = sqlite3_malloc(n); if( z==0 ){ sqlite3StrAccumSetError(pAccum, SQLITE_NOMEM); } @@ -32440,9 +32844,11 @@ SQLITE_API void sqlite3_str_vappendf( }while( longvalue>0 ); } length = (int)(&zOut[nOut-1]-bufpt); - while( precision>length ){ - *(--bufpt) = '0'; /* Zero pad */ - length++; + if( precision>length ){ /* zero pad */ + int nn = precision-length; + bufpt -= nn; + memset(bufpt,'0',nn); + length = precision; } if( cThousand ){ int nn = (length - 1)/3; /* Number of "," to insert */ @@ -32473,6 +32879,7 @@ SQLITE_API void sqlite3_str_vappendf( FpDecode s; int iRound; int j; + i64 szBufNeeded; /* Size needed to hold the output */ if( bArgList ){ realvalue = getDoubleArg(pArgList); @@ -32493,7 +32900,7 @@ SQLITE_API void sqlite3_str_vappendf( }else{ iRound = precision+1; } - sqlite3FpDecode(&s, realvalue, iRound, flag_altform2 ? 26 : 16); + sqlite3FpDecode(&s, realvalue, iRound, flag_altform2 ? 20 : 16); if( s.isSpecial ){ if( s.isSpecial==2 ){ bufpt = flag_zeropad ? "null" : "NaN"; @@ -32561,17 +32968,31 @@ SQLITE_API void sqlite3_str_vappendf( }else{ e2 = s.iDP - 1; } - bufpt = buf; - { - i64 szBufNeeded; /* Size of a temporary buffer needed */ - szBufNeeded = MAX(e2,0)+(i64)precision+(i64)width+15; - if( cThousand && e2>0 ) szBufNeeded += (e2+2)/3; - if( szBufNeeded > etBUFSIZE ){ - bufpt = zExtra = printfTempBuf(pAccum, szBufNeeded); - if( bufpt==0 ) return; + + szBufNeeded = MAX(e2,0)+(i64)precision+(i64)width+10; + if( cThousand && e2>0 ) szBufNeeded += (e2+2)/3; + if( szBufNeeded + pAccum->nChar >= pAccum->nAlloc ){ + if( pAccum->mxAlloc==0 && pAccum->accError==0 ){ + /* Unable to allocate space in pAccum, perhaps because it + ** is coming from sqlite3_snprintf() or similar. We'll have + ** to render into temporary space and the memcpy() it over. */ + bufpt = sqlite3_malloc(szBufNeeded); + if( bufpt==0 ){ + sqlite3StrAccumSetError(pAccum, SQLITE_NOMEM); + return; + } + zExtra = bufpt; + }else if( sqlite3StrAccumEnlarge(pAccum, szBufNeeded)zText + pAccum->nChar; } + }else{ + bufpt = pAccum->zText + pAccum->nChar; } zOut = bufpt; + flag_dp = (precision>0 ?1:0) | flag_alternateform | flag_altform2; /* The sign in front of the number */ if( prefix ){ @@ -32579,12 +33000,24 @@ SQLITE_API void sqlite3_str_vappendf( } /* Digits prior to the decimal point */ j = 0; + assert( s.n>0 ); if( e2<0 ){ *(bufpt++) = '0'; - }else{ + }else if( cThousand ){ for(; e2>=0; e2--){ *(bufpt++) = j1 ) *(bufpt++) = ','; + if( (e2%3)==0 && e2>1 ) *(bufpt++) = ','; + } + }else{ + j = e2+1; + if( j>s.n ) j = s.n; + memcpy(bufpt, s.z, j); + bufpt += j; + e2 -= j; + if( e2>=0 ){ + memset(bufpt, '0', e2+1); + bufpt += e2+1; + e2 = -1; } } /* The decimal point */ @@ -32593,12 +33026,26 @@ SQLITE_API void sqlite3_str_vappendf( } /* "0" digits after the decimal point but before the first ** significant digit of the number */ - for(e2++; e2<0 && precision>0; precision--, e2++){ - *(bufpt++) = '0'; + if( e2<(-1) && precision>0 ){ + int nn = -1-e2; + if( nn>precision ) nn = precision; + memset(bufpt, '0', nn); + bufpt += nn; + precision -= nn; } /* Significant digits after the decimal point */ - while( (precision--)>0 ){ - *(bufpt++) = j0 ){ + int nn = s.n - j; + if( NEVER(nn>precision) ) nn = precision; + if( nn>0 ){ + memcpy(bufpt, s.z+j, nn); + bufpt += nn; + precision -= nn; + } + if( precision>0 && !flag_rtz ){ + memset(bufpt, '0', precision); + bufpt += precision; + } } /* Remove trailing zeros and the "." if no digits follow the "." */ if( flag_rtz && flag_dp ){ @@ -32628,27 +33075,39 @@ SQLITE_API void sqlite3_str_vappendf( *(bufpt++) = (char)(exp/10+'0'); /* 10's digit */ *(bufpt++) = (char)(exp%10+'0'); /* 1's digit */ } - *bufpt = 0; - /* The converted number is in buf[] and zero terminated. Output it. - ** Note that the number is in the usual order, not reversed as with - ** integer conversions. */ length = (int)(bufpt-zOut); - bufpt = zOut; - - /* Special case: Add leading zeros if the flag_zeropad flag is - ** set and we are not left justified */ - if( flag_zeropad && !flag_leftjustify && length < width){ - int i; - int nPad = width - length; - for(i=width; i>=nPad; i--){ - bufpt[i] = bufpt[i-nPad]; + assert( length <= szBufNeeded ); + if( lengthnChar += length; + zOut[length] = 0; + continue; + }else{ + /* We were unable to render directly into pAccum because we + ** couldn't allocate sufficient memory. We need to memcpy() + ** the rendering (or some prefix thereof) into the output + ** buffer. */ + bufpt[0] = 0; + bufpt = zExtra; + break; + } } case etSIZE: if( !bArgList ){ @@ -32692,10 +33151,9 @@ SQLITE_API void sqlite3_str_vappendf( i64 nCopyBytes; if( nPrior > precision-1 ) nPrior = precision - 1; nCopyBytes = length*nPrior; - if( nCopyBytes + pAccum->nChar >= pAccum->nAlloc ){ - sqlite3StrAccumEnlarge(pAccum, nCopyBytes); + if( sqlite3StrAccumEnlargeIfNeeded(pAccum, nCopyBytes) ){ + break; } - if( pAccum->accError ) break; sqlite3_str_append(pAccum, &pAccum->zText[pAccum->nChar-nCopyBytes], nCopyBytes); precision -= nPrior; @@ -33042,6 +33500,13 @@ SQLITE_PRIVATE int sqlite3StrAccumEnlarge(StrAccum *p, i64 N){ return (int)N; } +SQLITE_PRIVATE int sqlite3StrAccumEnlargeIfNeeded(StrAccum *p, i64 N){ + if( N + p->nChar >= p->nAlloc ){ + sqlite3StrAccumEnlarge(p, N); + } + return p->accError; +} + /* ** Append N copies of character c to the given string buffer. */ @@ -33172,6 +33637,14 @@ SQLITE_API int sqlite3_str_length(sqlite3_str *p){ return p ? p->nChar : 0; } +/* Truncate the text of the string to be no more than N bytes. */ +SQLITE_API void sqlite3_str_truncate(sqlite3_str *p, int N){ + if( p!=0 && N>=0 && (u32)NnChar ){ + p->nChar = N; + p->zText[p->nChar] = 0; + } +} + /* Return the current value for p */ SQLITE_API char *sqlite3_str_value(sqlite3_str *p){ if( p==0 || p->nChar==0 ) return 0; @@ -33192,6 +33665,17 @@ SQLITE_API void sqlite3_str_reset(StrAccum *p){ p->zText = 0; } +/* +** Destroy a dynamically allocate sqlite3_str object and all +** of its content, all in one call. +*/ +SQLITE_API void sqlite3_str_free(sqlite3_str *p){ + if( p!=0 && p!=&sqlite3OomStr ){ + sqlite3_str_reset(p); + sqlite3_free(p); + } +} + /* ** Initialize a string accumulator. ** @@ -34805,7 +35289,13 @@ SQLITE_PRIVATE void sqlite3TreeViewTrigger( SQLITE_PRIVATE void sqlite3ShowExpr(const Expr *p){ sqlite3TreeViewExpr(0,p,0); } SQLITE_PRIVATE void sqlite3ShowExprList(const ExprList *p){ sqlite3TreeViewExprList(0,p,0,0);} SQLITE_PRIVATE void sqlite3ShowIdList(const IdList *p){ sqlite3TreeViewIdList(0,p,0,0); } -SQLITE_PRIVATE void sqlite3ShowSrcList(const SrcList *p){ sqlite3TreeViewSrcList(0,p); } +SQLITE_PRIVATE void sqlite3ShowSrcList(const SrcList *p){ + TreeView *pView = 0; + sqlite3TreeViewPush(&pView, 0); + sqlite3TreeViewLine(pView, "SRCLIST"); + sqlite3TreeViewSrcList(pView,p); + sqlite3TreeViewPop(&pView); +} SQLITE_PRIVATE void sqlite3ShowSelect(const Select *p){ sqlite3TreeViewSelect(0,p,0); } SQLITE_PRIVATE void sqlite3ShowWith(const With *p){ sqlite3TreeViewWith(0,p,0); } SQLITE_PRIVATE void sqlite3ShowUpsert(const Upsert *p){ sqlite3TreeViewUpsert(0,p,0); } @@ -35186,6 +35676,7 @@ SQLITE_PRIVATE int sqlite3ThreadJoin(SQLiteThread *p, void **ppOut){ rc = sqlite3Win32Wait((HANDLE)p->tid); assert( rc!=WAIT_IO_COMPLETION ); bRc = CloseHandle((HANDLE)p->tid); + (void)bRc; /* Prevent warning when assert() is a no-op */ assert( bRc ); } if( rc==WAIT_OBJECT_0 ) *ppOut = p->pResult; @@ -36325,266 +36816,618 @@ SQLITE_PRIVATE u8 sqlite3StrIHash(const char *z){ return h; } -/* Double-Double multiplication. (x[0],x[1]) *= (y,yy) -** -** Reference: -** T. J. Dekker, "A Floating-Point Technique for Extending the -** Available Precision". 1971-07-26. +#if !defined(SQLITE_DISABLE_INTRINSIC) \ + && (defined(__GNUC__) || defined(__clang__)) \ + && (defined(__x86_64__) || defined(__aarch64__) || \ + (defined(__riscv) && defined(__riscv_xlen) && (__riscv_xlen>32))) +#define SQLITE_USE_UINT128 +#endif + +/* +** Two inputs are multiplied to get a 128-bit result. Write the +** lower 64-bits of the result into *pLo, and return the high-order +** 64 bits. */ -static void dekkerMul2(volatile double *x, double y, double yy){ - /* - ** The "volatile" keywords on parameter x[] and on local variables - ** below are needed force intermediate results to be truncated to - ** binary64 rather than be carried around in an extended-precision - ** format. The truncation is necessary for the Dekker algorithm to - ** work. Intel x86 floating point might omit the truncation without - ** the use of volatile. - */ - volatile double tx, ty, p, q, c, cc; - double hx, hy; - u64 m; - memcpy(&m, (void*)&x[0], 8); - m &= 0xfffffffffc000000LL; - memcpy(&hx, &m, 8); - tx = x[0] - hx; - memcpy(&m, &y, 8); - m &= 0xfffffffffc000000LL; - memcpy(&hy, &m, 8); - ty = y - hy; - p = hx*hy; - q = hx*ty + tx*hy; - c = p+q; - cc = p - c + q + tx*ty; - cc = x[0]*yy + x[1]*y + cc; - x[0] = c + cc; - x[1] = c - x[0]; - x[1] += cc; +static u64 sqlite3Multiply128(u64 a, u64 b, u64 *pLo){ +#if defined(SQLITE_USE_UINT128) + __uint128_t r = (__uint128_t)a * b; + *pLo = (u64)r; + return (u64)(r>>64); +#elif defined(_WIN64) && !defined(SQLITE_DISABLE_INTRINSIC) + *pLo = a*b; + return __umulh(a, b); +#else + u64 a0 = (u32)a; + u64 a1 = a >> 32; + u64 b0 = (u32)b; + u64 b1 = b >> 32; + u64 a0b0 = a0 * b0; + u64 a1b1 = a1 * b1; + u64 a0b1 = a0 * b1; + u64 a1b0 = a1 * b0; + u64 t = (a0b0 >> 32) + (u32)a0b1 + (u32)a1b0; + *pLo = (a0b0 & UINT64_C(0xffffffff)) | (t << 32); + return a1b1 + (a0b1>>32) + (a1b0>>32) + (t>>32); +#endif +} + +/* +** A is an unsigned 96-bit integer formed by (a<<32)+aLo. +** B is an unsigned 64-bit integer. +** +** Compute the upper 96 bits of 160-bit result of A*B. +** +** Write ((A*B)>>64 & 0xffffffff) (the middle 32 bits of A*B) +** into *pLo. Return the upper 64 bits of A*B. +** +** The lower 64 bits of A*B are discarded. +*/ +static u64 sqlite3Multiply160(u64 a, u32 aLo, u64 b, u32 *pLo){ +#if defined(SQLITE_USE_UINT128) + __uint128_t r = (__uint128_t)a * b; + r += ((__uint128_t)aLo * b) >> 32; + *pLo = (r>>32)&0xffffffff; + return r>>64; +#elif defined(_WIN64) && !defined(SQLITE_DISABLE_INTRINSIC) + u64 r1_hi = __umulh(a,b); + u64 r1_lo = a*b; + u64 r2 = (__umulh((u64)aLo,b)<<32) + ((aLo*b)>>32); + u64 t = r1_lo + r2; + if( t>32; + return r1_hi; +#else + u64 x2 = a>>32; + u64 x1 = a&0xffffffff; + u64 x0 = aLo; + u64 y1 = b>>32; + u64 y0 = b&0xffffffff; + u64 x2y1 = x2*y1; + u64 r4 = x2y1>>32; + u64 x2y0 = x2*y0; + u64 x1y1 = x1*y1; + u64 r3 = (x2y1 & 0xffffffff) + (x2y0 >>32) + (x1y1 >>32); + u64 x1y0 = x1*y0; + u64 x0y1 = x0*y1; + u64 r2 = (x2y0 & 0xffffffff) + (x1y1 & 0xffffffff) + + (x1y0 >>32) + (x0y1>>32); + u64 x0y0 = x0*y0; + u64 r1 = (x1y0 & 0xffffffff) + (x0y1 & 0xffffffff) + + (x0y0 >>32); + r2 += r1>>32; + r3 += r2>>32; + *pLo = r2&0xffffffff; + return (r4<<32) + r3; +#endif } +#undef SQLITE_USE_UINT128 + /* -** The string z[] is an text representation of a real number. -** Convert this string to a double and write it into *pResult. +** Return a u64 with the N-th bit set. +*/ +#define U64_BIT(N) (((u64)1)<<(N)) + +/* +** Range of powers of 10 that we need to deal with when converting +** IEEE754 doubles to and from decimal. +*/ +#define POWERSOF10_FIRST (-348) +#define POWERSOF10_LAST (+347) + +/* +** For any p between -348 and +347, return the integer part of ** -** The string z[] is length bytes in length (bytes, not characters) and -** uses the encoding enc. The string is not necessarily zero-terminated. +** pow(10,p) * pow(2,63-pow10to2(p)) ** -** Return TRUE if the result is a valid real number (or integer) and FALSE -** if the string is empty or contains extraneous text. More specifically -** return -** 1 => The input string is a pure integer -** 2 or more => The input has a decimal point or eNNN clause -** 0 or less => The input string is not a valid number -** -1 => Not a valid number, but has a valid prefix which -** includes a decimal point and/or an eNNN clause +** Or, in other words, for any p in range, return the most significant +** 64 bits of pow(10,p). The pow(10,p) value is shifted left or right, +** as appropriate so the most significant 64 bits fit exactly into a +** 64-bit unsigned integer. ** -** Valid numbers are in one of these formats: +** Write into *pLo the next 32 significant bits of the answer after +** the first 64. ** -** [+-]digits[E[+-]digits] -** [+-]digits.[digits][E[+-]digits] -** [+-].digits[E[+-]digits] +** Algorithm: ** -** Leading and trailing whitespace is ignored for the purpose of determining -** validity. +** (1) For p between 0 and 26, return the value directly from the aBase[] +** lookup table. +** +** (2) For p outside the range 0 to 26, use aScale[] for the initial value +** then refine that result (if necessary) by a single multiplication +** against aBase[]. +** +** The constant tables aBase[], aScale[], and aScaleLo[] are generated +** by the C program at ../tool/mkfptab.c run with the --round option. +*/ +static u64 powerOfTen(int p, u32 *pLo){ + static const u64 aBase[] = { + UINT64_C(0x8000000000000000), /* 0: 1.0e+0 << 63 */ + UINT64_C(0xa000000000000000), /* 1: 1.0e+1 << 60 */ + UINT64_C(0xc800000000000000), /* 2: 1.0e+2 << 57 */ + UINT64_C(0xfa00000000000000), /* 3: 1.0e+3 << 54 */ + UINT64_C(0x9c40000000000000), /* 4: 1.0e+4 << 50 */ + UINT64_C(0xc350000000000000), /* 5: 1.0e+5 << 47 */ + UINT64_C(0xf424000000000000), /* 6: 1.0e+6 << 44 */ + UINT64_C(0x9896800000000000), /* 7: 1.0e+7 << 40 */ + UINT64_C(0xbebc200000000000), /* 8: 1.0e+8 << 37 */ + UINT64_C(0xee6b280000000000), /* 9: 1.0e+9 << 34 */ + UINT64_C(0x9502f90000000000), /* 10: 1.0e+10 << 30 */ + UINT64_C(0xba43b74000000000), /* 11: 1.0e+11 << 27 */ + UINT64_C(0xe8d4a51000000000), /* 12: 1.0e+12 << 24 */ + UINT64_C(0x9184e72a00000000), /* 13: 1.0e+13 << 20 */ + UINT64_C(0xb5e620f480000000), /* 14: 1.0e+14 << 17 */ + UINT64_C(0xe35fa931a0000000), /* 15: 1.0e+15 << 14 */ + UINT64_C(0x8e1bc9bf04000000), /* 16: 1.0e+16 << 10 */ + UINT64_C(0xb1a2bc2ec5000000), /* 17: 1.0e+17 << 7 */ + UINT64_C(0xde0b6b3a76400000), /* 18: 1.0e+18 << 4 */ + UINT64_C(0x8ac7230489e80000), /* 19: 1.0e+19 >> 0 */ + UINT64_C(0xad78ebc5ac620000), /* 20: 1.0e+20 >> 3 */ + UINT64_C(0xd8d726b7177a8000), /* 21: 1.0e+21 >> 6 */ + UINT64_C(0x878678326eac9000), /* 22: 1.0e+22 >> 10 */ + UINT64_C(0xa968163f0a57b400), /* 23: 1.0e+23 >> 13 */ + UINT64_C(0xd3c21bcecceda100), /* 24: 1.0e+24 >> 16 */ + UINT64_C(0x84595161401484a0), /* 25: 1.0e+25 >> 20 */ + UINT64_C(0xa56fa5b99019a5c8), /* 26: 1.0e+26 >> 23 */ + }; + static const u64 aScale[] = { + UINT64_C(0x8049a4ac0c5811ae), /* 0: 1.0e-351 << 1229 */ + UINT64_C(0xcf42894a5dce35ea), /* 1: 1.0e-324 << 1140 */ + UINT64_C(0xa76c582338ed2621), /* 2: 1.0e-297 << 1050 */ + UINT64_C(0x873e4f75e2224e68), /* 3: 1.0e-270 << 960 */ + UINT64_C(0xda7f5bf590966848), /* 4: 1.0e-243 << 871 */ + UINT64_C(0xb080392cc4349dec), /* 5: 1.0e-216 << 781 */ + UINT64_C(0x8e938662882af53e), /* 6: 1.0e-189 << 691 */ + UINT64_C(0xe65829b3046b0afa), /* 7: 1.0e-162 << 602 */ + UINT64_C(0xba121a4650e4ddeb), /* 8: 1.0e-135 << 512 */ + UINT64_C(0x964e858c91ba2655), /* 9: 1.0e-108 << 422 */ + UINT64_C(0xf2d56790ab41c2a2), /* 10: 1.0e-81 << 333 */ + UINT64_C(0xc428d05aa4751e4c), /* 11: 1.0e-54 << 243 */ + UINT64_C(0x9e74d1b791e07e48), /* 12: 1.0e-27 << 153 */ + UINT64_C(0xcccccccccccccccc), /* 13: 1.0e-1 << 67 (special case) */ + UINT64_C(0xcecb8f27f4200f3a), /* 14: 1.0e+27 >> 26 */ + UINT64_C(0xa70c3c40a64e6c51), /* 15: 1.0e+54 >> 116 */ + UINT64_C(0x86f0ac99b4e8dafd), /* 16: 1.0e+81 >> 206 */ + UINT64_C(0xda01ee641a708de9), /* 17: 1.0e+108 >> 295 */ + UINT64_C(0xb01ae745b101e9e4), /* 18: 1.0e+135 >> 385 */ + UINT64_C(0x8e41ade9fbebc27d), /* 19: 1.0e+162 >> 475 */ + UINT64_C(0xe5d3ef282a242e81), /* 20: 1.0e+189 >> 564 */ + UINT64_C(0xb9a74a0637ce2ee1), /* 21: 1.0e+216 >> 654 */ + UINT64_C(0x95f83d0a1fb69cd9), /* 22: 1.0e+243 >> 744 */ + UINT64_C(0xf24a01a73cf2dccf), /* 23: 1.0e+270 >> 833 */ + UINT64_C(0xc3b8358109e84f07), /* 24: 1.0e+297 >> 923 */ + UINT64_C(0x9e19db92b4e31ba9), /* 25: 1.0e+324 >> 1013 */ + }; + static const unsigned int aScaleLo[] = { + 0x205b896d, /* 0: 1.0e-351 << 1229 */ + 0x52064cad, /* 1: 1.0e-324 << 1140 */ + 0xaf2af2b8, /* 2: 1.0e-297 << 1050 */ + 0x5a7744a7, /* 3: 1.0e-270 << 960 */ + 0xaf39a475, /* 4: 1.0e-243 << 871 */ + 0xbd8d794e, /* 5: 1.0e-216 << 781 */ + 0x547eb47b, /* 6: 1.0e-189 << 691 */ + 0x0cb4a5a3, /* 7: 1.0e-162 << 602 */ + 0x92f34d62, /* 8: 1.0e-135 << 512 */ + 0x3a6a07f9, /* 9: 1.0e-108 << 422 */ + 0xfae27299, /* 10: 1.0e-81 << 333 */ + 0xaa97e14c, /* 11: 1.0e-54 << 243 */ + 0x775ea265, /* 12: 1.0e-27 << 153 */ + 0xcccccccc, /* 13: 1.0e-1 << 67 (special case) */ + 0x00000000, /* 14: 1.0e+27 >> 26 */ + 0x999090b6, /* 15: 1.0e+54 >> 116 */ + 0x69a028bb, /* 16: 1.0e+81 >> 206 */ + 0xe80e6f48, /* 17: 1.0e+108 >> 295 */ + 0x5ec05dd0, /* 18: 1.0e+135 >> 385 */ + 0x14588f14, /* 19: 1.0e+162 >> 475 */ + 0x8f1668c9, /* 20: 1.0e+189 >> 564 */ + 0x6d953e2c, /* 21: 1.0e+216 >> 654 */ + 0x4abdaf10, /* 22: 1.0e+243 >> 744 */ + 0xbc633b39, /* 23: 1.0e+270 >> 833 */ + 0x0a862f81, /* 24: 1.0e+297 >> 923 */ + 0x6c07a2c2, /* 25: 1.0e+324 >> 1013 */ + }; + int g, n; + u64 s, x; + u32 lo; + + assert( p>=POWERSOF10_FIRST && p<=POWERSOF10_LAST ); + if( p<0 ){ + if( p==(-1) ){ + *pLo = aScaleLo[13]; + return aScale[13]; + } + g = p/27; + n = p%27; + if( n ){ + g--; + n += 27; + } + }else if( p<27 ){ + *pLo = 0; + return aBase[p]; + }else{ + g = p/27; + n = p%27; + } + s = aScale[g+13]; + if( n==0 ){ + *pLo = aScaleLo[g+13]; + return s; + } + x = sqlite3Multiply160(s,aScaleLo[g+13],aBase[n],&lo); + if( (U64_BIT(63) & x)==0 ){ + x = x<<1 | ((lo>>31)&1); + lo = (lo<<1) | 1; + } + *pLo = lo; + return x; +} + +/* +** pow10to2(x) computes floor(log2(pow(10,x))). +** pow2to10(y) computes floor(log10(pow(2,y))). +** +** Conceptually, pow10to2(p) converts a base-10 exponent p into +** a corresponding base-2 exponent, and pow2to10(e) converts a base-2 +** exponent into a base-10 exponent. ** -** If some prefix of the input string is a valid number, this routine -** returns FALSE but it still converts the prefix and writes the result -** into *pResult. +** The conversions are based on the observation that: +** +** ln(10.0)/ln(2.0) == 108853/32768 (approximately) +** ln(2.0)/ln(10.0) == 78913/262144 (approximately) +** +** These ratios are approximate, but they are accurate to 5 digits, +** which is close enough for the usage here. Right-shift is used +** for division so that rounding of negative numbers happens in the +** right direction. */ -#if defined(_MSC_VER) -#pragma warning(disable : 4756) -#endif -SQLITE_PRIVATE int sqlite3AtoF(const char *z, double *pResult, int length, u8 enc){ -#ifndef SQLITE_OMIT_FLOATING_POINT - int incr; - const char *zEnd; - /* sign * significand * (10 ^ (esign * exponent)) */ - int sign = 1; /* sign of significand */ - u64 s = 0; /* significand */ - int d = 0; /* adjust exponent for shifting decimal point */ - int esign = 1; /* sign of exponent */ - int e = 0; /* exponent */ - int eValid = 1; /* True exponent is either not used or is well-formed */ - int nDigit = 0; /* Number of digits processed */ - int eType = 1; /* 1: pure integer, 2+: fractional -1 or less: bad UTF16 */ - u64 s2; /* round-tripped significand */ - double rr[2]; +static int pwr10to2(int p){ return (p*108853) >> 15; } +static int pwr2to10(int p){ return (p*78913) >> 18; } - assert( enc==SQLITE_UTF8 || enc==SQLITE_UTF16LE || enc==SQLITE_UTF16BE ); - *pResult = 0.0; /* Default return value, in case of an error */ - if( length==0 ) return 0; +/* +** Count leading zeros for a 64-bit unsigned integer. +*/ +static int countLeadingZeros(u64 m){ +#if (defined(__GNUC__) || defined(__clang__)) \ + && !defined(SQLITE_DISABLE_INTRINSIC) + return __builtin_clzll(m); +#else + int n = 0; + if( m <= 0x00000000ffffffffULL) { n += 32; m <<= 32; } + if( m <= 0x0000ffffffffffffULL) { n += 16; m <<= 16; } + if( m <= 0x00ffffffffffffffULL) { n += 8; m <<= 8; } + if( m <= 0x0fffffffffffffffULL) { n += 4; m <<= 4; } + if( m <= 0x3fffffffffffffffULL) { n += 2; m <<= 2; } + if( m <= 0x7fffffffffffffffULL) { n += 1; } + return n; +#endif +} - if( enc==SQLITE_UTF8 ){ - incr = 1; - zEnd = z + length; +/* +** Given m and e, which represent a quantity r == m*pow(2,e), +** return values *pD and *pP such that r == (*pD)*pow(10,*pP), +** approximately. *pD should contain at least n significant digits. +** +** The input m is required to have its highest bit set. In other words, +** m should be left-shifted, and e decremented, to maximize the value of m. +*/ +static void sqlite3Fp2Convert10(u64 m, int e, int n, u64 *pD, int *pP){ + int p; + u64 h, d1; + u32 d2; + assert( n>=1 && n<=18 ); + p = n - 1 - pwr2to10(e+63); + h = sqlite3Multiply128(m, powerOfTen(p,&d2), &d1); + assert( -(e + pwr10to2(p) + 2) >= 0 ); + assert( -(e + pwr10to2(p) + 1) <= 63 ); + if( n==18 ){ + h >>= -(e + pwr10to2(p) + 2); + *pD = (h + ((h<<1)&2))>>1; }else{ - int i; - incr = 2; - length &= ~1; - assert( SQLITE_UTF16LE==2 && SQLITE_UTF16BE==3 ); - testcase( enc==SQLITE_UTF16LE ); - testcase( enc==SQLITE_UTF16BE ); - for(i=3-enc; i> -(e + pwr10to2(p) + 1); } + *pP = -p; +} - /* skip leading spaces */ - while( z=zEnd ) return 0; - - /* get sign of significand */ - if( *z=='-' ){ - sign = -1; - z+=incr; - }else if( *z=='+' ){ - z+=incr; - } +/* +** Return an IEEE754 floating point value that approximates d*pow(10,p). +** +** The (current) algorithm is adapted from the work of Ross Cox at +** https://github.com/rsc/fpfmt +*/ +static double sqlite3Fp10Convert2(u64 d, int p){ + int b, lp, e, adj, s; + u32 pwr10l, mid1; + u64 pwr10h, x, hi, lo, sticky, u, m; + double r; + if( pPOWERSOF10_LAST ) return INFINITY; + b = 64 - countLeadingZeros(d); + lp = pwr10to2(p); + e = 53 - b - lp; + if( e > 1074 ){ + if( e>=1130 ) return 0.0; + e = 1074; + } + s = -(e-(64-b) + lp + 3); + pwr10h = powerOfTen(p, &pwr10l); + if( pwr10l!=0 ){ + pwr10h++; + pwr10l = ~pwr10l; + } + x = d<<(64-b); + hi = sqlite3Multiply128(x,pwr10h,&lo); + mid1 = lo>>32; + sticky = 1; + if( (hi & (U64_BIT(s)-1))==0 ) { + u32 mid2 = sqlite3Multiply128(x,((u64)pwr10l)<<32,&lo)>>32; + sticky = (mid1-mid2 > 1); + hi -= mid1 < mid2; + } + u = (hi>>s) | sticky; + adj = (u >= U64_BIT(55)-2); + if( adj ){ + u = (u>>adj) | (u&1); + e -= adj; + } + m = (u + 1 + ((u>>2)&1)) >> 2; + if( e<=(-972) ) return INFINITY; + if((m & U64_BIT(52)) != 0){ + m = (m & ~U64_BIT(52)) | ((u64)(1075-e)<<52); + } + memcpy(&r,&m,8); + return r; +} - /* copy max significant digits to significand */ - while( z=((LARGEST_UINT64-9)/10) ){ - /* skip non-significant significand digits - ** (increase exponent by d to shift decimal left) */ - while( z Set if any prefix of the input is valid. Clear if +** there is no prefix of the input that can be seen as +** a valid floating point number. +** bit 1 => Set if the input contains a decimal point or eNNN +** clause. Zero if the input is an integer. +** bit 2 => The input is exactly 0.0, not an underflow from +** some value near zero. +** bit 3 => Set if there are more than about 19 significant +** digits in the input. +** +** If the input contains a syntax error but begins with text that might +** be a valid number of some kind, then the result is negative. The +** result is only zero if no prefix of the input could be interpreted as +** a number. +** +** Leading and trailing whitespace is ignored. Valid numbers are in +** one of the formats below: +** +** [+-]digits[E[+-]digits] +** [+-]digits.[digits][E[+-]digits] +** [+-].digits[E[+-]digits] +** +** Algorithm sketch: Compute an unsigned 64-bit integer s and a base-10 +** exponent d such that the value encoding by the input is s*pow(10,d). +** Then invoke sqlite3Fp10Convert2() to calculated the closest possible +** IEEE754 double. The sign is added back afterwards, if the input string +** starts with a "-". The use of an unsigned 64-bit s mantissa means that +** only about the first 19 significant digits of the input can contribute +** to the result. This can result in suboptimal rounding decisions when +** correct rounding requires more than 19 input digits. For example, +** this routine renders "3500000000000000.2500001" as +** 3500000000000000.0 instead of 3500000000000000.5 because the decision +** to round up instead of using banker's rounding to round down is determined +** by the 23rd significant digit, which this routine ignores. It is not +** possible to do better without some kind of BigNum. +*/ +SQLITE_PRIVATE int sqlite3AtoF(const char *zIn, double *pResult){ +#ifndef SQLITE_OMIT_FLOATING_POINT + const unsigned char *z = (const unsigned char*)zIn; + int neg = 0; /* True for a negative value */ + u64 s = 0; /* mantissa */ + int d = 0; /* Value is s * pow(10,d) */ + int mState = 0; /* 1: digit seen 2: fp 4: hard-zero */ + unsigned v; /* Value of a single digit */ + + start_of_text: + if( (v = (unsigned)z[0] - '0')<10 ){ + parse_integer_part: + mState = 1; + s = v; + z++; + while( (v = (unsigned)z[0] - '0')<10 ){ + s = s*10 + v; + z++; + if( s>=(LARGEST_UINT64-9)/10 ){ + mState = 9; + while( sqlite3Isdigit(z[0]) ){ z++; d++; } + break; + } } + }else if( z[0]=='-' ){ + neg = 1; + z++; + if( (v = (unsigned)z[0] - '0')<10 ) goto parse_integer_part; + }else if( z[0]=='+' ){ + z++; + if( (v = (unsigned)z[0] - '0')<10 ) goto parse_integer_part; + }else if( sqlite3Isspace(z[0]) ){ + do{ z++; }while( sqlite3Isspace(z[0]) ); + goto start_of_text; + }else{ + s = 0; } - if( z>=zEnd ) goto do_atof_calc; /* if decimal point is present */ if( *z=='.' ){ - z+=incr; - eType++; - /* copy digits from after decimal to significand - ** (decrease exponent by d to shift decimal right) */ - while( z=zEnd ) goto do_atof_calc; /* if exponent is present */ if( *z=='e' || *z=='E' ){ - z+=incr; - eValid = 0; - eType++; - - /* This branch is needed to avoid a (harmless) buffer overread. The - ** special comment alerts the mutation tester that the correct answer - ** is obtained even if the branch is omitted */ - if( z>=zEnd ) goto do_atof_calc; /*PREVENTS-HARMLESS-OVERREAD*/ + int esign; + z++; /* get sign of exponent */ if( *z=='-' ){ esign = -1; - z+=incr; - }else if( *z=='+' ){ - z+=incr; + z++; + }else{ + esign = +1; + if( *z=='+' ){ + z++; + } } /* copy digits to exponent */ - while( z0 && s<((LARGEST_UINT64-0x7ff)/10) ){ - s *= 10; - e--; - } - while( e<0 && (s%10)==0 ){ - s /= 10; - e++; - } - - rr[0] = (double)s; - assert( sizeof(s2)==sizeof(rr[0]) ); -#ifdef SQLITE_DEBUG - rr[1] = 18446744073709549568.0; - memcpy(&s2, &rr[1], sizeof(s2)); - assert( s2==0x43efffffffffffffLL ); -#endif - /* Largest double that can be safely converted to u64 - ** vvvvvvvvvvvvvvvvvvvvvv */ - if( rr[0]<=18446744073709549568.0 ){ - s2 = (u64)rr[0]; - rr[1] = s>=s2 ? (double)(s - s2) : -(double)(s2 - s); - }else{ - rr[1] = 0.0; - } - assert( rr[1]<=1.0e-10*rr[0] ); /* Equal only when rr[0]==0.0 */ - - if( e>0 ){ - while( e>=100 ){ - e -= 100; - dekkerMul2(rr, 1.0e+100, -1.5902891109759918046e+83); - } - while( e>=10 ){ - e -= 10; - dekkerMul2(rr, 1.0e+10, 0.0); - } - while( e>=1 ){ - e -= 1; - dekkerMul2(rr, 1.0e+01, 0.0); - } + *pResult = 0.0; + mState |= 4; }else{ - while( e<=-100 ){ - e += 100; - dekkerMul2(rr, 1.0e-100, -1.99918998026028836196e-117); - } - while( e<=-10 ){ - e += 10; - dekkerMul2(rr, 1.0e-10, -3.6432197315497741579e-27); - } - while( e<=-1 ){ - e += 1; - dekkerMul2(rr, 1.0e-01, -5.5511151231257827021e-18); - } + *pResult = sqlite3Fp10Convert2(s,d); } - *pResult = rr[0]+rr[1]; - if( sqlite3IsNaN(*pResult) ) *pResult = 1e300*1e300; - if( sign<0 ) *pResult = -*pResult; + if( neg ) *pResult = -*pResult; assert( !sqlite3IsNaN(*pResult) ); -atof_return: /* return true if number and no extra non-whitespace characters after */ - if( z==zEnd && nDigit>0 && eValid && eType>0 ){ - return eType; - }else if( eType>=2 && (eType==3 || eValid) && nDigit>0 ){ - return -1; - }else{ - return 0; + if( z[0]==0 ){ + return mState; + } + if( sqlite3Isspace(z[0]) ){ + do{ z++; }while( sqlite3Isspace(*z) ); + if( z[0]==0 ){ + return mState; + } } + return 0xfffffff0 | mState; #else - return !sqlite3Atoi64(z, pResult, length, enc); + return sqlite3Atoi64(z, pResult, strlen(z), SQLITE_UTF8)==0; #endif /* SQLITE_OMIT_FLOATING_POINT */ } -#if defined(_MSC_VER) -#pragma warning(default : 4756) + +/* +** Digit pairs used to convert a U64 or I64 into text, two digits +** at a time. +*/ +static const union { + char a[201]; + short int forceAlignment; +} sqlite3DigitPairs = { + "00010203040506070809" + "10111213141516171819" + "20212223242526272829" + "30313233343536373839" + "40414243444546474849" + "50515253545556575859" + "60616263646566676869" + "70717273747576777879" + "80818283848586878889" + "90919293949596979899" +}; + +/* +** ARMv6, ARMv7, PPC32 are known to not support hardware u64 division. +*/ +#if (defined(__arm__) && !defined(__aarch64__)) || \ + (defined(__ppc__) && !defined(__ppc64__)) +# define SQLITE_AVOID_U64_DIVIDE 1 #endif +#ifdef SQLITE_AVOID_U64_DIVIDE +/* +** Render an unsigned 64-bit integer as text onto the end of a 2-byte +** aligned buffer that is SQLITE_U64_DIGIT+1 bytes long. The last byte +** of the buffer will be filled with a \000 byte. +** +** Return the index into the buffer of the first byte. +** +** This routine is used on platforms where u64-division is slow because +** it is not available in hardware and has to be emulated in software. +** It seeks to minimize the number of u64 divisions and use u32 divisions +** instead. It is slower on platforms that have hardware u64 division, +** but much faster on platforms that do not. +*/ +static int sqlite3UInt64ToText(u64 v, char *zOut){ + u32 x32, kk; + int i; + zOut[SQLITE_U64_DIGITS] = 0; + i = SQLITE_U64_DIGITS; + assert( TWO_BYTE_ALIGNMENT(&sqlite3DigitPairs.a[0]) ); + assert( TWO_BYTE_ALIGNMENT(zOut) ); + while( (v>>32)!=0 ){ + u32 y, x0, x1, y0, y1; + x32 = v % 100000000; + v = v / 100000000; + y = x32 % 10000; + x32 /= 10000; + x1 = x32 / 100; + x0 = x32 % 100; + y1 = y / 100; + y0 = y % 100; + assert( i>=8 ); + i -= 8; + *(u16*)(&zOut[i]) = *(u16*)&sqlite3DigitPairs.a[x1*2]; + *(u16*)(&zOut[i+2]) = *(u16*)&sqlite3DigitPairs.a[x0*2]; + *(u16*)(&zOut[i+4]) = *(u16*)&sqlite3DigitPairs.a[y1*2]; + *(u16*)(&zOut[i+6]) = *(u16*)&sqlite3DigitPairs.a[y0*2]; + } + x32 = v; + while( x32>=10 ){ + kk = x32 % 100; + x32 = x32 / 100; + assert( TWO_BYTE_ALIGNMENT(&sqlite3DigitPairs.a[kk*2]) ); + assert( i>=2 ); + i -= 2; + assert( TWO_BYTE_ALIGNMENT(&zOut[i]) ); + *(u16*)(&zOut[i]) = *(u16*)&sqlite3DigitPairs.a[kk*2]; + } + if( x32 ){ + assert( i>0 ); + zOut[--i] = x32 + '0'; + } + return i; +} +#endif /* defined(SQLITE_AVOID_U64_DIVIDE) */ + /* ** Render an signed 64-bit integer as text. Store the result in zOut[] and ** return the length of the string that was stored, in bytes. The value @@ -36596,23 +37439,39 @@ SQLITE_PRIVATE int sqlite3AtoF(const char *z, double *pResult, int length, u8 en SQLITE_PRIVATE int sqlite3Int64ToText(i64 v, char *zOut){ int i; u64 x; - char zTemp[22]; - if( v<0 ){ - x = (v==SMALLEST_INT64) ? ((u64)1)<<63 : (u64)-v; - }else{ + union { + char a[SQLITE_U64_DIGITS+1]; + u16 forceAlignment; + } u; + if( v>0 ){ x = v; + }else if( v==0 ){ + zOut[0] = '0'; + zOut[1] = 0; + return 1; + }else{ + x = (v==SMALLEST_INT64) ? ((u64)1)<<63 : (u64)-v; } - i = sizeof(zTemp)-2; - zTemp[sizeof(zTemp)-1] = 0; - while( 1 /*exit-by-break*/ ){ - zTemp[i] = (x%10) + '0'; - x = x/10; - if( x==0 ) break; - i--; - }; - if( v<0 ) zTemp[--i] = '-'; - memcpy(zOut, &zTemp[i], sizeof(zTemp)-i); - return sizeof(zTemp)-1-i; +#ifdef SQLITE_AVOID_U64_DIVIDE + i = sqlite3UInt64ToText(x, u.a); +#else + i = sizeof(u.a)-1; + u.a[i] = 0; + while( x>=10 ){ + int kk = (x%100)*2; + assert( TWO_BYTE_ALIGNMENT(&sqlite3DigitPairs.a[kk]) ); + assert( TWO_BYTE_ALIGNMENT(&u.a[i-2]) ); + *(u16*)(&u.a[i-2]) = *(u16*)&sqlite3DigitPairs.a[kk]; + i -= 2; + x /= 100; + } + if( x ){ + u.a[--i] = x + '0'; + } +#endif /* SQLITE_AVOID_U64_DIVIDE */ + if( v<0 ) u.a[--i] = '-'; + memcpy(zOut, &u.a[i], sizeof(u.a)-i); + return sizeof(u.a)-1-i; } /* @@ -36666,8 +37525,8 @@ SQLITE_PRIVATE int sqlite3Atoi64(const char *zNum, i64 *pNum, int length, u8 enc int incr; u64 u = 0; int neg = 0; /* assume positive */ - int i; - int c = 0; + int i, j; + unsigned int c = 0; int nonNum = 0; /* True if input contains UTF16 with high byte non-zero */ int rc; /* Baseline return code */ const char *zStart; @@ -36695,8 +37554,8 @@ SQLITE_PRIVATE int sqlite3Atoi64(const char *zNum, i64 *pNum, int length, u8 enc } zStart = zNum; while( zNum='0' && c<='9'; i+=incr){ - u = u*10 + c - '0'; + for(i=0; &zNum[i]19*incr ? 1 : compare2pow63(zNum, incr); - if( c<0 ){ + j = i>19*incr ? 1 : compare2pow63(zNum, incr); + if( j<0 ){ /* zNum is less than 9223372036854775808 so it fits */ assert( u<=LARGEST_INT64 ); return rc; }else{ *pNum = neg ? SMALLEST_INT64 : LARGEST_INT64; - if( c>0 ){ + if( j>0 ){ /* zNum is greater than 9223372036854775808 so it overflows */ return 2; }else{ @@ -36869,7 +37728,7 @@ SQLITE_PRIVATE int sqlite3Atoi(const char *z){ ** representation. ** ** If iRound<=0 then round to -iRound significant digits to the -** the left of the decimal point, or to a maximum of mxRound total +** the right of the decimal point, or to a maximum of mxRound total ** significant digits. ** ** If iRound>0 round to min(iRound,mxRound) significant digits total. @@ -36882,13 +37741,14 @@ SQLITE_PRIVATE int sqlite3Atoi(const char *z){ ** The p->z[] array is *not* zero-terminated. */ SQLITE_PRIVATE void sqlite3FpDecode(FpDecode *p, double r, int iRound, int mxRound){ - int i; - u64 v; - int e, exp = 0; - double rr[2]; + int i; /* Index into zBuf[] where to put next character */ + int n; /* Number of digits */ + u64 v; /* mantissa */ + int e, exp = 0; /* Base-2 and base-10 exponent */ + char *zBuf; /* Local alias for p->zBuf */ + char *z; /* Local alias for p->z */ p->isSpecial = 0; - p->z = p->zBuf; assert( mxRound>0 ); /* Convert negative numbers to positive. Deal with Infinity, 0.0, and @@ -36906,78 +37766,100 @@ SQLITE_PRIVATE void sqlite3FpDecode(FpDecode *p, double r, int iRound, int mxRou p->sign = '+'; } memcpy(&v,&r,8); - e = v>>52; - if( (e&0x7ff)==0x7ff ){ + e = (v>>52)&0x7ff; + if( e==0x7ff ){ p->isSpecial = 1 + (v!=0x7ff0000000000000LL); p->n = 0; p->iDP = 0; + p->z = p->zBuf; return; } - - /* Multiply r by powers of ten until it lands somewhere in between - ** 1.0e+19 and 1.0e+17. - ** - ** Use Dekker-style double-double computation to increase the - ** precision. - ** - ** The error terms on constants like 1.0e+100 computed using the - ** decimal extension, for example as follows: - ** - ** SELECT decimal_exp(decimal_sub('1.0e+100',decimal(1.0e+100))); - */ - rr[0] = r; - rr[1] = 0.0; - if( rr[0]>9.223372036854774784e+18 ){ - while( rr[0]>9.223372036854774784e+118 ){ - exp += 100; - dekkerMul2(rr, 1.0e-100, -1.99918998026028836196e-117); - } - while( rr[0]>9.223372036854774784e+28 ){ - exp += 10; - dekkerMul2(rr, 1.0e-10, -3.6432197315497741579e-27); - } - while( rr[0]>9.223372036854774784e+18 ){ - exp += 1; - dekkerMul2(rr, 1.0e-01, -5.5511151231257827021e-18); - } + v &= 0x000fffffffffffffULL; + if( e==0 ){ + int nn = countLeadingZeros(v); + v <<= nn; + e = -1074 - nn; }else{ - while( rr[0]<9.223372036854774784e-83 ){ - exp -= 100; - dekkerMul2(rr, 1.0e+100, -1.5902891109759918046e+83); - } - while( rr[0]<9.223372036854774784e+07 ){ - exp -= 10; - dekkerMul2(rr, 1.0e+10, 0.0); - } - while( rr[0]<9.22337203685477478e+17 ){ - exp -= 1; - dekkerMul2(rr, 1.0e+01, 0.0); - } + v = (v<<11) | U64_BIT(63); + e -= 1086; } - v = rr[1]<0.0 ? (u64)rr[0]-(u64)(-rr[1]) : (u64)rr[0]+(u64)rr[1]; + sqlite3Fp2Convert10(v, e, (iRound<=0||iRound>=18)?18:iRound+1, &v, &exp); - /* Extract significant digits. */ - i = sizeof(p->zBuf)-1; + /* Extract significant digits, start at the right-most slot in p->zBuf + ** and working back to the right. "i" keeps track of the next slot in + ** which to store a digit. */ + assert( sizeof(p->zBuf)==SQLITE_U64_DIGITS+1 ); assert( v>0 ); - while( v ){ p->zBuf[i--] = (v%10) + '0'; v /= 10; } - assert( i>=0 && izBuf)-1 ); - p->n = sizeof(p->zBuf) - 1 - i; - assert( p->n>0 ); - assert( p->nzBuf) ); - p->iDP = p->n + exp; + zBuf = p->zBuf; +#ifdef SQLITE_AVOID_U64_DIVIDE + i = sqlite3UInt64ToText(v, zBuf); +#else + i = SQLITE_U64_DIGITS; + while( v>=10 ){ + int kk = (v%100)*2; + assert( TWO_BYTE_ALIGNMENT(&sqlite3DigitPairs.a[kk]) ); + assert( TWO_BYTE_ALIGNMENT(&zBuf[i]) ); + assert( i-2>=0 ); + *(u16*)(&zBuf[i-2]) = *(u16*)&sqlite3DigitPairs.a[kk]; + i -= 2; + v /= 100; + } + if( v ){ + assert( v<10 ); + assert( i>0 ); + zBuf[--i] = v + '0'; + } +#endif /* SQLITE_AVOID_U64_DIVIDE */ + assert( i>=0 && i0 ); + assert( n<=SQLITE_U64_DIGITS ); + p->iDP = n + exp; if( iRound<=0 ){ iRound = p->iDP - iRound; - if( iRound==0 && p->zBuf[i+1]>='5' ){ + if( iRound==0 && zBuf[i]>='5' ){ iRound = 1; - p->zBuf[i--] = '0'; - p->n++; + zBuf[--i] = '0'; + n++; p->iDP++; } } - if( iRound>0 && (iRoundn || p->n>mxRound) ){ - char *z = &p->zBuf[i+1]; + z = &zBuf[i]; /* z points to the first digit */ + if( iRound>0 && (iRoundmxRound) ){ if( iRound>mxRound ) iRound = mxRound; - p->n = iRound; + if( iRound==17 ){ + /* If the precision is exactly 17, which only happens with the "!" + ** flag (ex: "%!.17g") then try to reduce the precision if that + ** yields text that will round-trip to the original floating-point. + ** value. Thus, for exaple, 49.47 will render as 49.47, rather than + ** as 49.469999999999999. */ + if( z[15]=='9' && z[14]=='9' ){ + int jj, kk; + u64 v2; + for(jj=14; jj>0 && z[jj-1]=='9'; jj--){} + if( jj==0 ){ + v2 = 1; + }else{ + v2 = z[0] - '0'; + for(kk=1; kkiDP>=n || (z[15]=='0' && z[14]=='0' && z[13]=='0') ){ + int jj, kk; + u64 v2; + assert( z[0]!='0' ); + for(jj=13; z[jj-1]=='0'; jj--){} + v2 = z[0] - '0'; + for(kk=1; kk='5' ){ int j = iRound-1; while( 1 /*exit-by-break*/ ){ @@ -36985,8 +37867,9 @@ SQLITE_PRIVATE void sqlite3FpDecode(FpDecode *p, double r, int iRound, int mxRou if( z[j]<='9' ) break; z[j] = '0'; if( j==0 ){ - p->z[i--] = '1'; - p->n++; + z--; + z[0] = '1'; + n++; p->iDP++; break; }else{ @@ -36995,13 +37878,13 @@ SQLITE_PRIVATE void sqlite3FpDecode(FpDecode *p, double r, int iRound, int mxRou } } } - p->z = &p->zBuf[i+1]; - assert( i+p->n < sizeof(p->zBuf) ); - assert( p->n>0 ); - while( p->z[p->n-1]=='0' ){ - p->n--; - assert( p->n>0 ); + assert( n>0 ); + while( z[n-1]=='0' ){ + n--; + assert( n>0 ); } + p->n = n; + p->z = z; } /* @@ -38066,10 +38949,10 @@ SQLITE_PRIVATE const char *sqlite3OpcodeName(int i){ /* 44 */ "And" OpHelp("r[P3]=(r[P1] && r[P2])"), /* 45 */ "IdxLT" OpHelp("key=r[P3@P4]"), /* 46 */ "IdxGE" OpHelp("key=r[P3@P4]"), - /* 47 */ "RowSetRead" OpHelp("r[P3]=rowset(P1)"), - /* 48 */ "RowSetTest" OpHelp("if r[P3] in rowset(P1) goto P2"), - /* 49 */ "Program" OpHelp(""), - /* 50 */ "FkIfZero" OpHelp("if fkctr[P1]==0 goto P2"), + /* 47 */ "IFindKey" OpHelp(""), + /* 48 */ "RowSetRead" OpHelp("r[P3]=rowset(P1)"), + /* 49 */ "RowSetTest" OpHelp("if r[P3] in rowset(P1) goto P2"), + /* 50 */ "Program" OpHelp(""), /* 51 */ "IsNull" OpHelp("if r[P1]==NULL goto P2"), /* 52 */ "NotNull" OpHelp("if r[P1]!=NULL goto P2"), /* 53 */ "Ne" OpHelp("IF r[P3]!=r[P1]"), @@ -38079,49 +38962,49 @@ SQLITE_PRIVATE const char *sqlite3OpcodeName(int i){ /* 57 */ "Lt" OpHelp("IF r[P3]=r[P1]"), /* 59 */ "ElseEq" OpHelp(""), - /* 60 */ "IfPos" OpHelp("if r[P1]>0 then r[P1]-=P3, goto P2"), - /* 61 */ "IfNotZero" OpHelp("if r[P1]!=0 then r[P1]--, goto P2"), - /* 62 */ "DecrJumpZero" OpHelp("if (--r[P1])==0 goto P2"), - /* 63 */ "IncrVacuum" OpHelp(""), - /* 64 */ "VNext" OpHelp(""), - /* 65 */ "Filter" OpHelp("if key(P3@P4) not in filter(P1) goto P2"), - /* 66 */ "PureFunc" OpHelp("r[P3]=func(r[P2@NP])"), - /* 67 */ "Function" OpHelp("r[P3]=func(r[P2@NP])"), - /* 68 */ "Return" OpHelp(""), - /* 69 */ "EndCoroutine" OpHelp(""), - /* 70 */ "HaltIfNull" OpHelp("if r[P3]=null halt"), - /* 71 */ "Halt" OpHelp(""), - /* 72 */ "Integer" OpHelp("r[P2]=P1"), - /* 73 */ "Int64" OpHelp("r[P2]=P4"), - /* 74 */ "String" OpHelp("r[P2]='P4' (len=P1)"), - /* 75 */ "BeginSubrtn" OpHelp("r[P2]=NULL"), - /* 76 */ "Null" OpHelp("r[P2..P3]=NULL"), - /* 77 */ "SoftNull" OpHelp("r[P1]=NULL"), - /* 78 */ "Blob" OpHelp("r[P2]=P4 (len=P1)"), - /* 79 */ "Variable" OpHelp("r[P2]=parameter(P1)"), - /* 80 */ "Move" OpHelp("r[P2@P3]=r[P1@P3]"), - /* 81 */ "Copy" OpHelp("r[P2@P3+1]=r[P1@P3+1]"), - /* 82 */ "SCopy" OpHelp("r[P2]=r[P1]"), - /* 83 */ "IntCopy" OpHelp("r[P2]=r[P1]"), - /* 84 */ "FkCheck" OpHelp(""), - /* 85 */ "ResultRow" OpHelp("output=r[P1@P2]"), - /* 86 */ "CollSeq" OpHelp(""), - /* 87 */ "AddImm" OpHelp("r[P1]=r[P1]+P2"), - /* 88 */ "RealAffinity" OpHelp(""), - /* 89 */ "Cast" OpHelp("affinity(r[P1])"), - /* 90 */ "Permutation" OpHelp(""), - /* 91 */ "Compare" OpHelp("r[P1@P3] <-> r[P2@P3]"), - /* 92 */ "IsTrue" OpHelp("r[P2] = coalesce(r[P1]==TRUE,P3) ^ P4"), - /* 93 */ "ZeroOrNull" OpHelp("r[P2] = 0 OR NULL"), - /* 94 */ "Offset" OpHelp("r[P3] = sqlite_offset(P1)"), - /* 95 */ "Column" OpHelp("r[P3]=PX cursor P1 column P2"), - /* 96 */ "TypeCheck" OpHelp("typecheck(r[P1@P2])"), - /* 97 */ "Affinity" OpHelp("affinity(r[P1@P2])"), - /* 98 */ "MakeRecord" OpHelp("r[P3]=mkrec(r[P1@P2])"), - /* 99 */ "Count" OpHelp("r[P2]=count()"), - /* 100 */ "ReadCookie" OpHelp(""), - /* 101 */ "SetCookie" OpHelp(""), - /* 102 */ "ReopenIdx" OpHelp("root=P2 iDb=P3"), + /* 60 */ "FkIfZero" OpHelp("if fkctr[P1]==0 goto P2"), + /* 61 */ "IfPos" OpHelp("if r[P1]>0 then r[P1]-=P3, goto P2"), + /* 62 */ "IfNotZero" OpHelp("if r[P1]!=0 then r[P1]--, goto P2"), + /* 63 */ "DecrJumpZero" OpHelp("if (--r[P1])==0 goto P2"), + /* 64 */ "IncrVacuum" OpHelp(""), + /* 65 */ "VNext" OpHelp(""), + /* 66 */ "Filter" OpHelp("if key(P3@P4) not in filter(P1) goto P2"), + /* 67 */ "PureFunc" OpHelp("r[P3]=func(r[P2@NP])"), + /* 68 */ "Function" OpHelp("r[P3]=func(r[P2@NP])"), + /* 69 */ "Return" OpHelp(""), + /* 70 */ "EndCoroutine" OpHelp(""), + /* 71 */ "HaltIfNull" OpHelp("if r[P3]=null halt"), + /* 72 */ "Halt" OpHelp(""), + /* 73 */ "Integer" OpHelp("r[P2]=P1"), + /* 74 */ "Int64" OpHelp("r[P2]=P4"), + /* 75 */ "String" OpHelp("r[P2]='P4' (len=P1)"), + /* 76 */ "BeginSubrtn" OpHelp("r[P2]=NULL"), + /* 77 */ "Null" OpHelp("r[P2..P3]=NULL"), + /* 78 */ "SoftNull" OpHelp("r[P1]=NULL"), + /* 79 */ "Blob" OpHelp("r[P2]=P4 (len=P1)"), + /* 80 */ "Variable" OpHelp("r[P2]=parameter(P1)"), + /* 81 */ "Move" OpHelp("r[P2@P3]=r[P1@P3]"), + /* 82 */ "Copy" OpHelp("r[P2@P3+1]=r[P1@P3+1]"), + /* 83 */ "SCopy" OpHelp("r[P2]=r[P1]"), + /* 84 */ "IntCopy" OpHelp("r[P2]=r[P1]"), + /* 85 */ "FkCheck" OpHelp(""), + /* 86 */ "ResultRow" OpHelp("output=r[P1@P2]"), + /* 87 */ "CollSeq" OpHelp(""), + /* 88 */ "AddImm" OpHelp("r[P1]=r[P1]+P2"), + /* 89 */ "RealAffinity" OpHelp(""), + /* 90 */ "Cast" OpHelp("affinity(r[P1])"), + /* 91 */ "Permutation" OpHelp(""), + /* 92 */ "Compare" OpHelp("r[P1@P3] <-> r[P2@P3]"), + /* 93 */ "IsTrue" OpHelp("r[P2] = coalesce(r[P1]==TRUE,P3) ^ P4"), + /* 94 */ "ZeroOrNull" OpHelp("r[P2] = 0 OR NULL"), + /* 95 */ "Offset" OpHelp("r[P3] = sqlite_offset(P1)"), + /* 96 */ "Column" OpHelp("r[P3]=PX cursor P1 column P2"), + /* 97 */ "TypeCheck" OpHelp("typecheck(r[P1@P2])"), + /* 98 */ "Affinity" OpHelp("affinity(r[P1@P2])"), + /* 99 */ "MakeRecord" OpHelp("r[P3]=mkrec(r[P1@P2])"), + /* 100 */ "Count" OpHelp("r[P2]=count()"), + /* 101 */ "ReadCookie" OpHelp(""), + /* 102 */ "SetCookie" OpHelp(""), /* 103 */ "BitAnd" OpHelp("r[P3]=r[P1]&r[P2]"), /* 104 */ "BitOr" OpHelp("r[P3]=r[P1]|r[P2]"), /* 105 */ "ShiftLeft" OpHelp("r[P3]=r[P2]<0 then r[P2]=r[P1]+max(0,r[P3]) else r[P2]=(-1)"), - /* 162 */ "AggInverse" OpHelp("accum=r[P3] inverse(r[P2@P5])"), - /* 163 */ "AggStep" OpHelp("accum=r[P3] step(r[P2@P5])"), - /* 164 */ "AggStep1" OpHelp("accum=r[P3] step(r[P2@P5])"), - /* 165 */ "AggValue" OpHelp("r[P3]=value N=P2"), - /* 166 */ "AggFinal" OpHelp("accum=r[P1] N=P2"), - /* 167 */ "Expire" OpHelp(""), - /* 168 */ "CursorLock" OpHelp(""), - /* 169 */ "CursorUnlock" OpHelp(""), - /* 170 */ "TableLock" OpHelp("iDb=P1 root=P2 write=P3"), - /* 171 */ "VBegin" OpHelp(""), - /* 172 */ "VCreate" OpHelp(""), - /* 173 */ "VDestroy" OpHelp(""), - /* 174 */ "VOpen" OpHelp(""), - /* 175 */ "VCheck" OpHelp(""), - /* 176 */ "VInitIn" OpHelp("r[P2]=ValueList(P1,P3)"), - /* 177 */ "VColumn" OpHelp("r[P3]=vcolumn(P2)"), - /* 178 */ "VRename" OpHelp(""), - /* 179 */ "Pagecount" OpHelp(""), - /* 180 */ "MaxPgcnt" OpHelp(""), - /* 181 */ "ClrSubtype" OpHelp("r[P1].subtype = 0"), - /* 182 */ "GetSubtype" OpHelp("r[P2] = r[P1].subtype"), - /* 183 */ "SetSubtype" OpHelp("r[P2].subtype = r[P1]"), - /* 184 */ "FilterAdd" OpHelp("filter(P1) += key(P3@P4)"), - /* 185 */ "Trace" OpHelp(""), - /* 186 */ "CursorHint" OpHelp(""), - /* 187 */ "ReleaseReg" OpHelp("release r[P1@P2] mask P3"), - /* 188 */ "Noop" OpHelp(""), - /* 189 */ "Explain" OpHelp(""), - /* 190 */ "Abortable" OpHelp(""), + /* 155 */ "DropIndex" OpHelp(""), + /* 156 */ "DropTrigger" OpHelp(""), + /* 157 */ "IntegrityCk" OpHelp(""), + /* 158 */ "RowSetAdd" OpHelp("rowset(P1)=r[P2]"), + /* 159 */ "Param" OpHelp(""), + /* 160 */ "FkCounter" OpHelp("fkctr[P1]+=P2"), + /* 161 */ "MemMax" OpHelp("r[P1]=max(r[P1],r[P2])"), + /* 162 */ "OffsetLimit" OpHelp("if r[P1]>0 then r[P2]=r[P1]+max(0,r[P3]) else r[P2]=(-1)"), + /* 163 */ "AggInverse" OpHelp("accum=r[P3] inverse(r[P2@P5])"), + /* 164 */ "AggStep" OpHelp("accum=r[P3] step(r[P2@P5])"), + /* 165 */ "AggStep1" OpHelp("accum=r[P3] step(r[P2@P5])"), + /* 166 */ "AggValue" OpHelp("r[P3]=value N=P2"), + /* 167 */ "AggFinal" OpHelp("accum=r[P1] N=P2"), + /* 168 */ "Expire" OpHelp(""), + /* 169 */ "CursorLock" OpHelp(""), + /* 170 */ "CursorUnlock" OpHelp(""), + /* 171 */ "TableLock" OpHelp("iDb=P1 root=P2 write=P3"), + /* 172 */ "VBegin" OpHelp(""), + /* 173 */ "VCreate" OpHelp(""), + /* 174 */ "VDestroy" OpHelp(""), + /* 175 */ "VOpen" OpHelp(""), + /* 176 */ "VCheck" OpHelp(""), + /* 177 */ "VInitIn" OpHelp("r[P2]=ValueList(P1,P3)"), + /* 178 */ "VColumn" OpHelp("r[P3]=vcolumn(P2)"), + /* 179 */ "VRename" OpHelp(""), + /* 180 */ "Pagecount" OpHelp(""), + /* 181 */ "MaxPgcnt" OpHelp(""), + /* 182 */ "ClrSubtype" OpHelp("r[P1].subtype = 0"), + /* 183 */ "GetSubtype" OpHelp("r[P2] = r[P1].subtype"), + /* 184 */ "SetSubtype" OpHelp("r[P2].subtype = r[P1]"), + /* 185 */ "FilterAdd" OpHelp("filter(P1) += key(P3@P4)"), + /* 186 */ "Trace" OpHelp(""), + /* 187 */ "CursorHint" OpHelp(""), + /* 188 */ "ReleaseReg" OpHelp("release r[P1@P2] mask P3"), + /* 189 */ "Noop" OpHelp(""), + /* 190 */ "Explain" OpHelp(""), + /* 191 */ "Abortable" OpHelp(""), }; return azName[i]; } @@ -38240,7 +39124,7 @@ SQLITE_PRIVATE const char *sqlite3OpcodeName(int i){ ** Debugging logic */ -/* SQLITE_KV_TRACE() is used for tracing calls to kvstorage routines. */ +/* SQLITE_KV_TRACE() is used for tracing calls to kvrecord routines. */ #if 0 #define SQLITE_KV_TRACE(X) printf X #else @@ -38254,7 +39138,6 @@ SQLITE_PRIVATE const char *sqlite3OpcodeName(int i){ #define SQLITE_KV_LOG(X) #endif - /* ** Forward declaration of objects used by this VFS implementation */ @@ -38262,6 +39145,11 @@ typedef struct KVVfsFile KVVfsFile; /* A single open file. There are only two files represented by this ** VFS - the database and the rollback journal. +** +** Maintenance reminder: if this struct changes in any way, the JSON +** rendering of its structure must be updated in +** sqlite3-wasm.c:sqlite3__wasm_enum_json(). There are no binary +** compatibility concerns, so it does not need an iVersion member. */ struct KVVfsFile { sqlite3_file base; /* IO methods */ @@ -38311,7 +39199,7 @@ static int kvvfsCurrentTime(sqlite3_vfs*, double*); static int kvvfsCurrentTimeInt64(sqlite3_vfs*, sqlite3_int64*); static sqlite3_vfs sqlite3OsKvvfsObject = { - 1, /* iVersion */ + 2, /* iVersion */ sizeof(KVVfsFile), /* szOsFile */ 1024, /* mxPathname */ 0, /* pNext */ @@ -38387,23 +39275,37 @@ static sqlite3_io_methods kvvfs_jrnl_io_methods = { /* Forward declarations for the low-level storage engine */ -static int kvstorageWrite(const char*, const char *zKey, const char *zData); -static int kvstorageDelete(const char*, const char *zKey); -static int kvstorageRead(const char*, const char *zKey, char *zBuf, int nBuf); -#define KVSTORAGE_KEY_SZ 32 +#ifndef SQLITE_WASM +/* In WASM builds these are implemented in JS. */ +static int kvrecordWrite(const char*, const char *zKey, const char *zData); +static int kvrecordDelete(const char*, const char *zKey); +static int kvrecordRead(const char*, const char *zKey, char *zBuf, int nBuf); +#endif +#ifndef KVRECORD_KEY_SZ +#define KVRECORD_KEY_SZ 32 +#endif /* Expand the key name with an appropriate prefix and put the result ** in zKeyOut[]. The zKeyOut[] buffer is assumed to hold at least -** KVSTORAGE_KEY_SZ bytes. +** KVRECORD_KEY_SZ bytes. */ -static void kvstorageMakeKey( +static void kvrecordMakeKey( const char *zClass, const char *zKeyIn, char *zKeyOut ){ - sqlite3_snprintf(KVSTORAGE_KEY_SZ, zKeyOut, "kvvfs-%s-%s", zClass, zKeyIn); + assert( zKeyIn ); + assert( zKeyOut ); + assert( zClass ); + sqlite3_snprintf(KVRECORD_KEY_SZ, zKeyOut, "kvvfs-%s-%s", + zClass, zKeyIn); } +#ifndef SQLITE_WASM +/* In WASM builds do not define APIs which use fopen(), fwrite(), +** and the like because those APIs are a portability issue for +** WASM. +*/ /* Write content into a key. zClass is the particular namespace of the ** underlying key/value store to use - either "local" or "session". ** @@ -38411,14 +39313,14 @@ static void kvstorageMakeKey( ** ** Return the number of errors. */ -static int kvstorageWrite( +static int kvrecordWrite( const char *zClass, const char *zKey, const char *zData ){ FILE *fd; - char zXKey[KVSTORAGE_KEY_SZ]; - kvstorageMakeKey(zClass, zKey, zXKey); + char zXKey[KVRECORD_KEY_SZ]; + kvrecordMakeKey(zClass, zKey, zXKey); fd = fopen(zXKey, "wb"); if( fd ){ SQLITE_KV_TRACE(("KVVFS-WRITE %-15s (%d) %.50s%s\n", zXKey, @@ -38436,9 +39338,9 @@ static int kvstorageWrite( ** namespace given by zClass. If the key does not previously exist, ** this routine is a no-op. */ -static int kvstorageDelete(const char *zClass, const char *zKey){ - char zXKey[KVSTORAGE_KEY_SZ]; - kvstorageMakeKey(zClass, zKey, zXKey); +static int kvrecordDelete(const char *zClass, const char *zKey){ + char zXKey[KVRECORD_KEY_SZ]; + kvrecordMakeKey(zClass, zKey, zXKey); unlink(zXKey); SQLITE_KV_TRACE(("KVVFS-DELETE %-15s\n", zXKey)); return 0; @@ -38459,7 +39361,7 @@ static int kvstorageDelete(const char *zClass, const char *zKey){ ** zero-terminates zBuf at zBuf[0] and returns the size of the data ** without reading it. */ -static int kvstorageRead( +static int kvrecordRead( const char *zClass, const char *zKey, char *zBuf, @@ -38467,8 +39369,8 @@ static int kvstorageRead( ){ FILE *fd; struct stat buf; - char zXKey[KVSTORAGE_KEY_SZ]; - kvstorageMakeKey(zClass, zKey, zXKey); + char zXKey[KVRECORD_KEY_SZ]; + kvrecordMakeKey(zClass, zKey, zXKey); if( access(zXKey, R_OK)!=0 || stat(zXKey, &buf)!=0 || !S_ISREG(buf.st_mode) @@ -38500,6 +39402,8 @@ static int kvstorageRead( return (int)n; } } +#endif /* #ifndef SQLITE_WASM */ + /* ** An internal level of indirection which enables us to replace the @@ -38507,17 +39411,27 @@ static int kvstorageRead( ** Maintenance reminder: if this struct changes in any way, the JSON ** rendering of its structure must be updated in ** sqlite3-wasm.c:sqlite3__wasm_enum_json(). There are no binary -** compatibility concerns, so it does not need an iVersion -** member. +** compatibility concerns, so it does not need an iVersion member. */ typedef struct sqlite3_kvvfs_methods sqlite3_kvvfs_methods; struct sqlite3_kvvfs_methods { - int (*xRead)(const char *zClass, const char *zKey, char *zBuf, int nBuf); - int (*xWrite)(const char *zClass, const char *zKey, const char *zData); - int (*xDelete)(const char *zClass, const char *zKey); + int (*xRcrdRead)(const char*, const char *zKey, char *zBuf, int nBuf); + int (*xRcrdWrite)(const char*, const char *zKey, const char *zData); + int (*xRcrdDelete)(const char*, const char *zKey); const int nKeySize; + const int nBufferSize; +#ifndef SQLITE_WASM +# define MAYBE_CONST const +#else +# define MAYBE_CONST +#endif + MAYBE_CONST sqlite3_vfs * pVfs; + MAYBE_CONST sqlite3_io_methods *pIoDb; + MAYBE_CONST sqlite3_io_methods *pIoJrnl; +#undef MAYBE_CONST }; + /* ** This object holds the kvvfs I/O methods which may be swapped out ** for JavaScript-side implementations in WASM builds. In such builds @@ -38532,10 +39446,20 @@ struct sqlite3_kvvfs_methods { const #endif SQLITE_PRIVATE sqlite3_kvvfs_methods sqlite3KvvfsMethods = { -kvstorageRead, -kvstorageWrite, -kvstorageDelete, -KVSTORAGE_KEY_SZ +#ifndef SQLITE_WASM + .xRcrdRead = kvrecordRead, + .xRcrdWrite = kvrecordWrite, + .xRcrdDelete = kvrecordDelete, +#else + .xRcrdRead = 0, + .xRcrdWrite = 0, + .xRcrdDelete = 0, +#endif + .nKeySize = KVRECORD_KEY_SZ, + .nBufferSize = SQLITE_KVOS_SZ, + .pVfs = &sqlite3OsKvvfsObject, + .pIoDb = &kvvfs_db_io_methods, + .pIoJrnl = &kvvfs_jrnl_io_methods }; /****** Utility subroutines ************************************************/ @@ -38562,7 +39486,10 @@ KVSTORAGE_KEY_SZ ** of hexadecimal and base-26 numbers, it is always clear where ** one stops and the next begins. */ -static int kvvfsEncode(const char *aData, int nData, char *aOut){ +#ifndef SQLITE_WASM +static +#endif +int kvvfsEncode(const char *aData, int nData, char *aOut){ int i, j; const unsigned char *a = (const unsigned char*)aData; for(i=j=0; izClass, "sz", zData, sizeof(zData)-1); + sqlite3KvvfsMethods.xRcrdRead(pFile->zClass, "sz", zData, + sizeof(zData)-1); return strtoll(zData, 0, 0); } static int kvvfsWriteFileSize(KVVfsFile *pFile, sqlite3_int64 sz){ char zData[50]; sqlite3_snprintf(sizeof(zData), zData, "%lld", sz); - return sqlite3KvvfsMethods.xWrite(pFile->zClass, "sz", zData); + return sqlite3KvvfsMethods.xRcrdWrite(pFile->zClass, "sz", zData); } /****** sqlite3_io_methods methods ******************************************/ @@ -38714,6 +39646,9 @@ static int kvvfsClose(sqlite3_file *pProtoFile){ pFile->isJournal ? "journal" : "db")); sqlite3_free(pFile->aJrnl); sqlite3_free(pFile->aData); +#ifdef SQLITE_WASM + memset(pFile, 0, sizeof(*pFile)); +#endif return SQLITE_OK; } @@ -38730,16 +39665,22 @@ static int kvvfsReadJrnl( assert( pFile->isJournal ); SQLITE_KV_LOG(("xRead('%s-journal',%d,%lld)\n", pFile->zClass, iAmt, iOfst)); if( pFile->aJrnl==0 ){ - int szTxt = kvstorageRead(pFile->zClass, "jrnl", 0, 0); + int rc; + int szTxt = sqlite3KvvfsMethods.xRcrdRead(pFile->zClass, "jrnl", + 0, 0); char *aTxt; if( szTxt<=4 ){ return SQLITE_IOERR; } aTxt = sqlite3_malloc64( szTxt+1 ); if( aTxt==0 ) return SQLITE_NOMEM; - kvstorageRead(pFile->zClass, "jrnl", aTxt, szTxt+1); - kvvfsDecodeJournal(pFile, aTxt, szTxt); + rc = sqlite3KvvfsMethods.xRcrdRead(pFile->zClass, "jrnl", + aTxt, szTxt+1); + if( rc>=0 ){ + kvvfsDecodeJournal(pFile, aTxt, szTxt); + } sqlite3_free(aTxt); + if( rc ) return rc; if( pFile->aJrnl==0 ) return SQLITE_IOERR; } if( iOfst+iAmt>pFile->nJrnl ){ @@ -38779,8 +39720,8 @@ static int kvvfsReadDb( pgno = 1; } sqlite3_snprintf(sizeof(zKey), zKey, "%u", pgno); - got = sqlite3KvvfsMethods.xRead(pFile->zClass, zKey, - aData, SQLITE_KVOS_SZ-1); + got = sqlite3KvvfsMethods.xRcrdRead(pFile->zClass, zKey, + aData, SQLITE_KVOS_SZ-1); if( got<0 ){ n = 0; }else{ @@ -38848,6 +39789,7 @@ static int kvvfsWriteDb( unsigned int pgno; char zKey[30]; char *aData = pFile->aData; + int rc; SQLITE_KV_LOG(("xWrite('%s-db',%d,%lld)\n", pFile->zClass, iAmt, iOfst)); assert( iAmt>=512 && iAmt<=65536 ); assert( (iAmt & (iAmt-1))==0 ); @@ -38856,13 +39798,13 @@ static int kvvfsWriteDb( pgno = 1 + iOfst/iAmt; sqlite3_snprintf(sizeof(zKey), zKey, "%u", pgno); kvvfsEncode(zBuf, iAmt, aData); - if( sqlite3KvvfsMethods.xWrite(pFile->zClass, zKey, aData) ){ - return SQLITE_IOERR; - } - if( iOfst+iAmt > pFile->szDb ){ - pFile->szDb = iOfst + iAmt; + rc = sqlite3KvvfsMethods.xRcrdWrite(pFile->zClass, zKey, aData); + if( 0==rc ){ + if( iOfst+iAmt > pFile->szDb ){ + pFile->szDb = iOfst + iAmt; + } } - return SQLITE_OK; + return rc; } /* @@ -38872,7 +39814,7 @@ static int kvvfsTruncateJrnl(sqlite3_file *pProtoFile, sqlite_int64 size){ KVVfsFile *pFile = (KVVfsFile *)pProtoFile; SQLITE_KV_LOG(("xTruncate('%s-journal',%lld)\n", pFile->zClass, size)); assert( size==0 ); - sqlite3KvvfsMethods.xDelete(pFile->zClass, "jrnl"); + sqlite3KvvfsMethods.xRcrdDelete(pFile->zClass, "jrnl"); sqlite3_free(pFile->aJrnl); pFile->aJrnl = 0; pFile->nJrnl = 0; @@ -38891,7 +39833,7 @@ static int kvvfsTruncateDb(sqlite3_file *pProtoFile, sqlite_int64 size){ pgnoMax = 2 + pFile->szDb/pFile->szPage; while( pgno<=pgnoMax ){ sqlite3_snprintf(sizeof(zKey), zKey, "%u", pgno); - sqlite3KvvfsMethods.xDelete(pFile->zClass, zKey); + sqlite3KvvfsMethods.xRcrdDelete(pFile->zClass, zKey); pgno++; } pFile->szDb = size; @@ -38923,7 +39865,7 @@ static int kvvfsSyncJrnl(sqlite3_file *pProtoFile, int flags){ }while( n>0 ); zOut[i++] = ' '; kvvfsEncode(pFile->aJrnl, pFile->nJrnl, &zOut[i]); - i = sqlite3KvvfsMethods.xWrite(pFile->zClass, "jrnl", zOut); + i = sqlite3KvvfsMethods.xRcrdWrite(pFile->zClass, "jrnl", zOut); sqlite3_free(zOut); return i ? SQLITE_IOERR : SQLITE_OK; } @@ -39037,33 +39979,32 @@ static int kvvfsOpen( KVVfsFile *pFile = (KVVfsFile*)pProtoFile; if( zName==0 ) zName = ""; SQLITE_KV_LOG(("xOpen(\"%s\")\n", zName)); - if( strcmp(zName, "local")==0 - || strcmp(zName, "session")==0 - ){ - pFile->isJournal = 0; - pFile->base.pMethods = &kvvfs_db_io_methods; - }else - if( strcmp(zName, "local-journal")==0 - || strcmp(zName, "session-journal")==0 - ){ + assert(!pFile->zClass); + assert(!pFile->aData); + assert(!pFile->aJrnl); + assert(!pFile->nJrnl); + assert(!pFile->base.pMethods); + pFile->szPage = -1; + pFile->szDb = -1; + if( 0==sqlite3_strglob("*-journal", zName) ){ pFile->isJournal = 1; pFile->base.pMethods = &kvvfs_jrnl_io_methods; + if( 0==strcmp("session-journal",zName) ){ + pFile->zClass = "session"; + }else if( 0==strcmp("local-journal",zName) ){ + pFile->zClass = "local"; + } }else{ - return SQLITE_CANTOPEN; + pFile->isJournal = 0; + pFile->base.pMethods = &kvvfs_db_io_methods; } - if( zName[0]=='s' ){ - pFile->zClass = "session"; - }else{ - pFile->zClass = "local"; + if( !pFile->zClass ){ + pFile->zClass = zName; } pFile->aData = sqlite3_malloc64(SQLITE_KVOS_SZ); if( pFile->aData==0 ){ return SQLITE_NOMEM; } - pFile->aJrnl = 0; - pFile->nJrnl = 0; - pFile->szPage = -1; - pFile->szDb = -1; return SQLITE_OK; } @@ -39073,13 +40014,17 @@ static int kvvfsOpen( ** returning. */ static int kvvfsDelete(sqlite3_vfs *pVfs, const char *zPath, int dirSync){ + int rc /* The JS impl can fail with OOM in argument conversion */; if( strcmp(zPath, "local-journal")==0 ){ - sqlite3KvvfsMethods.xDelete("local", "jrnl"); + rc = sqlite3KvvfsMethods.xRcrdDelete("local", "jrnl"); }else if( strcmp(zPath, "session-journal")==0 ){ - sqlite3KvvfsMethods.xDelete("session", "jrnl"); + rc = sqlite3KvvfsMethods.xRcrdDelete("session", "jrnl"); } - return SQLITE_OK; + else{ + rc = 0; + } + return rc; } /* @@ -39093,21 +40038,42 @@ static int kvvfsAccess( int *pResOut ){ SQLITE_KV_LOG(("xAccess(\"%s\")\n", zPath)); +#if 0 && defined(SQLITE_WASM) + /* + ** This is not having the desired effect in the JS bindings. + ** It's ostensibly the same logic as the #else block, but + ** it's not behaving that way. + ** + ** In JS we map all zPaths to Storage objects, and -journal files + ** are mapped to the storage for the main db (which is is exactly + ** what the mapping of "local-journal" -> "local" is doing). + */ + const char *zKey = (0==sqlite3_strglob("*-journal", zPath)) + ? "jrnl" : "sz"; + *pResOut = + sqlite3KvvfsMethods.xRcrdRead(zPath, zKey, 0, 0)>0; +#else if( strcmp(zPath, "local-journal")==0 ){ - *pResOut = sqlite3KvvfsMethods.xRead("local", "jrnl", 0, 0)>0; + *pResOut = + sqlite3KvvfsMethods.xRcrdRead("local", "jrnl", 0, 0)>0; }else if( strcmp(zPath, "session-journal")==0 ){ - *pResOut = sqlite3KvvfsMethods.xRead("session", "jrnl", 0, 0)>0; + *pResOut = + sqlite3KvvfsMethods.xRcrdRead("session", "jrnl", 0, 0)>0; }else if( strcmp(zPath, "local")==0 ){ - *pResOut = sqlite3KvvfsMethods.xRead("local", "sz", 0, 0)>0; + *pResOut = + sqlite3KvvfsMethods.xRcrdRead("local", "sz", 0, 0)>0; }else if( strcmp(zPath, "session")==0 ){ - *pResOut = sqlite3KvvfsMethods.xRead("session", "sz", 0, 0)>0; + *pResOut = + sqlite3KvvfsMethods.xRcrdRead("session", "sz", 0, 0)>0; }else { *pResOut = 0; } + /*all current JS tests avoid triggering: assert( *pResOut == 0 ); */ +#endif SQLITE_KV_LOG(("xAccess returns %d\n",*pResOut)); return SQLITE_OK; } @@ -44391,7 +45357,7 @@ static int unixShmMap( } /* Map the requested memory region into this processes address space. */ - apNew = (char **)sqlite3_realloc( + apNew = (char **)sqlite3_realloc64( pShmNode->apRegion, nReqRegion*sizeof(char *) ); if( !apNew ){ @@ -47836,7 +48802,7 @@ SQLITE_API int sqlite3_os_end(void){ ** Are most of the Win32 ANSI APIs available (i.e. with certain exceptions ** based on the sub-platform)? */ -#if !SQLITE_OS_WINCE && !SQLITE_OS_WINRT && !defined(SQLITE_WIN32_NO_ANSI) +#if !SQLITE_OS_WINCE && !defined(SQLITE_WIN32_NO_ANSI) # define SQLITE_WIN32_HAS_ANSI #endif @@ -47844,7 +48810,7 @@ SQLITE_API int sqlite3_os_end(void){ ** Are most of the Win32 Unicode APIs available (i.e. with certain exceptions ** based on the sub-platform)? */ -#if (SQLITE_OS_WINCE || SQLITE_OS_WINNT || SQLITE_OS_WINRT) && \ +#if (SQLITE_OS_WINCE || SQLITE_OS_WINNT) && \ !defined(SQLITE_WIN32_NO_WIDE) # define SQLITE_WIN32_HAS_WIDE #endif @@ -47983,16 +48949,7 @@ SQLITE_API int sqlite3_os_end(void){ */ #if SQLITE_WIN32_FILEMAPPING_API && \ (!defined(SQLITE_OMIT_WAL) || SQLITE_MAX_MMAP_SIZE>0) -/* -** Two of the file mapping APIs are different under WinRT. Figure out which -** set we need. -*/ -#if SQLITE_OS_WINRT -WINBASEAPI HANDLE WINAPI CreateFileMappingFromApp(HANDLE, \ - LPSECURITY_ATTRIBUTES, ULONG, ULONG64, LPCWSTR); -WINBASEAPI LPVOID WINAPI MapViewOfFileFromApp(HANDLE, ULONG, ULONG64, SIZE_T); -#else #if defined(SQLITE_WIN32_HAS_ANSI) WINBASEAPI HANDLE WINAPI CreateFileMappingA(HANDLE, LPSECURITY_ATTRIBUTES, \ DWORD, DWORD, DWORD, LPCSTR); @@ -48004,7 +48961,6 @@ WINBASEAPI HANDLE WINAPI CreateFileMappingW(HANDLE, LPSECURITY_ATTRIBUTES, \ #endif /* defined(SQLITE_WIN32_HAS_WIDE) */ WINBASEAPI LPVOID WINAPI MapViewOfFile(HANDLE, DWORD, DWORD, DWORD, SIZE_T); -#endif /* SQLITE_OS_WINRT */ /* ** These file mapping APIs are common to both Win32 and WinRT. @@ -48295,7 +49251,7 @@ static LONG SQLITE_WIN32_VOLATILE sqlite3_os_type = 0; ** This function is not available on Windows CE or WinRT. */ -#if SQLITE_OS_WINCE || SQLITE_OS_WINRT +#if SQLITE_OS_WINCE # define osAreFileApisANSI() 1 #endif @@ -48310,7 +49266,7 @@ static struct win_syscall { sqlite3_syscall_ptr pCurrent; /* Current value of the system call */ sqlite3_syscall_ptr pDefault; /* Default value */ } aSyscall[] = { -#if !SQLITE_OS_WINCE && !SQLITE_OS_WINRT +#if !SQLITE_OS_WINCE { "AreFileApisANSI", (SYSCALL)AreFileApisANSI, 0 }, #else { "AreFileApisANSI", (SYSCALL)0, 0 }, @@ -48349,7 +49305,7 @@ static struct win_syscall { #define osCreateFileA ((HANDLE(WINAPI*)(LPCSTR,DWORD,DWORD, \ LPSECURITY_ATTRIBUTES,DWORD,DWORD,HANDLE))aSyscall[4].pCurrent) -#if !SQLITE_OS_WINRT && defined(SQLITE_WIN32_HAS_WIDE) +#if defined(SQLITE_WIN32_HAS_WIDE) { "CreateFileW", (SYSCALL)CreateFileW, 0 }, #else { "CreateFileW", (SYSCALL)0, 0 }, @@ -48358,7 +49314,7 @@ static struct win_syscall { #define osCreateFileW ((HANDLE(WINAPI*)(LPCWSTR,DWORD,DWORD, \ LPSECURITY_ATTRIBUTES,DWORD,DWORD,HANDLE))aSyscall[5].pCurrent) -#if !SQLITE_OS_WINRT && defined(SQLITE_WIN32_HAS_ANSI) && \ +#if defined(SQLITE_WIN32_HAS_ANSI) && \ (!defined(SQLITE_OMIT_WAL) || SQLITE_MAX_MMAP_SIZE>0) && \ SQLITE_WIN32_CREATEFILEMAPPINGA { "CreateFileMappingA", (SYSCALL)CreateFileMappingA, 0 }, @@ -48369,8 +49325,8 @@ static struct win_syscall { #define osCreateFileMappingA ((HANDLE(WINAPI*)(HANDLE,LPSECURITY_ATTRIBUTES, \ DWORD,DWORD,DWORD,LPCSTR))aSyscall[6].pCurrent) -#if SQLITE_OS_WINCE || (!SQLITE_OS_WINRT && defined(SQLITE_WIN32_HAS_WIDE) && \ - (!defined(SQLITE_OMIT_WAL) || SQLITE_MAX_MMAP_SIZE>0)) +#if (SQLITE_OS_WINCE || defined(SQLITE_WIN32_HAS_WIDE)) && \ + (!defined(SQLITE_OMIT_WAL) || SQLITE_MAX_MMAP_SIZE>0) { "CreateFileMappingW", (SYSCALL)CreateFileMappingW, 0 }, #else { "CreateFileMappingW", (SYSCALL)0, 0 }, @@ -48379,7 +49335,7 @@ static struct win_syscall { #define osCreateFileMappingW ((HANDLE(WINAPI*)(HANDLE,LPSECURITY_ATTRIBUTES, \ DWORD,DWORD,DWORD,LPCWSTR))aSyscall[7].pCurrent) -#if !SQLITE_OS_WINRT && defined(SQLITE_WIN32_HAS_WIDE) +#if defined(SQLITE_WIN32_HAS_WIDE) { "CreateMutexW", (SYSCALL)CreateMutexW, 0 }, #else { "CreateMutexW", (SYSCALL)0, 0 }, @@ -48465,7 +49421,7 @@ static struct win_syscall { #define osGetDiskFreeSpaceA ((BOOL(WINAPI*)(LPCSTR,LPDWORD,LPDWORD,LPDWORD, \ LPDWORD))aSyscall[18].pCurrent) -#if !SQLITE_OS_WINCE && !SQLITE_OS_WINRT && defined(SQLITE_WIN32_HAS_WIDE) +#if !SQLITE_OS_WINCE && defined(SQLITE_WIN32_HAS_WIDE) { "GetDiskFreeSpaceW", (SYSCALL)GetDiskFreeSpaceW, 0 }, #else { "GetDiskFreeSpaceW", (SYSCALL)0, 0 }, @@ -48482,7 +49438,7 @@ static struct win_syscall { #define osGetFileAttributesA ((DWORD(WINAPI*)(LPCSTR))aSyscall[20].pCurrent) -#if !SQLITE_OS_WINRT && defined(SQLITE_WIN32_HAS_WIDE) +#if defined(SQLITE_WIN32_HAS_WIDE) { "GetFileAttributesW", (SYSCALL)GetFileAttributesW, 0 }, #else { "GetFileAttributesW", (SYSCALL)0, 0 }, @@ -48499,11 +49455,7 @@ static struct win_syscall { #define osGetFileAttributesExW ((BOOL(WINAPI*)(LPCWSTR,GET_FILEEX_INFO_LEVELS, \ LPVOID))aSyscall[22].pCurrent) -#if !SQLITE_OS_WINRT { "GetFileSize", (SYSCALL)GetFileSize, 0 }, -#else - { "GetFileSize", (SYSCALL)0, 0 }, -#endif #define osGetFileSize ((DWORD(WINAPI*)(HANDLE,LPDWORD))aSyscall[23].pCurrent) @@ -48516,7 +49468,7 @@ static struct win_syscall { #define osGetFullPathNameA ((DWORD(WINAPI*)(LPCSTR,DWORD,LPSTR, \ LPSTR*))aSyscall[24].pCurrent) -#if !SQLITE_OS_WINCE && !SQLITE_OS_WINRT && defined(SQLITE_WIN32_HAS_WIDE) +#if !SQLITE_OS_WINCE && defined(SQLITE_WIN32_HAS_WIDE) { "GetFullPathNameW", (SYSCALL)GetFullPathNameW, 0 }, #else { "GetFullPathNameW", (SYSCALL)0, 0 }, @@ -48551,16 +49503,10 @@ static struct win_syscall { #define osGetProcAddressA ((FARPROC(WINAPI*)(HMODULE, \ LPCSTR))aSyscall[27].pCurrent) -#if !SQLITE_OS_WINRT { "GetSystemInfo", (SYSCALL)GetSystemInfo, 0 }, -#else - { "GetSystemInfo", (SYSCALL)0, 0 }, -#endif - #define osGetSystemInfo ((VOID(WINAPI*)(LPSYSTEM_INFO))aSyscall[28].pCurrent) { "GetSystemTime", (SYSCALL)GetSystemTime, 0 }, - #define osGetSystemTime ((VOID(WINAPI*)(LPSYSTEMTIME))aSyscall[29].pCurrent) #if !SQLITE_OS_WINCE @@ -48580,7 +49526,7 @@ static struct win_syscall { #define osGetTempPathA ((DWORD(WINAPI*)(DWORD,LPSTR))aSyscall[31].pCurrent) -#if !SQLITE_OS_WINRT && defined(SQLITE_WIN32_HAS_WIDE) +#if defined(SQLITE_WIN32_HAS_WIDE) { "GetTempPathW", (SYSCALL)GetTempPathW, 0 }, #else { "GetTempPathW", (SYSCALL)0, 0 }, @@ -48588,11 +49534,7 @@ static struct win_syscall { #define osGetTempPathW ((DWORD(WINAPI*)(DWORD,LPWSTR))aSyscall[32].pCurrent) -#if !SQLITE_OS_WINRT { "GetTickCount", (SYSCALL)GetTickCount, 0 }, -#else - { "GetTickCount", (SYSCALL)0, 0 }, -#endif #define osGetTickCount ((DWORD(WINAPI*)(VOID))aSyscall[33].pCurrent) @@ -48605,7 +49547,7 @@ static struct win_syscall { #define osGetVersionExA ((BOOL(WINAPI*)( \ LPOSVERSIONINFOA))aSyscall[34].pCurrent) -#if !SQLITE_OS_WINRT && defined(SQLITE_WIN32_HAS_WIDE) && \ +#if defined(SQLITE_WIN32_HAS_WIDE) && \ SQLITE_WIN32_GETVERSIONEX { "GetVersionExW", (SYSCALL)GetVersionExW, 0 }, #else @@ -48620,20 +49562,12 @@ static struct win_syscall { #define osHeapAlloc ((LPVOID(WINAPI*)(HANDLE,DWORD, \ SIZE_T))aSyscall[36].pCurrent) -#if !SQLITE_OS_WINRT { "HeapCreate", (SYSCALL)HeapCreate, 0 }, -#else - { "HeapCreate", (SYSCALL)0, 0 }, -#endif #define osHeapCreate ((HANDLE(WINAPI*)(DWORD,SIZE_T, \ SIZE_T))aSyscall[37].pCurrent) -#if !SQLITE_OS_WINRT { "HeapDestroy", (SYSCALL)HeapDestroy, 0 }, -#else - { "HeapDestroy", (SYSCALL)0, 0 }, -#endif #define osHeapDestroy ((BOOL(WINAPI*)(HANDLE))aSyscall[38].pCurrent) @@ -48651,16 +49585,12 @@ static struct win_syscall { #define osHeapSize ((SIZE_T(WINAPI*)(HANDLE,DWORD, \ LPCVOID))aSyscall[41].pCurrent) -#if !SQLITE_OS_WINRT { "HeapValidate", (SYSCALL)HeapValidate, 0 }, -#else - { "HeapValidate", (SYSCALL)0, 0 }, -#endif #define osHeapValidate ((BOOL(WINAPI*)(HANDLE,DWORD, \ LPCVOID))aSyscall[42].pCurrent) -#if !SQLITE_OS_WINCE && !SQLITE_OS_WINRT +#if !SQLITE_OS_WINCE { "HeapCompact", (SYSCALL)HeapCompact, 0 }, #else { "HeapCompact", (SYSCALL)0, 0 }, @@ -48676,7 +49606,7 @@ static struct win_syscall { #define osLoadLibraryA ((HMODULE(WINAPI*)(LPCSTR))aSyscall[44].pCurrent) -#if !SQLITE_OS_WINRT && defined(SQLITE_WIN32_HAS_WIDE) && \ +#if defined(SQLITE_WIN32_HAS_WIDE) && \ !defined(SQLITE_OMIT_LOAD_EXTENSION) { "LoadLibraryW", (SYSCALL)LoadLibraryW, 0 }, #else @@ -48685,15 +49615,11 @@ static struct win_syscall { #define osLoadLibraryW ((HMODULE(WINAPI*)(LPCWSTR))aSyscall[45].pCurrent) -#if !SQLITE_OS_WINRT { "LocalFree", (SYSCALL)LocalFree, 0 }, -#else - { "LocalFree", (SYSCALL)0, 0 }, -#endif #define osLocalFree ((HLOCAL(WINAPI*)(HLOCAL))aSyscall[46].pCurrent) -#if !SQLITE_OS_WINCE && !SQLITE_OS_WINRT +#if !SQLITE_OS_WINCE { "LockFile", (SYSCALL)LockFile, 0 }, #else { "LockFile", (SYSCALL)0, 0 }, @@ -48715,8 +49641,7 @@ static struct win_syscall { LPOVERLAPPED))aSyscall[48].pCurrent) #endif -#if SQLITE_OS_WINCE || (!SQLITE_OS_WINRT && \ - (!defined(SQLITE_OMIT_WAL) || SQLITE_MAX_MMAP_SIZE>0)) +#if SQLITE_OS_WINCE || !defined(SQLITE_OMIT_WAL) || SQLITE_MAX_MMAP_SIZE>0 { "MapViewOfFile", (SYSCALL)MapViewOfFile, 0 }, #else { "MapViewOfFile", (SYSCALL)0, 0 }, @@ -48744,20 +49669,12 @@ static struct win_syscall { #define osSetEndOfFile ((BOOL(WINAPI*)(HANDLE))aSyscall[53].pCurrent) -#if !SQLITE_OS_WINRT { "SetFilePointer", (SYSCALL)SetFilePointer, 0 }, -#else - { "SetFilePointer", (SYSCALL)0, 0 }, -#endif #define osSetFilePointer ((DWORD(WINAPI*)(HANDLE,LONG,PLONG, \ DWORD))aSyscall[54].pCurrent) -#if !SQLITE_OS_WINRT { "Sleep", (SYSCALL)Sleep, 0 }, -#else - { "Sleep", (SYSCALL)0, 0 }, -#endif #define osSleep ((VOID(WINAPI*)(DWORD))aSyscall[55].pCurrent) @@ -48766,7 +49683,7 @@ static struct win_syscall { #define osSystemTimeToFileTime ((BOOL(WINAPI*)(const SYSTEMTIME*, \ LPFILETIME))aSyscall[56].pCurrent) -#if !SQLITE_OS_WINCE && !SQLITE_OS_WINRT +#if !SQLITE_OS_WINCE { "UnlockFile", (SYSCALL)UnlockFile, 0 }, #else { "UnlockFile", (SYSCALL)0, 0 }, @@ -48804,15 +49721,6 @@ static struct win_syscall { #define osWriteFile ((BOOL(WINAPI*)(HANDLE,LPCVOID,DWORD,LPDWORD, \ LPOVERLAPPED))aSyscall[61].pCurrent) -#if SQLITE_OS_WINRT - { "CreateEventExW", (SYSCALL)CreateEventExW, 0 }, -#else - { "CreateEventExW", (SYSCALL)0, 0 }, -#endif - -#define osCreateEventExW ((HANDLE(WINAPI*)(LPSECURITY_ATTRIBUTES,LPCWSTR, \ - DWORD,DWORD))aSyscall[62].pCurrent) - /* ** For WaitForSingleObject(), MSDN says: ** @@ -48822,7 +49730,7 @@ static struct win_syscall { { "WaitForSingleObject", (SYSCALL)WaitForSingleObject, 0 }, #define osWaitForSingleObject ((DWORD(WINAPI*)(HANDLE, \ - DWORD))aSyscall[63].pCurrent) + DWORD))aSyscall[62].pCurrent) #if !SQLITE_OS_WINCE { "WaitForSingleObjectEx", (SYSCALL)WaitForSingleObjectEx, 0 }, @@ -48831,69 +49739,12 @@ static struct win_syscall { #endif #define osWaitForSingleObjectEx ((DWORD(WINAPI*)(HANDLE,DWORD, \ - BOOL))aSyscall[64].pCurrent) - -#if SQLITE_OS_WINRT - { "SetFilePointerEx", (SYSCALL)SetFilePointerEx, 0 }, -#else - { "SetFilePointerEx", (SYSCALL)0, 0 }, -#endif - -#define osSetFilePointerEx ((BOOL(WINAPI*)(HANDLE,LARGE_INTEGER, \ - PLARGE_INTEGER,DWORD))aSyscall[65].pCurrent) - -#if SQLITE_OS_WINRT - { "GetFileInformationByHandleEx", (SYSCALL)GetFileInformationByHandleEx, 0 }, -#else - { "GetFileInformationByHandleEx", (SYSCALL)0, 0 }, -#endif - -#define osGetFileInformationByHandleEx ((BOOL(WINAPI*)(HANDLE, \ - FILE_INFO_BY_HANDLE_CLASS,LPVOID,DWORD))aSyscall[66].pCurrent) - -#if SQLITE_OS_WINRT && (!defined(SQLITE_OMIT_WAL) || SQLITE_MAX_MMAP_SIZE>0) - { "MapViewOfFileFromApp", (SYSCALL)MapViewOfFileFromApp, 0 }, -#else - { "MapViewOfFileFromApp", (SYSCALL)0, 0 }, -#endif + BOOL))aSyscall[63].pCurrent) -#define osMapViewOfFileFromApp ((LPVOID(WINAPI*)(HANDLE,ULONG,ULONG64, \ - SIZE_T))aSyscall[67].pCurrent) - -#if SQLITE_OS_WINRT - { "CreateFile2", (SYSCALL)CreateFile2, 0 }, -#else - { "CreateFile2", (SYSCALL)0, 0 }, -#endif - -#define osCreateFile2 ((HANDLE(WINAPI*)(LPCWSTR,DWORD,DWORD,DWORD, \ - LPCREATEFILE2_EXTENDED_PARAMETERS))aSyscall[68].pCurrent) - -#if SQLITE_OS_WINRT && !defined(SQLITE_OMIT_LOAD_EXTENSION) - { "LoadPackagedLibrary", (SYSCALL)LoadPackagedLibrary, 0 }, -#else - { "LoadPackagedLibrary", (SYSCALL)0, 0 }, -#endif - -#define osLoadPackagedLibrary ((HMODULE(WINAPI*)(LPCWSTR, \ - DWORD))aSyscall[69].pCurrent) - -#if SQLITE_OS_WINRT - { "GetTickCount64", (SYSCALL)GetTickCount64, 0 }, -#else - { "GetTickCount64", (SYSCALL)0, 0 }, -#endif - -#define osGetTickCount64 ((ULONGLONG(WINAPI*)(VOID))aSyscall[70].pCurrent) - -#if SQLITE_OS_WINRT { "GetNativeSystemInfo", (SYSCALL)GetNativeSystemInfo, 0 }, -#else - { "GetNativeSystemInfo", (SYSCALL)0, 0 }, -#endif #define osGetNativeSystemInfo ((VOID(WINAPI*)( \ - LPSYSTEM_INFO))aSyscall[71].pCurrent) + LPSYSTEM_INFO))aSyscall[64].pCurrent) #if defined(SQLITE_WIN32_HAS_ANSI) { "OutputDebugStringA", (SYSCALL)OutputDebugStringA, 0 }, @@ -48901,7 +49752,7 @@ static struct win_syscall { { "OutputDebugStringA", (SYSCALL)0, 0 }, #endif -#define osOutputDebugStringA ((VOID(WINAPI*)(LPCSTR))aSyscall[72].pCurrent) +#define osOutputDebugStringA ((VOID(WINAPI*)(LPCSTR))aSyscall[65].pCurrent) #if defined(SQLITE_WIN32_HAS_WIDE) { "OutputDebugStringW", (SYSCALL)OutputDebugStringW, 0 }, @@ -48909,20 +49760,11 @@ static struct win_syscall { { "OutputDebugStringW", (SYSCALL)0, 0 }, #endif -#define osOutputDebugStringW ((VOID(WINAPI*)(LPCWSTR))aSyscall[73].pCurrent) +#define osOutputDebugStringW ((VOID(WINAPI*)(LPCWSTR))aSyscall[66].pCurrent) { "GetProcessHeap", (SYSCALL)GetProcessHeap, 0 }, -#define osGetProcessHeap ((HANDLE(WINAPI*)(VOID))aSyscall[74].pCurrent) - -#if SQLITE_OS_WINRT && (!defined(SQLITE_OMIT_WAL) || SQLITE_MAX_MMAP_SIZE>0) - { "CreateFileMappingFromApp", (SYSCALL)CreateFileMappingFromApp, 0 }, -#else - { "CreateFileMappingFromApp", (SYSCALL)0, 0 }, -#endif - -#define osCreateFileMappingFromApp ((HANDLE(WINAPI*)(HANDLE, \ - LPSECURITY_ATTRIBUTES,ULONG,ULONG64,LPCWSTR))aSyscall[75].pCurrent) +#define osGetProcessHeap ((HANDLE(WINAPI*)(VOID))aSyscall[67].pCurrent) /* ** NOTE: On some sub-platforms, the InterlockedCompareExchange "function" @@ -48937,25 +49779,25 @@ static struct win_syscall { { "InterlockedCompareExchange", (SYSCALL)InterlockedCompareExchange, 0 }, #define osInterlockedCompareExchange ((LONG(WINAPI*)(LONG \ - SQLITE_WIN32_VOLATILE*, LONG,LONG))aSyscall[76].pCurrent) + SQLITE_WIN32_VOLATILE*, LONG,LONG))aSyscall[68].pCurrent) #endif /* defined(InterlockedCompareExchange) */ -#if !SQLITE_OS_WINCE && !SQLITE_OS_WINRT && SQLITE_WIN32_USE_UUID +#if !SQLITE_OS_WINCE && SQLITE_WIN32_USE_UUID { "UuidCreate", (SYSCALL)UuidCreate, 0 }, #else { "UuidCreate", (SYSCALL)0, 0 }, #endif -#define osUuidCreate ((RPC_STATUS(RPC_ENTRY*)(UUID*))aSyscall[77].pCurrent) +#define osUuidCreate ((RPC_STATUS(RPC_ENTRY*)(UUID*))aSyscall[69].pCurrent) -#if !SQLITE_OS_WINCE && !SQLITE_OS_WINRT && SQLITE_WIN32_USE_UUID +#if !SQLITE_OS_WINCE && SQLITE_WIN32_USE_UUID { "UuidCreateSequential", (SYSCALL)UuidCreateSequential, 0 }, #else { "UuidCreateSequential", (SYSCALL)0, 0 }, #endif #define osUuidCreateSequential \ - ((RPC_STATUS(RPC_ENTRY*)(UUID*))aSyscall[78].pCurrent) + ((RPC_STATUS(RPC_ENTRY*)(UUID*))aSyscall[70].pCurrent) #if !defined(SQLITE_NO_SYNC) && SQLITE_MAX_MMAP_SIZE>0 { "FlushViewOfFile", (SYSCALL)FlushViewOfFile, 0 }, @@ -48964,7 +49806,7 @@ static struct win_syscall { #endif #define osFlushViewOfFile \ - ((BOOL(WINAPI*)(LPCVOID,SIZE_T))aSyscall[79].pCurrent) + ((BOOL(WINAPI*)(LPCVOID,SIZE_T))aSyscall[71].pCurrent) /* ** If SQLITE_ENABLE_SETLK_TIMEOUT is defined, we require CreateEvent() @@ -48981,7 +49823,7 @@ static struct win_syscall { #define osCreateEvent ( \ (HANDLE(WINAPI*) (LPSECURITY_ATTRIBUTES,BOOL,BOOL,LPCSTR)) \ - aSyscall[80].pCurrent \ + aSyscall[72].pCurrent \ ) /* @@ -48998,7 +49840,7 @@ static struct win_syscall { { "CancelIo", (SYSCALL)0, 0 }, #endif -#define osCancelIo ((BOOL(WINAPI*)(HANDLE))aSyscall[81].pCurrent) +#define osCancelIo ((BOOL(WINAPI*)(HANDLE))aSyscall[73].pCurrent) #if defined(SQLITE_WIN32_HAS_WIDE) && defined(_WIN32) { "GetModuleHandleW", (SYSCALL)GetModuleHandleW, 0 }, @@ -49006,7 +49848,7 @@ static struct win_syscall { { "GetModuleHandleW", (SYSCALL)0, 0 }, #endif -#define osGetModuleHandleW ((HMODULE(WINAPI*)(LPCWSTR))aSyscall[82].pCurrent) +#define osGetModuleHandleW ((HMODULE(WINAPI*)(LPCWSTR))aSyscall[74].pCurrent) #ifndef _WIN32 { "getenv", (SYSCALL)getenv, 0 }, @@ -49014,7 +49856,7 @@ static struct win_syscall { { "getenv", (SYSCALL)0, 0 }, #endif -#define osGetenv ((const char *(*)(const char *))aSyscall[83].pCurrent) +#define osGetenv ((const char *(*)(const char *))aSyscall[75].pCurrent) #ifndef _WIN32 { "getcwd", (SYSCALL)getcwd, 0 }, @@ -49022,7 +49864,7 @@ static struct win_syscall { { "getcwd", (SYSCALL)0, 0 }, #endif -#define osGetcwd ((char*(*)(char*,size_t))aSyscall[84].pCurrent) +#define osGetcwd ((char*(*)(char*,size_t))aSyscall[76].pCurrent) #ifndef _WIN32 { "readlink", (SYSCALL)readlink, 0 }, @@ -49030,7 +49872,7 @@ static struct win_syscall { { "readlink", (SYSCALL)0, 0 }, #endif -#define osReadlink ((ssize_t(*)(const char*,char*,size_t))aSyscall[85].pCurrent) +#define osReadlink ((ssize_t(*)(const char*,char*,size_t))aSyscall[77].pCurrent) #ifndef _WIN32 { "lstat", (SYSCALL)lstat, 0 }, @@ -49038,7 +49880,7 @@ static struct win_syscall { { "lstat", (SYSCALL)0, 0 }, #endif -#define osLstat ((int(*)(const char*,struct stat*))aSyscall[86].pCurrent) +#define osLstat ((int(*)(const char*,struct stat*))aSyscall[78].pCurrent) #ifndef _WIN32 { "__errno", (SYSCALL)__errno, 0 }, @@ -49046,7 +49888,7 @@ static struct win_syscall { { "__errno", (SYSCALL)0, 0 }, #endif -#define osErrno (*((int*(*)(void))aSyscall[87].pCurrent)()) +#define osErrno (*((int*(*)(void))aSyscall[79].pCurrent)()) #ifndef _WIN32 { "cygwin_conv_path", (SYSCALL)cygwin_conv_path, 0 }, @@ -49055,7 +49897,7 @@ static struct win_syscall { #endif #define osCygwin_conv_path ((size_t(*)(unsigned int, \ - const void *, void *, size_t))aSyscall[88].pCurrent) + const void *, void *, size_t))aSyscall[80].pCurrent) }; /* End of the overrideable system calls */ @@ -49159,10 +50001,10 @@ SQLITE_API int sqlite3_win32_compact_heap(LPUINT pnLargest){ hHeap = winMemGetHeap(); assert( hHeap!=0 ); assert( hHeap!=INVALID_HANDLE_VALUE ); -#if !SQLITE_OS_WINRT && defined(SQLITE_WIN32_MALLOC_VALIDATE) +#if defined(SQLITE_WIN32_MALLOC_VALIDATE) assert( osHeapValidate(hHeap, SQLITE_WIN32_HEAP_FLAGS, NULL) ); #endif -#if !SQLITE_OS_WINCE && !SQLITE_OS_WINRT +#if !SQLITE_OS_WINCE if( (nLargest=osHeapCompact(hHeap, SQLITE_WIN32_HEAP_FLAGS))==0 ){ DWORD lastErrno = osGetLastError(); if( lastErrno==NO_ERROR ){ @@ -49275,28 +50117,11 @@ SQLITE_API void sqlite3_win32_write_debug(const char *zBuf, int nBuf){ } #endif /* _WIN32 */ -/* -** The following routine suspends the current thread for at least ms -** milliseconds. This is equivalent to the Win32 Sleep() interface. -*/ -#if SQLITE_OS_WINRT -static HANDLE sleepObj = NULL; -#endif - SQLITE_API void sqlite3_win32_sleep(DWORD milliseconds){ -#if SQLITE_OS_WINRT - if ( sleepObj==NULL ){ - sleepObj = osCreateEventExW(NULL, NULL, CREATE_EVENT_MANUAL_RESET, - SYNCHRONIZE); - } - assert( sleepObj!=NULL ); - osWaitForSingleObjectEx(sleepObj, milliseconds, FALSE); -#else osSleep(milliseconds); -#endif } -#if SQLITE_MAX_WORKER_THREADS>0 && !SQLITE_OS_WINCE && !SQLITE_OS_WINRT && \ +#if SQLITE_MAX_WORKER_THREADS>0 && !SQLITE_OS_WINCE && \ SQLITE_THREADSAFE>0 SQLITE_PRIVATE DWORD sqlite3Win32Wait(HANDLE hObject){ DWORD rc; @@ -49320,7 +50145,7 @@ SQLITE_PRIVATE DWORD sqlite3Win32Wait(HANDLE hObject){ #if !SQLITE_WIN32_GETVERSIONEX # define osIsNT() (1) -#elif SQLITE_OS_WINCE || SQLITE_OS_WINRT || !defined(SQLITE_WIN32_HAS_ANSI) +#elif SQLITE_OS_WINCE || !defined(SQLITE_WIN32_HAS_ANSI) # define osIsNT() (1) #elif !defined(SQLITE_WIN32_HAS_WIDE) # define osIsNT() (0) @@ -49333,13 +50158,7 @@ SQLITE_PRIVATE DWORD sqlite3Win32Wait(HANDLE hObject){ ** based on the NT kernel. */ SQLITE_API int sqlite3_win32_is_nt(void){ -#if SQLITE_OS_WINRT - /* - ** NOTE: The WinRT sub-platform is always assumed to be based on the NT - ** kernel. - */ - return 1; -#elif SQLITE_WIN32_GETVERSIONEX +#if SQLITE_WIN32_GETVERSIONEX if( osInterlockedCompareExchange(&sqlite3_os_type, 0, 0)==0 ){ #if defined(SQLITE_WIN32_HAS_ANSI) OSVERSIONINFOA sInfo; @@ -49381,7 +50200,7 @@ static void *winMemMalloc(int nBytes){ hHeap = winMemGetHeap(); assert( hHeap!=0 ); assert( hHeap!=INVALID_HANDLE_VALUE ); -#if !SQLITE_OS_WINRT && defined(SQLITE_WIN32_MALLOC_VALIDATE) +#if defined(SQLITE_WIN32_MALLOC_VALIDATE) assert( osHeapValidate(hHeap, SQLITE_WIN32_HEAP_FLAGS, NULL) ); #endif assert( nBytes>=0 ); @@ -49403,7 +50222,7 @@ static void winMemFree(void *pPrior){ hHeap = winMemGetHeap(); assert( hHeap!=0 ); assert( hHeap!=INVALID_HANDLE_VALUE ); -#if !SQLITE_OS_WINRT && defined(SQLITE_WIN32_MALLOC_VALIDATE) +#if defined(SQLITE_WIN32_MALLOC_VALIDATE) assert( osHeapValidate(hHeap, SQLITE_WIN32_HEAP_FLAGS, pPrior) ); #endif if( !pPrior ) return; /* Passing NULL to HeapFree is undefined. */ @@ -49424,7 +50243,7 @@ static void *winMemRealloc(void *pPrior, int nBytes){ hHeap = winMemGetHeap(); assert( hHeap!=0 ); assert( hHeap!=INVALID_HANDLE_VALUE ); -#if !SQLITE_OS_WINRT && defined(SQLITE_WIN32_MALLOC_VALIDATE) +#if defined(SQLITE_WIN32_MALLOC_VALIDATE) assert( osHeapValidate(hHeap, SQLITE_WIN32_HEAP_FLAGS, pPrior) ); #endif assert( nBytes>=0 ); @@ -49452,7 +50271,7 @@ static int winMemSize(void *p){ hHeap = winMemGetHeap(); assert( hHeap!=0 ); assert( hHeap!=INVALID_HANDLE_VALUE ); -#if !SQLITE_OS_WINRT && defined(SQLITE_WIN32_MALLOC_VALIDATE) +#if defined(SQLITE_WIN32_MALLOC_VALIDATE) assert( osHeapValidate(hHeap, SQLITE_WIN32_HEAP_FLAGS, p) ); #endif if( !p ) return 0; @@ -49482,7 +50301,7 @@ static int winMemInit(void *pAppData){ assert( pWinMemData->magic1==WINMEM_MAGIC1 ); assert( pWinMemData->magic2==WINMEM_MAGIC2 ); -#if !SQLITE_OS_WINRT && SQLITE_WIN32_HEAP_CREATE +#if SQLITE_WIN32_HEAP_CREATE if( !pWinMemData->hHeap ){ DWORD dwInitialSize = SQLITE_WIN32_HEAP_INIT_SIZE; DWORD dwMaximumSize = (DWORD)sqlite3GlobalConfig.nHeap; @@ -49515,7 +50334,7 @@ static int winMemInit(void *pAppData){ #endif assert( pWinMemData->hHeap!=0 ); assert( pWinMemData->hHeap!=INVALID_HANDLE_VALUE ); -#if !SQLITE_OS_WINRT && defined(SQLITE_WIN32_MALLOC_VALIDATE) +#if defined(SQLITE_WIN32_MALLOC_VALIDATE) assert( osHeapValidate(pWinMemData->hHeap, SQLITE_WIN32_HEAP_FLAGS, NULL) ); #endif return SQLITE_OK; @@ -49533,7 +50352,7 @@ static void winMemShutdown(void *pAppData){ if( pWinMemData->hHeap ){ assert( pWinMemData->hHeap!=INVALID_HANDLE_VALUE ); -#if !SQLITE_OS_WINRT && defined(SQLITE_WIN32_MALLOC_VALIDATE) +#if defined(SQLITE_WIN32_MALLOC_VALIDATE) assert( osHeapValidate(pWinMemData->hHeap, SQLITE_WIN32_HEAP_FLAGS, NULL) ); #endif if( pWinMemData->bOwned ){ @@ -49914,17 +50733,6 @@ static int winGetLastErrorMsg(DWORD lastErrno, int nBuf, char *zBuf){ char *zOut = 0; if( osIsNT() ){ -#if SQLITE_OS_WINRT - WCHAR zTempWide[SQLITE_WIN32_MAX_ERRMSG_CHARS+1]; - dwLen = osFormatMessageW(FORMAT_MESSAGE_FROM_SYSTEM | - FORMAT_MESSAGE_IGNORE_INSERTS, - NULL, - lastErrno, - 0, - zTempWide, - SQLITE_WIN32_MAX_ERRMSG_CHARS, - 0); -#else LPWSTR zTempWide = NULL; dwLen = osFormatMessageW(FORMAT_MESSAGE_ALLOCATE_BUFFER | FORMAT_MESSAGE_FROM_SYSTEM | @@ -49935,16 +50743,13 @@ static int winGetLastErrorMsg(DWORD lastErrno, int nBuf, char *zBuf){ (LPWSTR) &zTempWide, 0, 0); -#endif if( dwLen > 0 ){ /* allocate a buffer and convert to UTF8 */ sqlite3BeginBenignMalloc(); zOut = winUnicodeToUtf8(zTempWide); sqlite3EndBenignMalloc(); -#if !SQLITE_OS_WINRT /* free the system buffer allocated by FormatMessage */ osLocalFree(zTempWide); -#endif } } #ifdef SQLITE_WIN32_HAS_ANSI @@ -50605,7 +51410,6 @@ static int winHandleUnlock(HANDLE h, int iOff, int nByte){ static int winHandleSeek(HANDLE h, sqlite3_int64 iOffset){ int rc = SQLITE_OK; /* Return value */ -#if !SQLITE_OS_WINRT LONG upperBits; /* Most sig. 32 bits of new offset */ LONG lowerBits; /* Least sig. 32 bits of new offset */ DWORD dwRet; /* Value returned by SetFilePointer() */ @@ -50627,20 +51431,7 @@ static int winHandleSeek(HANDLE h, sqlite3_int64 iOffset){ rc = SQLITE_IOERR_SEEK; } } -#else - /* This implementation works for WinRT. */ - LARGE_INTEGER x; /* The new offset */ - BOOL bRet; /* Value returned by SetFilePointerEx() */ - - x.QuadPart = iOffset; - bRet = osSetFilePointerEx(h, x, 0, FILE_BEGIN); - - if(!bRet){ - rc = SQLITE_IOERR_SEEK; - } -#endif - - OSTRACE(("SEEK file=%p, offset=%lld rc=%s\n", h, iOffset, sqlite3ErrName(rc))); + OSTRACE(("SEEK file=%p, offset=%lld rc=%s\n", h, iOffset,sqlite3ErrName(rc))); return rc; } @@ -50941,17 +51732,6 @@ static int winHandleTruncate(HANDLE h, sqlite3_int64 nByte){ */ static int winHandleSize(HANDLE h, sqlite3_int64 *pnByte){ int rc = SQLITE_OK; - -#if SQLITE_OS_WINRT - FILE_STANDARD_INFO info; - BOOL b; - b = osGetFileInformationByHandleEx(h, FileStandardInfo, &info, sizeof(info)); - if( b ){ - *pnByte = info.EndOfFile.QuadPart; - }else{ - rc = SQLITE_IOERR_FSTAT; - } -#else DWORD upperBits = 0; DWORD lowerBits = 0; @@ -50961,8 +51741,6 @@ static int winHandleSize(HANDLE h, sqlite3_int64 *pnByte){ if( lowerBits==INVALID_FILE_SIZE && osGetLastError()!=NO_ERROR ){ rc = SQLITE_IOERR_FSTAT; } -#endif - return rc; } @@ -51161,20 +51939,6 @@ static int winFileSize(sqlite3_file *id, sqlite3_int64 *pSize){ assert( pSize!=0 ); SimulateIOError(return SQLITE_IOERR_FSTAT); OSTRACE(("SIZE file=%p, pSize=%p\n", pFile->h, pSize)); - -#if SQLITE_OS_WINRT - { - FILE_STANDARD_INFO info; - if( osGetFileInformationByHandleEx(pFile->h, FileStandardInfo, - &info, sizeof(info)) ){ - *pSize = info.EndOfFile.QuadPart; - }else{ - pFile->lastErrno = osGetLastError(); - rc = winLogError(SQLITE_IOERR_FSTAT, pFile->lastErrno, - "winFileSize", pFile->zPath); - } - } -#else { DWORD upperBits; DWORD lowerBits; @@ -51189,7 +51953,6 @@ static int winFileSize(sqlite3_file *id, sqlite3_int64 *pSize){ "winFileSize", pFile->zPath); } } -#endif OSTRACE(("SIZE file=%p, pSize=%p, *pSize=%lld, rc=%s\n", pFile->h, pSize, *pSize, sqlite3ErrName(rc))); return rc; @@ -52151,20 +52914,6 @@ static int winHandleOpen( ** TODO: retry-on-ioerr. */ if( osIsNT() ){ -#if SQLITE_OS_WINRT - CREATEFILE2_EXTENDED_PARAMETERS extendedParameters; - memset(&extendedParameters, 0, sizeof(extendedParameters)); - extendedParameters.dwSize = sizeof(extendedParameters); - extendedParameters.dwFileAttributes = FILE_ATTRIBUTE_NORMAL; - extendedParameters.dwFileFlags = flag_overlapped; - extendedParameters.dwSecurityQosFlags = SECURITY_ANONYMOUS; - h = osCreateFile2((LPCWSTR)zConverted, - (GENERIC_READ | (bReadonly ? 0 : GENERIC_WRITE)),/* dwDesiredAccess */ - FILE_SHARE_READ | FILE_SHARE_WRITE, /* dwShareMode */ - OPEN_ALWAYS, /* dwCreationDisposition */ - &extendedParameters - ); -#else h = osCreateFileW((LPCWSTR)zConverted, /* lpFileName */ (GENERIC_READ | (bReadonly ? 0 : GENERIC_WRITE)), /* dwDesiredAccess */ FILE_SHARE_READ | FILE_SHARE_WRITE, /* dwShareMode */ @@ -52173,7 +52922,6 @@ static int winHandleOpen( FILE_ATTRIBUTE_NORMAL|flag_overlapped, NULL ); -#endif }else{ /* Due to pre-processor directives earlier in this file, ** SQLITE_WIN32_HAS_ANSI is always defined if osIsNT() is false. */ @@ -52641,9 +53389,7 @@ static int winShmMap( HANDLE hMap = NULL; /* file-mapping handle */ void *pMap = 0; /* Mapped memory region */ -#if SQLITE_OS_WINRT - hMap = osCreateFileMappingFromApp(hShared, NULL, protect, nByte, NULL); -#elif defined(SQLITE_WIN32_HAS_WIDE) +#if defined(SQLITE_WIN32_HAS_WIDE) hMap = osCreateFileMappingW(hShared, NULL, protect, 0, nByte, NULL); #elif defined(SQLITE_WIN32_HAS_ANSI) && SQLITE_WIN32_CREATEFILEMAPPINGA hMap = osCreateFileMappingA(hShared, NULL, protect, 0, nByte, NULL); @@ -52655,15 +53401,9 @@ static int winShmMap( if( hMap ){ int iOffset = pShmNode->nRegion*szRegion; int iOffsetShift = iOffset % winSysInfo.dwAllocationGranularity; -#if SQLITE_OS_WINRT - pMap = osMapViewOfFileFromApp(hMap, flags, - iOffset - iOffsetShift, szRegion + iOffsetShift - ); -#else pMap = osMapViewOfFile(hMap, flags, 0, iOffset - iOffsetShift, szRegion + iOffsetShift ); -#endif OSTRACE(("SHM-MAP-MAP pid=%lu, region=%d, offset=%d, size=%d, rc=%s\n", osGetCurrentProcessId(), pShmNode->nRegion, iOffset, szRegion, pMap ? "ok" : "failed")); @@ -52796,9 +53536,7 @@ static int winMapfile(winFile *pFd, sqlite3_int64 nByte){ flags |= FILE_MAP_WRITE; } #endif -#if SQLITE_OS_WINRT - pFd->hMap = osCreateFileMappingFromApp(pFd->h, NULL, protect, nMap, NULL); -#elif defined(SQLITE_WIN32_HAS_WIDE) +#if defined(SQLITE_WIN32_HAS_WIDE) pFd->hMap = osCreateFileMappingW(pFd->h, NULL, protect, (DWORD)((nMap>>32) & 0xffffffff), (DWORD)(nMap & 0xffffffff), NULL); @@ -52818,11 +53556,7 @@ static int winMapfile(winFile *pFd, sqlite3_int64 nByte){ } assert( (nMap % winSysInfo.dwPageSize)==0 ); assert( sizeof(SIZE_T)==sizeof(sqlite3_int64) || nMap<=0xffffffff ); -#if SQLITE_OS_WINRT - pNew = osMapViewOfFileFromApp(pFd->hMap, flags, 0, (SIZE_T)nMap); -#else pNew = osMapViewOfFile(pFd->hMap, flags, 0, 0, (SIZE_T)nMap); -#endif if( pNew==NULL ){ osCloseHandle(pFd->hMap); pFd->hMap = NULL; @@ -53157,7 +53891,6 @@ static int winGetTempname(sqlite3_vfs *pVfs, char **pzBuf){ } #endif -#if !SQLITE_OS_WINRT && defined(_WIN32) else if( osIsNT() ){ char *zMulti; LPWSTR zWidePath = sqlite3MallocZero( nMax*sizeof(WCHAR) ); @@ -53211,7 +53944,6 @@ static int winGetTempname(sqlite3_vfs *pVfs, char **pzBuf){ } } #endif /* SQLITE_WIN32_HAS_ANSI */ -#endif /* !SQLITE_OS_WINRT */ /* ** Check to make sure the temporary directory ends with an appropriate @@ -53386,13 +54118,6 @@ static int winOpen( memset(pFile, 0, sizeof(winFile)); pFile->h = INVALID_HANDLE_VALUE; -#if SQLITE_OS_WINRT - if( !zUtf8Name && !sqlite3_temp_directory ){ - sqlite3_log(SQLITE_ERROR, - "sqlite3_temp_directory variable should be set for WinRT"); - } -#endif - /* If the second argument to this function is NULL, generate a ** temporary file name to use */ @@ -53475,31 +54200,6 @@ static int winOpen( #endif if( osIsNT() ){ -#if SQLITE_OS_WINRT - CREATEFILE2_EXTENDED_PARAMETERS extendedParameters; - extendedParameters.dwSize = sizeof(CREATEFILE2_EXTENDED_PARAMETERS); - extendedParameters.dwFileAttributes = - dwFlagsAndAttributes & FILE_ATTRIBUTE_MASK; - extendedParameters.dwFileFlags = dwFlagsAndAttributes & FILE_FLAG_MASK; - extendedParameters.dwSecurityQosFlags = SECURITY_ANONYMOUS; - extendedParameters.lpSecurityAttributes = NULL; - extendedParameters.hTemplateFile = NULL; - do{ - h = osCreateFile2((LPCWSTR)zConverted, - dwDesiredAccess, - dwShareMode, - dwCreationDisposition, - &extendedParameters); - if( h!=INVALID_HANDLE_VALUE ) break; - if( isReadWrite ){ - int rc2; - sqlite3BeginBenignMalloc(); - rc2 = winAccess(pVfs, zUtf8Name, SQLITE_ACCESS_READ|NORETRY, &isRO); - sqlite3EndBenignMalloc(); - if( rc2==SQLITE_OK && isRO ) break; - } - }while( winRetryIoerr(&cnt, &lastErrno) ); -#else do{ h = osCreateFileW((LPCWSTR)zConverted, dwDesiredAccess, @@ -53516,7 +54216,6 @@ static int winOpen( if( rc2==SQLITE_OK && isRO ) break; } }while( winRetryIoerr(&cnt, &lastErrno) ); -#endif } #ifdef SQLITE_WIN32_HAS_ANSI else{ @@ -53653,25 +54352,7 @@ static int winDelete( } if( osIsNT() ){ do { -#if SQLITE_OS_WINRT - WIN32_FILE_ATTRIBUTE_DATA sAttrData; - memset(&sAttrData, 0, sizeof(sAttrData)); - if ( osGetFileAttributesExW(zConverted, GetFileExInfoStandard, - &sAttrData) ){ - attr = sAttrData.dwFileAttributes; - }else{ - lastErrno = osGetLastError(); - if( lastErrno==ERROR_FILE_NOT_FOUND - || lastErrno==ERROR_PATH_NOT_FOUND ){ - rc = SQLITE_IOERR_DELETE_NOENT; /* Already gone? */ - }else{ - rc = SQLITE_ERROR; - } - break; - } -#else attr = osGetFileAttributesW(zConverted); -#endif if ( attr==INVALID_FILE_ATTRIBUTES ){ lastErrno = osGetLastError(); if( lastErrno==ERROR_FILE_NOT_FOUND @@ -53794,6 +54475,7 @@ static int winAccess( attr = sAttrData.dwFileAttributes; } }else{ + if( noRetry ) lastErrno = osGetLastError(); winLogIoerr(cnt, __LINE__); if( lastErrno!=ERROR_FILE_NOT_FOUND && lastErrno!=ERROR_PATH_NOT_FOUND ){ sqlite3_free(zConverted); @@ -53962,7 +54644,7 @@ static int winFullPathnameNoMutex( int nFull, /* Size of output buffer in bytes */ char *zFull /* Output buffer */ ){ -#if !SQLITE_OS_WINCE && !SQLITE_OS_WINRT +#if !SQLITE_OS_WINCE int nByte; void *zConverted; char *zOut; @@ -54051,7 +54733,7 @@ static int winFullPathnameNoMutex( } #endif /* __CYGWIN__ */ -#if (SQLITE_OS_WINCE || SQLITE_OS_WINRT) && defined(_WIN32) +#if SQLITE_OS_WINCE && defined(_WIN32) SimulateIOError( return SQLITE_ERROR ); /* WinCE has no concept of a relative pathname, or so I am told. */ /* WinRT has no way to convert a relative path to an absolute one. */ @@ -54070,7 +54752,7 @@ static int winFullPathnameNoMutex( return SQLITE_OK; #endif -#if !SQLITE_OS_WINCE && !SQLITE_OS_WINRT +#if !SQLITE_OS_WINCE #if defined(_WIN32) /* It's odd to simulate an io-error here, but really this is just ** using the io-error infrastructure to test that SQLite handles this @@ -54202,11 +54884,7 @@ static void *winDlOpen(sqlite3_vfs *pVfs, const char *zFilename){ return 0; } if( osIsNT() ){ -#if SQLITE_OS_WINRT - h = osLoadPackagedLibrary((LPCWSTR)zConverted, 0); -#else h = osLoadLibraryW((LPCWSTR)zConverted); -#endif } #ifdef SQLITE_WIN32_HAS_ANSI else{ @@ -54288,23 +54966,16 @@ static int winRandomness(sqlite3_vfs *pVfs, int nBuf, char *zBuf){ DWORD pid = osGetCurrentProcessId(); xorMemory(&e, (unsigned char*)&pid, sizeof(DWORD)); } -#if SQLITE_OS_WINRT - { - ULONGLONG cnt = osGetTickCount64(); - xorMemory(&e, (unsigned char*)&cnt, sizeof(ULONGLONG)); - } -#else { DWORD cnt = osGetTickCount(); xorMemory(&e, (unsigned char*)&cnt, sizeof(DWORD)); } -#endif /* SQLITE_OS_WINRT */ { LARGE_INTEGER i; osQueryPerformanceCounter(&i); xorMemory(&e, (unsigned char*)&i, sizeof(LARGE_INTEGER)); } -#if !SQLITE_OS_WINCE && !SQLITE_OS_WINRT && SQLITE_WIN32_USE_UUID +#if !SQLITE_OS_WINCE && SQLITE_WIN32_USE_UUID { UUID id; memset(&id, 0, sizeof(UUID)); @@ -54314,7 +54985,7 @@ static int winRandomness(sqlite3_vfs *pVfs, int nBuf, char *zBuf){ osUuidCreateSequential(&id); xorMemory(&e, (unsigned char*)&id, sizeof(UUID)); } -#endif /* !SQLITE_OS_WINCE && !SQLITE_OS_WINRT && SQLITE_WIN32_USE_UUID */ +#endif /* !SQLITE_OS_WINCE && SQLITE_WIN32_USE_UUID */ return e.nXor>nBuf ? nBuf : e.nXor; #endif /* defined(SQLITE_TEST) || defined(SQLITE_OMIT_RANDOMNESS) */ } @@ -54545,15 +55216,16 @@ SQLITE_API int sqlite3_os_init(void){ /* Double-check that the aSyscall[] array has been constructed ** correctly. See ticket [bb3a86e890c8e96ab] */ - assert( ArraySize(aSyscall)==89 ); + assert( ArraySize(aSyscall)==81 ); + assert( strcmp(aSyscall[0].zName,"AreFileApisANSI")==0 ); + assert( strcmp(aSyscall[20].zName,"GetFileAttributesA")==0 ); + assert( strcmp(aSyscall[40].zName,"HeapReAlloc")==0 ); + assert( strcmp(aSyscall[60].zName,"WideCharToMultiByte")==0 ); + assert( strcmp(aSyscall[80].zName,"cygwin_conv_path")==0 ); /* get memory map allocation granularity */ memset(&winSysInfo, 0, sizeof(SYSTEM_INFO)); -#if SQLITE_OS_WINRT - osGetNativeSystemInfo(&winSysInfo); -#else osGetSystemInfo(&winSysInfo); -#endif assert( winSysInfo.dwAllocationGranularity>0 ); assert( winSysInfo.dwPageSize>0 ); @@ -54577,17 +55249,9 @@ SQLITE_API int sqlite3_os_init(void){ } SQLITE_API int sqlite3_os_end(void){ -#if SQLITE_OS_WINRT - if( sleepObj!=NULL ){ - osCloseHandle(sleepObj); - sleepObj = NULL; - } -#endif - #ifndef SQLITE_OMIT_WAL winBigLock = 0; #endif - return SQLITE_OK; } @@ -55473,10 +56137,10 @@ SQLITE_API int sqlite3_deserialize( if( rc ) goto end_deserialize; db->init.iDb = (u8)iDb; db->init.reopenMemdb = 1; - rc = sqlite3_step(pStmt); + sqlite3_step(pStmt); db->init.reopenMemdb = 0; - if( rc!=SQLITE_DONE ){ - rc = SQLITE_ERROR; + rc = sqlite3_finalize(pStmt); + if( rc!=SQLITE_OK ){ goto end_deserialize; } p = memdbFromDbSchema(db, zSchema); @@ -55497,7 +56161,6 @@ SQLITE_API int sqlite3_deserialize( } end_deserialize: - sqlite3_finalize(pStmt); if( pData && (mFlags & SQLITE_DESERIALIZE_FREEONCLOSE)!=0 ){ sqlite3_free(pData); } @@ -59736,6 +60399,8 @@ SQLITE_PRIVATE int sqlite3PagerDirectReadOk(Pager *pPager, Pgno pgno){ (void)sqlite3WalFindFrame(pPager->pWal, pgno, &iRead); if( iRead ) return 0; /* Case (4) */ } +#else + UNUSED_PARAMETER(pgno); #endif assert( pPager->fd->pMethods->xDeviceCharacteristics!=0 ); if( (pPager->fd->pMethods->xDeviceCharacteristics(pPager->fd) @@ -60156,17 +60821,17 @@ static int jrnlBufferSize(Pager *pPager){ */ #ifdef SQLITE_CHECK_PAGES /* -** Return a 32-bit hash of the page data for pPage. +** Return a 64-bit hash of the page data for pPage. */ -static u32 pager_datahash(int nByte, unsigned char *pData){ - u32 hash = 0; +static u64 pager_datahash(int nByte, unsigned char *pData){ + u64 hash = 0; int i; for(i=0; ipPager->pageSize, (unsigned char *)pPage->pData); } static void pager_set_pagehash(PgHdr *pPage){ @@ -63115,6 +63780,8 @@ SQLITE_PRIVATE int sqlite3PagerClose(Pager *pPager, sqlite3 *db){ sqlite3WalClose(pPager->pWal, db, pPager->walSyncFlags, pPager->pageSize,a); pPager->pWal = 0; } +#else + UNUSED_PARAMETER(db); #endif pager_reset(pPager); if( MEMDB ){ @@ -67882,7 +68549,7 @@ static void walUnlockExclusive(Wal *pWal, int lockIdx, int n){ /* ** Compute a hash on a page number. The resulting hash value must land -** between 0 and (HASHTABLE_NSLOT-1). The walHashNext() function advances +** between 0 and (HASHTABLE_NSLOT-1). The walNextHash() function advances ** the hash to the next value in the event of a collision. */ static int walHash(u32 iPage){ @@ -68090,7 +68757,7 @@ static int walIndexAppend(Wal *pWal, u32 iFrame, u32 iPage){ for(iKey=walHash(iPage); sLoc.aHash[iKey]; iKey=walNextHash(iKey)){ if( (nCollide--)==0 ) return SQLITE_CORRUPT_BKPT; } - sLoc.aPgno[idx-1] = iPage; + sLoc.aPgno[(idx-1)&(HASHTABLE_NPAGE-1)] = iPage; AtomicStore(&sLoc.aHash[iKey], (ht_slot)idx); #ifdef SQLITE_ENABLE_EXPENSIVE_ASSERT @@ -70338,7 +71005,10 @@ static int walFindFrame( SEH_INJECT_FAULT; while( (iH = AtomicLoad(&sLoc.aHash[iKey]))!=0 ){ u32 iFrame = iH + sLoc.iZero; - if( iFrame<=iLast && iFrame>=pWal->minFrame && sLoc.aPgno[iH-1]==pgno ){ + if( iFrame<=iLast + && iFrame>=pWal->minFrame + && sLoc.aPgno[(iH-1)&(HASHTABLE_NPAGE-1)]==pgno + ){ assert( iFrame>iRead || CORRUPT_DB ); iRead = iFrame; } @@ -73713,7 +74383,7 @@ static void btreeParseCellPtr( CellInfo *pInfo /* Fill in this structure */ ){ u8 *pIter; /* For scanning through pCell */ - u32 nPayload; /* Number of bytes of cell payload */ + u64 nPayload; /* Number of bytes of cell payload */ u64 iKey; /* Extracted Key value */ assert( sqlite3_mutex_held(pPage->pBt->mutex) ); @@ -73735,6 +74405,7 @@ static void btreeParseCellPtr( do{ nPayload = (nPayload<<7) | (*++pIter & 0x7f); }while( (*pIter)>=0x80 && pIternKey = *(i64*)&iKey; - pInfo->nPayload = nPayload; + pInfo->nPayload = (u32)nPayload; pInfo->pPayload = pIter; testcase( nPayload==pPage->maxLocal ); testcase( nPayload==(u32)pPage->maxLocal+1 ); - assert( nPayload>=0 ); assert( pPage->maxLocal <= BT_MAX_LOCAL ); if( nPayload<=pPage->maxLocal ){ /* This is the (easy) common case where the entire payload fits @@ -76124,6 +76794,30 @@ static SQLITE_NOINLINE int btreeBeginTrans( } #endif +#ifdef SQLITE_EXPERIMENTAL_PRAGMA_20251114 + /* If both a read and write transaction will be opened by this call, + ** then issue a file-control as if the following pragma command had + ** been evaluated: + ** + ** PRAGMA experimental_pragma_20251114 = 1|2 + ** + ** where the RHS is "1" if wrflag is 1 (RESERVED lock), or "2" if wrflag + ** is 2 (EXCLUSIVE lock). Ignore any result or error returned by the VFS. + ** + ** WARNING: This code will likely remain part of SQLite only temporarily - + ** it exists to allow users to experiment with certain types of blocking + ** locks in custom VFS implementations. It MAY BE REMOVED AT ANY TIME. */ + if( pBt->pPage1==0 && wrflag ){ + sqlite3_file *fd = sqlite3PagerFile(pPager); + char *aFcntl[3] = {0,0,0}; + aFcntl[1] = "experimental_pragma_20251114"; + assert( wrflag==1 || wrflag==2 ); + aFcntl[2] = (wrflag==1 ? "1" : "2"); + sqlite3OsFileControlHint(fd, SQLITE_FCNTL_PRAGMA, (void*)aFcntl); + sqlite3_free(aFcntl[0]); + } +#endif + /* Call lockBtree() until either pBt->pPage1 is populated or ** lockBtree() returns something other than SQLITE_OK. lockBtree() ** may return SQLITE_OK but leave pBt->pPage1 set to 0 if after @@ -78128,7 +78822,7 @@ SQLITE_PRIVATE int sqlite3BtreeIsEmpty(BtCursor *pCur, int *pRes){ assert( cursorOwnsBtShared(pCur) ); assert( sqlite3_mutex_held(pCur->pBtree->db->mutex) ); - if( pCur->eState==CURSOR_VALID ){ + if( NEVER(pCur->eState==CURSOR_VALID) ){ *pRes = 0; return SQLITE_OK; } @@ -82209,7 +82903,7 @@ SQLITE_PRIVATE int sqlite3BtreeTransferRow(BtCursor *pDest, BtCursor *pSrc, i64 }while( rc==SQLITE_OK && nOut>0 ); if( rc==SQLITE_OK && nRem>0 && ALWAYS(pPgnoOut) ){ - Pgno pgnoNew; + Pgno pgnoNew = 0; /* Prevent harmless static-analyzer warning */ MemPage *pNew = 0; rc = allocateBtreePage(pBt, &pNew, &pgnoNew, 0, 0); put4byte(pPgnoOut, pgnoNew); @@ -84875,21 +85569,27 @@ static void vdbeMemRenderNum(int sz, char *zBuf, Mem *p){ StrAccum acc; assert( p->flags & (MEM_Int|MEM_Real|MEM_IntReal) ); assert( sz>22 ); - if( p->flags & MEM_Int ){ -#if GCC_VERSION>=7000000 - /* Work-around for GCC bug - ** https://gcc.gnu.org/bugzilla/show_bug.cgi?id=96270 */ + if( p->flags & (MEM_Int|MEM_IntReal) ){ +#if GCC_VERSION>=7000000 && GCC_VERSION<15000000 && defined(__i386__) + /* Work-around for GCC bug or bugs: + ** https://gcc.gnu.org/bugzilla/show_bug.cgi?id=96270 + ** https://gcc.gnu.org/bugzilla/show_bug.cgi?id=114659 + ** The problem appears to be fixed in GCC 15 */ i64 x; - assert( (p->flags&MEM_Int)*2==sizeof(x) ); - memcpy(&x, (char*)&p->u, (p->flags&MEM_Int)*2); + assert( (MEM_Str&~p->flags)*4==sizeof(x) ); + memcpy(&x, (char*)&p->u, (MEM_Str&~p->flags)*4); p->n = sqlite3Int64ToText(x, zBuf); #else p->n = sqlite3Int64ToText(p->u.i, zBuf); #endif + if( p->flags & MEM_IntReal ){ + memcpy(zBuf+p->n,".0", 3); + p->n += 2; + } }else{ sqlite3StrAccumInit(&acc, 0, zBuf, sz, 0); - sqlite3_str_appendf(&acc, "%!.15g", - (p->flags & MEM_IntReal)!=0 ? (double)p->u.i : p->u.r); + sqlite3_str_appendf(&acc, "%!.*g", + (p->db ? p->db->nFpDigit : 17), p->u.r); assert( acc.zText==zBuf && acc.mxAlloc<=0 ); zBuf[acc.nChar] = 0; /* Fast version of sqlite3StrAccumFinish(&acc) */ p->n = acc.nChar; @@ -84938,6 +85638,9 @@ SQLITE_PRIVATE int sqlite3VdbeMemValidStrRep(Mem *p){ assert( p->enc==SQLITE_UTF8 || p->z[((p->n+1)&~1)+1]==0 ); } if( (p->flags & (MEM_Int|MEM_Real|MEM_IntReal))==0 ) return 1; + if( p->db==0 ){ + return 1; /* db->nFpDigit required to validate p->z[] */ + } memcpy(&tmp, p, sizeof(tmp)); vdbeMemRenderNum(sizeof(zBuf), zBuf, &tmp); z = p->z; @@ -85088,13 +85791,16 @@ SQLITE_PRIVATE int sqlite3VdbeMemClearAndResize(Mem *pMem, int szNew){ ** ** This is an optimization. Correct operation continues even if ** this routine is a no-op. +** +** Return true if the strig is zero-terminated after this routine is +** called and false if it is not. */ -SQLITE_PRIVATE void sqlite3VdbeMemZeroTerminateIfAble(Mem *pMem){ +SQLITE_PRIVATE int sqlite3VdbeMemZeroTerminateIfAble(Mem *pMem){ if( (pMem->flags & (MEM_Str|MEM_Term|MEM_Ephem|MEM_Static))!=MEM_Str ){ /* pMem must be a string, and it cannot be an ephemeral or static string */ - return; + return 0; } - if( pMem->enc!=SQLITE_UTF8 ) return; + if( pMem->enc!=SQLITE_UTF8 ) return 0; assert( pMem->z!=0 ); if( pMem->flags & MEM_Dyn ){ if( pMem->xDel==sqlite3_free @@ -85102,18 +85808,19 @@ SQLITE_PRIVATE void sqlite3VdbeMemZeroTerminateIfAble(Mem *pMem){ ){ pMem->z[pMem->n] = 0; pMem->flags |= MEM_Term; - return; + return 1; } if( pMem->xDel==sqlite3RCStrUnref ){ /* Blindly assume that all RCStr objects are zero-terminated */ pMem->flags |= MEM_Term; - return; + return 1; } }else if( pMem->szMalloc >= pMem->n+1 ){ pMem->z[pMem->n] = 0; pMem->flags |= MEM_Term; - return; + return 1; } + return 0; } /* @@ -85411,18 +86118,117 @@ SQLITE_PRIVATE i64 sqlite3VdbeIntValue(const Mem *pMem){ } } +/* +** This routine implements the uncommon and slower path for +** sqlite3MemRealValueRC() that has to deal with input strings +** that are not UTF8 or that are not zero-terminated. It is +** broken out into a separate no-inline routine so that the +** main sqlite3MemRealValueRC() routine can avoid unnecessary +** stack pushes. +** +** A text->float translation of pMem->z is written into *pValue. +** +** Result code invariants: +** +** rc==0 => ERROR: Input string not well-formed, or OOM +** rc<0 => Some prefix of the input is well-formed +** rc>0 => All of the input is well-formed +** (rc&2)==0 => The number is expressed as an integer, with no +** decimal point or eNNN suffix. +*/ +static SQLITE_NOINLINE int sqlite3MemRealValueRCSlowPath( + Mem *pMem, + double *pValue +){ + int rc = SQLITE_OK; + *pValue = 0.0; + if( pMem->enc==SQLITE_UTF8 ){ + char *zCopy = sqlite3DbStrNDup(pMem->db, pMem->z, pMem->n); + if( zCopy ){ + rc = sqlite3AtoF(zCopy, pValue); + sqlite3DbFree(pMem->db, zCopy); + } + return rc; + }else{ + int n, i, j; + char *zCopy; + const char *z; + + n = pMem->n & ~1; + zCopy = sqlite3DbMallocRaw(pMem->db, n/2 + 2); + if( zCopy ){ + z = pMem->z; + if( pMem->enc==SQLITE_UTF16LE ){ + for(i=j=0; idb, zCopy); + } + return rc; + } +} + +/* +** Invoke sqlite3AtoF() on the text value of pMem. Write the +** translation of the text input into *pValue. +** +** The caller must ensure that pMem->db!=0 and that pMem is in +** mode MEM_Str or MEM_Blob. +** +** Result code invariants: +** +** rc==0 => ERROR: Input string not well-formed, or OOM +** rc<0 => Some prefix of the input is well-formed +** rc>0 => All of the input is well-formed +** (rc&2)==0 => The number is expressed as an integer, with no +** decimal point or eNNN suffix. +*/ +SQLITE_PRIVATE int sqlite3MemRealValueRC(Mem *pMem, double *pValue){ + testcase( pMem->db==0 ); + assert( pMem->flags & (MEM_Str|MEM_Blob) ); + if( pMem->z==0 ){ + *pValue = 0.0; + return 0; + }else if( pMem->enc==SQLITE_UTF8 + && ((pMem->flags & MEM_Term)!=0 || sqlite3VdbeMemZeroTerminateIfAble(pMem)) + ){ + return sqlite3AtoF(pMem->z, pValue); + }else if( pMem->n==0 ){ + *pValue = 0.0; + return 0; + }else{ + return sqlite3MemRealValueRCSlowPath(pMem, pValue); + } +} + +/* +** This routine acts as a bridge from sqlite3VdbeRealValue() to +** sqlite3VdbeRealValueRC, allowing sqlite3VdbeRealValue() to avoid +** stuffing values onto the stack. +*/ +static SQLITE_NOINLINE double sqlite3MemRealValueNoRC(Mem *pMem){ + double r; + (void)sqlite3MemRealValueRC(pMem, &r); + return r; +} + /* ** Return the best representation of pMem that we can get into a ** double. If pMem is already a double or an integer, return its ** value. If it is a string or blob, try to convert it to a double. ** If it is a NULL, return 0.0. */ -static SQLITE_NOINLINE double memRealValue(Mem *pMem){ - /* (double)0 In case of SQLITE_OMIT_FLOATING_POINT... */ - double val = (double)0; - sqlite3AtoF(pMem->z, &val, pMem->n, pMem->enc); - return val; -} SQLITE_PRIVATE double sqlite3VdbeRealValue(Mem *pMem){ assert( pMem!=0 ); assert( pMem->db==0 || sqlite3_mutex_held(pMem->db->mutex) ); @@ -85433,7 +86239,7 @@ SQLITE_PRIVATE double sqlite3VdbeRealValue(Mem *pMem){ testcase( pMem->flags & MEM_IntReal ); return (double)pMem->u.i; }else if( pMem->flags & (MEM_Str|MEM_Blob) ){ - return memRealValue(pMem); + return sqlite3MemRealValueNoRC(pMem); }else{ /* (double)0 In case of SQLITE_OMIT_FLOATING_POINT... */ return (double)0; @@ -85557,8 +86363,8 @@ SQLITE_PRIVATE int sqlite3VdbeMemNumerify(Mem *pMem){ sqlite3_int64 ix; assert( (pMem->flags & (MEM_Blob|MEM_Str))!=0 ); assert( pMem->db==0 || sqlite3_mutex_held(pMem->db->mutex) ); - rc = sqlite3AtoF(pMem->z, &pMem->u.r, pMem->n, pMem->enc); - if( ((rc==0 || rc==1) && sqlite3Atoi64(pMem->z, &ix, pMem->n, pMem->enc)<=1) + rc = sqlite3MemRealValueRC(pMem, &pMem->u.r); + if( ((rc&2)==0 && sqlite3Atoi64(pMem->z, &ix, pMem->n, pMem->enc)<2) || sqlite3RealSameAsInt(pMem->u.r, (ix = sqlite3RealToI64(pMem->u.r))) ){ pMem->u.i = ix; @@ -86022,6 +86828,84 @@ SQLITE_PRIVATE int sqlite3VdbeMemSetStr( return SQLITE_OK; } +/* Like sqlite3VdbeMemSetStr() except: +** +** enc is always SQLITE_UTF8 +** pMem->db is always non-NULL +*/ +SQLITE_PRIVATE int sqlite3VdbeMemSetText( + Mem *pMem, /* Memory cell to set to string value */ + const char *z, /* String pointer */ + i64 n, /* Bytes in string, or negative */ + void (*xDel)(void*) /* Destructor function */ +){ + i64 nByte = n; /* New value for pMem->n */ + u16 flags; + + assert( pMem!=0 ); + assert( pMem->db!=0 ); + assert( sqlite3_mutex_held(pMem->db->mutex) ); + assert( !sqlite3VdbeMemIsRowSet(pMem) ); + + /* If z is a NULL pointer, set pMem to contain an SQL NULL. */ + if( !z ){ + sqlite3VdbeMemSetNull(pMem); + return SQLITE_OK; + } + + if( nByte<0 ){ + nByte = strlen(z); + flags = MEM_Str|MEM_Term; + }else{ + flags = MEM_Str; + } + if( nByte>(i64)pMem->db->aLimit[SQLITE_LIMIT_LENGTH] ){ + if( xDel && xDel!=SQLITE_TRANSIENT ){ + if( xDel==SQLITE_DYNAMIC ){ + sqlite3DbFree(pMem->db, (void*)z); + }else{ + xDel((void*)z); + } + } + sqlite3VdbeMemSetNull(pMem); + return sqlite3ErrorToParser(pMem->db, SQLITE_TOOBIG); + } + + /* The following block sets the new values of Mem.z and Mem.xDel. It + ** also sets a flag in local variable "flags" to indicate the memory + ** management (one of MEM_Dyn or MEM_Static). + */ + if( xDel==SQLITE_TRANSIENT ){ + i64 nAlloc = nByte + 1; + testcase( nAlloc==31 ); + testcase( nAlloc==32 ); + if( sqlite3VdbeMemClearAndResize(pMem, (int)MAX(nAlloc,32)) ){ + return SQLITE_NOMEM_BKPT; + } + assert( pMem->z!=0 ); + memcpy(pMem->z, z, nByte); + pMem->z[nByte] = 0; + }else{ + sqlite3VdbeMemRelease(pMem); + pMem->z = (char *)z; + if( xDel==SQLITE_DYNAMIC ){ + pMem->zMalloc = pMem->z; + pMem->szMalloc = sqlite3DbMallocSize(pMem->db, pMem->zMalloc); + pMem->xDel = 0; + }else if( xDel==SQLITE_STATIC ){ + pMem->xDel = xDel; + flags |= MEM_Static; + }else{ + pMem->xDel = xDel; + flags |= MEM_Dyn; + } + } + pMem->flags = flags; + pMem->n = (int)(nByte & 0x7fffffff); + pMem->enc = SQLITE_UTF8; + return SQLITE_OK; +} + /* ** Move data out of a btree key or data field and into a Mem structure. ** The data is payload from the entry that pCur is currently pointing @@ -86450,7 +87334,7 @@ static int valueFromExpr( if( affinity==SQLITE_AFF_BLOB ){ if( op==TK_FLOAT ){ assert( pVal && pVal->z && pVal->flags==(MEM_Str|MEM_Term) ); - sqlite3AtoF(pVal->z, &pVal->u.r, pVal->n, SQLITE_UTF8); + sqlite3AtoF(pVal->z, &pVal->u.r); pVal->flags = MEM_Real; }else if( op==TK_INTEGER ){ /* This case is required by -9223372036854775808 and other strings @@ -86718,6 +87602,11 @@ SQLITE_PRIVATE int sqlite3Stat4ValueFromExpr( ** ** If *ppVal is initially NULL then the caller is responsible for ** ensuring that the value written into *ppVal is eventually freed. +** +** If the buffer does not contain a well-formed record, this routine may +** read several bytes past the end of the buffer. Callers must therefore +** ensure that any buffer which may contain a corrupt record is padded +** with at least 8 bytes of addressable memory. */ SQLITE_PRIVATE int sqlite3Stat4Column( sqlite3 *db, /* Database handle */ @@ -88836,6 +89725,10 @@ SQLITE_PRIVATE char *sqlite3VdbeDisplayP4(sqlite3 *db, Op *pOp){ zP4 = pOp->p4.pTab->zName; break; } + case P4_INDEX: { + zP4 = pOp->p4.pIdx->zName; + break; + } case P4_SUBRTNSIG: { SubrtnSig *pSig = pOp->p4.pSubrtnSig; sqlite3_str_appendf(&x, "subrtnsig:%d,%s", pSig->selId, pSig->zAff); @@ -89734,7 +90627,7 @@ SQLITE_PRIVATE int sqlite3VdbeSetColName( } assert( p->aColName!=0 ); pColName = &(p->aColName[idx+var*p->nResAlloc]); - rc = sqlite3VdbeMemSetStr(pColName, zName, -1, SQLITE_UTF8, xDel); + rc = sqlite3VdbeMemSetText(pColName, zName, -1, xDel); assert( rc!=0 || !zName || (pColName->flags&MEM_Term)!=0 ); return rc; } @@ -92226,6 +93119,223 @@ SQLITE_PRIVATE void sqlite3VdbeSetVarmask(Vdbe *v, int iVar){ } } +/* +** Helper function for vdbeIsMatchingIndexKey(). Return true if column +** iCol should be ignored when comparing a record with a record from +** an index on disk. The field should be ignored if: +** +** * the corresponding bit in mask is set, and +** * either: +** - bIntegrity is false, or +** - the two Mem values are both real values that differ by +** BTREE_ULPDISTORTION or fewer ULPs. +*/ +static int vdbeSkipField( + Bitmask mask, /* Mask of indexed expression fields */ + int iCol, /* Column of index being considered */ + Mem *pMem1, /* Expected index value */ + Mem *pMem2, /* Actual indexed value */ + int bIntegrity /* True if running PRAGMA integrity_check */ +){ +#define BTREE_ULPDISTORTION 2 + if( iCol>=BMS || (mask & MASKBIT(iCol))==0 ) return 0; + if( bIntegrity==0 ) return 1; + if( (pMem1->flags & MEM_Real) && (pMem2->flags & MEM_Real) ){ + u64 m1, m2; + memcpy(&m1,&pMem1->u.r,8); + memcpy(&m2,&pMem2->u.r,8); + if( (m1pKeyInfo->enc; + mem.db = p->pKeyInfo->db; + nRec = sqlite3BtreePayloadSize(pCur); + if( nRec>0x7fffffff ){ + return SQLITE_CORRUPT_BKPT; + } + + /* Allocate 5 extra bytes at the end of the buffer. This allows the + ** getVarint32() call below to read slightly past the end of the buffer + ** if the record is corrupt. */ + aRec = sqlite3MallocZero(nRec+5); + if( aRec==0 ){ + rc = SQLITE_NOMEM_BKPT; + }else{ + rc = sqlite3BtreePayload(pCur, 0, nRec, aRec); + } + + if( rc==SQLITE_OK ){ + u32 szHdr = 0; /* Size of record header in bytes */ + u32 idxHdr = 0; /* Current index in header */ + + idxHdr = getVarint32(aRec, szHdr); + if( szHdr>98307 ){ + rc = SQLITE_CORRUPT; + }else{ + int res = 0; /* Result of this function call */ + u32 idxRec = szHdr; /* Index of next field in record body */ + int ii = 0; /* Iterator variable */ + + int nCol = p->pKeyInfo->nAllField; + for(ii=0; ii=szHdr ){ + rc = SQLITE_CORRUPT_BKPT; + break; + } + idxHdr += getVarint32(&aRec[idxHdr], iSerial); + nSerial = sqlite3VdbeSerialTypeLen(iSerial); + if( (idxRec+nSerial)>nRec ){ + rc = SQLITE_CORRUPT_BKPT; + }else{ + sqlite3VdbeSerialGet(&aRec[idxRec], iSerial, &mem); + if( vdbeSkipField(mask, ii, &p->aMem[ii], &mem, bInt)==0 ){ + res = sqlite3MemCompare(&mem, &p->aMem[ii], p->pKeyInfo->aColl[ii]); + if( res!=0 ) break; + } + } + idxRec += sqlite3VdbeSerialTypeLen(iSerial); + } + + *piRes = res; + } + } + + sqlite3_free(aRec); + return rc; +} + +/* +** This is called when the record in (*p) should be found in the index +** opened by cursor pCur, but was not. This may happen as part of a DELETE +** operation or an integrity check. +** +** One reason that an exact match was not found may be the EIIB bug - that +** a text-to-float conversion may have caused a real value in record (*p) +** to be slightly different from its counterpart on disk. This function +** attempts to find the right index record. If it does find the right +** record, it leaves *pCur pointing to it and sets (*pRes) to 0 before +** returning. Otherwise, (*pRes) is set to non-zero and an SQLite error +** code returned. +** +** The algorithm used to find the correct record is: +** +** * Scan up to BTREE_FDK_RANGE entries either side of the current entry. +** If parameter bIntegrity is false, then all fields that are indexed +** expressions or virtual table columns are omitted from the comparison. +** If bIntegrity is true, then small differences in real values in +** such fields are overlooked, but they are not omitted from the comparison +** altogether. +** +** * If the above fails to find an entry and bIntegrity is false, search +** the entire index. +*/ +SQLITE_PRIVATE int sqlite3VdbeFindIndexKey( + BtCursor *pCur, + Index *pIdx, + UnpackedRecord *p, + int *pRes, + int bIntegrity +){ +#define BTREE_FDK_RANGE 10 + int nStep = 0; + int res = 1; + int rc = SQLITE_OK; + int ii = 0; + + /* Calculate a mask based on the first 64 columns of the index. The mask + ** bit is set if the corresponding index field is either an expression + ** or a virtual column of the table. */ + Bitmask mask = 0; + for(ii=0; iinColumn, BMS); ii++){ + int iCol = pIdx->aiColumn[ii]; + if( (iCol==XN_EXPR) + || (iCol>=0 && (pIdx->pTable->aCol[iCol].colFlags & COLFLAG_VIRTUAL)) + ){ + mask |= MASKBIT(ii); + } + } + + /* If the mask is 0 at this point, then the index contains no expressions + ** or virtual columns. So do not search for a match - return so that the + ** caller may declare the db corrupt immediately. Or, if mask is non-zero, + ** proceed. */ + if( mask!=0 ){ + + /* Move the cursor back BTREE_FDK_RANGE entries. If this hits an EOF, + ** position the cursor at the first entry in the index and set nStep + ** to -1 so that the first loop below scans the entire index. Otherwise, + ** set nStep to BTREE_FDK_RANGE*2 so that the first loop below scans + ** just that many entries. */ + for(ii=0; sqlite3BtreeEof(pCur)==0 && ii=0), or the entire index if (nStep<0). */ + while( sqlite3BtreeCursorIsValidNN(pCur) ){ + for(ii=0; rc==SQLITE_OK && (iipOut; - int rc = sqlite3VdbeMemSetStr(pOut, z, n, enc, xDel); + int rc; + if( enc==SQLITE_UTF8 ){ + rc = sqlite3VdbeMemSetText(pOut, z, n, xDel); + }else if( enc==SQLITE_UTF8_ZT ){ + /* It is usually considered improper to assert() on an input. However, + ** the following assert() is checking for inputs that are documented + ** to result in undefined behavior. */ + assert( z==0 + || n<0 + || n>pOut->db->aLimit[SQLITE_LIMIT_LENGTH] + || z[n]==0 + ); + rc = sqlite3VdbeMemSetText(pOut, z, n, xDel); + pOut->flags |= MEM_Term; + }else{ + rc = sqlite3VdbeMemSetStr(pOut, z, n, enc, xDel); + } if( rc ){ if( rc==SQLITE_TOOBIG ){ sqlite3_result_error_toobig(pCtx); @@ -93005,7 +94131,7 @@ SQLITE_API void sqlite3_result_text64( #endif assert( sqlite3_mutex_held(pCtx->pOut->db->mutex) ); assert( xDel!=SQLITE_DYNAMIC ); - if( enc!=SQLITE_UTF8 ){ + if( enc!=SQLITE_UTF8 && enc!=SQLITE_UTF8_ZT ){ if( enc==SQLITE_UTF16 ) enc = SQLITE_UTF16NATIVE; n &= ~(u64)1; } @@ -93156,6 +94282,8 @@ static int doWalCallbacks(sqlite3 *db){ } } } +#else + UNUSED_PARAMETER(db); #endif return rc; } @@ -94112,13 +95240,25 @@ static int bindText( assert( p!=0 && p->aVar!=0 && i>0 && i<=p->nVar ); /* tag-20240917-01 */ if( zData!=0 ){ pVar = &p->aVar[i-1]; - rc = sqlite3VdbeMemSetStr(pVar, zData, nData, encoding, xDel); - if( rc==SQLITE_OK ){ - if( encoding==0 ){ - pVar->enc = ENC(p->db); - }else{ - rc = sqlite3VdbeChangeEncoding(pVar, ENC(p->db)); - } + if( encoding==SQLITE_UTF8 ){ + rc = sqlite3VdbeMemSetText(pVar, zData, nData, xDel); + }else if( encoding==SQLITE_UTF8_ZT ){ + /* It is usually consider improper to assert() on an input. + ** However, the following assert() is checking for inputs + ** that are documented to result in undefined behavior. */ + assert( zData==0 + || nData<0 + || nData>pVar->db->aLimit[SQLITE_LIMIT_LENGTH] + || ((u8*)zData)[nData]==0 + ); + rc = sqlite3VdbeMemSetText(pVar, zData, nData, xDel); + pVar->flags |= MEM_Term; + }else{ + rc = sqlite3VdbeMemSetStr(pVar, zData, nData, encoding, xDel); + if( encoding==0 ) pVar->enc = ENC(p->db); + } + if( rc==SQLITE_OK && encoding!=0 ){ + rc = sqlite3VdbeChangeEncoding(pVar, ENC(p->db)); } if( rc ){ sqlite3Error(p->db, rc); @@ -94230,7 +95370,7 @@ SQLITE_API int sqlite3_bind_text64( unsigned char enc ){ assert( xDel!=SQLITE_DYNAMIC ); - if( enc!=SQLITE_UTF8 ){ + if( enc!=SQLITE_UTF8 && enc!=SQLITE_UTF8_ZT ){ if( enc==SQLITE_UTF16 ) enc = SQLITE_UTF16NATIVE; nData &= ~(u64)1; } @@ -95267,17 +96407,19 @@ SQLITE_PRIVATE char *sqlite3VdbeExpandSql( #ifndef SQLITE_HWTIME_H #define SQLITE_HWTIME_H -/* -** The following routine only works on Pentium-class (or newer) processors. -** It uses the RDTSC opcode to read the cycle count value out of the -** processor and returns that value. This can be used for high-res -** profiling. -*/ -#if !defined(__STRICT_ANSI__) && \ - (defined(__GNUC__) || defined(_MSC_VER)) && \ - (defined(i386) || defined(__i386__) || defined(_M_IX86)) +#if defined(_MSC_VER) && defined(_WIN32) + +/* #include "windows.h" */ + #include + + __inline sqlite3_uint64 sqlite3Hwtime(void){ + LARGE_INTEGER tm; + QueryPerformanceCounter(&tm); + return (sqlite3_uint64)tm.QuadPart; + } - #if defined(__GNUC__) +#elif !defined(__STRICT_ANSI__) && defined(__GNUC__) && \ + (defined(i386) || defined(__i386__) || defined(_M_IX86)) __inline__ sqlite_uint64 sqlite3Hwtime(void){ unsigned int lo, hi; @@ -95285,17 +96427,6 @@ SQLITE_PRIVATE char *sqlite3VdbeExpandSql( return (sqlite_uint64)hi << 32 | lo; } - #elif defined(_MSC_VER) - - __declspec(naked) __inline sqlite_uint64 __cdecl sqlite3Hwtime(void){ - __asm { - rdtsc - ret ; return value at EDX:EAX - } - } - - #endif - #elif !defined(__STRICT_ANSI__) && (defined(__GNUC__) && defined(__x86_64__)) __inline__ sqlite_uint64 sqlite3Hwtime(void){ @@ -95304,6 +96435,14 @@ SQLITE_PRIVATE char *sqlite3VdbeExpandSql( return (sqlite_uint64)hi << 32 | lo; } +#elif !defined(__STRICT_ANSI__) && defined(__GNUC__) && defined(__aarch64__) + + __inline__ sqlite_uint64 sqlite3Hwtime(void){ + sqlite3_uint64 cnt; + __asm__ __volatile__ ("mrs %0, cntvct_el0" : "=r" (cnt)); + return cnt; + } + #elif !defined(__STRICT_ANSI__) && (defined(__GNUC__) && defined(__ppc__)) __inline__ sqlite_uint64 sqlite3Hwtime(void){ @@ -95662,12 +96801,11 @@ static int alsoAnInt(Mem *pRec, double rValue, i64 *piValue){ */ static void applyNumericAffinity(Mem *pRec, int bTryForInt){ double rValue; - u8 enc = pRec->enc; int rc; assert( (pRec->flags & (MEM_Str|MEM_Int|MEM_Real|MEM_IntReal))==MEM_Str ); - rc = sqlite3AtoF(pRec->z, &rValue, pRec->n, enc); + rc = sqlite3MemRealValueRC(pRec, &rValue); if( rc<=0 ) return; - if( rc==1 && alsoAnInt(pRec, rValue, &pRec->u.i) ){ + if( (rc&2)==0 && alsoAnInt(pRec, rValue, &pRec->u.i) ){ pRec->flags |= MEM_Int; }else{ pRec->u.r = rValue; @@ -95747,7 +96885,10 @@ SQLITE_API int sqlite3_value_numeric_type(sqlite3_value *pVal){ int eType = sqlite3_value_type(pVal); if( eType==SQLITE_TEXT ){ Mem *pMem = (Mem*)pVal; + assert( pMem->db!=0 ); + sqlite3_mutex_enter(pMem->db->mutex); applyNumericAffinity(pMem, 0); + sqlite3_mutex_leave(pMem->db->mutex); eType = sqlite3_value_type(pVal); } return eType; @@ -95780,15 +96921,15 @@ static u16 SQLITE_NOINLINE computeNumericType(Mem *pMem){ pMem->u.i = 0; return MEM_Int; } - rc = sqlite3AtoF(pMem->z, &pMem->u.r, pMem->n, pMem->enc); + rc = sqlite3MemRealValueRC(pMem, &pMem->u.r); if( rc<=0 ){ - if( rc==0 && sqlite3Atoi64(pMem->z, &ix, pMem->n, pMem->enc)<=1 ){ + if( (rc&2)==0 && sqlite3Atoi64(pMem->z, &ix, pMem->n, pMem->enc)<=1 ){ pMem->u.i = ix; return MEM_Int; }else{ return MEM_Real; } - }else if( rc==1 && sqlite3Atoi64(pMem->z, &ix, pMem->n, pMem->enc)==0 ){ + }else if( (rc&2)==0 && sqlite3Atoi64(pMem->z, &ix, pMem->n, pMem->enc)==0 ){ pMem->u.i = ix; return MEM_Int; } @@ -101929,20 +103070,17 @@ case OP_SorterInsert: { /* in2 */ break; } -/* Opcode: IdxDelete P1 P2 P3 * P5 +/* Opcode: IdxDelete P1 P2 P3 P4 * ** Synopsis: key=r[P2@P3] ** ** The content of P3 registers starting at register P2 form ** an unpacked index key. This opcode removes that entry from the ** index opened by cursor P1. ** -** If P5 is not zero, then raise an SQLITE_CORRUPT_INDEX error -** if no matching index entry is found. This happens when running -** an UPDATE or DELETE statement and the index entry to be updated -** or deleted is not found. For some uses of IdxDelete -** (example: the EXCEPT operator) it does not matter that no matching -** entry is found. For those cases, P5 is zero. Also, do not raise -** this (self-correcting and non-critical) error if in writable_schema mode. +** P4 is a pointer to an Index structure. +** +** Raise an SQLITE_CORRUPT_INDEX error if no matching index entry is found +** and not in writable_schema mode. */ case OP_IdxDelete: { VdbeCursor *pC; @@ -101965,13 +103103,22 @@ case OP_IdxDelete: { r.aMem = &aMem[pOp->p2]; rc = sqlite3BtreeIndexMoveto(pCrsr, &r, &res); if( rc ) goto abort_due_to_error; - if( res==0 ){ - rc = sqlite3BtreeDelete(pCrsr, BTREE_AUXDELETE); - if( rc ) goto abort_due_to_error; - }else if( pOp->p5 && !sqlite3WritableSchema(db) ){ - rc = sqlite3ReportError(SQLITE_CORRUPT_INDEX, __LINE__, "index corruption"); - goto abort_due_to_error; + if( res!=0 ){ + rc = sqlite3VdbeFindIndexKey(pCrsr, pOp->p4.pIdx, &r, &res, 0); + if( rc!=SQLITE_OK ) goto abort_due_to_error; + if( res!=0 ){ + if( !sqlite3WritableSchema(db) ){ + rc = sqlite3ReportError( + SQLITE_CORRUPT_INDEX, __LINE__, "index corruption"); + goto abort_due_to_error; + } + pC->cacheStatus = CACHE_STALE; + pC->seekResult = 0; + break; + } } + rc = sqlite3BtreeDelete(pCrsr, BTREE_AUXDELETE); + if( rc ) goto abort_due_to_error; assert( pC->deferredMoveto==0 ); pC->cacheStatus = CACHE_STALE; pC->seekResult = 0; @@ -102598,6 +103745,58 @@ case OP_IntegrityCk: { sqlite3VdbeChangeEncoding(pIn1, encoding); goto check_for_interrupt; } + +/* Opcode: IFindKey P1 P2 P3 P4 * +** +** This instruction always follows an OP_Found with the same P1, P2 and P3 +** values as this instruction and a non-zero P4 value. The P4 value to +** this opcode is of type P4_INDEX and contains a pointer to the Index +** object of for the index being searched. +** +** This opcode uses sqlite3VdbeFindIndexKey() to search around the current +** cursor location for an index key that exactly matches all fields that +** are not indexed expressions or references to VIRTUAL generated columns, +** and either exactly match or are real numbers that are within 2 ULPs of +** each other if the don't match. +** +** To put it another way, this opcode looks for nearby index entries that +** are very close to the search key, but which might have small differences +** in floating-point values that come via an expression. +** +** If no nearby alternative entry is found in cursor P1, then jump to P2. +** But if a close match is found, fall through. +** +** This opcode is used by PRAGMA integrity_check to help distinguish +** between truely corrupt indexes and expression indexes that are holding +** floating-point values that are off by one or two ULPs. +*/ +case OP_IFindKey: { /* jump, in3 */ + VdbeCursor *pC; + int res; + UnpackedRecord r; + + assert( pOp[-1].opcode==OP_Found ); + assert( pOp[-1].p1==pOp->p1 ); + assert( pOp[-1].p3==pOp->p3 ); + pC = p->apCsr[pOp->p1]; + assert( pOp->p4type==P4_INDEX ); + assert( pC->eCurType==CURTYPE_BTREE ); + assert( pC->uc.pCursor!=0 ); + assert( pC->isTable==0 ); + + memset(&r, 0, sizeof(r)); + r.aMem = &aMem[pOp->p3]; + r.nField = pOp->p4.pIdx->nColumn; + r.pKeyInfo = pC->pKeyInfo; + + rc = sqlite3VdbeFindIndexKey(pC->uc.pCursor, pOp->p4.pIdx, &r, &res, 1); + if( rc || res!=0 ){ + rc = SQLITE_OK; + goto jump_to_p2; + } + pC->nullRow = 0; + break; +}; #endif /* SQLITE_OMIT_INTEGRITY_CHECK */ /* Opcode: RowSetAdd P1 P2 * * * @@ -110062,7 +111261,7 @@ static int exprProbability(Expr *p){ double r = -1.0; if( p->op!=TK_FLOAT ) return -1; assert( !ExprHasProperty(p, EP_IntValue) ); - sqlite3AtoF(p->u.zToken, &r, sqlite3Strlen30(p->u.zToken), SQLITE_UTF8); + sqlite3AtoF(p->u.zToken, &r); assert( r>=0.0 ); if( r>1.0 ) return -1; return (int)(r*134217728.0); @@ -110782,10 +111981,8 @@ static int resolveCompoundOrderBy( /* Convert the ORDER BY term into an integer column number iCol, ** taking care to preserve the COLLATE clause if it exists. */ if( !IN_RENAME_OBJECT ){ - Expr *pNew = sqlite3Expr(db, TK_INTEGER, 0); + Expr *pNew = sqlite3ExprInt32(db, iCol); if( pNew==0 ) return 1; - pNew->flags |= EP_IntValue; - pNew->u.iValue = iCol; if( pItem->pExpr==pE ){ pItem->pExpr = pNew; }else{ @@ -111139,10 +112336,6 @@ static int resolveSelectStep(Walker *pWalker, Select *p){ } #endif - /* The ORDER BY and GROUP BY clauses may not refer to terms in - ** outer queries - */ - sNC.pNext = 0; sNC.ncFlags |= NC_AllowAgg|NC_AllowWin; /* If this is a converted compound query, move the ORDER BY clause from @@ -112389,34 +113582,22 @@ SQLITE_PRIVATE Expr *sqlite3ExprAlloc( int dequote /* True to dequote */ ){ Expr *pNew; - int nExtra = 0; - int iValue = 0; + int nExtra = pToken ? pToken->n+1 : 0; assert( db!=0 ); - if( pToken ){ - if( op!=TK_INTEGER || pToken->z==0 - || sqlite3GetInt32(pToken->z, &iValue)==0 ){ - nExtra = pToken->n+1; /* tag-20240227-a */ - assert( iValue>=0 ); - } - } pNew = sqlite3DbMallocRawNN(db, sizeof(Expr)+nExtra); if( pNew ){ memset(pNew, 0, sizeof(Expr)); pNew->op = (u8)op; pNew->iAgg = -1; - if( pToken ){ - if( nExtra==0 ){ - pNew->flags |= EP_IntValue|EP_Leaf|(iValue?EP_IsTrue:EP_IsFalse); - pNew->u.iValue = iValue; - }else{ - pNew->u.zToken = (char*)&pNew[1]; - assert( pToken->z!=0 || pToken->n==0 ); - if( pToken->n ) memcpy(pNew->u.zToken, pToken->z, pToken->n); - pNew->u.zToken[pToken->n] = 0; - if( dequote && sqlite3Isquote(pNew->u.zToken[0]) ){ - sqlite3DequoteExpr(pNew); - } + if( nExtra ){ + assert( pToken!=0 ); + pNew->u.zToken = (char*)&pNew[1]; + assert( pToken->z!=0 || pToken->n==0 ); + if( pToken->n ) memcpy(pNew->u.zToken, pToken->z, pToken->n); + pNew->u.zToken[pToken->n] = 0; + if( dequote && sqlite3Isquote(pNew->u.zToken[0]) ){ + sqlite3DequoteExpr(pNew); } } #if SQLITE_MAX_EXPR_DEPTH>0 @@ -112441,6 +113622,24 @@ SQLITE_PRIVATE Expr *sqlite3Expr( return sqlite3ExprAlloc(db, op, &x, 0); } +/* +** Allocate an expression for a 32-bit signed integer literal. +*/ +SQLITE_PRIVATE Expr *sqlite3ExprInt32(sqlite3 *db, int iVal){ + Expr *pNew = sqlite3DbMallocRawNN(db, sizeof(Expr)); + if( pNew ){ + memset(pNew, 0, sizeof(Expr)); + pNew->op = TK_INTEGER; + pNew->iAgg = -1; + pNew->flags = EP_IntValue|EP_Leaf|(iVal?EP_IsTrue:EP_IsFalse); + pNew->u.iValue = iVal; +#if SQLITE_MAX_EXPR_DEPTH>0 + pNew->nHeight = 1; +#endif + } + return pNew; +} + /* ** Attach subtrees pLeft and pRight to the Expr node pRoot. ** @@ -112603,7 +113802,7 @@ SQLITE_PRIVATE Expr *sqlite3ExprAnd(Parse *pParse, Expr *pLeft, Expr *pRight){ ){ sqlite3ExprDeferredDelete(pParse, pLeft); sqlite3ExprDeferredDelete(pParse, pRight); - return sqlite3Expr(db, TK_INTEGER, "0"); + return sqlite3ExprInt32(db, 0); }else{ return sqlite3PExpr(pParse, TK_AND, pLeft, pRight); } @@ -112728,7 +113927,9 @@ SQLITE_PRIVATE void sqlite3ExprFunctionUsable( ){ assert( !IN_RENAME_OBJECT ); assert( (pDef->funcFlags & (SQLITE_FUNC_DIRECT|SQLITE_FUNC_UNSAFE))!=0 ); - if( ExprHasProperty(pExpr, EP_FromDDL) ){ + if( ExprHasProperty(pExpr, EP_FromDDL) + || pParse->prepFlags & SQLITE_PREPARE_FROM_DDL + ){ if( (pDef->funcFlags & SQLITE_FUNC_DIRECT)!=0 || (pParse->db->flags & SQLITE_TrustedSchema)==0 ){ @@ -113424,9 +114625,7 @@ SQLITE_PRIVATE Select *sqlite3SelectDup(sqlite3 *db, const Select *pDup, int fla pNew->pLimit = sqlite3ExprDup(db, p->pLimit, flags); pNew->iLimit = 0; pNew->iOffset = 0; - pNew->selFlags = p->selFlags & ~(u32)SF_UsesEphemeral; - pNew->addrOpenEphm[0] = -1; - pNew->addrOpenEphm[1] = -1; + pNew->selFlags = p->selFlags; pNew->nSelectRow = p->nSelectRow; pNew->pWith = sqlite3WithDup(db, p->pWith); #ifndef SQLITE_OMIT_WINDOWFUNC @@ -114078,7 +115277,7 @@ static int exprIsConst(Parse *pParse, Expr *p, int initFlag){ /* ** Walk an expression tree. Return non-zero if the expression is constant -** and 0 if it involves variables or function calls. +** or return zero if the expression involves variables or function calls. ** ** For the purposes of this function, a double-quoted string (ex: "abc") ** is considered a variable but a single-quoted string (ex: 'abc') is @@ -114868,6 +116067,7 @@ SQLITE_PRIVATE int sqlite3FindInIndex( */ u32 savedNQueryLoop = pParse->nQueryLoop; int rMayHaveNull = 0; + int bloomOk = (inFlags & IN_INDEX_MEMBERSHIP)!=0; eType = IN_INDEX_EPH; if( inFlags & IN_INDEX_LOOP ){ pParse->nQueryLoop = 0; @@ -114875,7 +116075,13 @@ SQLITE_PRIVATE int sqlite3FindInIndex( *prRhsHasNull = rMayHaveNull = ++pParse->nMem; } assert( pX->op==TK_IN ); - sqlite3CodeRhsOfIN(pParse, pX, iTab); + if( !bloomOk + && ExprUseXSelect(pX) + && (pX->x.pSelect->selFlags & SF_ClonedRhsIn)!=0 + ){ + bloomOk = 1; + } + sqlite3CodeRhsOfIN(pParse, pX, iTab, bloomOk); if( rMayHaveNull ){ sqlite3SetHasNullFlag(v, iTab, rMayHaveNull); } @@ -115033,7 +116239,8 @@ static int findCompatibleInRhsSubrtn( SQLITE_PRIVATE void sqlite3CodeRhsOfIN( Parse *pParse, /* Parsing context */ Expr *pExpr, /* The IN operator */ - int iTab /* Use this cursor number */ + int iTab, /* Use this cursor number */ + int allowBloom /* True to allow the use of a Bloom filter */ ){ int addrOnce = 0; /* Address of the OP_Once instruction at top */ int addr; /* Address of OP_OpenEphemeral instruction */ @@ -115155,7 +116362,10 @@ SQLITE_PRIVATE void sqlite3CodeRhsOfIN( sqlite3SelectDestInit(&dest, SRT_Set, iTab); dest.zAffSdst = exprINAffinity(pParse, pExpr); pSelect->iLimit = 0; - if( addrOnce && OptimizationEnabled(pParse->db, SQLITE_BloomFilter) ){ + if( addrOnce + && allowBloom + && OptimizationEnabled(pParse->db, SQLITE_BloomFilter) + ){ int regBloom = ++pParse->nMem; addrBloom = sqlite3VdbeAddOp2(v, OP_Blob, 10000, regBloom); VdbeComment((v, "Bloom filter")); @@ -115376,7 +116586,7 @@ SQLITE_PRIVATE int sqlite3CodeSubselect(Parse *pParse, Expr *pExpr){ || (pLeft->u.iValue!=1 && pLeft->u.iValue!=0) ){ sqlite3 *db = pParse->db; - pLimit = sqlite3Expr(db, TK_INTEGER, "0"); + pLimit = sqlite3ExprInt32(db, 0); if( pLimit ){ pLimit->affExpr = SQLITE_AFF_NUMERIC; pLimit = sqlite3PExpr(pParse, TK_NE, @@ -115387,7 +116597,7 @@ SQLITE_PRIVATE int sqlite3CodeSubselect(Parse *pParse, Expr *pExpr){ } }else{ /* If there is no pre-existing limit add a limit of 1 */ - pLimit = sqlite3Expr(pParse->db, TK_INTEGER, "1"); + pLimit = sqlite3ExprInt32(pParse->db, 1); pSel->pLimit = sqlite3PExpr(pParse, TK_LIMIT, pLimit, 0); } pSel->iLimit = 0; @@ -115648,8 +116858,9 @@ static void sqlite3ExprCodeIN( if( ExprHasProperty(pExpr, EP_Subrtn) ){ const VdbeOp *pOp = sqlite3VdbeGetOp(v, pExpr->y.sub.iAddr); assert( pOp->opcode==OP_Once || pParse->nErr ); - if( pOp->opcode==OP_Once && pOp->p3>0 ){ /* tag-202407032019 */ - assert( OptimizationEnabled(pParse->db, SQLITE_BloomFilter) ); + if( pOp->p3>0 ){ /* tag-202407032019 */ + assert( OptimizationEnabled(pParse->db, SQLITE_BloomFilter) + || pParse->nErr ); sqlite3VdbeAddOp4Int(v, OP_Filter, pOp->p3, destIfFalse, rLhs, nVector); VdbeCoverage(v); } @@ -115739,7 +116950,7 @@ static void sqlite3ExprCodeIN( static void codeReal(Vdbe *v, const char *z, int negateFlag, int iMem){ if( ALWAYS(z!=0) ){ double value; - sqlite3AtoF(z, &value, sqlite3Strlen30(z), SQLITE_UTF8); + sqlite3AtoF(z, &value); assert( !sqlite3IsNaN(value) ); /* The new AtoF never returns NaN */ if( negateFlag ) value = -value; sqlite3VdbeAddOp4Dup8(v, OP_Real, 0, iMem, 0, (u8*)&value, P4_REAL); @@ -116598,7 +117809,7 @@ SQLITE_PRIVATE int sqlite3ExprCodeTarget(Parse *pParse, Expr *pExpr, int target) case TK_ISNOT: op = (op==TK_IS) ? TK_EQ : TK_NE; p5 = SQLITE_NULLEQ; - /* fall-through */ + /* no break */ deliberate_fall_through case TK_LT: case TK_LE: case TK_GT: @@ -118840,7 +120051,10 @@ static int analyzeAggregate(Walker *pWalker, Expr *pExpr){ if( pIEpr==0 ) break; if( NEVER(!ExprUseYTab(pExpr)) ) break; for(i=0; inSrc; i++){ - if( pSrcList->a[0].iCursor==pIEpr->iDataCur ) break; + if( pSrcList->a[i].iCursor==pIEpr->iDataCur ){ + testcase( i>0 ); + break; + } } if( i>=pSrcList->nSrc ) break; if( NEVER(pExpr->pAggInfo!=0) ) break; /* Resolved by outer context */ @@ -119629,7 +120843,7 @@ SQLITE_PRIVATE void sqlite3AlterBeginAddColumn(Parse *pParse, SrcList *pSrc){ /* Look up the table being altered. */ assert( pParse->pNewTable==0 ); assert( sqlite3BtreeHoldsAllMutexes(db) ); - if( db->mallocFailed ) goto exit_begin_add_column; + if( NEVER(db->mallocFailed) ) goto exit_begin_add_column; pTab = sqlite3LocateTableItem(pParse, 0, &pSrc->a[0]); if( !pTab ) goto exit_begin_add_column; @@ -119701,7 +120915,7 @@ SQLITE_PRIVATE void sqlite3AlterBeginAddColumn(Parse *pParse, SrcList *pSrc){ ** Or, if pTab is not a view or virtual table, zero is returned. */ #if !defined(SQLITE_OMIT_VIEW) || !defined(SQLITE_OMIT_VIRTUALTABLE) -static int isRealTable(Parse *pParse, Table *pTab, int bDrop){ +static int isRealTable(Parse *pParse, Table *pTab, int iOp){ const char *zType = 0; #ifndef SQLITE_OMIT_VIEW if( IsView(pTab) ){ @@ -119714,9 +120928,12 @@ static int isRealTable(Parse *pParse, Table *pTab, int bDrop){ } #endif if( zType ){ + const char *azMsg[] = { + "rename columns of", "drop column from", "edit constraints of" + }; + assert( iOp>=0 && iOpzName + azMsg[iOp], zType, pTab->zName ); return 1; } @@ -120187,6 +121404,25 @@ static RenameToken *renameColumnTokenNext(RenameCtx *pCtx){ return pBest; } +/* +** Set the error message of the context passed as the first argument to +** the result of formatting zFmt using printf() style formatting. +*/ +static void errorMPrintf(sqlite3_context *pCtx, const char *zFmt, ...){ + sqlite3 *db = sqlite3_context_db_handle(pCtx); + char *zErr = 0; + va_list ap; + va_start(ap, zFmt); + zErr = sqlite3VMPrintf(db, zFmt, ap); + va_end(ap); + if( zErr ){ + sqlite3_result_error(pCtx, zErr, -1); + sqlite3DbFree(db, zErr); + }else{ + sqlite3_result_error_nomem(pCtx); + } +} + /* ** An error occurred while parsing or otherwise processing a database ** object (either pParse->pNewTable, pNewIndex or pNewTrigger) as part of an @@ -120484,8 +121720,8 @@ static int renameResolveTrigger(Parse *pParse){ sqlite3SelectPrep(pParse, pStep->pSelect, &sNC); if( pParse->nErr ) rc = pParse->rc; } - if( rc==SQLITE_OK && pStep->zTarget ){ - SrcList *pSrc = sqlite3TriggerStepSrc(pParse, pStep); + if( rc==SQLITE_OK && pStep->pSrc ){ + SrcList *pSrc = sqlite3SrcListDup(db, pStep->pSrc, 0); if( pSrc ){ Select *pSel = sqlite3SelectNew( pParse, pStep->pExprList, pSrc, 0, 0, 0, 0, 0, 0 @@ -120513,10 +121749,10 @@ static int renameResolveTrigger(Parse *pParse){ pSel->pSrc = 0; sqlite3SelectDelete(db, pSel); } - if( pStep->pFrom ){ + if( ALWAYS(pStep->pSrc) ){ int i; - for(i=0; ipFrom->nSrc && rc==SQLITE_OK; i++){ - SrcItem *p = &pStep->pFrom->a[i]; + for(i=0; ipSrc->nSrc && rc==SQLITE_OK; i++){ + SrcItem *p = &pStep->pSrc->a[i]; if( p->fg.isSubquery ){ assert( p->u4.pSubq!=0 ); sqlite3SelectPrep(pParse, p->u4.pSubq->pSelect, 0); @@ -120585,13 +121821,13 @@ static void renameWalkTrigger(Walker *pWalker, Trigger *pTrigger){ sqlite3WalkExpr(pWalker, pUpsert->pUpsertWhere); sqlite3WalkExpr(pWalker, pUpsert->pUpsertTargetWhere); } - if( pStep->pFrom ){ + if( pStep->pSrc ){ int i; - SrcList *pFrom = pStep->pFrom; - for(i=0; inSrc; i++){ - if( pFrom->a[i].fg.isSubquery ){ - assert( pFrom->a[i].u4.pSubq!=0 ); - sqlite3WalkSelect(pWalker, pFrom->a[i].u4.pSubq->pSelect); + SrcList *pSrc = pStep->pSrc; + for(i=0; inSrc; i++){ + if( pSrc->a[i].fg.isSubquery ){ + assert( pSrc->a[i].u4.pSubq!=0 ); + sqlite3WalkSelect(pWalker, pSrc->a[i].u4.pSubq->pSelect); } } } @@ -120762,8 +121998,8 @@ static void renameColumnFunc( if( rc!=SQLITE_OK ) goto renameColumnFunc_done; for(pStep=sParse.pNewTrigger->step_list; pStep; pStep=pStep->pNext){ - if( pStep->zTarget ){ - Table *pTarget = sqlite3LocateTable(&sParse, 0, pStep->zTarget, zDb); + if( pStep->pSrc ){ + Table *pTarget = sqlite3LocateTableItem(&sParse, 0, &pStep->pSrc->a[0]); if( pTarget==pTab ){ if( pStep->pUpsert ){ ExprList *pUpsertSet = pStep->pUpsert->pUpsertSet; @@ -120775,7 +122011,6 @@ static void renameColumnFunc( } } - /* Find tokens to edit in UPDATE OF clause */ if( sParse.pTriggerTab==pTab ){ renameColumnIdlistNames(&sParse, &sCtx,sParse.pNewTrigger->pColumns,zOld); @@ -120977,13 +122212,10 @@ static void renameTableFunc( if( rc==SQLITE_OK ){ renameWalkTrigger(&sWalker, pTrigger); for(pStep=pTrigger->step_list; pStep; pStep=pStep->pNext){ - if( pStep->zTarget && 0==sqlite3_stricmp(pStep->zTarget, zOld) ){ - renameTokenFind(&sParse, &sCtx, pStep->zTarget); - } - if( pStep->pFrom ){ + if( pStep->pSrc ){ int i; - for(i=0; ipFrom->nSrc; i++){ - SrcItem *pItem = &pStep->pFrom->a[i]; + for(i=0; ipSrc->nSrc; i++){ + SrcItem *pItem = &pStep->pSrc->a[i]; if( 0==sqlite3_stricmp(pItem->zName, zOld) ){ renameTokenFind(&sParse, &sCtx, pItem->zName); } @@ -121230,6 +122462,57 @@ static void renameTableTest( #endif } + +/* +** Return the number of bytes until the end of the next non-whitespace and +** non-comment token. For the purpose of this function, a "(" token includes +** all of the bytes through and including the matching ")", or until the +** first illegal token, whichever comes first. +** +** Write the token type into *piToken. +** +** The value returned is the number of bytes in the token itself plus +** the number of bytes of leading whitespace and comments skipped plus +** all bytes through the next matching ")" if the token is TK_LP. +** +** Example: (Note: '.' used in place of '*' in the example z[] text) +** +** ,--------- *piToken := TK_RP +** v +** z[] = " /.comment./ --comment\n (two three four) five" +** | | +** |<-------------------------------------->| +** | +** `--- return value +*/ +static int getConstraintToken(const u8 *z, int *piToken){ + int iOff = 0; + int t = 0; + do { + iOff += sqlite3GetToken(&z[iOff], &t); + }while( t==TK_SPACE || t==TK_COMMENT ); + + *piToken = t; + + if( t==TK_LP ){ + int nNest = 1; + while( nNest>0 ){ + iOff += sqlite3GetToken(&z[iOff], &t); + if( t==TK_LP ){ + nNest++; + }else if( t==TK_RP ){ + t = TK_LP; + nNest--; + }else if( t==TK_ILLEGAL ){ + break; + } + } + } + + *piToken = t; + return iOff; +} + /* ** The implementation of internal UDF sqlite_drop_column(). ** @@ -121274,15 +122557,24 @@ static void dropColumnFunc( goto drop_column_done; } - pCol = renameTokenFind(&sParse, 0, (void*)pTab->aCol[iCol].zCnName); if( iColnCol-1 ){ RenameToken *pEnd; + pCol = renameTokenFind(&sParse, 0, (void*)pTab->aCol[iCol].zCnName); pEnd = renameTokenFind(&sParse, 0, (void*)pTab->aCol[iCol+1].zCnName); zEnd = (const char*)pEnd->t.z; }else{ + int eTok; assert( IsOrdinaryTable(pTab) ); + assert( iCol!=0 ); + /* Point pCol->t.z at the "," immediately preceding the definition of + ** the column being dropped. To do this, start at the name of the + ** previous column, and tokenize until the next ",". */ + pCol = renameTokenFind(&sParse, 0, (void*)pTab->aCol[iCol-1].zCnName); + do { + pCol->t.z += getConstraintToken((const u8*)pCol->t.z, &eTok); + }while( eTok!=TK_COMMA ); + pCol->t.z--; zEnd = (const char*)&zSql[pTab->u.tab.addColOffset]; - while( ALWAYS(pCol->t.z[0]!=0) && pCol->t.z[0]!=',' ) pCol->t.z--; } zNew = sqlite3MPrintf(db, "%.*s%s", pCol->t.z-zSql, zSql, zEnd); @@ -121451,6 +122743,653 @@ SQLITE_PRIVATE void sqlite3AlterDropColumn(Parse *pParse, SrcList *pSrc, const T sqlite3SrcListDelete(db, pSrc); } +/* +** Return the number of bytes of leading whitespace/comments in string z[]. +*/ +static int getWhitespace(const u8 *z){ + int nRet = 0; + while( 1 ){ + int t = 0; + int n = sqlite3GetToken(&z[nRet], &t); + if( t!=TK_SPACE && t!=TK_COMMENT ) break; + nRet += n; + } + return nRet; +} + + +/* +** Argument z points into the body of a constraint - specifically the +** second token of the constraint definition. For a named constraint, +** z points to the first token past the CONSTRAINT keyword. For an +** unnamed NOT NULL constraint, z points to the first byte past the NOT +** keyword. +** +** Return the number of bytes until the end of the constraint. +*/ +static int getConstraint(const u8 *z){ + int iOff = 0; + int t = 0; + + /* Now, the current constraint proceeds until the next occurence of one + ** of the following tokens: + ** + ** CONSTRAINT, PRIMARY, NOT, UNIQUE, CHECK, DEFAULT, + ** COLLATE, REFERENCES, FOREIGN, GENERATED, AS, RP, or COMMA + ** + ** Also exit the loop if ILLEGAL turns up. + */ + while( 1 ){ + int n = getConstraintToken(&z[iOff], &t); + if( t==TK_CONSTRAINT || t==TK_PRIMARY || t==TK_NOT || t==TK_UNIQUE + || t==TK_CHECK || t==TK_DEFAULT || t==TK_COLLATE || t==TK_REFERENCES + || t==TK_FOREIGN || t==TK_RP || t==TK_COMMA || t==TK_ILLEGAL + || t==TK_AS || t==TK_GENERATED + ){ + break; + } + iOff += n; + } + + return iOff; +} + +/* +** Compare two constraint names. +** +** Summary: *pRes := zQuote != zCmp +** +** Details: +** Compare the (possibly quoted) constraint name zQuote[0..nQuote-1] +** against zCmp[]. Write zero into *pRes if they are the same and +** non-zero if they differ. Normally return SQLITE_OK, except if there +** is an OOM, set the OOM error condition on ctx and return SQLITE_NOMEM. +*/ +static int quotedCompare( + sqlite3_context *ctx, /* Function context on which to report errors */ + int t, /* Token type */ + const u8 *zQuote, /* Possibly quoted text. Not zero-terminated. */ + int nQuote, /* Length of zQuote in bytes */ + const u8 *zCmp, /* Zero-terminated, unquoted name to compare against */ + int *pRes /* OUT: Set to 0 if equal, non-zero if unequal */ +){ + char *zCopy = 0; /* De-quoted, zero-terminated copy of zQuote[] */ + + if( t==TK_ILLEGAL ){ + *pRes = 1; + return SQLITE_OK; + } + zCopy = sqlite3MallocZero(nQuote+1); + if( zCopy==0 ){ + sqlite3_result_error_nomem(ctx); + return SQLITE_NOMEM_BKPT; + } + memcpy(zCopy, zQuote, nQuote); + sqlite3Dequote(zCopy); + *pRes = sqlite3_stricmp((const char*)zCopy, (const char*)zCmp); + sqlite3_free(zCopy); + return SQLITE_OK; +} + +/* +** zSql[] is a CREATE TABLE statement, supposedly. Find the offset +** into zSql[] of the first character past the first "(" and write +** that offset into *piOff and return SQLITE_OK. Or, if not found, +** set the SQLITE_CORRUPT error code and return SQLITE_ERROR. +*/ +static int skipCreateTable(sqlite3_context *ctx, const u8 *zSql, int *piOff){ + int iOff = 0; + + if( zSql==0 ) return SQLITE_ERROR; + + /* Jump past the "CREATE TABLE" bit. */ + while( 1 ){ + int t = 0; + iOff += sqlite3GetToken(&zSql[iOff], &t); + if( t==TK_LP ) break; + if( t==TK_ILLEGAL ){ + sqlite3_result_error_code(ctx, SQLITE_CORRUPT_BKPT); + return SQLITE_ERROR; + } + } + + *piOff = iOff; + return SQLITE_OK; +} + +/* +** Internal SQL function sqlite3_drop_constraint(): Given an input +** CREATE TABLE statement, return a revised CREATE TABLE statement +** with a constraint removed. Two forms, depending on the datatype +** of argv[2]: +** +** sqlite_drop_constraint(SQL, INT) -- Omit NOT NULL from the INT-th column +** sqlite_drop_constraint(SQL, TEXT) -- OMIT constraint with name TEXT +** +** In the first case, the left-most column is 0. +*/ +static void dropConstraintFunc( + sqlite3_context *ctx, + int NotUsed, + sqlite3_value **argv +){ + const u8 *zSql = sqlite3_value_text(argv[0]); + const u8 *zCons = 0; + int iNotNull = -1; + int ii; + int iOff = 0; + int iStart = 0; + int iEnd = 0; + char *zNew = 0; + int t = 0; + sqlite3 *db; + UNUSED_PARAMETER(NotUsed); + + if( zSql==0 ) return; + + /* Jump past the "CREATE TABLE" bit. */ + if( skipCreateTable(ctx, zSql, &iOff) ) return; + + if( sqlite3_value_type(argv[1])==SQLITE_INTEGER ){ + iNotNull = sqlite3_value_int(argv[1]); + }else{ + zCons = sqlite3_value_text(argv[1]); + } + + /* Search for the named constraint within column definitions. */ + for(ii=0; iEnd==0; ii++){ + + /* Now parse the column or table constraint definition. Search + ** for the token CONSTRAINT if this is a DROP CONSTRAINT command, or + ** NOT in the right column if this is a DROP NOT NULL. */ + while( 1 ){ + iStart = iOff; + iOff += getConstraintToken(&zSql[iOff], &t); + if( t==TK_CONSTRAINT && (zCons || iNotNull==ii) ){ + /* Check if this is the constraint we are searching for. */ + int nTok = 0; + int cmp = 1; + + /* Skip past any whitespace. */ + iOff += getWhitespace(&zSql[iOff]); + + /* Compare the next token - which may be quoted - with the name of + ** the constraint being dropped. */ + nTok = getConstraintToken(&zSql[iOff], &t); + if( zCons ){ + if( quotedCompare(ctx, t, &zSql[iOff], nTok, zCons, &cmp) ) return; + } + iOff += nTok; + + /* The next token is usually the first token of the constraint + ** definition. This is enough to tell the type of the constraint - + ** TK_NOT means it is a NOT NULL, TK_CHECK a CHECK constraint etc. + ** + ** There is also the chance that the next token is TK_CONSTRAINT + ** (or TK_DEFAULT or TK_COLLATE), for example if a table has been + ** created as follows: + ** + ** CREATE TABLE t1(cols, CONSTRAINT one CONSTRAINT two NOT NULL); + ** + ** In this case, allow the "CONSTRAINT one" bit to be dropped by + ** this command if that is what is requested, or to advance to + ** the next iteration of the loop with &zSql[iOff] still pointing + ** to the CONSTRAINT keyword. */ + nTok = getConstraintToken(&zSql[iOff], &t); + if( t==TK_CONSTRAINT || t==TK_DEFAULT || t==TK_COLLATE + || t==TK_COMMA || t==TK_RP || t==TK_GENERATED || t==TK_AS + ){ + t = TK_CHECK; + }else{ + iOff += nTok; + iOff += getConstraint(&zSql[iOff]); + } + + if( cmp==0 || (iNotNull>=0 && t==TK_NOT) ){ + if( t!=TK_NOT && t!=TK_CHECK ){ + errorMPrintf(ctx, "constraint may not be dropped: %s", zCons); + return; + } + iEnd = iOff; + break; + } + + }else if( t==TK_NOT && iNotNull==ii ){ + iEnd = iOff + getConstraint(&zSql[iOff]); + break; + }else if( t==TK_RP || t==TK_ILLEGAL ){ + iEnd = -1; + break; + }else if( t==TK_COMMA ){ + break; + } + } + } + + /* If the constraint has not been found it is an error. */ + if( iEnd<=0 ){ + if( zCons ){ + errorMPrintf(ctx, "no such constraint: %s", zCons); + }else{ + /* SQLite follows postgres in that a DROP NOT NULL on a column that is + ** not NOT NULL is not an error. So just return the original SQL here. */ + sqlite3_result_text(ctx, (const char*)zSql, -1, SQLITE_TRANSIENT); + } + }else{ + + /* Figure out if an extra space should be inserted after the constraint + ** is removed. And if an additional comma preceding the constraint + ** should be removed. */ + const char *zSpace = " "; + iEnd += getWhitespace(&zSql[iEnd]); + sqlite3GetToken(&zSql[iEnd], &t); + if( t==TK_RP || t==TK_COMMA ){ + zSpace = ""; + if( zSql[iStart-1]==',' ) iStart--; + } + + db = sqlite3_context_db_handle(ctx); + zNew = sqlite3MPrintf(db, "%.*s%s%s", iStart, zSql, zSpace, &zSql[iEnd]); + sqlite3_result_text(ctx, zNew, -1, SQLITE_DYNAMIC); + } +} + +/* +** Internal SQL function: +** +** sqlite_add_constraint(SQL, CONSTRAINT-TEXT, ICOL) +** +** SQL is a CREATE TABLE statement. Return a modified version of +** SQL that adds CONSTRAINT-TEXT at the end of the ICOL-th column +** definition. (The left-most column defintion is 0.) +*/ +static void addConstraintFunc( + sqlite3_context *ctx, + int NotUsed, + sqlite3_value **argv +){ + const u8 *zSql = sqlite3_value_text(argv[0]); + const char *zCons = (const char*)sqlite3_value_text(argv[1]); + int iCol = sqlite3_value_int(argv[2]); + int iOff = 0; + int ii; + char *zNew = 0; + int t = 0; + sqlite3 *db; + UNUSED_PARAMETER(NotUsed); + + if( skipCreateTable(ctx, zSql, &iOff) ) return; + + for(ii=0; ii<=iCol || (iCol<0 && t!=TK_RP); ii++){ + iOff += getConstraintToken(&zSql[iOff], &t); + while( 1 ){ + int nTok = getConstraintToken(&zSql[iOff], &t); + if( t==TK_COMMA || t==TK_RP ) break; + if( t==TK_ILLEGAL ){ + sqlite3_result_error_code(ctx, SQLITE_CORRUPT_BKPT); + return; + } + iOff += nTok; + } + } + + iOff += getWhitespace(&zSql[iOff]); + + db = sqlite3_context_db_handle(ctx); + if( iCol<0 ){ + zNew = sqlite3MPrintf(db, "%.*s, %s%s", iOff, zSql, zCons, &zSql[iOff]); + }else{ + zNew = sqlite3MPrintf(db, "%.*s %s%s", iOff, zSql, zCons, &zSql[iOff]); + } + sqlite3_result_text(ctx, zNew, -1, SQLITE_DYNAMIC); +} + +/* +** Find a column named pCol in table pTab. If successful, set output +** parameter *piCol to the index of the column in the table and return +** SQLITE_OK. Otherwise, set *piCol to -1 and return an SQLite error +** code. +*/ +static int alterFindCol(Parse *pParse, Table *pTab, Token *pCol, int *piCol){ + sqlite3 *db = pParse->db; + char *zName = sqlite3NameFromToken(db, pCol); + int rc = SQLITE_NOMEM; + int iCol = -1; + + if( zName ){ + iCol = sqlite3ColumnIndex(pTab, zName); + if( iCol<0 ){ + sqlite3ErrorMsg(pParse, "no such column: %s", zName); + rc = SQLITE_ERROR; + }else{ + rc = SQLITE_OK; + } + } + +#ifndef SQLITE_OMIT_AUTHORIZATION + if( rc==SQLITE_OK ){ + const char *zDb = db->aDb[sqlite3SchemaToIndex(db, pTab->pSchema)].zDbSName; + const char *zCol = pTab->aCol[iCol].zCnName; + if( sqlite3AuthCheck(pParse, SQLITE_ALTER_TABLE, zDb, pTab->zName, zCol) ){ + pTab = 0; + } + } +#endif + + sqlite3DbFree(db, zName); + *piCol = iCol; + return rc; +} + + +/* +** Find the table named by the first entry in source list pSrc. If successful, +** return a pointer to the Table structure and set output variable (*pzDb) +** to point to the name of the database containin the table (i.e. "main", +** "temp" or the name of an attached database). +** +** If the table cannot be located, return NULL. The value of the two output +** parameters is undefined in this case. +*/ +static Table *alterFindTable( + Parse *pParse, /* Parsing context */ + SrcList *pSrc, /* Name of the table to look for */ + int *piDb, /* OUT: write the iDb here */ + const char **pzDb, /* OUT: write name of schema here */ + int bAuth /* Do ALTER TABLE authorization checks if true */ +){ + sqlite3 *db = pParse->db; + Table *pTab = 0; + assert( sqlite3BtreeHoldsAllMutexes(db) ); + pTab = sqlite3LocateTableItem(pParse, 0, &pSrc->a[0]); + if( pTab ){ + int iDb = sqlite3SchemaToIndex(db, pTab->pSchema); + *pzDb = db->aDb[iDb].zDbSName; + *piDb = iDb; + + if( SQLITE_OK!=isRealTable(pParse, pTab, 2) + || SQLITE_OK!=isAlterableTable(pParse, pTab) + ){ + pTab = 0; + } + } +#ifndef SQLITE_OMIT_AUTHORIZATION + if( pTab && bAuth ){ + if( sqlite3AuthCheck(pParse, SQLITE_ALTER_TABLE, *pzDb, pTab->zName, 0) ){ + pTab = 0; + } + } +#endif + sqlite3SrcListDelete(db, pSrc); + return pTab; +} + +/* +** Generate bytecode for one of: +** +** (1) ALTER TABLE pSrc DROP CONSTRAINT pCons +** (2) ALTER TABLE pSrc ALTER pCol DROP NOT NULL +** +** One of pCons and pCol must be NULL and the other non-null. +*/ +SQLITE_PRIVATE void sqlite3AlterDropConstraint( + Parse *pParse, /* Parsing context */ + SrcList *pSrc, /* The table being altered */ + Token *pCons, /* Name of the constraint to drop */ + Token *pCol /* Name of the column from which to remove the NOT NULL */ +){ + sqlite3 *db = pParse->db; + Table *pTab = 0; + int iDb = 0; + const char *zDb = 0; + char *zArg = 0; + + assert( (pCol==0)!=(pCons==0) ); + assert( pSrc->nSrc==1 ); + pTab = alterFindTable(pParse, pSrc, &iDb, &zDb, pCons!=0); + if( !pTab ) return; + + if( pCons ){ + char *z = sqlite3NameFromToken(db, pCons); + zArg = sqlite3MPrintf(db, "%Q", z); + sqlite3DbFree(db, z); + }else{ + int iCol; + if( alterFindCol(pParse, pTab, pCol, &iCol) ) return; + zArg = sqlite3MPrintf(db, "%d", iCol); + } + + /* Edit the SQL for the named table. */ + sqlite3NestedParse(pParse, + "UPDATE \"%w\"." LEGACY_SCHEMA_TABLE " SET " + "sql = sqlite_drop_constraint(sql, %s) " + "WHERE type='table' AND tbl_name=%Q COLLATE nocase" + , zDb, zArg, pTab->zName + ); + sqlite3DbFree(db, zArg); + + /* Finally, reload the database schema. */ + renameReloadSchema(pParse, iDb, INITFLAG_AlterDropCons); +} + +/* +** The implementation of SQL function sqlite_fail(MSG). This takes a single +** argument, and returns it as an error message with the error code set to +** SQLITE_CONSTRAINT. +*/ +static void failConstraintFunc( + sqlite3_context *ctx, + int NotUsed, + sqlite3_value **argv +){ + const char *zText = (const char*)sqlite3_value_text(argv[0]); + int err = sqlite3_value_int(argv[1]); + (void)NotUsed; + sqlite3_result_error(ctx, zText, -1); + sqlite3_result_error_code(ctx, err); +} + +/* +** Buffer pCons, which is nCons bytes in size, contains the text of a +** NOT NULL or CHECK constraint that will be inserted into a CREATE TABLE +** statement. If successful, this function returns the size of the buffer in +** bytes not including any trailing whitespace or "--" style comments. Or, +** if an OOM occurs, it returns 0 and sets db->mallocFailed to true. +** +** C-style comments at the end are preserved. "--" style comments are +** removed because the comment terminator might be \000, and we are about +** to insert the pCons[] text into the middle of a larger string, and that +** will have the effect of removing the comment terminator and messing up +** the syntax. +*/ +static int alterRtrimConstraint( + sqlite3 *db, /* used to record OOM error */ + const char *pCons, /* Buffer containing constraint */ + int nCons /* Size of pCons in bytes */ +){ + u8 *zTmp = (u8*)sqlite3MPrintf(db, "%.*s", nCons, pCons); + int iOff = 0; + int iEnd = 0; + + if( zTmp==0 ) return 0; + + while( 1 ){ + int t = 0; + int nToken = sqlite3GetToken(&zTmp[iOff], &t); + if( t==TK_ILLEGAL ) break; + if( t!=TK_SPACE && (t!=TK_COMMENT || zTmp[iOff]!='-') ){ + iEnd = iOff+nToken; + } + iOff += nToken; + } + + sqlite3DbFree(db, zTmp); + return iEnd; +} + +/* +** Prepare a statement of the form: +** +** ALTER TABLE pSrc ALTER pCol SET NOT NULL +*/ +SQLITE_PRIVATE void sqlite3AlterSetNotNull( + Parse *pParse, /* Parsing context */ + SrcList *pSrc, /* Name of the table being altered */ + Token *pCol, /* Name of the column to add a NOT NULL constraint to */ + Token *pFirst /* The NOT token of the NOT NULL constraint text */ +){ + Table *pTab = 0; + int iCol = 0; + int iDb = 0; + const char *zDb = 0; + const char *pCons = 0; + int nCons = 0; + + /* Look up the table being altered. */ + assert( pSrc->nSrc==1 ); + pTab = alterFindTable(pParse, pSrc, &iDb, &zDb, 0); + if( !pTab ) return; + + /* Find the column being altered. */ + if( alterFindCol(pParse, pTab, pCol, &iCol) ){ + return; + } + + /* Find the length in bytes of the constraint definition */ + pCons = pFirst->z; + nCons = alterRtrimConstraint(pParse->db, pCons, pParse->sLastToken.z - pCons); + + /* Search for a constraint violation. Throw an exception if one is found. */ + sqlite3NestedParse(pParse, + "SELECT sqlite_fail('constraint failed', %d) " + "FROM %Q.%Q AS x WHERE x.%.*s IS NULL", + SQLITE_CONSTRAINT, zDb, pTab->zName, (int)pCol->n, pCol->z + ); + + /* Edit the SQL for the named table. */ + sqlite3NestedParse(pParse, + "UPDATE \"%w\"." LEGACY_SCHEMA_TABLE " SET " + "sql = sqlite_add_constraint(sqlite_drop_constraint(sql, %d), %.*Q, %d) " + "WHERE type='table' AND tbl_name=%Q COLLATE nocase" + , zDb, iCol, nCons, pCons, iCol, pTab->zName + ); + + /* Finally, reload the database schema. */ + renameReloadSchema(pParse, iDb, INITFLAG_AlterDropCons); +} + +/* +** Implementation of internal SQL function: +** +** sqlite_find_constraint(SQL, CONSTRAINT-NAME) +** +** This function returns true if the SQL passed as the first argument is a +** CREATE TABLE that contains a constraint with the name CONSTRAINT-NAME, +** or false otherwise. +*/ +static void findConstraintFunc( + sqlite3_context *ctx, + int NotUsed, + sqlite3_value **argv +){ + const u8 *zSql = 0; + const u8 *zCons = 0; + int iOff = 0; + int t = 0; + + (void)NotUsed; + zSql = sqlite3_value_text(argv[0]); + zCons = sqlite3_value_text(argv[1]); + + if( zSql==0 || zCons==0 ) return; + while( t!=TK_LP && t!=TK_ILLEGAL ){ + iOff += sqlite3GetToken(&zSql[iOff], &t); + } + + while( 1 ){ + iOff += getConstraintToken(&zSql[iOff], &t); + if( t==TK_CONSTRAINT ){ + int nTok = 0; + int cmp = 0; + iOff += getWhitespace(&zSql[iOff]); + nTok = getConstraintToken(&zSql[iOff], &t); + if( quotedCompare(ctx, t, &zSql[iOff], nTok, zCons, &cmp) ) return; + if( cmp==0 ){ + sqlite3_result_int(ctx, 1); + return; + } + }else if( t==TK_ILLEGAL ){ + break; + } + } + + sqlite3_result_int(ctx, 0); +} + +/* +** Generate bytecode to implement: +** +** ALTER TABLE pSrc ADD [CONSTRAINT pName] CHECK(pExpr) +** +** Any "ON CONFLICT" text that occurs after the "CHECK(...)", up +** until pParse->sLastToken, is included as part of the new constraint. +*/ +SQLITE_PRIVATE void sqlite3AlterAddConstraint( + Parse *pParse, /* Parse context */ + SrcList *pSrc, /* Table to add constraint to */ + Token *pFirst, /* First token of new constraint */ + Token *pName, /* Name of new constraint. NULL if name omitted. */ + const char *pExpr, /* Text of CHECK expression */ + int nExpr /* Size of pExpr in bytes */ +){ + Table *pTab = 0; /* Table identified by pSrc */ + int iDb = 0; /* Which schema does pTab live in */ + const char *zDb = 0; /* Name of the schema in which pTab lives */ + const char *pCons = 0; /* Text of the constraint */ + int nCons; /* Bytes of text to use from pCons[] */ + + /* Look up the table being altered. */ + assert( pSrc->nSrc==1 ); + pTab = alterFindTable(pParse, pSrc, &iDb, &zDb, 1); + if( !pTab ) return; + + /* If this new constraint has a name, check that it is not a duplicate of + ** an existing constraint. It is an error if it is. */ + if( pName ){ + char *zName = sqlite3NameFromToken(pParse->db, pName); + + sqlite3NestedParse(pParse, + "SELECT sqlite_fail('constraint %q already exists', %d) " + "FROM \"%w\"." LEGACY_SCHEMA_TABLE " " + "WHERE type='table' AND tbl_name=%Q COLLATE nocase " + "AND sqlite_find_constraint(sql, %Q)", + zName, SQLITE_ERROR, zDb, pTab->zName, zName + ); + sqlite3DbFree(pParse->db, zName); + } + + /* Search for a constraint violation. Throw an exception if one is found. */ + sqlite3NestedParse(pParse, + "SELECT sqlite_fail('constraint failed', %d) " + "FROM %Q.%Q WHERE (%.*s) IS NOT TRUE", + SQLITE_CONSTRAINT, zDb, pTab->zName, nExpr, pExpr + ); + + /* Edit the SQL for the named table. */ + pCons = pFirst->z; + nCons = alterRtrimConstraint(pParse->db, pCons, pParse->sLastToken.z - pCons); + + sqlite3NestedParse(pParse, + "UPDATE \"%w\"." LEGACY_SCHEMA_TABLE " SET " + "sql = sqlite_add_constraint(sql, %.*Q, -1) " + "WHERE type='table' AND tbl_name=%Q COLLATE nocase" + , zDb, nCons, pCons, pTab->zName + ); + + /* Finally, reload the database schema. */ + renameReloadSchema(pParse, iDb, INITFLAG_AlterDropCons); +} + /* ** Register built-in functions used to help implement ALTER TABLE */ @@ -121461,6 +123400,10 @@ SQLITE_PRIVATE void sqlite3AlterFunctions(void){ INTERNAL_FUNCTION(sqlite_rename_test, 7, renameTableTest), INTERNAL_FUNCTION(sqlite_drop_column, 3, dropColumnFunc), INTERNAL_FUNCTION(sqlite_rename_quotefix,2, renameQuotefixFunc), + INTERNAL_FUNCTION(sqlite_drop_constraint,2, dropConstraintFunc), + INTERNAL_FUNCTION(sqlite_fail, 2, failConstraintFunc), + INTERNAL_FUNCTION(sqlite_add_constraint, 3, addConstraintFunc), + INTERNAL_FUNCTION(sqlite_find_constraint,2, findConstraintFunc), }; sqlite3InsertBuiltinFuncs(aAlterTableFuncs, ArraySize(aAlterTableFuncs)); } @@ -123591,6 +125534,16 @@ static void attachFunc( ** from sqlite3_deserialize() to close database db->init.iDb and ** reopen it as a MemDB */ Btree *pNewBt = 0; + + pNew = &db->aDb[db->init.iDb]; + assert( pNew->pBt!=0 ); + if( sqlite3BtreeTxnState(pNew->pBt)!=SQLITE_TXN_NONE + || sqlite3BtreeIsInBackup(pNew->pBt) + ){ + rc = SQLITE_BUSY; + goto attach_error; + } + pVfs = sqlite3_vfs_find("memdb"); if( pVfs==0 ) return; rc = sqlite3BtreeOpen(pVfs, "x\0", db, &pNewBt, 0, SQLITE_OPEN_MAIN_DB); @@ -123600,8 +125553,7 @@ static void attachFunc( /* Both the Btree and the new Schema were allocated successfully. ** Close the old db and update the aDb[] slot with the new memdb ** values. */ - pNew = &db->aDb[db->init.iDb]; - if( ALWAYS(pNew->pBt) ) sqlite3BtreeClose(pNew->pBt); + sqlite3BtreeClose(pNew->pBt); pNew->pBt = pNewBt; pNew->pSchema = pNewSchema; }else{ @@ -124081,7 +126033,7 @@ SQLITE_PRIVATE int sqlite3FixTriggerStep( if( sqlite3WalkSelect(&pFix->w, pStep->pSelect) || sqlite3WalkExpr(&pFix->w, pStep->pWhere) || sqlite3WalkExprList(&pFix->w, pStep->pExprList) - || sqlite3FixSrcList(pFix, pStep->pFrom) + || sqlite3FixSrcList(pFix, pStep->pSrc) ){ return 1; } @@ -124188,7 +126140,7 @@ SQLITE_API int sqlite3_set_authorizer( sqlite3_mutex_enter(db->mutex); db->xAuth = (sqlite3_xauth)xAuth; db->pAuthArg = pArg; - if( db->xAuth ) sqlite3ExpirePreparedStatements(db, 1); + sqlite3ExpirePreparedStatements(db, 1); sqlite3_mutex_leave(db->mutex); return SQLITE_OK; } @@ -124859,6 +126811,7 @@ SQLITE_PRIVATE Table *sqlite3LocateTableItem( const char *zDb; if( p->fg.fixedSchema ){ int iDb = sqlite3SchemaToIndex(pParse->db, p->u4.pSchema); + assert( iDb>=0 && iDbdb->nDb ); zDb = pParse->db->aDb[iDb].zDbSName; }else{ assert( !p->fg.isSubquery ); @@ -126432,8 +128385,8 @@ SQLITE_PRIVATE void sqlite3ChangeCookie(Parse *pParse, int iDb){ ** The estimate is conservative. It might be larger that what is ** really needed. */ -static int identLength(const char *z){ - int n; +static i64 identLength(const char *z){ + i64 n; for(n=0; *z; n++, z++){ if( *z=='"' ){ n++; } } @@ -126866,9 +128819,10 @@ static void convertToWithoutRowidTable(Parse *pParse, Table *pTab){ if( !hasColumn(pPk->aiColumn, j, i) && (pTab->aCol[i].colFlags & COLFLAG_VIRTUAL)==0 ){ + const char *zColl = sqlite3ColumnColl(&pTab->aCol[i]); assert( jnColumn ); pPk->aiColumn[j] = i; - pPk->azColl[j] = sqlite3StrBINARY; + pPk->azColl[j] = zColl ? zColl : sqlite3StrBINARY; j++; } } @@ -126943,13 +128897,14 @@ SQLITE_PRIVATE void sqlite3MarkAllShadowTablesOf(sqlite3 *db, Table *pTab){ ** restored to its original value prior to this routine returning. */ SQLITE_PRIVATE int sqlite3ShadowTableName(sqlite3 *db, const char *zName){ - char *zTail; /* Pointer to the last "_" in zName */ + const char *zTail; /* Pointer to the last "_" in zName */ Table *pTab; /* Table that zName is a shadow of */ + char *zCopy; zTail = strrchr(zName, '_'); if( zTail==0 ) return 0; - *zTail = 0; - pTab = sqlite3FindTable(db, zName, 0); - *zTail = '_'; + zCopy = sqlite3DbStrNDup(db, zName, (int)(zTail-zName)); + pTab = zCopy ? sqlite3FindTable(db, zCopy, 0) : 0; + sqlite3DbFree(db, zCopy); if( pTab==0 ) return 0; if( !IsVirtual(pTab) ) return 0; return sqlite3IsShadowTableOf(db, pTab, zName); @@ -127102,6 +129057,7 @@ SQLITE_PRIVATE void sqlite3EndTable( convertToWithoutRowidTable(pParse, p); } iDb = sqlite3SchemaToIndex(db, p->pSchema); + assert( iDb>=0 && iDb<=db->nDb ); #ifndef SQLITE_OMIT_CHECK /* Resolve names in all CHECK constraint expressions. @@ -127397,6 +129353,7 @@ SQLITE_PRIVATE void sqlite3CreateView( sqlite3TwoPartName(pParse, pName1, pName2, &pName); iDb = sqlite3SchemaToIndex(db, p->pSchema); + assert( iDb>=0 && iDbnDb ); sqlite3FixInit(&sFix, pParse, iDb, "view", pName); if( sqlite3FixSelect(&sFix, pSelect) ) goto create_view_fail; @@ -128993,6 +130950,7 @@ SQLITE_PRIVATE void sqlite3DropIndex(Parse *pParse, SrcList *pName, int ifExists goto exit_drop_index; } iDb = sqlite3SchemaToIndex(db, pIndex->pSchema); + assert( iDb>=0 && iDbnDb ); #ifndef SQLITE_OMIT_AUTHORIZATION { int code = SQLITE_DROP_INDEX; @@ -129890,8 +131848,7 @@ SQLITE_PRIVATE void sqlite3RowidConstraint( } /* -** Check to see if pIndex uses the collating sequence pColl. Return -** true if it does and false if it does not. +** Return true if any column of pIndex uses the zColl collation */ #ifndef SQLITE_OMIT_REINDEX static int collationMatch(const char *zColl, Index *pIndex){ @@ -129899,8 +131856,8 @@ static int collationMatch(const char *zColl, Index *pIndex){ assert( zColl!=0 ); for(i=0; inColumn; i++){ const char *z = pIndex->azColl[i]; - assert( z!=0 || pIndex->aiColumn[i]<0 ); - if( pIndex->aiColumn[i]>=0 && 0==sqlite3StrICmp(z, zColl) ){ + assert( z!=0 ); + if( 0==sqlite3StrICmp(z, zColl) ){ return 1; } } @@ -129908,73 +131865,39 @@ static int collationMatch(const char *zColl, Index *pIndex){ } #endif -/* -** Recompute all indices of pTab that use the collating sequence pColl. -** If pColl==0 then recompute all indices of pTab. -*/ -#ifndef SQLITE_OMIT_REINDEX -static void reindexTable(Parse *pParse, Table *pTab, char const *zColl){ - if( !IsVirtual(pTab) ){ - Index *pIndex; /* An index associated with pTab */ - - for(pIndex=pTab->pIndex; pIndex; pIndex=pIndex->pNext){ - if( zColl==0 || collationMatch(zColl, pIndex) ){ - int iDb = sqlite3SchemaToIndex(pParse->db, pTab->pSchema); - sqlite3BeginWriteOperation(pParse, 0, iDb); - sqlite3RefillIndex(pParse, pIndex, -1); - } - } - } -} -#endif - -/* -** Recompute all indices of all tables in all databases where the -** indices use the collating sequence pColl. If pColl==0 then recompute -** all indices everywhere. -*/ -#ifndef SQLITE_OMIT_REINDEX -static void reindexDatabases(Parse *pParse, char const *zColl){ - Db *pDb; /* A single database */ - int iDb; /* The database index number */ - sqlite3 *db = pParse->db; /* The database connection */ - HashElem *k; /* For looping over tables in pDb */ - Table *pTab; /* A table in the database */ - - assert( sqlite3BtreeHoldsAllMutexes(db) ); /* Needed for schema access */ - for(iDb=0, pDb=db->aDb; iDbnDb; iDb++, pDb++){ - assert( pDb!=0 ); - for(k=sqliteHashFirst(&pDb->pSchema->tblHash); k; k=sqliteHashNext(k)){ - pTab = (Table*)sqliteHashData(k); - reindexTable(pParse, pTab, zColl); - } - } -} -#endif - /* ** Generate code for the REINDEX command. ** ** REINDEX -- 1 ** REINDEX -- 2 -** REINDEX ?.? -- 3 -** REINDEX ?.? -- 4 +** REINDEX ?.? -- 3 +** REINDEX ?.? -- 4 +** REINDEX EXPRESSIONS -- 5 ** -** Form 1 causes all indices in all attached databases to be rebuilt. -** Form 2 rebuilds all indices in all databases that use the named +** Form 1 causes all indexes in all attached databases to be rebuilt. +** Form 2 rebuilds all indexes in all databases that use the named ** collating function. Forms 3 and 4 rebuild the named index or all -** indices associated with the named table. +** indexes associated with the named table, respectively. Form 5 +** rebuilds all expression indexes in addition to all collations, +** indexes, or tables named "EXPRESSIONS". +** +** If the name is ambiguous such that it matches two or more of +** forms 2 through 5, then rebuild the union of all matching indexes, +** taken care to avoid rebuilding the same index more than once. */ #ifndef SQLITE_OMIT_REINDEX SQLITE_PRIVATE void sqlite3Reindex(Parse *pParse, Token *pName1, Token *pName2){ - CollSeq *pColl; /* Collating sequence to be reindexed, or NULL */ - char *z; /* Name of a table or index */ - const char *zDb; /* Name of the database */ - Table *pTab; /* A table in the database */ - Index *pIndex; /* An index associated with pTab */ - int iDb; /* The database index number */ + char *z = 0; /* Name of a table or index or collation */ + const char *zDb = 0; /* Name of the database */ + int iReDb = -1; /* The database index number */ sqlite3 *db = pParse->db; /* The database connection */ Token *pObjName; /* Name of the table or index to be reindexed */ + int bMatch = 0; /* At least one name match */ + const char *zColl = 0; /* Rebuild indexes using this collation */ + Table *pReTab = 0; /* Rebuild all indexes of this table */ + Index *pReIndex = 0; /* Rebuild this index */ + int isExprIdx = 0; /* Rebuild all expression indexes */ + int bAll = 0; /* Rebuild all indexes */ /* Read the database schema. If an error occurs, leave an error message ** and code in pParse and return NULL. */ @@ -129983,41 +131906,66 @@ SQLITE_PRIVATE void sqlite3Reindex(Parse *pParse, Token *pName1, Token *pName2){ } if( pName1==0 ){ - reindexDatabases(pParse, 0); - return; + /* rebuild all indexes */ + bMatch = 1; + bAll = 1; }else if( NEVER(pName2==0) || pName2->z==0 ){ - char *zColl; assert( pName1->z ); - zColl = sqlite3NameFromToken(pParse->db, pName1); - if( !zColl ) return; - pColl = sqlite3FindCollSeq(db, ENC(db), zColl, 0); - if( pColl ){ - reindexDatabases(pParse, zColl); - sqlite3DbFree(db, zColl); - return; + z = sqlite3NameFromToken(pParse->db, pName1); + if( z==0 ) return; + }else{ + iReDb = sqlite3TwoPartName(pParse, pName1, pName2, &pObjName); + if( iReDb<0 ) return; + z = sqlite3NameFromToken(db, pObjName); + if( z==0 ) return; + zDb = db->aDb[iReDb].zDbSName; + } + if( !bAll ){ + if( zDb==0 && sqlite3StrICmp(z, "expressions")==0 ){ + isExprIdx = 1; + bMatch = 1; + } + if( zDb==0 && sqlite3FindCollSeq(db, ENC(db), z, 0)!=0 ){ + zColl = z; + bMatch = 1; + } + if( zColl==0 && (pReTab = sqlite3FindTable(db, z, zDb))!=0 ){ + bMatch = 1; + } + if( zColl==0 && (pReIndex = sqlite3FindIndex(db, z, zDb))!=0 ){ + bMatch = 1; } - sqlite3DbFree(db, zColl); } - iDb = sqlite3TwoPartName(pParse, pName1, pName2, &pObjName); - if( iDb<0 ) return; - z = sqlite3NameFromToken(db, pObjName); - if( z==0 ) return; - zDb = pName2->n ? db->aDb[iDb].zDbSName : 0; - pTab = sqlite3FindTable(db, z, zDb); - if( pTab ){ - reindexTable(pParse, pTab, 0); - sqlite3DbFree(db, z); - return; + if( bMatch ){ + int iDb; + HashElem *k; + Table *pTab; + Index *pIdx; + Db *pDb; + for(iDb=0, pDb=db->aDb; iDbnDb; iDb++, pDb++){ + assert( pDb!=0 ); + if( iReDb>=0 && iReDb!=iDb ) continue; + for(k=sqliteHashFirst(&pDb->pSchema->tblHash); k; k=sqliteHashNext(k)){ + pTab = (Table*)sqliteHashData(k); + if( IsVirtual(pTab) ) continue; + for(pIdx=pTab->pIndex; pIdx; pIdx=pIdx->pNext){ + if( bAll + || pTab==pReTab + || pIdx==pReIndex + || (isExprIdx && pIdx->bHasExpr) + || (zColl!=0 && collationMatch(zColl,pIdx)) + ){ + sqlite3BeginWriteOperation(pParse, 0, iDb); + sqlite3RefillIndex(pParse, pIdx, -1); + } + } /* End loop over indexes of pTab */ + } /* End loop over tables of iDb */ + } /* End loop over databases */ + }else{ + sqlite3ErrorMsg(pParse, "unable to identify the object to be reindexed"); } - pIndex = sqlite3FindIndex(db, z, zDb); sqlite3DbFree(db, z); - if( pIndex ){ - iDb = sqlite3SchemaToIndex(db, pIndex->pTable->pSchema); - sqlite3BeginWriteOperation(pParse, 0, iDb); - sqlite3RefillIndex(pParse, pIndex, -1); - return; - } - sqlite3ErrorMsg(pParse, "unable to identify the object to be reindexed"); + return; } #endif @@ -130827,7 +132775,7 @@ static int vtabIsReadOnly(Parse *pParse, Table *pTab){ ** * Only allow DELETE, INSERT, or UPDATE of non-SQLITE_VTAB_INNOCUOUS ** virtual tables if PRAGMA trusted_schema=ON. */ - if( pParse->pToplevel!=0 + if( (pParse->pToplevel!=0 || (pParse->prepFlags & SQLITE_PREPARE_FROM_DDL)) && pTab->u.vtab.p->eVtabRisk > ((pParse->db->flags & SQLITE_TrustedSchema)!=0) ){ @@ -131664,8 +133612,9 @@ SQLITE_PRIVATE void sqlite3GenerateRowIndexDelete( r1 = sqlite3GenerateIndexKey(pParse, pIdx, iDataCur, 0, 1, &iPartIdxLabel, pPrior, r1); sqlite3VdbeAddOp3(v, OP_IdxDelete, iIdxCur+i, r1, - pIdx->uniqNotNull ? pIdx->nKeyCol : pIdx->nColumn); - sqlite3VdbeChangeP5(v, 1); /* Cause IdxDelete to error if no entry found */ + pIdx->uniqNotNull ? pIdx->nKeyCol : pIdx->nColumn + ); + sqlite3VdbeChangeP4(v, -1, (const char*)pIdx, P4_INDEX); sqlite3ResolvePartIdxLabel(pParse, iPartIdxLabel); pPrior = pIdx; } @@ -132240,7 +134189,7 @@ static void roundFunc(sqlite3_context *context, int argc, sqlite3_value **argv){ sqlite3_result_error_nomem(context); return; } - sqlite3AtoF(zBuf, &r, sqlite3Strlen30(zBuf), SQLITE_UTF8); + sqlite3AtoF(zBuf, &r); sqlite3_free(zBuf); } sqlite3_result_double(context, r); @@ -132872,18 +134821,11 @@ SQLITE_PRIVATE void sqlite3QuoteValue(StrAccum *pStr, sqlite3_value *pValue, int switch( sqlite3_value_type(pValue) ){ case SQLITE_FLOAT: { - double r1, r2; - const char *zVal; - r1 = sqlite3_value_double(pValue); - sqlite3_str_appendf(pStr, "%!0.15g", r1); - zVal = sqlite3_str_value(pStr); - if( zVal ){ - sqlite3AtoF(zVal, &r2, pStr->nChar, SQLITE_UTF8); - if( r1!=r2 ){ - sqlite3_str_reset(pStr); - sqlite3_str_appendf(pStr, "%!0.20e", r1); - } - } + /* ,--- Show infinity as 9.0e+999 + ** | + ** | ,--- 17 precision guarantees round-trip + ** v v */ + sqlite3_str_appendf(pStr, "%!0.17g", sqlite3_value_double(pValue)); break; } case SQLITE_INTEGER: { @@ -132975,7 +134917,7 @@ static void unistrFunc( } i = j = 0; while( ifuncFlags |= flags; pDef->funcFlags &= ~SQLITE_FUNC_UNSAFE; } @@ -135926,6 +137870,7 @@ SQLITE_PRIVATE FKey *sqlite3FkReferences(Table *pTab){ static void fkTriggerDelete(sqlite3 *dbMem, Trigger *p){ if( p ){ TriggerStep *pStep = p->step_list; + sqlite3SrcListDelete(dbMem, pStep->pSrc); sqlite3ExprDelete(dbMem, pStep->pWhere); sqlite3ExprListDelete(dbMem, pStep->pExprList); sqlite3SelectDelete(dbMem, pStep->pSelect); @@ -136145,6 +138090,7 @@ SQLITE_PRIVATE void sqlite3FkCheck( if( !IsOrdinaryTable(pTab) ) return; iDb = sqlite3SchemaToIndex(db, pTab->pSchema); + assert( iDb>=00 && iDbnDb ); zDb = db->aDb[iDb].zDbSName; /* Loop through all the foreign key constraints for which pTab is the @@ -136562,7 +138508,6 @@ static Trigger *fkActionTrigger( nFrom = sqlite3Strlen30(zFrom); if( action==OE_Restrict ){ - int iDb = sqlite3SchemaToIndex(db, pTab->pSchema); SrcList *pSrc; Expr *pRaise; @@ -136573,10 +138518,10 @@ static Trigger *fkActionTrigger( } pSrc = sqlite3SrcListAppend(pParse, 0, 0, 0); if( pSrc ){ - assert( pSrc->nSrc==1 ); - pSrc->a[0].zName = sqlite3DbStrDup(db, zFrom); - assert( pSrc->a[0].fg.fixedSchema==0 && pSrc->a[0].fg.isSubquery==0 ); - pSrc->a[0].u4.zDatabase = sqlite3DbStrDup(db, db->aDb[iDb].zDbSName); + SrcItem *pItem = &pSrc->a[0]; + pItem->zName = sqlite3DbStrDup(db, zFrom); + pItem->fg.fixedSchema = 1; + pItem->u4.pSchema = pTab->pSchema; } pSelect = sqlite3SelectNew(pParse, sqlite3ExprListAppend(pParse, 0, pRaise), @@ -136592,14 +138537,17 @@ static Trigger *fkActionTrigger( pTrigger = (Trigger *)sqlite3DbMallocZero(db, sizeof(Trigger) + /* struct Trigger */ - sizeof(TriggerStep) + /* Single step in trigger program */ - nFrom + 1 /* Space for pStep->zTarget */ + sizeof(TriggerStep) /* Single step in trigger program */ ); if( pTrigger ){ pStep = pTrigger->step_list = (TriggerStep *)&pTrigger[1]; - pStep->zTarget = (char *)&pStep[1]; - memcpy((char *)pStep->zTarget, zFrom, nFrom); - + pStep->pSrc = sqlite3SrcListAppend(pParse, 0, 0, 0); + if( pStep->pSrc ){ + SrcItem *pItem = &pStep->pSrc->a[0]; + pItem->zName = sqlite3DbStrNDup(db, zFrom, nFrom); + pItem->u4.pSchema = pTab->pSchema; + pItem->fg.fixedSchema = 1; + } pStep->pWhere = sqlite3ExprDup(db, pWhere, EXPRDUP_REDUCE); pStep->pExprList = sqlite3ExprListDup(db, pList, EXPRDUP_REDUCE); pStep->pSelect = sqlite3SelectDup(db, pSelect, EXPRDUP_REDUCE); @@ -140656,7 +142604,11 @@ struct sqlite3_api_routines { /* Version 3.51.0 and later */ int (*set_errmsg)(sqlite3*,int,const char*); int (*db_status64)(sqlite3*,int,sqlite3_int64*,sqlite3_int64*,int); - + /* Version 3.52.0 and later */ + void (*str_truncate)(sqlite3_str*,int); + void (*str_free)(sqlite3_str*); + int (*carray_bind)(sqlite3_stmt*,int,void*,int,int,void(*)(void*)); + int (*carray_bind_v2)(sqlite3_stmt*,int,void*,int,int,void(*)(void*),void*); }; /* @@ -140995,6 +142947,11 @@ typedef int (*sqlite3_loadext_entry)( /* Version 3.51.0 and later */ #define sqlite3_set_errmsg sqlite3_api->set_errmsg #define sqlite3_db_status64 sqlite3_api->db_status64 +/* Version 3.52.0 and later */ +#define sqlite3_str_truncate sqlite3_api->str_truncate +#define sqlite3_str_free sqlite3_api->str_free +#define sqlite3_carray_bind sqlite3_api->carray_bind +#define sqlite3_carray_bind_v2 sqlite3_api->carray_bind_v2 #endif /* !defined(SQLITE_CORE) && !defined(SQLITE_OMIT_LOAD_EXTENSION) */ #if !defined(SQLITE_CORE) && !defined(SQLITE_OMIT_LOAD_EXTENSION) @@ -141521,7 +143478,17 @@ static const sqlite3_api_routines sqlite3Apis = { sqlite3_setlk_timeout, /* Version 3.51.0 and later */ sqlite3_set_errmsg, - sqlite3_db_status64 + sqlite3_db_status64, + /* Version 3.52.0 and later */ + sqlite3_str_truncate, + sqlite3_str_free, +#ifdef SQLITE_ENABLE_CARRAY + sqlite3_carray_bind, + sqlite3_carray_bind_v2 +#else + 0, + 0 +#endif }; /* True if x is the directory separator character @@ -141623,33 +143590,42 @@ static int sqlite3LoadExtension( ** entry point name "sqlite3_extension_init" was not found, then ** construct an entry point name "sqlite3_X_init" where the X is ** replaced by the lowercase value of every ASCII alphabetic - ** character in the filename after the last "/" upto the first ".", - ** and eliding the first three characters if they are "lib". + ** character in the filename after the last "/" up to the first ".", + ** and skipping the first three characters if they are "lib". ** Examples: ** ** /usr/local/lib/libExample5.4.3.so ==> sqlite3_example_init ** C:/lib/mathfuncs.dll ==> sqlite3_mathfuncs_init + ** + ** If that still finds no entry point, repeat a second time but this + ** time include both alphabetic and numeric characters up to the first + ** ".". Example: + ** + ** /usr/local/lib/libExample5.4.3.so ==> sqlite3_example5_init */ if( xInit==0 && zProc==0 ){ int iFile, iEntry, c; int ncFile = sqlite3Strlen30(zFile); + int cnt = 0; zAltEntry = sqlite3_malloc64(ncFile+30); if( zAltEntry==0 ){ sqlite3OsDlClose(pVfs, handle); return SQLITE_NOMEM_BKPT; } - memcpy(zAltEntry, "sqlite3_", 8); - for(iFile=ncFile-1; iFile>=0 && !DirSep(zFile[iFile]); iFile--){} - iFile++; - if( sqlite3_strnicmp(zFile+iFile, "lib", 3)==0 ) iFile += 3; - for(iEntry=8; (c = zFile[iFile])!=0 && c!='.'; iFile++){ - if( sqlite3Isalpha(c) ){ - zAltEntry[iEntry++] = (char)sqlite3UpperToLower[(unsigned)c]; + do{ + memcpy(zAltEntry, "sqlite3_", 8); + for(iFile=ncFile-1; iFile>=0 && !DirSep(zFile[iFile]); iFile--){} + iFile++; + if( sqlite3_strnicmp(zFile+iFile, "lib", 3)==0 ) iFile += 3; + for(iEntry=8; (c = zFile[iFile])!=0 && c!='.'; iFile++){ + if( sqlite3Isalpha(c) || (cnt && sqlite3Isdigit(c)) ){ + zAltEntry[iEntry++] = (char)sqlite3UpperToLower[(unsigned)c]; + } } - } - memcpy(zAltEntry+iEntry, "_init", 6); - zEntry = zAltEntry; - xInit = (sqlite3_loadext_entry)sqlite3OsDlSym(pVfs, handle, zEntry); + memcpy(zAltEntry+iEntry, "_init", 6); + zEntry = zAltEntry; + xInit = (sqlite3_loadext_entry)sqlite3OsDlSym(pVfs, handle, zEntry); + }while( xInit==0 && (++cnt)<2 ); } if( xInit==0 ){ if( pzErrMsg ){ @@ -144659,8 +146635,20 @@ SQLITE_PRIVATE void sqlite3Pragma( pPrior = pIdx; sqlite3VdbeAddOp2(v, OP_AddImm, 8+j, 1);/* increment entry count */ /* Verify that an index entry exists for the current table row */ - jmp2 = sqlite3VdbeAddOp4Int(v, OP_Found, iIdxCur+j, ckUniq, r1, + sqlite3VdbeAddOp4Int(v, OP_Found, iIdxCur+j, ckUniq, r1, pIdx->nColumn); VdbeCoverage(v); + jmp2 = sqlite3VdbeAddOp3(v, OP_IFindKey, iIdxCur+j, ckUniq, r1); + VdbeCoverage(v); + sqlite3VdbeChangeP4(v, -1, (const char*)pIdx, P4_INDEX); + sqlite3VdbeAddOp4(v, OP_String8, 0, 3, 0, + sqlite3MPrintf(db, "index %s stores an imprecise floating-point " + "value for row ", pIdx->zName), + P4_DYNAMIC); + sqlite3VdbeAddOp3(v, OP_Concat, 7, 3, 3); + integrityCheckResultRow(v); + sqlite3VdbeAddOp2(v, OP_Goto, 0, ckUniq); + + sqlite3VdbeJumpHere(v, jmp2); sqlite3VdbeLoadString(v, 3, "row "); sqlite3VdbeAddOp3(v, OP_Concat, 7, 3, 3); sqlite3VdbeLoadString(v, 4, " missing from index "); @@ -144668,7 +146656,7 @@ SQLITE_PRIVATE void sqlite3Pragma( jmp5 = sqlite3VdbeLoadString(v, 4, pIdx->zName); sqlite3VdbeAddOp3(v, OP_Concat, 4, 3, 3); jmp4 = integrityCheckResultRow(v); - sqlite3VdbeJumpHere(v, jmp2); + sqlite3VdbeResolveLabel(v, ckUniq); /* The OP_IdxRowid opcode is an optimized version of OP_Column ** that extracts the rowid off the end of the index record. @@ -145721,7 +147709,8 @@ static void corruptSchema( static const char *azAlterType[] = { "rename", "drop column", - "add column" + "add column", + "drop constraint" }; *pData->pzErrMsg = sqlite3MPrintf(db, "error in %s %s after %s: %s", azObj[0], azObj[1], @@ -146804,7 +148793,7 @@ SQLITE_API int sqlite3_prepare16_v3( */ typedef struct DistinctCtx DistinctCtx; struct DistinctCtx { - u8 isTnct; /* 0: Not distinct. 1: DISTICT 2: DISTINCT and ORDER BY */ + u8 isTnct; /* 0: Not distinct. 1: DISTINCT 2: DISTINCT and ORDER BY */ u8 eTnctType; /* One of the WHERE_DISTINCT_* operators */ int tabTnct; /* Ephemeral table used for DISTINCT processing */ int addrTnct; /* Address of OP_OpenEphemeral opcode for tabTnct */ @@ -146934,8 +148923,6 @@ SQLITE_PRIVATE Select *sqlite3SelectNew( pNew->iLimit = 0; pNew->iOffset = 0; pNew->selId = ++pParse->nSelect; - pNew->addrOpenEphm[0] = -1; - pNew->addrOpenEphm[1] = -1; pNew->nSelectRow = 0; if( pSrc==0 ) pSrc = sqlite3DbMallocZero(pParse->db, SZ_SRCLIST_1); pNew->pSrc = pSrc; @@ -147444,6 +149431,10 @@ static int sqlite3ProcessJoin(Parse *pParse, Select *p){ pRight->fg.isOn = 1; p->selFlags |= SF_OnToWhere; } + + if( IsVirtual(pRightTab) && joinType==EP_OuterON && pRight->u1.pFuncArg ){ + p->selFlags |= SF_OnToWhere; + } } return 0; } @@ -148083,29 +150074,6 @@ static void selectInnerLoop( } switch( eDest ){ - /* In this mode, write each query result to the key of the temporary - ** table iParm. - */ -#ifndef SQLITE_OMIT_COMPOUND_SELECT - case SRT_Union: { - int r1; - r1 = sqlite3GetTempReg(pParse); - sqlite3VdbeAddOp3(v, OP_MakeRecord, regResult, nResultCol, r1); - sqlite3VdbeAddOp4Int(v, OP_IdxInsert, iParm, r1, regResult, nResultCol); - sqlite3ReleaseTempReg(pParse, r1); - break; - } - - /* Construct a record from the query result, but instead of - ** saving that record, use it as a key to delete elements from - ** the temporary table iParm. - */ - case SRT_Except: { - sqlite3VdbeAddOp3(v, OP_IdxDelete, iParm, regResult, nResultCol); - break; - } -#endif /* SQLITE_OMIT_COMPOUND_SELECT */ - /* Store the result as data using a unique key. */ case SRT_Fifo: @@ -149218,8 +151186,8 @@ SQLITE_PRIVATE void sqlite3SubqueryColumnTypes( } } if( zType ){ - const i64 k = sqlite3Strlen30(zType); - n = sqlite3Strlen30(pCol->zCnName); + const i64 k = strlen(zType); + n = strlen(pCol->zCnName); pCol->zCnName = sqlite3DbReallocOrFree(db, pCol->zCnName, n+k+2); pCol->colFlags &= ~(COLFLAG_HASTYPE|COLFLAG_HASCOLL); if( pCol->zCnName ){ @@ -149392,9 +151360,9 @@ static CollSeq *multiSelectCollSeq(Parse *pParse, Select *p, int iCol){ ** function is responsible for ensuring that this structure is eventually ** freed. */ -static KeyInfo *multiSelectOrderByKeyInfo(Parse *pParse, Select *p, int nExtra){ +static KeyInfo *multiSelectByMergeKeyInfo(Parse *pParse, Select *p, int nExtra){ ExprList *pOrderBy = p->pOrderBy; - int nOrderBy = ALWAYS(pOrderBy!=0) ? pOrderBy->nExpr : 0; + int nOrderBy = (pOrderBy!=0) ? pOrderBy->nExpr : 0; sqlite3 *db = pParse->db; KeyInfo *pRet = sqlite3KeyInfoAlloc(db, nOrderBy+nExtra, 1); if( pRet ){ @@ -149527,7 +151495,7 @@ static void generateWithRecursiveQuery( regCurrent = ++pParse->nMem; sqlite3VdbeAddOp3(v, OP_OpenPseudo, iCurrent, regCurrent, nCol); if( pOrderBy ){ - KeyInfo *pKeyInfo = multiSelectOrderByKeyInfo(pParse, p, 1); + KeyInfo *pKeyInfo = multiSelectByMergeKeyInfo(pParse, p, 1); sqlite3VdbeAddOp4(v, OP_OpenEphemeral, iQueue, pOrderBy->nExpr+2, 0, (char*)pKeyInfo, P4_KEYINFO); destQueue.pOrderBy = pOrderBy; @@ -149536,8 +151504,28 @@ static void generateWithRecursiveQuery( } VdbeComment((v, "Queue table")); if( iDistinct ){ - p->addrOpenEphm[0] = sqlite3VdbeAddOp2(v, OP_OpenEphemeral, iDistinct, 0); - p->selFlags |= SF_UsesEphemeral; + /* Generate an ephemeral table used to enforce distinctness on the + ** output of the recursive part of the CTE. + */ + KeyInfo *pKeyInfo; /* Collating sequence for the result set */ + CollSeq **apColl; /* For looping through pKeyInfo->aColl[] */ + + assert( p->pNext==0 ); + assert( p->pEList!=0 ); + nCol = p->pEList->nExpr; + pKeyInfo = sqlite3KeyInfoAlloc(pParse->db, nCol, 1); + if( pKeyInfo ){ + for(i=0, apColl=pKeyInfo->aColl; idb->pDfltColl; + } + } + sqlite3VdbeAddOp4(v, OP_OpenEphemeral, iDistinct, nCol, 0, + (void*)pKeyInfo, P4_KEYINFO); + }else{ + assert( pParse->nErr>0 ); + } } /* Detach the ORDER BY clause from the compound SELECT */ @@ -149612,7 +151600,7 @@ static void generateWithRecursiveQuery( #endif /* SQLITE_OMIT_CTE */ /* Forward references */ -static int multiSelectOrderBy( +static int multiSelectByMerge( Parse *pParse, /* Parsing context */ Select *p, /* The right-most of SELECTs to be coded */ SelectDest *pDest /* What to do with query results */ @@ -149761,12 +151749,26 @@ static int multiSelect( generateWithRecursiveQuery(pParse, p, &dest); }else #endif - - /* Compound SELECTs that have an ORDER BY clause are handled separately. - */ if( p->pOrderBy ){ - return multiSelectOrderBy(pParse, p, pDest); - }else{ + /* If the compound has an ORDER BY clause, then always use the merge + ** algorithm. */ + return multiSelectByMerge(pParse, p, pDest); + }else if( p->op!=TK_ALL ){ + /* If the compound is EXCEPT, INTERSECT, or UNION (anything other than + ** UNION ALL) then also always use the merge algorithm. However, the + ** multiSelectByMerge() routine requires that the compound have an + ** ORDER BY clause, and it doesn't right now. So invent one first. */ + Expr *pOne = sqlite3ExprInt32(db, 1); + p->pOrderBy = sqlite3ExprListAppend(pParse, 0, pOne); + if( pParse->nErr ) goto multi_select_end; + assert( p->pOrderBy!=0 ); + p->pOrderBy->a[0].u.x.iOrderByCol = 1; + return multiSelectByMerge(pParse, p, pDest); + }else{ + /* For a UNION ALL compound without ORDER BY, simply run the left + ** query, then run the right query */ + int addr = 0; + int nLimit = 0; /* Initialize to suppress harmless compiler warning */ #ifndef SQLITE_OMIT_EXPLAIN if( pPrior->pPrior==0 ){ @@ -149774,300 +151776,49 @@ static int multiSelect( ExplainQueryPlan((pParse, 1, "LEFT-MOST SUBQUERY")); } #endif - - /* Generate code for the left and right SELECT statements. - */ - switch( p->op ){ - case TK_ALL: { - int addr = 0; - int nLimit = 0; /* Initialize to suppress harmless compiler warning */ - assert( !pPrior->pLimit ); - pPrior->iLimit = p->iLimit; - pPrior->iOffset = p->iOffset; - pPrior->pLimit = p->pLimit; - TREETRACE(0x200, pParse, p, ("multiSelect UNION ALL left...\n")); - rc = sqlite3Select(pParse, pPrior, &dest); - pPrior->pLimit = 0; - if( rc ){ - goto multi_select_end; - } - p->pPrior = 0; - p->iLimit = pPrior->iLimit; - p->iOffset = pPrior->iOffset; - if( p->iLimit ){ - addr = sqlite3VdbeAddOp1(v, OP_IfNot, p->iLimit); VdbeCoverage(v); - VdbeComment((v, "Jump ahead if LIMIT reached")); - if( p->iOffset ){ - sqlite3VdbeAddOp3(v, OP_OffsetLimit, - p->iLimit, p->iOffset+1, p->iOffset); - } - } - ExplainQueryPlan((pParse, 1, "UNION ALL")); - TREETRACE(0x200, pParse, p, ("multiSelect UNION ALL right...\n")); - rc = sqlite3Select(pParse, p, &dest); - testcase( rc!=SQLITE_OK ); - pDelete = p->pPrior; - p->pPrior = pPrior; - p->nSelectRow = sqlite3LogEstAdd(p->nSelectRow, pPrior->nSelectRow); - if( p->pLimit - && sqlite3ExprIsInteger(p->pLimit->pLeft, &nLimit, pParse) - && nLimit>0 && p->nSelectRow > sqlite3LogEst((u64)nLimit) - ){ - p->nSelectRow = sqlite3LogEst((u64)nLimit); - } - if( addr ){ - sqlite3VdbeJumpHere(v, addr); - } - break; - } - case TK_EXCEPT: - case TK_UNION: { - int unionTab; /* Cursor number of the temp table holding result */ - u8 op = 0; /* One of the SRT_ operations to apply to self */ - int priorOp; /* The SRT_ operation to apply to prior selects */ - Expr *pLimit; /* Saved values of p->nLimit */ - int addr; - int emptyBypass = 0; /* IfEmpty opcode to bypass RHS */ - SelectDest uniondest; - - - testcase( p->op==TK_EXCEPT ); - testcase( p->op==TK_UNION ); - priorOp = SRT_Union; - if( dest.eDest==priorOp ){ - /* We can reuse a temporary table generated by a SELECT to our - ** right. - */ - assert( p->pLimit==0 ); /* Not allowed on leftward elements */ - unionTab = dest.iSDParm; - }else{ - /* We will need to create our own temporary table to hold the - ** intermediate results. - */ - unionTab = pParse->nTab++; - assert( p->pOrderBy==0 ); - addr = sqlite3VdbeAddOp2(v, OP_OpenEphemeral, unionTab, 0); - assert( p->addrOpenEphm[0] == -1 ); - p->addrOpenEphm[0] = addr; - findRightmost(p)->selFlags |= SF_UsesEphemeral; - assert( p->pEList ); - } - - - /* Code the SELECT statements to our left - */ - assert( !pPrior->pOrderBy ); - sqlite3SelectDestInit(&uniondest, priorOp, unionTab); - TREETRACE(0x200, pParse, p, ("multiSelect EXCEPT/UNION left...\n")); - rc = sqlite3Select(pParse, pPrior, &uniondest); - if( rc ){ - goto multi_select_end; - } - - /* Code the current SELECT statement - */ - if( p->op==TK_EXCEPT ){ - op = SRT_Except; - emptyBypass = sqlite3VdbeAddOp1(v, OP_IfEmpty, unionTab); - VdbeCoverage(v); - }else{ - assert( p->op==TK_UNION ); - op = SRT_Union; - } - p->pPrior = 0; - pLimit = p->pLimit; - p->pLimit = 0; - uniondest.eDest = op; - ExplainQueryPlan((pParse, 1, "%s USING TEMP B-TREE", - sqlite3SelectOpName(p->op))); - TREETRACE(0x200, pParse, p, ("multiSelect EXCEPT/UNION right...\n")); - rc = sqlite3Select(pParse, p, &uniondest); - testcase( rc!=SQLITE_OK ); - assert( p->pOrderBy==0 ); - pDelete = p->pPrior; - p->pPrior = pPrior; - p->pOrderBy = 0; - if( p->op==TK_UNION ){ - p->nSelectRow = sqlite3LogEstAdd(p->nSelectRow, pPrior->nSelectRow); - } - if( emptyBypass ) sqlite3VdbeJumpHere(v, emptyBypass); - sqlite3ExprDelete(db, p->pLimit); - p->pLimit = pLimit; - p->iLimit = 0; - p->iOffset = 0; - - /* Convert the data in the temporary table into whatever form - ** it is that we currently need. - */ - assert( unionTab==dest.iSDParm || dest.eDest!=priorOp ); - assert( p->pEList || db->mallocFailed ); - if( dest.eDest!=priorOp && db->mallocFailed==0 ){ - int iCont, iBreak, iStart; - iBreak = sqlite3VdbeMakeLabel(pParse); - iCont = sqlite3VdbeMakeLabel(pParse); - computeLimitRegisters(pParse, p, iBreak); - sqlite3VdbeAddOp2(v, OP_Rewind, unionTab, iBreak); VdbeCoverage(v); - iStart = sqlite3VdbeCurrentAddr(v); - selectInnerLoop(pParse, p, unionTab, - 0, 0, &dest, iCont, iBreak); - sqlite3VdbeResolveLabel(v, iCont); - sqlite3VdbeAddOp2(v, OP_Next, unionTab, iStart); VdbeCoverage(v); - sqlite3VdbeResolveLabel(v, iBreak); - sqlite3VdbeAddOp2(v, OP_Close, unionTab, 0); - } - break; - } - default: assert( p->op==TK_INTERSECT ); { - int tab1, tab2; - int iCont, iBreak, iStart; - Expr *pLimit; - int addr, iLimit, iOffset; - SelectDest intersectdest; - int r1; - int emptyBypass; - - /* INTERSECT is different from the others since it requires - ** two temporary tables. Hence it has its own case. Begin - ** by allocating the tables we will need. - */ - tab1 = pParse->nTab++; - tab2 = pParse->nTab++; - assert( p->pOrderBy==0 ); - - addr = sqlite3VdbeAddOp2(v, OP_OpenEphemeral, tab1, 0); - assert( p->addrOpenEphm[0] == -1 ); - p->addrOpenEphm[0] = addr; - findRightmost(p)->selFlags |= SF_UsesEphemeral; - assert( p->pEList ); - - /* Code the SELECTs to our left into temporary table "tab1". - */ - sqlite3SelectDestInit(&intersectdest, SRT_Union, tab1); - TREETRACE(0x400, pParse, p, ("multiSelect INTERSECT left...\n")); - rc = sqlite3Select(pParse, pPrior, &intersectdest); - if( rc ){ - goto multi_select_end; - } - - /* Initialize LIMIT counters before checking to see if the LHS - ** is empty, in case the jump is taken */ - iBreak = sqlite3VdbeMakeLabel(pParse); - computeLimitRegisters(pParse, p, iBreak); - emptyBypass = sqlite3VdbeAddOp1(v, OP_IfEmpty, tab1); VdbeCoverage(v); - - /* Code the current SELECT into temporary table "tab2" - */ - addr = sqlite3VdbeAddOp2(v, OP_OpenEphemeral, tab2, 0); - assert( p->addrOpenEphm[1] == -1 ); - p->addrOpenEphm[1] = addr; - - /* Disable prior SELECTs and the LIMIT counters during the computation - ** of the RHS select */ - pLimit = p->pLimit; - iLimit = p->iLimit; - iOffset = p->iOffset; - p->pPrior = 0; - p->pLimit = 0; - p->iLimit = 0; - p->iOffset = 0; - - intersectdest.iSDParm = tab2; - ExplainQueryPlan((pParse, 1, "%s USING TEMP B-TREE", - sqlite3SelectOpName(p->op))); - TREETRACE(0x400, pParse, p, ("multiSelect INTERSECT right...\n")); - rc = sqlite3Select(pParse, p, &intersectdest); - testcase( rc!=SQLITE_OK ); - pDelete = p->pPrior; - p->pPrior = pPrior; - if( p->nSelectRow>pPrior->nSelectRow ){ - p->nSelectRow = pPrior->nSelectRow; - } - sqlite3ExprDelete(db, p->pLimit); - - /* Reinstate the LIMIT counters prior to running the final intersect */ - p->pLimit = pLimit; - p->iLimit = iLimit; - p->iOffset = iOffset; - - /* Generate code to take the intersection of the two temporary - ** tables. - */ - if( rc ) break; - assert( p->pEList ); - sqlite3VdbeAddOp1(v, OP_Rewind, tab1); - r1 = sqlite3GetTempReg(pParse); - iStart = sqlite3VdbeAddOp2(v, OP_RowData, tab1, r1); - iCont = sqlite3VdbeMakeLabel(pParse); - sqlite3VdbeAddOp4Int(v, OP_NotFound, tab2, iCont, r1, 0); - VdbeCoverage(v); - sqlite3ReleaseTempReg(pParse, r1); - selectInnerLoop(pParse, p, tab1, - 0, 0, &dest, iCont, iBreak); - sqlite3VdbeResolveLabel(v, iCont); - sqlite3VdbeAddOp2(v, OP_Next, tab1, iStart); VdbeCoverage(v); - sqlite3VdbeResolveLabel(v, iBreak); - sqlite3VdbeAddOp2(v, OP_Close, tab2, 0); - sqlite3VdbeJumpHere(v, emptyBypass); - sqlite3VdbeAddOp2(v, OP_Close, tab1, 0); - break; - } - } - - #ifndef SQLITE_OMIT_EXPLAIN - if( p->pNext==0 ){ - ExplainQueryPlanPop(pParse); - } - #endif - } - if( pParse->nErr ) goto multi_select_end; - - /* Compute collating sequences used by - ** temporary tables needed to implement the compound select. - ** Attach the KeyInfo structure to all temporary tables. - ** - ** This section is run by the right-most SELECT statement only. - ** SELECT statements to the left always skip this part. The right-most - ** SELECT might also skip this part if it has no ORDER BY clause and - ** no temp tables are required. - */ - if( p->selFlags & SF_UsesEphemeral ){ - int i; /* Loop counter */ - KeyInfo *pKeyInfo; /* Collating sequence for the result set */ - Select *pLoop; /* For looping through SELECT statements */ - CollSeq **apColl; /* For looping through pKeyInfo->aColl[] */ - int nCol; /* Number of columns in result set */ - - assert( p->pNext==0 ); - assert( p->pEList!=0 ); - nCol = p->pEList->nExpr; - pKeyInfo = sqlite3KeyInfoAlloc(db, nCol, 1); - if( !pKeyInfo ){ - rc = SQLITE_NOMEM_BKPT; + assert( !pPrior->pLimit ); + pPrior->iLimit = p->iLimit; + pPrior->iOffset = p->iOffset; + pPrior->pLimit = sqlite3ExprDup(db, p->pLimit, 0); + TREETRACE(0x200, pParse, p, ("multiSelect UNION ALL left...\n")); + rc = sqlite3Select(pParse, pPrior, &dest); + sqlite3ExprDelete(db, pPrior->pLimit); + pPrior->pLimit = 0; + if( rc ){ goto multi_select_end; } - for(i=0, apColl=pKeyInfo->aColl; ipDfltColl; - } + p->pPrior = 0; + p->iLimit = pPrior->iLimit; + p->iOffset = pPrior->iOffset; + if( p->iLimit ){ + addr = sqlite3VdbeAddOp1(v, OP_IfNot, p->iLimit); VdbeCoverage(v); + VdbeComment((v, "Jump ahead if LIMIT reached")); + if( p->iOffset ){ + sqlite3VdbeAddOp3(v, OP_OffsetLimit, + p->iLimit, p->iOffset+1, p->iOffset); + } + } + ExplainQueryPlan((pParse, 1, "UNION ALL")); + TREETRACE(0x200, pParse, p, ("multiSelect UNION ALL right...\n")); + rc = sqlite3Select(pParse, p, &dest); + testcase( rc!=SQLITE_OK ); + pDelete = p->pPrior; + p->pPrior = pPrior; + p->nSelectRow = sqlite3LogEstAdd(p->nSelectRow, pPrior->nSelectRow); + if( p->pLimit + && sqlite3ExprIsInteger(p->pLimit->pLeft, &nLimit, pParse) + && nLimit>0 && p->nSelectRow > sqlite3LogEst((u64)nLimit) + ){ + p->nSelectRow = sqlite3LogEst((u64)nLimit); } - - for(pLoop=p; pLoop; pLoop=pLoop->pPrior){ - for(i=0; i<2; i++){ - int addr = pLoop->addrOpenEphm[i]; - if( addr<0 ){ - /* If [0] is unused then [1] is also unused. So we can - ** always safely abort as soon as the first unused slot is found */ - assert( pLoop->addrOpenEphm[1]<0 ); - break; - } - sqlite3VdbeChangeP2(v, addr, nCol); - sqlite3VdbeChangeP4(v, addr, (char*)sqlite3KeyInfoRef(pKeyInfo), - P4_KEYINFO); - pLoop->addrOpenEphm[i] = -1; - } + if( addr ){ + sqlite3VdbeJumpHere(v, addr); + } +#ifndef SQLITE_OMIT_EXPLAIN + if( p->pNext==0 ){ + ExplainQueryPlanPop(pParse); } - sqlite3KeyInfoUnref(pKeyInfo); +#endif } multi_select_end: @@ -150099,8 +151850,8 @@ SQLITE_PRIVATE void sqlite3SelectWrongNumTermsError(Parse *pParse, Select *p){ ** Code an output subroutine for a coroutine implementation of a ** SELECT statement. ** -** The data to be output is contained in pIn->iSdst. There are -** pIn->nSdst columns to be output. pDest is where the output should +** The data to be output is contained in an array of pIn->nSdst registers +** starting at register pIn->iSdst. pDest is where the output should ** be sent. ** ** regReturn is the number of the register holding the subroutine @@ -150129,6 +151880,8 @@ static int generateOutputSubroutine( int iContinue; int addr; + assert( pIn->eDest==SRT_Coroutine ); + addr = sqlite3VdbeCurrentAddr(v); iContinue = sqlite3VdbeMakeLabel(pParse); @@ -150150,23 +151903,60 @@ static int generateOutputSubroutine( */ codeOffset(v, p->iOffset, iContinue); - assert( pDest->eDest!=SRT_Exists ); - assert( pDest->eDest!=SRT_Table ); switch( pDest->eDest ){ /* Store the result as data using a unique key. */ + case SRT_Fifo: + case SRT_DistFifo: + case SRT_Table: case SRT_EphemTab: { int r1 = sqlite3GetTempReg(pParse); int r2 = sqlite3GetTempReg(pParse); + int iParm = pDest->iSDParm; + testcase( pDest->eDest==SRT_Table ); + testcase( pDest->eDest==SRT_EphemTab ); + testcase( pDest->eDest==SRT_Fifo ); + testcase( pDest->eDest==SRT_DistFifo ); sqlite3VdbeAddOp3(v, OP_MakeRecord, pIn->iSdst, pIn->nSdst, r1); - sqlite3VdbeAddOp2(v, OP_NewRowid, pDest->iSDParm, r2); - sqlite3VdbeAddOp3(v, OP_Insert, pDest->iSDParm, r1, r2); +#if !defined(SQLITE_ENABLE_NULL_TRIM) && defined(SQLITE_DEBUG) + /* A destination of SRT_Table and a non-zero iSDParm2 parameter means + ** that this is an "UPDATE ... FROM" on a virtual table or view. In this + ** case set the p5 parameter of the OP_MakeRecord to OPFLAG_NOCHNG_MAGIC. + ** This does not affect operation in any way - it just allows MakeRecord + ** to process OPFLAG_NOCHANGE values without an assert() failing. */ + if( pDest->eDest==SRT_Table && pDest->iSDParm2 ){ + sqlite3VdbeChangeP5(v, OPFLAG_NOCHNG_MAGIC); + } +#endif +#ifndef SQLITE_OMIT_CTE + if( pDest->eDest==SRT_DistFifo ){ + /* If the destination is DistFifo, then cursor (iParm+1) is open + ** on an ephemeral index that is used to enforce uniqueness on the + ** total result. At this point, we are processing the setup portion + ** of the recursive CTE using the merge algorithm, so the results are + ** guaranteed to be unique anyhow. But we still need to populate the + ** (iParm+1) cursor for use by the subsequent recursive phase. + */ + sqlite3VdbeAddOp4Int(v, OP_IdxInsert, iParm+1, r1, + pIn->iSdst, pIn->nSdst); + } +#endif + sqlite3VdbeAddOp2(v, OP_NewRowid, iParm, r2); + sqlite3VdbeAddOp3(v, OP_Insert, iParm, r1, r2); sqlite3VdbeChangeP5(v, OPFLAG_APPEND); sqlite3ReleaseTempReg(pParse, r2); sqlite3ReleaseTempReg(pParse, r1); break; } + /* If any row exist in the result set, record that fact and abort. + */ + case SRT_Exists: { + sqlite3VdbeAddOp2(v, OP_Integer, 1, pDest->iSDParm); + /* The LIMIT clause will terminate the loop for us */ + break; + } + #ifndef SQLITE_OMIT_SUBQUERY /* If we are creating a set for an "expr IN (SELECT ...)". */ @@ -150213,9 +152003,51 @@ static int generateOutputSubroutine( break; } +#ifndef SQLITE_OMIT_CTE + /* Write the results into a priority queue that is order according to + ** pDest->pOrderBy (in pSO). pDest->iSDParm (in iParm) is the cursor for an + ** index with pSO->nExpr+2 columns. Build a key using pSO for the first + ** pSO->nExpr columns, then make sure all keys are unique by adding a + ** final OP_Sequence column. The last column is the record as a blob. + */ + case SRT_DistQueue: + case SRT_Queue: { + int nKey; + int r1, r2, r3, ii; + ExprList *pSO; + int iParm = pDest->iSDParm; + pSO = pDest->pOrderBy; + assert( pSO ); + nKey = pSO->nExpr; + r1 = sqlite3GetTempReg(pParse); + r2 = sqlite3GetTempRange(pParse, nKey+2); + r3 = r2+nKey+1; + + sqlite3VdbeAddOp3(v, OP_MakeRecord, pIn->iSdst, pIn->nSdst, r3); + if( pDest->eDest==SRT_DistQueue ){ + sqlite3VdbeAddOp2(v, OP_IdxInsert, iParm+1, r3); + } + for(ii=0; iiiSdst + pSO->a[ii].u.x.iOrderByCol - 1, + r2+ii); + } + sqlite3VdbeAddOp2(v, OP_Sequence, iParm, r2+nKey); + sqlite3VdbeAddOp3(v, OP_MakeRecord, r2, nKey+2, r1); + sqlite3VdbeAddOp4Int(v, OP_IdxInsert, iParm, r1, r2, nKey+2); + sqlite3ReleaseTempReg(pParse, r1); + sqlite3ReleaseTempRange(pParse, r2, nKey+2); + break; + } +#endif /* SQLITE_OMIT_CTE */ + + /* Ignore the output */ + case SRT_Discard: { + break; + } + /* If none of the above, then the result destination must be - ** SRT_Output. This routine is never called with any other - ** destination other than the ones handled above or SRT_Output. + ** SRT_Output. ** ** For SRT_Output, results are stored in a sequence of registers. ** Then the OP_ResultRow opcode is used to cause sqlite3_step() to @@ -150243,8 +152075,9 @@ static int generateOutputSubroutine( } /* -** Alternative compound select code generator for cases when there -** is an ORDER BY clause. +** Generate code for a compound SELECT statement using a merge +** algorithm. The compound must have an ORDER BY clause for this +** to work. ** ** We assume a query of the following form: ** @@ -150261,7 +152094,7 @@ static int generateOutputSubroutine( ** ** outB: Move the output of the selectB coroutine into the output ** of the compound query. (Only generated for UNION and -** UNION ALL. EXCEPT and INSERTSECT never output a row that +** UNION ALL. EXCEPT and INTERSECT never output a row that ** appears only in B.) ** ** AltB: Called when there is data from both coroutines and Au.x.iOrderByCol==i ) break; } if( j==nOrderBy ){ - Expr *pNew = sqlite3Expr(db, TK_INTEGER, 0); + Expr *pNew = sqlite3ExprInt32(db, i); if( pNew==0 ) return SQLITE_NOMEM_BKPT; - pNew->flags |= EP_IntValue; - pNew->u.iValue = i; p->pOrderBy = pOrderBy = sqlite3ExprListAppend(pParse, pOrderBy, pNew); if( pOrderBy ) pOrderBy->a[nOrderBy++].u.x.iOrderByCol = (u16)i; } @@ -150411,26 +152240,29 @@ static int multiSelectOrderBy( } /* Compute the comparison permutation and keyinfo that is used with - ** the permutation used to determine if the next - ** row of results comes from selectA or selectB. Also add explicit - ** collations to the ORDER BY clause terms so that when the subqueries - ** to the right and the left are evaluated, they use the correct - ** collation. + ** the permutation to determine if the next row of results comes + ** from selectA or selectB. Also add literal collations to the + ** ORDER BY clause terms so that when selectA and selectB are + ** evaluated, they use the correct collation. */ aPermute = sqlite3DbMallocRawNN(db, sizeof(u32)*(nOrderBy + 1)); if( aPermute ){ struct ExprList_item *pItem; + int bKeep = 0; aPermute[0] = nOrderBy; for(i=1, pItem=pOrderBy->a; i<=nOrderBy; i++, pItem++){ assert( pItem!=0 ); assert( pItem->u.x.iOrderByCol>0 ); assert( pItem->u.x.iOrderByCol<=p->pEList->nExpr ); aPermute[i] = pItem->u.x.iOrderByCol - 1; + if( aPermute[i]!=(u32)i-1 ) bKeep = 1; + } + if( bKeep==0 ){ + sqlite3DbFreeNN(db, aPermute); + aPermute = 0; } - pKeyMerge = multiSelectOrderByKeyInfo(pParse, p, 1); - }else{ - pKeyMerge = 0; } + pKeyMerge = multiSelectByMergeKeyInfo(pParse, p, 1); /* Allocate a range of temporary registers and the KeyInfo needed ** for the logic that removes duplicate result rows when the @@ -150509,7 +152341,7 @@ static int multiSelectOrderBy( */ addrSelectA = sqlite3VdbeCurrentAddr(v) + 1; addr1 = sqlite3VdbeAddOp3(v, OP_InitCoroutine, regAddrA, 0, addrSelectA); - VdbeComment((v, "left SELECT")); + VdbeComment((v, "SUBR: next-A")); pPrior->iLimit = regLimitA; ExplainQueryPlan((pParse, 1, "LEFT")); sqlite3Select(pParse, pPrior, &destA); @@ -150521,7 +152353,7 @@ static int multiSelectOrderBy( */ addrSelectB = sqlite3VdbeCurrentAddr(v) + 1; addr1 = sqlite3VdbeAddOp3(v, OP_InitCoroutine, regAddrB, 0, addrSelectB); - VdbeComment((v, "right SELECT")); + VdbeComment((v, "SUBR: next-B")); savedLimit = p->iLimit; savedOffset = p->iOffset; p->iLimit = regLimitB; @@ -150535,7 +152367,7 @@ static int multiSelectOrderBy( /* Generate a subroutine that outputs the current row of the A ** select as the next output row of the compound select. */ - VdbeNoopComment((v, "Output routine for A")); + VdbeNoopComment((v, "SUBR: out-A")); addrOutA = generateOutputSubroutine(pParse, p, &destA, pDest, regOutA, regPrev, pKeyDup, labelEnd); @@ -150544,7 +152376,7 @@ static int multiSelectOrderBy( ** select as the next output row of the compound select. */ if( op==TK_ALL || op==TK_UNION ){ - VdbeNoopComment((v, "Output routine for B")); + VdbeNoopComment((v, "SUBR: out-B")); addrOutB = generateOutputSubroutine(pParse, p, &destB, pDest, regOutB, regPrev, pKeyDup, labelEnd); @@ -150557,10 +152389,12 @@ static int multiSelectOrderBy( if( op==TK_EXCEPT || op==TK_INTERSECT ){ addrEofA_noB = addrEofA = labelEnd; }else{ - VdbeNoopComment((v, "eof-A subroutine")); + VdbeNoopComment((v, "SUBR: eof-A")); addrEofA = sqlite3VdbeAddOp2(v, OP_Gosub, regOutB, addrOutB); + VdbeComment((v, "out-B")); addrEofA_noB = sqlite3VdbeAddOp2(v, OP_Yield, regAddrB, labelEnd); VdbeCoverage(v); + VdbeComment((v, "next-B")); sqlite3VdbeGoto(v, addrEofA); p->nSelectRow = sqlite3LogEstAdd(p->nSelectRow, pPrior->nSelectRow); } @@ -150572,17 +152406,20 @@ static int multiSelectOrderBy( addrEofB = addrEofA; if( p->nSelectRow > pPrior->nSelectRow ) p->nSelectRow = pPrior->nSelectRow; }else{ - VdbeNoopComment((v, "eof-B subroutine")); + VdbeNoopComment((v, "SUBR: eof-B")); addrEofB = sqlite3VdbeAddOp2(v, OP_Gosub, regOutA, addrOutA); + VdbeComment((v, "out-A")); sqlite3VdbeAddOp2(v, OP_Yield, regAddrA, labelEnd); VdbeCoverage(v); + VdbeComment((v, "next-A")); sqlite3VdbeGoto(v, addrEofB); } /* Generate code to handle the case of AB */ - VdbeNoopComment((v, "A-gt-B subroutine")); addrAgtB = sqlite3VdbeCurrentAddr(v); if( op==TK_ALL || op==TK_UNION ){ sqlite3VdbeAddOp2(v, OP_Gosub, regOutB, addrOutB); + VdbeComment((v, "out-B")); + sqlite3VdbeAddOp2(v, OP_Yield, regAddrB, addrEofB); VdbeCoverage(v); + VdbeComment((v, "next-B")); + sqlite3VdbeGoto(v, labelCmpr); + }else{ + addrAgtB++; /* Just do next-B. Might as well use the next-B call + ** in the next code block */ } - sqlite3VdbeAddOp2(v, OP_Yield, regAddrB, addrEofB); VdbeCoverage(v); - sqlite3VdbeGoto(v, labelCmpr); /* This code runs once to initialize everything. */ sqlite3VdbeJumpHere(v, addr1); sqlite3VdbeAddOp2(v, OP_Yield, regAddrA, addrEofA_noB); VdbeCoverage(v); + VdbeComment((v, "next-A")); + /* v--- Also the A>B case for EXCEPT and INTERSECT */ sqlite3VdbeAddOp2(v, OP_Yield, regAddrB, addrEofB); VdbeCoverage(v); + VdbeComment((v, "next-B")); /* Implement the main merge loop */ + if( aPermute!=0 ){ + sqlite3VdbeAddOp4(v, OP_Permutation, 0, 0, 0, (char*)aPermute, P4_INTARRAY); + } sqlite3VdbeResolveLabel(v, labelCmpr); - sqlite3VdbeAddOp4(v, OP_Permutation, 0, 0, 0, (char*)aPermute, P4_INTARRAY); sqlite3VdbeAddOp4(v, OP_Compare, destA.iSdst, destB.iSdst, nOrderBy, (char*)pKeyMerge, P4_KEYINFO); - sqlite3VdbeChangeP5(v, OPFLAG_PERMUTE); - sqlite3VdbeAddOp3(v, OP_Jump, addrAltB, addrAeqB, addrAgtB); VdbeCoverage(v); + if( aPermute!=0 ){ + sqlite3VdbeChangeP5(v, OPFLAG_PERMUTE); + } + sqlite3VdbeAddOp3(v, OP_Jump, addrAltB, addrAeqB, addrAgtB); + VdbeCoverageIf(v, op==TK_ALL); + VdbeCoverageIf(v, op==TK_UNION); + VdbeCoverageIf(v, op==TK_EXCEPT); + VdbeCoverageIf(v, op==TK_INTERSECT); /* Jump to the this point in order to terminate the query. */ @@ -151539,7 +153388,7 @@ static int flattenSubquery( } pSubitem->fg.jointype |= jointype; - /* Now begin substituting subquery result set expressions for + /* Begin substituting subquery result set expressions for ** references to the iParent in the outer query. ** ** Example: @@ -151551,7 +153400,7 @@ static int flattenSubquery( ** We look at every expression in the outer query and every place we see ** "a" we substitute "x*3" and every place we see "b" we substitute "y+10". */ - if( pSub->pOrderBy && (pParent->selFlags & SF_NoopOrderBy)==0 ){ + if( pSub->pOrderBy ){ /* At this point, any non-zero iOrderByCol values indicate that the ** ORDER BY column expression is identical to the iOrderByCol'th ** expression returned by SELECT statement pSub. Since these values @@ -151559,9 +153408,9 @@ static int flattenSubquery( ** zero them before transferring the ORDER BY clause. ** ** Not doing this may cause an error if a subsequent call to this - ** function attempts to flatten a compound sub-query into pParent - ** (the only way this can happen is if the compound sub-query is - ** currently part of pSub->pSrc). See ticket [d11a6e908f]. */ + ** function attempts to flatten a compound sub-query into pParent. + ** See ticket [d11a6e908f]. + */ ExprList *pOrderBy = pSub->pOrderBy; for(i=0; inExpr; i++){ pOrderBy->a[i].u.x.iOrderByCol = 0; @@ -152179,6 +154028,16 @@ static int pushDownWhereTerms( x.pEList = pSubq->pEList; x.pCList = findLeftmostExprlist(pSubq); pNew = substExpr(&x, pNew); + assert( pNew!=0 || pParse->nErr!=0 ); + if( pParse->nErr==0 && pNew->op==TK_IN && ExprUseXSelect(pNew) ){ + assert( pNew->x.pSelect!=0 ); + pNew->x.pSelect->selFlags |= SF_ClonedRhsIn; + assert( pWhere!=0 ); + assert( pWhere->op==TK_IN ); + assert( ExprUseXSelect(pWhere) ); + assert( pWhere->x.pSelect!=0 ); + pWhere->x.pSelect->selFlags |= SF_ClonedRhsIn; + } #ifndef SQLITE_OMIT_WINDOWFUNC if( pSubq->pWin && 0==pushDownWindowCheck(pParse, pSubq, pNew) ){ /* Restriction 6c has prevented push-down in this case */ @@ -152413,14 +154272,14 @@ SQLITE_PRIVATE int sqlite3IndexedByLookup(Parse *pParse, SrcItem *pFrom){ ** SELECT * FROM (SELECT ... FROM t1 EXCEPT SELECT ... FROM t2) ** ORDER BY ... COLLATE ... ** -** This transformation is necessary because the multiSelectOrderBy() routine +** This transformation is necessary because the multiSelectByMerge() routine ** above that generates the code for a compound SELECT with an ORDER BY clause ** uses a merge algorithm that requires the same collating sequence on the ** result columns as on the ORDER BY clause. See ticket ** http://sqlite.org/src/info/6709574d2a ** ** This transformation is only needed for EXCEPT, INTERSECT, and UNION. -** The UNION ALL operator works fine with multiSelectOrderBy() even when +** The UNION ALL operator works fine with multiSelectByMerge() even when ** there are COLLATE terms in the ORDER BY. */ static int convertCompoundSelectToSubquery(Walker *pWalker, Select *p){ @@ -152966,7 +154825,7 @@ static int selectExpander(Walker *pWalker, Select *p){ } #ifndef SQLITE_OMIT_VIRTUALTABLE else if( ALWAYS(IsVirtual(pTab)) - && pFrom->fg.fromDDL + && (pFrom->fg.fromDDL || (pParse->prepFlags & SQLITE_PREPARE_FROM_DDL)) && ALWAYS(pTab->u.vtab.p!=0) && pTab->u.vtab.p->eVtabRisk > ((db->flags & SQLITE_TrustedSchema)!=0) ){ @@ -153919,7 +155778,7 @@ static int havingToWhereExprCb(Walker *pWalker, Expr *pExpr){ && pExpr->pAggInfo==0 ){ sqlite3 *db = pWalker->pParse->db; - Expr *pNew = sqlite3Expr(db, TK_INTEGER, "1"); + Expr *pNew = sqlite3ExprInt32(db, 1); if( pNew ){ Expr *pWhere = pS->pWhere; SWAP(Expr, *pNew, *pExpr); @@ -154237,6 +156096,7 @@ static SQLITE_NOINLINE void existsToJoin( && !ExprHasProperty(pWhere, EP_OuterON|EP_InnerON) && ALWAYS(p->pSrc!=0) && p->pSrc->nSrcpLimit==0 || p->pLimit->pRight==0) ){ if( pWhere->op==TK_AND ){ Expr *pRight = pWhere->pRight; @@ -154270,7 +156130,6 @@ static SQLITE_NOINLINE void existsToJoin( ExprSetProperty(pWhere, EP_IntValue); assert( p->pWhere!=0 ); pSub->pSrc->a[0].fg.fromExists = 1; - pSub->pSrc->a[0].fg.jointype |= JT_CROSS; p->pSrc = sqlite3SrcListAppendList(pParse, p->pSrc, pSub->pSrc); if( pSubWhere ){ p->pWhere = sqlite3PExpr(pParse, TK_AND, p->pWhere, pSubWhere); @@ -154285,7 +156144,6 @@ static SQLITE_NOINLINE void existsToJoin( sqlite3TreeViewSelect(0, p, 0); } #endif - existsToJoin(pParse, p, pSubWhere); } } } @@ -154298,6 +156156,7 @@ typedef struct CheckOnCtx CheckOnCtx; struct CheckOnCtx { SrcList *pSrc; /* SrcList for this context */ int iJoin; /* Cursor numbers must be =< than this */ + int bFuncArg; /* True for table-function arg */ CheckOnCtx *pParent; /* Parent context */ }; @@ -154349,7 +156208,9 @@ static int selectCheckOnClausesExpr(Walker *pWalker, Expr *pExpr){ if( iTab>=pSrc->a[0].iCursor && iTab<=pSrc->a[pSrc->nSrc-1].iCursor ){ if( pCtx->iJoin && iTab>pCtx->iJoin ){ sqlite3ErrorMsg(pWalker->pParse, - "ON clause references tables to its right"); + "%s references tables to its right", + (pCtx->bFuncArg ? "table-function argument" : "ON clause") + ); return WRC_Abort; } break; @@ -154387,6 +156248,7 @@ static int selectCheckOnClausesSelect(Walker *pWalker, Select *pSelect){ SQLITE_PRIVATE void sqlite3SelectCheckOnClauses(Parse *pParse, Select *pSelect){ Walker w; CheckOnCtx sCtx; + int ii; assert( pSelect->selFlags & SF_OnToWhere ); assert( pSelect->pSrc!=0 && pSelect->pSrc->nSrc>=2 ); memset(&w, 0, sizeof(w)); @@ -154396,8 +156258,46 @@ SQLITE_PRIVATE void sqlite3SelectCheckOnClauses(Parse *pParse, Select *pSelect){ w.u.pCheckOnCtx = &sCtx; memset(&sCtx, 0, sizeof(sCtx)); sCtx.pSrc = pSelect->pSrc; - sqlite3WalkExprNN(&w, pSelect->pWhere); + sqlite3WalkExpr(&w, pSelect->pWhere); pSelect->selFlags &= ~SF_OnToWhere; + + /* Check for any table-function args that are attached to virtual tables + ** on the RHS of an outer join. They are subject to the same constraints + ** as ON clauses. */ + sCtx.bFuncArg = 1; + for(ii=0; iipSrc->nSrc; ii++){ + SrcItem *pItem = &pSelect->pSrc->a[ii]; + if( pItem->fg.isTabFunc + && (pItem->fg.jointype & JT_OUTER) + ){ + sCtx.iJoin = pItem->iCursor; + sqlite3WalkExprList(&w, pItem->u1.pFuncArg); + } + } +} + +/* +** If p2 exists and p1 and p2 have the same number of terms, then change +** every term of p1 to have the same sort order as p2 and return true. +** +** If p2 is NULL or p1 and p2 are different lengths, then make no changes +** and return false. +** +** p1 must be non-NULL. +*/ +static int sqlite3CopySortOrder(ExprList *p1, ExprList *p2){ + assert( p1 ); + if( p2 && p1->nExpr==p2->nExpr ){ + int ii; + for(ii=0; iinExpr; ii++){ + u8 sortFlags; + sortFlags = p2->a[ii].fg.sortFlags & KEYINFO_ORDER_DESC; + p1->a[ii].fg.sortFlags = sortFlags; + } + return 1; + }else{ + return 0; + } } /* @@ -154495,8 +156395,7 @@ SQLITE_PRIVATE int sqlite3Select( assert( p->pOrderBy==0 || pDest->eDest!=SRT_DistQueue ); assert( p->pOrderBy==0 || pDest->eDest!=SRT_Queue ); if( IgnorableDistinct(pDest) ){ - assert(pDest->eDest==SRT_Exists || pDest->eDest==SRT_Union || - pDest->eDest==SRT_Except || pDest->eDest==SRT_Discard || + assert(pDest->eDest==SRT_Exists || pDest->eDest==SRT_Discard || pDest->eDest==SRT_DistQueue || pDest->eDest==SRT_DistFifo ); /* All of these destinations are also able to ignore the ORDER BY clause */ if( p->pOrderBy ){ @@ -154512,7 +156411,6 @@ SQLITE_PRIVATE int sqlite3Select( p->pOrderBy = 0; } p->selFlags &= ~(u32)SF_Distinct; - p->selFlags |= SF_NoopOrderBy; } sqlite3SelectPrep(pParse, p, 0); if( pParse->nErr ){ @@ -155040,7 +156938,8 @@ SQLITE_PRIVATE int sqlite3Select( ** BY and DISTINCT, and an index or separate temp-table for the other. */ if( (p->selFlags & (SF_Distinct|SF_Aggregate))==SF_Distinct - && sqlite3ExprListCompare(sSort.pOrderBy, pEList, -1)==0 + && sqlite3CopySortOrder(pEList, sSort.pOrderBy) + && sqlite3ExprListCompare(pEList, sSort.pOrderBy, -1)==0 && OptimizationEnabled(db, SQLITE_GroupByOrder) #ifndef SQLITE_OMIT_WINDOWFUNC && p->pWin==0 @@ -155254,21 +157153,10 @@ SQLITE_PRIVATE int sqlite3Select( ** but not actually sorted. Either way, record the fact that the ** ORDER BY and GROUP BY clauses are the same by setting the orderByGrp ** variable. */ - if( sSort.pOrderBy && pGroupBy->nExpr==sSort.pOrderBy->nExpr ){ - int ii; - /* The GROUP BY processing doesn't care whether rows are delivered in - ** ASC or DESC order - only that each group is returned contiguously. - ** So set the ASC/DESC flags in the GROUP BY to match those in the - ** ORDER BY to maximize the chances of rows being delivered in an - ** order that makes the ORDER BY redundant. */ - for(ii=0; iinExpr; ii++){ - u8 sortFlags; - sortFlags = sSort.pOrderBy->a[ii].fg.sortFlags & KEYINFO_ORDER_DESC; - pGroupBy->a[ii].fg.sortFlags = sortFlags; - } - if( sqlite3ExprListCompare(pGroupBy, sSort.pOrderBy, -1)==0 ){ - orderByGrp = 1; - } + if( sqlite3CopySortOrder(pGroupBy, sSort.pOrderBy) + && sqlite3ExprListCompare(pGroupBy, sSort.pOrderBy, -1)==0 + ){ + orderByGrp = 1; } }else{ assert( 0==sqlite3LogEst(1) ); @@ -156078,7 +157966,7 @@ SQLITE_PRIVATE void sqlite3DeleteTriggerStep(sqlite3 *db, TriggerStep *pTriggerS sqlite3SelectDelete(db, pTmp->pSelect); sqlite3IdListDelete(db, pTmp->pIdList); sqlite3UpsertDelete(db, pTmp->pUpsert); - sqlite3SrcListDelete(db, pTmp->pFrom); + sqlite3SrcListDelete(db, pTmp->pSrc); sqlite3DbFree(db, pTmp->zSpan); sqlite3DbFree(db, pTmp); @@ -156267,11 +158155,16 @@ SQLITE_PRIVATE void sqlite3BeginTrigger( } } + /* NB: The SQLITE_ALLOW_TRIGGERS_ON_SYSTEM_TABLES compile-time option is + ** experimental and unsupported. Do not use it unless understand the + ** implications and you cannot get by without this capability. */ +#if !defined(SQLITE_ALLOW_TRIGGERS_ON_SYSTEM_TABLES) /* Experimental */ /* Do not create a trigger on a system table */ if( sqlite3StrNICmp(pTab->zName, "sqlite_", 7)==0 ){ sqlite3ErrorMsg(pParse, "cannot create trigger on system table"); goto trigger_cleanup; } +#endif /* INSTEAD of triggers are only for views and views only support INSTEAD ** of triggers. @@ -156383,6 +158276,7 @@ SQLITE_PRIVATE void sqlite3FinishTrigger( if( NEVER(pParse->nErr) || !pTrig ) goto triggerfinish_cleanup; zName = pTrig->zName; iDb = sqlite3SchemaToIndex(pParse->db, pTrig->pSchema); + assert( iDb>=00 && iDbnDb ); pTrig->step_list = pStepList; while( pStepList ){ pStepList->pTrig = pTrig; @@ -156417,12 +158311,12 @@ SQLITE_PRIVATE void sqlite3FinishTrigger( if( sqlite3ReadOnlyShadowTables(db) ){ TriggerStep *pStep; for(pStep=pTrig->step_list; pStep; pStep=pStep->pNext){ - if( pStep->zTarget!=0 - && sqlite3ShadowTableName(db, pStep->zTarget) + if( pStep->pSrc!=0 + && sqlite3ShadowTableName(db, pStep->pSrc->a[0].zName) ){ sqlite3ErrorMsg(pParse, "trigger \"%s\" may not write to shadow table \"%s\"", - pTrig->zName, pStep->zTarget); + pTrig->zName, pStep->pSrc->a[0].zName); goto triggerfinish_cleanup; } } @@ -156513,26 +158407,39 @@ SQLITE_PRIVATE TriggerStep *sqlite3TriggerSelectStep( static TriggerStep *triggerStepAllocate( Parse *pParse, /* Parser context */ u8 op, /* Trigger opcode */ - Token *pName, /* The target name */ + SrcList *pTabList, /* Target table */ const char *zStart, /* Start of SQL text */ const char *zEnd /* End of SQL text */ ){ + Trigger *pNew = pParse->pNewTrigger; sqlite3 *db = pParse->db; - TriggerStep *pTriggerStep; + TriggerStep *pTriggerStep = 0; - if( pParse->nErr ) return 0; - pTriggerStep = sqlite3DbMallocZero(db, sizeof(TriggerStep) + pName->n + 1); - if( pTriggerStep ){ - char *z = (char*)&pTriggerStep[1]; - memcpy(z, pName->z, pName->n); - sqlite3Dequote(z); - pTriggerStep->zTarget = z; - pTriggerStep->op = op; - pTriggerStep->zSpan = triggerSpanDup(db, zStart, zEnd); - if( IN_RENAME_OBJECT ){ - sqlite3RenameTokenMap(pParse, pTriggerStep->zTarget, pName); + if( pParse->nErr==0 ){ + if( pNew + && pNew->pSchema!=db->aDb[1].pSchema + && pTabList->a[0].u4.zDatabase + ){ + sqlite3ErrorMsg(pParse, + "qualified table names are not allowed on INSERT, UPDATE, and DELETE " + "statements within triggers"); + }else{ + pTriggerStep = sqlite3DbMallocZero(db, sizeof(TriggerStep)); + if( pTriggerStep ){ + pTriggerStep->pSrc = sqlite3SrcListDup(db, pTabList, EXPRDUP_REDUCE); + pTriggerStep->op = op; + pTriggerStep->zSpan = triggerSpanDup(db, zStart, zEnd); + if( pTriggerStep->pSrc && IN_RENAME_OBJECT ){ + sqlite3RenameTokenRemap(pParse, + pTriggerStep->pSrc->a[0].zName, + pTabList->a[0].zName + ); + } + } } } + + sqlite3SrcListDelete(db, pTabList); return pTriggerStep; } @@ -156545,7 +158452,7 @@ static TriggerStep *triggerStepAllocate( */ SQLITE_PRIVATE TriggerStep *sqlite3TriggerInsertStep( Parse *pParse, /* Parser */ - Token *pTableName, /* Name of the table into which we insert */ + SrcList *pTabList, /* Table to INSERT into */ IdList *pColumn, /* List of columns in pTableName to insert into */ Select *pSelect, /* A SELECT statement that supplies values */ u8 orconf, /* The conflict algorithm (OE_Abort, OE_Replace, etc.) */ @@ -156558,7 +158465,7 @@ SQLITE_PRIVATE TriggerStep *sqlite3TriggerInsertStep( assert(pSelect != 0 || db->mallocFailed); - pTriggerStep = triggerStepAllocate(pParse, TK_INSERT, pTableName,zStart,zEnd); + pTriggerStep = triggerStepAllocate(pParse, TK_INSERT, pTabList, zStart, zEnd); if( pTriggerStep ){ if( IN_RENAME_OBJECT ){ pTriggerStep->pSelect = pSelect; @@ -156590,7 +158497,7 @@ SQLITE_PRIVATE TriggerStep *sqlite3TriggerInsertStep( */ SQLITE_PRIVATE TriggerStep *sqlite3TriggerUpdateStep( Parse *pParse, /* Parser */ - Token *pTableName, /* Name of the table to be updated */ + SrcList *pTabList, /* Name of the table to be updated */ SrcList *pFrom, /* FROM clause for an UPDATE-FROM, or NULL */ ExprList *pEList, /* The SET clause: list of column and new values */ Expr *pWhere, /* The WHERE clause */ @@ -156601,21 +158508,36 @@ SQLITE_PRIVATE TriggerStep *sqlite3TriggerUpdateStep( sqlite3 *db = pParse->db; TriggerStep *pTriggerStep; - pTriggerStep = triggerStepAllocate(pParse, TK_UPDATE, pTableName,zStart,zEnd); + pTriggerStep = triggerStepAllocate(pParse, TK_UPDATE, pTabList, zStart, zEnd); if( pTriggerStep ){ + SrcList *pFromDup = 0; if( IN_RENAME_OBJECT ){ pTriggerStep->pExprList = pEList; pTriggerStep->pWhere = pWhere; - pTriggerStep->pFrom = pFrom; + pFromDup = pFrom; pEList = 0; pWhere = 0; pFrom = 0; }else{ pTriggerStep->pExprList = sqlite3ExprListDup(db, pEList, EXPRDUP_REDUCE); pTriggerStep->pWhere = sqlite3ExprDup(db, pWhere, EXPRDUP_REDUCE); - pTriggerStep->pFrom = sqlite3SrcListDup(db, pFrom, EXPRDUP_REDUCE); + pFromDup = sqlite3SrcListDup(db, pFrom, EXPRDUP_REDUCE); } pTriggerStep->orconf = orconf; + + if( pFromDup && !IN_RENAME_OBJECT){ + Select *pSub; + Token as = {0, 0}; + pSub = sqlite3SelectNew(pParse, 0, pFromDup, 0,0,0,0, SF_NestedFrom, 0); + pFromDup = sqlite3SrcListAppendFromTerm(pParse, 0, 0, 0, &as, pSub ,0); + } + if( pFromDup && pTriggerStep->pSrc ){ + pTriggerStep->pSrc = sqlite3SrcListAppendList( + pParse, pTriggerStep->pSrc, pFromDup + ); + }else{ + sqlite3SrcListDelete(db, pFromDup); + } } sqlite3ExprListDelete(db, pEList); sqlite3ExprDelete(db, pWhere); @@ -156630,7 +158552,7 @@ SQLITE_PRIVATE TriggerStep *sqlite3TriggerUpdateStep( */ SQLITE_PRIVATE TriggerStep *sqlite3TriggerDeleteStep( Parse *pParse, /* Parser */ - Token *pTableName, /* The table from which rows are deleted */ + SrcList *pTabList, /* The table from which rows are deleted */ Expr *pWhere, /* The WHERE clause */ const char *zStart, /* Start of SQL text */ const char *zEnd /* End of SQL text */ @@ -156638,7 +158560,7 @@ SQLITE_PRIVATE TriggerStep *sqlite3TriggerDeleteStep( sqlite3 *db = pParse->db; TriggerStep *pTriggerStep; - pTriggerStep = triggerStepAllocate(pParse, TK_DELETE, pTableName,zStart,zEnd); + pTriggerStep = triggerStepAllocate(pParse, TK_DELETE, pTabList, zStart, zEnd); if( pTriggerStep ){ if( IN_RENAME_OBJECT ){ pTriggerStep->pWhere = pWhere; @@ -156838,6 +158760,7 @@ static SQLITE_NOINLINE Trigger *triggersReallyExist( p = pList; if( (pParse->db->flags & SQLITE_EnableTrigger)==0 && pTab->pTrigger!=0 + && sqlite3SchemaToIndex(pParse->db, pTab->pTrigger->pSchema)!=1 ){ /* The SQLITE_DBCONFIG_ENABLE_TRIGGER setting is off. That means that ** only TEMP triggers are allowed. Truncate the pList so that it @@ -156900,52 +158823,6 @@ SQLITE_PRIVATE Trigger *sqlite3TriggersExist( return triggersReallyExist(pParse,pTab,op,pChanges,pMask); } -/* -** Convert the pStep->zTarget string into a SrcList and return a pointer -** to that SrcList. -** -** This routine adds a specific database name, if needed, to the target when -** forming the SrcList. This prevents a trigger in one database from -** referring to a target in another database. An exception is when the -** trigger is in TEMP in which case it can refer to any other database it -** wants. -*/ -SQLITE_PRIVATE SrcList *sqlite3TriggerStepSrc( - Parse *pParse, /* The parsing context */ - TriggerStep *pStep /* The trigger containing the target token */ -){ - sqlite3 *db = pParse->db; - SrcList *pSrc; /* SrcList to be returned */ - char *zName = sqlite3DbStrDup(db, pStep->zTarget); - pSrc = sqlite3SrcListAppend(pParse, 0, 0, 0); - assert( pSrc==0 || pSrc->nSrc==1 ); - assert( zName || pSrc==0 ); - if( pSrc ){ - Schema *pSchema = pStep->pTrig->pSchema; - pSrc->a[0].zName = zName; - if( pSchema!=db->aDb[1].pSchema ){ - assert( pSrc->a[0].fg.fixedSchema || pSrc->a[0].u4.zDatabase==0 ); - pSrc->a[0].u4.pSchema = pSchema; - pSrc->a[0].fg.fixedSchema = 1; - } - if( pStep->pFrom ){ - SrcList *pDup = sqlite3SrcListDup(db, pStep->pFrom, 0); - if( pDup && pDup->nSrc>1 && !IN_RENAME_OBJECT ){ - Select *pSubquery; - Token as; - pSubquery = sqlite3SelectNew(pParse,0,pDup,0,0,0,0,SF_NestedFrom,0); - as.n = 0; - as.z = 0; - pDup = sqlite3SrcListAppendFromTerm(pParse,0,0,0,&as,pSubquery,0); - } - pSrc = sqlite3SrcListAppendList(pParse, pSrc, pDup); - } - }else{ - sqlite3DbFree(db, zName); - } - return pSrc; -} - /* ** Return true if the pExpr term from the RETURNING clause argument ** list is of the form "*". Raise an error if the terms if of the @@ -157211,7 +159088,7 @@ static int codeTriggerProgram( switch( pStep->op ){ case TK_UPDATE: { sqlite3Update(pParse, - sqlite3TriggerStepSrc(pParse, pStep), + sqlite3SrcListDup(db, pStep->pSrc, 0), sqlite3ExprListDup(db, pStep->pExprList, 0), sqlite3ExprDup(db, pStep->pWhere, 0), pParse->eOrconf, 0, 0, 0 @@ -157221,7 +159098,7 @@ static int codeTriggerProgram( } case TK_INSERT: { sqlite3Insert(pParse, - sqlite3TriggerStepSrc(pParse, pStep), + sqlite3SrcListDup(db, pStep->pSrc, 0), sqlite3SelectDup(db, pStep->pSelect, 0), sqlite3IdListDup(db, pStep->pIdList), pParse->eOrconf, @@ -157232,7 +159109,7 @@ static int codeTriggerProgram( } case TK_DELETE: { sqlite3DeleteFrom(pParse, - sqlite3TriggerStepSrc(pParse, pStep), + sqlite3SrcListDup(db, pStep->pSrc, 0), sqlite3ExprDup(db, pStep->pWhere, 0), 0, 0 ); sqlite3VdbeAddOp0(v, OP_ResetCount); @@ -159554,9 +161431,11 @@ SQLITE_PRIVATE SQLITE_NOINLINE int sqlite3RunVacuum( pDb = &db->aDb[nDb]; assert( strcmp(pDb->zDbSName,zDbVacuum)==0 ); pTemp = pDb->pBt; + nRes = sqlite3BtreeGetRequestedReserve(pMain); if( pOut ){ sqlite3_file *id = sqlite3PagerFile(sqlite3BtreePager(pTemp)); i64 sz = 0; + const char *zFilename; if( id->pMethods!=0 && (sqlite3OsFileSize(id, &sz)!=SQLITE_OK || sz>0) ){ rc = SQLITE_ERROR; sqlite3SetString(pzErrMsg, db, "output file already exists"); @@ -159568,8 +161447,16 @@ SQLITE_PRIVATE SQLITE_NOINLINE int sqlite3RunVacuum( ** they are for the database being vacuumed, except that PAGER_CACHESPILL ** is always set. */ pgflags = db->aDb[iDb].safety_level | (db->flags & PAGER_FLAGS_MASK); + + /* If the VACUUM INTO target file is a URI filename and if the + ** "reserve=N" query parameter is present, reset the reserve to the + ** amount specified, if the amount is within range */ + zFilename = sqlite3BtreeGetFilename(pTemp); + if( ALWAYS(zFilename) ){ + int nNew = (int)sqlite3_uri_int64(zFilename, "reserve", nRes); + if( nNew>=0 && nNew<=255 ) nRes = nNew; + } } - nRes = sqlite3BtreeGetRequestedReserve(pMain); sqlite3BtreeSetCacheSize(pTemp, db->aDb[iDb].pSchema->cache_size); sqlite3BtreeSetSpillSize(pTemp, sqlite3BtreeSetSpillSize(pMain,0)); @@ -163374,7 +165261,7 @@ SQLITE_PRIVATE Bitmask sqlite3WhereCodeOneLoopStart( if( SMASKBIT32(j) & pLoop->u.vtab.mHandleIn ){ int iTab = pParse->nTab++; int iCache = ++pParse->nMem; - sqlite3CodeRhsOfIN(pParse, pTerm->pExpr, iTab); + sqlite3CodeRhsOfIN(pParse, pTerm->pExpr, iTab, 0); sqlite3VdbeAddOp3(v, OP_VInitIn, iTab, iTarget, iCache); }else{ codeEqualityTerm(pParse, pTerm, pLevel, j, bRev, iTarget); @@ -164098,7 +165985,7 @@ SQLITE_PRIVATE Bitmask sqlite3WhereCodeOneLoopStart( ** by this loop in the a[0] slot and all notReady tables in a[1..] slots. ** This becomes the SrcList in the recursive call to sqlite3WhereBegin(). */ - if( pWInfo->nLevel>1 ){ + if( pWInfo->nLevel>1 || pTabItem->fg.fromExists ){ int nNotReady; /* The number of notReady tables */ SrcItem *origSrc; /* Original list of tables */ nNotReady = pWInfo->nLevel - iLevel - 1; @@ -164111,6 +165998,13 @@ SQLITE_PRIVATE Bitmask sqlite3WhereCodeOneLoopStart( for(k=1; k<=nNotReady; k++){ memcpy(&pOrTab->a[k], &origSrc[pLevel[k].iFrom], sizeof(pOrTab->a[k])); } + + /* Clear the fromExists flag on the OR-optimized table entry so that + ** the calls to sqlite3WhereEnd() do not code early-exits after the + ** first row is visited. The early exit applies to this table's + ** overall loop - including the multiple OR branches and any WHERE + ** conditions not passed to the sub-loops - not to the sub-loops. */ + pOrTab->a[0].fg.fromExists = 0; }else{ pOrTab = pWInfo->pTabList; } @@ -164354,7 +166248,7 @@ SQLITE_PRIVATE Bitmask sqlite3WhereCodeOneLoopStart( assert( pLevel->op==OP_Return ); pLevel->p2 = sqlite3VdbeCurrentAddr(v); - if( pWInfo->nLevel>1 ){ sqlite3DbFreeNN(db, pOrTab); } + if( pWInfo->pTabList!=pOrTab ){ sqlite3DbFreeNN(db, pOrTab); } if( !untestedTerms ) disableTerm(pLevel, pTerm); }else #endif /* SQLITE_OMIT_OR_OPTIMIZATION */ @@ -165042,13 +166936,14 @@ static int isLikeOrGlob( ){ int isNum; double rDummy; - isNum = sqlite3AtoF(zNew, &rDummy, iTo, SQLITE_UTF8); + assert( zNew[iTo]==0 ); + isNum = sqlite3AtoF(zNew, &rDummy); if( isNum<=0 ){ if( iTo==1 && zNew[0]=='-' ){ isNum = +1; }else{ zNew[iTo-1]++; - isNum = sqlite3AtoF(zNew, &rDummy, iTo, SQLITE_UTF8); + isNum = sqlite3AtoF(zNew, &rDummy); zNew[iTo-1]--; } } @@ -165091,6 +166986,34 @@ static int isLikeOrGlob( } #endif /* SQLITE_OMIT_LIKE_OPTIMIZATION */ +/* +** If pExpr is one of "like", "glob", "match", or "regexp", then +** return the corresponding SQLITE_INDEX_CONSTRAINT_xxxx value. +** If not, return 0. +** +** pExpr is guaranteed to be a TK_FUNCTION. +*/ +SQLITE_PRIVATE int sqlite3ExprIsLikeOperator(const Expr *pExpr){ + static const struct { + const char *zOp; + unsigned char eOp; + } aOp[] = { + { "match", SQLITE_INDEX_CONSTRAINT_MATCH }, + { "glob", SQLITE_INDEX_CONSTRAINT_GLOB }, + { "like", SQLITE_INDEX_CONSTRAINT_LIKE }, + { "regexp", SQLITE_INDEX_CONSTRAINT_REGEXP } + }; + int i; + assert( pExpr->op==TK_FUNCTION ); + assert( !ExprHasProperty(pExpr, EP_IntValue) ); + for(i=0; iu.zToken, aOp[i].zOp)==0 ){ + return aOp[i].eOp; + } + } + return 0; +} + #ifndef SQLITE_OMIT_VIRTUALTABLE /* @@ -165127,15 +167050,6 @@ static int isAuxiliaryVtabOperator( Expr **ppRight /* Expression to left of MATCH/op2 */ ){ if( pExpr->op==TK_FUNCTION ){ - static const struct Op2 { - const char *zOp; - unsigned char eOp2; - } aOp[] = { - { "match", SQLITE_INDEX_CONSTRAINT_MATCH }, - { "glob", SQLITE_INDEX_CONSTRAINT_GLOB }, - { "like", SQLITE_INDEX_CONSTRAINT_LIKE }, - { "regexp", SQLITE_INDEX_CONSTRAINT_REGEXP } - }; ExprList *pList; Expr *pCol; /* Column reference */ int i; @@ -165155,16 +167069,11 @@ static int isAuxiliaryVtabOperator( */ pCol = pList->a[1].pExpr; assert( pCol->op!=TK_COLUMN || (ExprUseYTab(pCol) && pCol->y.pTab!=0) ); - if( ExprIsVtab(pCol) ){ - for(i=0; iu.zToken, aOp[i].zOp)==0 ){ - *peOp2 = aOp[i].eOp2; - *ppRight = pList->a[0].pExpr; - *ppLeft = pCol; - return 1; - } - } + if( ExprIsVtab(pCol) && (i = sqlite3ExprIsLikeOperator(pExpr))!=0 ){ + *peOp2 = i; + *ppRight = pList->a[0].pExpr; + *ppLeft = pCol; + return 1; } /* We can also match against the first column of overloaded @@ -165298,16 +167207,22 @@ static void whereCombineDisjuncts( Expr *pNew; /* New virtual expression */ int op; /* Operator for the combined expression */ int idxNew; /* Index in pWC of the next virtual term */ + Expr *pA, *pB; /* Expressions associated with pOne and pTwo */ if( (pOne->wtFlags | pTwo->wtFlags) & TERM_VNULL ) return; if( (pOne->eOperator & (WO_EQ|WO_LT|WO_LE|WO_GT|WO_GE))==0 ) return; if( (pTwo->eOperator & (WO_EQ|WO_LT|WO_LE|WO_GT|WO_GE))==0 ) return; if( (eOp & (WO_EQ|WO_LT|WO_LE))!=eOp && (eOp & (WO_EQ|WO_GT|WO_GE))!=eOp ) return; - assert( pOne->pExpr->pLeft!=0 && pOne->pExpr->pRight!=0 ); - assert( pTwo->pExpr->pLeft!=0 && pTwo->pExpr->pRight!=0 ); - if( sqlite3ExprCompare(0,pOne->pExpr->pLeft, pTwo->pExpr->pLeft, -1) ) return; - if( sqlite3ExprCompare(0,pOne->pExpr->pRight, pTwo->pExpr->pRight,-1) )return; + pA = pOne->pExpr; + pB = pTwo->pExpr; + assert( pA->pLeft!=0 && pA->pRight!=0 ); + assert( pB->pLeft!=0 && pB->pRight!=0 ); + if( sqlite3ExprCompare(0,pA->pLeft, pB->pLeft, -1) ) return; + if( sqlite3ExprCompare(0,pA->pRight, pB->pRight,-1) ) return; + if( ExprHasProperty(pA,EP_Commuted)!=ExprHasProperty(pB,EP_Commuted) ){ + return; + } /* If we reach this point, it means the two subterms can be combined */ if( (eOp & (eOp-1))!=0 ){ if( eOp & (WO_LT|WO_LE) ){ @@ -165318,7 +167233,7 @@ static void whereCombineDisjuncts( } } db = pWC->pWInfo->pParse->db; - pNew = sqlite3ExprDup(db, pOne->pExpr, 0); + pNew = sqlite3ExprDup(db, pA, 0); if( pNew==0 ) return; for(op=TK_EQ; eOp!=(WO_EQ<<(op-TK_EQ)); op++){ assert( opop = op; @@ -166358,13 +168273,11 @@ static void whereAddLimitExpr( int iVal = 0; if( sqlite3ExprIsInteger(pExpr, &iVal, pParse) && iVal>=0 ){ - Expr *pVal = sqlite3Expr(db, TK_INTEGER, 0); + Expr *pVal = sqlite3ExprInt32(db, iVal); if( pVal==0 ) return; - ExprSetProperty(pVal, EP_IntValue); - pVal->u.iValue = iVal; pNew = sqlite3PExpr(pParse, TK_MATCH, 0, pVal); }else{ - Expr *pVal = sqlite3Expr(db, TK_REGISTER, 0); + Expr *pVal = sqlite3ExprAlloc(db, TK_REGISTER, 0, 0); if( pVal==0 ) return; pVal->iTable = iReg; pNew = sqlite3PExpr(pParse, TK_MATCH, 0, pVal); @@ -168191,11 +170104,14 @@ static sqlite3_index_info *allocateIndexInfo( break; } if( i==n ){ + int bSortByGroup = (pWInfo->wctrlFlags & WHERE_SORTBYGROUP)!=0; nOrderBy = n; if( (pWInfo->wctrlFlags & WHERE_DISTINCTBY) && !pSrc->fg.rowidUsed ){ - eDistinct = 2 + ((pWInfo->wctrlFlags & WHERE_SORTBYGROUP)!=0); + eDistinct = 2 + bSortByGroup; }else if( pWInfo->wctrlFlags & WHERE_GROUPBY ){ - eDistinct = 1; + eDistinct = 1 - bSortByGroup; + }else if( pWInfo->wctrlFlags & WHERE_WANT_DISTINCT ){ + eDistinct = 3; } } } @@ -169123,11 +171039,16 @@ SQLITE_PRIVATE void sqlite3WhereClausePrint(WhereClause *pWC){ SQLITE_PRIVATE void sqlite3WhereLoopPrint(const WhereLoop *p, const WhereClause *pWC){ WhereInfo *pWInfo; if( pWC ){ + int nb; + SrcItem *pItem; + Table *pTab; + Bitmask mAll; + pWInfo = pWC->pWInfo; - int nb = 1+(pWInfo->pTabList->nSrc+3)/4; - SrcItem *pItem = pWInfo->pTabList->a + p->iTab; - Table *pTab = pItem->pSTab; - Bitmask mAll = (((Bitmask)1)<<(nb*4)) - 1; + nb = 1+(pWInfo->pTabList->nSrc+3)/4; + pItem = pWInfo->pTabList->a + p->iTab; + pTab = pItem->pSTab; + mAll = (((Bitmask)1)<<(nb*4)) - 1; sqlite3DebugPrintf("%c%2d.%0*llx.%0*llx", p->cId, p->iTab, nb, p->maskSelf, nb, p->prereq & mAll); sqlite3DebugPrintf(" %12s", @@ -169606,6 +171527,67 @@ static int whereLoopInsert(WhereLoopBuilder *pBuilder, WhereLoop *pTemplate){ return rc; } +/* +** Callback for estLikePatternLength(). +** +** If this node is a string literal that is longer pWalker->sz, then set +** pWalker->sz to the byte length of that string literal. +** +** pWalker->eCode indicates how to count characters: +** +** eCode==0 Count as a GLOB pattern +** eCode==1 Count as a LIKE pattern +*/ +static int exprNodePatternLengthEst(Walker *pWalker, Expr *pExpr){ + if( pExpr->op==TK_STRING ){ + int sz = 0; /* Pattern size in bytes */ + u8 *z = (u8*)pExpr->u.zToken; /* The pattern */ + u8 c; /* Next character of the pattern */ + u8 c1, c2, c3; /* Wildcards */ + if( pWalker->eCode ){ + c1 = '%'; + c2 = '_'; + c3 = 0; + }else{ + c1 = '*'; + c2 = '?'; + c3 = '['; + } + while( (c = *(z++))!=0 ){ + if( c==c3 ){ + if( *z ) z++; + while( *z && *z!=']' ) z++; + }else if( c!=c1 && c!=c2 ){ + sz++; + } + } + if( sz>pWalker->u.sz ) pWalker->u.sz = sz; + } + return WRC_Continue; +} + +/* +** Return the length of the longest string literal in the given +** expression. +** +** eCode indicates how to count characters: +** +** eCode==0 Count as a GLOB pattern +** eCode==1 Count as a LIKE pattern +*/ +static int estLikePatternLength(Expr *p, u16 eCode){ + Walker w; + w.u.sz = 0; + w.eCode = eCode; + w.xExprCallback = exprNodePatternLengthEst; + w.xSelectCallback = sqlite3SelectWalkFail; +#ifdef SQLITE_DEBUG + w.xSelectCallback2 = sqlite3SelectWalkAssert2; +#endif + sqlite3WalkExpr(&w, p); + return w.u.sz; +} + /* ** Adjust the WhereLoop.nOut value downward to account for terms of the ** WHERE clause that reference the loop but which are not used by an @@ -169634,6 +171616,13 @@ static int whereLoopInsert(WhereLoopBuilder *pBuilder, WhereLoop *pTemplate){ ** "x" column is boolean or else -1 or 0 or 1 is a common default value ** on the "x" column and so in that case only cap the output row estimate ** at 1/2 instead of 1/4. +** +** Heuristic 3: If there is a LIKE or GLOB (or REGEXP or MATCH) operator +** with a large constant pattern, then reduce the size of the search +** space according to the length of the pattern, under the theory that +** longer patterns are less likely to match. This heuristic was added +** to give better output-row count estimates when preparing queries for +** the Join-Order Benchmarks. See forum thread 2026-01-30T09:57:54z */ static void whereLoopOutputAdjust( WhereClause *pWC, /* The WHERE clause */ @@ -169683,13 +171672,14 @@ static void whereLoopOutputAdjust( }else{ /* In the absence of explicit truth probabilities, use heuristics to ** guess a reasonable truth probability. */ + Expr *pOpExpr = pTerm->pExpr; pLoop->nOut--; if( (pTerm->eOperator&(WO_EQ|WO_IS))!=0 && (pTerm->wtFlags & TERM_HIGHTRUTH)==0 /* tag-20200224-1 */ ){ - Expr *pRight = pTerm->pExpr->pRight; + Expr *pRight = pOpExpr->pRight; int k = 0; - testcase( pTerm->pExpr->op==TK_IS ); + testcase( pOpExpr->op==TK_IS ); if( sqlite3ExprIsInteger(pRight, &k, 0) && k>=(-1) && k<=1 ){ k = 10; }else{ @@ -169699,6 +171689,23 @@ static void whereLoopOutputAdjust( pTerm->wtFlags |= TERM_HEURTRUTH; iReduce = k; } + }else + if( ExprHasProperty(pOpExpr, EP_InfixFunc) + && pOpExpr->op==TK_FUNCTION + ){ + int eOp; + assert( ExprUseXList(pOpExpr) ); + assert( pOpExpr->x.pList->nExpr>=2 ); + eOp = sqlite3ExprIsLikeOperator(pOpExpr); + if( ALWAYS(eOp>0) ){ + int szPattern; + Expr *pRHS = pOpExpr->x.pList->a[0].pExpr; + eOp = eOp==SQLITE_INDEX_CONSTRAINT_LIKE; + szPattern = estLikePatternLength(pRHS, eOp); + if( szPattern>0 ){ + pLoop->nOut -= szPattern*2; + } + } } } } @@ -169770,7 +171777,7 @@ static int whereRangeVectorLen( idxaff = sqlite3TableColumnAffinity(pIdx->pTable, pLhs->iColumn); if( aff!=idxaff ) break; - pColl = sqlite3BinaryCompareCollSeq(pParse, pLhs, pRhs); + pColl = sqlite3ExprCompareCollSeq(pParse, pTerm->pExpr); if( pColl==0 ) break; if( sqlite3StrICmp(pColl->zName, pIdx->azColl[i+nEq]) ) break; } @@ -170159,6 +172166,7 @@ static int whereLoopAddBtreeIndex( pNew->rRun += nInMul + nIn; pNew->nOut += nInMul + nIn; whereLoopOutputAdjust(pBuilder->pWC, pNew, rSize); + if( pSrc->fg.fromExists ) pNew->nOut = 0; rc = whereLoopInsert(pBuilder, pNew); if( pNew->wsFlags & WHERE_COLUMN_RANGE ){ @@ -170754,7 +172762,14 @@ static int whereLoopAddBtree( whereLoopOutputAdjust(pWC, pNew, rSize); if( pSrc->fg.isSubquery ){ if( pSrc->fg.viaCoroutine ) pNew->wsFlags |= WHERE_COROUTINE; - pNew->u.btree.pOrderBy = pSrc->u4.pSubq->pSelect->pOrderBy; + /* Do not set btree.pOrderBy for a recursive CTE. In this case + ** the ORDER BY clause does not determine the overall order that + ** rows are emitted from the CTE in. */ + if( (pSrc->u4.pSubq->pSelect->selFlags & SF_Recursive)==0 ){ + pNew->u.btree.pOrderBy = pSrc->u4.pSubq->pSelect->pOrderBy; + } + }else if( pSrc->fg.fromExists ){ + pNew->nOut = 0; } rc = whereLoopInsert(pBuilder, pNew); pNew->nOut = rSize; @@ -170857,6 +172872,7 @@ static int whereLoopAddBtree( ** positioned to the correct row during the right-join no-match ** loop. */ }else{ + if( pSrc->fg.fromExists ) pNew->nOut = 0; rc = whereLoopInsert(pBuilder, pNew); } pNew->nOut = rSize; @@ -171519,7 +173535,7 @@ static int whereLoopAddAll(WhereLoopBuilder *pBuilder){ sqlite3 *db = pWInfo->pParse->db; int rc = SQLITE_OK; int bFirstPastRJ = 0; - int hasRightJoin = 0; + int hasRightCrossJoin = 0; WhereLoop *pNew; @@ -171546,15 +173562,34 @@ static int whereLoopAddAll(WhereLoopBuilder *pBuilder){ ** prevents the right operand of a RIGHT JOIN from being swapped with ** other elements even further to the right. ** - ** The JT_LTORJ case and the hasRightJoin flag work together to - ** prevent FROM-clause terms from moving from the right side of - ** a LEFT JOIN over to the left side of that join if the LEFT JOIN - ** is itself on the left side of a RIGHT JOIN. + ** The hasRightCrossJoin flag prevent FROM-clause terms from moving + ** from the right side of a LEFT JOIN or CROSS JOIN over to the + ** left side of that same join. This is a required restriction in + ** the case of LEFT JOIN - an incorrect answer may results if it is + ** not enforced. This restriction is not required for CROSS JOIN. + ** It is provided merely as a means of controlling join order, under + ** the theory that no real-world queries that care about performance + ** actually use the CROSS JOIN syntax. */ - if( pItem->fg.jointype & JT_LTORJ ) hasRightJoin = 1; + if( pItem->fg.jointype & (JT_LTORJ|JT_CROSS) ){ + testcase( pItem->fg.jointype & JT_LTORJ ); + testcase( pItem->fg.jointype & JT_CROSS ); + hasRightCrossJoin = 1; + } mPrereq |= mPrior; bFirstPastRJ = (pItem->fg.jointype & JT_RIGHT)!=0; - }else if( !hasRightJoin ){ + }else if( pItem->fg.fromExists ){ + /* joins that result from the EXISTS-to-JOIN optimization should not + ** be moved to the left of any of their dependencies */ + WhereClause *pWC = &pWInfo->sWC; + WhereTerm *pTerm; + int i; + for(i=pWC->nBase, pTerm=pWC->a; i>0; i--, pTerm++){ + if( (pNew->maskSelf & pTerm->prereqAll)!=0 ){ + mPrereq |= (pTerm->prereqAll & (pNew->maskSelf-1)); + } + } + }else if( !hasRightCrossJoin ){ mPrereq = 0; } #ifndef SQLITE_OMIT_VIRTUALTABLE @@ -171777,9 +173812,7 @@ static i8 wherePathSatisfiesOrderBy( pLoop = pLast; } if( pLoop->wsFlags & WHERE_VIRTUALTABLE ){ - if( pLoop->u.vtab.isOrdered - && ((wctrlFlags&(WHERE_DISTINCTBY|WHERE_SORTBYGROUP))!=WHERE_DISTINCTBY) - ){ + if( pLoop->u.vtab.isOrdered && pWInfo->pOrderBy==pOrderBy ){ obSat = obDone; }else{ /* No further ORDER BY terms may be matched. So this call should @@ -172155,12 +174188,21 @@ static LogEst whereSortingCost( ** 12 otherwise ** ** For the purposes of this heuristic, a star-query is defined as a query -** with a large central table that is joined using an INNER JOIN, -** not CROSS or OUTER JOINs, against four or more smaller tables. -** The central table is called the "fact" table. The smaller tables -** that get joined are "dimension tables". Also, any table that is -** self-joined cannot be a dimension table; we assume that dimension -** tables may only be joined against fact tables. +** with a central "fact" table that is joined against multiple +** "dimension" tables, subject to the following constraints: +** +** (aa) Only a five-way or larger join is considered for this +** optimization. If there are fewer than four terms in the FROM +** clause, this heuristic does not apply. +** +** (bb) The join between the fact table and the dimension tables must +** be an INNER join. CROSS and OUTER JOINs do not qualify. +** +** (cc) A table must have 3 or more dimension tables in order to be +** considered a fact table. (Was 4 prior to 2026-02-10.) +** +** (dd) A table that is a self-join cannot be a dimension table. +** Dimension tables are joined against fact tables. ** ** SIDE EFFECT: (and really the whole point of this subroutine) ** @@ -172213,7 +174255,7 @@ static int computeMxChoice(WhereInfo *pWInfo){ } #endif /* SQLITE_DEBUG */ - if( nLoop>=5 + if( nLoop>=4 /* Constraint (aa) */ && !pWInfo->bStarDone && OptimizationEnabled(pWInfo->pParse->db, SQLITE_StarQuery) ){ @@ -172225,7 +174267,7 @@ static int computeMxChoice(WhereInfo *pWInfo){ pWInfo->bStarDone = 1; /* Only do this computation once */ - /* Look for fact tables with four or more dimensions where the + /* Look for fact tables with three or more dimensions where the ** dimension tables are not separately from the fact tables by an outer ** or cross join. Adjust cost weights if found. */ @@ -172242,18 +174284,17 @@ static int computeMxChoice(WhereInfo *pWInfo){ if( (pFactTab->fg.jointype & (JT_OUTER|JT_CROSS))!=0 ){ /* If the candidate fact-table is the right table of an outer join ** restrict the search for dimension-tables to be tables to the right - ** of the fact-table. */ - if( iFromIdx+4 > nLoop ) break; /* Impossible to reach nDep>=4 */ + ** of the fact-table. Constraint (bb) */ + if( iFromIdx+3 > nLoop ){ + break; /* ^-- Impossible to reach nDep>=2 - Constraint (cc) */ + } while( pStart && pStart->iTab<=iFromIdx ){ pStart = pStart->pNextLoop; } } for(pWLoop=pStart; pWLoop; pWLoop=pWLoop->pNextLoop){ if( (aFromTabs[pWLoop->iTab].fg.jointype & (JT_OUTER|JT_CROSS))!=0 ){ - /* Fact-tables and dimension-tables cannot be separated by an - ** outer join (at least for the definition of fact- and dimension- - ** used by this heuristic). */ - break; + break; /* Constraint (bb) */ } if( (pWLoop->prereq & m)!=0 /* pWInfo depends on iFromIdx */ && (pWLoop->maskSelf & mSeen)==0 /* pWInfo not already a dependency */ @@ -172267,7 +174308,9 @@ static int computeMxChoice(WhereInfo *pWInfo){ } } } - if( nDep<=3 ) continue; + if( nDep<=2 ){ + continue; /* Constraint (cc) */ + } /* If we reach this point, it means that pFactTab is a fact table ** with four or more dimensions connected by inner joins. Proceed @@ -172280,6 +174323,23 @@ static int computeMxChoice(WhereInfo *pWInfo){ pWLoop->rStarDelta = 0; } } +#endif +#ifdef WHERETRACE_ENABLED /* 0x80000 */ + if( sqlite3WhereTrace & 0x80000 ){ + Bitmask mShow = mSeen; + sqlite3DebugPrintf("Fact table %s(%d), dimensions:", + pFactTab->zAlias ? pFactTab->zAlias : pFactTab->pSTab->zName, + iFromIdx); + for(pWLoop=pStart; pWLoop; pWLoop=pWLoop->pNextLoop){ + if( mShow & pWLoop->maskSelf ){ + SrcItem *pDim = aFromTabs + pWLoop->iTab; + mShow &= ~pWLoop->maskSelf; + sqlite3DebugPrintf(" %s(%d)", + pDim->zAlias ? pDim->zAlias: pDim->pSTab->zName, pWLoop->iTab); + } + } + sqlite3DebugPrintf("\n"); + } #endif pWInfo->bStarUsed = 1; @@ -172303,10 +174363,8 @@ static int computeMxChoice(WhereInfo *pWInfo){ if( sqlite3WhereTrace & 0x80000 ){ SrcItem *pDim = aFromTabs + pWLoop->iTab; sqlite3DebugPrintf( - "Increase SCAN cost of dimension %s(%d) of fact %s(%d) to %d\n", - pDim->zAlias ? pDim->zAlias: pDim->pSTab->zName, pWLoop->iTab, - pFactTab->zAlias ? pFactTab->zAlias : pFactTab->pSTab->zName, - iFromIdx, mxRun + "Increase SCAN cost of %s to %d\n", + pDim->zAlias ? pDim->zAlias: pDim->pSTab->zName, mxRun ); } pWLoop->rStarDelta = mxRun - pWLoop->rRun; @@ -173120,6 +175178,7 @@ static SQLITE_NOINLINE Bitmask whereOmitNoopJoin( for(pTerm=pWInfo->sWC.a; pTermprereqAll & pLoop->maskSelf)!=0 ){ pTerm->wtFlags |= TERM_CODED; + pTerm->prereqAll = 0; } } if( i!=pWInfo->nLevel-1 ){ @@ -174095,6 +176154,10 @@ SQLITE_PRIVATE void sqlite3WhereEnd(WhereInfo *pWInfo){ ){ int r1 = pParse->nMem+1; int j, op; + int addrIfNull = 0; /* Init to avoid false-positive compiler warning */ + if( pLevel->iLeftJoin ){ + addrIfNull = sqlite3VdbeAddOp2(v, OP_IfNullRow, pLevel->iIdxCur, r1); + } for(j=0; jiIdxCur, j, r1+j); } @@ -174104,25 +176167,17 @@ SQLITE_PRIVATE void sqlite3WhereEnd(WhereInfo *pWInfo){ VdbeCoverageIf(v, op==OP_SeekLT); VdbeCoverageIf(v, op==OP_SeekGT); sqlite3VdbeAddOp2(v, OP_Goto, 1, pLevel->p2); + if( pLevel->iLeftJoin ){ + sqlite3VdbeJumpHere(v, addrIfNull); + } } #endif /* SQLITE_DISABLE_SKIPAHEAD_DISTINCT */ } - if( pTabList->a[pLevel->iFrom].fg.fromExists && i==pWInfo->nLevel-1 ){ - /* If the EXISTS-to-JOIN optimization was applied, then the EXISTS - ** loop(s) will be the inner-most loops of the join. There might be - ** multiple EXISTS loops, but they will all be nested, and the join - ** order will not have been changed by the query planner. If the - ** inner-most EXISTS loop sees a single successful row, it should - ** break out of *all* EXISTS loops. But only the inner-most of the - ** nested EXISTS loops should do this breakout. */ - int nOuter = 0; /* Nr of outer EXISTS that this one is nested within */ - while( nOutera[pLevel[-nOuter-1].iFrom].fg.fromExists ) break; - nOuter++; - } - testcase( nOuter>0 ); - sqlite3VdbeAddOp2(v, OP_Goto, 0, pLevel[-nOuter].addrBrk); - VdbeComment((v, "EXISTS break")); + if( pTabList->a[pLevel->iFrom].fg.fromExists ){ + /* This is an EXISTS-to-JOIN optimization loop. If this loop sees a + ** successful row, it should break out of itself. */ + sqlite3VdbeAddOp2(v, OP_Goto, 0, pLevel->addrBrk); + VdbeComment((v, "EXISTS break %d", i)); } sqlite3VdbeResolveLabel(v, pLevel->addrCont); if( pLevel->op!=OP_Noop ){ @@ -175139,7 +177194,7 @@ SQLITE_PRIVATE void sqlite3WindowUpdate( pWin->eEnd = aUp[i].eEnd; pWin->eExclude = 0; if( pWin->eStart==TK_FOLLOWING ){ - pWin->pStart = sqlite3Expr(db, TK_INTEGER, "1"); + pWin->pStart = sqlite3ExprInt32(db, 1); } break; } @@ -175484,9 +177539,7 @@ SQLITE_PRIVATE int sqlite3WindowRewrite(Parse *pParse, Select *p){ ** keep everything legal in this case. */ if( pSublist==0 ){ - pSublist = sqlite3ExprListAppend(pParse, 0, - sqlite3Expr(db, TK_INTEGER, "0") - ); + pSublist = sqlite3ExprListAppend(pParse, 0, sqlite3ExprInt32(db, 0)); } pSub = sqlite3SelectNew( @@ -177710,8 +179763,23 @@ static void updateDeleteLimitError( ** sqlite3_realloc() that includes a call to sqlite3FaultSim() to facilitate ** testing. */ - static void *parserStackRealloc(void *pOld, sqlite3_uint64 newSize){ - return sqlite3FaultSim(700) ? 0 : sqlite3_realloc(pOld, newSize); + static void *parserStackRealloc( + void *pOld, /* Prior allocation */ + sqlite3_uint64 newSize, /* Requested new alloation size */ + Parse *pParse /* Parsing context */ + ){ + void *p = sqlite3FaultSim(700) ? 0 : sqlite3_realloc(pOld, newSize); + if( p==0 ) sqlite3OomFault(pParse->db); + return p; + } + static void parserStackFree(void *pOld, Parse *pParse){ + (void)pParse; + sqlite3_free(pOld); + } + + /* Return an integer that is the maximum allowed stack size */ + static int parserStackSizeLimit(Parse *pParse){ + return pParse->db->aLimit[SQLITE_LIMIT_PARSER_DEPTH]; } @@ -177750,15 +179818,46 @@ static void updateDeleteLimitError( } - /* A routine to convert a binary TK_IS or TK_ISNOT expression into a - ** unary TK_ISNULL or TK_NOTNULL expression. */ - static void binaryToUnaryIfNull(Parse *pParse, Expr *pY, Expr *pA, int op){ - sqlite3 *db = pParse->db; - if( pA && pY && pY->op==TK_NULL && !IN_RENAME_OBJECT ){ - pA->op = (u8)op; - sqlite3ExprDelete(db, pA->pRight); - pA->pRight = 0; + /* Create a TK_ISNULL or TK_NOTNULL expression, perhaps optimized to + ** to TK_TRUEFALSE, if possible */ + static Expr *sqlite3PExprIsNull( + Parse *pParse, /* Parsing context */ + int op, /* TK_ISNULL or TK_NOTNULL */ + Expr *pLeft /* Operand */ + ){ + Expr *p = pLeft; + assert( op==TK_ISNULL || op==TK_NOTNULL ); + assert( pLeft!=0 ); + while( p->op==TK_UPLUS || p->op==TK_UMINUS ){ + p = p->pLeft; + assert( p!=0 ); + } + switch( p->op ){ + case TK_INTEGER: + case TK_STRING: + case TK_FLOAT: + case TK_BLOB: + sqlite3ExprDeferredDelete(pParse, pLeft); + return sqlite3ExprInt32(pParse->db, op==TK_NOTNULL); + default: + break; } + return sqlite3PExpr(pParse, op, pLeft, 0); + } + + /* Create a TK_IS or TK_ISNOT operator, perhaps optimized to + ** TK_ISNULL or TK_NOTNULL or TK_TRUEFALSE. */ + static Expr *sqlite3PExprIs( + Parse *pParse, /* Parsing context */ + int op, /* TK_IS or TK_ISNOT */ + Expr *pLeft, /* Left operand */ + Expr *pRight /* Right operand */ + ){ + if( pRight && pRight->op==TK_NULL ){ + sqlite3ExprDeferredDelete(pParse, pRight); + return sqlite3PExprIsNull(pParse, op==TK_IS ? TK_ISNULL : TK_NOTNULL, pLeft); + } + return sqlite3PExpr(pParse, op, pLeft, pRight); } /* Add a single new term to an ExprList that is used to store a @@ -178041,63 +180140,72 @@ static void updateDeleteLimitError( #endif /************* Begin control #defines *****************************************/ #define YYCODETYPE unsigned short int -#define YYNOCODE 323 +#define YYNOCODE 322 #define YYACTIONTYPE unsigned short int #define YYWILDCARD 102 #define sqlite3ParserTOKENTYPE Token typedef union { int yyinit; sqlite3ParserTOKENTYPE yy0; - u32 yy9; - struct TrigEvent yy28; - With* yy125; - IdList* yy204; - struct FrameBound yy205; - TriggerStep* yy319; - const char* yy342; - Cte* yy361; - ExprList* yy402; - Upsert* yy403; - OnOrUsing yy421; - u8 yy444; - struct {int value; int mask;} yy481; - Window* yy483; - int yy502; - SrcList* yy563; - Expr* yy590; - Select* yy637; + ExprList* yy14; + With* yy59; + Cte* yy67; + Upsert* yy122; + IdList* yy132; + int yy144; + const char* yy168; + SrcList* yy203; + Window* yy211; + OnOrUsing yy269; + struct TrigEvent yy286; + struct {int value; int mask;} yy383; + u32 yy391; + TriggerStep* yy427; + Expr* yy454; + u8 yy462; + struct FrameBound yy509; + Select* yy555; } YYMINORTYPE; #ifndef YYSTACKDEPTH -#define YYSTACKDEPTH 100 +#define YYSTACKDEPTH 50 #endif #define sqlite3ParserARG_SDECL #define sqlite3ParserARG_PDECL #define sqlite3ParserARG_PARAM #define sqlite3ParserARG_FETCH #define sqlite3ParserARG_STORE +#undef YYREALLOC #define YYREALLOC parserStackRealloc -#define YYFREE sqlite3_free +#undef YYFREE +#define YYFREE parserStackFree +#undef YYDYNSTACK #define YYDYNSTACK 1 +#undef YYSIZELIMIT +#define YYSIZELIMIT parserStackSizeLimit +#define sqlite3ParserCTX(P) ((P)->pParse) #define sqlite3ParserCTX_SDECL Parse *pParse; #define sqlite3ParserCTX_PDECL ,Parse *pParse #define sqlite3ParserCTX_PARAM ,pParse #define sqlite3ParserCTX_FETCH Parse *pParse=yypParser->pParse; #define sqlite3ParserCTX_STORE yypParser->pParse=pParse; +#undef YYERRORSYMBOL +#undef YYERRSYMDT +#undef YYFALLBACK #define YYFALLBACK 1 -#define YYNSTATE 583 -#define YYNRULE 409 -#define YYNRULE_WITH_ACTION 344 +#define YYNSTATE 600 +#define YYNRULE 412 +#define YYNRULE_WITH_ACTION 348 #define YYNTOKEN 187 -#define YY_MAX_SHIFT 582 -#define YY_MIN_SHIFTREDUCE 845 -#define YY_MAX_SHIFTREDUCE 1253 -#define YY_ERROR_ACTION 1254 -#define YY_ACCEPT_ACTION 1255 -#define YY_NO_ACTION 1256 -#define YY_MIN_REDUCE 1257 -#define YY_MAX_REDUCE 1665 +#define YY_MAX_SHIFT 599 +#define YY_MIN_SHIFTREDUCE 867 +#define YY_MAX_SHIFTREDUCE 1278 +#define YY_ERROR_ACTION 1279 +#define YY_ACCEPT_ACTION 1280 +#define YY_NO_ACTION 1281 +#define YY_MIN_REDUCE 1282 +#define YY_MAX_REDUCE 1693 #define YY_MIN_DSTRCTR 206 -#define YY_MAX_DSTRCTR 320 +#define YY_MAX_DSTRCTR 319 /************* End control #defines *******************************************/ #define YY_NLOOKAHEAD ((int)(sizeof(yy_lookahead)/sizeof(yy_lookahead[0]))) @@ -178180,643 +180288,680 @@ typedef union { ** yy_default[] Default action for each state. ** *********** Begin parsing tables **********************************************/ -#define YY_ACTTAB_COUNT (2207) +#define YY_ACTTAB_COUNT (2379) static const YYACTIONTYPE yy_action[] = { - /* 0 */ 130, 127, 234, 282, 282, 1328, 576, 1307, 460, 289, - /* 10 */ 289, 576, 1622, 381, 576, 1328, 573, 576, 562, 413, - /* 20 */ 1300, 1542, 573, 481, 562, 524, 460, 459, 558, 82, - /* 30 */ 82, 983, 294, 375, 51, 51, 498, 61, 61, 984, - /* 40 */ 82, 82, 1577, 137, 138, 91, 7, 1228, 1228, 1063, - /* 50 */ 1066, 1053, 1053, 135, 135, 136, 136, 136, 136, 413, - /* 60 */ 288, 288, 182, 288, 288, 481, 536, 288, 288, 130, - /* 70 */ 127, 234, 432, 573, 525, 562, 573, 557, 562, 1290, - /* 80 */ 573, 421, 562, 137, 138, 91, 559, 1228, 1228, 1063, - /* 90 */ 1066, 1053, 1053, 135, 135, 136, 136, 136, 136, 296, - /* 100 */ 460, 398, 1249, 134, 134, 134, 134, 133, 133, 132, - /* 110 */ 132, 132, 131, 128, 451, 451, 1050, 1050, 1064, 1067, - /* 120 */ 1255, 1, 1, 582, 2, 1259, 581, 1174, 1259, 1174, - /* 130 */ 321, 413, 155, 321, 1584, 155, 379, 112, 481, 1341, - /* 140 */ 456, 299, 1341, 134, 134, 134, 134, 133, 133, 132, - /* 150 */ 132, 132, 131, 128, 451, 137, 138, 91, 498, 1228, - /* 160 */ 1228, 1063, 1066, 1053, 1053, 135, 135, 136, 136, 136, - /* 170 */ 136, 1204, 862, 1281, 288, 288, 283, 288, 288, 523, - /* 180 */ 523, 1250, 139, 578, 7, 578, 1345, 573, 1169, 562, - /* 190 */ 573, 1054, 562, 136, 136, 136, 136, 129, 573, 547, - /* 200 */ 562, 1169, 245, 1541, 1169, 245, 133, 133, 132, 132, - /* 210 */ 132, 131, 128, 451, 302, 134, 134, 134, 134, 133, - /* 220 */ 133, 132, 132, 132, 131, 128, 451, 1575, 1204, 1205, - /* 230 */ 1204, 7, 470, 550, 455, 413, 550, 455, 130, 127, - /* 240 */ 234, 134, 134, 134, 134, 133, 133, 132, 132, 132, - /* 250 */ 131, 128, 451, 136, 136, 136, 136, 538, 483, 137, - /* 260 */ 138, 91, 1019, 1228, 1228, 1063, 1066, 1053, 1053, 135, - /* 270 */ 135, 136, 136, 136, 136, 1085, 576, 1204, 132, 132, - /* 280 */ 132, 131, 128, 451, 93, 214, 134, 134, 134, 134, - /* 290 */ 133, 133, 132, 132, 132, 131, 128, 451, 401, 19, - /* 300 */ 19, 134, 134, 134, 134, 133, 133, 132, 132, 132, - /* 310 */ 131, 128, 451, 1498, 426, 267, 344, 467, 332, 134, - /* 320 */ 134, 134, 134, 133, 133, 132, 132, 132, 131, 128, - /* 330 */ 451, 1281, 576, 6, 1204, 1205, 1204, 257, 576, 413, - /* 340 */ 511, 508, 507, 1279, 94, 1019, 464, 1204, 551, 551, - /* 350 */ 506, 1224, 1571, 44, 38, 51, 51, 411, 576, 413, - /* 360 */ 45, 51, 51, 137, 138, 91, 530, 1228, 1228, 1063, - /* 370 */ 1066, 1053, 1053, 135, 135, 136, 136, 136, 136, 398, - /* 380 */ 1148, 82, 82, 137, 138, 91, 39, 1228, 1228, 1063, - /* 390 */ 1066, 1053, 1053, 135, 135, 136, 136, 136, 136, 344, - /* 400 */ 44, 288, 288, 375, 1204, 1205, 1204, 209, 1204, 1224, - /* 410 */ 320, 567, 471, 576, 573, 576, 562, 576, 316, 264, - /* 420 */ 231, 46, 160, 134, 134, 134, 134, 133, 133, 132, - /* 430 */ 132, 132, 131, 128, 451, 303, 82, 82, 82, 82, - /* 440 */ 82, 82, 442, 134, 134, 134, 134, 133, 133, 132, - /* 450 */ 132, 132, 131, 128, 451, 1582, 544, 320, 567, 1250, - /* 460 */ 874, 1582, 380, 382, 413, 1204, 1205, 1204, 360, 182, - /* 470 */ 288, 288, 1576, 557, 1339, 557, 7, 557, 1277, 472, - /* 480 */ 346, 526, 531, 573, 556, 562, 439, 1511, 137, 138, - /* 490 */ 91, 219, 1228, 1228, 1063, 1066, 1053, 1053, 135, 135, - /* 500 */ 136, 136, 136, 136, 465, 1511, 1513, 532, 413, 288, - /* 510 */ 288, 423, 512, 288, 288, 411, 288, 288, 874, 130, - /* 520 */ 127, 234, 573, 1107, 562, 1204, 573, 1107, 562, 573, - /* 530 */ 560, 562, 137, 138, 91, 1293, 1228, 1228, 1063, 1066, - /* 540 */ 1053, 1053, 135, 135, 136, 136, 136, 136, 134, 134, - /* 550 */ 134, 134, 133, 133, 132, 132, 132, 131, 128, 451, - /* 560 */ 493, 503, 1292, 1204, 257, 288, 288, 511, 508, 507, - /* 570 */ 1204, 1628, 1169, 123, 568, 275, 4, 506, 573, 1511, - /* 580 */ 562, 331, 1204, 1205, 1204, 1169, 548, 548, 1169, 261, - /* 590 */ 571, 7, 134, 134, 134, 134, 133, 133, 132, 132, - /* 600 */ 132, 131, 128, 451, 108, 533, 130, 127, 234, 1204, - /* 610 */ 448, 447, 413, 1451, 452, 983, 886, 96, 1598, 1233, - /* 620 */ 1204, 1205, 1204, 984, 1235, 1450, 565, 1204, 1205, 1204, - /* 630 */ 229, 522, 1234, 534, 1333, 1333, 137, 138, 91, 1449, - /* 640 */ 1228, 1228, 1063, 1066, 1053, 1053, 135, 135, 136, 136, - /* 650 */ 136, 136, 373, 1595, 971, 1040, 413, 1236, 418, 1236, - /* 660 */ 879, 121, 121, 948, 373, 1595, 1204, 1205, 1204, 122, - /* 670 */ 1204, 452, 577, 452, 363, 417, 1028, 882, 373, 1595, - /* 680 */ 137, 138, 91, 462, 1228, 1228, 1063, 1066, 1053, 1053, - /* 690 */ 135, 135, 136, 136, 136, 136, 134, 134, 134, 134, - /* 700 */ 133, 133, 132, 132, 132, 131, 128, 451, 1028, 1028, - /* 710 */ 1030, 1031, 35, 570, 570, 570, 197, 423, 1040, 198, - /* 720 */ 1204, 123, 568, 1204, 4, 320, 567, 1204, 1205, 1204, - /* 730 */ 40, 388, 576, 384, 882, 1029, 423, 1188, 571, 1028, - /* 740 */ 134, 134, 134, 134, 133, 133, 132, 132, 132, 131, - /* 750 */ 128, 451, 529, 1568, 1204, 19, 19, 1204, 575, 492, - /* 760 */ 413, 157, 452, 489, 1187, 1331, 1331, 5, 1204, 949, - /* 770 */ 431, 1028, 1028, 1030, 565, 22, 22, 1204, 1205, 1204, - /* 780 */ 1204, 1205, 1204, 477, 137, 138, 91, 212, 1228, 1228, - /* 790 */ 1063, 1066, 1053, 1053, 135, 135, 136, 136, 136, 136, - /* 800 */ 1188, 48, 111, 1040, 413, 1204, 213, 970, 1041, 121, - /* 810 */ 121, 1204, 1205, 1204, 1204, 1205, 1204, 122, 221, 452, - /* 820 */ 577, 452, 44, 487, 1028, 1204, 1205, 1204, 137, 138, - /* 830 */ 91, 378, 1228, 1228, 1063, 1066, 1053, 1053, 135, 135, - /* 840 */ 136, 136, 136, 136, 134, 134, 134, 134, 133, 133, - /* 850 */ 132, 132, 132, 131, 128, 451, 1028, 1028, 1030, 1031, - /* 860 */ 35, 461, 1204, 1205, 1204, 1569, 1040, 377, 214, 1149, - /* 870 */ 1657, 535, 1657, 437, 902, 320, 567, 1568, 364, 320, - /* 880 */ 567, 412, 329, 1029, 519, 1188, 3, 1028, 134, 134, - /* 890 */ 134, 134, 133, 133, 132, 132, 132, 131, 128, 451, - /* 900 */ 1659, 399, 1169, 307, 893, 307, 515, 576, 413, 214, - /* 910 */ 498, 944, 1024, 540, 903, 1169, 943, 392, 1169, 1028, - /* 920 */ 1028, 1030, 406, 298, 1204, 50, 1149, 1658, 413, 1658, - /* 930 */ 145, 145, 137, 138, 91, 293, 1228, 1228, 1063, 1066, - /* 940 */ 1053, 1053, 135, 135, 136, 136, 136, 136, 1188, 1147, - /* 950 */ 514, 1568, 137, 138, 91, 1505, 1228, 1228, 1063, 1066, - /* 960 */ 1053, 1053, 135, 135, 136, 136, 136, 136, 434, 323, - /* 970 */ 435, 539, 111, 1506, 274, 291, 372, 517, 367, 516, - /* 980 */ 262, 1204, 1205, 1204, 1574, 481, 363, 576, 7, 1569, - /* 990 */ 1568, 377, 134, 134, 134, 134, 133, 133, 132, 132, - /* 1000 */ 132, 131, 128, 451, 1568, 576, 1147, 576, 232, 576, - /* 1010 */ 19, 19, 134, 134, 134, 134, 133, 133, 132, 132, - /* 1020 */ 132, 131, 128, 451, 1169, 433, 576, 1207, 19, 19, - /* 1030 */ 19, 19, 19, 19, 1627, 576, 911, 1169, 47, 120, - /* 1040 */ 1169, 117, 413, 306, 498, 438, 1125, 206, 336, 19, - /* 1050 */ 19, 1435, 49, 449, 449, 449, 1368, 315, 81, 81, - /* 1060 */ 576, 304, 413, 1570, 207, 377, 137, 138, 91, 115, - /* 1070 */ 1228, 1228, 1063, 1066, 1053, 1053, 135, 135, 136, 136, - /* 1080 */ 136, 136, 576, 82, 82, 1207, 137, 138, 91, 1340, - /* 1090 */ 1228, 1228, 1063, 1066, 1053, 1053, 135, 135, 136, 136, - /* 1100 */ 136, 136, 1569, 386, 377, 82, 82, 463, 1126, 1552, - /* 1110 */ 333, 463, 335, 131, 128, 451, 1569, 161, 377, 16, - /* 1120 */ 317, 387, 428, 1127, 448, 447, 134, 134, 134, 134, - /* 1130 */ 133, 133, 132, 132, 132, 131, 128, 451, 1128, 576, - /* 1140 */ 1105, 10, 445, 267, 576, 1554, 134, 134, 134, 134, - /* 1150 */ 133, 133, 132, 132, 132, 131, 128, 451, 532, 576, - /* 1160 */ 922, 576, 19, 19, 576, 1573, 576, 147, 147, 7, - /* 1170 */ 923, 1236, 498, 1236, 576, 487, 413, 552, 285, 1224, - /* 1180 */ 969, 215, 82, 82, 66, 66, 1435, 67, 67, 21, - /* 1190 */ 21, 1110, 1110, 495, 334, 297, 413, 53, 53, 297, - /* 1200 */ 137, 138, 91, 119, 1228, 1228, 1063, 1066, 1053, 1053, - /* 1210 */ 135, 135, 136, 136, 136, 136, 413, 1336, 1311, 446, - /* 1220 */ 137, 138, 91, 227, 1228, 1228, 1063, 1066, 1053, 1053, - /* 1230 */ 135, 135, 136, 136, 136, 136, 574, 1224, 936, 936, - /* 1240 */ 137, 126, 91, 141, 1228, 1228, 1063, 1066, 1053, 1053, - /* 1250 */ 135, 135, 136, 136, 136, 136, 533, 429, 472, 346, - /* 1260 */ 134, 134, 134, 134, 133, 133, 132, 132, 132, 131, - /* 1270 */ 128, 451, 576, 457, 233, 343, 1435, 403, 498, 1550, - /* 1280 */ 134, 134, 134, 134, 133, 133, 132, 132, 132, 131, - /* 1290 */ 128, 451, 576, 324, 576, 82, 82, 487, 576, 969, - /* 1300 */ 134, 134, 134, 134, 133, 133, 132, 132, 132, 131, - /* 1310 */ 128, 451, 288, 288, 546, 68, 68, 54, 54, 553, - /* 1320 */ 413, 69, 69, 351, 6, 573, 944, 562, 410, 409, - /* 1330 */ 1435, 943, 450, 545, 260, 259, 258, 576, 158, 576, - /* 1340 */ 413, 222, 1180, 479, 969, 138, 91, 430, 1228, 1228, - /* 1350 */ 1063, 1066, 1053, 1053, 135, 135, 136, 136, 136, 136, - /* 1360 */ 70, 70, 71, 71, 576, 1126, 91, 576, 1228, 1228, - /* 1370 */ 1063, 1066, 1053, 1053, 135, 135, 136, 136, 136, 136, - /* 1380 */ 1127, 166, 850, 851, 852, 1282, 419, 72, 72, 108, - /* 1390 */ 73, 73, 1310, 358, 1180, 1128, 576, 305, 576, 123, - /* 1400 */ 568, 494, 4, 488, 134, 134, 134, 134, 133, 133, - /* 1410 */ 132, 132, 132, 131, 128, 451, 571, 564, 534, 55, - /* 1420 */ 55, 56, 56, 576, 134, 134, 134, 134, 133, 133, - /* 1430 */ 132, 132, 132, 131, 128, 451, 576, 1104, 233, 1104, - /* 1440 */ 452, 1602, 582, 2, 1259, 576, 57, 57, 576, 321, - /* 1450 */ 576, 155, 565, 1435, 485, 353, 576, 356, 1341, 59, - /* 1460 */ 59, 576, 44, 969, 569, 419, 576, 238, 60, 60, - /* 1470 */ 261, 74, 74, 75, 75, 287, 231, 576, 1366, 76, - /* 1480 */ 76, 1040, 420, 184, 20, 20, 576, 121, 121, 77, - /* 1490 */ 77, 97, 218, 288, 288, 122, 125, 452, 577, 452, - /* 1500 */ 143, 143, 1028, 576, 520, 576, 573, 576, 562, 144, - /* 1510 */ 144, 474, 227, 1244, 478, 123, 568, 576, 4, 320, - /* 1520 */ 567, 245, 411, 576, 443, 411, 78, 78, 62, 62, - /* 1530 */ 79, 79, 571, 319, 1028, 1028, 1030, 1031, 35, 418, - /* 1540 */ 63, 63, 576, 290, 411, 9, 80, 80, 1144, 576, - /* 1550 */ 400, 576, 486, 455, 576, 1223, 452, 576, 325, 342, - /* 1560 */ 576, 111, 576, 1188, 242, 64, 64, 473, 565, 576, - /* 1570 */ 23, 576, 170, 170, 171, 171, 576, 87, 87, 328, - /* 1580 */ 65, 65, 542, 83, 83, 146, 146, 541, 123, 568, - /* 1590 */ 341, 4, 84, 84, 168, 168, 576, 1040, 576, 148, - /* 1600 */ 148, 576, 1380, 121, 121, 571, 1021, 576, 266, 576, - /* 1610 */ 424, 122, 576, 452, 577, 452, 576, 553, 1028, 142, - /* 1620 */ 142, 169, 169, 576, 162, 162, 528, 889, 371, 452, - /* 1630 */ 152, 152, 151, 151, 1379, 149, 149, 109, 370, 150, - /* 1640 */ 150, 565, 576, 480, 576, 266, 86, 86, 576, 1092, - /* 1650 */ 1028, 1028, 1030, 1031, 35, 542, 482, 576, 266, 466, - /* 1660 */ 543, 123, 568, 1616, 4, 88, 88, 85, 85, 475, - /* 1670 */ 1040, 52, 52, 222, 901, 900, 121, 121, 571, 1188, - /* 1680 */ 58, 58, 244, 1032, 122, 889, 452, 577, 452, 908, - /* 1690 */ 909, 1028, 300, 347, 504, 111, 263, 361, 165, 111, - /* 1700 */ 111, 1088, 452, 263, 974, 1153, 266, 1092, 986, 987, - /* 1710 */ 942, 939, 125, 125, 565, 1103, 872, 1103, 159, 941, - /* 1720 */ 1309, 125, 1557, 1028, 1028, 1030, 1031, 35, 542, 337, - /* 1730 */ 1530, 205, 1529, 541, 499, 1589, 490, 348, 1376, 352, - /* 1740 */ 355, 1032, 357, 1040, 359, 1324, 1308, 366, 563, 121, - /* 1750 */ 121, 376, 1188, 1389, 1434, 1362, 280, 122, 1374, 452, - /* 1760 */ 577, 452, 167, 1439, 1028, 1289, 1280, 1268, 1267, 1269, - /* 1770 */ 1609, 1359, 312, 313, 314, 397, 12, 237, 224, 1421, - /* 1780 */ 295, 1416, 1409, 1426, 339, 484, 340, 509, 1371, 1612, - /* 1790 */ 1372, 1425, 1244, 404, 301, 228, 1028, 1028, 1030, 1031, - /* 1800 */ 35, 1601, 1192, 454, 345, 1307, 292, 369, 1502, 1501, - /* 1810 */ 270, 396, 396, 395, 277, 393, 1370, 1369, 859, 1549, - /* 1820 */ 186, 123, 568, 235, 4, 1188, 391, 210, 211, 223, - /* 1830 */ 1547, 239, 1241, 327, 422, 96, 220, 195, 571, 180, - /* 1840 */ 188, 326, 468, 469, 190, 191, 502, 192, 193, 566, - /* 1850 */ 247, 109, 1430, 491, 199, 251, 102, 281, 402, 476, - /* 1860 */ 405, 1496, 452, 497, 253, 1422, 13, 1428, 14, 1427, - /* 1870 */ 203, 1507, 241, 500, 565, 354, 407, 92, 95, 1270, - /* 1880 */ 175, 254, 518, 43, 1327, 255, 1326, 1325, 436, 1518, - /* 1890 */ 350, 1318, 104, 229, 893, 1626, 440, 441, 1625, 408, - /* 1900 */ 240, 1296, 268, 1040, 310, 269, 1297, 527, 444, 121, - /* 1910 */ 121, 368, 1295, 1594, 1624, 311, 1394, 122, 1317, 452, - /* 1920 */ 577, 452, 374, 1580, 1028, 1393, 140, 553, 11, 90, - /* 1930 */ 568, 385, 4, 116, 318, 414, 1579, 110, 1483, 537, - /* 1940 */ 320, 567, 1350, 555, 42, 579, 571, 1349, 1198, 383, - /* 1950 */ 276, 390, 216, 389, 278, 279, 1028, 1028, 1030, 1031, - /* 1960 */ 35, 172, 580, 1265, 458, 1260, 415, 416, 185, 156, - /* 1970 */ 452, 1534, 1535, 173, 1533, 1532, 89, 308, 225, 226, - /* 1980 */ 846, 174, 565, 453, 217, 1188, 322, 236, 1102, 154, - /* 1990 */ 1100, 330, 187, 176, 1223, 243, 189, 925, 338, 246, - /* 2000 */ 1116, 194, 177, 425, 178, 427, 98, 196, 99, 100, - /* 2010 */ 101, 1040, 179, 1119, 1115, 248, 249, 121, 121, 163, - /* 2020 */ 24, 250, 349, 1238, 496, 122, 1108, 452, 577, 452, - /* 2030 */ 1192, 454, 1028, 266, 292, 200, 252, 201, 861, 396, - /* 2040 */ 396, 395, 277, 393, 15, 501, 859, 370, 292, 256, - /* 2050 */ 202, 554, 505, 396, 396, 395, 277, 393, 103, 239, - /* 2060 */ 859, 327, 25, 26, 1028, 1028, 1030, 1031, 35, 326, - /* 2070 */ 362, 510, 891, 239, 365, 327, 513, 904, 105, 309, - /* 2080 */ 164, 181, 27, 326, 106, 521, 107, 1185, 1069, 1155, - /* 2090 */ 17, 1154, 230, 1188, 284, 286, 265, 204, 125, 1171, - /* 2100 */ 241, 28, 978, 972, 29, 41, 1175, 1179, 175, 1173, - /* 2110 */ 30, 43, 31, 8, 241, 1178, 32, 1160, 208, 549, - /* 2120 */ 33, 111, 175, 1083, 1070, 43, 1068, 1072, 240, 113, - /* 2130 */ 114, 34, 561, 118, 1124, 271, 1073, 36, 18, 572, - /* 2140 */ 1033, 873, 240, 124, 37, 935, 272, 273, 1617, 183, - /* 2150 */ 153, 394, 1194, 1193, 1256, 1256, 1256, 1256, 1256, 1256, - /* 2160 */ 1256, 1256, 1256, 414, 1256, 1256, 1256, 1256, 320, 567, - /* 2170 */ 1256, 1256, 1256, 1256, 1256, 1256, 1256, 414, 1256, 1256, - /* 2180 */ 1256, 1256, 320, 567, 1256, 1256, 1256, 1256, 1256, 1256, - /* 2190 */ 1256, 1256, 458, 1256, 1256, 1256, 1256, 1256, 1256, 1256, - /* 2200 */ 1256, 1256, 1256, 1256, 1256, 1256, 458, + /* 0 */ 134, 131, 238, 290, 290, 1353, 593, 1332, 478, 1606, + /* 10 */ 593, 1315, 593, 7, 593, 1353, 590, 593, 579, 424, + /* 20 */ 1566, 134, 131, 238, 1318, 541, 478, 477, 575, 84, + /* 30 */ 84, 1005, 303, 84, 84, 51, 51, 63, 63, 1006, + /* 40 */ 84, 84, 498, 141, 142, 93, 442, 1254, 1254, 1085, + /* 50 */ 1088, 1075, 1075, 139, 139, 140, 140, 140, 140, 424, + /* 60 */ 296, 296, 498, 296, 296, 567, 553, 296, 296, 1306, + /* 70 */ 574, 1358, 1358, 590, 542, 579, 590, 574, 579, 548, + /* 80 */ 590, 1304, 579, 141, 142, 93, 576, 1254, 1254, 1085, + /* 90 */ 1088, 1075, 1075, 139, 139, 140, 140, 140, 140, 399, + /* 100 */ 478, 395, 6, 138, 138, 138, 138, 137, 137, 136, + /* 110 */ 136, 136, 135, 132, 463, 44, 342, 593, 305, 1127, + /* 120 */ 1280, 1, 1, 599, 2, 1284, 598, 1200, 1284, 1200, + /* 130 */ 330, 424, 158, 330, 1613, 158, 390, 116, 308, 1366, + /* 140 */ 51, 51, 1366, 138, 138, 138, 138, 137, 137, 136, + /* 150 */ 136, 136, 135, 132, 463, 141, 142, 93, 515, 1254, + /* 160 */ 1254, 1085, 1088, 1075, 1075, 139, 139, 140, 140, 140, + /* 170 */ 140, 1230, 329, 584, 296, 296, 212, 296, 296, 568, + /* 180 */ 568, 488, 143, 1072, 1072, 1086, 1089, 590, 1195, 579, + /* 190 */ 590, 340, 579, 140, 140, 140, 140, 133, 392, 564, + /* 200 */ 536, 1195, 250, 425, 1195, 250, 137, 137, 136, 136, + /* 210 */ 136, 135, 132, 463, 291, 138, 138, 138, 138, 137, + /* 220 */ 137, 136, 136, 136, 135, 132, 463, 966, 1230, 1231, + /* 230 */ 1230, 412, 965, 467, 412, 424, 467, 489, 357, 1611, + /* 240 */ 391, 138, 138, 138, 138, 137, 137, 136, 136, 136, + /* 250 */ 135, 132, 463, 463, 134, 131, 238, 555, 1076, 141, + /* 260 */ 142, 93, 593, 1254, 1254, 1085, 1088, 1075, 1075, 139, + /* 270 */ 139, 140, 140, 140, 140, 1317, 134, 131, 238, 424, + /* 280 */ 549, 1597, 1531, 333, 97, 83, 83, 140, 140, 140, + /* 290 */ 140, 138, 138, 138, 138, 137, 137, 136, 136, 136, + /* 300 */ 135, 132, 463, 141, 142, 93, 1657, 1254, 1254, 1085, + /* 310 */ 1088, 1075, 1075, 139, 139, 140, 140, 140, 140, 138, + /* 320 */ 138, 138, 138, 137, 137, 136, 136, 136, 135, 132, + /* 330 */ 463, 591, 1230, 958, 958, 138, 138, 138, 138, 137, + /* 340 */ 137, 136, 136, 136, 135, 132, 463, 44, 398, 547, + /* 350 */ 1306, 136, 136, 136, 135, 132, 463, 386, 593, 442, + /* 360 */ 595, 145, 595, 138, 138, 138, 138, 137, 137, 136, + /* 370 */ 136, 136, 135, 132, 463, 500, 1230, 112, 550, 460, + /* 380 */ 459, 51, 51, 424, 296, 296, 479, 334, 1259, 1230, + /* 390 */ 1231, 1230, 1599, 1261, 388, 312, 444, 590, 246, 579, + /* 400 */ 546, 1260, 271, 235, 329, 584, 551, 141, 142, 93, + /* 410 */ 429, 1254, 1254, 1085, 1088, 1075, 1075, 139, 139, 140, + /* 420 */ 140, 140, 140, 22, 22, 1230, 1262, 424, 1262, 216, + /* 430 */ 296, 296, 98, 1230, 1231, 1230, 264, 884, 45, 528, + /* 440 */ 525, 524, 1041, 590, 1269, 579, 421, 420, 393, 523, + /* 450 */ 44, 141, 142, 93, 498, 1254, 1254, 1085, 1088, 1075, + /* 460 */ 1075, 139, 139, 140, 140, 140, 140, 138, 138, 138, + /* 470 */ 138, 137, 137, 136, 136, 136, 135, 132, 463, 593, + /* 480 */ 1611, 561, 1230, 1231, 1230, 23, 264, 515, 200, 528, + /* 490 */ 525, 524, 127, 585, 509, 4, 355, 487, 506, 523, + /* 500 */ 593, 498, 84, 84, 134, 131, 238, 329, 584, 588, + /* 510 */ 1627, 138, 138, 138, 138, 137, 137, 136, 136, 136, + /* 520 */ 135, 132, 463, 19, 19, 435, 1230, 1460, 297, 297, + /* 530 */ 311, 424, 1565, 464, 1631, 599, 2, 1284, 437, 574, + /* 540 */ 1107, 590, 330, 579, 158, 582, 489, 357, 573, 593, + /* 550 */ 592, 1366, 409, 1274, 1230, 141, 142, 93, 1364, 1254, + /* 560 */ 1254, 1085, 1088, 1075, 1075, 139, 139, 140, 140, 140, + /* 570 */ 140, 389, 84, 84, 1062, 567, 1230, 313, 1523, 593, + /* 580 */ 125, 125, 970, 1230, 1231, 1230, 296, 296, 126, 46, + /* 590 */ 464, 594, 464, 296, 296, 1050, 1230, 218, 439, 590, + /* 600 */ 1604, 579, 84, 84, 7, 403, 590, 515, 579, 325, + /* 610 */ 417, 1230, 1231, 1230, 250, 138, 138, 138, 138, 137, + /* 620 */ 137, 136, 136, 136, 135, 132, 463, 1050, 1050, 1052, + /* 630 */ 1053, 35, 1275, 1230, 1231, 1230, 424, 1370, 993, 574, + /* 640 */ 371, 414, 274, 412, 1597, 467, 1302, 552, 451, 590, + /* 650 */ 543, 579, 1530, 1230, 1231, 1230, 1214, 201, 409, 1174, + /* 660 */ 141, 142, 93, 223, 1254, 1254, 1085, 1088, 1075, 1075, + /* 670 */ 139, 139, 140, 140, 140, 140, 296, 296, 1250, 593, + /* 680 */ 424, 296, 296, 236, 529, 296, 296, 515, 100, 590, + /* 690 */ 1600, 579, 48, 1605, 590, 1230, 579, 7, 590, 577, + /* 700 */ 579, 904, 84, 84, 141, 142, 93, 496, 1254, 1254, + /* 710 */ 1085, 1088, 1075, 1075, 139, 139, 140, 140, 140, 140, + /* 720 */ 138, 138, 138, 138, 137, 137, 136, 136, 136, 135, + /* 730 */ 132, 463, 1365, 1230, 296, 296, 1250, 115, 1275, 326, + /* 740 */ 233, 539, 1062, 40, 282, 127, 585, 590, 4, 579, + /* 750 */ 329, 584, 1230, 1231, 1230, 1598, 593, 388, 904, 1051, + /* 760 */ 1356, 1356, 588, 1050, 138, 138, 138, 138, 137, 137, + /* 770 */ 136, 136, 136, 135, 132, 463, 185, 593, 1230, 19, + /* 780 */ 19, 1230, 971, 1597, 424, 1651, 464, 129, 908, 1195, + /* 790 */ 1230, 1231, 1230, 1325, 443, 1050, 1050, 1052, 582, 1603, + /* 800 */ 149, 149, 1195, 7, 5, 1195, 1687, 410, 141, 142, + /* 810 */ 93, 1536, 1254, 1254, 1085, 1088, 1075, 1075, 139, 139, + /* 820 */ 140, 140, 140, 140, 1214, 397, 593, 1062, 424, 1536, + /* 830 */ 1538, 50, 901, 125, 125, 1230, 1231, 1230, 1230, 1231, + /* 840 */ 1230, 126, 1230, 464, 594, 464, 515, 1230, 1050, 84, + /* 850 */ 84, 3, 141, 142, 93, 924, 1254, 1254, 1085, 1088, + /* 860 */ 1075, 1075, 139, 139, 140, 140, 140, 140, 138, 138, + /* 870 */ 138, 138, 137, 137, 136, 136, 136, 135, 132, 463, + /* 880 */ 1050, 1050, 1052, 1053, 35, 442, 457, 532, 433, 1230, + /* 890 */ 1062, 1361, 540, 540, 1598, 925, 388, 7, 1129, 1230, + /* 900 */ 1231, 1230, 1129, 1536, 1230, 1231, 1230, 1051, 570, 1214, + /* 910 */ 593, 1050, 138, 138, 138, 138, 137, 137, 136, 136, + /* 920 */ 136, 135, 132, 463, 6, 185, 1195, 1230, 231, 593, + /* 930 */ 382, 992, 424, 151, 151, 510, 1213, 557, 482, 1195, + /* 940 */ 381, 160, 1195, 1050, 1050, 1052, 1230, 1231, 1230, 422, + /* 950 */ 593, 447, 84, 84, 593, 217, 141, 142, 93, 593, + /* 960 */ 1254, 1254, 1085, 1088, 1075, 1075, 139, 139, 140, 140, + /* 970 */ 140, 140, 1214, 19, 19, 593, 424, 19, 19, 442, + /* 980 */ 1063, 442, 19, 19, 1230, 1231, 1230, 515, 445, 458, + /* 990 */ 1597, 386, 315, 1175, 1685, 556, 1685, 450, 84, 84, + /* 1000 */ 141, 142, 93, 505, 1254, 1254, 1085, 1088, 1075, 1075, + /* 1010 */ 139, 139, 140, 140, 140, 140, 138, 138, 138, 138, + /* 1020 */ 137, 137, 136, 136, 136, 135, 132, 463, 442, 1147, + /* 1030 */ 454, 1597, 362, 1041, 593, 462, 1460, 1233, 47, 1393, + /* 1040 */ 324, 565, 565, 115, 1148, 449, 7, 460, 459, 307, + /* 1050 */ 375, 354, 593, 113, 593, 329, 584, 19, 19, 1149, + /* 1060 */ 138, 138, 138, 138, 137, 137, 136, 136, 136, 135, + /* 1070 */ 132, 463, 209, 1173, 563, 19, 19, 19, 19, 49, + /* 1080 */ 424, 944, 1175, 1686, 1046, 1686, 218, 355, 484, 343, + /* 1090 */ 210, 945, 569, 562, 1262, 1233, 1262, 490, 314, 423, + /* 1100 */ 424, 1598, 1206, 388, 141, 142, 93, 440, 1254, 1254, + /* 1110 */ 1085, 1088, 1075, 1075, 139, 139, 140, 140, 140, 140, + /* 1120 */ 352, 316, 531, 316, 141, 142, 93, 549, 1254, 1254, + /* 1130 */ 1085, 1088, 1075, 1075, 139, 139, 140, 140, 140, 140, + /* 1140 */ 446, 10, 1598, 274, 388, 915, 281, 299, 383, 534, + /* 1150 */ 378, 533, 269, 593, 1206, 587, 587, 587, 374, 293, + /* 1160 */ 1579, 991, 1173, 302, 138, 138, 138, 138, 137, 137, + /* 1170 */ 136, 136, 136, 135, 132, 463, 53, 53, 520, 1250, + /* 1180 */ 593, 1147, 1576, 431, 138, 138, 138, 138, 137, 137, + /* 1190 */ 136, 136, 136, 135, 132, 463, 1148, 301, 593, 1577, + /* 1200 */ 593, 1307, 431, 54, 54, 593, 268, 593, 461, 461, + /* 1210 */ 461, 1149, 347, 492, 424, 135, 132, 463, 1146, 1195, + /* 1220 */ 474, 68, 68, 69, 69, 550, 332, 287, 21, 21, + /* 1230 */ 55, 55, 1195, 581, 424, 1195, 309, 1250, 141, 142, + /* 1240 */ 93, 119, 1254, 1254, 1085, 1088, 1075, 1075, 139, 139, + /* 1250 */ 140, 140, 140, 140, 593, 237, 480, 1476, 141, 142, + /* 1260 */ 93, 593, 1254, 1254, 1085, 1088, 1075, 1075, 139, 139, + /* 1270 */ 140, 140, 140, 140, 344, 430, 346, 70, 70, 494, + /* 1280 */ 991, 1132, 1132, 512, 56, 56, 1269, 593, 268, 593, + /* 1290 */ 369, 374, 593, 481, 215, 384, 1624, 481, 138, 138, + /* 1300 */ 138, 138, 137, 137, 136, 136, 136, 135, 132, 463, + /* 1310 */ 71, 71, 72, 72, 225, 73, 73, 593, 138, 138, + /* 1320 */ 138, 138, 137, 137, 136, 136, 136, 135, 132, 463, + /* 1330 */ 586, 431, 593, 872, 873, 874, 593, 911, 593, 1602, + /* 1340 */ 74, 74, 593, 7, 1460, 242, 593, 306, 424, 1578, + /* 1350 */ 472, 306, 364, 219, 367, 75, 75, 430, 345, 57, + /* 1360 */ 57, 58, 58, 432, 187, 59, 59, 593, 424, 61, + /* 1370 */ 61, 1475, 141, 142, 93, 123, 1254, 1254, 1085, 1088, + /* 1380 */ 1075, 1075, 139, 139, 140, 140, 140, 140, 424, 570, + /* 1390 */ 62, 62, 141, 142, 93, 911, 1254, 1254, 1085, 1088, + /* 1400 */ 1075, 1075, 139, 139, 140, 140, 140, 140, 161, 384, + /* 1410 */ 1624, 1474, 141, 130, 93, 441, 1254, 1254, 1085, 1088, + /* 1420 */ 1075, 1075, 139, 139, 140, 140, 140, 140, 267, 266, + /* 1430 */ 265, 1460, 138, 138, 138, 138, 137, 137, 136, 136, + /* 1440 */ 136, 135, 132, 463, 593, 1336, 593, 1269, 1460, 384, + /* 1450 */ 1624, 231, 138, 138, 138, 138, 137, 137, 136, 136, + /* 1460 */ 136, 135, 132, 463, 593, 163, 593, 76, 76, 77, + /* 1470 */ 77, 593, 138, 138, 138, 138, 137, 137, 136, 136, + /* 1480 */ 136, 135, 132, 463, 475, 593, 483, 78, 78, 20, + /* 1490 */ 20, 1249, 424, 491, 79, 79, 495, 422, 295, 235, + /* 1500 */ 1574, 38, 511, 896, 422, 335, 240, 422, 147, 147, + /* 1510 */ 112, 593, 424, 593, 101, 222, 991, 142, 93, 455, + /* 1520 */ 1254, 1254, 1085, 1088, 1075, 1075, 139, 139, 140, 140, + /* 1530 */ 140, 140, 593, 39, 148, 148, 80, 80, 93, 551, + /* 1540 */ 1254, 1254, 1085, 1088, 1075, 1075, 139, 139, 140, 140, + /* 1550 */ 140, 140, 328, 923, 922, 64, 64, 502, 1656, 1005, + /* 1560 */ 933, 896, 124, 422, 121, 254, 593, 1006, 593, 226, + /* 1570 */ 593, 127, 585, 164, 4, 16, 138, 138, 138, 138, + /* 1580 */ 137, 137, 136, 136, 136, 135, 132, 463, 588, 81, + /* 1590 */ 81, 65, 65, 82, 82, 593, 138, 138, 138, 138, + /* 1600 */ 137, 137, 136, 136, 136, 135, 132, 463, 593, 226, + /* 1610 */ 237, 966, 464, 593, 298, 593, 965, 593, 66, 66, + /* 1620 */ 593, 1170, 593, 411, 582, 353, 469, 115, 593, 471, + /* 1630 */ 169, 173, 173, 593, 44, 991, 174, 174, 89, 89, + /* 1640 */ 67, 67, 593, 85, 85, 150, 150, 1114, 1043, 593, + /* 1650 */ 273, 86, 86, 1062, 593, 503, 171, 171, 593, 125, + /* 1660 */ 125, 497, 593, 273, 336, 152, 152, 126, 1335, 464, + /* 1670 */ 594, 464, 146, 146, 1050, 593, 545, 172, 172, 593, + /* 1680 */ 1054, 165, 165, 256, 339, 156, 156, 127, 585, 1586, + /* 1690 */ 4, 329, 584, 499, 358, 273, 115, 348, 155, 155, + /* 1700 */ 930, 931, 153, 153, 588, 1114, 1050, 1050, 1052, 1053, + /* 1710 */ 35, 1554, 521, 593, 270, 1008, 1009, 9, 593, 372, + /* 1720 */ 593, 115, 593, 168, 593, 115, 593, 1110, 464, 270, + /* 1730 */ 996, 964, 273, 129, 1645, 1214, 154, 154, 1054, 1404, + /* 1740 */ 582, 88, 88, 90, 90, 87, 87, 52, 52, 60, + /* 1750 */ 60, 1405, 504, 537, 559, 1179, 961, 507, 129, 558, + /* 1760 */ 127, 585, 1126, 4, 1126, 1125, 894, 1125, 162, 1062, + /* 1770 */ 963, 359, 129, 1401, 363, 125, 125, 588, 366, 368, + /* 1780 */ 370, 1349, 1334, 126, 1333, 464, 594, 464, 377, 387, + /* 1790 */ 1050, 1391, 1414, 1618, 1459, 1387, 1399, 208, 580, 1464, + /* 1800 */ 1314, 464, 243, 516, 1305, 1293, 1384, 1292, 1294, 1638, + /* 1810 */ 288, 170, 228, 582, 12, 408, 321, 322, 241, 323, + /* 1820 */ 245, 1446, 1050, 1050, 1052, 1053, 35, 559, 304, 350, + /* 1830 */ 351, 501, 560, 127, 585, 1441, 4, 1451, 1434, 310, + /* 1840 */ 1450, 526, 1062, 1332, 415, 380, 232, 1527, 125, 125, + /* 1850 */ 588, 1214, 1396, 356, 1526, 583, 126, 1397, 464, 594, + /* 1860 */ 464, 1641, 535, 1050, 1581, 1395, 1269, 1583, 1582, 213, + /* 1870 */ 402, 277, 214, 227, 464, 1573, 239, 1571, 1266, 1394, + /* 1880 */ 434, 198, 100, 224, 96, 183, 582, 191, 485, 193, + /* 1890 */ 486, 194, 195, 196, 519, 1050, 1050, 1052, 1053, 35, + /* 1900 */ 559, 113, 252, 413, 1447, 558, 493, 13, 1455, 416, + /* 1910 */ 1453, 1452, 14, 202, 1521, 1062, 1532, 508, 258, 106, + /* 1920 */ 514, 125, 125, 99, 1214, 1543, 289, 260, 206, 126, + /* 1930 */ 365, 464, 594, 464, 361, 517, 1050, 261, 448, 1295, + /* 1940 */ 262, 418, 1352, 1351, 108, 1350, 1655, 1654, 1343, 915, + /* 1950 */ 419, 1322, 233, 452, 319, 379, 1321, 453, 1623, 320, + /* 1960 */ 1320, 275, 1653, 544, 276, 1609, 1608, 1342, 1050, 1050, + /* 1970 */ 1052, 1053, 35, 1630, 1218, 466, 385, 456, 300, 1419, + /* 1980 */ 144, 1418, 570, 407, 407, 406, 284, 404, 11, 1508, + /* 1990 */ 881, 396, 120, 127, 585, 394, 4, 1214, 327, 114, + /* 2000 */ 1375, 1374, 220, 247, 400, 338, 401, 554, 42, 1224, + /* 2010 */ 588, 596, 283, 337, 285, 286, 188, 597, 1290, 1285, + /* 2020 */ 175, 1558, 176, 1559, 1557, 1556, 159, 317, 229, 177, + /* 2030 */ 868, 230, 91, 465, 464, 221, 331, 468, 1165, 470, + /* 2040 */ 473, 94, 244, 95, 249, 189, 582, 1124, 1122, 341, + /* 2050 */ 427, 190, 178, 1249, 179, 43, 192, 947, 349, 428, + /* 2060 */ 1138, 197, 251, 180, 181, 436, 102, 182, 438, 103, + /* 2070 */ 104, 199, 248, 1140, 253, 1062, 105, 255, 1137, 166, + /* 2080 */ 24, 125, 125, 257, 1264, 273, 360, 513, 259, 126, + /* 2090 */ 15, 464, 594, 464, 204, 883, 1050, 518, 263, 373, + /* 2100 */ 381, 92, 585, 1130, 4, 203, 205, 426, 107, 522, + /* 2110 */ 25, 26, 329, 584, 913, 572, 527, 376, 588, 926, + /* 2120 */ 530, 109, 184, 318, 167, 110, 27, 538, 1050, 1050, + /* 2130 */ 1052, 1053, 35, 1211, 1091, 17, 476, 111, 1181, 234, + /* 2140 */ 292, 1180, 464, 294, 207, 994, 129, 1201, 272, 1000, + /* 2150 */ 28, 1197, 29, 30, 582, 1199, 1205, 1214, 31, 1204, + /* 2160 */ 32, 1186, 41, 566, 33, 1105, 211, 8, 115, 1092, + /* 2170 */ 1090, 1094, 34, 278, 578, 1095, 117, 122, 118, 1145, + /* 2180 */ 36, 18, 128, 1062, 1055, 895, 957, 37, 589, 125, + /* 2190 */ 125, 279, 186, 280, 1646, 157, 405, 126, 1220, 464, + /* 2200 */ 594, 464, 1218, 466, 1050, 1219, 300, 1281, 1281, 1281, + /* 2210 */ 1281, 407, 407, 406, 284, 404, 1281, 1281, 881, 1281, + /* 2220 */ 300, 1281, 1281, 571, 1281, 407, 407, 406, 284, 404, + /* 2230 */ 1281, 247, 881, 338, 1281, 1281, 1050, 1050, 1052, 1053, + /* 2240 */ 35, 337, 1281, 1281, 1281, 247, 1281, 338, 1281, 1281, + /* 2250 */ 1281, 1281, 1281, 1281, 1281, 337, 1281, 1281, 1281, 1281, + /* 2260 */ 1281, 1281, 1281, 1281, 1281, 1214, 1281, 1281, 1281, 1281, + /* 2270 */ 1281, 1281, 249, 1281, 1281, 1281, 1281, 1281, 1281, 1281, + /* 2280 */ 178, 1281, 1281, 43, 1281, 1281, 249, 1281, 1281, 1281, + /* 2290 */ 1281, 1281, 1281, 1281, 178, 1281, 1281, 43, 1281, 1281, + /* 2300 */ 248, 1281, 1281, 1281, 1281, 1281, 1281, 1281, 1281, 1281, + /* 2310 */ 1281, 1281, 1281, 1281, 248, 1281, 1281, 1281, 1281, 1281, + /* 2320 */ 1281, 1281, 1281, 1281, 1281, 1281, 1281, 1281, 1281, 1281, + /* 2330 */ 1281, 1281, 1281, 1281, 1281, 426, 1281, 1281, 1281, 1281, + /* 2340 */ 329, 584, 1281, 1281, 1281, 1281, 1281, 1281, 1281, 426, + /* 2350 */ 1281, 1281, 1281, 1281, 329, 584, 1281, 1281, 1281, 1281, + /* 2360 */ 1281, 1281, 1281, 1281, 476, 1281, 1281, 1281, 1281, 1281, + /* 2370 */ 1281, 1281, 1281, 1281, 1281, 1281, 1281, 1281, 476, }; static const YYCODETYPE yy_lookahead[] = { - /* 0 */ 277, 278, 279, 241, 242, 225, 195, 227, 195, 241, - /* 10 */ 242, 195, 217, 221, 195, 235, 254, 195, 256, 19, - /* 20 */ 225, 298, 254, 195, 256, 206, 213, 214, 206, 218, - /* 30 */ 219, 31, 206, 195, 218, 219, 195, 218, 219, 39, - /* 40 */ 218, 219, 313, 43, 44, 45, 317, 47, 48, 49, + /* 0 */ 277, 278, 279, 241, 242, 225, 195, 227, 195, 312, + /* 10 */ 195, 218, 195, 316, 195, 235, 254, 195, 256, 19, + /* 20 */ 297, 277, 278, 279, 218, 206, 213, 214, 206, 218, + /* 30 */ 219, 31, 206, 218, 219, 218, 219, 218, 219, 39, + /* 40 */ 218, 219, 195, 43, 44, 45, 195, 47, 48, 49, /* 50 */ 50, 51, 52, 53, 54, 55, 56, 57, 58, 19, - /* 60 */ 241, 242, 195, 241, 242, 195, 255, 241, 242, 277, - /* 70 */ 278, 279, 234, 254, 255, 256, 254, 255, 256, 218, - /* 80 */ 254, 240, 256, 43, 44, 45, 264, 47, 48, 49, - /* 90 */ 50, 51, 52, 53, 54, 55, 56, 57, 58, 271, - /* 100 */ 287, 22, 23, 103, 104, 105, 106, 107, 108, 109, - /* 110 */ 110, 111, 112, 113, 114, 114, 47, 48, 49, 50, + /* 60 */ 241, 242, 195, 241, 242, 195, 255, 241, 242, 195, + /* 70 */ 255, 237, 238, 254, 255, 256, 254, 255, 256, 264, + /* 80 */ 254, 207, 256, 43, 44, 45, 264, 47, 48, 49, + /* 90 */ 50, 51, 52, 53, 54, 55, 56, 57, 58, 251, + /* 100 */ 287, 253, 215, 103, 104, 105, 106, 107, 108, 109, + /* 110 */ 110, 111, 112, 113, 114, 82, 265, 195, 271, 11, /* 120 */ 187, 188, 189, 190, 191, 192, 190, 87, 192, 89, - /* 130 */ 197, 19, 199, 197, 318, 199, 320, 25, 195, 206, - /* 140 */ 299, 271, 206, 103, 104, 105, 106, 107, 108, 109, + /* 130 */ 197, 19, 199, 197, 317, 199, 319, 25, 271, 206, + /* 140 */ 218, 219, 206, 103, 104, 105, 106, 107, 108, 109, /* 150 */ 110, 111, 112, 113, 114, 43, 44, 45, 195, 47, /* 160 */ 48, 49, 50, 51, 52, 53, 54, 55, 56, 57, - /* 170 */ 58, 60, 21, 195, 241, 242, 215, 241, 242, 312, - /* 180 */ 313, 102, 70, 205, 317, 207, 242, 254, 77, 256, - /* 190 */ 254, 122, 256, 55, 56, 57, 58, 59, 254, 88, - /* 200 */ 256, 90, 269, 240, 93, 269, 107, 108, 109, 110, - /* 210 */ 111, 112, 113, 114, 271, 103, 104, 105, 106, 107, - /* 220 */ 108, 109, 110, 111, 112, 113, 114, 313, 117, 118, - /* 230 */ 119, 317, 81, 195, 301, 19, 195, 301, 277, 278, - /* 240 */ 279, 103, 104, 105, 106, 107, 108, 109, 110, 111, - /* 250 */ 112, 113, 114, 55, 56, 57, 58, 146, 195, 43, - /* 260 */ 44, 45, 74, 47, 48, 49, 50, 51, 52, 53, - /* 270 */ 54, 55, 56, 57, 58, 124, 195, 60, 109, 110, - /* 280 */ 111, 112, 113, 114, 68, 195, 103, 104, 105, 106, - /* 290 */ 107, 108, 109, 110, 111, 112, 113, 114, 208, 218, - /* 300 */ 219, 103, 104, 105, 106, 107, 108, 109, 110, 111, - /* 310 */ 112, 113, 114, 162, 233, 24, 128, 129, 130, 103, + /* 170 */ 58, 60, 139, 140, 241, 242, 289, 241, 242, 309, + /* 180 */ 310, 294, 70, 47, 48, 49, 50, 254, 77, 256, + /* 190 */ 254, 195, 256, 55, 56, 57, 58, 59, 221, 88, + /* 200 */ 109, 90, 269, 240, 93, 269, 107, 108, 109, 110, + /* 210 */ 111, 112, 113, 114, 215, 103, 104, 105, 106, 107, + /* 220 */ 108, 109, 110, 111, 112, 113, 114, 136, 117, 118, + /* 230 */ 119, 298, 141, 300, 298, 19, 300, 129, 130, 317, + /* 240 */ 318, 103, 104, 105, 106, 107, 108, 109, 110, 111, + /* 250 */ 112, 113, 114, 114, 277, 278, 279, 146, 122, 43, + /* 260 */ 44, 45, 195, 47, 48, 49, 50, 51, 52, 53, + /* 270 */ 54, 55, 56, 57, 58, 218, 277, 278, 279, 19, + /* 280 */ 19, 195, 286, 23, 68, 218, 219, 55, 56, 57, + /* 290 */ 58, 103, 104, 105, 106, 107, 108, 109, 110, 111, + /* 300 */ 112, 113, 114, 43, 44, 45, 232, 47, 48, 49, + /* 310 */ 50, 51, 52, 53, 54, 55, 56, 57, 58, 103, /* 320 */ 104, 105, 106, 107, 108, 109, 110, 111, 112, 113, - /* 330 */ 114, 195, 195, 215, 117, 118, 119, 120, 195, 19, - /* 340 */ 123, 124, 125, 207, 24, 74, 246, 60, 310, 311, - /* 350 */ 133, 60, 311, 82, 22, 218, 219, 257, 195, 19, - /* 360 */ 73, 218, 219, 43, 44, 45, 206, 47, 48, 49, - /* 370 */ 50, 51, 52, 53, 54, 55, 56, 57, 58, 22, - /* 380 */ 23, 218, 219, 43, 44, 45, 54, 47, 48, 49, - /* 390 */ 50, 51, 52, 53, 54, 55, 56, 57, 58, 128, - /* 400 */ 82, 241, 242, 195, 117, 118, 119, 289, 60, 118, - /* 410 */ 139, 140, 294, 195, 254, 195, 256, 195, 255, 259, - /* 420 */ 260, 73, 22, 103, 104, 105, 106, 107, 108, 109, - /* 430 */ 110, 111, 112, 113, 114, 206, 218, 219, 218, 219, - /* 440 */ 218, 219, 234, 103, 104, 105, 106, 107, 108, 109, - /* 450 */ 110, 111, 112, 113, 114, 318, 319, 139, 140, 102, - /* 460 */ 60, 318, 319, 221, 19, 117, 118, 119, 23, 195, - /* 470 */ 241, 242, 313, 255, 206, 255, 317, 255, 206, 129, - /* 480 */ 130, 206, 264, 254, 264, 256, 264, 195, 43, 44, - /* 490 */ 45, 151, 47, 48, 49, 50, 51, 52, 53, 54, - /* 500 */ 55, 56, 57, 58, 246, 213, 214, 19, 19, 241, - /* 510 */ 242, 195, 23, 241, 242, 257, 241, 242, 118, 277, - /* 520 */ 278, 279, 254, 29, 256, 60, 254, 33, 256, 254, - /* 530 */ 206, 256, 43, 44, 45, 218, 47, 48, 49, 50, - /* 540 */ 51, 52, 53, 54, 55, 56, 57, 58, 103, 104, - /* 550 */ 105, 106, 107, 108, 109, 110, 111, 112, 113, 114, - /* 560 */ 66, 19, 218, 60, 120, 241, 242, 123, 124, 125, - /* 570 */ 60, 232, 77, 19, 20, 26, 22, 133, 254, 287, - /* 580 */ 256, 265, 117, 118, 119, 90, 312, 313, 93, 47, - /* 590 */ 36, 317, 103, 104, 105, 106, 107, 108, 109, 110, - /* 600 */ 111, 112, 113, 114, 116, 117, 277, 278, 279, 60, - /* 610 */ 107, 108, 19, 276, 60, 31, 23, 152, 195, 116, - /* 620 */ 117, 118, 119, 39, 121, 276, 72, 117, 118, 119, - /* 630 */ 166, 167, 129, 145, 237, 238, 43, 44, 45, 276, - /* 640 */ 47, 48, 49, 50, 51, 52, 53, 54, 55, 56, - /* 650 */ 57, 58, 315, 316, 144, 101, 19, 154, 116, 156, - /* 660 */ 23, 107, 108, 109, 315, 316, 117, 118, 119, 115, - /* 670 */ 60, 117, 118, 119, 132, 200, 122, 60, 315, 316, - /* 680 */ 43, 44, 45, 272, 47, 48, 49, 50, 51, 52, - /* 690 */ 53, 54, 55, 56, 57, 58, 103, 104, 105, 106, - /* 700 */ 107, 108, 109, 110, 111, 112, 113, 114, 154, 155, - /* 710 */ 156, 157, 158, 212, 213, 214, 22, 195, 101, 22, - /* 720 */ 60, 19, 20, 60, 22, 139, 140, 117, 118, 119, - /* 730 */ 22, 251, 195, 253, 117, 118, 195, 183, 36, 122, - /* 740 */ 103, 104, 105, 106, 107, 108, 109, 110, 111, 112, - /* 750 */ 113, 114, 195, 195, 60, 218, 219, 60, 195, 284, - /* 760 */ 19, 25, 60, 288, 23, 237, 238, 22, 60, 109, - /* 770 */ 233, 154, 155, 156, 72, 218, 219, 117, 118, 119, - /* 780 */ 117, 118, 119, 116, 43, 44, 45, 265, 47, 48, - /* 790 */ 49, 50, 51, 52, 53, 54, 55, 56, 57, 58, - /* 800 */ 183, 243, 25, 101, 19, 60, 265, 144, 23, 107, - /* 810 */ 108, 117, 118, 119, 117, 118, 119, 115, 151, 117, - /* 820 */ 118, 119, 82, 195, 122, 117, 118, 119, 43, 44, - /* 830 */ 45, 195, 47, 48, 49, 50, 51, 52, 53, 54, - /* 840 */ 55, 56, 57, 58, 103, 104, 105, 106, 107, 108, - /* 850 */ 109, 110, 111, 112, 113, 114, 154, 155, 156, 157, - /* 860 */ 158, 121, 117, 118, 119, 307, 101, 309, 195, 22, - /* 870 */ 23, 195, 25, 19, 35, 139, 140, 195, 24, 139, - /* 880 */ 140, 208, 195, 118, 109, 183, 22, 122, 103, 104, - /* 890 */ 105, 106, 107, 108, 109, 110, 111, 112, 113, 114, - /* 900 */ 304, 305, 77, 230, 127, 232, 67, 195, 19, 195, - /* 910 */ 195, 136, 23, 88, 75, 90, 141, 203, 93, 154, - /* 920 */ 155, 156, 208, 295, 60, 243, 22, 23, 19, 25, - /* 930 */ 218, 219, 43, 44, 45, 100, 47, 48, 49, 50, - /* 940 */ 51, 52, 53, 54, 55, 56, 57, 58, 183, 102, - /* 950 */ 96, 195, 43, 44, 45, 240, 47, 48, 49, 50, - /* 960 */ 51, 52, 53, 54, 55, 56, 57, 58, 114, 134, - /* 970 */ 131, 146, 25, 286, 120, 121, 122, 123, 124, 125, - /* 980 */ 126, 117, 118, 119, 313, 195, 132, 195, 317, 307, - /* 990 */ 195, 309, 103, 104, 105, 106, 107, 108, 109, 110, - /* 1000 */ 111, 112, 113, 114, 195, 195, 102, 195, 195, 195, - /* 1010 */ 218, 219, 103, 104, 105, 106, 107, 108, 109, 110, - /* 1020 */ 111, 112, 113, 114, 77, 233, 195, 60, 218, 219, - /* 1030 */ 218, 219, 218, 219, 23, 195, 25, 90, 243, 159, - /* 1040 */ 93, 161, 19, 233, 195, 233, 23, 233, 16, 218, - /* 1050 */ 219, 195, 243, 212, 213, 214, 262, 263, 218, 219, - /* 1060 */ 195, 271, 19, 307, 233, 309, 43, 44, 45, 160, - /* 1070 */ 47, 48, 49, 50, 51, 52, 53, 54, 55, 56, - /* 1080 */ 57, 58, 195, 218, 219, 118, 43, 44, 45, 240, - /* 1090 */ 47, 48, 49, 50, 51, 52, 53, 54, 55, 56, - /* 1100 */ 57, 58, 307, 195, 309, 218, 219, 263, 12, 195, - /* 1110 */ 78, 267, 80, 112, 113, 114, 307, 22, 309, 24, - /* 1120 */ 255, 281, 266, 27, 107, 108, 103, 104, 105, 106, - /* 1130 */ 107, 108, 109, 110, 111, 112, 113, 114, 42, 195, - /* 1140 */ 11, 22, 255, 24, 195, 195, 103, 104, 105, 106, - /* 1150 */ 107, 108, 109, 110, 111, 112, 113, 114, 19, 195, - /* 1160 */ 64, 195, 218, 219, 195, 313, 195, 218, 219, 317, - /* 1170 */ 74, 154, 195, 156, 195, 195, 19, 233, 23, 60, - /* 1180 */ 25, 24, 218, 219, 218, 219, 195, 218, 219, 218, - /* 1190 */ 219, 128, 129, 130, 162, 263, 19, 218, 219, 267, - /* 1200 */ 43, 44, 45, 160, 47, 48, 49, 50, 51, 52, - /* 1210 */ 53, 54, 55, 56, 57, 58, 19, 240, 228, 255, - /* 1220 */ 43, 44, 45, 25, 47, 48, 49, 50, 51, 52, - /* 1230 */ 53, 54, 55, 56, 57, 58, 135, 118, 137, 138, - /* 1240 */ 43, 44, 45, 22, 47, 48, 49, 50, 51, 52, - /* 1250 */ 53, 54, 55, 56, 57, 58, 117, 266, 129, 130, - /* 1260 */ 103, 104, 105, 106, 107, 108, 109, 110, 111, 112, - /* 1270 */ 113, 114, 195, 195, 119, 295, 195, 206, 195, 195, - /* 1280 */ 103, 104, 105, 106, 107, 108, 109, 110, 111, 112, - /* 1290 */ 113, 114, 195, 195, 195, 218, 219, 195, 195, 144, - /* 1300 */ 103, 104, 105, 106, 107, 108, 109, 110, 111, 112, - /* 1310 */ 113, 114, 241, 242, 67, 218, 219, 218, 219, 146, - /* 1320 */ 19, 218, 219, 240, 215, 254, 136, 256, 107, 108, - /* 1330 */ 195, 141, 255, 86, 128, 129, 130, 195, 165, 195, - /* 1340 */ 19, 143, 95, 272, 25, 44, 45, 266, 47, 48, - /* 1350 */ 49, 50, 51, 52, 53, 54, 55, 56, 57, 58, - /* 1360 */ 218, 219, 218, 219, 195, 12, 45, 195, 47, 48, - /* 1370 */ 49, 50, 51, 52, 53, 54, 55, 56, 57, 58, - /* 1380 */ 27, 23, 7, 8, 9, 210, 211, 218, 219, 116, - /* 1390 */ 218, 219, 228, 16, 147, 42, 195, 295, 195, 19, - /* 1400 */ 20, 266, 22, 294, 103, 104, 105, 106, 107, 108, - /* 1410 */ 109, 110, 111, 112, 113, 114, 36, 64, 145, 218, - /* 1420 */ 219, 218, 219, 195, 103, 104, 105, 106, 107, 108, - /* 1430 */ 109, 110, 111, 112, 113, 114, 195, 154, 119, 156, - /* 1440 */ 60, 189, 190, 191, 192, 195, 218, 219, 195, 197, - /* 1450 */ 195, 199, 72, 195, 19, 78, 195, 80, 206, 218, - /* 1460 */ 219, 195, 82, 144, 210, 211, 195, 15, 218, 219, - /* 1470 */ 47, 218, 219, 218, 219, 259, 260, 195, 261, 218, - /* 1480 */ 219, 101, 302, 303, 218, 219, 195, 107, 108, 218, - /* 1490 */ 219, 150, 151, 241, 242, 115, 25, 117, 118, 119, - /* 1500 */ 218, 219, 122, 195, 146, 195, 254, 195, 256, 218, - /* 1510 */ 219, 246, 25, 61, 246, 19, 20, 195, 22, 139, - /* 1520 */ 140, 269, 257, 195, 266, 257, 218, 219, 218, 219, - /* 1530 */ 218, 219, 36, 246, 154, 155, 156, 157, 158, 116, - /* 1540 */ 218, 219, 195, 22, 257, 49, 218, 219, 23, 195, - /* 1550 */ 25, 195, 117, 301, 195, 25, 60, 195, 195, 23, - /* 1560 */ 195, 25, 195, 183, 24, 218, 219, 130, 72, 195, - /* 1570 */ 22, 195, 218, 219, 218, 219, 195, 218, 219, 195, - /* 1580 */ 218, 219, 86, 218, 219, 218, 219, 91, 19, 20, - /* 1590 */ 153, 22, 218, 219, 218, 219, 195, 101, 195, 218, - /* 1600 */ 219, 195, 195, 107, 108, 36, 23, 195, 25, 195, - /* 1610 */ 62, 115, 195, 117, 118, 119, 195, 146, 122, 218, - /* 1620 */ 219, 218, 219, 195, 218, 219, 19, 60, 122, 60, - /* 1630 */ 218, 219, 218, 219, 195, 218, 219, 150, 132, 218, - /* 1640 */ 219, 72, 195, 23, 195, 25, 218, 219, 195, 60, - /* 1650 */ 154, 155, 156, 157, 158, 86, 23, 195, 25, 195, - /* 1660 */ 91, 19, 20, 142, 22, 218, 219, 218, 219, 130, - /* 1670 */ 101, 218, 219, 143, 121, 122, 107, 108, 36, 183, - /* 1680 */ 218, 219, 142, 60, 115, 118, 117, 118, 119, 7, - /* 1690 */ 8, 122, 153, 23, 23, 25, 25, 23, 23, 25, - /* 1700 */ 25, 23, 60, 25, 23, 98, 25, 118, 84, 85, - /* 1710 */ 23, 23, 25, 25, 72, 154, 23, 156, 25, 23, - /* 1720 */ 228, 25, 195, 154, 155, 156, 157, 158, 86, 195, - /* 1730 */ 195, 258, 195, 91, 291, 322, 195, 195, 195, 195, - /* 1740 */ 195, 118, 195, 101, 195, 195, 195, 195, 238, 107, - /* 1750 */ 108, 195, 183, 195, 195, 195, 290, 115, 195, 117, - /* 1760 */ 118, 119, 244, 195, 122, 195, 195, 195, 195, 195, - /* 1770 */ 195, 258, 258, 258, 258, 193, 245, 300, 216, 274, - /* 1780 */ 247, 270, 270, 274, 296, 296, 248, 222, 262, 198, - /* 1790 */ 262, 274, 61, 274, 248, 231, 154, 155, 156, 157, - /* 1800 */ 158, 0, 1, 2, 247, 227, 5, 221, 221, 221, - /* 1810 */ 142, 10, 11, 12, 13, 14, 262, 262, 17, 202, - /* 1820 */ 300, 19, 20, 300, 22, 183, 247, 251, 251, 245, - /* 1830 */ 202, 30, 38, 32, 202, 152, 151, 22, 36, 43, - /* 1840 */ 236, 40, 18, 202, 239, 239, 18, 239, 239, 283, - /* 1850 */ 201, 150, 236, 202, 236, 201, 159, 202, 248, 248, - /* 1860 */ 248, 248, 60, 63, 201, 275, 273, 275, 273, 275, - /* 1870 */ 22, 286, 71, 223, 72, 202, 223, 297, 297, 202, - /* 1880 */ 79, 201, 116, 82, 220, 201, 220, 220, 65, 293, - /* 1890 */ 292, 229, 22, 166, 127, 226, 24, 114, 226, 223, - /* 1900 */ 99, 222, 202, 101, 285, 92, 220, 308, 83, 107, - /* 1910 */ 108, 220, 220, 316, 220, 285, 268, 115, 229, 117, - /* 1920 */ 118, 119, 223, 321, 122, 268, 149, 146, 22, 19, - /* 1930 */ 20, 202, 22, 159, 282, 134, 321, 148, 280, 147, - /* 1940 */ 139, 140, 252, 141, 25, 204, 36, 252, 13, 251, - /* 1950 */ 196, 248, 250, 249, 196, 6, 154, 155, 156, 157, - /* 1960 */ 158, 209, 194, 194, 163, 194, 306, 306, 303, 224, - /* 1970 */ 60, 215, 215, 209, 215, 215, 215, 224, 216, 216, - /* 1980 */ 4, 209, 72, 3, 22, 183, 164, 15, 23, 16, - /* 1990 */ 23, 140, 152, 131, 25, 24, 143, 20, 16, 145, - /* 2000 */ 1, 143, 131, 62, 131, 37, 54, 152, 54, 54, - /* 2010 */ 54, 101, 131, 117, 1, 34, 142, 107, 108, 5, - /* 2020 */ 22, 116, 162, 76, 41, 115, 69, 117, 118, 119, - /* 2030 */ 1, 2, 122, 25, 5, 69, 142, 116, 20, 10, - /* 2040 */ 11, 12, 13, 14, 24, 19, 17, 132, 5, 126, - /* 2050 */ 22, 141, 68, 10, 11, 12, 13, 14, 22, 30, - /* 2060 */ 17, 32, 22, 22, 154, 155, 156, 157, 158, 40, - /* 2070 */ 23, 68, 60, 30, 24, 32, 97, 28, 22, 68, - /* 2080 */ 23, 37, 34, 40, 150, 22, 25, 23, 23, 23, - /* 2090 */ 22, 98, 142, 183, 23, 23, 34, 22, 25, 89, - /* 2100 */ 71, 34, 117, 144, 34, 22, 76, 76, 79, 87, - /* 2110 */ 34, 82, 34, 44, 71, 94, 34, 23, 25, 24, - /* 2120 */ 34, 25, 79, 23, 23, 82, 23, 23, 99, 143, - /* 2130 */ 143, 22, 25, 25, 23, 22, 11, 22, 22, 25, - /* 2140 */ 23, 23, 99, 22, 22, 136, 142, 142, 142, 25, - /* 2150 */ 23, 15, 1, 1, 323, 323, 323, 323, 323, 323, - /* 2160 */ 323, 323, 323, 134, 323, 323, 323, 323, 139, 140, - /* 2170 */ 323, 323, 323, 323, 323, 323, 323, 134, 323, 323, - /* 2180 */ 323, 323, 139, 140, 323, 323, 323, 323, 323, 323, - /* 2190 */ 323, 323, 163, 323, 323, 323, 323, 323, 323, 323, - /* 2200 */ 323, 323, 323, 323, 323, 323, 163, 323, 323, 323, - /* 2210 */ 323, 323, 323, 323, 323, 323, 323, 323, 323, 323, - /* 2220 */ 323, 323, 323, 323, 323, 323, 323, 323, 323, 323, - /* 2230 */ 323, 323, 323, 323, 323, 323, 323, 323, 323, 323, - /* 2240 */ 323, 323, 323, 323, 323, 323, 323, 323, 323, 323, - /* 2250 */ 323, 323, 323, 323, 323, 323, 323, 323, 323, 323, - /* 2260 */ 323, 323, 323, 323, 323, 323, 323, 323, 323, 323, - /* 2270 */ 323, 323, 323, 323, 323, 323, 323, 323, 323, 323, - /* 2280 */ 323, 323, 323, 323, 323, 323, 323, 323, 323, 323, - /* 2290 */ 323, 323, 323, 323, 323, 323, 323, 323, 323, 323, - /* 2300 */ 323, 323, 323, 323, 323, 323, 323, 323, 323, 323, - /* 2310 */ 323, 323, 323, 323, 323, 323, 323, 323, 323, 323, - /* 2320 */ 323, 323, 323, 323, 323, 323, 323, 323, 323, 323, - /* 2330 */ 323, 323, 323, 323, 323, 323, 323, 323, 323, 323, - /* 2340 */ 323, 187, 187, 187, 187, 187, 187, 187, 187, 187, - /* 2350 */ 187, 187, 187, 187, 187, 187, 187, 187, 187, 187, - /* 2360 */ 187, 187, 187, 187, 187, 187, 187, 187, 187, 187, - /* 2370 */ 187, 187, 187, 187, 187, 187, 187, 187, 187, 187, - /* 2380 */ 187, 187, 187, 187, 187, 187, 187, 187, 187, 187, - /* 2390 */ 187, 187, 187, 187, + /* 330 */ 114, 135, 60, 137, 138, 103, 104, 105, 106, 107, + /* 340 */ 108, 109, 110, 111, 112, 113, 114, 82, 281, 206, + /* 350 */ 195, 109, 110, 111, 112, 113, 114, 195, 195, 195, + /* 360 */ 205, 22, 207, 103, 104, 105, 106, 107, 108, 109, + /* 370 */ 110, 111, 112, 113, 114, 195, 60, 116, 117, 107, + /* 380 */ 108, 218, 219, 19, 241, 242, 121, 23, 116, 117, + /* 390 */ 118, 119, 306, 121, 308, 206, 234, 254, 15, 256, + /* 400 */ 195, 129, 259, 260, 139, 140, 145, 43, 44, 45, + /* 410 */ 200, 47, 48, 49, 50, 51, 52, 53, 54, 55, + /* 420 */ 56, 57, 58, 218, 219, 60, 154, 19, 156, 265, + /* 430 */ 241, 242, 24, 117, 118, 119, 120, 21, 73, 123, + /* 440 */ 124, 125, 74, 254, 61, 256, 107, 108, 221, 133, + /* 450 */ 82, 43, 44, 45, 195, 47, 48, 49, 50, 51, + /* 460 */ 52, 53, 54, 55, 56, 57, 58, 103, 104, 105, + /* 470 */ 106, 107, 108, 109, 110, 111, 112, 113, 114, 195, + /* 480 */ 317, 318, 117, 118, 119, 22, 120, 195, 22, 123, + /* 490 */ 124, 125, 19, 20, 284, 22, 128, 81, 288, 133, + /* 500 */ 195, 195, 218, 219, 277, 278, 279, 139, 140, 36, + /* 510 */ 195, 103, 104, 105, 106, 107, 108, 109, 110, 111, + /* 520 */ 112, 113, 114, 218, 219, 62, 60, 195, 241, 242, + /* 530 */ 271, 19, 240, 60, 189, 190, 191, 192, 233, 255, + /* 540 */ 124, 254, 197, 256, 199, 72, 129, 130, 264, 195, + /* 550 */ 195, 206, 22, 23, 60, 43, 44, 45, 206, 47, + /* 560 */ 48, 49, 50, 51, 52, 53, 54, 55, 56, 57, + /* 570 */ 58, 195, 218, 219, 101, 195, 60, 271, 162, 195, + /* 580 */ 107, 108, 109, 117, 118, 119, 241, 242, 115, 73, + /* 590 */ 117, 118, 119, 241, 242, 122, 60, 195, 266, 254, + /* 600 */ 312, 256, 218, 219, 316, 203, 254, 195, 256, 255, + /* 610 */ 208, 117, 118, 119, 269, 103, 104, 105, 106, 107, + /* 620 */ 108, 109, 110, 111, 112, 113, 114, 154, 155, 156, + /* 630 */ 157, 158, 102, 117, 118, 119, 19, 242, 144, 255, + /* 640 */ 23, 206, 24, 298, 195, 300, 206, 195, 264, 254, + /* 650 */ 206, 256, 240, 117, 118, 119, 183, 22, 22, 23, + /* 660 */ 43, 44, 45, 151, 47, 48, 49, 50, 51, 52, + /* 670 */ 53, 54, 55, 56, 57, 58, 241, 242, 60, 195, + /* 680 */ 19, 241, 242, 195, 23, 241, 242, 195, 152, 254, + /* 690 */ 310, 256, 243, 312, 254, 60, 256, 316, 254, 206, + /* 700 */ 256, 60, 218, 219, 43, 44, 45, 272, 47, 48, + /* 710 */ 49, 50, 51, 52, 53, 54, 55, 56, 57, 58, + /* 720 */ 103, 104, 105, 106, 107, 108, 109, 110, 111, 112, + /* 730 */ 113, 114, 240, 60, 241, 242, 118, 25, 102, 255, + /* 740 */ 166, 167, 101, 22, 26, 19, 20, 254, 22, 256, + /* 750 */ 139, 140, 117, 118, 119, 306, 195, 308, 117, 118, + /* 760 */ 237, 238, 36, 122, 103, 104, 105, 106, 107, 108, + /* 770 */ 109, 110, 111, 112, 113, 114, 195, 195, 60, 218, + /* 780 */ 219, 60, 109, 195, 19, 217, 60, 25, 23, 77, + /* 790 */ 117, 118, 119, 225, 233, 154, 155, 156, 72, 312, + /* 800 */ 218, 219, 90, 316, 22, 93, 303, 304, 43, 44, + /* 810 */ 45, 195, 47, 48, 49, 50, 51, 52, 53, 54, + /* 820 */ 55, 56, 57, 58, 183, 195, 195, 101, 19, 213, + /* 830 */ 214, 243, 23, 107, 108, 117, 118, 119, 117, 118, + /* 840 */ 119, 115, 60, 117, 118, 119, 195, 60, 122, 218, + /* 850 */ 219, 22, 43, 44, 45, 35, 47, 48, 49, 50, + /* 860 */ 51, 52, 53, 54, 55, 56, 57, 58, 103, 104, + /* 870 */ 105, 106, 107, 108, 109, 110, 111, 112, 113, 114, + /* 880 */ 154, 155, 156, 157, 158, 195, 255, 67, 195, 60, + /* 890 */ 101, 240, 311, 312, 306, 75, 308, 316, 29, 117, + /* 900 */ 118, 119, 33, 287, 117, 118, 119, 118, 146, 183, + /* 910 */ 195, 122, 103, 104, 105, 106, 107, 108, 109, 110, + /* 920 */ 111, 112, 113, 114, 215, 195, 77, 60, 25, 195, + /* 930 */ 122, 144, 19, 218, 219, 66, 23, 88, 246, 90, + /* 940 */ 132, 25, 93, 154, 155, 156, 117, 118, 119, 257, + /* 950 */ 195, 131, 218, 219, 195, 265, 43, 44, 45, 195, + /* 960 */ 47, 48, 49, 50, 51, 52, 53, 54, 55, 56, + /* 970 */ 57, 58, 183, 218, 219, 195, 19, 218, 219, 195, + /* 980 */ 23, 195, 218, 219, 117, 118, 119, 195, 233, 255, + /* 990 */ 195, 195, 233, 22, 23, 146, 25, 233, 218, 219, + /* 1000 */ 43, 44, 45, 294, 47, 48, 49, 50, 51, 52, + /* 1010 */ 53, 54, 55, 56, 57, 58, 103, 104, 105, 106, + /* 1020 */ 107, 108, 109, 110, 111, 112, 113, 114, 195, 12, + /* 1030 */ 234, 195, 240, 74, 195, 255, 195, 60, 243, 262, + /* 1040 */ 263, 311, 312, 25, 27, 19, 316, 107, 108, 265, + /* 1050 */ 24, 265, 195, 150, 195, 139, 140, 218, 219, 42, + /* 1060 */ 103, 104, 105, 106, 107, 108, 109, 110, 111, 112, + /* 1070 */ 113, 114, 233, 102, 67, 218, 219, 218, 219, 243, + /* 1080 */ 19, 64, 22, 23, 23, 25, 195, 128, 129, 130, + /* 1090 */ 233, 74, 233, 86, 154, 118, 156, 130, 265, 208, + /* 1100 */ 19, 306, 95, 308, 43, 44, 45, 266, 47, 48, + /* 1110 */ 49, 50, 51, 52, 53, 54, 55, 56, 57, 58, + /* 1120 */ 153, 230, 96, 232, 43, 44, 45, 19, 47, 48, + /* 1130 */ 49, 50, 51, 52, 53, 54, 55, 56, 57, 58, + /* 1140 */ 114, 22, 306, 24, 308, 127, 120, 121, 122, 123, + /* 1150 */ 124, 125, 126, 195, 147, 212, 213, 214, 132, 23, + /* 1160 */ 195, 25, 102, 100, 103, 104, 105, 106, 107, 108, + /* 1170 */ 109, 110, 111, 112, 113, 114, 218, 219, 19, 60, + /* 1180 */ 195, 12, 210, 211, 103, 104, 105, 106, 107, 108, + /* 1190 */ 109, 110, 111, 112, 113, 114, 27, 134, 195, 195, + /* 1200 */ 195, 210, 211, 218, 219, 195, 47, 195, 212, 213, + /* 1210 */ 214, 42, 16, 130, 19, 112, 113, 114, 23, 77, + /* 1220 */ 195, 218, 219, 218, 219, 117, 163, 164, 218, 219, + /* 1230 */ 218, 219, 90, 64, 19, 93, 153, 118, 43, 44, + /* 1240 */ 45, 160, 47, 48, 49, 50, 51, 52, 53, 54, + /* 1250 */ 55, 56, 57, 58, 195, 119, 272, 276, 43, 44, + /* 1260 */ 45, 195, 47, 48, 49, 50, 51, 52, 53, 54, + /* 1270 */ 55, 56, 57, 58, 78, 116, 80, 218, 219, 116, + /* 1280 */ 144, 128, 129, 130, 218, 219, 61, 195, 47, 195, + /* 1290 */ 16, 132, 195, 263, 195, 314, 315, 267, 103, 104, + /* 1300 */ 105, 106, 107, 108, 109, 110, 111, 112, 113, 114, + /* 1310 */ 218, 219, 218, 219, 151, 218, 219, 195, 103, 104, + /* 1320 */ 105, 106, 107, 108, 109, 110, 111, 112, 113, 114, + /* 1330 */ 210, 211, 195, 7, 8, 9, 195, 60, 195, 312, + /* 1340 */ 218, 219, 195, 316, 195, 120, 195, 263, 19, 195, + /* 1350 */ 125, 267, 78, 24, 80, 218, 219, 116, 162, 218, + /* 1360 */ 219, 218, 219, 301, 302, 218, 219, 195, 19, 218, + /* 1370 */ 219, 276, 43, 44, 45, 160, 47, 48, 49, 50, + /* 1380 */ 51, 52, 53, 54, 55, 56, 57, 58, 19, 146, + /* 1390 */ 218, 219, 43, 44, 45, 118, 47, 48, 49, 50, + /* 1400 */ 51, 52, 53, 54, 55, 56, 57, 58, 165, 314, + /* 1410 */ 315, 276, 43, 44, 45, 266, 47, 48, 49, 50, + /* 1420 */ 51, 52, 53, 54, 55, 56, 57, 58, 128, 129, + /* 1430 */ 130, 195, 103, 104, 105, 106, 107, 108, 109, 110, + /* 1440 */ 111, 112, 113, 114, 195, 228, 195, 61, 195, 314, + /* 1450 */ 315, 25, 103, 104, 105, 106, 107, 108, 109, 110, + /* 1460 */ 111, 112, 113, 114, 195, 22, 195, 218, 219, 218, + /* 1470 */ 219, 195, 103, 104, 105, 106, 107, 108, 109, 110, + /* 1480 */ 111, 112, 113, 114, 195, 195, 246, 218, 219, 218, + /* 1490 */ 219, 25, 19, 246, 218, 219, 246, 257, 259, 260, + /* 1500 */ 195, 22, 266, 60, 257, 195, 120, 257, 218, 219, + /* 1510 */ 116, 195, 19, 195, 150, 151, 25, 44, 45, 266, + /* 1520 */ 47, 48, 49, 50, 51, 52, 53, 54, 55, 56, + /* 1530 */ 57, 58, 195, 54, 218, 219, 218, 219, 45, 145, + /* 1540 */ 47, 48, 49, 50, 51, 52, 53, 54, 55, 56, + /* 1550 */ 57, 58, 246, 121, 122, 218, 219, 19, 23, 31, + /* 1560 */ 25, 118, 159, 257, 161, 24, 195, 39, 195, 143, + /* 1570 */ 195, 19, 20, 22, 22, 24, 103, 104, 105, 106, + /* 1580 */ 107, 108, 109, 110, 111, 112, 113, 114, 36, 218, + /* 1590 */ 219, 218, 219, 218, 219, 195, 103, 104, 105, 106, + /* 1600 */ 107, 108, 109, 110, 111, 112, 113, 114, 195, 143, + /* 1610 */ 119, 136, 60, 195, 22, 195, 141, 195, 218, 219, + /* 1620 */ 195, 23, 195, 25, 72, 23, 131, 25, 195, 134, + /* 1630 */ 23, 218, 219, 195, 82, 144, 218, 219, 218, 219, + /* 1640 */ 218, 219, 195, 218, 219, 218, 219, 60, 23, 195, + /* 1650 */ 25, 218, 219, 101, 195, 117, 218, 219, 195, 107, + /* 1660 */ 108, 23, 195, 25, 195, 218, 219, 115, 228, 117, + /* 1670 */ 118, 119, 218, 219, 122, 195, 19, 218, 219, 195, + /* 1680 */ 60, 218, 219, 142, 195, 218, 219, 19, 20, 195, + /* 1690 */ 22, 139, 140, 23, 23, 25, 25, 195, 218, 219, + /* 1700 */ 7, 8, 218, 219, 36, 118, 154, 155, 156, 157, + /* 1710 */ 158, 195, 23, 195, 25, 84, 85, 49, 195, 23, + /* 1720 */ 195, 25, 195, 23, 195, 25, 195, 23, 60, 25, + /* 1730 */ 23, 23, 25, 25, 142, 183, 218, 219, 118, 195, + /* 1740 */ 72, 218, 219, 218, 219, 218, 219, 218, 219, 218, + /* 1750 */ 219, 195, 195, 146, 86, 98, 23, 195, 25, 91, + /* 1760 */ 19, 20, 154, 22, 156, 154, 23, 156, 25, 101, + /* 1770 */ 23, 195, 25, 195, 195, 107, 108, 36, 195, 195, + /* 1780 */ 195, 195, 228, 115, 195, 117, 118, 119, 195, 195, + /* 1790 */ 122, 261, 195, 321, 195, 195, 195, 258, 238, 195, + /* 1800 */ 195, 60, 299, 291, 195, 195, 258, 195, 195, 195, + /* 1810 */ 290, 244, 216, 72, 245, 193, 258, 258, 299, 258, + /* 1820 */ 299, 274, 154, 155, 156, 157, 158, 86, 247, 295, + /* 1830 */ 248, 295, 91, 19, 20, 270, 22, 274, 270, 248, + /* 1840 */ 274, 222, 101, 227, 274, 221, 231, 221, 107, 108, + /* 1850 */ 36, 183, 262, 247, 221, 283, 115, 262, 117, 118, + /* 1860 */ 119, 198, 116, 122, 220, 262, 61, 220, 220, 251, + /* 1870 */ 247, 142, 251, 245, 60, 202, 299, 202, 38, 262, + /* 1880 */ 202, 22, 152, 151, 296, 43, 72, 236, 18, 239, + /* 1890 */ 202, 239, 239, 239, 18, 154, 155, 156, 157, 158, + /* 1900 */ 86, 150, 201, 248, 275, 91, 248, 273, 236, 248, + /* 1910 */ 275, 275, 273, 236, 248, 101, 286, 202, 201, 159, + /* 1920 */ 63, 107, 108, 296, 183, 293, 202, 201, 22, 115, + /* 1930 */ 202, 117, 118, 119, 292, 223, 122, 201, 65, 202, + /* 1940 */ 201, 223, 220, 220, 22, 220, 226, 226, 229, 127, + /* 1950 */ 223, 220, 166, 24, 285, 220, 222, 114, 315, 285, + /* 1960 */ 220, 202, 220, 307, 92, 320, 320, 229, 154, 155, + /* 1970 */ 156, 157, 158, 0, 1, 2, 223, 83, 5, 268, + /* 1980 */ 149, 268, 146, 10, 11, 12, 13, 14, 22, 280, + /* 1990 */ 17, 202, 159, 19, 20, 251, 22, 183, 282, 148, + /* 2000 */ 252, 252, 250, 30, 249, 32, 248, 147, 25, 13, + /* 2010 */ 36, 204, 196, 40, 196, 6, 302, 194, 194, 194, + /* 2020 */ 209, 215, 209, 215, 215, 215, 224, 224, 216, 209, + /* 2030 */ 4, 216, 215, 3, 60, 22, 122, 19, 122, 19, + /* 2040 */ 125, 22, 15, 22, 71, 16, 72, 23, 23, 140, + /* 2050 */ 305, 152, 79, 25, 131, 82, 143, 20, 16, 305, + /* 2060 */ 1, 143, 145, 131, 131, 62, 54, 131, 37, 54, + /* 2070 */ 54, 152, 99, 117, 34, 101, 54, 24, 1, 5, + /* 2080 */ 22, 107, 108, 116, 76, 25, 162, 41, 142, 115, + /* 2090 */ 24, 117, 118, 119, 116, 20, 122, 19, 126, 23, + /* 2100 */ 132, 19, 20, 69, 22, 69, 22, 134, 22, 68, + /* 2110 */ 22, 22, 139, 140, 60, 141, 68, 24, 36, 28, + /* 2120 */ 97, 22, 37, 68, 23, 150, 34, 22, 154, 155, + /* 2130 */ 156, 157, 158, 23, 23, 22, 163, 25, 23, 142, + /* 2140 */ 23, 98, 60, 23, 22, 144, 25, 76, 34, 117, + /* 2150 */ 34, 89, 34, 34, 72, 87, 76, 183, 34, 94, + /* 2160 */ 34, 23, 22, 24, 34, 23, 25, 44, 25, 23, + /* 2170 */ 23, 23, 22, 22, 25, 11, 143, 25, 143, 23, + /* 2180 */ 22, 22, 22, 101, 23, 23, 136, 22, 25, 107, + /* 2190 */ 108, 142, 25, 142, 142, 23, 15, 115, 1, 117, + /* 2200 */ 118, 119, 1, 2, 122, 1, 5, 322, 322, 322, + /* 2210 */ 322, 10, 11, 12, 13, 14, 322, 322, 17, 322, + /* 2220 */ 5, 322, 322, 141, 322, 10, 11, 12, 13, 14, + /* 2230 */ 322, 30, 17, 32, 322, 322, 154, 155, 156, 157, + /* 2240 */ 158, 40, 322, 322, 322, 30, 322, 32, 322, 322, + /* 2250 */ 322, 322, 322, 322, 322, 40, 322, 322, 322, 322, + /* 2260 */ 322, 322, 322, 322, 322, 183, 322, 322, 322, 322, + /* 2270 */ 322, 322, 71, 322, 322, 322, 322, 322, 322, 322, + /* 2280 */ 79, 322, 322, 82, 322, 322, 71, 322, 322, 322, + /* 2290 */ 322, 322, 322, 322, 79, 322, 322, 82, 322, 322, + /* 2300 */ 99, 322, 322, 322, 322, 322, 322, 322, 322, 322, + /* 2310 */ 322, 322, 322, 322, 99, 322, 322, 322, 322, 322, + /* 2320 */ 322, 322, 322, 322, 322, 322, 322, 322, 322, 322, + /* 2330 */ 322, 322, 322, 322, 322, 134, 322, 322, 322, 322, + /* 2340 */ 139, 140, 322, 322, 322, 322, 322, 322, 322, 134, + /* 2350 */ 322, 322, 322, 322, 139, 140, 322, 322, 322, 322, + /* 2360 */ 322, 322, 322, 322, 163, 322, 322, 322, 322, 322, + /* 2370 */ 322, 322, 322, 322, 322, 322, 322, 322, 163, 322, + /* 2380 */ 322, 322, 322, 322, 322, 322, 322, 322, 322, 322, + /* 2390 */ 322, 322, 322, 322, 322, 322, 322, 322, 322, 322, + /* 2400 */ 322, 322, 322, 322, 322, 322, 322, 322, 187, 187, + /* 2410 */ 187, 187, 187, 187, 187, 187, 187, 187, 187, 187, + /* 2420 */ 187, 187, 187, 187, 187, 187, 187, 187, 187, 187, + /* 2430 */ 187, 187, 187, 187, 187, 187, 187, 187, 187, 187, + /* 2440 */ 187, 187, 187, 187, 187, 187, 187, 187, 187, 187, + /* 2450 */ 187, 187, 187, 187, 187, 187, 187, 187, 187, 187, + /* 2460 */ 187, 187, 187, 187, 187, 187, 187, 187, 187, 187, + /* 2470 */ 187, 187, 187, 187, 187, 187, 187, 187, 187, 187, + /* 2480 */ 187, 187, 187, 187, 187, 187, 187, 187, 187, 187, + /* 2490 */ 187, 187, 187, 187, 187, 187, 187, 187, 187, 187, + /* 2500 */ 187, 187, 187, 187, 187, 187, 187, 187, 187, 187, + /* 2510 */ 187, 187, 187, 187, 187, 187, 187, 187, 187, 187, + /* 2520 */ 187, 187, 187, 187, 187, 187, 187, 187, 187, 187, + /* 2530 */ 187, 187, 187, 187, 187, 187, 187, 187, 187, 187, + /* 2540 */ 187, 187, 187, 187, 187, 187, 187, 187, 187, 187, + /* 2550 */ 187, 187, 187, 187, 187, 187, 187, 187, 187, 187, + /* 2560 */ 187, 187, 187, 187, 187, 187, }; -#define YY_SHIFT_COUNT (582) +#define YY_SHIFT_COUNT (599) #define YY_SHIFT_MIN (0) -#define YY_SHIFT_MAX (2152) +#define YY_SHIFT_MAX (2215) static const unsigned short int yy_shift_ofst[] = { - /* 0 */ 2029, 1801, 2043, 1380, 1380, 318, 271, 1496, 1569, 1642, - /* 10 */ 702, 702, 702, 740, 318, 318, 318, 318, 318, 0, - /* 20 */ 0, 216, 1177, 702, 702, 702, 702, 702, 702, 702, - /* 30 */ 702, 702, 702, 702, 702, 702, 702, 702, 503, 503, - /* 40 */ 111, 111, 217, 287, 348, 610, 610, 736, 736, 736, - /* 50 */ 736, 40, 112, 320, 340, 445, 489, 593, 637, 741, - /* 60 */ 785, 889, 909, 1023, 1043, 1157, 1177, 1177, 1177, 1177, - /* 70 */ 1177, 1177, 1177, 1177, 1177, 1177, 1177, 1177, 1177, 1177, - /* 80 */ 1177, 1177, 1177, 1177, 1197, 1177, 1301, 1321, 1321, 554, - /* 90 */ 1802, 1910, 702, 702, 702, 702, 702, 702, 702, 702, - /* 100 */ 702, 702, 702, 702, 702, 702, 702, 702, 702, 702, - /* 110 */ 702, 702, 702, 702, 702, 702, 702, 702, 702, 702, - /* 120 */ 702, 702, 702, 702, 702, 702, 702, 702, 702, 702, - /* 130 */ 702, 702, 702, 702, 702, 702, 702, 702, 702, 702, - /* 140 */ 702, 702, 138, 198, 198, 198, 198, 198, 198, 198, - /* 150 */ 183, 99, 169, 549, 610, 151, 542, 610, 610, 1017, - /* 160 */ 1017, 610, 1001, 350, 464, 464, 464, 586, 1, 1, - /* 170 */ 2207, 2207, 854, 854, 854, 465, 694, 694, 694, 694, - /* 180 */ 1096, 1096, 825, 549, 847, 904, 610, 610, 610, 610, - /* 190 */ 610, 610, 610, 610, 610, 610, 610, 610, 610, 610, - /* 200 */ 610, 610, 610, 610, 610, 488, 947, 947, 610, 1129, - /* 210 */ 495, 495, 1139, 1139, 967, 967, 1173, 2207, 2207, 2207, - /* 220 */ 2207, 2207, 2207, 2207, 617, 765, 765, 697, 444, 708, - /* 230 */ 660, 745, 510, 663, 864, 610, 610, 610, 610, 610, - /* 240 */ 610, 610, 610, 610, 610, 188, 610, 610, 610, 610, - /* 250 */ 610, 610, 610, 610, 610, 610, 610, 610, 839, 839, - /* 260 */ 839, 610, 610, 610, 1155, 610, 610, 610, 1119, 1247, - /* 270 */ 610, 1353, 610, 610, 610, 610, 610, 610, 610, 610, - /* 280 */ 1063, 494, 1101, 291, 291, 291, 291, 1319, 1101, 1101, - /* 290 */ 775, 1221, 1375, 1452, 667, 1341, 1198, 1341, 1435, 1487, - /* 300 */ 667, 667, 1487, 667, 1198, 1435, 777, 1011, 1423, 584, - /* 310 */ 584, 584, 1273, 1273, 1273, 1273, 1471, 1471, 880, 1530, - /* 320 */ 1190, 1095, 1731, 1731, 1668, 1668, 1794, 1794, 1668, 1683, - /* 330 */ 1685, 1815, 1796, 1824, 1824, 1824, 1824, 1668, 1828, 1701, - /* 340 */ 1685, 1685, 1701, 1815, 1796, 1701, 1796, 1701, 1668, 1828, - /* 350 */ 1697, 1800, 1668, 1828, 1848, 1668, 1828, 1668, 1828, 1848, - /* 360 */ 1766, 1766, 1766, 1823, 1870, 1870, 1848, 1766, 1767, 1766, - /* 370 */ 1823, 1766, 1766, 1727, 1872, 1783, 1783, 1848, 1668, 1813, - /* 380 */ 1813, 1825, 1825, 1777, 1781, 1906, 1668, 1774, 1777, 1789, - /* 390 */ 1792, 1701, 1919, 1935, 1935, 1949, 1949, 1949, 2207, 2207, - /* 400 */ 2207, 2207, 2207, 2207, 2207, 2207, 2207, 2207, 2207, 2207, - /* 410 */ 2207, 2207, 2207, 69, 1032, 79, 357, 1377, 1206, 400, - /* 420 */ 1525, 835, 332, 1540, 1437, 1539, 1536, 1548, 1583, 1620, - /* 430 */ 1633, 1670, 1671, 1674, 1567, 1553, 1682, 1506, 1675, 1358, - /* 440 */ 1607, 1589, 1678, 1681, 1624, 1687, 1688, 1283, 1561, 1693, - /* 450 */ 1696, 1623, 1521, 1976, 1980, 1962, 1822, 1972, 1973, 1965, - /* 460 */ 1967, 1851, 1840, 1862, 1969, 1969, 1971, 1853, 1977, 1854, - /* 470 */ 1982, 1999, 1858, 1871, 1969, 1873, 1941, 1968, 1969, 1855, - /* 480 */ 1952, 1954, 1955, 1956, 1881, 1896, 1981, 1874, 2013, 2014, - /* 490 */ 1998, 1905, 1860, 1957, 2008, 1966, 1947, 1983, 1894, 1921, - /* 500 */ 2020, 2018, 2026, 1915, 1923, 2028, 1984, 2036, 2040, 2047, - /* 510 */ 2041, 2003, 2012, 2050, 1979, 2049, 2056, 2011, 2044, 2057, - /* 520 */ 2048, 1934, 2063, 2064, 2065, 2061, 2066, 2068, 1993, 1950, - /* 530 */ 2071, 2072, 1985, 2062, 2075, 1959, 2073, 2067, 2070, 2076, - /* 540 */ 2078, 2010, 2030, 2022, 2069, 2031, 2021, 2082, 2094, 2083, - /* 550 */ 2095, 2093, 2096, 2086, 1986, 1987, 2100, 2073, 2101, 2103, - /* 560 */ 2104, 2109, 2107, 2108, 2111, 2113, 2125, 2115, 2116, 2117, - /* 570 */ 2118, 2121, 2122, 2114, 2009, 2004, 2005, 2006, 2124, 2127, - /* 580 */ 2136, 2151, 2152, + /* 0 */ 2201, 1973, 2215, 1552, 1552, 33, 368, 1668, 1741, 1814, + /* 10 */ 726, 726, 726, 265, 33, 33, 33, 33, 33, 0, + /* 20 */ 0, 216, 1349, 726, 726, 726, 726, 726, 726, 726, + /* 30 */ 726, 726, 726, 726, 726, 726, 726, 726, 272, 272, + /* 40 */ 111, 111, 316, 365, 516, 867, 867, 916, 916, 916, + /* 50 */ 916, 40, 112, 260, 364, 408, 512, 617, 661, 765, + /* 60 */ 809, 913, 957, 1061, 1081, 1195, 1215, 1329, 1349, 1349, + /* 70 */ 1349, 1349, 1349, 1349, 1349, 1349, 1349, 1349, 1349, 1349, + /* 80 */ 1349, 1349, 1349, 1349, 1349, 1349, 1369, 1349, 1473, 1493, + /* 90 */ 1493, 473, 1974, 2082, 726, 726, 726, 726, 726, 726, + /* 100 */ 726, 726, 726, 726, 726, 726, 726, 726, 726, 726, + /* 110 */ 726, 726, 726, 726, 726, 726, 726, 726, 726, 726, + /* 120 */ 726, 726, 726, 726, 726, 726, 726, 726, 726, 726, + /* 130 */ 726, 726, 726, 726, 726, 726, 726, 726, 726, 726, + /* 140 */ 726, 726, 726, 726, 726, 726, 138, 232, 232, 232, + /* 150 */ 232, 232, 232, 232, 188, 99, 242, 718, 416, 1159, + /* 160 */ 867, 867, 940, 940, 867, 1103, 417, 574, 574, 574, + /* 170 */ 611, 139, 139, 2379, 2379, 1026, 1026, 1026, 536, 466, + /* 180 */ 466, 466, 466, 1017, 1017, 849, 718, 971, 1060, 867, + /* 190 */ 867, 867, 867, 867, 867, 867, 867, 867, 867, 867, + /* 200 */ 867, 867, 867, 867, 867, 867, 867, 867, 261, 712, + /* 210 */ 712, 867, 108, 1142, 1142, 977, 1108, 1108, 977, 977, + /* 220 */ 1243, 2379, 2379, 2379, 2379, 2379, 2379, 2379, 641, 789, + /* 230 */ 789, 635, 366, 721, 673, 782, 494, 787, 829, 867, + /* 240 */ 867, 867, 867, 867, 867, 867, 867, 867, 867, 867, + /* 250 */ 959, 867, 867, 867, 867, 867, 867, 867, 867, 867, + /* 260 */ 867, 867, 867, 867, 867, 820, 820, 820, 867, 867, + /* 270 */ 867, 1136, 867, 867, 867, 1119, 1007, 867, 1169, 867, + /* 280 */ 867, 867, 867, 867, 867, 867, 867, 1225, 1153, 869, + /* 290 */ 196, 618, 618, 618, 618, 1491, 196, 196, 91, 339, + /* 300 */ 1326, 1386, 383, 1163, 1364, 1426, 1364, 1538, 903, 1163, + /* 310 */ 1163, 903, 1163, 1426, 1538, 1018, 1535, 1241, 1528, 1528, + /* 320 */ 1528, 1394, 1394, 1394, 1394, 762, 762, 1403, 1466, 1475, + /* 330 */ 1551, 1746, 1805, 1746, 1746, 1729, 1729, 1840, 1840, 1729, + /* 340 */ 1730, 1732, 1859, 1842, 1870, 1870, 1870, 1870, 1729, 1876, + /* 350 */ 1751, 1732, 1732, 1751, 1859, 1842, 1751, 1842, 1751, 1729, + /* 360 */ 1876, 1760, 1857, 1729, 1876, 1906, 1729, 1876, 1729, 1876, + /* 370 */ 1906, 1746, 1746, 1746, 1873, 1922, 1922, 1906, 1746, 1822, + /* 380 */ 1746, 1873, 1746, 1746, 1786, 1929, 1843, 1843, 1906, 1729, + /* 390 */ 1872, 1872, 1894, 1894, 1831, 1836, 1966, 1729, 1833, 1831, + /* 400 */ 1851, 1860, 1751, 1983, 1996, 1996, 2009, 2009, 2009, 2379, + /* 410 */ 2379, 2379, 2379, 2379, 2379, 2379, 2379, 2379, 2379, 2379, + /* 420 */ 2379, 2379, 2379, 2379, 136, 1063, 1196, 530, 636, 1274, + /* 430 */ 1300, 1443, 1598, 1495, 1479, 967, 1083, 1602, 463, 1625, + /* 440 */ 1638, 1670, 1541, 1671, 1689, 1696, 1277, 1432, 1693, 808, + /* 450 */ 1700, 1607, 1657, 1587, 1704, 1707, 1631, 1708, 1733, 1608, + /* 460 */ 1611, 1743, 1747, 1620, 1592, 2026, 2030, 2013, 1914, 2018, + /* 470 */ 1916, 2020, 2019, 2021, 1915, 2027, 2029, 2024, 2025, 1909, + /* 480 */ 1899, 1923, 2028, 2028, 1913, 2037, 1917, 2042, 2059, 1918, + /* 490 */ 1932, 2028, 1933, 2003, 2031, 2028, 1919, 2012, 2015, 2016, + /* 500 */ 2022, 1936, 1956, 2040, 2053, 2077, 2074, 2058, 1967, 1924, + /* 510 */ 2034, 2060, 2036, 2008, 2046, 1946, 1978, 2066, 2075, 2078, + /* 520 */ 1968, 1972, 2084, 2041, 2086, 2088, 2076, 2089, 2048, 2054, + /* 530 */ 2093, 2023, 2091, 2099, 2055, 2085, 2101, 2092, 1975, 2105, + /* 540 */ 2110, 2111, 2112, 2115, 2113, 2043, 1997, 2117, 2120, 2032, + /* 550 */ 2114, 2122, 2001, 2121, 2116, 2118, 2119, 2124, 2062, 2071, + /* 560 */ 2068, 2123, 2080, 2065, 2126, 2138, 2140, 2139, 2141, 2143, + /* 570 */ 2130, 2033, 2035, 2142, 2121, 2146, 2147, 2148, 2150, 2149, + /* 580 */ 2152, 2156, 2151, 2164, 2158, 2159, 2161, 2162, 2160, 2165, + /* 590 */ 2163, 2050, 2049, 2051, 2052, 2167, 2172, 2181, 2197, 2204, }; -#define YY_REDUCE_COUNT (412) -#define YY_REDUCE_MIN (-277) -#define YY_REDUCE_MAX (1772) +#define YY_REDUCE_COUNT (423) +#define YY_REDUCE_MIN (-303) +#define YY_REDUCE_MAX (1825) static const short yy_reduce_ofst[] = { - /* 0 */ -67, 1252, -64, -178, -181, 160, 1071, 143, -184, 137, - /* 10 */ 218, 220, 222, -174, 229, 268, 272, 275, 324, -208, - /* 20 */ 242, -277, -39, 81, 537, 792, 810, 812, -189, 814, - /* 30 */ 831, 163, 865, 944, 887, 840, 964, 1077, -187, 292, - /* 40 */ -133, 274, 673, 558, 682, 795, 809, -238, -232, -238, - /* 50 */ -232, 329, 329, 329, 329, 329, 329, 329, 329, 329, - /* 60 */ 329, 329, 329, 329, 329, 329, 329, 329, 329, 329, - /* 70 */ 329, 329, 329, 329, 329, 329, 329, 329, 329, 329, - /* 80 */ 329, 329, 329, 329, 329, 329, 329, 329, 329, 557, - /* 90 */ 712, 949, 966, 969, 971, 979, 1097, 1099, 1103, 1142, - /* 100 */ 1144, 1169, 1172, 1201, 1203, 1228, 1241, 1250, 1253, 1255, - /* 110 */ 1261, 1266, 1271, 1282, 1291, 1308, 1310, 1312, 1322, 1328, - /* 120 */ 1347, 1354, 1356, 1359, 1362, 1365, 1367, 1374, 1376, 1381, - /* 130 */ 1401, 1403, 1406, 1412, 1414, 1417, 1421, 1428, 1447, 1449, - /* 140 */ 1453, 1462, 329, 329, 329, 329, 329, 329, 329, 329, - /* 150 */ 329, 329, 329, -22, -159, 475, -220, 756, 38, 501, - /* 160 */ 841, 714, 329, 118, 337, 349, 363, -56, 329, 329, - /* 170 */ 329, 329, -205, -205, -205, 687, -172, -130, -57, 790, - /* 180 */ 397, 528, -271, 136, 596, 596, 90, 316, 522, 541, - /* 190 */ -37, 715, 849, 977, 628, 856, 980, 991, 1081, 1102, - /* 200 */ 1135, 1083, -162, 208, 1258, 794, -86, 159, 41, 1109, - /* 210 */ 671, 852, 844, 932, 1175, 1254, 480, 1180, 100, 258, - /* 220 */ 1265, 1268, 1216, 1287, -139, 317, 344, 63, 339, 423, - /* 230 */ 563, 636, 676, 813, 908, 914, 950, 1078, 1084, 1098, - /* 240 */ 1363, 1384, 1407, 1439, 1464, 411, 1527, 1534, 1535, 1537, - /* 250 */ 1541, 1542, 1543, 1544, 1545, 1547, 1549, 1550, 990, 1164, - /* 260 */ 1492, 1551, 1552, 1556, 1217, 1558, 1559, 1560, 1473, 1413, - /* 270 */ 1563, 1510, 1568, 563, 1570, 1571, 1572, 1573, 1574, 1575, - /* 280 */ 1443, 1466, 1518, 1513, 1514, 1515, 1516, 1217, 1518, 1518, - /* 290 */ 1531, 1562, 1582, 1477, 1505, 1511, 1533, 1512, 1488, 1538, - /* 300 */ 1509, 1517, 1546, 1519, 1557, 1489, 1565, 1564, 1578, 1586, - /* 310 */ 1587, 1588, 1526, 1528, 1554, 1555, 1576, 1577, 1566, 1579, - /* 320 */ 1584, 1591, 1520, 1523, 1617, 1628, 1580, 1581, 1632, 1585, - /* 330 */ 1590, 1593, 1604, 1605, 1606, 1608, 1609, 1641, 1649, 1610, - /* 340 */ 1592, 1594, 1611, 1595, 1616, 1612, 1618, 1613, 1651, 1654, - /* 350 */ 1596, 1598, 1655, 1663, 1650, 1673, 1680, 1677, 1684, 1653, - /* 360 */ 1664, 1666, 1667, 1662, 1669, 1672, 1676, 1686, 1679, 1691, - /* 370 */ 1689, 1692, 1694, 1597, 1599, 1619, 1630, 1699, 1700, 1602, - /* 380 */ 1615, 1648, 1657, 1690, 1698, 1658, 1729, 1652, 1695, 1702, - /* 390 */ 1704, 1703, 1741, 1754, 1758, 1768, 1769, 1771, 1660, 1661, - /* 400 */ 1665, 1752, 1756, 1757, 1759, 1760, 1764, 1745, 1753, 1762, - /* 410 */ 1763, 1761, 1772, + /* 0 */ -67, 345, -64, -178, -181, 143, 435, -78, -183, 163, + /* 10 */ -185, 284, 384, -174, 189, 352, 440, 444, 493, -23, + /* 20 */ 227, -277, -1, 305, 561, 755, 759, 764, -189, 839, + /* 30 */ 857, 354, 484, 859, 631, 67, 734, 780, -187, 616, + /* 40 */ 581, 730, 891, 449, 588, 795, 836, -238, 287, -238, + /* 50 */ 287, -256, -256, -256, -256, -256, -256, -256, -256, -256, + /* 60 */ -256, -256, -256, -256, -256, -256, -256, -256, -256, -256, + /* 70 */ -256, -256, -256, -256, -256, -256, -256, -256, -256, -256, + /* 80 */ -256, -256, -256, -256, -256, -256, -256, -256, -256, -256, + /* 90 */ -256, 205, 582, 715, 958, 985, 1003, 1005, 1010, 1012, + /* 100 */ 1059, 1066, 1092, 1094, 1097, 1122, 1137, 1141, 1143, 1147, + /* 110 */ 1151, 1172, 1249, 1251, 1269, 1271, 1276, 1290, 1316, 1318, + /* 120 */ 1337, 1371, 1373, 1375, 1400, 1413, 1418, 1420, 1422, 1425, + /* 130 */ 1427, 1433, 1438, 1447, 1454, 1459, 1463, 1467, 1480, 1484, + /* 140 */ 1518, 1523, 1525, 1527, 1529, 1531, -256, -256, -256, -256, + /* 150 */ -256, -256, -256, -256, -256, -256, -256, 155, 210, -220, + /* 160 */ 86, -130, 943, 996, 402, -256, -113, 981, 1095, 1135, + /* 170 */ 395, -256, -256, -256, -256, 568, 568, 568, -4, -153, + /* 180 */ -133, 259, 306, -166, 523, -303, -126, 503, 503, -37, + /* 190 */ -149, 164, 690, 292, 412, 492, 651, 784, 332, 786, + /* 200 */ 841, 1149, 833, 1236, 792, 162, 796, 1253, 777, 288, + /* 210 */ 381, 380, 709, 487, 1027, 972, 1030, 1084, 991, 1120, + /* 220 */ -152, 1062, 692, 1240, 1247, 1250, 1239, 1306, -207, -194, + /* 230 */ 57, 180, 74, 315, 355, 376, 452, 488, 630, 693, + /* 240 */ 965, 1004, 1025, 1099, 1154, 1289, 1305, 1310, 1469, 1489, + /* 250 */ 984, 1494, 1502, 1516, 1544, 1556, 1557, 1562, 1576, 1578, + /* 260 */ 1579, 1583, 1584, 1585, 1586, 1217, 1440, 1554, 1589, 1593, + /* 270 */ 1594, 1530, 1597, 1599, 1600, 1539, 1472, 1601, 1560, 1604, + /* 280 */ 355, 1605, 1609, 1610, 1612, 1613, 1614, 1503, 1512, 1520, + /* 290 */ 1567, 1548, 1558, 1559, 1561, 1530, 1567, 1567, 1569, 1596, + /* 300 */ 1622, 1519, 1521, 1547, 1565, 1581, 1568, 1534, 1582, 1563, + /* 310 */ 1566, 1591, 1570, 1606, 1536, 1619, 1615, 1616, 1624, 1626, + /* 320 */ 1633, 1590, 1595, 1603, 1617, 1618, 1621, 1572, 1623, 1628, + /* 330 */ 1663, 1644, 1577, 1647, 1648, 1673, 1675, 1588, 1627, 1678, + /* 340 */ 1630, 1629, 1634, 1651, 1650, 1652, 1653, 1654, 1688, 1701, + /* 350 */ 1655, 1635, 1636, 1658, 1639, 1672, 1661, 1677, 1666, 1715, + /* 360 */ 1717, 1632, 1642, 1724, 1726, 1712, 1728, 1736, 1737, 1739, + /* 370 */ 1718, 1722, 1723, 1725, 1719, 1720, 1721, 1727, 1731, 1734, + /* 380 */ 1735, 1738, 1740, 1742, 1643, 1656, 1669, 1674, 1753, 1759, + /* 390 */ 1645, 1646, 1711, 1713, 1748, 1744, 1709, 1789, 1716, 1749, + /* 400 */ 1752, 1755, 1758, 1807, 1816, 1818, 1823, 1824, 1825, 1745, + /* 410 */ 1754, 1714, 1811, 1806, 1808, 1809, 1810, 1813, 1802, 1803, + /* 420 */ 1812, 1815, 1817, 1820, }; static const YYACTIONTYPE yy_default[] = { - /* 0 */ 1663, 1663, 1663, 1491, 1254, 1367, 1254, 1254, 1254, 1254, - /* 10 */ 1491, 1491, 1491, 1254, 1254, 1254, 1254, 1254, 1254, 1397, - /* 20 */ 1397, 1544, 1287, 1254, 1254, 1254, 1254, 1254, 1254, 1254, - /* 30 */ 1254, 1254, 1254, 1254, 1254, 1490, 1254, 1254, 1254, 1254, - /* 40 */ 1578, 1578, 1254, 1254, 1254, 1254, 1254, 1563, 1562, 1254, - /* 50 */ 1254, 1254, 1406, 1254, 1413, 1254, 1254, 1254, 1254, 1254, - /* 60 */ 1492, 1493, 1254, 1254, 1254, 1254, 1543, 1545, 1508, 1420, - /* 70 */ 1419, 1418, 1417, 1526, 1385, 1411, 1404, 1408, 1487, 1488, - /* 80 */ 1486, 1641, 1493, 1492, 1254, 1407, 1455, 1471, 1454, 1254, - /* 90 */ 1254, 1254, 1254, 1254, 1254, 1254, 1254, 1254, 1254, 1254, - /* 100 */ 1254, 1254, 1254, 1254, 1254, 1254, 1254, 1254, 1254, 1254, - /* 110 */ 1254, 1254, 1254, 1254, 1254, 1254, 1254, 1254, 1254, 1254, - /* 120 */ 1254, 1254, 1254, 1254, 1254, 1254, 1254, 1254, 1254, 1254, - /* 130 */ 1254, 1254, 1254, 1254, 1254, 1254, 1254, 1254, 1254, 1254, - /* 140 */ 1254, 1254, 1463, 1470, 1469, 1468, 1477, 1467, 1464, 1457, - /* 150 */ 1456, 1458, 1459, 1278, 1254, 1275, 1329, 1254, 1254, 1254, - /* 160 */ 1254, 1254, 1460, 1287, 1448, 1447, 1446, 1254, 1474, 1461, - /* 170 */ 1473, 1472, 1551, 1615, 1614, 1509, 1254, 1254, 1254, 1254, - /* 180 */ 1254, 1254, 1578, 1254, 1254, 1254, 1254, 1254, 1254, 1254, - /* 190 */ 1254, 1254, 1254, 1254, 1254, 1254, 1254, 1254, 1254, 1254, - /* 200 */ 1254, 1254, 1254, 1254, 1254, 1387, 1578, 1578, 1254, 1287, - /* 210 */ 1578, 1578, 1388, 1388, 1283, 1283, 1391, 1558, 1358, 1358, - /* 220 */ 1358, 1358, 1367, 1358, 1254, 1254, 1254, 1254, 1254, 1254, - /* 230 */ 1254, 1254, 1254, 1254, 1254, 1254, 1254, 1254, 1254, 1548, - /* 240 */ 1546, 1254, 1254, 1254, 1254, 1254, 1254, 1254, 1254, 1254, - /* 250 */ 1254, 1254, 1254, 1254, 1254, 1254, 1254, 1254, 1254, 1254, - /* 260 */ 1254, 1254, 1254, 1254, 1254, 1254, 1254, 1254, 1363, 1254, - /* 270 */ 1254, 1254, 1254, 1254, 1254, 1254, 1254, 1254, 1254, 1608, - /* 280 */ 1254, 1521, 1343, 1363, 1363, 1363, 1363, 1365, 1344, 1342, - /* 290 */ 1357, 1288, 1261, 1655, 1423, 1412, 1364, 1412, 1652, 1410, - /* 300 */ 1423, 1423, 1410, 1423, 1364, 1652, 1304, 1630, 1299, 1397, - /* 310 */ 1397, 1397, 1387, 1387, 1387, 1387, 1391, 1391, 1489, 1364, - /* 320 */ 1357, 1254, 1655, 1655, 1373, 1373, 1654, 1654, 1373, 1509, - /* 330 */ 1638, 1432, 1332, 1338, 1338, 1338, 1338, 1373, 1272, 1410, - /* 340 */ 1638, 1638, 1410, 1432, 1332, 1410, 1332, 1410, 1373, 1272, - /* 350 */ 1525, 1649, 1373, 1272, 1499, 1373, 1272, 1373, 1272, 1499, - /* 360 */ 1330, 1330, 1330, 1319, 1254, 1254, 1499, 1330, 1304, 1330, - /* 370 */ 1319, 1330, 1330, 1596, 1254, 1503, 1503, 1499, 1373, 1588, - /* 380 */ 1588, 1400, 1400, 1405, 1391, 1494, 1373, 1254, 1405, 1403, - /* 390 */ 1401, 1410, 1322, 1611, 1611, 1607, 1607, 1607, 1660, 1660, - /* 400 */ 1558, 1623, 1287, 1287, 1287, 1287, 1623, 1306, 1306, 1288, - /* 410 */ 1288, 1287, 1623, 1254, 1254, 1254, 1254, 1254, 1254, 1618, - /* 420 */ 1254, 1553, 1510, 1377, 1254, 1254, 1254, 1254, 1254, 1254, - /* 430 */ 1254, 1254, 1254, 1254, 1254, 1254, 1254, 1254, 1254, 1254, - /* 440 */ 1564, 1254, 1254, 1254, 1254, 1254, 1254, 1254, 1254, 1254, - /* 450 */ 1254, 1254, 1437, 1254, 1257, 1555, 1254, 1254, 1254, 1254, - /* 460 */ 1254, 1254, 1254, 1254, 1414, 1415, 1378, 1254, 1254, 1254, - /* 470 */ 1254, 1254, 1254, 1254, 1429, 1254, 1254, 1254, 1424, 1254, - /* 480 */ 1254, 1254, 1254, 1254, 1254, 1254, 1254, 1651, 1254, 1254, - /* 490 */ 1254, 1254, 1254, 1254, 1524, 1523, 1254, 1254, 1375, 1254, - /* 500 */ 1254, 1254, 1254, 1254, 1254, 1254, 1254, 1254, 1254, 1254, - /* 510 */ 1254, 1254, 1302, 1254, 1254, 1254, 1254, 1254, 1254, 1254, - /* 520 */ 1254, 1254, 1254, 1254, 1254, 1254, 1254, 1254, 1254, 1254, - /* 530 */ 1254, 1254, 1254, 1254, 1254, 1254, 1402, 1254, 1254, 1254, - /* 540 */ 1254, 1254, 1254, 1254, 1254, 1254, 1254, 1254, 1254, 1254, - /* 550 */ 1254, 1593, 1392, 1254, 1254, 1254, 1254, 1642, 1254, 1254, - /* 560 */ 1254, 1254, 1352, 1254, 1254, 1254, 1254, 1254, 1254, 1254, - /* 570 */ 1254, 1254, 1254, 1634, 1346, 1438, 1254, 1441, 1276, 1254, - /* 580 */ 1266, 1254, 1254, + /* 0 */ 1691, 1691, 1691, 1516, 1279, 1392, 1279, 1279, 1279, 1279, + /* 10 */ 1516, 1516, 1516, 1279, 1279, 1279, 1279, 1279, 1279, 1422, + /* 20 */ 1422, 1568, 1312, 1279, 1279, 1279, 1279, 1279, 1279, 1279, + /* 30 */ 1279, 1279, 1279, 1279, 1279, 1515, 1279, 1279, 1279, 1279, + /* 40 */ 1607, 1607, 1279, 1279, 1279, 1279, 1279, 1592, 1591, 1279, + /* 50 */ 1279, 1279, 1431, 1279, 1279, 1279, 1438, 1279, 1279, 1279, + /* 60 */ 1279, 1279, 1517, 1518, 1279, 1279, 1279, 1279, 1567, 1569, + /* 70 */ 1533, 1445, 1444, 1443, 1442, 1551, 1410, 1436, 1429, 1433, + /* 80 */ 1512, 1513, 1511, 1670, 1518, 1517, 1279, 1432, 1480, 1496, + /* 90 */ 1479, 1279, 1279, 1279, 1279, 1279, 1279, 1279, 1279, 1279, + /* 100 */ 1279, 1279, 1279, 1279, 1279, 1279, 1279, 1279, 1279, 1279, + /* 110 */ 1279, 1279, 1279, 1279, 1279, 1279, 1279, 1279, 1279, 1279, + /* 120 */ 1279, 1279, 1279, 1279, 1279, 1279, 1279, 1279, 1279, 1279, + /* 130 */ 1279, 1279, 1279, 1279, 1279, 1279, 1279, 1279, 1279, 1279, + /* 140 */ 1279, 1279, 1279, 1279, 1279, 1279, 1488, 1495, 1494, 1493, + /* 150 */ 1502, 1492, 1489, 1482, 1481, 1483, 1484, 1303, 1300, 1354, + /* 160 */ 1279, 1279, 1279, 1279, 1279, 1485, 1312, 1473, 1472, 1471, + /* 170 */ 1279, 1499, 1486, 1498, 1497, 1575, 1644, 1643, 1534, 1279, + /* 180 */ 1279, 1279, 1279, 1279, 1279, 1607, 1279, 1279, 1279, 1279, + /* 190 */ 1279, 1279, 1279, 1279, 1279, 1279, 1279, 1279, 1279, 1279, + /* 200 */ 1279, 1279, 1279, 1279, 1279, 1279, 1279, 1279, 1412, 1607, + /* 210 */ 1607, 1279, 1312, 1607, 1607, 1308, 1413, 1413, 1308, 1308, + /* 220 */ 1416, 1587, 1383, 1383, 1383, 1383, 1392, 1383, 1279, 1279, + /* 230 */ 1279, 1279, 1279, 1279, 1279, 1279, 1279, 1279, 1279, 1279, + /* 240 */ 1279, 1279, 1279, 1279, 1279, 1279, 1279, 1572, 1570, 1279, + /* 250 */ 1279, 1279, 1279, 1279, 1279, 1279, 1279, 1279, 1279, 1279, + /* 260 */ 1279, 1279, 1279, 1279, 1279, 1279, 1279, 1279, 1279, 1279, + /* 270 */ 1279, 1279, 1279, 1279, 1279, 1388, 1279, 1279, 1279, 1279, + /* 280 */ 1279, 1279, 1279, 1279, 1279, 1279, 1637, 1683, 1279, 1546, + /* 290 */ 1368, 1388, 1388, 1388, 1388, 1390, 1369, 1367, 1382, 1313, + /* 300 */ 1286, 1683, 1683, 1448, 1437, 1389, 1437, 1680, 1435, 1448, + /* 310 */ 1448, 1435, 1448, 1389, 1680, 1329, 1659, 1324, 1422, 1422, + /* 320 */ 1422, 1412, 1412, 1412, 1412, 1416, 1416, 1514, 1389, 1382, + /* 330 */ 1279, 1355, 1683, 1355, 1355, 1398, 1398, 1682, 1682, 1398, + /* 340 */ 1534, 1667, 1457, 1357, 1363, 1363, 1363, 1363, 1398, 1297, + /* 350 */ 1435, 1667, 1667, 1435, 1457, 1357, 1435, 1357, 1435, 1398, + /* 360 */ 1297, 1550, 1678, 1398, 1297, 1524, 1398, 1297, 1398, 1297, + /* 370 */ 1524, 1355, 1355, 1355, 1344, 1279, 1279, 1524, 1355, 1329, + /* 380 */ 1355, 1344, 1355, 1355, 1625, 1279, 1528, 1528, 1524, 1398, + /* 390 */ 1617, 1617, 1425, 1425, 1430, 1416, 1519, 1398, 1279, 1430, + /* 400 */ 1428, 1426, 1435, 1347, 1640, 1640, 1636, 1636, 1636, 1688, + /* 410 */ 1688, 1587, 1652, 1312, 1312, 1312, 1312, 1652, 1331, 1331, + /* 420 */ 1313, 1313, 1312, 1652, 1279, 1279, 1279, 1279, 1279, 1279, + /* 430 */ 1279, 1647, 1279, 1279, 1535, 1279, 1279, 1279, 1279, 1279, + /* 440 */ 1279, 1279, 1402, 1279, 1279, 1279, 1279, 1279, 1279, 1279, + /* 450 */ 1279, 1279, 1593, 1279, 1279, 1279, 1279, 1279, 1279, 1279, + /* 460 */ 1279, 1279, 1279, 1279, 1462, 1279, 1282, 1584, 1279, 1279, + /* 470 */ 1279, 1279, 1279, 1279, 1279, 1279, 1279, 1279, 1279, 1279, + /* 480 */ 1279, 1279, 1439, 1440, 1279, 1279, 1279, 1279, 1279, 1279, + /* 490 */ 1279, 1454, 1279, 1279, 1279, 1449, 1279, 1279, 1279, 1279, + /* 500 */ 1279, 1279, 1279, 1279, 1403, 1279, 1279, 1279, 1279, 1279, + /* 510 */ 1279, 1549, 1548, 1279, 1279, 1400, 1279, 1279, 1279, 1279, + /* 520 */ 1279, 1279, 1279, 1279, 1279, 1279, 1279, 1279, 1279, 1327, + /* 530 */ 1279, 1279, 1279, 1279, 1279, 1279, 1279, 1279, 1279, 1279, + /* 540 */ 1279, 1279, 1279, 1279, 1279, 1279, 1279, 1279, 1279, 1279, + /* 550 */ 1279, 1279, 1279, 1427, 1279, 1279, 1279, 1279, 1279, 1279, + /* 560 */ 1279, 1279, 1279, 1279, 1279, 1279, 1279, 1279, 1622, 1417, + /* 570 */ 1279, 1279, 1279, 1279, 1671, 1279, 1279, 1279, 1279, 1377, + /* 580 */ 1279, 1279, 1279, 1279, 1279, 1279, 1279, 1279, 1279, 1279, + /* 590 */ 1663, 1371, 1463, 1279, 1466, 1301, 1279, 1291, 1279, 1279, }; /********** End of lemon-generated parsing tables *****************************/ @@ -179401,34 +181546,33 @@ static const char *const yyTokenName[] = { /* 292 */ "foreach_clause", /* 293 */ "when_clause", /* 294 */ "trigger_cmd", - /* 295 */ "trnm", - /* 296 */ "tridxby", - /* 297 */ "database_kw_opt", - /* 298 */ "key_opt", - /* 299 */ "add_column_fullname", - /* 300 */ "kwcolumn_opt", - /* 301 */ "create_vtab", - /* 302 */ "vtabarglist", - /* 303 */ "vtabarg", - /* 304 */ "vtabargtoken", - /* 305 */ "lp", - /* 306 */ "anylist", - /* 307 */ "wqitem", - /* 308 */ "wqas", - /* 309 */ "withnm", - /* 310 */ "windowdefn_list", - /* 311 */ "windowdefn", - /* 312 */ "window", - /* 313 */ "frame_opt", - /* 314 */ "part_opt", - /* 315 */ "filter_clause", - /* 316 */ "over_clause", - /* 317 */ "range_or_rows", - /* 318 */ "frame_bound", - /* 319 */ "frame_bound_s", - /* 320 */ "frame_bound_e", - /* 321 */ "frame_exclude_opt", - /* 322 */ "frame_exclude", + /* 295 */ "tridxby", + /* 296 */ "database_kw_opt", + /* 297 */ "key_opt", + /* 298 */ "alter_add", + /* 299 */ "kwcolumn_opt", + /* 300 */ "create_vtab", + /* 301 */ "vtabarglist", + /* 302 */ "vtabarg", + /* 303 */ "vtabargtoken", + /* 304 */ "lp", + /* 305 */ "anylist", + /* 306 */ "wqitem", + /* 307 */ "wqas", + /* 308 */ "withnm", + /* 309 */ "windowdefn_list", + /* 310 */ "windowdefn", + /* 311 */ "window", + /* 312 */ "frame_opt", + /* 313 */ "part_opt", + /* 314 */ "filter_clause", + /* 315 */ "over_clause", + /* 316 */ "range_or_rows", + /* 317 */ "frame_bound", + /* 318 */ "frame_bound_s", + /* 319 */ "frame_bound_e", + /* 320 */ "frame_exclude_opt", + /* 321 */ "frame_exclude", }; #endif /* defined(YYCOVERAGE) || !defined(NDEBUG) */ @@ -179558,8 +181702,8 @@ static const char *const yyRuleName[] = { /* 119 */ "fullname ::= nm DOT nm", /* 120 */ "xfullname ::= nm", /* 121 */ "xfullname ::= nm DOT nm", - /* 122 */ "xfullname ::= nm DOT nm AS nm", - /* 123 */ "xfullname ::= nm AS nm", + /* 122 */ "xfullname ::= nm AS nm", + /* 123 */ "xfullname ::= nm DOT nm AS nm", /* 124 */ "joinop ::= COMMA|JOIN", /* 125 */ "joinop ::= JOIN_KW JOIN", /* 126 */ "joinop ::= JOIN_KW nm JOIN", @@ -179708,143 +181852,146 @@ static const char *const yyRuleName[] = { /* 269 */ "when_clause ::= WHEN expr", /* 270 */ "trigger_cmd_list ::= trigger_cmd_list trigger_cmd SEMI", /* 271 */ "trigger_cmd_list ::= trigger_cmd SEMI", - /* 272 */ "trnm ::= nm DOT nm", - /* 273 */ "tridxby ::= INDEXED BY nm", - /* 274 */ "tridxby ::= NOT INDEXED", - /* 275 */ "trigger_cmd ::= UPDATE orconf trnm tridxby SET setlist from where_opt scanpt", - /* 276 */ "trigger_cmd ::= scanpt insert_cmd INTO trnm idlist_opt select upsert scanpt", - /* 277 */ "trigger_cmd ::= DELETE FROM trnm tridxby where_opt scanpt", - /* 278 */ "trigger_cmd ::= scanpt select scanpt", - /* 279 */ "expr ::= RAISE LP IGNORE RP", - /* 280 */ "expr ::= RAISE LP raisetype COMMA expr RP", - /* 281 */ "raisetype ::= ROLLBACK", - /* 282 */ "raisetype ::= ABORT", - /* 283 */ "raisetype ::= FAIL", - /* 284 */ "cmd ::= DROP TRIGGER ifexists fullname", - /* 285 */ "cmd ::= ATTACH database_kw_opt expr AS expr key_opt", - /* 286 */ "cmd ::= DETACH database_kw_opt expr", - /* 287 */ "key_opt ::=", - /* 288 */ "key_opt ::= KEY expr", - /* 289 */ "cmd ::= REINDEX", - /* 290 */ "cmd ::= REINDEX nm dbnm", - /* 291 */ "cmd ::= ANALYZE", - /* 292 */ "cmd ::= ANALYZE nm dbnm", - /* 293 */ "cmd ::= ALTER TABLE fullname RENAME TO nm", - /* 294 */ "cmd ::= ALTER TABLE add_column_fullname ADD kwcolumn_opt columnname carglist", + /* 272 */ "tridxby ::= INDEXED BY nm", + /* 273 */ "tridxby ::= NOT INDEXED", + /* 274 */ "trigger_cmd ::= UPDATE orconf xfullname tridxby SET setlist from where_opt scanpt", + /* 275 */ "trigger_cmd ::= scanpt insert_cmd INTO xfullname idlist_opt select upsert scanpt", + /* 276 */ "trigger_cmd ::= DELETE FROM xfullname tridxby where_opt scanpt", + /* 277 */ "trigger_cmd ::= scanpt select scanpt", + /* 278 */ "expr ::= RAISE LP IGNORE RP", + /* 279 */ "expr ::= RAISE LP raisetype COMMA expr RP", + /* 280 */ "raisetype ::= ROLLBACK", + /* 281 */ "raisetype ::= ABORT", + /* 282 */ "raisetype ::= FAIL", + /* 283 */ "cmd ::= DROP TRIGGER ifexists fullname", + /* 284 */ "cmd ::= ATTACH database_kw_opt expr AS expr key_opt", + /* 285 */ "cmd ::= DETACH database_kw_opt expr", + /* 286 */ "key_opt ::=", + /* 287 */ "key_opt ::= KEY expr", + /* 288 */ "cmd ::= REINDEX", + /* 289 */ "cmd ::= REINDEX nm dbnm", + /* 290 */ "cmd ::= ANALYZE", + /* 291 */ "cmd ::= ANALYZE nm dbnm", + /* 292 */ "cmd ::= ALTER TABLE fullname RENAME TO nm", + /* 293 */ "cmd ::= alter_add carglist", + /* 294 */ "alter_add ::= ALTER TABLE fullname ADD kwcolumn_opt nm typetoken", /* 295 */ "cmd ::= ALTER TABLE fullname DROP kwcolumn_opt nm", - /* 296 */ "add_column_fullname ::= fullname", - /* 297 */ "cmd ::= ALTER TABLE fullname RENAME kwcolumn_opt nm TO nm", - /* 298 */ "cmd ::= create_vtab", - /* 299 */ "cmd ::= create_vtab LP vtabarglist RP", - /* 300 */ "create_vtab ::= createkw VIRTUAL TABLE ifnotexists nm dbnm USING nm", - /* 301 */ "vtabarg ::=", - /* 302 */ "vtabargtoken ::= ANY", - /* 303 */ "vtabargtoken ::= lp anylist RP", - /* 304 */ "lp ::= LP", - /* 305 */ "with ::= WITH wqlist", - /* 306 */ "with ::= WITH RECURSIVE wqlist", - /* 307 */ "wqas ::= AS", - /* 308 */ "wqas ::= AS MATERIALIZED", - /* 309 */ "wqas ::= AS NOT MATERIALIZED", - /* 310 */ "wqitem ::= withnm eidlist_opt wqas LP select RP", - /* 311 */ "withnm ::= nm", - /* 312 */ "wqlist ::= wqitem", - /* 313 */ "wqlist ::= wqlist COMMA wqitem", - /* 314 */ "windowdefn_list ::= windowdefn_list COMMA windowdefn", - /* 315 */ "windowdefn ::= nm AS LP window RP", - /* 316 */ "window ::= PARTITION BY nexprlist orderby_opt frame_opt", - /* 317 */ "window ::= nm PARTITION BY nexprlist orderby_opt frame_opt", - /* 318 */ "window ::= ORDER BY sortlist frame_opt", - /* 319 */ "window ::= nm ORDER BY sortlist frame_opt", - /* 320 */ "window ::= nm frame_opt", - /* 321 */ "frame_opt ::=", - /* 322 */ "frame_opt ::= range_or_rows frame_bound_s frame_exclude_opt", - /* 323 */ "frame_opt ::= range_or_rows BETWEEN frame_bound_s AND frame_bound_e frame_exclude_opt", - /* 324 */ "range_or_rows ::= RANGE|ROWS|GROUPS", - /* 325 */ "frame_bound_s ::= frame_bound", - /* 326 */ "frame_bound_s ::= UNBOUNDED PRECEDING", - /* 327 */ "frame_bound_e ::= frame_bound", - /* 328 */ "frame_bound_e ::= UNBOUNDED FOLLOWING", - /* 329 */ "frame_bound ::= expr PRECEDING|FOLLOWING", - /* 330 */ "frame_bound ::= CURRENT ROW", - /* 331 */ "frame_exclude_opt ::=", - /* 332 */ "frame_exclude_opt ::= EXCLUDE frame_exclude", - /* 333 */ "frame_exclude ::= NO OTHERS", - /* 334 */ "frame_exclude ::= CURRENT ROW", - /* 335 */ "frame_exclude ::= GROUP|TIES", - /* 336 */ "window_clause ::= WINDOW windowdefn_list", - /* 337 */ "filter_over ::= filter_clause over_clause", - /* 338 */ "filter_over ::= over_clause", - /* 339 */ "filter_over ::= filter_clause", - /* 340 */ "over_clause ::= OVER LP window RP", - /* 341 */ "over_clause ::= OVER nm", - /* 342 */ "filter_clause ::= FILTER LP WHERE expr RP", - /* 343 */ "term ::= QNUMBER", - /* 344 */ "input ::= cmdlist", - /* 345 */ "cmdlist ::= cmdlist ecmd", - /* 346 */ "cmdlist ::= ecmd", - /* 347 */ "ecmd ::= SEMI", - /* 348 */ "ecmd ::= cmdx SEMI", - /* 349 */ "ecmd ::= explain cmdx SEMI", - /* 350 */ "trans_opt ::=", - /* 351 */ "trans_opt ::= TRANSACTION", - /* 352 */ "trans_opt ::= TRANSACTION nm", - /* 353 */ "savepoint_opt ::= SAVEPOINT", - /* 354 */ "savepoint_opt ::=", - /* 355 */ "cmd ::= create_table create_table_args", - /* 356 */ "table_option_set ::= table_option", - /* 357 */ "columnlist ::= columnlist COMMA columnname carglist", - /* 358 */ "columnlist ::= columnname carglist", - /* 359 */ "nm ::= ID|INDEXED|JOIN_KW", - /* 360 */ "nm ::= STRING", - /* 361 */ "typetoken ::= typename", - /* 362 */ "typename ::= ID|STRING", - /* 363 */ "signed ::= plus_num", - /* 364 */ "signed ::= minus_num", - /* 365 */ "carglist ::= carglist ccons", - /* 366 */ "carglist ::=", - /* 367 */ "ccons ::= NULL onconf", - /* 368 */ "ccons ::= GENERATED ALWAYS AS generated", - /* 369 */ "ccons ::= AS generated", - /* 370 */ "conslist_opt ::= COMMA conslist", - /* 371 */ "conslist ::= conslist tconscomma tcons", - /* 372 */ "conslist ::= tcons", - /* 373 */ "tconscomma ::=", - /* 374 */ "defer_subclause_opt ::= defer_subclause", - /* 375 */ "resolvetype ::= raisetype", - /* 376 */ "selectnowith ::= oneselect", - /* 377 */ "oneselect ::= values", - /* 378 */ "sclp ::= selcollist COMMA", - /* 379 */ "as ::= ID|STRING", - /* 380 */ "indexed_opt ::= indexed_by", - /* 381 */ "returning ::=", - /* 382 */ "expr ::= term", - /* 383 */ "likeop ::= LIKE_KW|MATCH", - /* 384 */ "case_operand ::= expr", - /* 385 */ "exprlist ::= nexprlist", - /* 386 */ "nmnum ::= plus_num", - /* 387 */ "nmnum ::= nm", - /* 388 */ "nmnum ::= ON", - /* 389 */ "nmnum ::= DELETE", - /* 390 */ "nmnum ::= DEFAULT", - /* 391 */ "plus_num ::= INTEGER|FLOAT", - /* 392 */ "foreach_clause ::=", - /* 393 */ "foreach_clause ::= FOR EACH ROW", - /* 394 */ "trnm ::= nm", - /* 395 */ "tridxby ::=", - /* 396 */ "database_kw_opt ::= DATABASE", - /* 397 */ "database_kw_opt ::=", - /* 398 */ "kwcolumn_opt ::=", - /* 399 */ "kwcolumn_opt ::= COLUMNKW", - /* 400 */ "vtabarglist ::= vtabarg", - /* 401 */ "vtabarglist ::= vtabarglist COMMA vtabarg", - /* 402 */ "vtabarg ::= vtabarg vtabargtoken", - /* 403 */ "anylist ::=", - /* 404 */ "anylist ::= anylist LP anylist RP", - /* 405 */ "anylist ::= anylist ANY", - /* 406 */ "with ::=", - /* 407 */ "windowdefn_list ::= windowdefn", - /* 408 */ "window ::= frame_opt", + /* 296 */ "cmd ::= ALTER TABLE fullname RENAME kwcolumn_opt nm TO nm", + /* 297 */ "cmd ::= ALTER TABLE fullname DROP CONSTRAINT nm", + /* 298 */ "cmd ::= ALTER TABLE fullname ALTER kwcolumn_opt nm DROP NOT NULL", + /* 299 */ "cmd ::= ALTER TABLE fullname ALTER kwcolumn_opt nm SET NOT NULL onconf", + /* 300 */ "cmd ::= ALTER TABLE fullname ADD CONSTRAINT nm CHECK LP expr RP onconf", + /* 301 */ "cmd ::= ALTER TABLE fullname ADD CHECK LP expr RP onconf", + /* 302 */ "cmd ::= create_vtab", + /* 303 */ "cmd ::= create_vtab LP vtabarglist RP", + /* 304 */ "create_vtab ::= createkw VIRTUAL TABLE ifnotexists nm dbnm USING nm", + /* 305 */ "vtabarg ::=", + /* 306 */ "vtabargtoken ::= ANY", + /* 307 */ "vtabargtoken ::= lp anylist RP", + /* 308 */ "lp ::= LP", + /* 309 */ "with ::= WITH wqlist", + /* 310 */ "with ::= WITH RECURSIVE wqlist", + /* 311 */ "wqas ::= AS", + /* 312 */ "wqas ::= AS MATERIALIZED", + /* 313 */ "wqas ::= AS NOT MATERIALIZED", + /* 314 */ "wqitem ::= withnm eidlist_opt wqas LP select RP", + /* 315 */ "withnm ::= nm", + /* 316 */ "wqlist ::= wqitem", + /* 317 */ "wqlist ::= wqlist COMMA wqitem", + /* 318 */ "windowdefn_list ::= windowdefn_list COMMA windowdefn", + /* 319 */ "windowdefn ::= nm AS LP window RP", + /* 320 */ "window ::= PARTITION BY nexprlist orderby_opt frame_opt", + /* 321 */ "window ::= nm PARTITION BY nexprlist orderby_opt frame_opt", + /* 322 */ "window ::= ORDER BY sortlist frame_opt", + /* 323 */ "window ::= nm ORDER BY sortlist frame_opt", + /* 324 */ "window ::= nm frame_opt", + /* 325 */ "frame_opt ::=", + /* 326 */ "frame_opt ::= range_or_rows frame_bound_s frame_exclude_opt", + /* 327 */ "frame_opt ::= range_or_rows BETWEEN frame_bound_s AND frame_bound_e frame_exclude_opt", + /* 328 */ "range_or_rows ::= RANGE|ROWS|GROUPS", + /* 329 */ "frame_bound_s ::= frame_bound", + /* 330 */ "frame_bound_s ::= UNBOUNDED PRECEDING", + /* 331 */ "frame_bound_e ::= frame_bound", + /* 332 */ "frame_bound_e ::= UNBOUNDED FOLLOWING", + /* 333 */ "frame_bound ::= expr PRECEDING|FOLLOWING", + /* 334 */ "frame_bound ::= CURRENT ROW", + /* 335 */ "frame_exclude_opt ::=", + /* 336 */ "frame_exclude_opt ::= EXCLUDE frame_exclude", + /* 337 */ "frame_exclude ::= NO OTHERS", + /* 338 */ "frame_exclude ::= CURRENT ROW", + /* 339 */ "frame_exclude ::= GROUP|TIES", + /* 340 */ "window_clause ::= WINDOW windowdefn_list", + /* 341 */ "filter_over ::= filter_clause over_clause", + /* 342 */ "filter_over ::= over_clause", + /* 343 */ "filter_over ::= filter_clause", + /* 344 */ "over_clause ::= OVER LP window RP", + /* 345 */ "over_clause ::= OVER nm", + /* 346 */ "filter_clause ::= FILTER LP WHERE expr RP", + /* 347 */ "term ::= QNUMBER", + /* 348 */ "input ::= cmdlist", + /* 349 */ "cmdlist ::= cmdlist ecmd", + /* 350 */ "cmdlist ::= ecmd", + /* 351 */ "ecmd ::= SEMI", + /* 352 */ "ecmd ::= cmdx SEMI", + /* 353 */ "ecmd ::= explain cmdx SEMI", + /* 354 */ "trans_opt ::=", + /* 355 */ "trans_opt ::= TRANSACTION", + /* 356 */ "trans_opt ::= TRANSACTION nm", + /* 357 */ "savepoint_opt ::= SAVEPOINT", + /* 358 */ "savepoint_opt ::=", + /* 359 */ "cmd ::= create_table create_table_args", + /* 360 */ "table_option_set ::= table_option", + /* 361 */ "columnlist ::= columnlist COMMA columnname carglist", + /* 362 */ "columnlist ::= columnname carglist", + /* 363 */ "nm ::= ID|INDEXED|JOIN_KW", + /* 364 */ "nm ::= STRING", + /* 365 */ "typetoken ::= typename", + /* 366 */ "typename ::= ID|STRING", + /* 367 */ "signed ::= plus_num", + /* 368 */ "signed ::= minus_num", + /* 369 */ "carglist ::= carglist ccons", + /* 370 */ "carglist ::=", + /* 371 */ "ccons ::= NULL onconf", + /* 372 */ "ccons ::= GENERATED ALWAYS AS generated", + /* 373 */ "ccons ::= AS generated", + /* 374 */ "conslist_opt ::= COMMA conslist", + /* 375 */ "conslist ::= conslist tconscomma tcons", + /* 376 */ "conslist ::= tcons", + /* 377 */ "tconscomma ::=", + /* 378 */ "defer_subclause_opt ::= defer_subclause", + /* 379 */ "resolvetype ::= raisetype", + /* 380 */ "selectnowith ::= oneselect", + /* 381 */ "oneselect ::= values", + /* 382 */ "sclp ::= selcollist COMMA", + /* 383 */ "as ::= ID|STRING", + /* 384 */ "indexed_opt ::= indexed_by", + /* 385 */ "returning ::=", + /* 386 */ "expr ::= term", + /* 387 */ "likeop ::= LIKE_KW|MATCH", + /* 388 */ "case_operand ::= expr", + /* 389 */ "exprlist ::= nexprlist", + /* 390 */ "nmnum ::= plus_num", + /* 391 */ "nmnum ::= nm", + /* 392 */ "nmnum ::= ON", + /* 393 */ "nmnum ::= DELETE", + /* 394 */ "nmnum ::= DEFAULT", + /* 395 */ "plus_num ::= INTEGER|FLOAT", + /* 396 */ "foreach_clause ::=", + /* 397 */ "foreach_clause ::= FOR EACH ROW", + /* 398 */ "tridxby ::=", + /* 399 */ "database_kw_opt ::= DATABASE", + /* 400 */ "database_kw_opt ::=", + /* 401 */ "kwcolumn_opt ::=", + /* 402 */ "kwcolumn_opt ::= COLUMNKW", + /* 403 */ "vtabarglist ::= vtabarg", + /* 404 */ "vtabarglist ::= vtabarglist COMMA vtabarg", + /* 405 */ "vtabarg ::= vtabarg vtabargtoken", + /* 406 */ "anylist ::=", + /* 407 */ "anylist ::= anylist LP anylist RP", + /* 408 */ "anylist ::= anylist ANY", + /* 409 */ "with ::=", + /* 410 */ "windowdefn_list ::= windowdefn", + /* 411 */ "window ::= frame_opt", }; #endif /* NDEBUG */ @@ -179859,15 +182006,24 @@ static int yyGrowStack(yyParser *p){ int newSize; int idx; yyStackEntry *pNew; +#ifdef YYSIZELIMIT + int nLimit = YYSIZELIMIT(sqlite3ParserCTX(p)); +#endif newSize = oldSize*2 + 100; +#ifdef YYSIZELIMIT + if( newSize>nLimit ){ + newSize = nLimit; + if( newSize<=oldSize ) return 1; + } +#endif idx = (int)(p->yytos - p->yystack); if( p->yystack==p->yystk0 ){ - pNew = YYREALLOC(0, newSize*sizeof(pNew[0])); + pNew = YYREALLOC(0, newSize*sizeof(pNew[0]), sqlite3ParserCTX(p)); if( pNew==0 ) return 1; memcpy(pNew, p->yystack, oldSize*sizeof(pNew[0])); }else{ - pNew = YYREALLOC(p->yystack, newSize*sizeof(pNew[0])); + pNew = YYREALLOC(p->yystack, newSize*sizeof(pNew[0]), sqlite3ParserCTX(p)); if( pNew==0 ) return 1; } p->yystack = pNew; @@ -179974,7 +182130,7 @@ static void yy_destructor( case 254: /* values */ case 256: /* mvalues */ { -sqlite3SelectDelete(pParse->db, (yypminor->yy637)); +sqlite3SelectDelete(pParse->db, (yypminor->yy555)); } break; case 218: /* term */ @@ -179986,10 +182142,10 @@ sqlite3SelectDelete(pParse->db, (yypminor->yy637)); case 283: /* case_else */ case 286: /* vinto */ case 293: /* when_clause */ - case 298: /* key_opt */ - case 315: /* filter_clause */ + case 297: /* key_opt */ + case 314: /* filter_clause */ { -sqlite3ExprDelete(pParse->db, (yypminor->yy590)); +sqlite3ExprDelete(pParse->db, (yypminor->yy454)); } break; case 223: /* eidlist_opt */ @@ -180004,9 +182160,9 @@ sqlite3ExprDelete(pParse->db, (yypminor->yy590)); case 271: /* setlist */ case 280: /* paren_exprlist */ case 282: /* case_exprlist */ - case 314: /* part_opt */ + case 313: /* part_opt */ { -sqlite3ExprListDelete(pParse->db, (yypminor->yy402)); +sqlite3ExprListDelete(pParse->db, (yypminor->yy14)); } break; case 240: /* fullname */ @@ -180015,51 +182171,51 @@ sqlite3ExprListDelete(pParse->db, (yypminor->yy402)); case 260: /* stl_prefix */ case 265: /* xfullname */ { -sqlite3SrcListDelete(pParse->db, (yypminor->yy563)); +sqlite3SrcListDelete(pParse->db, (yypminor->yy203)); } break; case 243: /* wqlist */ { -sqlite3WithDelete(pParse->db, (yypminor->yy125)); +sqlite3WithDelete(pParse->db, (yypminor->yy59)); } break; case 253: /* window_clause */ - case 310: /* windowdefn_list */ + case 309: /* windowdefn_list */ { -sqlite3WindowListDelete(pParse->db, (yypminor->yy483)); +sqlite3WindowListDelete(pParse->db, (yypminor->yy211)); } break; case 266: /* idlist */ case 273: /* idlist_opt */ { -sqlite3IdListDelete(pParse->db, (yypminor->yy204)); +sqlite3IdListDelete(pParse->db, (yypminor->yy132)); } break; case 276: /* filter_over */ - case 311: /* windowdefn */ - case 312: /* window */ - case 313: /* frame_opt */ - case 316: /* over_clause */ + case 310: /* windowdefn */ + case 311: /* window */ + case 312: /* frame_opt */ + case 315: /* over_clause */ { -sqlite3WindowDelete(pParse->db, (yypminor->yy483)); +sqlite3WindowDelete(pParse->db, (yypminor->yy211)); } break; case 289: /* trigger_cmd_list */ case 294: /* trigger_cmd */ { -sqlite3DeleteTriggerStep(pParse->db, (yypminor->yy319)); +sqlite3DeleteTriggerStep(pParse->db, (yypminor->yy427)); } break; case 291: /* trigger_event */ { -sqlite3IdListDelete(pParse->db, (yypminor->yy28).b); +sqlite3IdListDelete(pParse->db, (yypminor->yy286).b); } break; - case 318: /* frame_bound */ - case 319: /* frame_bound_s */ - case 320: /* frame_bound_e */ + case 317: /* frame_bound */ + case 318: /* frame_bound_s */ + case 319: /* frame_bound_e */ { -sqlite3ExprDelete(pParse->db, (yypminor->yy205).pExpr); +sqlite3ExprDelete(pParse->db, (yypminor->yy509).pExpr); } break; /********* End destructor definitions *****************************************/ @@ -180112,7 +182268,9 @@ SQLITE_PRIVATE void sqlite3ParserFinalize(void *p){ } #if YYGROWABLESTACK - if( pParser->yystack!=pParser->yystk0 ) YYFREE(pParser->yystack); + if( pParser->yystack!=pParser->yystk0 ){ + YYFREE(pParser->yystack, sqlite3ParserCTX(pParser)); + } #endif } @@ -180295,7 +182453,7 @@ static void yyStackOverflow(yyParser *yypParser){ ** stack every overflows */ /******** Begin %stack_overflow code ******************************************/ - sqlite3OomFault(pParse->db); + if( pParse->nErr==0 ) sqlite3ErrorMsg(pParse, "Recursion limit"); /******** End %stack_overflow code ********************************************/ sqlite3ParserARG_STORE /* Suppress warning about unused %extra_argument var */ sqlite3ParserCTX_STORE @@ -180483,8 +182641,8 @@ static const YYCODETYPE yyRuleInfoLhs[] = { 240, /* (119) fullname ::= nm DOT nm */ 265, /* (120) xfullname ::= nm */ 265, /* (121) xfullname ::= nm DOT nm */ - 265, /* (122) xfullname ::= nm DOT nm AS nm */ - 265, /* (123) xfullname ::= nm AS nm */ + 265, /* (122) xfullname ::= nm AS nm */ + 265, /* (123) xfullname ::= nm DOT nm AS nm */ 261, /* (124) joinop ::= COMMA|JOIN */ 261, /* (125) joinop ::= JOIN_KW JOIN */ 261, /* (126) joinop ::= JOIN_KW nm JOIN */ @@ -180633,143 +182791,146 @@ static const YYCODETYPE yyRuleInfoLhs[] = { 293, /* (269) when_clause ::= WHEN expr */ 289, /* (270) trigger_cmd_list ::= trigger_cmd_list trigger_cmd SEMI */ 289, /* (271) trigger_cmd_list ::= trigger_cmd SEMI */ - 295, /* (272) trnm ::= nm DOT nm */ - 296, /* (273) tridxby ::= INDEXED BY nm */ - 296, /* (274) tridxby ::= NOT INDEXED */ - 294, /* (275) trigger_cmd ::= UPDATE orconf trnm tridxby SET setlist from where_opt scanpt */ - 294, /* (276) trigger_cmd ::= scanpt insert_cmd INTO trnm idlist_opt select upsert scanpt */ - 294, /* (277) trigger_cmd ::= DELETE FROM trnm tridxby where_opt scanpt */ - 294, /* (278) trigger_cmd ::= scanpt select scanpt */ - 219, /* (279) expr ::= RAISE LP IGNORE RP */ - 219, /* (280) expr ::= RAISE LP raisetype COMMA expr RP */ - 238, /* (281) raisetype ::= ROLLBACK */ - 238, /* (282) raisetype ::= ABORT */ - 238, /* (283) raisetype ::= FAIL */ - 192, /* (284) cmd ::= DROP TRIGGER ifexists fullname */ - 192, /* (285) cmd ::= ATTACH database_kw_opt expr AS expr key_opt */ - 192, /* (286) cmd ::= DETACH database_kw_opt expr */ - 298, /* (287) key_opt ::= */ - 298, /* (288) key_opt ::= KEY expr */ - 192, /* (289) cmd ::= REINDEX */ - 192, /* (290) cmd ::= REINDEX nm dbnm */ - 192, /* (291) cmd ::= ANALYZE */ - 192, /* (292) cmd ::= ANALYZE nm dbnm */ - 192, /* (293) cmd ::= ALTER TABLE fullname RENAME TO nm */ - 192, /* (294) cmd ::= ALTER TABLE add_column_fullname ADD kwcolumn_opt columnname carglist */ + 295, /* (272) tridxby ::= INDEXED BY nm */ + 295, /* (273) tridxby ::= NOT INDEXED */ + 294, /* (274) trigger_cmd ::= UPDATE orconf xfullname tridxby SET setlist from where_opt scanpt */ + 294, /* (275) trigger_cmd ::= scanpt insert_cmd INTO xfullname idlist_opt select upsert scanpt */ + 294, /* (276) trigger_cmd ::= DELETE FROM xfullname tridxby where_opt scanpt */ + 294, /* (277) trigger_cmd ::= scanpt select scanpt */ + 219, /* (278) expr ::= RAISE LP IGNORE RP */ + 219, /* (279) expr ::= RAISE LP raisetype COMMA expr RP */ + 238, /* (280) raisetype ::= ROLLBACK */ + 238, /* (281) raisetype ::= ABORT */ + 238, /* (282) raisetype ::= FAIL */ + 192, /* (283) cmd ::= DROP TRIGGER ifexists fullname */ + 192, /* (284) cmd ::= ATTACH database_kw_opt expr AS expr key_opt */ + 192, /* (285) cmd ::= DETACH database_kw_opt expr */ + 297, /* (286) key_opt ::= */ + 297, /* (287) key_opt ::= KEY expr */ + 192, /* (288) cmd ::= REINDEX */ + 192, /* (289) cmd ::= REINDEX nm dbnm */ + 192, /* (290) cmd ::= ANALYZE */ + 192, /* (291) cmd ::= ANALYZE nm dbnm */ + 192, /* (292) cmd ::= ALTER TABLE fullname RENAME TO nm */ + 192, /* (293) cmd ::= alter_add carglist */ + 298, /* (294) alter_add ::= ALTER TABLE fullname ADD kwcolumn_opt nm typetoken */ 192, /* (295) cmd ::= ALTER TABLE fullname DROP kwcolumn_opt nm */ - 299, /* (296) add_column_fullname ::= fullname */ - 192, /* (297) cmd ::= ALTER TABLE fullname RENAME kwcolumn_opt nm TO nm */ - 192, /* (298) cmd ::= create_vtab */ - 192, /* (299) cmd ::= create_vtab LP vtabarglist RP */ - 301, /* (300) create_vtab ::= createkw VIRTUAL TABLE ifnotexists nm dbnm USING nm */ - 303, /* (301) vtabarg ::= */ - 304, /* (302) vtabargtoken ::= ANY */ - 304, /* (303) vtabargtoken ::= lp anylist RP */ - 305, /* (304) lp ::= LP */ - 269, /* (305) with ::= WITH wqlist */ - 269, /* (306) with ::= WITH RECURSIVE wqlist */ - 308, /* (307) wqas ::= AS */ - 308, /* (308) wqas ::= AS MATERIALIZED */ - 308, /* (309) wqas ::= AS NOT MATERIALIZED */ - 307, /* (310) wqitem ::= withnm eidlist_opt wqas LP select RP */ - 309, /* (311) withnm ::= nm */ - 243, /* (312) wqlist ::= wqitem */ - 243, /* (313) wqlist ::= wqlist COMMA wqitem */ - 310, /* (314) windowdefn_list ::= windowdefn_list COMMA windowdefn */ - 311, /* (315) windowdefn ::= nm AS LP window RP */ - 312, /* (316) window ::= PARTITION BY nexprlist orderby_opt frame_opt */ - 312, /* (317) window ::= nm PARTITION BY nexprlist orderby_opt frame_opt */ - 312, /* (318) window ::= ORDER BY sortlist frame_opt */ - 312, /* (319) window ::= nm ORDER BY sortlist frame_opt */ - 312, /* (320) window ::= nm frame_opt */ - 313, /* (321) frame_opt ::= */ - 313, /* (322) frame_opt ::= range_or_rows frame_bound_s frame_exclude_opt */ - 313, /* (323) frame_opt ::= range_or_rows BETWEEN frame_bound_s AND frame_bound_e frame_exclude_opt */ - 317, /* (324) range_or_rows ::= RANGE|ROWS|GROUPS */ - 319, /* (325) frame_bound_s ::= frame_bound */ - 319, /* (326) frame_bound_s ::= UNBOUNDED PRECEDING */ - 320, /* (327) frame_bound_e ::= frame_bound */ - 320, /* (328) frame_bound_e ::= UNBOUNDED FOLLOWING */ - 318, /* (329) frame_bound ::= expr PRECEDING|FOLLOWING */ - 318, /* (330) frame_bound ::= CURRENT ROW */ - 321, /* (331) frame_exclude_opt ::= */ - 321, /* (332) frame_exclude_opt ::= EXCLUDE frame_exclude */ - 322, /* (333) frame_exclude ::= NO OTHERS */ - 322, /* (334) frame_exclude ::= CURRENT ROW */ - 322, /* (335) frame_exclude ::= GROUP|TIES */ - 253, /* (336) window_clause ::= WINDOW windowdefn_list */ - 276, /* (337) filter_over ::= filter_clause over_clause */ - 276, /* (338) filter_over ::= over_clause */ - 276, /* (339) filter_over ::= filter_clause */ - 316, /* (340) over_clause ::= OVER LP window RP */ - 316, /* (341) over_clause ::= OVER nm */ - 315, /* (342) filter_clause ::= FILTER LP WHERE expr RP */ - 218, /* (343) term ::= QNUMBER */ - 187, /* (344) input ::= cmdlist */ - 188, /* (345) cmdlist ::= cmdlist ecmd */ - 188, /* (346) cmdlist ::= ecmd */ - 189, /* (347) ecmd ::= SEMI */ - 189, /* (348) ecmd ::= cmdx SEMI */ - 189, /* (349) ecmd ::= explain cmdx SEMI */ - 194, /* (350) trans_opt ::= */ - 194, /* (351) trans_opt ::= TRANSACTION */ - 194, /* (352) trans_opt ::= TRANSACTION nm */ - 196, /* (353) savepoint_opt ::= SAVEPOINT */ - 196, /* (354) savepoint_opt ::= */ - 192, /* (355) cmd ::= create_table create_table_args */ - 205, /* (356) table_option_set ::= table_option */ - 203, /* (357) columnlist ::= columnlist COMMA columnname carglist */ - 203, /* (358) columnlist ::= columnname carglist */ - 195, /* (359) nm ::= ID|INDEXED|JOIN_KW */ - 195, /* (360) nm ::= STRING */ - 210, /* (361) typetoken ::= typename */ - 211, /* (362) typename ::= ID|STRING */ - 212, /* (363) signed ::= plus_num */ - 212, /* (364) signed ::= minus_num */ - 209, /* (365) carglist ::= carglist ccons */ - 209, /* (366) carglist ::= */ - 217, /* (367) ccons ::= NULL onconf */ - 217, /* (368) ccons ::= GENERATED ALWAYS AS generated */ - 217, /* (369) ccons ::= AS generated */ - 204, /* (370) conslist_opt ::= COMMA conslist */ - 230, /* (371) conslist ::= conslist tconscomma tcons */ - 230, /* (372) conslist ::= tcons */ - 231, /* (373) tconscomma ::= */ - 235, /* (374) defer_subclause_opt ::= defer_subclause */ - 237, /* (375) resolvetype ::= raisetype */ - 241, /* (376) selectnowith ::= oneselect */ - 242, /* (377) oneselect ::= values */ - 257, /* (378) sclp ::= selcollist COMMA */ - 258, /* (379) as ::= ID|STRING */ - 267, /* (380) indexed_opt ::= indexed_by */ - 275, /* (381) returning ::= */ - 219, /* (382) expr ::= term */ - 277, /* (383) likeop ::= LIKE_KW|MATCH */ - 281, /* (384) case_operand ::= expr */ - 264, /* (385) exprlist ::= nexprlist */ - 287, /* (386) nmnum ::= plus_num */ - 287, /* (387) nmnum ::= nm */ - 287, /* (388) nmnum ::= ON */ - 287, /* (389) nmnum ::= DELETE */ - 287, /* (390) nmnum ::= DEFAULT */ - 213, /* (391) plus_num ::= INTEGER|FLOAT */ - 292, /* (392) foreach_clause ::= */ - 292, /* (393) foreach_clause ::= FOR EACH ROW */ - 295, /* (394) trnm ::= nm */ - 296, /* (395) tridxby ::= */ - 297, /* (396) database_kw_opt ::= DATABASE */ - 297, /* (397) database_kw_opt ::= */ - 300, /* (398) kwcolumn_opt ::= */ - 300, /* (399) kwcolumn_opt ::= COLUMNKW */ - 302, /* (400) vtabarglist ::= vtabarg */ - 302, /* (401) vtabarglist ::= vtabarglist COMMA vtabarg */ - 303, /* (402) vtabarg ::= vtabarg vtabargtoken */ - 306, /* (403) anylist ::= */ - 306, /* (404) anylist ::= anylist LP anylist RP */ - 306, /* (405) anylist ::= anylist ANY */ - 269, /* (406) with ::= */ - 310, /* (407) windowdefn_list ::= windowdefn */ - 312, /* (408) window ::= frame_opt */ + 192, /* (296) cmd ::= ALTER TABLE fullname RENAME kwcolumn_opt nm TO nm */ + 192, /* (297) cmd ::= ALTER TABLE fullname DROP CONSTRAINT nm */ + 192, /* (298) cmd ::= ALTER TABLE fullname ALTER kwcolumn_opt nm DROP NOT NULL */ + 192, /* (299) cmd ::= ALTER TABLE fullname ALTER kwcolumn_opt nm SET NOT NULL onconf */ + 192, /* (300) cmd ::= ALTER TABLE fullname ADD CONSTRAINT nm CHECK LP expr RP onconf */ + 192, /* (301) cmd ::= ALTER TABLE fullname ADD CHECK LP expr RP onconf */ + 192, /* (302) cmd ::= create_vtab */ + 192, /* (303) cmd ::= create_vtab LP vtabarglist RP */ + 300, /* (304) create_vtab ::= createkw VIRTUAL TABLE ifnotexists nm dbnm USING nm */ + 302, /* (305) vtabarg ::= */ + 303, /* (306) vtabargtoken ::= ANY */ + 303, /* (307) vtabargtoken ::= lp anylist RP */ + 304, /* (308) lp ::= LP */ + 269, /* (309) with ::= WITH wqlist */ + 269, /* (310) with ::= WITH RECURSIVE wqlist */ + 307, /* (311) wqas ::= AS */ + 307, /* (312) wqas ::= AS MATERIALIZED */ + 307, /* (313) wqas ::= AS NOT MATERIALIZED */ + 306, /* (314) wqitem ::= withnm eidlist_opt wqas LP select RP */ + 308, /* (315) withnm ::= nm */ + 243, /* (316) wqlist ::= wqitem */ + 243, /* (317) wqlist ::= wqlist COMMA wqitem */ + 309, /* (318) windowdefn_list ::= windowdefn_list COMMA windowdefn */ + 310, /* (319) windowdefn ::= nm AS LP window RP */ + 311, /* (320) window ::= PARTITION BY nexprlist orderby_opt frame_opt */ + 311, /* (321) window ::= nm PARTITION BY nexprlist orderby_opt frame_opt */ + 311, /* (322) window ::= ORDER BY sortlist frame_opt */ + 311, /* (323) window ::= nm ORDER BY sortlist frame_opt */ + 311, /* (324) window ::= nm frame_opt */ + 312, /* (325) frame_opt ::= */ + 312, /* (326) frame_opt ::= range_or_rows frame_bound_s frame_exclude_opt */ + 312, /* (327) frame_opt ::= range_or_rows BETWEEN frame_bound_s AND frame_bound_e frame_exclude_opt */ + 316, /* (328) range_or_rows ::= RANGE|ROWS|GROUPS */ + 318, /* (329) frame_bound_s ::= frame_bound */ + 318, /* (330) frame_bound_s ::= UNBOUNDED PRECEDING */ + 319, /* (331) frame_bound_e ::= frame_bound */ + 319, /* (332) frame_bound_e ::= UNBOUNDED FOLLOWING */ + 317, /* (333) frame_bound ::= expr PRECEDING|FOLLOWING */ + 317, /* (334) frame_bound ::= CURRENT ROW */ + 320, /* (335) frame_exclude_opt ::= */ + 320, /* (336) frame_exclude_opt ::= EXCLUDE frame_exclude */ + 321, /* (337) frame_exclude ::= NO OTHERS */ + 321, /* (338) frame_exclude ::= CURRENT ROW */ + 321, /* (339) frame_exclude ::= GROUP|TIES */ + 253, /* (340) window_clause ::= WINDOW windowdefn_list */ + 276, /* (341) filter_over ::= filter_clause over_clause */ + 276, /* (342) filter_over ::= over_clause */ + 276, /* (343) filter_over ::= filter_clause */ + 315, /* (344) over_clause ::= OVER LP window RP */ + 315, /* (345) over_clause ::= OVER nm */ + 314, /* (346) filter_clause ::= FILTER LP WHERE expr RP */ + 218, /* (347) term ::= QNUMBER */ + 187, /* (348) input ::= cmdlist */ + 188, /* (349) cmdlist ::= cmdlist ecmd */ + 188, /* (350) cmdlist ::= ecmd */ + 189, /* (351) ecmd ::= SEMI */ + 189, /* (352) ecmd ::= cmdx SEMI */ + 189, /* (353) ecmd ::= explain cmdx SEMI */ + 194, /* (354) trans_opt ::= */ + 194, /* (355) trans_opt ::= TRANSACTION */ + 194, /* (356) trans_opt ::= TRANSACTION nm */ + 196, /* (357) savepoint_opt ::= SAVEPOINT */ + 196, /* (358) savepoint_opt ::= */ + 192, /* (359) cmd ::= create_table create_table_args */ + 205, /* (360) table_option_set ::= table_option */ + 203, /* (361) columnlist ::= columnlist COMMA columnname carglist */ + 203, /* (362) columnlist ::= columnname carglist */ + 195, /* (363) nm ::= ID|INDEXED|JOIN_KW */ + 195, /* (364) nm ::= STRING */ + 210, /* (365) typetoken ::= typename */ + 211, /* (366) typename ::= ID|STRING */ + 212, /* (367) signed ::= plus_num */ + 212, /* (368) signed ::= minus_num */ + 209, /* (369) carglist ::= carglist ccons */ + 209, /* (370) carglist ::= */ + 217, /* (371) ccons ::= NULL onconf */ + 217, /* (372) ccons ::= GENERATED ALWAYS AS generated */ + 217, /* (373) ccons ::= AS generated */ + 204, /* (374) conslist_opt ::= COMMA conslist */ + 230, /* (375) conslist ::= conslist tconscomma tcons */ + 230, /* (376) conslist ::= tcons */ + 231, /* (377) tconscomma ::= */ + 235, /* (378) defer_subclause_opt ::= defer_subclause */ + 237, /* (379) resolvetype ::= raisetype */ + 241, /* (380) selectnowith ::= oneselect */ + 242, /* (381) oneselect ::= values */ + 257, /* (382) sclp ::= selcollist COMMA */ + 258, /* (383) as ::= ID|STRING */ + 267, /* (384) indexed_opt ::= indexed_by */ + 275, /* (385) returning ::= */ + 219, /* (386) expr ::= term */ + 277, /* (387) likeop ::= LIKE_KW|MATCH */ + 281, /* (388) case_operand ::= expr */ + 264, /* (389) exprlist ::= nexprlist */ + 287, /* (390) nmnum ::= plus_num */ + 287, /* (391) nmnum ::= nm */ + 287, /* (392) nmnum ::= ON */ + 287, /* (393) nmnum ::= DELETE */ + 287, /* (394) nmnum ::= DEFAULT */ + 213, /* (395) plus_num ::= INTEGER|FLOAT */ + 292, /* (396) foreach_clause ::= */ + 292, /* (397) foreach_clause ::= FOR EACH ROW */ + 295, /* (398) tridxby ::= */ + 296, /* (399) database_kw_opt ::= DATABASE */ + 296, /* (400) database_kw_opt ::= */ + 299, /* (401) kwcolumn_opt ::= */ + 299, /* (402) kwcolumn_opt ::= COLUMNKW */ + 301, /* (403) vtabarglist ::= vtabarg */ + 301, /* (404) vtabarglist ::= vtabarglist COMMA vtabarg */ + 302, /* (405) vtabarg ::= vtabarg vtabargtoken */ + 305, /* (406) anylist ::= */ + 305, /* (407) anylist ::= anylist LP anylist RP */ + 305, /* (408) anylist ::= anylist ANY */ + 269, /* (409) with ::= */ + 309, /* (410) windowdefn_list ::= windowdefn */ + 311, /* (411) window ::= frame_opt */ }; /* For rule J, yyRuleInfoNRhs[J] contains the negative of the number @@ -180897,8 +183058,8 @@ static const signed char yyRuleInfoNRhs[] = { -3, /* (119) fullname ::= nm DOT nm */ -1, /* (120) xfullname ::= nm */ -3, /* (121) xfullname ::= nm DOT nm */ - -5, /* (122) xfullname ::= nm DOT nm AS nm */ - -3, /* (123) xfullname ::= nm AS nm */ + -3, /* (122) xfullname ::= nm AS nm */ + -5, /* (123) xfullname ::= nm DOT nm AS nm */ -1, /* (124) joinop ::= COMMA|JOIN */ -2, /* (125) joinop ::= JOIN_KW JOIN */ -3, /* (126) joinop ::= JOIN_KW nm JOIN */ @@ -181047,143 +183208,146 @@ static const signed char yyRuleInfoNRhs[] = { -2, /* (269) when_clause ::= WHEN expr */ -3, /* (270) trigger_cmd_list ::= trigger_cmd_list trigger_cmd SEMI */ -2, /* (271) trigger_cmd_list ::= trigger_cmd SEMI */ - -3, /* (272) trnm ::= nm DOT nm */ - -3, /* (273) tridxby ::= INDEXED BY nm */ - -2, /* (274) tridxby ::= NOT INDEXED */ - -9, /* (275) trigger_cmd ::= UPDATE orconf trnm tridxby SET setlist from where_opt scanpt */ - -8, /* (276) trigger_cmd ::= scanpt insert_cmd INTO trnm idlist_opt select upsert scanpt */ - -6, /* (277) trigger_cmd ::= DELETE FROM trnm tridxby where_opt scanpt */ - -3, /* (278) trigger_cmd ::= scanpt select scanpt */ - -4, /* (279) expr ::= RAISE LP IGNORE RP */ - -6, /* (280) expr ::= RAISE LP raisetype COMMA expr RP */ - -1, /* (281) raisetype ::= ROLLBACK */ - -1, /* (282) raisetype ::= ABORT */ - -1, /* (283) raisetype ::= FAIL */ - -4, /* (284) cmd ::= DROP TRIGGER ifexists fullname */ - -6, /* (285) cmd ::= ATTACH database_kw_opt expr AS expr key_opt */ - -3, /* (286) cmd ::= DETACH database_kw_opt expr */ - 0, /* (287) key_opt ::= */ - -2, /* (288) key_opt ::= KEY expr */ - -1, /* (289) cmd ::= REINDEX */ - -3, /* (290) cmd ::= REINDEX nm dbnm */ - -1, /* (291) cmd ::= ANALYZE */ - -3, /* (292) cmd ::= ANALYZE nm dbnm */ - -6, /* (293) cmd ::= ALTER TABLE fullname RENAME TO nm */ - -7, /* (294) cmd ::= ALTER TABLE add_column_fullname ADD kwcolumn_opt columnname carglist */ + -3, /* (272) tridxby ::= INDEXED BY nm */ + -2, /* (273) tridxby ::= NOT INDEXED */ + -9, /* (274) trigger_cmd ::= UPDATE orconf xfullname tridxby SET setlist from where_opt scanpt */ + -8, /* (275) trigger_cmd ::= scanpt insert_cmd INTO xfullname idlist_opt select upsert scanpt */ + -6, /* (276) trigger_cmd ::= DELETE FROM xfullname tridxby where_opt scanpt */ + -3, /* (277) trigger_cmd ::= scanpt select scanpt */ + -4, /* (278) expr ::= RAISE LP IGNORE RP */ + -6, /* (279) expr ::= RAISE LP raisetype COMMA expr RP */ + -1, /* (280) raisetype ::= ROLLBACK */ + -1, /* (281) raisetype ::= ABORT */ + -1, /* (282) raisetype ::= FAIL */ + -4, /* (283) cmd ::= DROP TRIGGER ifexists fullname */ + -6, /* (284) cmd ::= ATTACH database_kw_opt expr AS expr key_opt */ + -3, /* (285) cmd ::= DETACH database_kw_opt expr */ + 0, /* (286) key_opt ::= */ + -2, /* (287) key_opt ::= KEY expr */ + -1, /* (288) cmd ::= REINDEX */ + -3, /* (289) cmd ::= REINDEX nm dbnm */ + -1, /* (290) cmd ::= ANALYZE */ + -3, /* (291) cmd ::= ANALYZE nm dbnm */ + -6, /* (292) cmd ::= ALTER TABLE fullname RENAME TO nm */ + -2, /* (293) cmd ::= alter_add carglist */ + -7, /* (294) alter_add ::= ALTER TABLE fullname ADD kwcolumn_opt nm typetoken */ -6, /* (295) cmd ::= ALTER TABLE fullname DROP kwcolumn_opt nm */ - -1, /* (296) add_column_fullname ::= fullname */ - -8, /* (297) cmd ::= ALTER TABLE fullname RENAME kwcolumn_opt nm TO nm */ - -1, /* (298) cmd ::= create_vtab */ - -4, /* (299) cmd ::= create_vtab LP vtabarglist RP */ - -8, /* (300) create_vtab ::= createkw VIRTUAL TABLE ifnotexists nm dbnm USING nm */ - 0, /* (301) vtabarg ::= */ - -1, /* (302) vtabargtoken ::= ANY */ - -3, /* (303) vtabargtoken ::= lp anylist RP */ - -1, /* (304) lp ::= LP */ - -2, /* (305) with ::= WITH wqlist */ - -3, /* (306) with ::= WITH RECURSIVE wqlist */ - -1, /* (307) wqas ::= AS */ - -2, /* (308) wqas ::= AS MATERIALIZED */ - -3, /* (309) wqas ::= AS NOT MATERIALIZED */ - -6, /* (310) wqitem ::= withnm eidlist_opt wqas LP select RP */ - -1, /* (311) withnm ::= nm */ - -1, /* (312) wqlist ::= wqitem */ - -3, /* (313) wqlist ::= wqlist COMMA wqitem */ - -3, /* (314) windowdefn_list ::= windowdefn_list COMMA windowdefn */ - -5, /* (315) windowdefn ::= nm AS LP window RP */ - -5, /* (316) window ::= PARTITION BY nexprlist orderby_opt frame_opt */ - -6, /* (317) window ::= nm PARTITION BY nexprlist orderby_opt frame_opt */ - -4, /* (318) window ::= ORDER BY sortlist frame_opt */ - -5, /* (319) window ::= nm ORDER BY sortlist frame_opt */ - -2, /* (320) window ::= nm frame_opt */ - 0, /* (321) frame_opt ::= */ - -3, /* (322) frame_opt ::= range_or_rows frame_bound_s frame_exclude_opt */ - -6, /* (323) frame_opt ::= range_or_rows BETWEEN frame_bound_s AND frame_bound_e frame_exclude_opt */ - -1, /* (324) range_or_rows ::= RANGE|ROWS|GROUPS */ - -1, /* (325) frame_bound_s ::= frame_bound */ - -2, /* (326) frame_bound_s ::= UNBOUNDED PRECEDING */ - -1, /* (327) frame_bound_e ::= frame_bound */ - -2, /* (328) frame_bound_e ::= UNBOUNDED FOLLOWING */ - -2, /* (329) frame_bound ::= expr PRECEDING|FOLLOWING */ - -2, /* (330) frame_bound ::= CURRENT ROW */ - 0, /* (331) frame_exclude_opt ::= */ - -2, /* (332) frame_exclude_opt ::= EXCLUDE frame_exclude */ - -2, /* (333) frame_exclude ::= NO OTHERS */ - -2, /* (334) frame_exclude ::= CURRENT ROW */ - -1, /* (335) frame_exclude ::= GROUP|TIES */ - -2, /* (336) window_clause ::= WINDOW windowdefn_list */ - -2, /* (337) filter_over ::= filter_clause over_clause */ - -1, /* (338) filter_over ::= over_clause */ - -1, /* (339) filter_over ::= filter_clause */ - -4, /* (340) over_clause ::= OVER LP window RP */ - -2, /* (341) over_clause ::= OVER nm */ - -5, /* (342) filter_clause ::= FILTER LP WHERE expr RP */ - -1, /* (343) term ::= QNUMBER */ - -1, /* (344) input ::= cmdlist */ - -2, /* (345) cmdlist ::= cmdlist ecmd */ - -1, /* (346) cmdlist ::= ecmd */ - -1, /* (347) ecmd ::= SEMI */ - -2, /* (348) ecmd ::= cmdx SEMI */ - -3, /* (349) ecmd ::= explain cmdx SEMI */ - 0, /* (350) trans_opt ::= */ - -1, /* (351) trans_opt ::= TRANSACTION */ - -2, /* (352) trans_opt ::= TRANSACTION nm */ - -1, /* (353) savepoint_opt ::= SAVEPOINT */ - 0, /* (354) savepoint_opt ::= */ - -2, /* (355) cmd ::= create_table create_table_args */ - -1, /* (356) table_option_set ::= table_option */ - -4, /* (357) columnlist ::= columnlist COMMA columnname carglist */ - -2, /* (358) columnlist ::= columnname carglist */ - -1, /* (359) nm ::= ID|INDEXED|JOIN_KW */ - -1, /* (360) nm ::= STRING */ - -1, /* (361) typetoken ::= typename */ - -1, /* (362) typename ::= ID|STRING */ - -1, /* (363) signed ::= plus_num */ - -1, /* (364) signed ::= minus_num */ - -2, /* (365) carglist ::= carglist ccons */ - 0, /* (366) carglist ::= */ - -2, /* (367) ccons ::= NULL onconf */ - -4, /* (368) ccons ::= GENERATED ALWAYS AS generated */ - -2, /* (369) ccons ::= AS generated */ - -2, /* (370) conslist_opt ::= COMMA conslist */ - -3, /* (371) conslist ::= conslist tconscomma tcons */ - -1, /* (372) conslist ::= tcons */ - 0, /* (373) tconscomma ::= */ - -1, /* (374) defer_subclause_opt ::= defer_subclause */ - -1, /* (375) resolvetype ::= raisetype */ - -1, /* (376) selectnowith ::= oneselect */ - -1, /* (377) oneselect ::= values */ - -2, /* (378) sclp ::= selcollist COMMA */ - -1, /* (379) as ::= ID|STRING */ - -1, /* (380) indexed_opt ::= indexed_by */ - 0, /* (381) returning ::= */ - -1, /* (382) expr ::= term */ - -1, /* (383) likeop ::= LIKE_KW|MATCH */ - -1, /* (384) case_operand ::= expr */ - -1, /* (385) exprlist ::= nexprlist */ - -1, /* (386) nmnum ::= plus_num */ - -1, /* (387) nmnum ::= nm */ - -1, /* (388) nmnum ::= ON */ - -1, /* (389) nmnum ::= DELETE */ - -1, /* (390) nmnum ::= DEFAULT */ - -1, /* (391) plus_num ::= INTEGER|FLOAT */ - 0, /* (392) foreach_clause ::= */ - -3, /* (393) foreach_clause ::= FOR EACH ROW */ - -1, /* (394) trnm ::= nm */ - 0, /* (395) tridxby ::= */ - -1, /* (396) database_kw_opt ::= DATABASE */ - 0, /* (397) database_kw_opt ::= */ - 0, /* (398) kwcolumn_opt ::= */ - -1, /* (399) kwcolumn_opt ::= COLUMNKW */ - -1, /* (400) vtabarglist ::= vtabarg */ - -3, /* (401) vtabarglist ::= vtabarglist COMMA vtabarg */ - -2, /* (402) vtabarg ::= vtabarg vtabargtoken */ - 0, /* (403) anylist ::= */ - -4, /* (404) anylist ::= anylist LP anylist RP */ - -2, /* (405) anylist ::= anylist ANY */ - 0, /* (406) with ::= */ - -1, /* (407) windowdefn_list ::= windowdefn */ - -1, /* (408) window ::= frame_opt */ + -8, /* (296) cmd ::= ALTER TABLE fullname RENAME kwcolumn_opt nm TO nm */ + -6, /* (297) cmd ::= ALTER TABLE fullname DROP CONSTRAINT nm */ + -9, /* (298) cmd ::= ALTER TABLE fullname ALTER kwcolumn_opt nm DROP NOT NULL */ + -10, /* (299) cmd ::= ALTER TABLE fullname ALTER kwcolumn_opt nm SET NOT NULL onconf */ + -11, /* (300) cmd ::= ALTER TABLE fullname ADD CONSTRAINT nm CHECK LP expr RP onconf */ + -9, /* (301) cmd ::= ALTER TABLE fullname ADD CHECK LP expr RP onconf */ + -1, /* (302) cmd ::= create_vtab */ + -4, /* (303) cmd ::= create_vtab LP vtabarglist RP */ + -8, /* (304) create_vtab ::= createkw VIRTUAL TABLE ifnotexists nm dbnm USING nm */ + 0, /* (305) vtabarg ::= */ + -1, /* (306) vtabargtoken ::= ANY */ + -3, /* (307) vtabargtoken ::= lp anylist RP */ + -1, /* (308) lp ::= LP */ + -2, /* (309) with ::= WITH wqlist */ + -3, /* (310) with ::= WITH RECURSIVE wqlist */ + -1, /* (311) wqas ::= AS */ + -2, /* (312) wqas ::= AS MATERIALIZED */ + -3, /* (313) wqas ::= AS NOT MATERIALIZED */ + -6, /* (314) wqitem ::= withnm eidlist_opt wqas LP select RP */ + -1, /* (315) withnm ::= nm */ + -1, /* (316) wqlist ::= wqitem */ + -3, /* (317) wqlist ::= wqlist COMMA wqitem */ + -3, /* (318) windowdefn_list ::= windowdefn_list COMMA windowdefn */ + -5, /* (319) windowdefn ::= nm AS LP window RP */ + -5, /* (320) window ::= PARTITION BY nexprlist orderby_opt frame_opt */ + -6, /* (321) window ::= nm PARTITION BY nexprlist orderby_opt frame_opt */ + -4, /* (322) window ::= ORDER BY sortlist frame_opt */ + -5, /* (323) window ::= nm ORDER BY sortlist frame_opt */ + -2, /* (324) window ::= nm frame_opt */ + 0, /* (325) frame_opt ::= */ + -3, /* (326) frame_opt ::= range_or_rows frame_bound_s frame_exclude_opt */ + -6, /* (327) frame_opt ::= range_or_rows BETWEEN frame_bound_s AND frame_bound_e frame_exclude_opt */ + -1, /* (328) range_or_rows ::= RANGE|ROWS|GROUPS */ + -1, /* (329) frame_bound_s ::= frame_bound */ + -2, /* (330) frame_bound_s ::= UNBOUNDED PRECEDING */ + -1, /* (331) frame_bound_e ::= frame_bound */ + -2, /* (332) frame_bound_e ::= UNBOUNDED FOLLOWING */ + -2, /* (333) frame_bound ::= expr PRECEDING|FOLLOWING */ + -2, /* (334) frame_bound ::= CURRENT ROW */ + 0, /* (335) frame_exclude_opt ::= */ + -2, /* (336) frame_exclude_opt ::= EXCLUDE frame_exclude */ + -2, /* (337) frame_exclude ::= NO OTHERS */ + -2, /* (338) frame_exclude ::= CURRENT ROW */ + -1, /* (339) frame_exclude ::= GROUP|TIES */ + -2, /* (340) window_clause ::= WINDOW windowdefn_list */ + -2, /* (341) filter_over ::= filter_clause over_clause */ + -1, /* (342) filter_over ::= over_clause */ + -1, /* (343) filter_over ::= filter_clause */ + -4, /* (344) over_clause ::= OVER LP window RP */ + -2, /* (345) over_clause ::= OVER nm */ + -5, /* (346) filter_clause ::= FILTER LP WHERE expr RP */ + -1, /* (347) term ::= QNUMBER */ + -1, /* (348) input ::= cmdlist */ + -2, /* (349) cmdlist ::= cmdlist ecmd */ + -1, /* (350) cmdlist ::= ecmd */ + -1, /* (351) ecmd ::= SEMI */ + -2, /* (352) ecmd ::= cmdx SEMI */ + -3, /* (353) ecmd ::= explain cmdx SEMI */ + 0, /* (354) trans_opt ::= */ + -1, /* (355) trans_opt ::= TRANSACTION */ + -2, /* (356) trans_opt ::= TRANSACTION nm */ + -1, /* (357) savepoint_opt ::= SAVEPOINT */ + 0, /* (358) savepoint_opt ::= */ + -2, /* (359) cmd ::= create_table create_table_args */ + -1, /* (360) table_option_set ::= table_option */ + -4, /* (361) columnlist ::= columnlist COMMA columnname carglist */ + -2, /* (362) columnlist ::= columnname carglist */ + -1, /* (363) nm ::= ID|INDEXED|JOIN_KW */ + -1, /* (364) nm ::= STRING */ + -1, /* (365) typetoken ::= typename */ + -1, /* (366) typename ::= ID|STRING */ + -1, /* (367) signed ::= plus_num */ + -1, /* (368) signed ::= minus_num */ + -2, /* (369) carglist ::= carglist ccons */ + 0, /* (370) carglist ::= */ + -2, /* (371) ccons ::= NULL onconf */ + -4, /* (372) ccons ::= GENERATED ALWAYS AS generated */ + -2, /* (373) ccons ::= AS generated */ + -2, /* (374) conslist_opt ::= COMMA conslist */ + -3, /* (375) conslist ::= conslist tconscomma tcons */ + -1, /* (376) conslist ::= tcons */ + 0, /* (377) tconscomma ::= */ + -1, /* (378) defer_subclause_opt ::= defer_subclause */ + -1, /* (379) resolvetype ::= raisetype */ + -1, /* (380) selectnowith ::= oneselect */ + -1, /* (381) oneselect ::= values */ + -2, /* (382) sclp ::= selcollist COMMA */ + -1, /* (383) as ::= ID|STRING */ + -1, /* (384) indexed_opt ::= indexed_by */ + 0, /* (385) returning ::= */ + -1, /* (386) expr ::= term */ + -1, /* (387) likeop ::= LIKE_KW|MATCH */ + -1, /* (388) case_operand ::= expr */ + -1, /* (389) exprlist ::= nexprlist */ + -1, /* (390) nmnum ::= plus_num */ + -1, /* (391) nmnum ::= nm */ + -1, /* (392) nmnum ::= ON */ + -1, /* (393) nmnum ::= DELETE */ + -1, /* (394) nmnum ::= DEFAULT */ + -1, /* (395) plus_num ::= INTEGER|FLOAT */ + 0, /* (396) foreach_clause ::= */ + -3, /* (397) foreach_clause ::= FOR EACH ROW */ + 0, /* (398) tridxby ::= */ + -1, /* (399) database_kw_opt ::= DATABASE */ + 0, /* (400) database_kw_opt ::= */ + 0, /* (401) kwcolumn_opt ::= */ + -1, /* (402) kwcolumn_opt ::= COLUMNKW */ + -1, /* (403) vtabarglist ::= vtabarg */ + -3, /* (404) vtabarglist ::= vtabarglist COMMA vtabarg */ + -2, /* (405) vtabarg ::= vtabarg vtabargtoken */ + 0, /* (406) anylist ::= */ + -4, /* (407) anylist ::= anylist LP anylist RP */ + -2, /* (408) anylist ::= anylist ANY */ + 0, /* (409) with ::= */ + -1, /* (410) windowdefn_list ::= windowdefn */ + -1, /* (411) window ::= frame_opt */ }; static void yy_accept(yyParser*); /* Forward Declaration */ @@ -181235,16 +183399,16 @@ static YYACTIONTYPE yy_reduce( { sqlite3FinishCoding(pParse); } break; case 3: /* cmd ::= BEGIN transtype trans_opt */ -{sqlite3BeginTransaction(pParse, yymsp[-1].minor.yy502);} +{sqlite3BeginTransaction(pParse, yymsp[-1].minor.yy144);} break; case 4: /* transtype ::= */ -{yymsp[1].minor.yy502 = TK_DEFERRED;} +{yymsp[1].minor.yy144 = TK_DEFERRED;} break; case 5: /* transtype ::= DEFERRED */ case 6: /* transtype ::= IMMEDIATE */ yytestcase(yyruleno==6); case 7: /* transtype ::= EXCLUSIVE */ yytestcase(yyruleno==7); - case 324: /* range_or_rows ::= RANGE|ROWS|GROUPS */ yytestcase(yyruleno==324); -{yymsp[0].minor.yy502 = yymsp[0].major; /*A-overwrites-X*/} + case 328: /* range_or_rows ::= RANGE|ROWS|GROUPS */ yytestcase(yyruleno==328); +{yymsp[0].minor.yy144 = yymsp[0].major; /*A-overwrites-X*/} break; case 8: /* cmd ::= COMMIT|END trans_opt */ case 9: /* cmd ::= ROLLBACK trans_opt */ yytestcase(yyruleno==9); @@ -181267,7 +183431,7 @@ static YYACTIONTYPE yy_reduce( break; case 13: /* create_table ::= createkw temp TABLE ifnotexists nm dbnm */ { - sqlite3StartTable(pParse,&yymsp[-1].minor.yy0,&yymsp[0].minor.yy0,yymsp[-4].minor.yy502,0,0,yymsp[-2].minor.yy502); + sqlite3StartTable(pParse,&yymsp[-1].minor.yy0,&yymsp[0].minor.yy0,yymsp[-4].minor.yy144,0,0,yymsp[-2].minor.yy144); } break; case 14: /* createkw ::= CREATE */ @@ -181283,38 +183447,38 @@ static YYACTIONTYPE yy_reduce( case 81: /* ifexists ::= */ yytestcase(yyruleno==81); case 100: /* distinct ::= */ yytestcase(yyruleno==100); case 246: /* collate ::= */ yytestcase(yyruleno==246); -{yymsp[1].minor.yy502 = 0;} +{yymsp[1].minor.yy144 = 0;} break; case 16: /* ifnotexists ::= IF NOT EXISTS */ -{yymsp[-2].minor.yy502 = 1;} +{yymsp[-2].minor.yy144 = 1;} break; case 17: /* temp ::= TEMP */ -{yymsp[0].minor.yy502 = pParse->db->init.busy==0;} +{yymsp[0].minor.yy144 = pParse->db->init.busy==0;} break; case 19: /* create_table_args ::= LP columnlist conslist_opt RP table_option_set */ { - sqlite3EndTable(pParse,&yymsp[-2].minor.yy0,&yymsp[-1].minor.yy0,yymsp[0].minor.yy9,0); + sqlite3EndTable(pParse,&yymsp[-2].minor.yy0,&yymsp[-1].minor.yy0,yymsp[0].minor.yy391,0); } break; case 20: /* create_table_args ::= AS select */ { - sqlite3EndTable(pParse,0,0,0,yymsp[0].minor.yy637); - sqlite3SelectDelete(pParse->db, yymsp[0].minor.yy637); + sqlite3EndTable(pParse,0,0,0,yymsp[0].minor.yy555); + sqlite3SelectDelete(pParse->db, yymsp[0].minor.yy555); } break; case 21: /* table_option_set ::= */ -{yymsp[1].minor.yy9 = 0;} +{yymsp[1].minor.yy391 = 0;} break; case 22: /* table_option_set ::= table_option_set COMMA table_option */ -{yylhsminor.yy9 = yymsp[-2].minor.yy9|yymsp[0].minor.yy9;} - yymsp[-2].minor.yy9 = yylhsminor.yy9; +{yylhsminor.yy391 = yymsp[-2].minor.yy391|yymsp[0].minor.yy391;} + yymsp[-2].minor.yy391 = yylhsminor.yy391; break; case 23: /* table_option ::= WITHOUT nm */ { if( yymsp[0].minor.yy0.n==5 && sqlite3_strnicmp(yymsp[0].minor.yy0.z,"rowid",5)==0 ){ - yymsp[-1].minor.yy9 = TF_WithoutRowid | TF_NoVisibleRowid; + yymsp[-1].minor.yy391 = TF_WithoutRowid | TF_NoVisibleRowid; }else{ - yymsp[-1].minor.yy9 = 0; + yymsp[-1].minor.yy391 = 0; sqlite3ErrorMsg(pParse, "unknown table option: %.*s", yymsp[0].minor.yy0.n, yymsp[0].minor.yy0.z); } } @@ -181322,13 +183486,13 @@ static YYACTIONTYPE yy_reduce( case 24: /* table_option ::= nm */ { if( yymsp[0].minor.yy0.n==6 && sqlite3_strnicmp(yymsp[0].minor.yy0.z,"strict",6)==0 ){ - yylhsminor.yy9 = TF_Strict; + yylhsminor.yy391 = TF_Strict; }else{ - yylhsminor.yy9 = 0; + yylhsminor.yy391 = 0; sqlite3ErrorMsg(pParse, "unknown table option: %.*s", yymsp[0].minor.yy0.n, yymsp[0].minor.yy0.z); } } - yymsp[0].minor.yy9 = yylhsminor.yy9; + yymsp[0].minor.yy391 = yylhsminor.yy391; break; case 25: /* columnname ::= nm typetoken */ {sqlite3AddColumn(pParse,yymsp[-1].minor.yy0,yymsp[0].minor.yy0);} @@ -181354,7 +183518,7 @@ static YYACTIONTYPE yy_reduce( case 30: /* scanpt ::= */ { assert( yyLookahead!=YYNOCODE ); - yymsp[1].minor.yy342 = yyLookaheadToken.z; + yymsp[1].minor.yy168 = yyLookaheadToken.z; } break; case 31: /* scantok ::= */ @@ -181368,17 +183532,17 @@ static YYACTIONTYPE yy_reduce( {ASSERT_IS_CREATE; pParse->u1.cr.constraintName = yymsp[0].minor.yy0;} break; case 33: /* ccons ::= DEFAULT scantok term */ -{sqlite3AddDefaultValue(pParse,yymsp[0].minor.yy590,yymsp[-1].minor.yy0.z,&yymsp[-1].minor.yy0.z[yymsp[-1].minor.yy0.n]);} +{sqlite3AddDefaultValue(pParse,yymsp[0].minor.yy454,yymsp[-1].minor.yy0.z,&yymsp[-1].minor.yy0.z[yymsp[-1].minor.yy0.n]);} break; case 34: /* ccons ::= DEFAULT LP expr RP */ -{sqlite3AddDefaultValue(pParse,yymsp[-1].minor.yy590,yymsp[-2].minor.yy0.z+1,yymsp[0].minor.yy0.z);} +{sqlite3AddDefaultValue(pParse,yymsp[-1].minor.yy454,yymsp[-2].minor.yy0.z+1,yymsp[0].minor.yy0.z);} break; case 35: /* ccons ::= DEFAULT PLUS scantok term */ -{sqlite3AddDefaultValue(pParse,yymsp[0].minor.yy590,yymsp[-2].minor.yy0.z,&yymsp[-1].minor.yy0.z[yymsp[-1].minor.yy0.n]);} +{sqlite3AddDefaultValue(pParse,yymsp[0].minor.yy454,yymsp[-2].minor.yy0.z,&yymsp[-1].minor.yy0.z[yymsp[-1].minor.yy0.n]);} break; case 36: /* ccons ::= DEFAULT MINUS scantok term */ { - Expr *p = sqlite3PExpr(pParse, TK_UMINUS, yymsp[0].minor.yy590, 0); + Expr *p = sqlite3PExpr(pParse, TK_UMINUS, yymsp[0].minor.yy454, 0); sqlite3AddDefaultValue(pParse,p,yymsp[-2].minor.yy0.z,&yymsp[-1].minor.yy0.z[yymsp[-1].minor.yy0.n]); } break; @@ -181393,133 +183557,133 @@ static YYACTIONTYPE yy_reduce( } break; case 38: /* ccons ::= NOT NULL onconf */ -{sqlite3AddNotNull(pParse, yymsp[0].minor.yy502);} +{sqlite3AddNotNull(pParse, yymsp[0].minor.yy144);} break; case 39: /* ccons ::= PRIMARY KEY sortorder onconf autoinc */ -{sqlite3AddPrimaryKey(pParse,0,yymsp[-1].minor.yy502,yymsp[0].minor.yy502,yymsp[-2].minor.yy502);} +{sqlite3AddPrimaryKey(pParse,0,yymsp[-1].minor.yy144,yymsp[0].minor.yy144,yymsp[-2].minor.yy144);} break; case 40: /* ccons ::= UNIQUE onconf */ -{sqlite3CreateIndex(pParse,0,0,0,0,yymsp[0].minor.yy502,0,0,0,0, +{sqlite3CreateIndex(pParse,0,0,0,0,yymsp[0].minor.yy144,0,0,0,0, SQLITE_IDXTYPE_UNIQUE);} break; case 41: /* ccons ::= CHECK LP expr RP */ -{sqlite3AddCheckConstraint(pParse,yymsp[-1].minor.yy590,yymsp[-2].minor.yy0.z,yymsp[0].minor.yy0.z);} +{sqlite3AddCheckConstraint(pParse,yymsp[-1].minor.yy454,yymsp[-2].minor.yy0.z,yymsp[0].minor.yy0.z);} break; case 42: /* ccons ::= REFERENCES nm eidlist_opt refargs */ -{sqlite3CreateForeignKey(pParse,0,&yymsp[-2].minor.yy0,yymsp[-1].minor.yy402,yymsp[0].minor.yy502);} +{sqlite3CreateForeignKey(pParse,0,&yymsp[-2].minor.yy0,yymsp[-1].minor.yy14,yymsp[0].minor.yy144);} break; case 43: /* ccons ::= defer_subclause */ -{sqlite3DeferForeignKey(pParse,yymsp[0].minor.yy502);} +{sqlite3DeferForeignKey(pParse,yymsp[0].minor.yy144);} break; case 44: /* ccons ::= COLLATE ID|STRING */ {sqlite3AddCollateType(pParse, &yymsp[0].minor.yy0);} break; case 45: /* generated ::= LP expr RP */ -{sqlite3AddGenerated(pParse,yymsp[-1].minor.yy590,0);} +{sqlite3AddGenerated(pParse,yymsp[-1].minor.yy454,0);} break; case 46: /* generated ::= LP expr RP ID */ -{sqlite3AddGenerated(pParse,yymsp[-2].minor.yy590,&yymsp[0].minor.yy0);} +{sqlite3AddGenerated(pParse,yymsp[-2].minor.yy454,&yymsp[0].minor.yy0);} break; case 48: /* autoinc ::= AUTOINCR */ -{yymsp[0].minor.yy502 = 1;} +{yymsp[0].minor.yy144 = 1;} break; case 49: /* refargs ::= */ -{ yymsp[1].minor.yy502 = OE_None*0x0101; /* EV: R-19803-45884 */} +{ yymsp[1].minor.yy144 = OE_None*0x0101; /* EV: R-19803-45884 */} break; case 50: /* refargs ::= refargs refarg */ -{ yymsp[-1].minor.yy502 = (yymsp[-1].minor.yy502 & ~yymsp[0].minor.yy481.mask) | yymsp[0].minor.yy481.value; } +{ yymsp[-1].minor.yy144 = (yymsp[-1].minor.yy144 & ~yymsp[0].minor.yy383.mask) | yymsp[0].minor.yy383.value; } break; case 51: /* refarg ::= MATCH nm */ -{ yymsp[-1].minor.yy481.value = 0; yymsp[-1].minor.yy481.mask = 0x000000; } +{ yymsp[-1].minor.yy383.value = 0; yymsp[-1].minor.yy383.mask = 0x000000; } break; case 52: /* refarg ::= ON INSERT refact */ -{ yymsp[-2].minor.yy481.value = 0; yymsp[-2].minor.yy481.mask = 0x000000; } +{ yymsp[-2].minor.yy383.value = 0; yymsp[-2].minor.yy383.mask = 0x000000; } break; case 53: /* refarg ::= ON DELETE refact */ -{ yymsp[-2].minor.yy481.value = yymsp[0].minor.yy502; yymsp[-2].minor.yy481.mask = 0x0000ff; } +{ yymsp[-2].minor.yy383.value = yymsp[0].minor.yy144; yymsp[-2].minor.yy383.mask = 0x0000ff; } break; case 54: /* refarg ::= ON UPDATE refact */ -{ yymsp[-2].minor.yy481.value = yymsp[0].minor.yy502<<8; yymsp[-2].minor.yy481.mask = 0x00ff00; } +{ yymsp[-2].minor.yy383.value = yymsp[0].minor.yy144<<8; yymsp[-2].minor.yy383.mask = 0x00ff00; } break; case 55: /* refact ::= SET NULL */ -{ yymsp[-1].minor.yy502 = OE_SetNull; /* EV: R-33326-45252 */} +{ yymsp[-1].minor.yy144 = OE_SetNull; /* EV: R-33326-45252 */} break; case 56: /* refact ::= SET DEFAULT */ -{ yymsp[-1].minor.yy502 = OE_SetDflt; /* EV: R-33326-45252 */} +{ yymsp[-1].minor.yy144 = OE_SetDflt; /* EV: R-33326-45252 */} break; case 57: /* refact ::= CASCADE */ -{ yymsp[0].minor.yy502 = OE_Cascade; /* EV: R-33326-45252 */} +{ yymsp[0].minor.yy144 = OE_Cascade; /* EV: R-33326-45252 */} break; case 58: /* refact ::= RESTRICT */ -{ yymsp[0].minor.yy502 = OE_Restrict; /* EV: R-33326-45252 */} +{ yymsp[0].minor.yy144 = OE_Restrict; /* EV: R-33326-45252 */} break; case 59: /* refact ::= NO ACTION */ -{ yymsp[-1].minor.yy502 = OE_None; /* EV: R-33326-45252 */} +{ yymsp[-1].minor.yy144 = OE_None; /* EV: R-33326-45252 */} break; case 60: /* defer_subclause ::= NOT DEFERRABLE init_deferred_pred_opt */ -{yymsp[-2].minor.yy502 = 0;} +{yymsp[-2].minor.yy144 = 0;} break; case 61: /* defer_subclause ::= DEFERRABLE init_deferred_pred_opt */ case 76: /* orconf ::= OR resolvetype */ yytestcase(yyruleno==76); case 173: /* insert_cmd ::= INSERT orconf */ yytestcase(yyruleno==173); -{yymsp[-1].minor.yy502 = yymsp[0].minor.yy502;} +{yymsp[-1].minor.yy144 = yymsp[0].minor.yy144;} break; case 63: /* init_deferred_pred_opt ::= INITIALLY DEFERRED */ case 80: /* ifexists ::= IF EXISTS */ yytestcase(yyruleno==80); case 219: /* between_op ::= NOT BETWEEN */ yytestcase(yyruleno==219); case 222: /* in_op ::= NOT IN */ yytestcase(yyruleno==222); case 247: /* collate ::= COLLATE ID|STRING */ yytestcase(yyruleno==247); -{yymsp[-1].minor.yy502 = 1;} +{yymsp[-1].minor.yy144 = 1;} break; case 64: /* init_deferred_pred_opt ::= INITIALLY IMMEDIATE */ -{yymsp[-1].minor.yy502 = 0;} +{yymsp[-1].minor.yy144 = 0;} break; case 66: /* tconscomma ::= COMMA */ {ASSERT_IS_CREATE; pParse->u1.cr.constraintName.n = 0;} break; case 68: /* tcons ::= PRIMARY KEY LP sortlist autoinc RP onconf */ -{sqlite3AddPrimaryKey(pParse,yymsp[-3].minor.yy402,yymsp[0].minor.yy502,yymsp[-2].minor.yy502,0);} +{sqlite3AddPrimaryKey(pParse,yymsp[-3].minor.yy14,yymsp[0].minor.yy144,yymsp[-2].minor.yy144,0);} break; case 69: /* tcons ::= UNIQUE LP sortlist RP onconf */ -{sqlite3CreateIndex(pParse,0,0,0,yymsp[-2].minor.yy402,yymsp[0].minor.yy502,0,0,0,0, +{sqlite3CreateIndex(pParse,0,0,0,yymsp[-2].minor.yy14,yymsp[0].minor.yy144,0,0,0,0, SQLITE_IDXTYPE_UNIQUE);} break; case 70: /* tcons ::= CHECK LP expr RP onconf */ -{sqlite3AddCheckConstraint(pParse,yymsp[-2].minor.yy590,yymsp[-3].minor.yy0.z,yymsp[-1].minor.yy0.z);} +{sqlite3AddCheckConstraint(pParse,yymsp[-2].minor.yy454,yymsp[-3].minor.yy0.z,yymsp[-1].minor.yy0.z);} break; case 71: /* tcons ::= FOREIGN KEY LP eidlist RP REFERENCES nm eidlist_opt refargs defer_subclause_opt */ { - sqlite3CreateForeignKey(pParse, yymsp[-6].minor.yy402, &yymsp[-3].minor.yy0, yymsp[-2].minor.yy402, yymsp[-1].minor.yy502); - sqlite3DeferForeignKey(pParse, yymsp[0].minor.yy502); + sqlite3CreateForeignKey(pParse, yymsp[-6].minor.yy14, &yymsp[-3].minor.yy0, yymsp[-2].minor.yy14, yymsp[-1].minor.yy144); + sqlite3DeferForeignKey(pParse, yymsp[0].minor.yy144); } break; case 73: /* onconf ::= */ case 75: /* orconf ::= */ yytestcase(yyruleno==75); -{yymsp[1].minor.yy502 = OE_Default;} +{yymsp[1].minor.yy144 = OE_Default;} break; case 74: /* onconf ::= ON CONFLICT resolvetype */ -{yymsp[-2].minor.yy502 = yymsp[0].minor.yy502;} +{yymsp[-2].minor.yy144 = yymsp[0].minor.yy144;} break; case 77: /* resolvetype ::= IGNORE */ -{yymsp[0].minor.yy502 = OE_Ignore;} +{yymsp[0].minor.yy144 = OE_Ignore;} break; case 78: /* resolvetype ::= REPLACE */ case 174: /* insert_cmd ::= REPLACE */ yytestcase(yyruleno==174); -{yymsp[0].minor.yy502 = OE_Replace;} +{yymsp[0].minor.yy144 = OE_Replace;} break; case 79: /* cmd ::= DROP TABLE ifexists fullname */ { - sqlite3DropTable(pParse, yymsp[0].minor.yy563, 0, yymsp[-1].minor.yy502); + sqlite3DropTable(pParse, yymsp[0].minor.yy203, 0, yymsp[-1].minor.yy144); } break; case 82: /* cmd ::= createkw temp VIEW ifnotexists nm dbnm eidlist_opt AS select */ { - sqlite3CreateView(pParse, &yymsp[-8].minor.yy0, &yymsp[-4].minor.yy0, &yymsp[-3].minor.yy0, yymsp[-2].minor.yy402, yymsp[0].minor.yy637, yymsp[-7].minor.yy502, yymsp[-5].minor.yy502); + sqlite3CreateView(pParse, &yymsp[-8].minor.yy0, &yymsp[-4].minor.yy0, &yymsp[-3].minor.yy0, yymsp[-2].minor.yy14, yymsp[0].minor.yy555, yymsp[-7].minor.yy144, yymsp[-5].minor.yy144); } break; case 83: /* cmd ::= DROP VIEW ifexists fullname */ { - sqlite3DropTable(pParse, yymsp[0].minor.yy563, 1, yymsp[-1].minor.yy502); + sqlite3DropTable(pParse, yymsp[0].minor.yy203, 1, yymsp[-1].minor.yy144); } break; case 84: /* cmd ::= select */ @@ -181528,20 +183692,20 @@ static YYACTIONTYPE yy_reduce( if( (pParse->db->mDbFlags & DBFLAG_EncodingFixed)!=0 || sqlite3ReadSchema(pParse)==SQLITE_OK ){ - sqlite3Select(pParse, yymsp[0].minor.yy637, &dest); + sqlite3Select(pParse, yymsp[0].minor.yy555, &dest); } - sqlite3SelectDelete(pParse->db, yymsp[0].minor.yy637); + sqlite3SelectDelete(pParse->db, yymsp[0].minor.yy555); } break; case 85: /* select ::= WITH wqlist selectnowith */ -{yymsp[-2].minor.yy637 = attachWithToSelect(pParse,yymsp[0].minor.yy637,yymsp[-1].minor.yy125);} +{yymsp[-2].minor.yy555 = attachWithToSelect(pParse,yymsp[0].minor.yy555,yymsp[-1].minor.yy59);} break; case 86: /* select ::= WITH RECURSIVE wqlist selectnowith */ -{yymsp[-3].minor.yy637 = attachWithToSelect(pParse,yymsp[0].minor.yy637,yymsp[-1].minor.yy125);} +{yymsp[-3].minor.yy555 = attachWithToSelect(pParse,yymsp[0].minor.yy555,yymsp[-1].minor.yy59);} break; case 87: /* select ::= selectnowith */ { - Select *p = yymsp[0].minor.yy637; + Select *p = yymsp[0].minor.yy555; if( p ){ parserDoubleLinkSelect(pParse, p); } @@ -181549,8 +183713,8 @@ static YYACTIONTYPE yy_reduce( break; case 88: /* selectnowith ::= selectnowith multiselect_op oneselect */ { - Select *pRhs = yymsp[0].minor.yy637; - Select *pLhs = yymsp[-2].minor.yy637; + Select *pRhs = yymsp[0].minor.yy555; + Select *pLhs = yymsp[-2].minor.yy555; if( pRhs && pRhs->pPrior ){ SrcList *pFrom; Token x; @@ -181560,60 +183724,60 @@ static YYACTIONTYPE yy_reduce( pRhs = sqlite3SelectNew(pParse,0,pFrom,0,0,0,0,0,0); } if( pRhs ){ - pRhs->op = (u8)yymsp[-1].minor.yy502; + pRhs->op = (u8)yymsp[-1].minor.yy144; pRhs->pPrior = pLhs; if( ALWAYS(pLhs) ) pLhs->selFlags &= ~(u32)SF_MultiValue; pRhs->selFlags &= ~(u32)SF_MultiValue; - if( yymsp[-1].minor.yy502!=TK_ALL ) pParse->hasCompound = 1; + if( yymsp[-1].minor.yy144!=TK_ALL ) pParse->hasCompound = 1; }else{ sqlite3SelectDelete(pParse->db, pLhs); } - yymsp[-2].minor.yy637 = pRhs; + yymsp[-2].minor.yy555 = pRhs; } break; case 89: /* multiselect_op ::= UNION */ case 91: /* multiselect_op ::= EXCEPT|INTERSECT */ yytestcase(yyruleno==91); -{yymsp[0].minor.yy502 = yymsp[0].major; /*A-overwrites-OP*/} +{yymsp[0].minor.yy144 = yymsp[0].major; /*A-overwrites-OP*/} break; case 90: /* multiselect_op ::= UNION ALL */ -{yymsp[-1].minor.yy502 = TK_ALL;} +{yymsp[-1].minor.yy144 = TK_ALL;} break; case 92: /* oneselect ::= SELECT distinct selcollist from where_opt groupby_opt having_opt orderby_opt limit_opt */ { - yymsp[-8].minor.yy637 = sqlite3SelectNew(pParse,yymsp[-6].minor.yy402,yymsp[-5].minor.yy563,yymsp[-4].minor.yy590,yymsp[-3].minor.yy402,yymsp[-2].minor.yy590,yymsp[-1].minor.yy402,yymsp[-7].minor.yy502,yymsp[0].minor.yy590); + yymsp[-8].minor.yy555 = sqlite3SelectNew(pParse,yymsp[-6].minor.yy14,yymsp[-5].minor.yy203,yymsp[-4].minor.yy454,yymsp[-3].minor.yy14,yymsp[-2].minor.yy454,yymsp[-1].minor.yy14,yymsp[-7].minor.yy144,yymsp[0].minor.yy454); } break; case 93: /* oneselect ::= SELECT distinct selcollist from where_opt groupby_opt having_opt window_clause orderby_opt limit_opt */ { - yymsp[-9].minor.yy637 = sqlite3SelectNew(pParse,yymsp[-7].minor.yy402,yymsp[-6].minor.yy563,yymsp[-5].minor.yy590,yymsp[-4].minor.yy402,yymsp[-3].minor.yy590,yymsp[-1].minor.yy402,yymsp[-8].minor.yy502,yymsp[0].minor.yy590); - if( yymsp[-9].minor.yy637 ){ - yymsp[-9].minor.yy637->pWinDefn = yymsp[-2].minor.yy483; + yymsp[-9].minor.yy555 = sqlite3SelectNew(pParse,yymsp[-7].minor.yy14,yymsp[-6].minor.yy203,yymsp[-5].minor.yy454,yymsp[-4].minor.yy14,yymsp[-3].minor.yy454,yymsp[-1].minor.yy14,yymsp[-8].minor.yy144,yymsp[0].minor.yy454); + if( yymsp[-9].minor.yy555 ){ + yymsp[-9].minor.yy555->pWinDefn = yymsp[-2].minor.yy211; }else{ - sqlite3WindowListDelete(pParse->db, yymsp[-2].minor.yy483); + sqlite3WindowListDelete(pParse->db, yymsp[-2].minor.yy211); } } break; case 94: /* values ::= VALUES LP nexprlist RP */ { - yymsp[-3].minor.yy637 = sqlite3SelectNew(pParse,yymsp[-1].minor.yy402,0,0,0,0,0,SF_Values,0); + yymsp[-3].minor.yy555 = sqlite3SelectNew(pParse,yymsp[-1].minor.yy14,0,0,0,0,0,SF_Values,0); } break; case 95: /* oneselect ::= mvalues */ { - sqlite3MultiValuesEnd(pParse, yymsp[0].minor.yy637); + sqlite3MultiValuesEnd(pParse, yymsp[0].minor.yy555); } break; case 96: /* mvalues ::= values COMMA LP nexprlist RP */ case 97: /* mvalues ::= mvalues COMMA LP nexprlist RP */ yytestcase(yyruleno==97); { - yymsp[-4].minor.yy637 = sqlite3MultiValues(pParse, yymsp[-4].minor.yy637, yymsp[-1].minor.yy402); + yymsp[-4].minor.yy555 = sqlite3MultiValues(pParse, yymsp[-4].minor.yy555, yymsp[-1].minor.yy14); } break; case 98: /* distinct ::= DISTINCT */ -{yymsp[0].minor.yy502 = SF_Distinct;} +{yymsp[0].minor.yy144 = SF_Distinct;} break; case 99: /* distinct ::= ALL */ -{yymsp[0].minor.yy502 = SF_All;} +{yymsp[0].minor.yy144 = SF_All;} break; case 101: /* sclp ::= */ case 134: /* orderby_opt ::= */ yytestcase(yyruleno==134); @@ -181621,20 +183785,20 @@ static YYACTIONTYPE yy_reduce( case 234: /* exprlist ::= */ yytestcase(yyruleno==234); case 237: /* paren_exprlist ::= */ yytestcase(yyruleno==237); case 242: /* eidlist_opt ::= */ yytestcase(yyruleno==242); -{yymsp[1].minor.yy402 = 0;} +{yymsp[1].minor.yy14 = 0;} break; case 102: /* selcollist ::= sclp scanpt expr scanpt as */ { - yymsp[-4].minor.yy402 = sqlite3ExprListAppend(pParse, yymsp[-4].minor.yy402, yymsp[-2].minor.yy590); - if( yymsp[0].minor.yy0.n>0 ) sqlite3ExprListSetName(pParse, yymsp[-4].minor.yy402, &yymsp[0].minor.yy0, 1); - sqlite3ExprListSetSpan(pParse,yymsp[-4].minor.yy402,yymsp[-3].minor.yy342,yymsp[-1].minor.yy342); + yymsp[-4].minor.yy14 = sqlite3ExprListAppend(pParse, yymsp[-4].minor.yy14, yymsp[-2].minor.yy454); + if( yymsp[0].minor.yy0.n>0 ) sqlite3ExprListSetName(pParse, yymsp[-4].minor.yy14, &yymsp[0].minor.yy0, 1); + sqlite3ExprListSetSpan(pParse,yymsp[-4].minor.yy14,yymsp[-3].minor.yy168,yymsp[-1].minor.yy168); } break; case 103: /* selcollist ::= sclp scanpt STAR */ { Expr *p = sqlite3Expr(pParse->db, TK_ASTERISK, 0); sqlite3ExprSetErrorOffset(p, (int)(yymsp[0].minor.yy0.z - pParse->zTail)); - yymsp[-2].minor.yy402 = sqlite3ExprListAppend(pParse, yymsp[-2].minor.yy402, p); + yymsp[-2].minor.yy14 = sqlite3ExprListAppend(pParse, yymsp[-2].minor.yy14, p); } break; case 104: /* selcollist ::= sclp scanpt nm DOT STAR */ @@ -181644,7 +183808,7 @@ static YYACTIONTYPE yy_reduce( sqlite3ExprSetErrorOffset(pRight, (int)(yymsp[0].minor.yy0.z - pParse->zTail)); pLeft = tokenExpr(pParse, TK_ID, yymsp[-2].minor.yy0); pDot = sqlite3PExpr(pParse, TK_DOT, pLeft, pRight); - yymsp[-4].minor.yy402 = sqlite3ExprListAppend(pParse,yymsp[-4].minor.yy402, pDot); + yymsp[-4].minor.yy14 = sqlite3ExprListAppend(pParse,yymsp[-4].minor.yy14, pDot); } break; case 105: /* as ::= AS nm */ @@ -181655,50 +183819,50 @@ static YYACTIONTYPE yy_reduce( break; case 107: /* from ::= */ case 110: /* stl_prefix ::= */ yytestcase(yyruleno==110); -{yymsp[1].minor.yy563 = 0;} +{yymsp[1].minor.yy203 = 0;} break; case 108: /* from ::= FROM seltablist */ { - yymsp[-1].minor.yy563 = yymsp[0].minor.yy563; - sqlite3SrcListShiftJoinType(pParse,yymsp[-1].minor.yy563); + yymsp[-1].minor.yy203 = yymsp[0].minor.yy203; + sqlite3SrcListShiftJoinType(pParse,yymsp[-1].minor.yy203); } break; case 109: /* stl_prefix ::= seltablist joinop */ { - if( ALWAYS(yymsp[-1].minor.yy563 && yymsp[-1].minor.yy563->nSrc>0) ) yymsp[-1].minor.yy563->a[yymsp[-1].minor.yy563->nSrc-1].fg.jointype = (u8)yymsp[0].minor.yy502; + if( ALWAYS(yymsp[-1].minor.yy203 && yymsp[-1].minor.yy203->nSrc>0) ) yymsp[-1].minor.yy203->a[yymsp[-1].minor.yy203->nSrc-1].fg.jointype = (u8)yymsp[0].minor.yy144; } break; case 111: /* seltablist ::= stl_prefix nm dbnm as on_using */ { - yymsp[-4].minor.yy563 = sqlite3SrcListAppendFromTerm(pParse,yymsp[-4].minor.yy563,&yymsp[-3].minor.yy0,&yymsp[-2].minor.yy0,&yymsp[-1].minor.yy0,0,&yymsp[0].minor.yy421); + yymsp[-4].minor.yy203 = sqlite3SrcListAppendFromTerm(pParse,yymsp[-4].minor.yy203,&yymsp[-3].minor.yy0,&yymsp[-2].minor.yy0,&yymsp[-1].minor.yy0,0,&yymsp[0].minor.yy269); } break; case 112: /* seltablist ::= stl_prefix nm dbnm as indexed_by on_using */ { - yymsp[-5].minor.yy563 = sqlite3SrcListAppendFromTerm(pParse,yymsp[-5].minor.yy563,&yymsp[-4].minor.yy0,&yymsp[-3].minor.yy0,&yymsp[-2].minor.yy0,0,&yymsp[0].minor.yy421); - sqlite3SrcListIndexedBy(pParse, yymsp[-5].minor.yy563, &yymsp[-1].minor.yy0); + yymsp[-5].minor.yy203 = sqlite3SrcListAppendFromTerm(pParse,yymsp[-5].minor.yy203,&yymsp[-4].minor.yy0,&yymsp[-3].minor.yy0,&yymsp[-2].minor.yy0,0,&yymsp[0].minor.yy269); + sqlite3SrcListIndexedBy(pParse, yymsp[-5].minor.yy203, &yymsp[-1].minor.yy0); } break; case 113: /* seltablist ::= stl_prefix nm dbnm LP exprlist RP as on_using */ { - yymsp[-7].minor.yy563 = sqlite3SrcListAppendFromTerm(pParse,yymsp[-7].minor.yy563,&yymsp[-6].minor.yy0,&yymsp[-5].minor.yy0,&yymsp[-1].minor.yy0,0,&yymsp[0].minor.yy421); - sqlite3SrcListFuncArgs(pParse, yymsp[-7].minor.yy563, yymsp[-3].minor.yy402); + yymsp[-7].minor.yy203 = sqlite3SrcListAppendFromTerm(pParse,yymsp[-7].minor.yy203,&yymsp[-6].minor.yy0,&yymsp[-5].minor.yy0,&yymsp[-1].minor.yy0,0,&yymsp[0].minor.yy269); + sqlite3SrcListFuncArgs(pParse, yymsp[-7].minor.yy203, yymsp[-3].minor.yy14); } break; case 114: /* seltablist ::= stl_prefix LP select RP as on_using */ { - yymsp[-5].minor.yy563 = sqlite3SrcListAppendFromTerm(pParse,yymsp[-5].minor.yy563,0,0,&yymsp[-1].minor.yy0,yymsp[-3].minor.yy637,&yymsp[0].minor.yy421); + yymsp[-5].minor.yy203 = sqlite3SrcListAppendFromTerm(pParse,yymsp[-5].minor.yy203,0,0,&yymsp[-1].minor.yy0,yymsp[-3].minor.yy555,&yymsp[0].minor.yy269); } break; case 115: /* seltablist ::= stl_prefix LP seltablist RP as on_using */ { - if( yymsp[-5].minor.yy563==0 && yymsp[-1].minor.yy0.n==0 && yymsp[0].minor.yy421.pOn==0 && yymsp[0].minor.yy421.pUsing==0 ){ - yymsp[-5].minor.yy563 = yymsp[-3].minor.yy563; - }else if( ALWAYS(yymsp[-3].minor.yy563!=0) && yymsp[-3].minor.yy563->nSrc==1 ){ - yymsp[-5].minor.yy563 = sqlite3SrcListAppendFromTerm(pParse,yymsp[-5].minor.yy563,0,0,&yymsp[-1].minor.yy0,0,&yymsp[0].minor.yy421); - if( yymsp[-5].minor.yy563 ){ - SrcItem *pNew = &yymsp[-5].minor.yy563->a[yymsp[-5].minor.yy563->nSrc-1]; - SrcItem *pOld = yymsp[-3].minor.yy563->a; + if( yymsp[-5].minor.yy203==0 && yymsp[-1].minor.yy0.n==0 && yymsp[0].minor.yy269.pOn==0 && yymsp[0].minor.yy269.pUsing==0 ){ + yymsp[-5].minor.yy203 = yymsp[-3].minor.yy203; + }else if( ALWAYS(yymsp[-3].minor.yy203!=0) && yymsp[-3].minor.yy203->nSrc==1 ){ + yymsp[-5].minor.yy203 = sqlite3SrcListAppendFromTerm(pParse,yymsp[-5].minor.yy203,0,0,&yymsp[-1].minor.yy0,0,&yymsp[0].minor.yy269); + if( yymsp[-5].minor.yy203 ){ + SrcItem *pNew = &yymsp[-5].minor.yy203->a[yymsp[-5].minor.yy203->nSrc-1]; + SrcItem *pOld = yymsp[-3].minor.yy203->a; assert( pOld->fg.fixedSchema==0 ); pNew->zName = pOld->zName; assert( pOld->fg.fixedSchema==0 ); @@ -181723,12 +183887,12 @@ static YYACTIONTYPE yy_reduce( } pOld->zName = 0; } - sqlite3SrcListDelete(pParse->db, yymsp[-3].minor.yy563); + sqlite3SrcListDelete(pParse->db, yymsp[-3].minor.yy203); }else{ Select *pSubquery; - sqlite3SrcListShiftJoinType(pParse,yymsp[-3].minor.yy563); - pSubquery = sqlite3SelectNew(pParse,0,yymsp[-3].minor.yy563,0,0,0,0,SF_NestedFrom,0); - yymsp[-5].minor.yy563 = sqlite3SrcListAppendFromTerm(pParse,yymsp[-5].minor.yy563,0,0,&yymsp[-1].minor.yy0,pSubquery,&yymsp[0].minor.yy421); + sqlite3SrcListShiftJoinType(pParse,yymsp[-3].minor.yy203); + pSubquery = sqlite3SelectNew(pParse,0,yymsp[-3].minor.yy203,0,0,0,0,SF_NestedFrom,0); + yymsp[-5].minor.yy203 = sqlite3SrcListAppendFromTerm(pParse,yymsp[-5].minor.yy203,0,0,&yymsp[-1].minor.yy0,pSubquery,&yymsp[0].minor.yy269); } } break; @@ -181737,57 +183901,67 @@ static YYACTIONTYPE yy_reduce( {yymsp[1].minor.yy0.z=0; yymsp[1].minor.yy0.n=0;} break; case 118: /* fullname ::= nm */ + case 120: /* xfullname ::= nm */ yytestcase(yyruleno==120); { - yylhsminor.yy563 = sqlite3SrcListAppend(pParse,0,&yymsp[0].minor.yy0,0); - if( IN_RENAME_OBJECT && yylhsminor.yy563 ) sqlite3RenameTokenMap(pParse, yylhsminor.yy563->a[0].zName, &yymsp[0].minor.yy0); + yylhsminor.yy203 = sqlite3SrcListAppend(pParse,0,&yymsp[0].minor.yy0,0); + if( IN_RENAME_OBJECT && yylhsminor.yy203 ) sqlite3RenameTokenMap(pParse, yylhsminor.yy203->a[0].zName, &yymsp[0].minor.yy0); } - yymsp[0].minor.yy563 = yylhsminor.yy563; + yymsp[0].minor.yy203 = yylhsminor.yy203; break; case 119: /* fullname ::= nm DOT nm */ + case 121: /* xfullname ::= nm DOT nm */ yytestcase(yyruleno==121); { - yylhsminor.yy563 = sqlite3SrcListAppend(pParse,0,&yymsp[-2].minor.yy0,&yymsp[0].minor.yy0); - if( IN_RENAME_OBJECT && yylhsminor.yy563 ) sqlite3RenameTokenMap(pParse, yylhsminor.yy563->a[0].zName, &yymsp[0].minor.yy0); + yylhsminor.yy203 = sqlite3SrcListAppend(pParse,0,&yymsp[-2].minor.yy0,&yymsp[0].minor.yy0); + if( IN_RENAME_OBJECT && yylhsminor.yy203 ) sqlite3RenameTokenMap(pParse, yylhsminor.yy203->a[0].zName, &yymsp[0].minor.yy0); } - yymsp[-2].minor.yy563 = yylhsminor.yy563; + yymsp[-2].minor.yy203 = yylhsminor.yy203; break; - case 120: /* xfullname ::= nm */ -{yymsp[0].minor.yy563 = sqlite3SrcListAppend(pParse,0,&yymsp[0].minor.yy0,0); /*A-overwrites-X*/} - break; - case 121: /* xfullname ::= nm DOT nm */ -{yymsp[-2].minor.yy563 = sqlite3SrcListAppend(pParse,0,&yymsp[-2].minor.yy0,&yymsp[0].minor.yy0); /*A-overwrites-X*/} - break; - case 122: /* xfullname ::= nm DOT nm AS nm */ + case 122: /* xfullname ::= nm AS nm */ { - yymsp[-4].minor.yy563 = sqlite3SrcListAppend(pParse,0,&yymsp[-4].minor.yy0,&yymsp[-2].minor.yy0); /*A-overwrites-X*/ - if( yymsp[-4].minor.yy563 ) yymsp[-4].minor.yy563->a[0].zAlias = sqlite3NameFromToken(pParse->db, &yymsp[0].minor.yy0); + yylhsminor.yy203 = sqlite3SrcListAppend(pParse,0,&yymsp[-2].minor.yy0,0); + if( yylhsminor.yy203 ){ + if( IN_RENAME_OBJECT ){ + sqlite3RenameTokenMap(pParse, yylhsminor.yy203->a[0].zName, &yymsp[-2].minor.yy0); + }else{ + yylhsminor.yy203->a[0].zAlias = sqlite3NameFromToken(pParse->db, &yymsp[0].minor.yy0); + } + } } + yymsp[-2].minor.yy203 = yylhsminor.yy203; break; - case 123: /* xfullname ::= nm AS nm */ + case 123: /* xfullname ::= nm DOT nm AS nm */ { - yymsp[-2].minor.yy563 = sqlite3SrcListAppend(pParse,0,&yymsp[-2].minor.yy0,0); /*A-overwrites-X*/ - if( yymsp[-2].minor.yy563 ) yymsp[-2].minor.yy563->a[0].zAlias = sqlite3NameFromToken(pParse->db, &yymsp[0].minor.yy0); + yylhsminor.yy203 = sqlite3SrcListAppend(pParse,0,&yymsp[-4].minor.yy0,&yymsp[-2].minor.yy0); + if( yylhsminor.yy203 ){ + if( IN_RENAME_OBJECT ){ + sqlite3RenameTokenMap(pParse, yylhsminor.yy203->a[0].zName, &yymsp[-2].minor.yy0); + }else{ + yylhsminor.yy203->a[0].zAlias = sqlite3NameFromToken(pParse->db, &yymsp[0].minor.yy0); + } + } } + yymsp[-4].minor.yy203 = yylhsminor.yy203; break; case 124: /* joinop ::= COMMA|JOIN */ -{ yymsp[0].minor.yy502 = JT_INNER; } +{ yymsp[0].minor.yy144 = JT_INNER; } break; case 125: /* joinop ::= JOIN_KW JOIN */ -{yymsp[-1].minor.yy502 = sqlite3JoinType(pParse,&yymsp[-1].minor.yy0,0,0); /*X-overwrites-A*/} +{yymsp[-1].minor.yy144 = sqlite3JoinType(pParse,&yymsp[-1].minor.yy0,0,0); /*X-overwrites-A*/} break; case 126: /* joinop ::= JOIN_KW nm JOIN */ -{yymsp[-2].minor.yy502 = sqlite3JoinType(pParse,&yymsp[-2].minor.yy0,&yymsp[-1].minor.yy0,0); /*X-overwrites-A*/} +{yymsp[-2].minor.yy144 = sqlite3JoinType(pParse,&yymsp[-2].minor.yy0,&yymsp[-1].minor.yy0,0); /*X-overwrites-A*/} break; case 127: /* joinop ::= JOIN_KW nm nm JOIN */ -{yymsp[-3].minor.yy502 = sqlite3JoinType(pParse,&yymsp[-3].minor.yy0,&yymsp[-2].minor.yy0,&yymsp[-1].minor.yy0);/*X-overwrites-A*/} +{yymsp[-3].minor.yy144 = sqlite3JoinType(pParse,&yymsp[-3].minor.yy0,&yymsp[-2].minor.yy0,&yymsp[-1].minor.yy0);/*X-overwrites-A*/} break; case 128: /* on_using ::= ON expr */ -{yymsp[-1].minor.yy421.pOn = yymsp[0].minor.yy590; yymsp[-1].minor.yy421.pUsing = 0;} +{yymsp[-1].minor.yy269.pOn = yymsp[0].minor.yy454; yymsp[-1].minor.yy269.pUsing = 0;} break; case 129: /* on_using ::= USING LP idlist RP */ -{yymsp[-3].minor.yy421.pOn = 0; yymsp[-3].minor.yy421.pUsing = yymsp[-1].minor.yy204;} +{yymsp[-3].minor.yy269.pOn = 0; yymsp[-3].minor.yy269.pUsing = yymsp[-1].minor.yy132;} break; case 130: /* on_using ::= */ -{yymsp[1].minor.yy421.pOn = 0; yymsp[1].minor.yy421.pUsing = 0;} +{yymsp[1].minor.yy269.pOn = 0; yymsp[1].minor.yy269.pUsing = 0;} break; case 132: /* indexed_by ::= INDEXED BY nm */ {yymsp[-2].minor.yy0 = yymsp[0].minor.yy0;} @@ -181797,35 +183971,35 @@ static YYACTIONTYPE yy_reduce( break; case 135: /* orderby_opt ::= ORDER BY sortlist */ case 145: /* groupby_opt ::= GROUP BY nexprlist */ yytestcase(yyruleno==145); -{yymsp[-2].minor.yy402 = yymsp[0].minor.yy402;} +{yymsp[-2].minor.yy14 = yymsp[0].minor.yy14;} break; case 136: /* sortlist ::= sortlist COMMA expr sortorder nulls */ { - yymsp[-4].minor.yy402 = sqlite3ExprListAppend(pParse,yymsp[-4].minor.yy402,yymsp[-2].minor.yy590); - sqlite3ExprListSetSortOrder(yymsp[-4].minor.yy402,yymsp[-1].minor.yy502,yymsp[0].minor.yy502); + yymsp[-4].minor.yy14 = sqlite3ExprListAppend(pParse,yymsp[-4].minor.yy14,yymsp[-2].minor.yy454); + sqlite3ExprListSetSortOrder(yymsp[-4].minor.yy14,yymsp[-1].minor.yy144,yymsp[0].minor.yy144); } break; case 137: /* sortlist ::= expr sortorder nulls */ { - yymsp[-2].minor.yy402 = sqlite3ExprListAppend(pParse,0,yymsp[-2].minor.yy590); /*A-overwrites-Y*/ - sqlite3ExprListSetSortOrder(yymsp[-2].minor.yy402,yymsp[-1].minor.yy502,yymsp[0].minor.yy502); + yymsp[-2].minor.yy14 = sqlite3ExprListAppend(pParse,0,yymsp[-2].minor.yy454); /*A-overwrites-Y*/ + sqlite3ExprListSetSortOrder(yymsp[-2].minor.yy14,yymsp[-1].minor.yy144,yymsp[0].minor.yy144); } break; case 138: /* sortorder ::= ASC */ -{yymsp[0].minor.yy502 = SQLITE_SO_ASC;} +{yymsp[0].minor.yy144 = SQLITE_SO_ASC;} break; case 139: /* sortorder ::= DESC */ -{yymsp[0].minor.yy502 = SQLITE_SO_DESC;} +{yymsp[0].minor.yy144 = SQLITE_SO_DESC;} break; case 140: /* sortorder ::= */ case 143: /* nulls ::= */ yytestcase(yyruleno==143); -{yymsp[1].minor.yy502 = SQLITE_SO_UNDEFINED;} +{yymsp[1].minor.yy144 = SQLITE_SO_UNDEFINED;} break; case 141: /* nulls ::= NULLS FIRST */ -{yymsp[-1].minor.yy502 = SQLITE_SO_ASC;} +{yymsp[-1].minor.yy144 = SQLITE_SO_ASC;} break; case 142: /* nulls ::= NULLS LAST */ -{yymsp[-1].minor.yy502 = SQLITE_SO_DESC;} +{yymsp[-1].minor.yy144 = SQLITE_SO_DESC;} break; case 146: /* having_opt ::= */ case 148: /* limit_opt ::= */ yytestcase(yyruleno==148); @@ -181834,42 +184008,42 @@ static YYACTIONTYPE yy_reduce( case 232: /* case_else ::= */ yytestcase(yyruleno==232); case 233: /* case_operand ::= */ yytestcase(yyruleno==233); case 252: /* vinto ::= */ yytestcase(yyruleno==252); -{yymsp[1].minor.yy590 = 0;} +{yymsp[1].minor.yy454 = 0;} break; case 147: /* having_opt ::= HAVING expr */ case 154: /* where_opt ::= WHERE expr */ yytestcase(yyruleno==154); case 156: /* where_opt_ret ::= WHERE expr */ yytestcase(yyruleno==156); case 231: /* case_else ::= ELSE expr */ yytestcase(yyruleno==231); case 251: /* vinto ::= INTO expr */ yytestcase(yyruleno==251); -{yymsp[-1].minor.yy590 = yymsp[0].minor.yy590;} +{yymsp[-1].minor.yy454 = yymsp[0].minor.yy454;} break; case 149: /* limit_opt ::= LIMIT expr */ -{yymsp[-1].minor.yy590 = sqlite3PExpr(pParse,TK_LIMIT,yymsp[0].minor.yy590,0);} +{yymsp[-1].minor.yy454 = sqlite3PExpr(pParse,TK_LIMIT,yymsp[0].minor.yy454,0);} break; case 150: /* limit_opt ::= LIMIT expr OFFSET expr */ -{yymsp[-3].minor.yy590 = sqlite3PExpr(pParse,TK_LIMIT,yymsp[-2].minor.yy590,yymsp[0].minor.yy590);} +{yymsp[-3].minor.yy454 = sqlite3PExpr(pParse,TK_LIMIT,yymsp[-2].minor.yy454,yymsp[0].minor.yy454);} break; case 151: /* limit_opt ::= LIMIT expr COMMA expr */ -{yymsp[-3].minor.yy590 = sqlite3PExpr(pParse,TK_LIMIT,yymsp[0].minor.yy590,yymsp[-2].minor.yy590);} +{yymsp[-3].minor.yy454 = sqlite3PExpr(pParse,TK_LIMIT,yymsp[0].minor.yy454,yymsp[-2].minor.yy454);} break; case 152: /* cmd ::= with DELETE FROM xfullname indexed_opt where_opt_ret */ { - sqlite3SrcListIndexedBy(pParse, yymsp[-2].minor.yy563, &yymsp[-1].minor.yy0); - sqlite3DeleteFrom(pParse,yymsp[-2].minor.yy563,yymsp[0].minor.yy590,0,0); + sqlite3SrcListIndexedBy(pParse, yymsp[-2].minor.yy203, &yymsp[-1].minor.yy0); + sqlite3DeleteFrom(pParse,yymsp[-2].minor.yy203,yymsp[0].minor.yy454,0,0); } break; case 157: /* where_opt_ret ::= RETURNING selcollist */ -{sqlite3AddReturning(pParse,yymsp[0].minor.yy402); yymsp[-1].minor.yy590 = 0;} +{sqlite3AddReturning(pParse,yymsp[0].minor.yy14); yymsp[-1].minor.yy454 = 0;} break; case 158: /* where_opt_ret ::= WHERE expr RETURNING selcollist */ -{sqlite3AddReturning(pParse,yymsp[0].minor.yy402); yymsp[-3].minor.yy590 = yymsp[-2].minor.yy590;} +{sqlite3AddReturning(pParse,yymsp[0].minor.yy14); yymsp[-3].minor.yy454 = yymsp[-2].minor.yy454;} break; case 159: /* cmd ::= with UPDATE orconf xfullname indexed_opt SET setlist from where_opt_ret */ { - sqlite3SrcListIndexedBy(pParse, yymsp[-5].minor.yy563, &yymsp[-4].minor.yy0); - sqlite3ExprListCheckLength(pParse,yymsp[-2].minor.yy402,"set list"); - if( yymsp[-1].minor.yy563 ){ - SrcList *pFromClause = yymsp[-1].minor.yy563; + sqlite3SrcListIndexedBy(pParse, yymsp[-5].minor.yy203, &yymsp[-4].minor.yy0); + sqlite3ExprListCheckLength(pParse,yymsp[-2].minor.yy14,"set list"); + if( yymsp[-1].minor.yy203 ){ + SrcList *pFromClause = yymsp[-1].minor.yy203; if( pFromClause->nSrc>1 ){ Select *pSubquery; Token as; @@ -181878,90 +184052,90 @@ static YYACTIONTYPE yy_reduce( as.z = 0; pFromClause = sqlite3SrcListAppendFromTerm(pParse,0,0,0,&as,pSubquery,0); } - yymsp[-5].minor.yy563 = sqlite3SrcListAppendList(pParse, yymsp[-5].minor.yy563, pFromClause); + yymsp[-5].minor.yy203 = sqlite3SrcListAppendList(pParse, yymsp[-5].minor.yy203, pFromClause); } - sqlite3Update(pParse,yymsp[-5].minor.yy563,yymsp[-2].minor.yy402,yymsp[0].minor.yy590,yymsp[-6].minor.yy502,0,0,0); + sqlite3Update(pParse,yymsp[-5].minor.yy203,yymsp[-2].minor.yy14,yymsp[0].minor.yy454,yymsp[-6].minor.yy144,0,0,0); } break; case 160: /* setlist ::= setlist COMMA nm EQ expr */ { - yymsp[-4].minor.yy402 = sqlite3ExprListAppend(pParse, yymsp[-4].minor.yy402, yymsp[0].minor.yy590); - sqlite3ExprListSetName(pParse, yymsp[-4].minor.yy402, &yymsp[-2].minor.yy0, 1); + yymsp[-4].minor.yy14 = sqlite3ExprListAppend(pParse, yymsp[-4].minor.yy14, yymsp[0].minor.yy454); + sqlite3ExprListSetName(pParse, yymsp[-4].minor.yy14, &yymsp[-2].minor.yy0, 1); } break; case 161: /* setlist ::= setlist COMMA LP idlist RP EQ expr */ { - yymsp[-6].minor.yy402 = sqlite3ExprListAppendVector(pParse, yymsp[-6].minor.yy402, yymsp[-3].minor.yy204, yymsp[0].minor.yy590); + yymsp[-6].minor.yy14 = sqlite3ExprListAppendVector(pParse, yymsp[-6].minor.yy14, yymsp[-3].minor.yy132, yymsp[0].minor.yy454); } break; case 162: /* setlist ::= nm EQ expr */ { - yylhsminor.yy402 = sqlite3ExprListAppend(pParse, 0, yymsp[0].minor.yy590); - sqlite3ExprListSetName(pParse, yylhsminor.yy402, &yymsp[-2].minor.yy0, 1); + yylhsminor.yy14 = sqlite3ExprListAppend(pParse, 0, yymsp[0].minor.yy454); + sqlite3ExprListSetName(pParse, yylhsminor.yy14, &yymsp[-2].minor.yy0, 1); } - yymsp[-2].minor.yy402 = yylhsminor.yy402; + yymsp[-2].minor.yy14 = yylhsminor.yy14; break; case 163: /* setlist ::= LP idlist RP EQ expr */ { - yymsp[-4].minor.yy402 = sqlite3ExprListAppendVector(pParse, 0, yymsp[-3].minor.yy204, yymsp[0].minor.yy590); + yymsp[-4].minor.yy14 = sqlite3ExprListAppendVector(pParse, 0, yymsp[-3].minor.yy132, yymsp[0].minor.yy454); } break; case 164: /* cmd ::= with insert_cmd INTO xfullname idlist_opt select upsert */ { - sqlite3Insert(pParse, yymsp[-3].minor.yy563, yymsp[-1].minor.yy637, yymsp[-2].minor.yy204, yymsp[-5].minor.yy502, yymsp[0].minor.yy403); + sqlite3Insert(pParse, yymsp[-3].minor.yy203, yymsp[-1].minor.yy555, yymsp[-2].minor.yy132, yymsp[-5].minor.yy144, yymsp[0].minor.yy122); } break; case 165: /* cmd ::= with insert_cmd INTO xfullname idlist_opt DEFAULT VALUES returning */ { - sqlite3Insert(pParse, yymsp[-4].minor.yy563, 0, yymsp[-3].minor.yy204, yymsp[-6].minor.yy502, 0); + sqlite3Insert(pParse, yymsp[-4].minor.yy203, 0, yymsp[-3].minor.yy132, yymsp[-6].minor.yy144, 0); } break; case 166: /* upsert ::= */ -{ yymsp[1].minor.yy403 = 0; } +{ yymsp[1].minor.yy122 = 0; } break; case 167: /* upsert ::= RETURNING selcollist */ -{ yymsp[-1].minor.yy403 = 0; sqlite3AddReturning(pParse,yymsp[0].minor.yy402); } +{ yymsp[-1].minor.yy122 = 0; sqlite3AddReturning(pParse,yymsp[0].minor.yy14); } break; case 168: /* upsert ::= ON CONFLICT LP sortlist RP where_opt DO UPDATE SET setlist where_opt upsert */ -{ yymsp[-11].minor.yy403 = sqlite3UpsertNew(pParse->db,yymsp[-8].minor.yy402,yymsp[-6].minor.yy590,yymsp[-2].minor.yy402,yymsp[-1].minor.yy590,yymsp[0].minor.yy403);} +{ yymsp[-11].minor.yy122 = sqlite3UpsertNew(pParse->db,yymsp[-8].minor.yy14,yymsp[-6].minor.yy454,yymsp[-2].minor.yy14,yymsp[-1].minor.yy454,yymsp[0].minor.yy122);} break; case 169: /* upsert ::= ON CONFLICT LP sortlist RP where_opt DO NOTHING upsert */ -{ yymsp[-8].minor.yy403 = sqlite3UpsertNew(pParse->db,yymsp[-5].minor.yy402,yymsp[-3].minor.yy590,0,0,yymsp[0].minor.yy403); } +{ yymsp[-8].minor.yy122 = sqlite3UpsertNew(pParse->db,yymsp[-5].minor.yy14,yymsp[-3].minor.yy454,0,0,yymsp[0].minor.yy122); } break; case 170: /* upsert ::= ON CONFLICT DO NOTHING returning */ -{ yymsp[-4].minor.yy403 = sqlite3UpsertNew(pParse->db,0,0,0,0,0); } +{ yymsp[-4].minor.yy122 = sqlite3UpsertNew(pParse->db,0,0,0,0,0); } break; case 171: /* upsert ::= ON CONFLICT DO UPDATE SET setlist where_opt returning */ -{ yymsp[-7].minor.yy403 = sqlite3UpsertNew(pParse->db,0,0,yymsp[-2].minor.yy402,yymsp[-1].minor.yy590,0);} +{ yymsp[-7].minor.yy122 = sqlite3UpsertNew(pParse->db,0,0,yymsp[-2].minor.yy14,yymsp[-1].minor.yy454,0);} break; case 172: /* returning ::= RETURNING selcollist */ -{sqlite3AddReturning(pParse,yymsp[0].minor.yy402);} +{sqlite3AddReturning(pParse,yymsp[0].minor.yy14);} break; case 175: /* idlist_opt ::= */ -{yymsp[1].minor.yy204 = 0;} +{yymsp[1].minor.yy132 = 0;} break; case 176: /* idlist_opt ::= LP idlist RP */ -{yymsp[-2].minor.yy204 = yymsp[-1].minor.yy204;} +{yymsp[-2].minor.yy132 = yymsp[-1].minor.yy132;} break; case 177: /* idlist ::= idlist COMMA nm */ -{yymsp[-2].minor.yy204 = sqlite3IdListAppend(pParse,yymsp[-2].minor.yy204,&yymsp[0].minor.yy0);} +{yymsp[-2].minor.yy132 = sqlite3IdListAppend(pParse,yymsp[-2].minor.yy132,&yymsp[0].minor.yy0);} break; case 178: /* idlist ::= nm */ -{yymsp[0].minor.yy204 = sqlite3IdListAppend(pParse,0,&yymsp[0].minor.yy0); /*A-overwrites-Y*/} +{yymsp[0].minor.yy132 = sqlite3IdListAppend(pParse,0,&yymsp[0].minor.yy0); /*A-overwrites-Y*/} break; case 179: /* expr ::= LP expr RP */ -{yymsp[-2].minor.yy590 = yymsp[-1].minor.yy590;} +{yymsp[-2].minor.yy454 = yymsp[-1].minor.yy454;} break; case 180: /* expr ::= ID|INDEXED|JOIN_KW */ -{yymsp[0].minor.yy590=tokenExpr(pParse,TK_ID,yymsp[0].minor.yy0); /*A-overwrites-X*/} +{yymsp[0].minor.yy454=tokenExpr(pParse,TK_ID,yymsp[0].minor.yy0); /*A-overwrites-X*/} break; case 181: /* expr ::= nm DOT nm */ { Expr *temp1 = tokenExpr(pParse,TK_ID,yymsp[-2].minor.yy0); Expr *temp2 = tokenExpr(pParse,TK_ID,yymsp[0].minor.yy0); - yylhsminor.yy590 = sqlite3PExpr(pParse, TK_DOT, temp1, temp2); + yylhsminor.yy454 = sqlite3PExpr(pParse, TK_DOT, temp1, temp2); } - yymsp[-2].minor.yy590 = yylhsminor.yy590; + yymsp[-2].minor.yy454 = yylhsminor.yy454; break; case 182: /* expr ::= nm DOT nm DOT nm */ { @@ -181972,27 +184146,32 @@ static YYACTIONTYPE yy_reduce( if( IN_RENAME_OBJECT ){ sqlite3RenameTokenRemap(pParse, 0, temp1); } - yylhsminor.yy590 = sqlite3PExpr(pParse, TK_DOT, temp1, temp4); + yylhsminor.yy454 = sqlite3PExpr(pParse, TK_DOT, temp1, temp4); } - yymsp[-4].minor.yy590 = yylhsminor.yy590; + yymsp[-4].minor.yy454 = yylhsminor.yy454; break; case 183: /* term ::= NULL|FLOAT|BLOB */ case 184: /* term ::= STRING */ yytestcase(yyruleno==184); -{yymsp[0].minor.yy590=tokenExpr(pParse,yymsp[0].major,yymsp[0].minor.yy0); /*A-overwrites-X*/} +{yymsp[0].minor.yy454=tokenExpr(pParse,yymsp[0].major,yymsp[0].minor.yy0); /*A-overwrites-X*/} break; case 185: /* term ::= INTEGER */ { - yylhsminor.yy590 = sqlite3ExprAlloc(pParse->db, TK_INTEGER, &yymsp[0].minor.yy0, 1); - if( yylhsminor.yy590 ) yylhsminor.yy590->w.iOfst = (int)(yymsp[0].minor.yy0.z - pParse->zTail); + int iValue; + if( sqlite3GetInt32(yymsp[0].minor.yy0.z, &iValue)==0 ){ + yylhsminor.yy454 = sqlite3ExprAlloc(pParse->db, TK_INTEGER, &yymsp[0].minor.yy0, 0); + }else{ + yylhsminor.yy454 = sqlite3ExprInt32(pParse->db, iValue); + } + if( yylhsminor.yy454 ) yylhsminor.yy454->w.iOfst = (int)(yymsp[0].minor.yy0.z - pParse->zTail); } - yymsp[0].minor.yy590 = yylhsminor.yy590; + yymsp[0].minor.yy454 = yylhsminor.yy454; break; case 186: /* expr ::= VARIABLE */ { if( !(yymsp[0].minor.yy0.z[0]=='#' && sqlite3Isdigit(yymsp[0].minor.yy0.z[1])) ){ u32 n = yymsp[0].minor.yy0.n; - yymsp[0].minor.yy590 = tokenExpr(pParse, TK_VARIABLE, yymsp[0].minor.yy0); - sqlite3ExprAssignVarNumber(pParse, yymsp[0].minor.yy590, n); + yymsp[0].minor.yy454 = tokenExpr(pParse, TK_VARIABLE, yymsp[0].minor.yy0); + sqlite3ExprAssignVarNumber(pParse, yymsp[0].minor.yy454, n); }else{ /* When doing a nested parse, one can include terms in an expression ** that look like this: #1 #2 ... These terms refer to registers @@ -182001,80 +184180,80 @@ static YYACTIONTYPE yy_reduce( assert( t.n>=2 ); if( pParse->nested==0 ){ parserSyntaxError(pParse, &t); - yymsp[0].minor.yy590 = 0; + yymsp[0].minor.yy454 = 0; }else{ - yymsp[0].minor.yy590 = sqlite3PExpr(pParse, TK_REGISTER, 0, 0); - if( yymsp[0].minor.yy590 ) sqlite3GetInt32(&t.z[1], &yymsp[0].minor.yy590->iTable); + yymsp[0].minor.yy454 = sqlite3PExpr(pParse, TK_REGISTER, 0, 0); + if( yymsp[0].minor.yy454 ) sqlite3GetInt32(&t.z[1], &yymsp[0].minor.yy454->iTable); } } } break; case 187: /* expr ::= expr COLLATE ID|STRING */ { - yymsp[-2].minor.yy590 = sqlite3ExprAddCollateToken(pParse, yymsp[-2].minor.yy590, &yymsp[0].minor.yy0, 1); + yymsp[-2].minor.yy454 = sqlite3ExprAddCollateToken(pParse, yymsp[-2].minor.yy454, &yymsp[0].minor.yy0, 1); } break; case 188: /* expr ::= CAST LP expr AS typetoken RP */ { - yymsp[-5].minor.yy590 = sqlite3ExprAlloc(pParse->db, TK_CAST, &yymsp[-1].minor.yy0, 1); - sqlite3ExprAttachSubtrees(pParse->db, yymsp[-5].minor.yy590, yymsp[-3].minor.yy590, 0); + yymsp[-5].minor.yy454 = sqlite3ExprAlloc(pParse->db, TK_CAST, &yymsp[-1].minor.yy0, 1); + sqlite3ExprAttachSubtrees(pParse->db, yymsp[-5].minor.yy454, yymsp[-3].minor.yy454, 0); } break; case 189: /* expr ::= ID|INDEXED|JOIN_KW LP distinct exprlist RP */ { - yylhsminor.yy590 = sqlite3ExprFunction(pParse, yymsp[-1].minor.yy402, &yymsp[-4].minor.yy0, yymsp[-2].minor.yy502); + yylhsminor.yy454 = sqlite3ExprFunction(pParse, yymsp[-1].minor.yy14, &yymsp[-4].minor.yy0, yymsp[-2].minor.yy144); } - yymsp[-4].minor.yy590 = yylhsminor.yy590; + yymsp[-4].minor.yy454 = yylhsminor.yy454; break; case 190: /* expr ::= ID|INDEXED|JOIN_KW LP distinct exprlist ORDER BY sortlist RP */ { - yylhsminor.yy590 = sqlite3ExprFunction(pParse, yymsp[-4].minor.yy402, &yymsp[-7].minor.yy0, yymsp[-5].minor.yy502); - sqlite3ExprAddFunctionOrderBy(pParse, yylhsminor.yy590, yymsp[-1].minor.yy402); + yylhsminor.yy454 = sqlite3ExprFunction(pParse, yymsp[-4].minor.yy14, &yymsp[-7].minor.yy0, yymsp[-5].minor.yy144); + sqlite3ExprAddFunctionOrderBy(pParse, yylhsminor.yy454, yymsp[-1].minor.yy14); } - yymsp[-7].minor.yy590 = yylhsminor.yy590; + yymsp[-7].minor.yy454 = yylhsminor.yy454; break; case 191: /* expr ::= ID|INDEXED|JOIN_KW LP STAR RP */ { - yylhsminor.yy590 = sqlite3ExprFunction(pParse, 0, &yymsp[-3].minor.yy0, 0); + yylhsminor.yy454 = sqlite3ExprFunction(pParse, 0, &yymsp[-3].minor.yy0, 0); } - yymsp[-3].minor.yy590 = yylhsminor.yy590; + yymsp[-3].minor.yy454 = yylhsminor.yy454; break; case 192: /* expr ::= ID|INDEXED|JOIN_KW LP distinct exprlist RP filter_over */ { - yylhsminor.yy590 = sqlite3ExprFunction(pParse, yymsp[-2].minor.yy402, &yymsp[-5].minor.yy0, yymsp[-3].minor.yy502); - sqlite3WindowAttach(pParse, yylhsminor.yy590, yymsp[0].minor.yy483); + yylhsminor.yy454 = sqlite3ExprFunction(pParse, yymsp[-2].minor.yy14, &yymsp[-5].minor.yy0, yymsp[-3].minor.yy144); + sqlite3WindowAttach(pParse, yylhsminor.yy454, yymsp[0].minor.yy211); } - yymsp[-5].minor.yy590 = yylhsminor.yy590; + yymsp[-5].minor.yy454 = yylhsminor.yy454; break; case 193: /* expr ::= ID|INDEXED|JOIN_KW LP distinct exprlist ORDER BY sortlist RP filter_over */ { - yylhsminor.yy590 = sqlite3ExprFunction(pParse, yymsp[-5].minor.yy402, &yymsp[-8].minor.yy0, yymsp[-6].minor.yy502); - sqlite3WindowAttach(pParse, yylhsminor.yy590, yymsp[0].minor.yy483); - sqlite3ExprAddFunctionOrderBy(pParse, yylhsminor.yy590, yymsp[-2].minor.yy402); + yylhsminor.yy454 = sqlite3ExprFunction(pParse, yymsp[-5].minor.yy14, &yymsp[-8].minor.yy0, yymsp[-6].minor.yy144); + sqlite3WindowAttach(pParse, yylhsminor.yy454, yymsp[0].minor.yy211); + sqlite3ExprAddFunctionOrderBy(pParse, yylhsminor.yy454, yymsp[-2].minor.yy14); } - yymsp[-8].minor.yy590 = yylhsminor.yy590; + yymsp[-8].minor.yy454 = yylhsminor.yy454; break; case 194: /* expr ::= ID|INDEXED|JOIN_KW LP STAR RP filter_over */ { - yylhsminor.yy590 = sqlite3ExprFunction(pParse, 0, &yymsp[-4].minor.yy0, 0); - sqlite3WindowAttach(pParse, yylhsminor.yy590, yymsp[0].minor.yy483); + yylhsminor.yy454 = sqlite3ExprFunction(pParse, 0, &yymsp[-4].minor.yy0, 0); + sqlite3WindowAttach(pParse, yylhsminor.yy454, yymsp[0].minor.yy211); } - yymsp[-4].minor.yy590 = yylhsminor.yy590; + yymsp[-4].minor.yy454 = yylhsminor.yy454; break; case 195: /* term ::= CTIME_KW */ { - yylhsminor.yy590 = sqlite3ExprFunction(pParse, 0, &yymsp[0].minor.yy0, 0); + yylhsminor.yy454 = sqlite3ExprFunction(pParse, 0, &yymsp[0].minor.yy0, 0); } - yymsp[0].minor.yy590 = yylhsminor.yy590; + yymsp[0].minor.yy454 = yylhsminor.yy454; break; case 196: /* expr ::= LP nexprlist COMMA expr RP */ { - ExprList *pList = sqlite3ExprListAppend(pParse, yymsp[-3].minor.yy402, yymsp[-1].minor.yy590); - yymsp[-4].minor.yy590 = sqlite3PExpr(pParse, TK_VECTOR, 0, 0); - if( yymsp[-4].minor.yy590 ){ - yymsp[-4].minor.yy590->x.pList = pList; + ExprList *pList = sqlite3ExprListAppend(pParse, yymsp[-3].minor.yy14, yymsp[-1].minor.yy454); + yymsp[-4].minor.yy454 = sqlite3PExpr(pParse, TK_VECTOR, 0, 0); + if( yymsp[-4].minor.yy454 ){ + yymsp[-4].minor.yy454->x.pList = pList; if( ALWAYS(pList->nExpr) ){ - yymsp[-4].minor.yy590->flags |= pList->a[0].pExpr->flags & EP_Propagate; + yymsp[-4].minor.yy454->flags |= pList->a[0].pExpr->flags & EP_Propagate; } }else{ sqlite3ExprListDelete(pParse->db, pList); @@ -182082,7 +184261,7 @@ static YYACTIONTYPE yy_reduce( } break; case 197: /* expr ::= expr AND expr */ -{yymsp[-2].minor.yy590=sqlite3ExprAnd(pParse,yymsp[-2].minor.yy590,yymsp[0].minor.yy590);} +{yymsp[-2].minor.yy454=sqlite3ExprAnd(pParse,yymsp[-2].minor.yy454,yymsp[0].minor.yy454);} break; case 198: /* expr ::= expr OR expr */ case 199: /* expr ::= expr LT|GT|GE|LE expr */ yytestcase(yyruleno==199); @@ -182091,7 +184270,7 @@ static YYACTIONTYPE yy_reduce( case 202: /* expr ::= expr PLUS|MINUS expr */ yytestcase(yyruleno==202); case 203: /* expr ::= expr STAR|SLASH|REM expr */ yytestcase(yyruleno==203); case 204: /* expr ::= expr CONCAT expr */ yytestcase(yyruleno==204); -{yymsp[-2].minor.yy590=sqlite3PExpr(pParse,yymsp[-1].major,yymsp[-2].minor.yy590,yymsp[0].minor.yy590);} +{yymsp[-2].minor.yy454=sqlite3PExpr(pParse,yymsp[-1].major,yymsp[-2].minor.yy454,yymsp[0].minor.yy454);} break; case 205: /* likeop ::= NOT LIKE_KW|MATCH */ {yymsp[-1].minor.yy0=yymsp[0].minor.yy0; yymsp[-1].minor.yy0.n|=0x80000000; /*yymsp[-1].minor.yy0-overwrite-yymsp[0].minor.yy0*/} @@ -182101,11 +184280,11 @@ static YYACTIONTYPE yy_reduce( ExprList *pList; int bNot = yymsp[-1].minor.yy0.n & 0x80000000; yymsp[-1].minor.yy0.n &= 0x7fffffff; - pList = sqlite3ExprListAppend(pParse,0, yymsp[0].minor.yy590); - pList = sqlite3ExprListAppend(pParse,pList, yymsp[-2].minor.yy590); - yymsp[-2].minor.yy590 = sqlite3ExprFunction(pParse, pList, &yymsp[-1].minor.yy0, 0); - if( bNot ) yymsp[-2].minor.yy590 = sqlite3PExpr(pParse, TK_NOT, yymsp[-2].minor.yy590, 0); - if( yymsp[-2].minor.yy590 ) yymsp[-2].minor.yy590->flags |= EP_InfixFunc; + pList = sqlite3ExprListAppend(pParse,0, yymsp[0].minor.yy454); + pList = sqlite3ExprListAppend(pParse,pList, yymsp[-2].minor.yy454); + yymsp[-2].minor.yy454 = sqlite3ExprFunction(pParse, pList, &yymsp[-1].minor.yy0, 0); + if( bNot ) yymsp[-2].minor.yy454 = sqlite3PExpr(pParse, TK_NOT, yymsp[-2].minor.yy454, 0); + if( yymsp[-2].minor.yy454 ) yymsp[-2].minor.yy454->flags |= EP_InfixFunc; } break; case 207: /* expr ::= expr likeop expr ESCAPE expr */ @@ -182113,91 +184292,88 @@ static YYACTIONTYPE yy_reduce( ExprList *pList; int bNot = yymsp[-3].minor.yy0.n & 0x80000000; yymsp[-3].minor.yy0.n &= 0x7fffffff; - pList = sqlite3ExprListAppend(pParse,0, yymsp[-2].minor.yy590); - pList = sqlite3ExprListAppend(pParse,pList, yymsp[-4].minor.yy590); - pList = sqlite3ExprListAppend(pParse,pList, yymsp[0].minor.yy590); - yymsp[-4].minor.yy590 = sqlite3ExprFunction(pParse, pList, &yymsp[-3].minor.yy0, 0); - if( bNot ) yymsp[-4].minor.yy590 = sqlite3PExpr(pParse, TK_NOT, yymsp[-4].minor.yy590, 0); - if( yymsp[-4].minor.yy590 ) yymsp[-4].minor.yy590->flags |= EP_InfixFunc; + pList = sqlite3ExprListAppend(pParse,0, yymsp[-2].minor.yy454); + pList = sqlite3ExprListAppend(pParse,pList, yymsp[-4].minor.yy454); + pList = sqlite3ExprListAppend(pParse,pList, yymsp[0].minor.yy454); + yymsp[-4].minor.yy454 = sqlite3ExprFunction(pParse, pList, &yymsp[-3].minor.yy0, 0); + if( bNot ) yymsp[-4].minor.yy454 = sqlite3PExpr(pParse, TK_NOT, yymsp[-4].minor.yy454, 0); + if( yymsp[-4].minor.yy454 ) yymsp[-4].minor.yy454->flags |= EP_InfixFunc; } break; case 208: /* expr ::= expr ISNULL|NOTNULL */ -{yymsp[-1].minor.yy590 = sqlite3PExpr(pParse,yymsp[0].major,yymsp[-1].minor.yy590,0);} +{yymsp[-1].minor.yy454 = sqlite3PExprIsNull(pParse,yymsp[0].major,yymsp[-1].minor.yy454);} break; case 209: /* expr ::= expr NOT NULL */ -{yymsp[-2].minor.yy590 = sqlite3PExpr(pParse,TK_NOTNULL,yymsp[-2].minor.yy590,0);} +{yymsp[-2].minor.yy454 = sqlite3PExprIsNull(pParse,TK_NOTNULL,yymsp[-2].minor.yy454);} break; case 210: /* expr ::= expr IS expr */ { - yymsp[-2].minor.yy590 = sqlite3PExpr(pParse,TK_IS,yymsp[-2].minor.yy590,yymsp[0].minor.yy590); - binaryToUnaryIfNull(pParse, yymsp[0].minor.yy590, yymsp[-2].minor.yy590, TK_ISNULL); + yymsp[-2].minor.yy454 = sqlite3PExprIs(pParse, TK_IS, yymsp[-2].minor.yy454, yymsp[0].minor.yy454); } break; case 211: /* expr ::= expr IS NOT expr */ { - yymsp[-3].minor.yy590 = sqlite3PExpr(pParse,TK_ISNOT,yymsp[-3].minor.yy590,yymsp[0].minor.yy590); - binaryToUnaryIfNull(pParse, yymsp[0].minor.yy590, yymsp[-3].minor.yy590, TK_NOTNULL); + yymsp[-3].minor.yy454 = sqlite3PExprIs(pParse, TK_ISNOT, yymsp[-3].minor.yy454, yymsp[0].minor.yy454); } break; case 212: /* expr ::= expr IS NOT DISTINCT FROM expr */ { - yymsp[-5].minor.yy590 = sqlite3PExpr(pParse,TK_IS,yymsp[-5].minor.yy590,yymsp[0].minor.yy590); - binaryToUnaryIfNull(pParse, yymsp[0].minor.yy590, yymsp[-5].minor.yy590, TK_ISNULL); + yymsp[-5].minor.yy454 = sqlite3PExprIs(pParse, TK_IS, yymsp[-5].minor.yy454, yymsp[0].minor.yy454); } break; case 213: /* expr ::= expr IS DISTINCT FROM expr */ { - yymsp[-4].minor.yy590 = sqlite3PExpr(pParse,TK_ISNOT,yymsp[-4].minor.yy590,yymsp[0].minor.yy590); - binaryToUnaryIfNull(pParse, yymsp[0].minor.yy590, yymsp[-4].minor.yy590, TK_NOTNULL); + yymsp[-4].minor.yy454 = sqlite3PExprIs(pParse, TK_ISNOT, yymsp[-4].minor.yy454, yymsp[0].minor.yy454); } break; case 214: /* expr ::= NOT expr */ case 215: /* expr ::= BITNOT expr */ yytestcase(yyruleno==215); -{yymsp[-1].minor.yy590 = sqlite3PExpr(pParse, yymsp[-1].major, yymsp[0].minor.yy590, 0);/*A-overwrites-B*/} +{yymsp[-1].minor.yy454 = sqlite3PExpr(pParse, yymsp[-1].major, yymsp[0].minor.yy454, 0);/*A-overwrites-B*/} break; case 216: /* expr ::= PLUS|MINUS expr */ { - Expr *p = yymsp[0].minor.yy590; + Expr *p = yymsp[0].minor.yy454; u8 op = yymsp[-1].major + (TK_UPLUS-TK_PLUS); assert( TK_UPLUS>TK_PLUS ); assert( TK_UMINUS == TK_MINUS + (TK_UPLUS - TK_PLUS) ); if( p && p->op==TK_UPLUS ){ p->op = op; - yymsp[-1].minor.yy590 = p; + yymsp[-1].minor.yy454 = p; }else{ - yymsp[-1].minor.yy590 = sqlite3PExpr(pParse, op, p, 0); + yymsp[-1].minor.yy454 = sqlite3PExpr(pParse, op, p, 0); /*A-overwrites-B*/ } } break; case 217: /* expr ::= expr PTR expr */ { - ExprList *pList = sqlite3ExprListAppend(pParse, 0, yymsp[-2].minor.yy590); - pList = sqlite3ExprListAppend(pParse, pList, yymsp[0].minor.yy590); - yylhsminor.yy590 = sqlite3ExprFunction(pParse, pList, &yymsp[-1].minor.yy0, 0); + ExprList *pList = sqlite3ExprListAppend(pParse, 0, yymsp[-2].minor.yy454); + pList = sqlite3ExprListAppend(pParse, pList, yymsp[0].minor.yy454); + yylhsminor.yy454 = sqlite3ExprFunction(pParse, pList, &yymsp[-1].minor.yy0, 0); } - yymsp[-2].minor.yy590 = yylhsminor.yy590; + yymsp[-2].minor.yy454 = yylhsminor.yy454; break; case 218: /* between_op ::= BETWEEN */ case 221: /* in_op ::= IN */ yytestcase(yyruleno==221); -{yymsp[0].minor.yy502 = 0;} +{yymsp[0].minor.yy144 = 0;} break; case 220: /* expr ::= expr between_op expr AND expr */ { - ExprList *pList = sqlite3ExprListAppend(pParse,0, yymsp[-2].minor.yy590); - pList = sqlite3ExprListAppend(pParse,pList, yymsp[0].minor.yy590); - yymsp[-4].minor.yy590 = sqlite3PExpr(pParse, TK_BETWEEN, yymsp[-4].minor.yy590, 0); - if( yymsp[-4].minor.yy590 ){ - yymsp[-4].minor.yy590->x.pList = pList; + ExprList *pList = sqlite3ExprListAppend(pParse,0, yymsp[-2].minor.yy454); + pList = sqlite3ExprListAppend(pParse,pList, yymsp[0].minor.yy454); + yymsp[-4].minor.yy454 = sqlite3PExpr(pParse, TK_BETWEEN, yymsp[-4].minor.yy454, 0); + if( yymsp[-4].minor.yy454 ){ + yymsp[-4].minor.yy454->x.pList = pList; + sqlite3ExprSetHeightAndFlags(pParse, yymsp[-4].minor.yy454); }else{ sqlite3ExprListDelete(pParse->db, pList); } - if( yymsp[-3].minor.yy502 ) yymsp[-4].minor.yy590 = sqlite3PExpr(pParse, TK_NOT, yymsp[-4].minor.yy590, 0); + if( yymsp[-3].minor.yy144 ) yymsp[-4].minor.yy454 = sqlite3PExpr(pParse, TK_NOT, yymsp[-4].minor.yy454, 0); } break; case 223: /* expr ::= expr in_op LP exprlist RP */ { - if( yymsp[-1].minor.yy402==0 ){ + if( yymsp[-1].minor.yy14==0 ){ /* Expressions of the form ** ** expr1 IN () @@ -182210,145 +184386,145 @@ static YYACTIONTYPE yy_reduce( ** it is or not) and if it is an aggregate, that could change the meaning ** of the whole query. */ - Expr *pB = sqlite3Expr(pParse->db, TK_STRING, yymsp[-3].minor.yy502 ? "true" : "false"); + Expr *pB = sqlite3Expr(pParse->db, TK_STRING, yymsp[-3].minor.yy144 ? "true" : "false"); if( pB ) sqlite3ExprIdToTrueFalse(pB); - if( !ExprHasProperty(yymsp[-4].minor.yy590, EP_HasFunc) ){ - sqlite3ExprUnmapAndDelete(pParse, yymsp[-4].minor.yy590); - yymsp[-4].minor.yy590 = pB; + if( !ExprHasProperty(yymsp[-4].minor.yy454, EP_HasFunc) ){ + sqlite3ExprUnmapAndDelete(pParse, yymsp[-4].minor.yy454); + yymsp[-4].minor.yy454 = pB; }else{ - yymsp[-4].minor.yy590 = sqlite3PExpr(pParse, yymsp[-3].minor.yy502 ? TK_OR : TK_AND, pB, yymsp[-4].minor.yy590); + yymsp[-4].minor.yy454 = sqlite3PExpr(pParse, yymsp[-3].minor.yy144 ? TK_OR : TK_AND, pB, yymsp[-4].minor.yy454); } }else{ - Expr *pRHS = yymsp[-1].minor.yy402->a[0].pExpr; - if( yymsp[-1].minor.yy402->nExpr==1 && sqlite3ExprIsConstant(pParse,pRHS) && yymsp[-4].minor.yy590->op!=TK_VECTOR ){ - yymsp[-1].minor.yy402->a[0].pExpr = 0; - sqlite3ExprListDelete(pParse->db, yymsp[-1].minor.yy402); + Expr *pRHS = yymsp[-1].minor.yy14->a[0].pExpr; + if( yymsp[-1].minor.yy14->nExpr==1 && sqlite3ExprIsConstant(pParse,pRHS) && yymsp[-4].minor.yy454->op!=TK_VECTOR ){ + yymsp[-1].minor.yy14->a[0].pExpr = 0; + sqlite3ExprListDelete(pParse->db, yymsp[-1].minor.yy14); pRHS = sqlite3PExpr(pParse, TK_UPLUS, pRHS, 0); - yymsp[-4].minor.yy590 = sqlite3PExpr(pParse, TK_EQ, yymsp[-4].minor.yy590, pRHS); - }else if( yymsp[-1].minor.yy402->nExpr==1 && pRHS->op==TK_SELECT ){ - yymsp[-4].minor.yy590 = sqlite3PExpr(pParse, TK_IN, yymsp[-4].minor.yy590, 0); - sqlite3PExprAddSelect(pParse, yymsp[-4].minor.yy590, pRHS->x.pSelect); + yymsp[-4].minor.yy454 = sqlite3PExpr(pParse, TK_EQ, yymsp[-4].minor.yy454, pRHS); + }else if( yymsp[-1].minor.yy14->nExpr==1 && pRHS->op==TK_SELECT ){ + yymsp[-4].minor.yy454 = sqlite3PExpr(pParse, TK_IN, yymsp[-4].minor.yy454, 0); + sqlite3PExprAddSelect(pParse, yymsp[-4].minor.yy454, pRHS->x.pSelect); pRHS->x.pSelect = 0; - sqlite3ExprListDelete(pParse->db, yymsp[-1].minor.yy402); + sqlite3ExprListDelete(pParse->db, yymsp[-1].minor.yy14); }else{ - yymsp[-4].minor.yy590 = sqlite3PExpr(pParse, TK_IN, yymsp[-4].minor.yy590, 0); - if( yymsp[-4].minor.yy590==0 ){ - sqlite3ExprListDelete(pParse->db, yymsp[-1].minor.yy402); - }else if( yymsp[-4].minor.yy590->pLeft->op==TK_VECTOR ){ - int nExpr = yymsp[-4].minor.yy590->pLeft->x.pList->nExpr; - Select *pSelectRHS = sqlite3ExprListToValues(pParse, nExpr, yymsp[-1].minor.yy402); + yymsp[-4].minor.yy454 = sqlite3PExpr(pParse, TK_IN, yymsp[-4].minor.yy454, 0); + if( yymsp[-4].minor.yy454==0 ){ + sqlite3ExprListDelete(pParse->db, yymsp[-1].minor.yy14); + }else if( yymsp[-4].minor.yy454->pLeft->op==TK_VECTOR ){ + int nExpr = yymsp[-4].minor.yy454->pLeft->x.pList->nExpr; + Select *pSelectRHS = sqlite3ExprListToValues(pParse, nExpr, yymsp[-1].minor.yy14); if( pSelectRHS ){ parserDoubleLinkSelect(pParse, pSelectRHS); - sqlite3PExprAddSelect(pParse, yymsp[-4].minor.yy590, pSelectRHS); + sqlite3PExprAddSelect(pParse, yymsp[-4].minor.yy454, pSelectRHS); } }else{ - yymsp[-4].minor.yy590->x.pList = yymsp[-1].minor.yy402; - sqlite3ExprSetHeightAndFlags(pParse, yymsp[-4].minor.yy590); + yymsp[-4].minor.yy454->x.pList = yymsp[-1].minor.yy14; + sqlite3ExprSetHeightAndFlags(pParse, yymsp[-4].minor.yy454); } } - if( yymsp[-3].minor.yy502 ) yymsp[-4].minor.yy590 = sqlite3PExpr(pParse, TK_NOT, yymsp[-4].minor.yy590, 0); + if( yymsp[-3].minor.yy144 ) yymsp[-4].minor.yy454 = sqlite3PExpr(pParse, TK_NOT, yymsp[-4].minor.yy454, 0); } } break; case 224: /* expr ::= LP select RP */ { - yymsp[-2].minor.yy590 = sqlite3PExpr(pParse, TK_SELECT, 0, 0); - sqlite3PExprAddSelect(pParse, yymsp[-2].minor.yy590, yymsp[-1].minor.yy637); + yymsp[-2].minor.yy454 = sqlite3PExpr(pParse, TK_SELECT, 0, 0); + sqlite3PExprAddSelect(pParse, yymsp[-2].minor.yy454, yymsp[-1].minor.yy555); } break; case 225: /* expr ::= expr in_op LP select RP */ { - yymsp[-4].minor.yy590 = sqlite3PExpr(pParse, TK_IN, yymsp[-4].minor.yy590, 0); - sqlite3PExprAddSelect(pParse, yymsp[-4].minor.yy590, yymsp[-1].minor.yy637); - if( yymsp[-3].minor.yy502 ) yymsp[-4].minor.yy590 = sqlite3PExpr(pParse, TK_NOT, yymsp[-4].minor.yy590, 0); + yymsp[-4].minor.yy454 = sqlite3PExpr(pParse, TK_IN, yymsp[-4].minor.yy454, 0); + sqlite3PExprAddSelect(pParse, yymsp[-4].minor.yy454, yymsp[-1].minor.yy555); + if( yymsp[-3].minor.yy144 ) yymsp[-4].minor.yy454 = sqlite3PExpr(pParse, TK_NOT, yymsp[-4].minor.yy454, 0); } break; case 226: /* expr ::= expr in_op nm dbnm paren_exprlist */ { SrcList *pSrc = sqlite3SrcListAppend(pParse, 0,&yymsp[-2].minor.yy0,&yymsp[-1].minor.yy0); Select *pSelect = sqlite3SelectNew(pParse, 0,pSrc,0,0,0,0,0,0); - if( yymsp[0].minor.yy402 ) sqlite3SrcListFuncArgs(pParse, pSelect ? pSrc : 0, yymsp[0].minor.yy402); - yymsp[-4].minor.yy590 = sqlite3PExpr(pParse, TK_IN, yymsp[-4].minor.yy590, 0); - sqlite3PExprAddSelect(pParse, yymsp[-4].minor.yy590, pSelect); - if( yymsp[-3].minor.yy502 ) yymsp[-4].minor.yy590 = sqlite3PExpr(pParse, TK_NOT, yymsp[-4].minor.yy590, 0); + if( yymsp[0].minor.yy14 ) sqlite3SrcListFuncArgs(pParse, pSelect ? pSrc : 0, yymsp[0].minor.yy14); + yymsp[-4].minor.yy454 = sqlite3PExpr(pParse, TK_IN, yymsp[-4].minor.yy454, 0); + sqlite3PExprAddSelect(pParse, yymsp[-4].minor.yy454, pSelect); + if( yymsp[-3].minor.yy144 ) yymsp[-4].minor.yy454 = sqlite3PExpr(pParse, TK_NOT, yymsp[-4].minor.yy454, 0); } break; case 227: /* expr ::= EXISTS LP select RP */ { Expr *p; - p = yymsp[-3].minor.yy590 = sqlite3PExpr(pParse, TK_EXISTS, 0, 0); - sqlite3PExprAddSelect(pParse, p, yymsp[-1].minor.yy637); + p = yymsp[-3].minor.yy454 = sqlite3PExpr(pParse, TK_EXISTS, 0, 0); + sqlite3PExprAddSelect(pParse, p, yymsp[-1].minor.yy555); } break; case 228: /* expr ::= CASE case_operand case_exprlist case_else END */ { - yymsp[-4].minor.yy590 = sqlite3PExpr(pParse, TK_CASE, yymsp[-3].minor.yy590, 0); - if( yymsp[-4].minor.yy590 ){ - yymsp[-4].minor.yy590->x.pList = yymsp[-1].minor.yy590 ? sqlite3ExprListAppend(pParse,yymsp[-2].minor.yy402,yymsp[-1].minor.yy590) : yymsp[-2].minor.yy402; - sqlite3ExprSetHeightAndFlags(pParse, yymsp[-4].minor.yy590); + yymsp[-4].minor.yy454 = sqlite3PExpr(pParse, TK_CASE, yymsp[-3].minor.yy454, 0); + if( yymsp[-4].minor.yy454 ){ + yymsp[-4].minor.yy454->x.pList = yymsp[-1].minor.yy454 ? sqlite3ExprListAppend(pParse,yymsp[-2].minor.yy14,yymsp[-1].minor.yy454) : yymsp[-2].minor.yy14; + sqlite3ExprSetHeightAndFlags(pParse, yymsp[-4].minor.yy454); }else{ - sqlite3ExprListDelete(pParse->db, yymsp[-2].minor.yy402); - sqlite3ExprDelete(pParse->db, yymsp[-1].minor.yy590); + sqlite3ExprListDelete(pParse->db, yymsp[-2].minor.yy14); + sqlite3ExprDelete(pParse->db, yymsp[-1].minor.yy454); } } break; case 229: /* case_exprlist ::= case_exprlist WHEN expr THEN expr */ { - yymsp[-4].minor.yy402 = sqlite3ExprListAppend(pParse,yymsp[-4].minor.yy402, yymsp[-2].minor.yy590); - yymsp[-4].minor.yy402 = sqlite3ExprListAppend(pParse,yymsp[-4].minor.yy402, yymsp[0].minor.yy590); + yymsp[-4].minor.yy14 = sqlite3ExprListAppend(pParse,yymsp[-4].minor.yy14, yymsp[-2].minor.yy454); + yymsp[-4].minor.yy14 = sqlite3ExprListAppend(pParse,yymsp[-4].minor.yy14, yymsp[0].minor.yy454); } break; case 230: /* case_exprlist ::= WHEN expr THEN expr */ { - yymsp[-3].minor.yy402 = sqlite3ExprListAppend(pParse,0, yymsp[-2].minor.yy590); - yymsp[-3].minor.yy402 = sqlite3ExprListAppend(pParse,yymsp[-3].minor.yy402, yymsp[0].minor.yy590); + yymsp[-3].minor.yy14 = sqlite3ExprListAppend(pParse,0, yymsp[-2].minor.yy454); + yymsp[-3].minor.yy14 = sqlite3ExprListAppend(pParse,yymsp[-3].minor.yy14, yymsp[0].minor.yy454); } break; case 235: /* nexprlist ::= nexprlist COMMA expr */ -{yymsp[-2].minor.yy402 = sqlite3ExprListAppend(pParse,yymsp[-2].minor.yy402,yymsp[0].minor.yy590);} +{yymsp[-2].minor.yy14 = sqlite3ExprListAppend(pParse,yymsp[-2].minor.yy14,yymsp[0].minor.yy454);} break; case 236: /* nexprlist ::= expr */ -{yymsp[0].minor.yy402 = sqlite3ExprListAppend(pParse,0,yymsp[0].minor.yy590); /*A-overwrites-Y*/} +{yymsp[0].minor.yy14 = sqlite3ExprListAppend(pParse,0,yymsp[0].minor.yy454); /*A-overwrites-Y*/} break; case 238: /* paren_exprlist ::= LP exprlist RP */ case 243: /* eidlist_opt ::= LP eidlist RP */ yytestcase(yyruleno==243); -{yymsp[-2].minor.yy402 = yymsp[-1].minor.yy402;} +{yymsp[-2].minor.yy14 = yymsp[-1].minor.yy14;} break; case 239: /* cmd ::= createkw uniqueflag INDEX ifnotexists nm dbnm ON nm LP sortlist RP where_opt */ { sqlite3CreateIndex(pParse, &yymsp[-7].minor.yy0, &yymsp[-6].minor.yy0, - sqlite3SrcListAppend(pParse,0,&yymsp[-4].minor.yy0,0), yymsp[-2].minor.yy402, yymsp[-10].minor.yy502, - &yymsp[-11].minor.yy0, yymsp[0].minor.yy590, SQLITE_SO_ASC, yymsp[-8].minor.yy502, SQLITE_IDXTYPE_APPDEF); + sqlite3SrcListAppend(pParse,0,&yymsp[-4].minor.yy0,0), yymsp[-2].minor.yy14, yymsp[-10].minor.yy144, + &yymsp[-11].minor.yy0, yymsp[0].minor.yy454, SQLITE_SO_ASC, yymsp[-8].minor.yy144, SQLITE_IDXTYPE_APPDEF); if( IN_RENAME_OBJECT && pParse->pNewIndex ){ sqlite3RenameTokenMap(pParse, pParse->pNewIndex->zName, &yymsp[-4].minor.yy0); } } break; case 240: /* uniqueflag ::= UNIQUE */ - case 282: /* raisetype ::= ABORT */ yytestcase(yyruleno==282); -{yymsp[0].minor.yy502 = OE_Abort;} + case 281: /* raisetype ::= ABORT */ yytestcase(yyruleno==281); +{yymsp[0].minor.yy144 = OE_Abort;} break; case 241: /* uniqueflag ::= */ -{yymsp[1].minor.yy502 = OE_None;} +{yymsp[1].minor.yy144 = OE_None;} break; case 244: /* eidlist ::= eidlist COMMA nm collate sortorder */ { - yymsp[-4].minor.yy402 = parserAddExprIdListTerm(pParse, yymsp[-4].minor.yy402, &yymsp[-2].minor.yy0, yymsp[-1].minor.yy502, yymsp[0].minor.yy502); + yymsp[-4].minor.yy14 = parserAddExprIdListTerm(pParse, yymsp[-4].minor.yy14, &yymsp[-2].minor.yy0, yymsp[-1].minor.yy144, yymsp[0].minor.yy144); } break; case 245: /* eidlist ::= nm collate sortorder */ { - yymsp[-2].minor.yy402 = parserAddExprIdListTerm(pParse, 0, &yymsp[-2].minor.yy0, yymsp[-1].minor.yy502, yymsp[0].minor.yy502); /*A-overwrites-Y*/ + yymsp[-2].minor.yy14 = parserAddExprIdListTerm(pParse, 0, &yymsp[-2].minor.yy0, yymsp[-1].minor.yy144, yymsp[0].minor.yy144); /*A-overwrites-Y*/ } break; case 248: /* cmd ::= DROP INDEX ifexists fullname */ -{sqlite3DropIndex(pParse, yymsp[0].minor.yy563, yymsp[-1].minor.yy502);} +{sqlite3DropIndex(pParse, yymsp[0].minor.yy203, yymsp[-1].minor.yy144);} break; case 249: /* cmd ::= VACUUM vinto */ -{sqlite3Vacuum(pParse,0,yymsp[0].minor.yy590);} +{sqlite3Vacuum(pParse,0,yymsp[0].minor.yy454);} break; case 250: /* cmd ::= VACUUM nm vinto */ -{sqlite3Vacuum(pParse,&yymsp[-1].minor.yy0,yymsp[0].minor.yy590);} +{sqlite3Vacuum(pParse,&yymsp[-1].minor.yy0,yymsp[0].minor.yy454);} break; case 253: /* cmd ::= PRAGMA nm dbnm */ {sqlite3Pragma(pParse,&yymsp[-1].minor.yy0,&yymsp[0].minor.yy0,0,0);} @@ -182370,12 +184546,12 @@ static YYACTIONTYPE yy_reduce( Token all; all.z = yymsp[-3].minor.yy0.z; all.n = (int)(yymsp[0].minor.yy0.z - yymsp[-3].minor.yy0.z) + yymsp[0].minor.yy0.n; - sqlite3FinishTrigger(pParse, yymsp[-1].minor.yy319, &all); + sqlite3FinishTrigger(pParse, yymsp[-1].minor.yy427, &all); } break; case 261: /* trigger_decl ::= temp TRIGGER ifnotexists nm dbnm trigger_time trigger_event ON fullname foreach_clause when_clause */ { - sqlite3BeginTrigger(pParse, &yymsp[-7].minor.yy0, &yymsp[-6].minor.yy0, yymsp[-5].minor.yy502, yymsp[-4].minor.yy28.a, yymsp[-4].minor.yy28.b, yymsp[-2].minor.yy563, yymsp[0].minor.yy590, yymsp[-10].minor.yy502, yymsp[-8].minor.yy502); + sqlite3BeginTrigger(pParse, &yymsp[-7].minor.yy0, &yymsp[-6].minor.yy0, yymsp[-5].minor.yy144, yymsp[-4].minor.yy286.a, yymsp[-4].minor.yy286.b, yymsp[-2].minor.yy203, yymsp[0].minor.yy454, yymsp[-10].minor.yy144, yymsp[-8].minor.yy144); yymsp[-10].minor.yy0 = (yymsp[-6].minor.yy0.n==0?yymsp[-7].minor.yy0:yymsp[-6].minor.yy0); /*A-overwrites-T*/ #ifdef SQLITE_DEBUG assert( pParse->isCreate ); /* Set by createkw reduce action */ @@ -182384,421 +184560,439 @@ static YYACTIONTYPE yy_reduce( } break; case 262: /* trigger_time ::= BEFORE|AFTER */ -{ yymsp[0].minor.yy502 = yymsp[0].major; /*A-overwrites-X*/ } +{ yymsp[0].minor.yy144 = yymsp[0].major; /*A-overwrites-X*/ } break; case 263: /* trigger_time ::= INSTEAD OF */ -{ yymsp[-1].minor.yy502 = TK_INSTEAD;} +{ yymsp[-1].minor.yy144 = TK_INSTEAD;} break; case 264: /* trigger_time ::= */ -{ yymsp[1].minor.yy502 = TK_BEFORE; } +{ yymsp[1].minor.yy144 = TK_BEFORE; } break; case 265: /* trigger_event ::= DELETE|INSERT */ case 266: /* trigger_event ::= UPDATE */ yytestcase(yyruleno==266); -{yymsp[0].minor.yy28.a = yymsp[0].major; /*A-overwrites-X*/ yymsp[0].minor.yy28.b = 0;} +{yymsp[0].minor.yy286.a = yymsp[0].major; /*A-overwrites-X*/ yymsp[0].minor.yy286.b = 0;} break; case 267: /* trigger_event ::= UPDATE OF idlist */ -{yymsp[-2].minor.yy28.a = TK_UPDATE; yymsp[-2].minor.yy28.b = yymsp[0].minor.yy204;} +{yymsp[-2].minor.yy286.a = TK_UPDATE; yymsp[-2].minor.yy286.b = yymsp[0].minor.yy132;} break; case 268: /* when_clause ::= */ - case 287: /* key_opt ::= */ yytestcase(yyruleno==287); -{ yymsp[1].minor.yy590 = 0; } + case 286: /* key_opt ::= */ yytestcase(yyruleno==286); +{ yymsp[1].minor.yy454 = 0; } break; case 269: /* when_clause ::= WHEN expr */ - case 288: /* key_opt ::= KEY expr */ yytestcase(yyruleno==288); -{ yymsp[-1].minor.yy590 = yymsp[0].minor.yy590; } + case 287: /* key_opt ::= KEY expr */ yytestcase(yyruleno==287); +{ yymsp[-1].minor.yy454 = yymsp[0].minor.yy454; } break; case 270: /* trigger_cmd_list ::= trigger_cmd_list trigger_cmd SEMI */ { - assert( yymsp[-2].minor.yy319!=0 ); - yymsp[-2].minor.yy319->pLast->pNext = yymsp[-1].minor.yy319; - yymsp[-2].minor.yy319->pLast = yymsp[-1].minor.yy319; + yymsp[-2].minor.yy427->pLast->pNext = yymsp[-1].minor.yy427; + yymsp[-2].minor.yy427->pLast = yymsp[-1].minor.yy427; } break; case 271: /* trigger_cmd_list ::= trigger_cmd SEMI */ { - assert( yymsp[-1].minor.yy319!=0 ); - yymsp[-1].minor.yy319->pLast = yymsp[-1].minor.yy319; + yymsp[-1].minor.yy427->pLast = yymsp[-1].minor.yy427; } break; - case 272: /* trnm ::= nm DOT nm */ -{ - yymsp[-2].minor.yy0 = yymsp[0].minor.yy0; - sqlite3ErrorMsg(pParse, - "qualified table names are not allowed on INSERT, UPDATE, and DELETE " - "statements within triggers"); -} - break; - case 273: /* tridxby ::= INDEXED BY nm */ + case 272: /* tridxby ::= INDEXED BY nm */ { sqlite3ErrorMsg(pParse, "the INDEXED BY clause is not allowed on UPDATE or DELETE statements " "within triggers"); } break; - case 274: /* tridxby ::= NOT INDEXED */ + case 273: /* tridxby ::= NOT INDEXED */ { sqlite3ErrorMsg(pParse, "the NOT INDEXED clause is not allowed on UPDATE or DELETE statements " "within triggers"); } break; - case 275: /* trigger_cmd ::= UPDATE orconf trnm tridxby SET setlist from where_opt scanpt */ -{yylhsminor.yy319 = sqlite3TriggerUpdateStep(pParse, &yymsp[-6].minor.yy0, yymsp[-2].minor.yy563, yymsp[-3].minor.yy402, yymsp[-1].minor.yy590, yymsp[-7].minor.yy502, yymsp[-8].minor.yy0.z, yymsp[0].minor.yy342);} - yymsp[-8].minor.yy319 = yylhsminor.yy319; + case 274: /* trigger_cmd ::= UPDATE orconf xfullname tridxby SET setlist from where_opt scanpt */ +{yylhsminor.yy427 = sqlite3TriggerUpdateStep(pParse, yymsp[-6].minor.yy203, yymsp[-2].minor.yy203, yymsp[-3].minor.yy14, yymsp[-1].minor.yy454, yymsp[-7].minor.yy144, yymsp[-8].minor.yy0.z, yymsp[0].minor.yy168);} + yymsp[-8].minor.yy427 = yylhsminor.yy427; break; - case 276: /* trigger_cmd ::= scanpt insert_cmd INTO trnm idlist_opt select upsert scanpt */ + case 275: /* trigger_cmd ::= scanpt insert_cmd INTO xfullname idlist_opt select upsert scanpt */ { - yylhsminor.yy319 = sqlite3TriggerInsertStep(pParse,&yymsp[-4].minor.yy0,yymsp[-3].minor.yy204,yymsp[-2].minor.yy637,yymsp[-6].minor.yy502,yymsp[-1].minor.yy403,yymsp[-7].minor.yy342,yymsp[0].minor.yy342);/*yylhsminor.yy319-overwrites-yymsp[-6].minor.yy502*/ + yylhsminor.yy427 = sqlite3TriggerInsertStep(pParse,yymsp[-4].minor.yy203,yymsp[-3].minor.yy132,yymsp[-2].minor.yy555,yymsp[-6].minor.yy144,yymsp[-1].minor.yy122,yymsp[-7].minor.yy168,yymsp[0].minor.yy168);/*yylhsminor.yy427-overwrites-yymsp[-6].minor.yy144*/ } - yymsp[-7].minor.yy319 = yylhsminor.yy319; + yymsp[-7].minor.yy427 = yylhsminor.yy427; break; - case 277: /* trigger_cmd ::= DELETE FROM trnm tridxby where_opt scanpt */ -{yylhsminor.yy319 = sqlite3TriggerDeleteStep(pParse, &yymsp[-3].minor.yy0, yymsp[-1].minor.yy590, yymsp[-5].minor.yy0.z, yymsp[0].minor.yy342);} - yymsp[-5].minor.yy319 = yylhsminor.yy319; + case 276: /* trigger_cmd ::= DELETE FROM xfullname tridxby where_opt scanpt */ +{yylhsminor.yy427 = sqlite3TriggerDeleteStep(pParse, yymsp[-3].minor.yy203, yymsp[-1].minor.yy454, yymsp[-5].minor.yy0.z, yymsp[0].minor.yy168);} + yymsp[-5].minor.yy427 = yylhsminor.yy427; break; - case 278: /* trigger_cmd ::= scanpt select scanpt */ -{yylhsminor.yy319 = sqlite3TriggerSelectStep(pParse->db, yymsp[-1].minor.yy637, yymsp[-2].minor.yy342, yymsp[0].minor.yy342); /*yylhsminor.yy319-overwrites-yymsp[-1].minor.yy637*/} - yymsp[-2].minor.yy319 = yylhsminor.yy319; + case 277: /* trigger_cmd ::= scanpt select scanpt */ +{yylhsminor.yy427 = sqlite3TriggerSelectStep(pParse->db, yymsp[-1].minor.yy555, yymsp[-2].minor.yy168, yymsp[0].minor.yy168); /*yylhsminor.yy427-overwrites-yymsp[-1].minor.yy555*/} + yymsp[-2].minor.yy427 = yylhsminor.yy427; break; - case 279: /* expr ::= RAISE LP IGNORE RP */ + case 278: /* expr ::= RAISE LP IGNORE RP */ { - yymsp[-3].minor.yy590 = sqlite3PExpr(pParse, TK_RAISE, 0, 0); - if( yymsp[-3].minor.yy590 ){ - yymsp[-3].minor.yy590->affExpr = OE_Ignore; + yymsp[-3].minor.yy454 = sqlite3PExpr(pParse, TK_RAISE, 0, 0); + if( yymsp[-3].minor.yy454 ){ + yymsp[-3].minor.yy454->affExpr = OE_Ignore; } } break; - case 280: /* expr ::= RAISE LP raisetype COMMA expr RP */ + case 279: /* expr ::= RAISE LP raisetype COMMA expr RP */ { - yymsp[-5].minor.yy590 = sqlite3PExpr(pParse, TK_RAISE, yymsp[-1].minor.yy590, 0); - if( yymsp[-5].minor.yy590 ) { - yymsp[-5].minor.yy590->affExpr = (char)yymsp[-3].minor.yy502; + yymsp[-5].minor.yy454 = sqlite3PExpr(pParse, TK_RAISE, yymsp[-1].minor.yy454, 0); + if( yymsp[-5].minor.yy454 ) { + yymsp[-5].minor.yy454->affExpr = (char)yymsp[-3].minor.yy144; } } break; - case 281: /* raisetype ::= ROLLBACK */ -{yymsp[0].minor.yy502 = OE_Rollback;} + case 280: /* raisetype ::= ROLLBACK */ +{yymsp[0].minor.yy144 = OE_Rollback;} break; - case 283: /* raisetype ::= FAIL */ -{yymsp[0].minor.yy502 = OE_Fail;} + case 282: /* raisetype ::= FAIL */ +{yymsp[0].minor.yy144 = OE_Fail;} break; - case 284: /* cmd ::= DROP TRIGGER ifexists fullname */ + case 283: /* cmd ::= DROP TRIGGER ifexists fullname */ { - sqlite3DropTrigger(pParse,yymsp[0].minor.yy563,yymsp[-1].minor.yy502); + sqlite3DropTrigger(pParse,yymsp[0].minor.yy203,yymsp[-1].minor.yy144); } break; - case 285: /* cmd ::= ATTACH database_kw_opt expr AS expr key_opt */ + case 284: /* cmd ::= ATTACH database_kw_opt expr AS expr key_opt */ { - sqlite3Attach(pParse, yymsp[-3].minor.yy590, yymsp[-1].minor.yy590, yymsp[0].minor.yy590); + sqlite3Attach(pParse, yymsp[-3].minor.yy454, yymsp[-1].minor.yy454, yymsp[0].minor.yy454); } break; - case 286: /* cmd ::= DETACH database_kw_opt expr */ + case 285: /* cmd ::= DETACH database_kw_opt expr */ { - sqlite3Detach(pParse, yymsp[0].minor.yy590); + sqlite3Detach(pParse, yymsp[0].minor.yy454); } break; - case 289: /* cmd ::= REINDEX */ + case 288: /* cmd ::= REINDEX */ {sqlite3Reindex(pParse, 0, 0);} break; - case 290: /* cmd ::= REINDEX nm dbnm */ + case 289: /* cmd ::= REINDEX nm dbnm */ {sqlite3Reindex(pParse, &yymsp[-1].minor.yy0, &yymsp[0].minor.yy0);} break; - case 291: /* cmd ::= ANALYZE */ + case 290: /* cmd ::= ANALYZE */ {sqlite3Analyze(pParse, 0, 0);} break; - case 292: /* cmd ::= ANALYZE nm dbnm */ + case 291: /* cmd ::= ANALYZE nm dbnm */ {sqlite3Analyze(pParse, &yymsp[-1].minor.yy0, &yymsp[0].minor.yy0);} break; - case 293: /* cmd ::= ALTER TABLE fullname RENAME TO nm */ + case 292: /* cmd ::= ALTER TABLE fullname RENAME TO nm */ { - sqlite3AlterRenameTable(pParse,yymsp[-3].minor.yy563,&yymsp[0].minor.yy0); + sqlite3AlterRenameTable(pParse,yymsp[-3].minor.yy203,&yymsp[0].minor.yy0); } break; - case 294: /* cmd ::= ALTER TABLE add_column_fullname ADD kwcolumn_opt columnname carglist */ + case 293: /* cmd ::= alter_add carglist */ { yymsp[-1].minor.yy0.n = (int)(pParse->sLastToken.z-yymsp[-1].minor.yy0.z) + pParse->sLastToken.n; sqlite3AlterFinishAddColumn(pParse, &yymsp[-1].minor.yy0); +} + break; + case 294: /* alter_add ::= ALTER TABLE fullname ADD kwcolumn_opt nm typetoken */ +{ + disableLookaside(pParse); + sqlite3AlterBeginAddColumn(pParse, yymsp[-4].minor.yy203); + sqlite3AddColumn(pParse, yymsp[-1].minor.yy0, yymsp[0].minor.yy0); + yymsp[-6].minor.yy0 = yymsp[-1].minor.yy0; } break; case 295: /* cmd ::= ALTER TABLE fullname DROP kwcolumn_opt nm */ { - sqlite3AlterDropColumn(pParse, yymsp[-3].minor.yy563, &yymsp[0].minor.yy0); + sqlite3AlterDropColumn(pParse, yymsp[-3].minor.yy203, &yymsp[0].minor.yy0); } break; - case 296: /* add_column_fullname ::= fullname */ + case 296: /* cmd ::= ALTER TABLE fullname RENAME kwcolumn_opt nm TO nm */ { - disableLookaside(pParse); - sqlite3AlterBeginAddColumn(pParse, yymsp[0].minor.yy563); + sqlite3AlterRenameColumn(pParse, yymsp[-5].minor.yy203, &yymsp[-2].minor.yy0, &yymsp[0].minor.yy0); +} + break; + case 297: /* cmd ::= ALTER TABLE fullname DROP CONSTRAINT nm */ +{ + sqlite3AlterDropConstraint(pParse, yymsp[-3].minor.yy203, &yymsp[0].minor.yy0, 0); +} + break; + case 298: /* cmd ::= ALTER TABLE fullname ALTER kwcolumn_opt nm DROP NOT NULL */ +{ + sqlite3AlterDropConstraint(pParse, yymsp[-6].minor.yy203, 0, &yymsp[-3].minor.yy0); } break; - case 297: /* cmd ::= ALTER TABLE fullname RENAME kwcolumn_opt nm TO nm */ + case 299: /* cmd ::= ALTER TABLE fullname ALTER kwcolumn_opt nm SET NOT NULL onconf */ { - sqlite3AlterRenameColumn(pParse, yymsp[-5].minor.yy563, &yymsp[-2].minor.yy0, &yymsp[0].minor.yy0); + sqlite3AlterSetNotNull(pParse, yymsp[-7].minor.yy203, &yymsp[-4].minor.yy0, &yymsp[-2].minor.yy0); } break; - case 298: /* cmd ::= create_vtab */ + case 300: /* cmd ::= ALTER TABLE fullname ADD CONSTRAINT nm CHECK LP expr RP onconf */ +{ + sqlite3AlterAddConstraint(pParse, yymsp[-8].minor.yy203, &yymsp[-6].minor.yy0, &yymsp[-5].minor.yy0, yymsp[-3].minor.yy0.z+1, (yymsp[-1].minor.yy0.z-yymsp[-3].minor.yy0.z-1)); +} + yy_destructor(yypParser,219,&yymsp[-2].minor); + break; + case 301: /* cmd ::= ALTER TABLE fullname ADD CHECK LP expr RP onconf */ +{ + sqlite3AlterAddConstraint(pParse, yymsp[-6].minor.yy203, &yymsp[-4].minor.yy0, 0, yymsp[-3].minor.yy0.z+1, (yymsp[-1].minor.yy0.z-yymsp[-3].minor.yy0.z-1)); +} + yy_destructor(yypParser,219,&yymsp[-2].minor); + break; + case 302: /* cmd ::= create_vtab */ {sqlite3VtabFinishParse(pParse,0);} break; - case 299: /* cmd ::= create_vtab LP vtabarglist RP */ + case 303: /* cmd ::= create_vtab LP vtabarglist RP */ {sqlite3VtabFinishParse(pParse,&yymsp[0].minor.yy0);} break; - case 300: /* create_vtab ::= createkw VIRTUAL TABLE ifnotexists nm dbnm USING nm */ + case 304: /* create_vtab ::= createkw VIRTUAL TABLE ifnotexists nm dbnm USING nm */ { - sqlite3VtabBeginParse(pParse, &yymsp[-3].minor.yy0, &yymsp[-2].minor.yy0, &yymsp[0].minor.yy0, yymsp[-4].minor.yy502); + sqlite3VtabBeginParse(pParse, &yymsp[-3].minor.yy0, &yymsp[-2].minor.yy0, &yymsp[0].minor.yy0, yymsp[-4].minor.yy144); } break; - case 301: /* vtabarg ::= */ + case 305: /* vtabarg ::= */ {sqlite3VtabArgInit(pParse);} break; - case 302: /* vtabargtoken ::= ANY */ - case 303: /* vtabargtoken ::= lp anylist RP */ yytestcase(yyruleno==303); - case 304: /* lp ::= LP */ yytestcase(yyruleno==304); + case 306: /* vtabargtoken ::= ANY */ + case 307: /* vtabargtoken ::= lp anylist RP */ yytestcase(yyruleno==307); + case 308: /* lp ::= LP */ yytestcase(yyruleno==308); {sqlite3VtabArgExtend(pParse,&yymsp[0].minor.yy0);} break; - case 305: /* with ::= WITH wqlist */ - case 306: /* with ::= WITH RECURSIVE wqlist */ yytestcase(yyruleno==306); -{ sqlite3WithPush(pParse, yymsp[0].minor.yy125, 1); } + case 309: /* with ::= WITH wqlist */ + case 310: /* with ::= WITH RECURSIVE wqlist */ yytestcase(yyruleno==310); +{ sqlite3WithPush(pParse, yymsp[0].minor.yy59, 1); } break; - case 307: /* wqas ::= AS */ -{yymsp[0].minor.yy444 = M10d_Any;} + case 311: /* wqas ::= AS */ +{yymsp[0].minor.yy462 = M10d_Any;} break; - case 308: /* wqas ::= AS MATERIALIZED */ -{yymsp[-1].minor.yy444 = M10d_Yes;} + case 312: /* wqas ::= AS MATERIALIZED */ +{yymsp[-1].minor.yy462 = M10d_Yes;} break; - case 309: /* wqas ::= AS NOT MATERIALIZED */ -{yymsp[-2].minor.yy444 = M10d_No;} + case 313: /* wqas ::= AS NOT MATERIALIZED */ +{yymsp[-2].minor.yy462 = M10d_No;} break; - case 310: /* wqitem ::= withnm eidlist_opt wqas LP select RP */ + case 314: /* wqitem ::= withnm eidlist_opt wqas LP select RP */ { - yymsp[-5].minor.yy361 = sqlite3CteNew(pParse, &yymsp[-5].minor.yy0, yymsp[-4].minor.yy402, yymsp[-1].minor.yy637, yymsp[-3].minor.yy444); /*A-overwrites-X*/ + yymsp[-5].minor.yy67 = sqlite3CteNew(pParse, &yymsp[-5].minor.yy0, yymsp[-4].minor.yy14, yymsp[-1].minor.yy555, yymsp[-3].minor.yy462); /*A-overwrites-X*/ } break; - case 311: /* withnm ::= nm */ + case 315: /* withnm ::= nm */ {pParse->bHasWith = 1;} break; - case 312: /* wqlist ::= wqitem */ + case 316: /* wqlist ::= wqitem */ { - yymsp[0].minor.yy125 = sqlite3WithAdd(pParse, 0, yymsp[0].minor.yy361); /*A-overwrites-X*/ + yymsp[0].minor.yy59 = sqlite3WithAdd(pParse, 0, yymsp[0].minor.yy67); /*A-overwrites-X*/ } break; - case 313: /* wqlist ::= wqlist COMMA wqitem */ + case 317: /* wqlist ::= wqlist COMMA wqitem */ { - yymsp[-2].minor.yy125 = sqlite3WithAdd(pParse, yymsp[-2].minor.yy125, yymsp[0].minor.yy361); + yymsp[-2].minor.yy59 = sqlite3WithAdd(pParse, yymsp[-2].minor.yy59, yymsp[0].minor.yy67); } break; - case 314: /* windowdefn_list ::= windowdefn_list COMMA windowdefn */ + case 318: /* windowdefn_list ::= windowdefn_list COMMA windowdefn */ { - assert( yymsp[0].minor.yy483!=0 ); - sqlite3WindowChain(pParse, yymsp[0].minor.yy483, yymsp[-2].minor.yy483); - yymsp[0].minor.yy483->pNextWin = yymsp[-2].minor.yy483; - yylhsminor.yy483 = yymsp[0].minor.yy483; + assert( yymsp[0].minor.yy211!=0 ); + sqlite3WindowChain(pParse, yymsp[0].minor.yy211, yymsp[-2].minor.yy211); + yymsp[0].minor.yy211->pNextWin = yymsp[-2].minor.yy211; + yylhsminor.yy211 = yymsp[0].minor.yy211; } - yymsp[-2].minor.yy483 = yylhsminor.yy483; + yymsp[-2].minor.yy211 = yylhsminor.yy211; break; - case 315: /* windowdefn ::= nm AS LP window RP */ + case 319: /* windowdefn ::= nm AS LP window RP */ { - if( ALWAYS(yymsp[-1].minor.yy483) ){ - yymsp[-1].minor.yy483->zName = sqlite3DbStrNDup(pParse->db, yymsp[-4].minor.yy0.z, yymsp[-4].minor.yy0.n); + if( ALWAYS(yymsp[-1].minor.yy211) ){ + yymsp[-1].minor.yy211->zName = sqlite3DbStrNDup(pParse->db, yymsp[-4].minor.yy0.z, yymsp[-4].minor.yy0.n); } - yylhsminor.yy483 = yymsp[-1].minor.yy483; + yylhsminor.yy211 = yymsp[-1].minor.yy211; } - yymsp[-4].minor.yy483 = yylhsminor.yy483; + yymsp[-4].minor.yy211 = yylhsminor.yy211; break; - case 316: /* window ::= PARTITION BY nexprlist orderby_opt frame_opt */ + case 320: /* window ::= PARTITION BY nexprlist orderby_opt frame_opt */ { - yymsp[-4].minor.yy483 = sqlite3WindowAssemble(pParse, yymsp[0].minor.yy483, yymsp[-2].minor.yy402, yymsp[-1].minor.yy402, 0); + yymsp[-4].minor.yy211 = sqlite3WindowAssemble(pParse, yymsp[0].minor.yy211, yymsp[-2].minor.yy14, yymsp[-1].minor.yy14, 0); } break; - case 317: /* window ::= nm PARTITION BY nexprlist orderby_opt frame_opt */ + case 321: /* window ::= nm PARTITION BY nexprlist orderby_opt frame_opt */ { - yylhsminor.yy483 = sqlite3WindowAssemble(pParse, yymsp[0].minor.yy483, yymsp[-2].minor.yy402, yymsp[-1].minor.yy402, &yymsp[-5].minor.yy0); + yylhsminor.yy211 = sqlite3WindowAssemble(pParse, yymsp[0].minor.yy211, yymsp[-2].minor.yy14, yymsp[-1].minor.yy14, &yymsp[-5].minor.yy0); } - yymsp[-5].minor.yy483 = yylhsminor.yy483; + yymsp[-5].minor.yy211 = yylhsminor.yy211; break; - case 318: /* window ::= ORDER BY sortlist frame_opt */ + case 322: /* window ::= ORDER BY sortlist frame_opt */ { - yymsp[-3].minor.yy483 = sqlite3WindowAssemble(pParse, yymsp[0].minor.yy483, 0, yymsp[-1].minor.yy402, 0); + yymsp[-3].minor.yy211 = sqlite3WindowAssemble(pParse, yymsp[0].minor.yy211, 0, yymsp[-1].minor.yy14, 0); } break; - case 319: /* window ::= nm ORDER BY sortlist frame_opt */ + case 323: /* window ::= nm ORDER BY sortlist frame_opt */ { - yylhsminor.yy483 = sqlite3WindowAssemble(pParse, yymsp[0].minor.yy483, 0, yymsp[-1].minor.yy402, &yymsp[-4].minor.yy0); + yylhsminor.yy211 = sqlite3WindowAssemble(pParse, yymsp[0].minor.yy211, 0, yymsp[-1].minor.yy14, &yymsp[-4].minor.yy0); } - yymsp[-4].minor.yy483 = yylhsminor.yy483; + yymsp[-4].minor.yy211 = yylhsminor.yy211; break; - case 320: /* window ::= nm frame_opt */ + case 324: /* window ::= nm frame_opt */ { - yylhsminor.yy483 = sqlite3WindowAssemble(pParse, yymsp[0].minor.yy483, 0, 0, &yymsp[-1].minor.yy0); + yylhsminor.yy211 = sqlite3WindowAssemble(pParse, yymsp[0].minor.yy211, 0, 0, &yymsp[-1].minor.yy0); } - yymsp[-1].minor.yy483 = yylhsminor.yy483; + yymsp[-1].minor.yy211 = yylhsminor.yy211; break; - case 321: /* frame_opt ::= */ + case 325: /* frame_opt ::= */ { - yymsp[1].minor.yy483 = sqlite3WindowAlloc(pParse, 0, TK_UNBOUNDED, 0, TK_CURRENT, 0, 0); + yymsp[1].minor.yy211 = sqlite3WindowAlloc(pParse, 0, TK_UNBOUNDED, 0, TK_CURRENT, 0, 0); } break; - case 322: /* frame_opt ::= range_or_rows frame_bound_s frame_exclude_opt */ + case 326: /* frame_opt ::= range_or_rows frame_bound_s frame_exclude_opt */ { - yylhsminor.yy483 = sqlite3WindowAlloc(pParse, yymsp[-2].minor.yy502, yymsp[-1].minor.yy205.eType, yymsp[-1].minor.yy205.pExpr, TK_CURRENT, 0, yymsp[0].minor.yy444); + yylhsminor.yy211 = sqlite3WindowAlloc(pParse, yymsp[-2].minor.yy144, yymsp[-1].minor.yy509.eType, yymsp[-1].minor.yy509.pExpr, TK_CURRENT, 0, yymsp[0].minor.yy462); } - yymsp[-2].minor.yy483 = yylhsminor.yy483; + yymsp[-2].minor.yy211 = yylhsminor.yy211; break; - case 323: /* frame_opt ::= range_or_rows BETWEEN frame_bound_s AND frame_bound_e frame_exclude_opt */ + case 327: /* frame_opt ::= range_or_rows BETWEEN frame_bound_s AND frame_bound_e frame_exclude_opt */ { - yylhsminor.yy483 = sqlite3WindowAlloc(pParse, yymsp[-5].minor.yy502, yymsp[-3].minor.yy205.eType, yymsp[-3].minor.yy205.pExpr, yymsp[-1].minor.yy205.eType, yymsp[-1].minor.yy205.pExpr, yymsp[0].minor.yy444); + yylhsminor.yy211 = sqlite3WindowAlloc(pParse, yymsp[-5].minor.yy144, yymsp[-3].minor.yy509.eType, yymsp[-3].minor.yy509.pExpr, yymsp[-1].minor.yy509.eType, yymsp[-1].minor.yy509.pExpr, yymsp[0].minor.yy462); } - yymsp[-5].minor.yy483 = yylhsminor.yy483; + yymsp[-5].minor.yy211 = yylhsminor.yy211; break; - case 325: /* frame_bound_s ::= frame_bound */ - case 327: /* frame_bound_e ::= frame_bound */ yytestcase(yyruleno==327); -{yylhsminor.yy205 = yymsp[0].minor.yy205;} - yymsp[0].minor.yy205 = yylhsminor.yy205; + case 329: /* frame_bound_s ::= frame_bound */ + case 331: /* frame_bound_e ::= frame_bound */ yytestcase(yyruleno==331); +{yylhsminor.yy509 = yymsp[0].minor.yy509;} + yymsp[0].minor.yy509 = yylhsminor.yy509; break; - case 326: /* frame_bound_s ::= UNBOUNDED PRECEDING */ - case 328: /* frame_bound_e ::= UNBOUNDED FOLLOWING */ yytestcase(yyruleno==328); - case 330: /* frame_bound ::= CURRENT ROW */ yytestcase(yyruleno==330); -{yylhsminor.yy205.eType = yymsp[-1].major; yylhsminor.yy205.pExpr = 0;} - yymsp[-1].minor.yy205 = yylhsminor.yy205; + case 330: /* frame_bound_s ::= UNBOUNDED PRECEDING */ + case 332: /* frame_bound_e ::= UNBOUNDED FOLLOWING */ yytestcase(yyruleno==332); + case 334: /* frame_bound ::= CURRENT ROW */ yytestcase(yyruleno==334); +{yylhsminor.yy509.eType = yymsp[-1].major; yylhsminor.yy509.pExpr = 0;} + yymsp[-1].minor.yy509 = yylhsminor.yy509; break; - case 329: /* frame_bound ::= expr PRECEDING|FOLLOWING */ -{yylhsminor.yy205.eType = yymsp[0].major; yylhsminor.yy205.pExpr = yymsp[-1].minor.yy590;} - yymsp[-1].minor.yy205 = yylhsminor.yy205; + case 333: /* frame_bound ::= expr PRECEDING|FOLLOWING */ +{yylhsminor.yy509.eType = yymsp[0].major; yylhsminor.yy509.pExpr = yymsp[-1].minor.yy454;} + yymsp[-1].minor.yy509 = yylhsminor.yy509; break; - case 331: /* frame_exclude_opt ::= */ -{yymsp[1].minor.yy444 = 0;} + case 335: /* frame_exclude_opt ::= */ +{yymsp[1].minor.yy462 = 0;} break; - case 332: /* frame_exclude_opt ::= EXCLUDE frame_exclude */ -{yymsp[-1].minor.yy444 = yymsp[0].minor.yy444;} + case 336: /* frame_exclude_opt ::= EXCLUDE frame_exclude */ +{yymsp[-1].minor.yy462 = yymsp[0].minor.yy462;} break; - case 333: /* frame_exclude ::= NO OTHERS */ - case 334: /* frame_exclude ::= CURRENT ROW */ yytestcase(yyruleno==334); -{yymsp[-1].minor.yy444 = yymsp[-1].major; /*A-overwrites-X*/} + case 337: /* frame_exclude ::= NO OTHERS */ + case 338: /* frame_exclude ::= CURRENT ROW */ yytestcase(yyruleno==338); +{yymsp[-1].minor.yy462 = yymsp[-1].major; /*A-overwrites-X*/} break; - case 335: /* frame_exclude ::= GROUP|TIES */ -{yymsp[0].minor.yy444 = yymsp[0].major; /*A-overwrites-X*/} + case 339: /* frame_exclude ::= GROUP|TIES */ +{yymsp[0].minor.yy462 = yymsp[0].major; /*A-overwrites-X*/} break; - case 336: /* window_clause ::= WINDOW windowdefn_list */ -{ yymsp[-1].minor.yy483 = yymsp[0].minor.yy483; } + case 340: /* window_clause ::= WINDOW windowdefn_list */ +{ yymsp[-1].minor.yy211 = yymsp[0].minor.yy211; } break; - case 337: /* filter_over ::= filter_clause over_clause */ + case 341: /* filter_over ::= filter_clause over_clause */ { - if( yymsp[0].minor.yy483 ){ - yymsp[0].minor.yy483->pFilter = yymsp[-1].minor.yy590; + if( yymsp[0].minor.yy211 ){ + yymsp[0].minor.yy211->pFilter = yymsp[-1].minor.yy454; }else{ - sqlite3ExprDelete(pParse->db, yymsp[-1].minor.yy590); + sqlite3ExprDelete(pParse->db, yymsp[-1].minor.yy454); } - yylhsminor.yy483 = yymsp[0].minor.yy483; + yylhsminor.yy211 = yymsp[0].minor.yy211; } - yymsp[-1].minor.yy483 = yylhsminor.yy483; + yymsp[-1].minor.yy211 = yylhsminor.yy211; break; - case 338: /* filter_over ::= over_clause */ + case 342: /* filter_over ::= over_clause */ { - yylhsminor.yy483 = yymsp[0].minor.yy483; + yylhsminor.yy211 = yymsp[0].minor.yy211; } - yymsp[0].minor.yy483 = yylhsminor.yy483; + yymsp[0].minor.yy211 = yylhsminor.yy211; break; - case 339: /* filter_over ::= filter_clause */ + case 343: /* filter_over ::= filter_clause */ { - yylhsminor.yy483 = (Window*)sqlite3DbMallocZero(pParse->db, sizeof(Window)); - if( yylhsminor.yy483 ){ - yylhsminor.yy483->eFrmType = TK_FILTER; - yylhsminor.yy483->pFilter = yymsp[0].minor.yy590; + yylhsminor.yy211 = (Window*)sqlite3DbMallocZero(pParse->db, sizeof(Window)); + if( yylhsminor.yy211 ){ + yylhsminor.yy211->eFrmType = TK_FILTER; + yylhsminor.yy211->pFilter = yymsp[0].minor.yy454; }else{ - sqlite3ExprDelete(pParse->db, yymsp[0].minor.yy590); + sqlite3ExprDelete(pParse->db, yymsp[0].minor.yy454); } } - yymsp[0].minor.yy483 = yylhsminor.yy483; + yymsp[0].minor.yy211 = yylhsminor.yy211; break; - case 340: /* over_clause ::= OVER LP window RP */ + case 344: /* over_clause ::= OVER LP window RP */ { - yymsp[-3].minor.yy483 = yymsp[-1].minor.yy483; - assert( yymsp[-3].minor.yy483!=0 ); + yymsp[-3].minor.yy211 = yymsp[-1].minor.yy211; + assert( yymsp[-3].minor.yy211!=0 ); } break; - case 341: /* over_clause ::= OVER nm */ + case 345: /* over_clause ::= OVER nm */ { - yymsp[-1].minor.yy483 = (Window*)sqlite3DbMallocZero(pParse->db, sizeof(Window)); - if( yymsp[-1].minor.yy483 ){ - yymsp[-1].minor.yy483->zName = sqlite3DbStrNDup(pParse->db, yymsp[0].minor.yy0.z, yymsp[0].minor.yy0.n); + yymsp[-1].minor.yy211 = (Window*)sqlite3DbMallocZero(pParse->db, sizeof(Window)); + if( yymsp[-1].minor.yy211 ){ + yymsp[-1].minor.yy211->zName = sqlite3DbStrNDup(pParse->db, yymsp[0].minor.yy0.z, yymsp[0].minor.yy0.n); } } break; - case 342: /* filter_clause ::= FILTER LP WHERE expr RP */ -{ yymsp[-4].minor.yy590 = yymsp[-1].minor.yy590; } + case 346: /* filter_clause ::= FILTER LP WHERE expr RP */ +{ yymsp[-4].minor.yy454 = yymsp[-1].minor.yy454; } break; - case 343: /* term ::= QNUMBER */ + case 347: /* term ::= QNUMBER */ { - yylhsminor.yy590=tokenExpr(pParse,yymsp[0].major,yymsp[0].minor.yy0); - sqlite3DequoteNumber(pParse, yylhsminor.yy590); + yylhsminor.yy454=tokenExpr(pParse,yymsp[0].major,yymsp[0].minor.yy0); + sqlite3DequoteNumber(pParse, yylhsminor.yy454); } - yymsp[0].minor.yy590 = yylhsminor.yy590; + yymsp[0].minor.yy454 = yylhsminor.yy454; break; default: - /* (344) input ::= cmdlist */ yytestcase(yyruleno==344); - /* (345) cmdlist ::= cmdlist ecmd */ yytestcase(yyruleno==345); - /* (346) cmdlist ::= ecmd (OPTIMIZED OUT) */ assert(yyruleno!=346); - /* (347) ecmd ::= SEMI */ yytestcase(yyruleno==347); - /* (348) ecmd ::= cmdx SEMI */ yytestcase(yyruleno==348); - /* (349) ecmd ::= explain cmdx SEMI (NEVER REDUCES) */ assert(yyruleno!=349); - /* (350) trans_opt ::= */ yytestcase(yyruleno==350); - /* (351) trans_opt ::= TRANSACTION */ yytestcase(yyruleno==351); - /* (352) trans_opt ::= TRANSACTION nm */ yytestcase(yyruleno==352); - /* (353) savepoint_opt ::= SAVEPOINT */ yytestcase(yyruleno==353); - /* (354) savepoint_opt ::= */ yytestcase(yyruleno==354); - /* (355) cmd ::= create_table create_table_args */ yytestcase(yyruleno==355); - /* (356) table_option_set ::= table_option (OPTIMIZED OUT) */ assert(yyruleno!=356); - /* (357) columnlist ::= columnlist COMMA columnname carglist */ yytestcase(yyruleno==357); - /* (358) columnlist ::= columnname carglist */ yytestcase(yyruleno==358); - /* (359) nm ::= ID|INDEXED|JOIN_KW */ yytestcase(yyruleno==359); - /* (360) nm ::= STRING */ yytestcase(yyruleno==360); - /* (361) typetoken ::= typename */ yytestcase(yyruleno==361); - /* (362) typename ::= ID|STRING */ yytestcase(yyruleno==362); - /* (363) signed ::= plus_num (OPTIMIZED OUT) */ assert(yyruleno!=363); - /* (364) signed ::= minus_num (OPTIMIZED OUT) */ assert(yyruleno!=364); - /* (365) carglist ::= carglist ccons */ yytestcase(yyruleno==365); - /* (366) carglist ::= */ yytestcase(yyruleno==366); - /* (367) ccons ::= NULL onconf */ yytestcase(yyruleno==367); - /* (368) ccons ::= GENERATED ALWAYS AS generated */ yytestcase(yyruleno==368); - /* (369) ccons ::= AS generated */ yytestcase(yyruleno==369); - /* (370) conslist_opt ::= COMMA conslist */ yytestcase(yyruleno==370); - /* (371) conslist ::= conslist tconscomma tcons */ yytestcase(yyruleno==371); - /* (372) conslist ::= tcons (OPTIMIZED OUT) */ assert(yyruleno!=372); - /* (373) tconscomma ::= */ yytestcase(yyruleno==373); - /* (374) defer_subclause_opt ::= defer_subclause (OPTIMIZED OUT) */ assert(yyruleno!=374); - /* (375) resolvetype ::= raisetype (OPTIMIZED OUT) */ assert(yyruleno!=375); - /* (376) selectnowith ::= oneselect (OPTIMIZED OUT) */ assert(yyruleno!=376); - /* (377) oneselect ::= values */ yytestcase(yyruleno==377); - /* (378) sclp ::= selcollist COMMA */ yytestcase(yyruleno==378); - /* (379) as ::= ID|STRING */ yytestcase(yyruleno==379); - /* (380) indexed_opt ::= indexed_by (OPTIMIZED OUT) */ assert(yyruleno!=380); - /* (381) returning ::= */ yytestcase(yyruleno==381); - /* (382) expr ::= term (OPTIMIZED OUT) */ assert(yyruleno!=382); - /* (383) likeop ::= LIKE_KW|MATCH */ yytestcase(yyruleno==383); - /* (384) case_operand ::= expr */ yytestcase(yyruleno==384); - /* (385) exprlist ::= nexprlist */ yytestcase(yyruleno==385); - /* (386) nmnum ::= plus_num (OPTIMIZED OUT) */ assert(yyruleno!=386); - /* (387) nmnum ::= nm (OPTIMIZED OUT) */ assert(yyruleno!=387); - /* (388) nmnum ::= ON */ yytestcase(yyruleno==388); - /* (389) nmnum ::= DELETE */ yytestcase(yyruleno==389); - /* (390) nmnum ::= DEFAULT */ yytestcase(yyruleno==390); - /* (391) plus_num ::= INTEGER|FLOAT */ yytestcase(yyruleno==391); - /* (392) foreach_clause ::= */ yytestcase(yyruleno==392); - /* (393) foreach_clause ::= FOR EACH ROW */ yytestcase(yyruleno==393); - /* (394) trnm ::= nm */ yytestcase(yyruleno==394); - /* (395) tridxby ::= */ yytestcase(yyruleno==395); - /* (396) database_kw_opt ::= DATABASE */ yytestcase(yyruleno==396); - /* (397) database_kw_opt ::= */ yytestcase(yyruleno==397); - /* (398) kwcolumn_opt ::= */ yytestcase(yyruleno==398); - /* (399) kwcolumn_opt ::= COLUMNKW */ yytestcase(yyruleno==399); - /* (400) vtabarglist ::= vtabarg */ yytestcase(yyruleno==400); - /* (401) vtabarglist ::= vtabarglist COMMA vtabarg */ yytestcase(yyruleno==401); - /* (402) vtabarg ::= vtabarg vtabargtoken */ yytestcase(yyruleno==402); - /* (403) anylist ::= */ yytestcase(yyruleno==403); - /* (404) anylist ::= anylist LP anylist RP */ yytestcase(yyruleno==404); - /* (405) anylist ::= anylist ANY */ yytestcase(yyruleno==405); - /* (406) with ::= */ yytestcase(yyruleno==406); - /* (407) windowdefn_list ::= windowdefn (OPTIMIZED OUT) */ assert(yyruleno!=407); - /* (408) window ::= frame_opt (OPTIMIZED OUT) */ assert(yyruleno!=408); + /* (348) input ::= cmdlist */ yytestcase(yyruleno==348); + /* (349) cmdlist ::= cmdlist ecmd */ yytestcase(yyruleno==349); + /* (350) cmdlist ::= ecmd (OPTIMIZED OUT) */ assert(yyruleno!=350); + /* (351) ecmd ::= SEMI */ yytestcase(yyruleno==351); + /* (352) ecmd ::= cmdx SEMI */ yytestcase(yyruleno==352); + /* (353) ecmd ::= explain cmdx SEMI (NEVER REDUCES) */ assert(yyruleno!=353); + /* (354) trans_opt ::= */ yytestcase(yyruleno==354); + /* (355) trans_opt ::= TRANSACTION */ yytestcase(yyruleno==355); + /* (356) trans_opt ::= TRANSACTION nm */ yytestcase(yyruleno==356); + /* (357) savepoint_opt ::= SAVEPOINT */ yytestcase(yyruleno==357); + /* (358) savepoint_opt ::= */ yytestcase(yyruleno==358); + /* (359) cmd ::= create_table create_table_args */ yytestcase(yyruleno==359); + /* (360) table_option_set ::= table_option (OPTIMIZED OUT) */ assert(yyruleno!=360); + /* (361) columnlist ::= columnlist COMMA columnname carglist */ yytestcase(yyruleno==361); + /* (362) columnlist ::= columnname carglist */ yytestcase(yyruleno==362); + /* (363) nm ::= ID|INDEXED|JOIN_KW */ yytestcase(yyruleno==363); + /* (364) nm ::= STRING */ yytestcase(yyruleno==364); + /* (365) typetoken ::= typename */ yytestcase(yyruleno==365); + /* (366) typename ::= ID|STRING */ yytestcase(yyruleno==366); + /* (367) signed ::= plus_num (OPTIMIZED OUT) */ assert(yyruleno!=367); + /* (368) signed ::= minus_num (OPTIMIZED OUT) */ assert(yyruleno!=368); + /* (369) carglist ::= carglist ccons */ yytestcase(yyruleno==369); + /* (370) carglist ::= */ yytestcase(yyruleno==370); + /* (371) ccons ::= NULL onconf */ yytestcase(yyruleno==371); + /* (372) ccons ::= GENERATED ALWAYS AS generated */ yytestcase(yyruleno==372); + /* (373) ccons ::= AS generated */ yytestcase(yyruleno==373); + /* (374) conslist_opt ::= COMMA conslist */ yytestcase(yyruleno==374); + /* (375) conslist ::= conslist tconscomma tcons */ yytestcase(yyruleno==375); + /* (376) conslist ::= tcons (OPTIMIZED OUT) */ assert(yyruleno!=376); + /* (377) tconscomma ::= */ yytestcase(yyruleno==377); + /* (378) defer_subclause_opt ::= defer_subclause (OPTIMIZED OUT) */ assert(yyruleno!=378); + /* (379) resolvetype ::= raisetype (OPTIMIZED OUT) */ assert(yyruleno!=379); + /* (380) selectnowith ::= oneselect (OPTIMIZED OUT) */ assert(yyruleno!=380); + /* (381) oneselect ::= values */ yytestcase(yyruleno==381); + /* (382) sclp ::= selcollist COMMA */ yytestcase(yyruleno==382); + /* (383) as ::= ID|STRING */ yytestcase(yyruleno==383); + /* (384) indexed_opt ::= indexed_by (OPTIMIZED OUT) */ assert(yyruleno!=384); + /* (385) returning ::= */ yytestcase(yyruleno==385); + /* (386) expr ::= term (OPTIMIZED OUT) */ assert(yyruleno!=386); + /* (387) likeop ::= LIKE_KW|MATCH */ yytestcase(yyruleno==387); + /* (388) case_operand ::= expr */ yytestcase(yyruleno==388); + /* (389) exprlist ::= nexprlist */ yytestcase(yyruleno==389); + /* (390) nmnum ::= plus_num (OPTIMIZED OUT) */ assert(yyruleno!=390); + /* (391) nmnum ::= nm (OPTIMIZED OUT) */ assert(yyruleno!=391); + /* (392) nmnum ::= ON */ yytestcase(yyruleno==392); + /* (393) nmnum ::= DELETE */ yytestcase(yyruleno==393); + /* (394) nmnum ::= DEFAULT */ yytestcase(yyruleno==394); + /* (395) plus_num ::= INTEGER|FLOAT */ yytestcase(yyruleno==395); + /* (396) foreach_clause ::= */ yytestcase(yyruleno==396); + /* (397) foreach_clause ::= FOR EACH ROW */ yytestcase(yyruleno==397); + /* (398) tridxby ::= */ yytestcase(yyruleno==398); + /* (399) database_kw_opt ::= DATABASE */ yytestcase(yyruleno==399); + /* (400) database_kw_opt ::= */ yytestcase(yyruleno==400); + /* (401) kwcolumn_opt ::= */ yytestcase(yyruleno==401); + /* (402) kwcolumn_opt ::= COLUMNKW */ yytestcase(yyruleno==402); + /* (403) vtabarglist ::= vtabarg */ yytestcase(yyruleno==403); + /* (404) vtabarglist ::= vtabarglist COMMA vtabarg */ yytestcase(yyruleno==404); + /* (405) vtabarg ::= vtabarg vtabargtoken */ yytestcase(yyruleno==405); + /* (406) anylist ::= */ yytestcase(yyruleno==406); + /* (407) anylist ::= anylist LP anylist RP */ yytestcase(yyruleno==407); + /* (408) anylist ::= anylist ANY */ yytestcase(yyruleno==408); + /* (409) with ::= */ yytestcase(yyruleno==409); + /* (410) windowdefn_list ::= windowdefn (OPTIMIZED OUT) */ assert(yyruleno!=410); + /* (411) window ::= frame_opt (OPTIMIZED OUT) */ assert(yyruleno!=411); break; /********** End reduce actions ************************************************/ }; @@ -183577,8 +185771,8 @@ static const unsigned char aKWCode[148] = {0, /* Check to see if z[0..n-1] is a keyword. If it is, write the ** parser symbol code for that keyword into *pType. Always ** return the integer n (the length of the token). */ -static int keywordCode(const char *z, int n, int *pType){ - int i, j; +static i64 keywordCode(const char *z, i64 n, int *pType){ + i64 i, j; const char *zKW; assert( n>=2 ); i = ((charMap(z[0])*4) ^ (charMap(z[n-1])*3) ^ n*1) % 127; @@ -184132,7 +186326,7 @@ SQLITE_PRIVATE i64 sqlite3GetToken(const unsigned char *z, int *tokenType){ } case CC_DOLLAR: case CC_VARALPHA: { - int n = 0; + i64 n = 0; testcase( z[0]=='$' ); testcase( z[0]=='@' ); testcase( z[0]==':' ); testcase( z[0]=='#' ); *tokenType = TK_VARIABLE; @@ -184228,7 +186422,7 @@ SQLITE_PRIVATE int sqlite3RunParser(Parse *pParse, const char *zSql){ int tokenType; /* type of the next token */ int lastTokenParsed = -1; /* type of the previous token */ sqlite3 *db = pParse->db; /* The database connection */ - int mxSqlLen; /* Max length of an SQL string */ + i64 mxSqlLen; /* Max length of an SQL string */ Parse *pParentParse = 0; /* Outer parse context, if any */ #ifdef sqlite3Parser_ENGINEALWAYSONSTACK yyParser sEngine; /* Space to hold the Lemon-generated Parser object */ @@ -184358,7 +186552,7 @@ SQLITE_PRIVATE int sqlite3RunParser(Parse *pParse, const char *zSql){ } if( pParse->zErrMsg || (pParse->rc!=SQLITE_OK && pParse->rc!=SQLITE_DONE) ){ if( pParse->zErrMsg==0 ){ - pParse->zErrMsg = sqlite3MPrintf(db, "%s", sqlite3ErrStr(pParse->rc)); + pParse->zErrMsg = sqlite3DbStrDup(db, sqlite3ErrStr(pParse->rc)); } if( (pParse->prepFlags & SQLITE_PREPARE_DONT_LOG)==0 ){ sqlite3_log(pParse->rc, "%s in \"%s\"", pParse->zErrMsg, pParse->zTail); @@ -184439,7 +186633,7 @@ SQLITE_PRIVATE char *sqlite3Normalize( sqlite3_str_append(pStr, " NULL", 5); break; } - /* Fall through */ + /* no break */ deliberate_fall_through } case TK_STRING: case TK_INTEGER: @@ -184503,7 +186697,7 @@ SQLITE_PRIVATE char *sqlite3Normalize( } case TK_SELECT: { iStartIN = 0; - /* fall through */ + /* no break */ deliberate_fall_through } default: { if( sqlite3IsIdChar(zSql[i]) ) addSpaceSeparator(pStr); @@ -185884,6 +188078,14 @@ SQLITE_API int sqlite3_db_config(sqlite3 *db, int op, ...){ rc = setupLookaside(db, pBuf, sz, cnt); break; } + case SQLITE_DBCONFIG_FP_DIGITS: { + int nIn = va_arg(ap, int); + int *pOut = va_arg(ap, int*); + if( nIn>3 && nIn<24 ) db->nFpDigit = (u8)nIn; + if( pOut ) *pOut = db->nFpDigit; + rc = SQLITE_OK; + break; + } default: { static const struct { int op; /* The opcode */ @@ -187439,6 +189641,9 @@ SQLITE_API void *sqlite3_wal_hook( sqlite3_mutex_leave(db->mutex); return pRet; #else + UNUSED_PARAMETER(db); + UNUSED_PARAMETER(xCallback); + UNUSED_PARAMETER(pArg); return 0; #endif } @@ -187454,6 +189659,11 @@ SQLITE_API int sqlite3_wal_checkpoint_v2( int *pnCkpt /* OUT: Total number of frames checkpointed */ ){ #ifdef SQLITE_OMIT_WAL + UNUSED_PARAMETER(db); + UNUSED_PARAMETER(zDb); + UNUSED_PARAMETER(eMode); + UNUSED_PARAMETER(pnLog); + UNUSED_PARAMETER(pnCkpt); return SQLITE_OK; #else int rc; /* Return code */ @@ -187467,11 +189677,12 @@ SQLITE_API int sqlite3_wal_checkpoint_v2( if( pnLog ) *pnLog = -1; if( pnCkpt ) *pnCkpt = -1; + assert( SQLITE_CHECKPOINT_NOOP==-1 ); assert( SQLITE_CHECKPOINT_PASSIVE==0 ); assert( SQLITE_CHECKPOINT_FULL==1 ); assert( SQLITE_CHECKPOINT_RESTART==2 ); assert( SQLITE_CHECKPOINT_TRUNCATE==3 ); - if( eModeSQLITE_CHECKPOINT_TRUNCATE ){ + if( eModeSQLITE_CHECKPOINT_TRUNCATE ){ /* EVIDENCE-OF: R-03996-12088 The M parameter must be a valid checkpoint ** mode: */ return SQLITE_MISUSE_BKPT; @@ -187835,6 +190046,7 @@ static const int aHardLimit[] = { SQLITE_MAX_VARIABLE_NUMBER, /* IMP: R-38091-32352 */ SQLITE_MAX_TRIGGER_DEPTH, SQLITE_MAX_WORKER_THREADS, + SQLITE_MAX_PARSER_DEPTH, }; /* @@ -187849,6 +190061,9 @@ static const int aHardLimit[] = { #if SQLITE_MAX_SQL_LENGTH>SQLITE_MAX_LENGTH # error SQLITE_MAX_SQL_LENGTH must not be greater than SQLITE_MAX_LENGTH #endif +#if SQLITE_MAX_SQL_LENGTH>2147482624 /* 1024 less than 2^31 */ +# error SQLITE_MAX_SQL_LENGTH must not be greater than 2147482624 +#endif #if SQLITE_MAX_COMPOUND_SELECT<2 # error SQLITE_MAX_COMPOUND_SELECT must be at least 2 #endif @@ -187904,6 +190119,7 @@ SQLITE_API int sqlite3_limit(sqlite3 *db, int limitId, int newLimit){ assert( aHardLimit[SQLITE_LIMIT_SQL_LENGTH]==SQLITE_MAX_SQL_LENGTH ); assert( aHardLimit[SQLITE_LIMIT_COLUMN]==SQLITE_MAX_COLUMN ); assert( aHardLimit[SQLITE_LIMIT_EXPR_DEPTH]==SQLITE_MAX_EXPR_DEPTH ); + assert( aHardLimit[SQLITE_LIMIT_PARSER_DEPTH]==SQLITE_MAX_PARSER_DEPTH ); assert( aHardLimit[SQLITE_LIMIT_COMPOUND_SELECT]==SQLITE_MAX_COMPOUND_SELECT); assert( aHardLimit[SQLITE_LIMIT_VDBE_OP]==SQLITE_MAX_VDBE_OP ); assert( aHardLimit[SQLITE_LIMIT_FUNCTION_ARG]==SQLITE_MAX_FUNCTION_ARG ); @@ -187913,7 +190129,7 @@ SQLITE_API int sqlite3_limit(sqlite3 *db, int limitId, int newLimit){ assert( aHardLimit[SQLITE_LIMIT_VARIABLE_NUMBER]==SQLITE_MAX_VARIABLE_NUMBER); assert( aHardLimit[SQLITE_LIMIT_TRIGGER_DEPTH]==SQLITE_MAX_TRIGGER_DEPTH ); assert( aHardLimit[SQLITE_LIMIT_WORKER_THREADS]==SQLITE_MAX_WORKER_THREADS ); - assert( SQLITE_LIMIT_WORKER_THREADS==(SQLITE_N_LIMIT-1) ); + assert( SQLITE_LIMIT_PARSER_DEPTH==(SQLITE_N_LIMIT-1) ); if( limitId<0 || limitId>=SQLITE_N_LIMIT ){ @@ -188277,7 +190493,7 @@ static int openDatabase( db = sqlite3MallocZero( sizeof(sqlite3) ); if( db==0 ) goto opendb_out; if( isThreadsafe -#ifdef SQLITE_ENABLE_MULTITHREADED_CHECKS +#if defined(SQLITE_THREAD_MISUSE_WARNINGS) || sqlite3GlobalConfig.bCoreMutex #endif ){ @@ -188298,6 +190514,7 @@ static int openDatabase( db->aDb = db->aDbStatic; db->lookaside.bDisable = 1; db->lookaside.sz = 0; + db->nFpDigit = 17; assert( sizeof(db->aLimit)==sizeof(aHardLimit) ); memcpy(db->aLimit, aHardLimit, sizeof(db->aLimit)); @@ -188743,6 +190960,12 @@ SQLITE_API int sqlite3_collation_needed16( */ SQLITE_API void *sqlite3_get_clientdata(sqlite3 *db, const char *zName){ DbClientData *p; +#ifdef SQLITE_ENABLE_API_ARMOR + if( !zName || !sqlite3SafetyCheckOk(db) ){ + (void)SQLITE_MISUSE_BKPT; + return 0; + } +#endif sqlite3_mutex_enter(db->mutex); for(p=db->pDbData; p; p=p->pNext){ if( strcmp(p->zName, zName)==0 ){ @@ -189600,6 +191823,17 @@ SQLITE_API int sqlite3_test_control(int op, ...){ break; } + /* sqlite3_test_control(SQLITE_TESTCTRL_ATOF, const char *z, double *p); + ** + ** Test access to the sqlite3AtoF() routine. + */ + case SQLITE_TESTCTRL_ATOF: { + const char *z = va_arg(ap,const char*); + double *pR = va_arg(ap,double*); + rc = sqlite3AtoF(z,pR); + break; + } + #if defined(SQLITE_DEBUG) && !defined(SQLITE_OMIT_WSD) /* sqlite3_test_control(SQLITE_TESTCTRL_TUNE, id, *piValue) ** @@ -189816,6 +192050,7 @@ SQLITE_API const char *sqlite3_filename_journal(const char *zFilename){ } SQLITE_API const char *sqlite3_filename_wal(const char *zFilename){ #ifdef SQLITE_OMIT_WAL + UNUSED_PARAMETER(zFilename); return 0; #else zFilename = sqlite3_filename_journal(zFilename); @@ -191189,7 +193424,16 @@ typedef sqlite3_int64 i64; /* 8-byte signed integer */ #define LARGEST_INT64 (0xffffffff|(((i64)0x7fffffff)<<32)) #define SMALLEST_INT64 (((i64)-1) - LARGEST_INT64) -#define deliberate_fall_through +#if !defined(deliberate_fall_through) +# if defined(__has_attribute) +# if __has_attribute(fallthrough) +# define deliberate_fall_through __attribute__((fallthrough)); +# endif +# endif +#endif +#if !defined(deliberate_fall_through) +# define deliberate_fall_through +#endif /* ** Macros needed to provide flexible arrays in a portable way @@ -191587,6 +193831,15 @@ SQLITE_PRIVATE int sqlite3Fts3Incrmerge(Fts3Table*,int,int); (*(u8*)(p)&0x80) ? sqlite3Fts3GetVarint32(p, piVal) : (*piVal=*(u8*)(p), 1) \ ) +SQLITE_PRIVATE int sqlite3Fts3PrepareStmt( + Fts3Table *p, /* Prepare for this connection */ + const char *zSql, /* SQL to prepare */ + int bPersist, /* True to set SQLITE_PREPARE_PERSISTENT */ + int bAllowVtab, /* True to omit SQLITE_PREPARE_NO_VTAB */ + sqlite3_stmt **pp /* OUT: Prepared statement */ +); + + /* fts3.c */ SQLITE_PRIVATE void sqlite3Fts3ErrMsg(char**,const char*,...); SQLITE_PRIVATE int sqlite3Fts3PutVarint(char *, sqlite3_int64); @@ -193194,9 +195447,7 @@ static int fts3CursorSeekStmt(Fts3Cursor *pCsr){ zSql = sqlite3_mprintf("SELECT %s WHERE rowid = ?", p->zReadExprlist); if( !zSql ) return SQLITE_NOMEM; p->bLock++; - rc = sqlite3_prepare_v3( - p->db, zSql,-1,SQLITE_PREPARE_PERSISTENT,&pCsr->pStmt,0 - ); + rc = sqlite3Fts3PrepareStmt(p, zSql, 1, 1, &pCsr->pStmt); p->bLock--; sqlite3_free(zSql); } @@ -194771,9 +197022,7 @@ static int fts3FilterMethod( } if( zSql ){ p->bLock++; - rc = sqlite3_prepare_v3( - p->db,zSql,-1,SQLITE_PREPARE_PERSISTENT,&pCsr->pStmt,0 - ); + rc = sqlite3Fts3PrepareStmt(p, zSql, 1, 1, &pCsr->pStmt); p->bLock--; sqlite3_free(zSql); }else{ @@ -195396,6 +197645,7 @@ static int fts3IntegrityMethod( UNUSED_PARAMETER(isQuick); rc = sqlite3Fts3IntegrityCheck(p, &bOk); + assert( pVtab->zErrMsg==0 || rc!=SQLITE_OK ); assert( rc!=SQLITE_CORRUPT_VTAB ); if( rc==SQLITE_ERROR || (rc&0xFF)==SQLITE_CORRUPT ){ *pzErr = sqlite3_mprintf("unable to validate the inverted index for" @@ -197912,7 +200162,7 @@ static int fts3auxNextMethod(sqlite3_vtab_cursor *pCursor){ pCsr->aStat[1].nDoc++; } eState = 2; - /* fall through */ + /* no break */ deliberate_fall_through case 2: if( v==0 ){ /* 0x00. Next integer will be a docid. */ @@ -201833,9 +204083,9 @@ typedef struct SegmentWriter SegmentWriter; ** incrementally. See function fts3PendingListAppend() for details. */ struct PendingList { - int nData; + sqlite3_int64 nData; char *aData; - int nSpace; + sqlite3_int64 nSpace; sqlite3_int64 iLastDocid; sqlite3_int64 iLastCol; sqlite3_int64 iLastPos; @@ -202008,6 +204258,24 @@ struct SegmentNode { #define SQL_UPDATE_LEVEL_IDX 38 #define SQL_UPDATE_LEVEL 39 +/* +** Wrapper around sqlite3_prepare_v3() to ensure that SQLITE_PREPARE_FROM_DDL +** is always set. +*/ +SQLITE_PRIVATE int sqlite3Fts3PrepareStmt( + Fts3Table *p, /* Prepare for this connection */ + const char *zSql, /* SQL to prepare */ + int bPersist, /* True to set SQLITE_PREPARE_PERSISTENT */ + int bAllowVtab, /* True to omit SQLITE_PREPARE_NO_VTAB */ + sqlite3_stmt **pp /* OUT: Prepared statement */ +){ + int f = SQLITE_PREPARE_FROM_DDL + |((bAllowVtab==0) ? SQLITE_PREPARE_NO_VTAB : 0) + |(bPersist ? SQLITE_PREPARE_PERSISTENT : 0); + + return sqlite3_prepare_v3(p->db, zSql, -1, f, pp, NULL); +} + /* ** This function is used to obtain an SQLite prepared statement handle ** for the statement identified by the second argument. If successful, @@ -202133,12 +204401,12 @@ static int fts3SqlStmt( pStmt = p->aStmt[eStmt]; if( !pStmt ){ - int f = SQLITE_PREPARE_PERSISTENT|SQLITE_PREPARE_NO_VTAB; + int bAllowVtab = 0; char *zSql; if( eStmt==SQL_CONTENT_INSERT ){ zSql = sqlite3_mprintf(azSql[eStmt], p->zDb, p->zName, p->zWriteExprlist); }else if( eStmt==SQL_SELECT_CONTENT_BY_ROWID ){ - f &= ~SQLITE_PREPARE_NO_VTAB; + bAllowVtab = 1; zSql = sqlite3_mprintf(azSql[eStmt], p->zReadExprlist); }else{ zSql = sqlite3_mprintf(azSql[eStmt], p->zDb, p->zName); @@ -202146,7 +204414,7 @@ static int fts3SqlStmt( if( !zSql ){ rc = SQLITE_NOMEM; }else{ - rc = sqlite3_prepare_v3(p->db, zSql, -1, f, &pStmt, NULL); + rc = sqlite3Fts3PrepareStmt(p, zSql, 1, bAllowVtab, &pStmt); sqlite3_free(zSql); assert( rc==SQLITE_OK || pStmt==0 ); p->aStmt[eStmt] = pStmt; @@ -202495,7 +204763,9 @@ static int fts3PendingTermsAddOne( pList = (PendingList *)fts3HashFind(pHash, zToken, nToken); if( pList ){ - p->nPendingData -= (pList->nData + nToken + sizeof(Fts3HashElem)); + assert( (i64)pList->nData+(i64)nToken+(i64)sizeof(Fts3HashElem) + <= (i64)p->nPendingData ); + p->nPendingData -= (int)(pList->nData + nToken + sizeof(Fts3HashElem)); } if( fts3PendingListAppend(&pList, p->iPrevDocid, iCol, iPos, &rc) ){ if( pList==fts3HashInsert(pHash, zToken, nToken, pList) ){ @@ -202508,7 +204778,9 @@ static int fts3PendingTermsAddOne( } } if( rc==SQLITE_OK ){ - p->nPendingData += (pList->nData + nToken + sizeof(Fts3HashElem)); + assert( (i64)p->nPendingData + pList->nData + nToken + + sizeof(Fts3HashElem) <= 0x3fffffff ); + p->nPendingData += (int)(pList->nData + nToken + sizeof(Fts3HashElem)); } return rc; } @@ -205309,7 +207581,7 @@ static int fts3DoRebuild(Fts3Table *p){ if( !zSql ){ rc = SQLITE_NOMEM; }else{ - rc = sqlite3_prepare_v2(p->db, zSql, -1, &pStmt, 0); + rc = sqlite3Fts3PrepareStmt(p, zSql, 0, 1, &pStmt); sqlite3_free(zSql); } @@ -207062,7 +209334,7 @@ SQLITE_PRIVATE int sqlite3Fts3IntegrityCheck(Fts3Table *p, int *pbOk){ if( !zSql ){ rc = SQLITE_NOMEM; }else{ - rc = sqlite3_prepare_v2(p->db, zSql, -1, &pStmt, 0); + rc = sqlite3Fts3PrepareStmt(p, zSql, 0, 1, &pStmt); sqlite3_free(zSql); } @@ -207192,7 +209464,7 @@ static int fts3SpecialInsert(Fts3Table *p, sqlite3_value *pVal){ v = atoi(&zVal[9]); if( v>=24 && v<=p->nPgsz-35 ) p->nNodeSize = v; rc = SQLITE_OK; - }else if( nVal>11 && 0==sqlite3_strnicmp(zVal, "maxpending=", 9) ){ + }else if( nVal>11 && 0==sqlite3_strnicmp(zVal, "maxpending=", 11) ){ v = atoi(&zVal[11]); if( v>=64 && v<=FTS3_MAX_PENDING_DATA ) p->nMaxPendingData = v; rc = SQLITE_OK; @@ -210452,7 +212724,8 @@ struct JsonString { /* Allowed values for JsonString.eErr */ #define JSTRING_OOM 0x01 /* Out of memory */ #define JSTRING_MALFORMED 0x02 /* Malformed JSONB */ -#define JSTRING_ERR 0x04 /* Error already sent to sqlite3_result */ +#define JSTRING_TOODEEP 0x04 /* JSON nested too deep */ +#define JSTRING_ERR 0x08 /* Error already sent to sqlite3_result */ /* The "subtype" set for text JSON values passed through using ** sqlite3_result_subtype() and sqlite3_value_subtype(). @@ -210467,7 +212740,10 @@ struct JsonString { #define JSON_SQL 0x02 /* Result is always SQL */ #define JSON_ABPATH 0x03 /* Allow abbreviated JSON path specs */ #define JSON_ISSET 0x04 /* json_set(), not json_insert() */ -#define JSON_BLOB 0x08 /* Use the BLOB output format */ +#define JSON_AINS 0x08 /* json_array_insert(), not json_insert() */ +#define JSON_BLOB 0x10 /* Use the BLOB output format */ + +#define JSON_INSERT_TYPE(X) (((X)&0xC)>>2) /* A parsed JSON value. Lifecycle: @@ -210513,6 +212789,7 @@ struct JsonParse { #define JEDIT_REPL 2 /* Overwrite if exists */ #define JEDIT_INS 3 /* Insert if not exists */ #define JEDIT_SET 4 /* Insert or overwrite */ +#define JEDIT_AINS 5 /* array_insert() */ /* ** Maximum nesting depth of JSON for this implementation. @@ -210538,7 +212815,7 @@ struct JsonParse { **************************************************************************/ static void jsonReturnStringAsBlob(JsonString*); static int jsonArgIsJsonb(sqlite3_value *pJson, JsonParse *p); -static u32 jsonTranslateBlobToText(const JsonParse*,u32,JsonString*); +static u32 jsonTranslateBlobToText(JsonParse*,u32,JsonString*); static void jsonReturnParse(sqlite3_context*,JsonParse*); static JsonParse *jsonParseFuncArg(sqlite3_context*,sqlite3_value*,u32); static void jsonParseFree(JsonParse*); @@ -210696,6 +212973,15 @@ static void jsonStringOom(JsonString *p){ jsonStringReset(p); } +/* Report JSON nested too deep +*/ +static void jsonStringTooDeep(JsonString *p){ + p->eErr |= JSTRING_TOODEEP; + assert( p->pCtx!=0 ); + sqlite3_result_error(p->pCtx, "JSON nested too deep", -1); + jsonStringReset(p); +} + /* Enlarge pJson->zBuf so that it can hold at least N more bytes. ** Return zero on success. Return non-zero on an OOM error */ @@ -210985,6 +213271,7 @@ static void jsonReturnString( ){ assert( (pParse!=0)==(ctx!=0) ); assert( ctx==0 || ctx==p->pCtx ); + jsonStringTerminate(p); if( p->eErr==0 ){ int flags = SQLITE_PTR_TO_INT(sqlite3_user_data(p->pCtx)); if( flags & JSON_BLOB ){ @@ -210992,7 +213279,7 @@ static void jsonReturnString( }else if( p->bStatic ){ sqlite3_result_text64(p->pCtx, p->zBuf, p->nUsed, SQLITE_TRANSIENT, SQLITE_UTF8); - }else if( jsonStringTerminate(p) ){ + }else{ if( pParse && pParse->bJsonIsRCStr==0 && pParse->nBlobAlloc>0 ){ int rc; pParse->zJson = sqlite3RCStrRef(p->zBuf); @@ -211008,11 +213295,11 @@ static void jsonReturnString( sqlite3_result_text64(p->pCtx, sqlite3RCStrRef(p->zBuf), p->nUsed, sqlite3RCStrUnref, SQLITE_UTF8); - }else{ - sqlite3_result_error_nomem(p->pCtx); } }else if( p->eErr & JSTRING_OOM ){ sqlite3_result_error_nomem(p->pCtx); + }else if( p->eErr & JSTRING_TOODEEP ){ + /* error already in p->pCtx */ }else if( p->eErr & JSTRING_MALFORMED ){ sqlite3_result_error(p->pCtx, "malformed JSON", -1); } @@ -211343,11 +213630,11 @@ static void jsonBlobAppendOneByte(JsonParse *pParse, u8 c){ /* Slow version of jsonBlobAppendNode() that first resizes the ** pParse->aBlob structure. */ -static void jsonBlobAppendNode(JsonParse*,u8,u32,const void*); +static void jsonBlobAppendNode(JsonParse*,u8,u64,const void*); static SQLITE_NOINLINE void jsonBlobExpandAndAppendNode( JsonParse *pParse, u8 eType, - u32 szPayload, + u64 szPayload, const void *aPayload ){ if( jsonBlobExpand(pParse, pParse->nBlob+szPayload+9) ) return; @@ -211367,7 +213654,7 @@ static SQLITE_NOINLINE void jsonBlobExpandAndAppendNode( static void jsonBlobAppendNode( JsonParse *pParse, /* The JsonParse object under construction */ u8 eType, /* Node type. One of JSONB_* */ - u32 szPayload, /* Number of bytes of payload */ + u64 szPayload, /* Number of bytes of payload */ const void *aPayload /* The payload. Might be NULL */ ){ u8 *a; @@ -212223,12 +214510,8 @@ static int jsonConvertTextToBlob( */ static void jsonReturnStringAsBlob(JsonString *pStr){ JsonParse px; + assert( pStr->eErr==0 ); memset(&px, 0, sizeof(px)); - jsonStringTerminate(pStr); - if( pStr->eErr ){ - sqlite3_result_error_nomem(pStr->pCtx); - return; - } px.zJson = pStr->zBuf; px.nJson = pStr->nUsed; px.db = sqlite3_context_db_handle(pStr->pCtx); @@ -212318,7 +214601,7 @@ static u32 jsonbPayloadSize(const JsonParse *pParse, u32 i, u32 *pSz){ ** The pOut->eErr JSTRING_OOM flag is set on a OOM. */ static u32 jsonTranslateBlobToText( - const JsonParse *pParse, /* the complete parse of the JSON */ + JsonParse *pParse, /* the complete parse of the JSON */ u32 i, /* Start rendering at this index */ JsonString *pOut /* Write JSON here */ ){ @@ -212500,10 +214783,14 @@ static u32 jsonTranslateBlobToText( jsonAppendChar(pOut, '['); j = i+n; iEnd = j+sz; + if( ++pParse->iDepth > JSON_MAX_DEPTH ){ + jsonStringTooDeep(pOut); + } while( jeErr==0 ){ j = jsonTranslateBlobToText(pParse, j, pOut); jsonAppendChar(pOut, ','); } + pParse->iDepth--; if( j>iEnd ) pOut->eErr |= JSTRING_MALFORMED; if( sz>0 ) jsonStringTrimOneChar(pOut); jsonAppendChar(pOut, ']'); @@ -212514,10 +214801,14 @@ static u32 jsonTranslateBlobToText( jsonAppendChar(pOut, '{'); j = i+n; iEnd = j+sz; + if( ++pParse->iDepth > JSON_MAX_DEPTH ){ + jsonStringTooDeep(pOut); + } while( jeErr==0 ){ j = jsonTranslateBlobToText(pParse, j, pOut); jsonAppendChar(pOut, (x++ & 1) ? ',' : ':'); } + pParse->iDepth--; if( (x & 1)!=0 || j>iEnd ) pOut->eErr |= JSTRING_MALFORMED; if( sz>0 ) jsonStringTrimOneChar(pOut); jsonAppendChar(pOut, '}'); @@ -212574,7 +214865,7 @@ static u32 jsonTranslateBlobToPrettyText( u32 i /* Start rendering at this index */ ){ u32 sz, n, j, iEnd; - const JsonParse *pParse = pPretty->pParse; + JsonParse *pParse = pPretty->pParse; JsonString *pOut = pPretty->pOut; n = jsonbPayloadSize(pParse, i, &sz); if( n==0 ){ @@ -212589,6 +214880,9 @@ static u32 jsonTranslateBlobToPrettyText( if( jnIndent++; + if( pPretty->nIndent >= JSON_MAX_DEPTH ){ + jsonStringTooDeep(pOut); + } while( pOut->eErr==0 ){ jsonPrettyIndent(pPretty); j = jsonTranslateBlobToPrettyText(pPretty, j); @@ -212610,6 +214904,10 @@ static u32 jsonTranslateBlobToPrettyText( if( jnIndent++; + if( pPretty->nIndent >= JSON_MAX_DEPTH ){ + jsonStringTooDeep(pOut); + } + pParse->iDepth = pPretty->nIndent; while( pOut->eErr==0 ){ jsonPrettyIndent(pPretty); j = jsonTranslateBlobToText(pParse, j, pOut); @@ -212767,6 +215065,7 @@ static void jsonBlobEdit( u32 nIns /* Bytes of content to insert */ ){ i64 d = (i64)nIns - (i64)nDel; + assert( pParse->nBlob >= (u64)iDel + (u64)nDel ); if( d<0 && d>=(-8) && aIns!=0 && jsonBlobOverwrite(&pParse->aBlob[iDel], aIns, nIns, (int)-d) ){ @@ -213009,7 +215308,9 @@ static int jsonLabelCompare( */ #define JSON_LOOKUP_ERROR 0xffffffff #define JSON_LOOKUP_NOTFOUND 0xfffffffe -#define JSON_LOOKUP_PATHERROR 0xfffffffd +#define JSON_LOOKUP_NOTARRAY 0xfffffffd +#define JSON_LOOKUP_TOODEEP 0xfffffffc +#define JSON_LOOKUP_PATHERROR 0xfffffffb #define JSON_LOOKUP_ISERROR(x) ((x)>=JSON_LOOKUP_PATHERROR) /* Forward declaration */ @@ -213038,7 +215339,7 @@ static u32 jsonLookupStep(JsonParse*,u32,const char*,u32); static u32 jsonCreateEditSubstructure( JsonParse *pParse, /* The original JSONB that is being edited */ JsonParse *pIns, /* Populate this with the blob data to insert */ - const char *zTail /* Tail of the path that determins substructure */ + const char *zTail /* Tail of the path that determines substructure */ ){ static const u8 emptyObject[] = { JSONB_ARRAY, JSONB_OBJECT }; int rc; @@ -213056,7 +215357,12 @@ static u32 jsonCreateEditSubstructure( pIns->eEdit = pParse->eEdit; pIns->nIns = pParse->nIns; pIns->aIns = pParse->aIns; + pIns->iDepth = pParse->iDepth+1; + if( pIns->iDepth >= JSON_MAX_DEPTH ){ + return JSON_LOOKUP_TOODEEP; + } rc = jsonLookupStep(pIns, 0, zTail, 0); + pParse->iDepth--; pParse->oom |= pIns->oom; } return rc; /* Error code only */ @@ -213073,9 +215379,9 @@ static u32 jsonCreateEditSubstructure( ** Return one of the JSON_LOOKUP error codes if problems are seen. ** ** This routine will also modify the blob. If pParse->eEdit is one of -** JEDIT_DEL, JEDIT_REPL, JEDIT_INS, or JEDIT_SET, then changes might be -** made to the selected value. If an edit is performed, then the return -** value does not necessarily point to the select element. If an edit +** JEDIT_DEL, JEDIT_REPL, JEDIT_INS, JEDIT_SET, or JEDIT_AINS, then changes +** might be made to the selected value. If an edit is performed, then the +** return value does not necessarily point to the select element. If an edit ** is performed, the return value is only useful for detecting error ** conditions. */ @@ -213101,6 +215407,13 @@ static u32 jsonLookupStep( jsonBlobEdit(pParse, iRoot, sz, 0, 0); }else if( pParse->eEdit==JEDIT_INS ){ /* Already exists, so json_insert() is a no-op */ + }else if( pParse->eEdit==JEDIT_AINS ){ + /* json_array_insert() */ + if( zPath[-1]!=']' ){ + return JSON_LOOKUP_NOTARRAY; + }else{ + jsonBlobEdit(pParse, iRoot, 0, pParse->aIns, pParse->nIns); + } }else{ /* json_set() or json_replace() */ jsonBlobEdit(pParse, iRoot, sz, pParse->aIns, pParse->nIns); @@ -213155,7 +215468,11 @@ static u32 jsonLookupStep( n = jsonbPayloadSize(pParse, v, &sz); if( n==0 || v+n+sz>iEnd ) return JSON_LOOKUP_ERROR; assert( j>0 ); + if( ++pParse->iDepth >= JSON_MAX_DEPTH ){ + return JSON_LOOKUP_TOODEEP; + } rc = jsonLookupStep(pParse, v, &zPath[i], j); + pParse->iDepth--; if( pParse->delta ) jsonAfterEditSizeAdjust(pParse, iRoot); return rc; } @@ -213172,6 +215489,10 @@ static u32 jsonLookupStep( JsonParse ix; /* Header of the label to be inserted */ testcase( pParse->eEdit==JEDIT_INS ); testcase( pParse->eEdit==JEDIT_SET ); + testcase( pParse->eEdit==JEDIT_AINS ); + if( pParse->eEdit==JEDIT_AINS && sqlite3_strglob("*]",&zPath[i])!=0 ){ + return JSON_LOOKUP_NOTARRAY; + } memset(&ix, 0, sizeof(ix)); ix.db = pParse->db; jsonBlobAppendNode(&ix, rawKey?JSONB_TEXTRAW:JSONB_TEXT5, nKey, 0); @@ -213199,28 +215520,32 @@ static u32 jsonLookupStep( return rc; } }else if( zPath[0]=='[' ){ + u64 kk = 0; x = pParse->aBlob[iRoot] & 0x0f; if( x!=JSONB_ARRAY ) return JSON_LOOKUP_NOTFOUND; n = jsonbPayloadSize(pParse, iRoot, &sz); - k = 0; i = 1; while( sqlite3Isdigit(zPath[i]) ){ - k = k*10 + zPath[i] - '0'; + if( kk<0xffffffff ) kk = kk*10 + zPath[i] - '0'; + /* ^^^^^^^^^^--- Allow kk to be bigger than any JSON array so that + ** we get NOTFOUND instead of PATHERROR, without overflowing kk. */ i++; } if( i<2 || zPath[i]!=']' ){ if( zPath[1]=='#' ){ - k = jsonbArrayCount(pParse, iRoot); + kk = jsonbArrayCount(pParse, iRoot); i = 2; if( zPath[2]=='-' && sqlite3Isdigit(zPath[3]) ){ - unsigned int nn = 0; + u64 nn = 0; i = 3; do{ - nn = nn*10 + zPath[i] - '0'; + if( nn<0xffffffff ) nn = nn*10 + zPath[i] - '0'; + /* ^^^^^^^^^^--- Allow nn to be bigger than any JSON array to + ** get NOTFOUND instead of PATHERROR, without overflowing nn. */ i++; }while( sqlite3Isdigit(zPath[i]) ); - if( nn>k ) return JSON_LOOKUP_NOTFOUND; - k -= nn; + if( nn>kk ) return JSON_LOOKUP_NOTFOUND; + kk -= nn; } if( zPath[i]!=']' ){ return JSON_LOOKUP_PATHERROR; @@ -213232,21 +215557,26 @@ static u32 jsonLookupStep( j = iRoot+n; iEnd = j+sz; while( jiDepth >= JSON_MAX_DEPTH ){ + return JSON_LOOKUP_TOODEEP; + } rc = jsonLookupStep(pParse, j, &zPath[i+1], 0); + pParse->iDepth--; if( pParse->delta ) jsonAfterEditSizeAdjust(pParse, iRoot); return rc; } - k--; + kk--; n = jsonbPayloadSize(pParse, j, &sz); if( n==0 ) return JSON_LOOKUP_ERROR; j += n+sz; } if( j>iEnd ) return JSON_LOOKUP_ERROR; - if( k>0 ) return JSON_LOOKUP_NOTFOUND; + if( kk>0 ) return JSON_LOOKUP_NOTFOUND; if( pParse->eEdit>=JEDIT_INS ){ JsonParse v; testcase( pParse->eEdit==JEDIT_INS ); + testcase( pParse->eEdit==JEDIT_AINS ); testcase( pParse->eEdit==JEDIT_SET ); rc = jsonCreateEditSubstructure(pParse, &v, &zPath[i+1]); if( !JSON_LOOKUP_ISERROR(rc) @@ -213384,7 +215714,7 @@ static void jsonReturnFromBlob( to_double: z = sqlite3DbStrNDup(db, (const char*)&pParse->aBlob[i+n], (int)sz); if( z==0 ) goto returnfromblob_oom; - rc = sqlite3AtoF(z, &r, sqlite3Strlen30(z), SQLITE_UTF8); + rc = sqlite3AtoF(z, &r); sqlite3DbFree(db, z); if( rc<=0 ) goto returnfromblob_malformed; sqlite3_result_double(pCtx, r); @@ -213564,16 +215894,35 @@ static int jsonFunctionArgToBlob( } /* -** Generate a bad path error. +** Generate a path error. +** +** The specifics of the error are determined by the rc argument. +** +** rc error +** ----------------- ---------------------- +** JSON_LOOKUP_ARRAY "not an array" +** JSON_LOOKUP_TOODEEP "JSON nested too deep" +** JSON_LOOKUP_ERROR "malformed JSON" +** otherwise... "bad JSON path" ** ** If ctx is not NULL then push the error message into ctx and return NULL. ** If ctx is NULL, then return the text of the error message. */ static char *jsonBadPathError( sqlite3_context *ctx, /* The function call containing the error */ - const char *zPath /* The path with the problem */ + const char *zPath, /* The path with the problem */ + int rc /* Maybe JSON_LOOKUP_NOTARRAY */ ){ - char *zMsg = sqlite3_mprintf("bad JSON path: %Q", zPath); + char *zMsg; + if( rc==(int)JSON_LOOKUP_NOTARRAY ){ + zMsg = sqlite3_mprintf("not an array element: %Q", zPath); + }else if( rc==(int)JSON_LOOKUP_ERROR ){ + zMsg = sqlite3_mprintf("malformed JSON"); + }else if( rc==(int)JSON_LOOKUP_TOODEEP ){ + zMsg = sqlite3_mprintf("JSON path too deep"); + }else{ + zMsg = sqlite3_mprintf("bad JSON path: %Q", zPath); + } if( ctx==0 ) return zMsg; if( zMsg ){ sqlite3_result_error(ctx, zMsg, -1); @@ -213590,13 +215939,13 @@ static char *jsonBadPathError( ** and return the result. ** ** The specific operation is determined by eEdit, which can be one -** of JEDIT_INS, JEDIT_REPL, or JEDIT_SET. +** of JEDIT_INS, JEDIT_REPL, JEDIT_SET, or JEDIT_AINS. */ static void jsonInsertIntoBlob( sqlite3_context *ctx, int argc, sqlite3_value **argv, - int eEdit /* JEDIT_INS, JEDIT_REPL, or JEDIT_SET */ + int eEdit /* JEDIT_INS, JEDIT_REPL, JEDIT_SET, JEDIT_AINS */ ){ int i; u32 rc = 0; @@ -213633,6 +215982,7 @@ static void jsonInsertIntoBlob( p->nIns = ax.nBlob; p->aIns = ax.aBlob; p->delta = 0; + p->iDepth = 0; rc = jsonLookupStep(p, 0, zPath+1, 0); } jsonParseReset(&ax); @@ -213645,11 +215995,7 @@ static void jsonInsertIntoBlob( jsonInsertIntoBlob_patherror: jsonParseFree(p); - if( rc==JSON_LOOKUP_ERROR ){ - sqlite3_result_error(ctx, "malformed JSON", -1); - }else{ - jsonBadPathError(ctx, zPath); - } + jsonBadPathError(ctx, zPath, rc); return; } @@ -214089,10 +216435,8 @@ static void jsonArrayLengthFunc( if( JSON_LOOKUP_ISERROR(i) ){ if( i==JSON_LOOKUP_NOTFOUND ){ /* no-op */ - }else if( i==JSON_LOOKUP_PATHERROR ){ - jsonBadPathError(ctx, zPath); }else{ - sqlite3_result_error(ctx, "malformed JSON", -1); + jsonBadPathError(ctx, zPath, i); } eErr = 1; i = 0; @@ -214195,7 +216539,7 @@ static void jsonExtractFunc( j = jsonLookupStep(p, 0, jx.zBuf, 0); jsonStringReset(&jx); }else{ - jsonBadPathError(ctx, zPath); + jsonBadPathError(ctx, zPath, 0); goto json_extract_error; } if( jnBlob ){ @@ -214226,11 +216570,8 @@ static void jsonExtractFunc( jsonAppendSeparator(&jx); jsonAppendRawNZ(&jx, "null", 4); } - }else if( j==JSON_LOOKUP_ERROR ){ - sqlite3_result_error(ctx, "malformed JSON", -1); - goto json_extract_error; }else{ - jsonBadPathError(ctx, zPath); + jsonBadPathError(ctx, zPath, j); goto json_extract_error; } } @@ -214254,6 +216595,7 @@ static void jsonExtractFunc( #define JSON_MERGE_BADTARGET 1 /* Malformed TARGET blob */ #define JSON_MERGE_BADPATCH 2 /* Malformed PATCH blob */ #define JSON_MERGE_OOM 3 /* Out-of-memory condition */ +#define JSON_MERGE_TOODEEP 4 /* Nested too deep */ /* ** RFC-7396 MergePatch for two JSONB blobs. @@ -214305,7 +216647,8 @@ static int jsonMergePatch( JsonParse *pTarget, /* The JSON parser that contains the TARGET */ u32 iTarget, /* Index of TARGET in pTarget->aBlob[] */ const JsonParse *pPatch, /* The PATCH */ - u32 iPatch /* Index of PATCH in pPatch->aBlob[] */ + u32 iPatch, /* Index of PATCH in pPatch->aBlob[] */ + u32 iDepth /* Nesting depth */ ){ u8 x; /* Type of a single node */ u32 n, sz=0; /* Return values from jsonbPayloadSize() */ @@ -214414,7 +216757,8 @@ static int jsonMergePatch( /* Algorithm line 12 */ int rc, savedDelta = pTarget->delta; pTarget->delta = 0; - rc = jsonMergePatch(pTarget, iTValue, pPatch, iPValue); + if( iDepth>=JSON_MAX_DEPTH ) return JSON_MERGE_TOODEEP; + rc = jsonMergePatch(pTarget, iTValue, pPatch, iPValue, iDepth+1); if( rc ) return rc; pTarget->delta += savedDelta; } @@ -214435,7 +216779,8 @@ static int jsonMergePatch( pTarget->aBlob[iTEnd+szNew] = 0x00; savedDelta = pTarget->delta; pTarget->delta = 0; - rc = jsonMergePatch(pTarget, iTEnd+szNew,pPatch,iPValue); + if( iDepth>=JSON_MAX_DEPTH ) return JSON_MERGE_TOODEEP; + rc = jsonMergePatch(pTarget, iTEnd+szNew,pPatch,iPValue,iDepth+1); if( rc ) return rc; pTarget->delta += savedDelta; } @@ -214466,11 +216811,13 @@ static void jsonPatchFunc( if( pTarget==0 ) return; pPatch = jsonParseFuncArg(ctx, argv[1], 0); if( pPatch ){ - rc = jsonMergePatch(pTarget, 0, pPatch, 0); + rc = jsonMergePatch(pTarget, 0, pPatch, 0, 0); if( rc==JSON_MERGE_OK ){ jsonReturnParse(ctx, pTarget); }else if( rc==JSON_MERGE_OOM ){ sqlite3_result_error_nomem(ctx); + }else if( rc==JSON_MERGE_TOODEEP ){ + sqlite3_result_error(ctx, "JSON nested too deep", -1); }else{ sqlite3_result_error(ctx, "malformed JSON", -1); } @@ -214558,10 +216905,8 @@ static void jsonRemoveFunc( if( JSON_LOOKUP_ISERROR(rc) ){ if( rc==JSON_LOOKUP_NOTFOUND ){ continue; /* No-op */ - }else if( rc==JSON_LOOKUP_PATHERROR ){ - jsonBadPathError(ctx, zPath); }else{ - sqlite3_result_error(ctx, "malformed JSON", -1); + jsonBadPathError(ctx, zPath, rc); } goto json_remove_done; } @@ -214571,7 +216916,7 @@ static void jsonRemoveFunc( return; json_remove_patherror: - jsonBadPathError(ctx, zPath); + jsonBadPathError(ctx, zPath, 0); json_remove_done: jsonParseFree(p); @@ -214615,16 +216960,18 @@ static void jsonSetFunc( int argc, sqlite3_value **argv ){ - int flags = SQLITE_PTR_TO_INT(sqlite3_user_data(ctx)); - int bIsSet = (flags&JSON_ISSET)!=0; + int eInsType = JSON_INSERT_TYPE(flags); + static const char *azInsType[] = { "insert", "set", "array_insert" }; + static const u8 aEditType[] = { JEDIT_INS, JEDIT_SET, JEDIT_AINS }; if( argc<1 ) return; + assert( eInsType>=0 && eInsType<=2 ); if( (argc&1)==0 ) { - jsonWrongNumArgs(ctx, bIsSet ? "set" : "insert"); + jsonWrongNumArgs(ctx, azInsType[eInsType]); return; } - jsonInsertIntoBlob(ctx, argc, argv, bIsSet ? JEDIT_SET : JEDIT_INS); + jsonInsertIntoBlob(ctx, argc, argv, aEditType[eInsType]); } /* @@ -214649,17 +216996,15 @@ static void jsonTypeFunc( zPath = (const char*)sqlite3_value_text(argv[1]); if( zPath==0 ) goto json_type_done; if( zPath[0]!='$' ){ - jsonBadPathError(ctx, zPath); + jsonBadPathError(ctx, zPath, 0); goto json_type_done; } i = jsonLookupStep(p, 0, zPath+1, 0); if( JSON_LOOKUP_ISERROR(i) ){ if( i==JSON_LOOKUP_NOTFOUND ){ /* no-op */ - }else if( i==JSON_LOOKUP_PATHERROR ){ - jsonBadPathError(ctx, zPath); }else{ - sqlite3_result_error(ctx, "malformed JSON", -1); + jsonBadPathError(ctx, zPath, i); } goto json_type_done; } @@ -214913,12 +217258,12 @@ static void jsonArrayStep( } static void jsonArrayCompute(sqlite3_context *ctx, int isFinal){ JsonString *pStr; + int flags = SQLITE_PTR_TO_INT(sqlite3_user_data(ctx)); pStr = (JsonString*)sqlite3_aggregate_context(ctx, 0); if( pStr ){ - int flags; pStr->pCtx = ctx; - jsonAppendChar(pStr, ']'); - flags = SQLITE_PTR_TO_INT(sqlite3_user_data(ctx)); + jsonAppendRawNZ(pStr, "]", 2); + jsonStringTrimOneChar(pStr); if( pStr->eErr ){ jsonReturnString(pStr, 0, 0); return; @@ -214939,6 +217284,9 @@ static void jsonArrayCompute(sqlite3_context *ctx, int isFinal){ sqlite3_result_text(ctx, pStr->zBuf, (int)pStr->nUsed, SQLITE_TRANSIENT); jsonStringTrimOneChar(pStr); } + }else if( flags & JSON_BLOB ){ + static const u8 emptyArray = 0x0b; + sqlite3_result_blob(ctx, &emptyArray, 1, SQLITE_STATIC); }else{ sqlite3_result_text(ctx, "[]", 2, SQLITE_STATIC); } @@ -215035,12 +217383,12 @@ static void jsonObjectStep( } static void jsonObjectCompute(sqlite3_context *ctx, int isFinal){ JsonString *pStr; + int flags = SQLITE_PTR_TO_INT(sqlite3_user_data(ctx)); pStr = (JsonString*)sqlite3_aggregate_context(ctx, 0); if( pStr ){ - int flags; - jsonAppendChar(pStr, '}'); + jsonAppendRawNZ(pStr, "}", 2); + jsonStringTrimOneChar(pStr); pStr->pCtx = ctx; - flags = SQLITE_PTR_TO_INT(sqlite3_user_data(ctx)); if( pStr->eErr ){ jsonReturnString(pStr, 0, 0); return; @@ -215061,6 +217409,9 @@ static void jsonObjectCompute(sqlite3_context *ctx, int isFinal){ sqlite3_result_text(ctx, pStr->zBuf, (int)pStr->nUsed, SQLITE_TRANSIENT); jsonStringTrimOneChar(pStr); } + }else if( flags & JSON_BLOB ){ + static const unsigned char emptyObject = 0x0c; + sqlite3_result_blob(ctx, &emptyObject, 1, SQLITE_STATIC); }else{ sqlite3_result_text(ctx, "{}", 2, SQLITE_STATIC); } @@ -215561,7 +217912,7 @@ static int jsonEachFilter( if( zRoot==0 ) return SQLITE_OK; if( zRoot[0]!='$' ){ sqlite3_free(cur->pVtab->zErrMsg); - cur->pVtab->zErrMsg = jsonBadPathError(0, zRoot); + cur->pVtab->zErrMsg = jsonBadPathError(0, zRoot, 0); jsonEachCursorReset(p); return cur->pVtab->zErrMsg ? SQLITE_ERROR : SQLITE_NOMEM; } @@ -215579,7 +217930,7 @@ static int jsonEachFilter( return SQLITE_OK; } sqlite3_free(cur->pVtab->zErrMsg); - cur->pVtab->zErrMsg = jsonBadPathError(0, zRoot); + cur->pVtab->zErrMsg = jsonBadPathError(0, zRoot, 0); jsonEachCursorReset(p); return cur->pVtab->zErrMsg ? SQLITE_ERROR : SQLITE_NOMEM; } @@ -215669,6 +218020,8 @@ SQLITE_PRIVATE void sqlite3RegisterJsonFunctions(void){ JFUNCTION(jsonb, 1,1,0, 0,1,0, jsonRemoveFunc), JFUNCTION(json_array, -1,0,1, 1,0,0, jsonArrayFunc), JFUNCTION(jsonb_array, -1,0,1, 1,1,0, jsonArrayFunc), + JFUNCTION(json_array_insert, -1,1,1, 1,0,JSON_AINS, jsonSetFunc), + JFUNCTION(jsonb_array_insert,-1,1,0, 1,1,JSON_AINS, jsonSetFunc), JFUNCTION(json_array_length, 1,1,0, 0,0,0, jsonArrayLengthFunc), JFUNCTION(json_array_length, 2,1,0, 0,0,0, jsonArrayLengthFunc), JFUNCTION(json_error_position,1,1,0, 0,0,0, jsonErrorFunc), @@ -216778,7 +219131,17 @@ static void rtreeRelease(Rtree *pRtree){ pRtree->inWrTrans = 0; assert( pRtree->nCursor==0 ); nodeBlobReset(pRtree); - assert( pRtree->nNodeRef==0 || pRtree->bCorrupt ); + if( pRtree->nNodeRef ){ + int i; + assert( pRtree->bCorrupt ); + for(i=0; iaHash[i] ){ + RtreeNode *pNext = pRtree->aHash[i]->pNext; + sqlite3_free(pRtree->aHash[i]); + pRtree->aHash[i] = pNext; + } + } + } sqlite3_finalize(pRtree->pWriteNode); sqlite3_finalize(pRtree->pDeleteNode); sqlite3_finalize(pRtree->pReadRowid); @@ -218070,7 +220433,7 @@ static int AdjustTree( int iCell; cnt++; - if( NEVER(cnt>100) ){ + if( cnt>100 ){ RTREE_IS_CORRUPT(pRtree); return SQLITE_CORRUPT_VTAB; } @@ -218428,15 +220791,6 @@ static int SplitNode( rc = updateMapping(pRtree, pCell->iRowid, pLeft, iHeight); } - if( rc==SQLITE_OK ){ - rc = nodeRelease(pRtree, pRight); - pRight = 0; - } - if( rc==SQLITE_OK ){ - rc = nodeRelease(pRtree, pLeft); - pLeft = 0; - } - splitnode_out: nodeRelease(pRtree, pRight); nodeRelease(pRtree, pLeft); @@ -218621,7 +220975,7 @@ static int rtreeInsertCell( rc = SplitNode(pRtree, pNode, pCell, iHeight); }else{ rc = AdjustTree(pRtree, pNode, pCell); - if( ALWAYS(rc==SQLITE_OK) ){ + if( rc==SQLITE_OK ){ if( iHeight==0 ){ rc = rowidWrite(pRtree, pCell->iRowid, pNode->iNode); }else{ @@ -220249,7 +222603,7 @@ static int geopolyParseNumber(GeoParse *p, GeoCoord *pVal){ /* The sqlite3AtoF() routine is much much faster than atof(), if it ** is available */ double r; - (void)sqlite3AtoF((const char*)p->z, &r, j, SQLITE_UTF8); + (void)sqlite3AtoF((const char*)p->z, &r); *pVal = r; #else *pVal = (GeoCoord)atof((const char*)p->z); @@ -225834,8 +228188,8 @@ static char *rbuObjIterGetIndexWhere(sqlite3rbu *p, RbuObjIter *pIter){ /* If necessary, grow the pIter->aIdxCol[] array */ if( iIdxCol==nIdxAlloc ){ - RbuSpan *aIdxCol = (RbuSpan*)sqlite3_realloc( - pIter->aIdxCol, (nIdxAlloc+16)*sizeof(RbuSpan) + RbuSpan *aIdxCol = (RbuSpan*)sqlite3_realloc64( + pIter->aIdxCol, nIdxAlloc*sizeof(RbuSpan) + 16*sizeof(RbuSpan) ); if( aIdxCol==0 ){ rc = SQLITE_NOMEM; @@ -230508,6 +232862,7 @@ struct carray_bind { int nData; /* Number of elements */ int mFlags; /* Control flags */ void (*xDel)(void*); /* Destructor for aData */ + void *pDel; /* Alternative argument to xDel() */ }; @@ -230840,7 +233195,7 @@ static sqlite3_module carrayModule = { static void carrayBindDel(void *pPtr){ carray_bind *p = (carray_bind*)pPtr; if( p->xDel!=SQLITE_STATIC ){ - p->xDel(p->aData); + p->xDel(p->pDel); } sqlite3_free(p); } @@ -230848,14 +233203,26 @@ static void carrayBindDel(void *pPtr){ /* ** Invoke this interface in order to bind to the single-argument ** version of CARRAY(). +** +** pStmt The prepared statement to which to bind +** idx The index of the parameter of pStmt to which to bind +** aData The data to be bound +** nData The number of elements in aData +** mFlags One of SQLITE_CARRAY_xxxx indicating datatype of aData +** xDestroy Destructor for pDestroy or aData if pDestroy==NULL. +** pDestroy Invoke xDestroy on this pointer if not NULL +** +** The destructor is called pDestroy if pDestroy!=NULL, or against +** aData if pDestroy==NULL. */ -SQLITE_API int sqlite3_carray_bind( +SQLITE_API int sqlite3_carray_bind_v2( sqlite3_stmt *pStmt, int idx, void *aData, int nData, int mFlags, - void (*xDestroy)(void*) + void (*xDestroy)(void*), + void *pDestroy ){ carray_bind *pNew = 0; int i; @@ -230932,20 +233299,38 @@ SQLITE_API int sqlite3_carray_bind( memcpy(pNew->aData, aData, sz); } pNew->xDel = sqlite3_free; + pNew->pDel = pNew->aData; }else{ pNew->aData = aData; pNew->xDel = xDestroy; + pNew->pDel = pDestroy; } return sqlite3_bind_pointer(pStmt, idx, pNew, "carray-bind", carrayBindDel); carray_bind_error: if( xDestroy!=SQLITE_STATIC && xDestroy!=SQLITE_TRANSIENT ){ - xDestroy(aData); + xDestroy(pDestroy); } sqlite3_free(pNew); return rc; } +/* +** Invoke this interface in order to bind to the single-argument +** version of CARRAY(). Same as sqlite3_carray_bind_v2() with the +** pDestroy parameter set to NULL. +*/ +SQLITE_API int sqlite3_carray_bind( + sqlite3_stmt *pStmt, + int idx, + void *aData, + int nData, + int mFlags, + void (*xDestroy)(void*) +){ + return sqlite3_carray_bind_v2(pStmt,idx,aData,nData,mFlags,xDestroy,aData); +} + /* ** Invoke this routine to register the carray() function. */ @@ -231308,6 +233693,21 @@ static int sessionVarintGet(const u8 *aBuf, int *piVal){ return getVarint32(aBuf, *piVal); } +/* +** Read a varint value from buffer aBuf[], size nBuf bytes, into *piVal. +** Return the number of bytes read. +*/ +static int sessionVarintGetSafe(const u8 *aBuf, int nBuf, int *piVal){ + u8 aCopy[9]; + const u8 *aRead = aBuf; + memset(aCopy, 0, sizeof(aCopy)); + if( nBuf> 0) & 0xFF; } +/* +** Write a double value to the buffer aBuf[]. +*/ +static void sessionPutDouble(u8 *aBuf, double r){ + /* TODO: SQLite does something special to deal with mixed-endian + ** floating point values (e.g. ARM7). This code probably should + ** too. */ + u64 i; + assert( sizeof(double)==8 && sizeof(u64)==8 ); + memcpy(&i, &r, 8); + sessionPutI64(aBuf, i); +} + /* ** This function is used to serialize the contents of value pValue (see ** comment titled "RECORD FORMAT" above). @@ -231373,16 +233786,13 @@ static int sessionSerializeValue( /* TODO: SQLite does something special to deal with mixed-endian ** floating point values (e.g. ARM7). This code probably should ** too. */ - u64 i; if( eType==SQLITE_INTEGER ){ - i = (u64)sqlite3_value_int64(pValue); + u64 i = (u64)sqlite3_value_int64(pValue); + sessionPutI64(&aBuf[1], i); }else{ - double r; - assert( sizeof(double)==8 && sizeof(u64)==8 ); - r = sqlite3_value_double(pValue); - memcpy(&i, &r, 8); + double r = sqlite3_value_double(pValue); + sessionPutDouble(&aBuf[1], r); } - sessionPutI64(&aBuf[1], i); } nByte = 9; break; @@ -231572,10 +233982,11 @@ static int sessionSerialLen(const u8 *a){ int n; assert( a!=0 ); e = *a; - if( e==0 || e==0xFF ) return 1; - if( e==SQLITE_NULL ) return 1; if( e==SQLITE_INTEGER || e==SQLITE_FLOAT ) return 9; - return sessionVarintGet(&a[1], &n) + 1 + n; + if( e==SQLITE_TEXT || e==SQLITE_BLOB ){ + return sessionVarintGet(&a[1], &n) + 1 + n; + } + return 1; } /* @@ -231598,31 +234009,31 @@ static unsigned int sessionChangeHash( u8 *a = aRecord; /* Used to iterate through change record */ for(i=0; inCol; i++){ - int eType = *a; int isPK = pTab->abPK[i]; if( bPkOnly && isPK==0 ) continue; - /* It is not possible for eType to be SQLITE_NULL here. The session - ** module does not record changes for rows with NULL values stored in - ** primary key columns. */ - assert( eType==SQLITE_INTEGER || eType==SQLITE_FLOAT - || eType==SQLITE_TEXT || eType==SQLITE_BLOB - || eType==SQLITE_NULL || eType==0 - ); - assert( !isPK || (eType!=0 && eType!=SQLITE_NULL) ); - if( isPK ){ - a++; + int eType = *a++; + + assert( eType==SQLITE_INTEGER || eType==SQLITE_FLOAT + || eType==SQLITE_TEXT || eType==SQLITE_BLOB + || eType==SQLITE_NULL || eType==0 + ); + h = sessionHashAppendType(h, eType); if( eType==SQLITE_INTEGER || eType==SQLITE_FLOAT ){ h = sessionHashAppendI64(h, sessionGetI64(a)); a += 8; - }else{ + }else if( eType==SQLITE_TEXT || eType==SQLITE_BLOB ){ int n; a += sessionVarintGet(a, &n); h = sessionHashAppendBlob(h, n, a); a += n; } + /* It should not be possible for eType to be SQLITE_NULL or 0x00 here, + ** as the session module does not record changes for rows with NULL + ** values stored in primary key columns. But a corrupt changesets + ** may contain such a value. */ }else{ a += sessionSerialLen(a); } @@ -232314,9 +234725,7 @@ static void sessionUpdateOneChange( case SQLITE_FLOAT: { double rVal = sqlite3_column_double(pDflt, iField); - i64 iVal = 0; - memcpy(&iVal, &rVal, sizeof(rVal)); - sessionPutI64(&pNew->aRecord[pNew->nRecord], iVal); + sessionPutDouble(&pNew->aRecord[pNew->nRecord], rVal); pNew->nRecord += 8; break; } @@ -233573,15 +235982,14 @@ static void sessionAppendCol( int eType = sqlite3_column_type(pStmt, iCol); sessionAppendByte(p, (u8)eType, pRc); if( eType==SQLITE_INTEGER || eType==SQLITE_FLOAT ){ - sqlite3_int64 i; u8 aBuf[8]; if( eType==SQLITE_INTEGER ){ - i = sqlite3_column_int64(pStmt, iCol); + sqlite3_int64 i = sqlite3_column_int64(pStmt, iCol); + sessionPutI64(aBuf, i); }else{ double r = sqlite3_column_double(pStmt, iCol); - memcpy(&i, &r, 8); + sessionPutDouble(aBuf, r); } - sessionPutI64(aBuf, i); sessionAppendBlob(p, aBuf, 8, pRc); } if( eType==SQLITE_BLOB || eType==SQLITE_TEXT ){ @@ -234031,10 +236439,13 @@ static int sessionGenerateChangeset( } if( pSession->rc ) return pSession->rc; - rc = sqlite3_exec(pSession->db, "SAVEPOINT changeset", 0, 0, 0); - if( rc!=SQLITE_OK ) return rc; sqlite3_mutex_enter(sqlite3_db_mutex(db)); + rc = sqlite3_exec(pSession->db, "SAVEPOINT changeset", 0, 0, 0); + if( rc!=SQLITE_OK ){ + sqlite3_mutex_leave(sqlite3_db_mutex(db)); + return rc; + } for(pTab=pSession->pTable; rc==SQLITE_OK && pTab; pTab=pTab->pNext){ if( pTab->nEntry ){ @@ -234517,7 +236928,8 @@ static int sessionReadRecord( u8 *aVal = &pIn->aData[pIn->iNext]; if( eType==SQLITE_TEXT || eType==SQLITE_BLOB ){ int nByte; - pIn->iNext += sessionVarintGet(aVal, &nByte); + int nRem = pIn->nData - pIn->iNext; + pIn->iNext += sessionVarintGetSafe(aVal, nRem, &nByte); rc = sessionInputBuffer(pIn, nByte); if( rc==SQLITE_OK ){ if( nByte<0 || nByte>pIn->nData-pIn->iNext ){ @@ -234570,7 +236982,8 @@ static int sessionChangesetBufferTblhdr(SessionInput *pIn, int *pnByte){ rc = sessionInputBuffer(pIn, 9); if( rc==SQLITE_OK ){ - nRead += sessionVarintGet(&pIn->aData[pIn->iNext + nRead], &nCol); + int nBuf = pIn->nData - pIn->iNext; + nRead += sessionVarintGetSafe(&pIn->aData[pIn->iNext], nBuf, &nCol); /* The hard upper limit for the number of columns in an SQLite ** database table is, according to sqliteLimit.h, 32676. So ** consider any table-header that purports to have more than 65536 @@ -234590,8 +237003,15 @@ static int sessionChangesetBufferTblhdr(SessionInput *pIn, int *pnByte){ while( (pIn->iNext + nRead)nData && pIn->aData[pIn->iNext + nRead] ){ nRead++; } + + /* Break out of the loop if if the nul-terminator byte has been found. + ** Otherwise, read some more input data and keep seeking. If there is + ** no more input data, consider the changeset corrupt. */ if( (pIn->iNext + nRead)nData ) break; rc = sessionInputBuffer(pIn, nRead + 100); + if( rc==SQLITE_OK && (pIn->iNext + nRead)>=pIn->nData ){ + rc = SQLITE_CORRUPT_BKPT; + } } *pnByte = nRead+1; return rc; @@ -234612,7 +237032,7 @@ static int sessionChangesetBufferRecord( int *pnByte /* OUT: Size of record in bytes */ ){ int rc = SQLITE_OK; - int nByte = 0; + i64 nByte = 0; int i; for(i=0; rc==SQLITE_OK && iaData[pIn->iNext + nByte++]; if( eType==SQLITE_TEXT || eType==SQLITE_BLOB ){ int n; - nByte += sessionVarintGet(&pIn->aData[pIn->iNext+nByte], &n); + int nRem = pIn->nData - (pIn->iNext + nByte); + nByte += sessionVarintGetSafe(&pIn->aData[pIn->iNext+nByte], nRem, &n); nByte += n; rc = sessionInputBuffer(pIn, nByte); }else if( eType==SQLITE_INTEGER || eType==SQLITE_FLOAT ){ nByte += 8; + }else if( eType!=0 && eType!=SQLITE_NULL ){ + rc = SQLITE_CORRUPT_BKPT; } } + if( rc==SQLITE_OK && (pIn->iNext+nByte)>pIn->nData ){ + rc = SQLITE_CORRUPT_BKPT; + } } *pnByte = nByte; return rc; @@ -234723,10 +237149,10 @@ static int sessionChangesetNextOne( memset(p->apValue, 0, sizeof(sqlite3_value*)*p->nCol*2); } - /* Make sure the buffer contains at least 10 bytes of input data, or all - ** remaining data if there are less than 10 bytes available. This is - ** sufficient either for the 'T' or 'P' byte and the varint that follows - ** it, or for the two single byte values otherwise. */ + /* Make sure the buffer contains at least 2 bytes of input data, or all + ** remaining data if there are less than 2 bytes available. This is + ** sufficient either for the 'T' or 'P' byte that begins a new table, + ** or for the "op" and "bIndirect" single bytes otherwise. */ p->rc = sessionInputBuffer(&p->in, 2); if( p->rc!=SQLITE_OK ) return p->rc; @@ -234756,11 +237182,13 @@ static int sessionChangesetNextOne( return (p->rc = SQLITE_CORRUPT_BKPT); } - p->op = op; - p->bIndirect = p->in.aData[p->in.iNext++]; - if( p->op!=SQLITE_UPDATE && p->op!=SQLITE_DELETE && p->op!=SQLITE_INSERT ){ + if( (op!=SQLITE_UPDATE && op!=SQLITE_DELETE && op!=SQLITE_INSERT) + || (p->in.iNext>=p->in.nData) + ){ return (p->rc = SQLITE_CORRUPT_BKPT); } + p->op = op; + p->bIndirect = p->in.aData[p->in.iNext++]; if( paRec ){ int nVal; /* Number of values to buffer */ @@ -235960,7 +238388,7 @@ static int sessionApplyOneOp( for(i=0; rc==SQLITE_OK && iabPK[i] || (bPatchset==0 && pOld) ){ + if( pOld && (p->abPK[i] || bPatchset==0) ){ rc = sessionBindValue(pUp, i*2+2, pOld); } if( rc==SQLITE_OK && pNew ){ @@ -236608,6 +239036,21 @@ SQLITE_API int sqlite3changeset_apply_strm( ); } +/* +** The parts of the sqlite3_changegroup structure used by the +** sqlite3changegroup_change_xxx() APIs. +*/ +typedef struct ChangeData ChangeData; +struct ChangeData { + SessionTable *pTab; + int bIndirect; + int eOp; + + int nBufAlloc; + SessionBuffer *aBuf; + SessionBuffer record; +}; + /* ** sqlite3_changegroup handle. */ @@ -236619,12 +239062,17 @@ struct sqlite3_changegroup { sqlite3 *db; /* Configured by changegroup_schema() */ char *zDb; /* Configured by changegroup_schema() */ + ChangeData cd; /* Used by changegroup_change_xxx() APIs. */ }; /* ** This function is called to merge two changes to the same row together as ** part of an sqlite3changeset_concat() operation. A new change object is ** allocated and a pointer to it stored in *ppNew. +** +** Because they have been vetted by sqlite3changegroup_add() or similar, +** both the aRec[] change and the pExist change are safe to use without +** checking for buffer overflows. */ static int sessionChangeMerge( SessionTable *pTab, /* Table structure */ @@ -236765,7 +239213,7 @@ static int sessionChangeMerge( memcpy(aCsr, aRec, nRec); aCsr += nRec; }else{ - if( 0==sessionMergeUpdate(&aCsr, pTab, bPatchset, aExist, 0,aRec,0) ){ + if( 0==sessionMergeUpdate(&aCsr, pTab, bPatchset, aExist,0,aRec,0) ){ sqlite3_free(pNew); pNew = 0; } @@ -236858,15 +239306,14 @@ static int sessionChangesetExtendRecord( switch( eType ){ case SQLITE_FLOAT: case SQLITE_INTEGER: { - i64 iVal; - if( eType==SQLITE_INTEGER ){ - iVal = sqlite3_column_int64(pTab->pDfltStmt, ii); - }else{ - double rVal = sqlite3_column_int64(pTab->pDfltStmt, ii); - memcpy(&iVal, &rVal, sizeof(i64)); - } if( SQLITE_OK==sessionBufferGrow(pOut, 8, &rc) ){ - sessionPutI64(&pOut->aBuf[pOut->nBuf], iVal); + if( eType==SQLITE_INTEGER ){ + sqlite3_int64 iVal = sqlite3_column_int64(pTab->pDfltStmt, ii); + sessionPutI64(&pOut->aBuf[pOut->nBuf], iVal); + }else{ + double rVal = sqlite3_column_double(pTab->pDfltStmt, ii); + sessionPutDouble(&pOut->aBuf[pOut->nBuf], rVal); + } pOut->nBuf += 8; } break; @@ -236937,13 +239384,19 @@ static int sessionChangesetFindTable( int nCol = 0; *ppTab = 0; - sqlite3changeset_pk(pIter, &abPK, &nCol); /* Search the list for an existing table */ for(pTab = pGrp->pList; pTab; pTab=pTab->pNext){ if( 0==sqlite3_strnicmp(pTab->zName, zTab, nTab+1) ) break; } + + if( pIter ){ + sqlite3changeset_pk(pIter, &abPK, &nCol); + }else if( !pTab && !pGrp->db ){ + return SQLITE_OK; + } + /* If one was not found above, create a new table now */ if( !pTab ){ SessionTable **ppNew; @@ -236955,15 +239408,17 @@ static int sessionChangesetFindTable( memset(pTab, 0, sizeof(SessionTable)); pTab->nCol = nCol; pTab->abPK = (u8*)&pTab[1]; - memcpy(pTab->abPK, abPK, nCol); + if( nCol>0 ){ + memcpy(pTab->abPK, abPK, nCol); + } pTab->zName = (char*)&pTab->abPK[nCol]; memcpy(pTab->zName, zTab, nTab+1); if( pGrp->db ){ pTab->nCol = 0; rc = sessionInitTable(0, pTab, pGrp->db, pGrp->zDb); - if( rc ){ - assert( pTab->azCol==0 ); + if( rc || pTab->nCol==0 ){ + sqlite3_free(pTab->azCol); sqlite3_free(pTab); return rc; } @@ -236978,7 +239433,7 @@ static int sessionChangesetFindTable( } /* Check that the table is compatible. */ - if( !sessionChangesetCheckCompat(pTab, nCol, abPK) ){ + if( pIter && !sessionChangesetCheckCompat(pTab, nCol, abPK) ){ rc = SQLITE_SCHEMA; } @@ -236987,44 +239442,27 @@ static int sessionChangesetFindTable( } /* -** Add the change currently indicated by iterator pIter to the hash table -** belonging to changegroup pGrp. +** Add a single change to the changegroup pGrp. */ static int sessionOneChangeToHash( - sqlite3_changegroup *pGrp, - sqlite3_changeset_iter *pIter, - int bRebase + sqlite3_changegroup *pGrp, /* Changegroup to update */ + SessionTable *pTab, /* Table change pertains to */ + int op, /* One of SQLITE_INSERT, UPDATE, DELETE */ + int bIndirect, /* True to flag change as "indirect" */ + int nCol, /* Number of columns in record(s) */ + u8 *aRec, /* Serialized change record(s) */ + int nRec, /* Size of aRec[] in bytes */ + int bRebase /* True if this is a rebase blob */ ){ int rc = SQLITE_OK; - int nCol = 0; - int op = 0; int iHash = 0; - int bIndirect = 0; SessionChange *pChange = 0; SessionChange *pExist = 0; SessionChange **pp = 0; - SessionTable *pTab = 0; - u8 *aRec = &pIter->in.aData[pIter->in.iCurrent + 2]; - int nRec = (pIter->in.iNext - pIter->in.iCurrent) - 2; assert( nRec>0 ); - /* Ensure that only changesets, or only patchsets, but not a mixture - ** of both, are being combined. It is an error to try to combine a - ** changeset and a patchset. */ - if( pGrp->pList==0 ){ - pGrp->bPatch = pIter->bPatchset; - }else if( pIter->bPatchset!=pGrp->bPatch ){ - rc = SQLITE_ERROR; - } - - if( rc==SQLITE_OK ){ - const char *zTab = 0; - sqlite3changeset_op(pIter, &zTab, &nCol, &op, &bIndirect); - rc = sessionChangesetFindTable(pGrp, zTab, pIter, &pTab); - } - - if( rc==SQLITE_OK && nColnCol ){ + if( nColnCol ){ SessionBuffer *pBuf = &pGrp->rec; rc = sessionChangesetExtendRecord(pGrp, pTab, nCol, op, aRec, nRec, pBuf); aRec = pBuf->aBuf; @@ -237032,7 +239470,7 @@ static int sessionOneChangeToHash( assert( pGrp->db ); } - if( rc==SQLITE_OK && sessionGrowHash(0, pIter->bPatchset, pTab) ){ + if( rc==SQLITE_OK && sessionGrowHash(0, pGrp->bPatch, pTab) ){ rc = SQLITE_NOMEM; } @@ -237040,12 +239478,12 @@ static int sessionOneChangeToHash( /* Search for existing entry. If found, remove it from the hash table. ** Code below may link it back in. */ iHash = sessionChangeHash( - pTab, (pIter->bPatchset && op==SQLITE_DELETE), aRec, pTab->nChange + pTab, (pGrp->bPatch && op==SQLITE_DELETE), aRec, pTab->nChange ); for(pp=&pTab->apChange[iHash]; *pp; pp=&(*pp)->pNext){ int bPkOnly1 = 0; int bPkOnly2 = 0; - if( pIter->bPatchset ){ + if( pGrp->bPatch ){ bPkOnly1 = (*pp)->op==SQLITE_DELETE; bPkOnly2 = op==SQLITE_DELETE; } @@ -237060,7 +239498,7 @@ static int sessionOneChangeToHash( if( rc==SQLITE_OK ){ rc = sessionChangeMerge(pTab, bRebase, - pIter->bPatchset, pExist, op, bIndirect, aRec, nRec, &pChange + pGrp->bPatch, pExist, op, bIndirect, aRec, nRec, &pChange ); } if( rc==SQLITE_OK && pChange ){ @@ -237069,6 +239507,47 @@ static int sessionOneChangeToHash( pTab->nEntry++; } + return rc; +} + +/* +** Add the change currently indicated by iterator pIter to the hash table +** belonging to changegroup pGrp. +*/ +static int sessionOneChangeIterToHash( + sqlite3_changegroup *pGrp, + sqlite3_changeset_iter *pIter, + int bRebase +){ + u8 *aRec = &pIter->in.aData[pIter->in.iCurrent + 2]; + int nRec = (pIter->in.iNext - pIter->in.iCurrent) - 2; + const char *zTab = 0; + int nCol = 0; + int op = 0; + int bIndirect = 0; + int rc = SQLITE_OK; + SessionTable *pTab = 0; + + /* Ensure that only changesets, or only patchsets, but not a mixture + ** of both, are being combined. It is an error to try to combine a + ** changeset and a patchset. */ + if( pGrp->pList==0 ){ + pGrp->bPatch = pIter->bPatchset; + }else if( pIter->bPatchset!=pGrp->bPatch ){ + rc = SQLITE_ERROR; + } + + if( rc==SQLITE_OK ){ + sqlite3changeset_op(pIter, &zTab, &nCol, &op, &bIndirect); + rc = sessionChangesetFindTable(pGrp, zTab, pIter, &pTab); + } + + if( rc==SQLITE_OK ){ + rc = sessionOneChangeToHash( + pGrp, pTab, op, bIndirect, nCol, aRec, nRec, bRebase + ); + } + if( rc==SQLITE_OK ) rc = pIter->rc; return rc; } @@ -237088,7 +239567,7 @@ static int sessionChangesetToHash( pIter->in.bNoDiscard = 1; while( SQLITE_ROW==(sessionChangesetNext(pIter, &aRec, &nRec, 0)) ){ - rc = sessionOneChangeToHash(pGrp, pIter, bRebase); + rc = sessionOneChangeIterToHash(pGrp, pIter, bRebase); if( rc!=SQLITE_OK ) break; } @@ -237178,6 +239657,33 @@ SQLITE_API int sqlite3changegroup_new(sqlite3_changegroup **pp){ return rc; } +/* +** Configure a changegroup object. +*/ +SQLITE_API int sqlite3changegroup_config( + sqlite3_changegroup *pGrp, + int op, + void *pArg +){ + int rc = SQLITE_OK; + + switch( op ){ + case SQLITE_CHANGEGROUP_CONFIG_PATCHSET: { + int arg = *(int*)pArg; + if( pGrp->pList==0 && arg>=0 ){ + pGrp->bPatch = (arg>0); + } + *(int*)pArg = pGrp->bPatch; + break; + } + default: + rc = SQLITE_MISUSE; + break; + } + + return rc; +} + /* ** Provide a database schema to the changegroup object. */ @@ -237236,7 +239742,7 @@ SQLITE_API int sqlite3changegroup_add_change( rc = SQLITE_ERROR; }else{ pIter->in.bNoDiscard = 1; - rc = sessionOneChangeToHash(pGrp, pIter, 0); + rc = sessionOneChangeIterToHash(pGrp, pIter, 0); } return rc; } @@ -237288,6 +239794,12 @@ SQLITE_API int sqlite3changegroup_output_strm( */ SQLITE_API void sqlite3changegroup_delete(sqlite3_changegroup *pGrp){ if( pGrp ){ + int ii; + for(ii=0; iicd.nBufAlloc; ii++){ + sqlite3_free(pGrp->cd.aBuf[ii].aBuf); + } + sqlite3_free(pGrp->cd.record.aBuf); + sqlite3_free(pGrp->cd.aBuf); sqlite3_free(pGrp->zDb); sessionDeleteTable(0, pGrp->pList); sqlite3_free(pGrp->rec.aBuf); @@ -237718,6 +240230,328 @@ SQLITE_API int sqlite3session_config(int op, void *pArg){ return rc; } +/* +** Begin adding a change to a changegroup object. +*/ +SQLITE_API int sqlite3changegroup_change_begin( + sqlite3_changegroup *pGrp, + int eOp, + const char *zTab, + int bIndirect, + char **pzErr +){ + SessionTable *pTab = 0; + int rc = SQLITE_OK; + + if( pGrp->cd.pTab ){ + rc = SQLITE_MISUSE; + }else if( eOp!=SQLITE_INSERT && eOp!=SQLITE_UPDATE && eOp!=SQLITE_DELETE ){ + rc = SQLITE_ERROR; + }else{ + rc = sessionChangesetFindTable(pGrp, zTab, 0, &pTab); + } + if( rc==SQLITE_OK ){ + if( pTab==0 ){ + if( pzErr ){ + *pzErr = sqlite3_mprintf("no such table: %s", zTab); + } + rc = SQLITE_ERROR; + }else{ + int nReq = pTab->nCol * (eOp==SQLITE_UPDATE ? 2 : 1); + pGrp->cd.pTab = pTab; + pGrp->cd.eOp = eOp; + pGrp->cd.bIndirect = bIndirect; + + if( pGrp->cd.nBufAlloccd.aBuf, nReq * sizeof(SessionBuffer) + ); + if( aBuf==0 ){ + rc = SQLITE_NOMEM; + }else{ + memset(&aBuf[pGrp->cd.nBufAlloc], 0, + sizeof(SessionBuffer) * (nReq - pGrp->cd.nBufAlloc) + ); + pGrp->cd.aBuf = aBuf; + pGrp->cd.nBufAlloc = nReq; + } + } + +#ifdef SQLITE_DEBUG + { + /* Assert that all column values are currently undefined */ + int ii; + for(ii=0; iicd.nBufAlloc; ii++){ + assert( pGrp->cd.aBuf[ii].nBuf==0 ); + } + } +#endif + } + } + + return rc; +} + +/* +** This function does processing common to the _change_int64(), _change_text() +** and other similar APIs. +*/ +static int checkChangeParams( + sqlite3_changegroup *pGrp, + int bNew, + int iCol, + sqlite3_int64 nReq, + SessionBuffer **ppBuf +){ + int rc = SQLITE_OK; + if( pGrp->cd.pTab==0 ){ + rc = SQLITE_MISUSE; + }else if( iCol<0 || iCol>=pGrp->cd.pTab->nCol ){ + rc = SQLITE_RANGE; + }else if( + (bNew && pGrp->cd.eOp==SQLITE_DELETE) + || (!bNew && pGrp->cd.eOp==SQLITE_INSERT) + ){ + rc = SQLITE_ERROR; + }else{ + SessionBuffer *pBuf = &pGrp->cd.aBuf[iCol]; + if( pGrp->cd.eOp==SQLITE_UPDATE && bNew ){ + pBuf += pGrp->cd.pTab->nCol; + } + pBuf->nBuf = 0; + sessionBufferGrow(pBuf, nReq, &rc); + pBuf->nBuf = nReq; + *ppBuf = pBuf; + } + return rc; +} + +/* +** Configure the change currently under construction with an integer value. +*/ +SQLITE_API int sqlite3changegroup_change_int64( + sqlite3_changegroup *pGrp, + int bNew, + int iCol, + sqlite3_int64 iVal +){ + int rc = SQLITE_OK; + SessionBuffer *pBuf = 0; + + if( SQLITE_OK!=(rc = checkChangeParams(pGrp, bNew, iCol, 9, &pBuf)) ){ + return rc; + } + + pBuf->aBuf[0] = SQLITE_INTEGER; + sessionPutI64(&pBuf->aBuf[1], iVal); + return SQLITE_OK; +} + +/* +** Configure the change currently under construction with a null value. +*/ +SQLITE_API int sqlite3changegroup_change_null( + sqlite3_changegroup *pGrp, + int bNew, + int iCol +){ + int rc = SQLITE_OK; + SessionBuffer *pBuf = 0; + + if( SQLITE_OK!=(rc = checkChangeParams(pGrp, bNew, iCol, 1, &pBuf)) ){ + return rc; + } + + pBuf->aBuf[0] = SQLITE_NULL; + return SQLITE_OK; +} + +/* +** Configure the change currently under construction with a real value. +*/ +SQLITE_API int sqlite3changegroup_change_double( + sqlite3_changegroup *pGrp, + int bNew, + int iCol, + double fVal +){ + int rc = SQLITE_OK; + SessionBuffer *pBuf = 0; + + if( SQLITE_OK!=(rc = checkChangeParams(pGrp, bNew, iCol, 9, &pBuf)) ){ + return rc; + } + + pBuf->aBuf[0] = SQLITE_FLOAT; + sessionPutDouble(&pBuf->aBuf[1], fVal); + return SQLITE_OK; +} + +/* +** Configure the change currently under construction with a text value. +*/ +SQLITE_API int sqlite3changegroup_change_text( + sqlite3_changegroup *pGrp, + int bNew, + int iCol, + const char *pVal, + int nVal +){ + int nText = nVal>=0 ? nVal : strlen(pVal); + sqlite3_int64 nByte = 1 + sessionVarintLen(nText) + nText; + int rc = SQLITE_OK; + SessionBuffer *pBuf = 0; + + if( SQLITE_OK!=(rc = checkChangeParams(pGrp, bNew, iCol, nByte, &pBuf)) ){ + return rc; + } + + pBuf->aBuf[0] = SQLITE_TEXT; + pBuf->nBuf = (1 + sessionVarintPut(&pBuf->aBuf[1], nText)); + memcpy(&pBuf->aBuf[pBuf->nBuf], pVal, nText); + pBuf->nBuf += nText; + + return SQLITE_OK; +} + +/* +** Configure the change currently under construction with a blob value. +*/ +SQLITE_API int sqlite3changegroup_change_blob( + sqlite3_changegroup *pGrp, + int bNew, + int iCol, + const void *pVal, + int nVal +){ + sqlite3_int64 nByte = 1 + sessionVarintLen(nVal) + nVal; + int rc = SQLITE_OK; + SessionBuffer *pBuf = 0; + + if( SQLITE_OK!=(rc = checkChangeParams(pGrp, bNew, iCol, nByte, &pBuf)) ){ + return rc; + } + + pBuf->aBuf[0] = SQLITE_BLOB; + pBuf->nBuf = (1 + sessionVarintPut(&pBuf->aBuf[1], nVal)); + memcpy(&pBuf->aBuf[pBuf->nBuf], pVal, nVal); + pBuf->nBuf += nVal; + + return SQLITE_OK; +} + +/* +** Finish any change currently being constructed by the changegroup object. +*/ +SQLITE_API int sqlite3changegroup_change_finish( + sqlite3_changegroup *pGrp, + int bDiscard, + char **pzErr +){ + int rc = SQLITE_OK; + if( pGrp->cd.pTab ){ + SessionBuffer *aBuf = pGrp->cd.aBuf; + int ii; + + if( bDiscard==0 ){ + int nBuf = pGrp->cd.pTab->nCol; + u8 eUndef = SQLITE_NULL; + if( pGrp->cd.eOp==SQLITE_UPDATE ){ + for(ii=0; iicd.pTab->abPK[ii] ){ + if( aBuf[ii].nBuf<=1 ){ + *pzErr = sqlite3_mprintf( + "invalid change: %s value in PK of old.* record", + aBuf[ii].nBuf==1 ? "null" : "undefined" + ); + rc = SQLITE_ERROR; + break; + }else if( aBuf[ii + nBuf].nBuf>0 ){ + *pzErr = sqlite3_mprintf( + "invalid change: defined value in PK of new.* record" + ); + rc = SQLITE_ERROR; + break; + } + }else + if( pGrp->bPatch==0 && (aBuf[ii].nBuf>0)!=(aBuf[ii+nBuf].nBuf>0) ){ + *pzErr = sqlite3_mprintf( + "invalid change: column %d " + "- old.* value is %sdefined but new.* is %sdefined", + ii, aBuf[ii].nBuf ? "" : "un", aBuf[ii+nBuf].nBuf ? "" : "un" + ); + rc = SQLITE_ERROR; + break; + } + } + eUndef = 0x00; + if( pGrp->bPatch==0 ) nBuf = nBuf * 2; + }else{ + for(ii=0; iicd.pTab->abPK[ii]; + if( (pGrp->cd.eOp==SQLITE_INSERT || pGrp->bPatch==0 || isPK) + && aBuf[ii].nBuf==0 + ){ + *pzErr = sqlite3_mprintf( + "invalid change: column %d is undefined", ii + ); + rc = SQLITE_ERROR; + break; + } + if( aBuf[ii].nBuf==1 && isPK ){ + *pzErr = sqlite3_mprintf( + "invalid change: null value in PK" + ); + rc = SQLITE_ERROR; + break; + } + } + } + + pGrp->cd.record.nBuf = 0; + for(ii=0; iicd.aBuf[ii]; + if( pGrp->bPatch ){ + if( pGrp->cd.pTab->abPK[ii]==0 ){ + if( pGrp->cd.eOp==SQLITE_UPDATE ){ + p += pGrp->cd.pTab->nCol; + }else if( pGrp->cd.eOp==SQLITE_DELETE ){ + continue; + } + } + } + if( 0==sessionBufferGrow(&pGrp->cd.record, p->nBuf?p->nBuf:1, &rc) ){ + if( p->nBuf ){ + memcpy(&pGrp->cd.record.aBuf[pGrp->cd.record.nBuf],p->aBuf,p->nBuf); + pGrp->cd.record.nBuf += p->nBuf; + }else{ + pGrp->cd.record.aBuf[pGrp->cd.record.nBuf++] = eUndef; + } + } + } + if( rc==SQLITE_OK ){ + rc = sessionOneChangeToHash( + pGrp, pGrp->cd.pTab, + pGrp->cd.eOp, pGrp->cd.bIndirect, pGrp->cd.pTab->nCol, + pGrp->cd.record.aBuf, pGrp->cd.record.nBuf, 0 + ); + } + } + + /* Reset all aBuf[] entries to "undefined". */ + { + int nZero = pGrp->cd.pTab->nCol; + if( pGrp->cd.eOp==SQLITE_UPDATE ) nZero += nZero; + for(ii=0; iicd.aBuf[ii].nBuf = 0; + } + } + pGrp->cd.pTab = 0; + } + + return rc; +} + #endif /* SQLITE_ENABLE_SESSION && SQLITE_ENABLE_PREUPDATE_HOOK */ /************** End of sqlite3session.c **************************************/ @@ -239648,14 +242482,22 @@ typedef union { #define sqlite3Fts5ParserARG_PARAM ,pParse #define sqlite3Fts5ParserARG_FETCH Fts5Parse *pParse=fts5yypParser->pParse; #define sqlite3Fts5ParserARG_STORE fts5yypParser->pParse=pParse; +#undef fts5YYREALLOC #define fts5YYREALLOC realloc +#undef fts5YYFREE #define fts5YYFREE free +#undef fts5YYDYNSTACK #define fts5YYDYNSTACK 0 +#undef fts5YYSIZELIMIT +#define sqlite3Fts5ParserCTX(P) 0 #define sqlite3Fts5ParserCTX_SDECL #define sqlite3Fts5ParserCTX_PDECL #define sqlite3Fts5ParserCTX_PARAM #define sqlite3Fts5ParserCTX_FETCH #define sqlite3Fts5ParserCTX_STORE +#undef fts5YYERRORSYMBOL +#undef fts5YYERRSYMDT +#undef fts5YYFALLBACK #define fts5YYNSTATE 35 #define fts5YYNRULE 28 #define fts5YYNRULE_WITH_ACTION 28 @@ -239980,15 +242822,24 @@ static int fts5yyGrowStack(fts5yyParser *p){ int newSize; int idx; fts5yyStackEntry *pNew; +#ifdef fts5YYSIZELIMIT + int nLimit = fts5YYSIZELIMIT(sqlite3Fts5ParserCTX(p)); +#endif newSize = oldSize*2 + 100; +#ifdef fts5YYSIZELIMIT + if( newSize>nLimit ){ + newSize = nLimit; + if( newSize<=oldSize ) return 1; + } +#endif idx = (int)(p->fts5yytos - p->fts5yystack); if( p->fts5yystack==p->fts5yystk0 ){ - pNew = fts5YYREALLOC(0, newSize*sizeof(pNew[0])); + pNew = fts5YYREALLOC(0, newSize*sizeof(pNew[0]), sqlite3Fts5ParserCTX(p)); if( pNew==0 ) return 1; memcpy(pNew, p->fts5yystack, oldSize*sizeof(pNew[0])); }else{ - pNew = fts5YYREALLOC(p->fts5yystack, newSize*sizeof(pNew[0])); + pNew = fts5YYREALLOC(p->fts5yystack, newSize*sizeof(pNew[0]), sqlite3Fts5ParserCTX(p)); if( pNew==0 ) return 1; } p->fts5yystack = pNew; @@ -240168,7 +243019,9 @@ static void sqlite3Fts5ParserFinalize(void *p){ } #if fts5YYGROWABLESTACK - if( pParser->fts5yystack!=pParser->fts5yystk0 ) fts5YYFREE(pParser->fts5yystack); + if( pParser->fts5yystack!=pParser->fts5yystk0 ){ + fts5YYFREE(pParser->fts5yystack, sqlite3Fts5ParserCTX(pParser)); + } #endif } @@ -241450,7 +244303,7 @@ static void fts5SnippetFunction( iBestCol = (iCol>=0 ? iCol : 0); nPhrase = pApi->xPhraseCount(pFts); - aSeen = sqlite3_malloc(nPhrase); + aSeen = sqlite3_malloc64(nPhrase); if( aSeen==0 ){ rc = SQLITE_NOMEM; } @@ -242105,7 +244958,7 @@ static char *sqlite3Fts5Strndup(int *pRc, const char *pIn, int nIn){ if( nIn<0 ){ nIn = (int)strlen(pIn); } - zRet = (char*)sqlite3_malloc(nIn+1); + zRet = (char*)sqlite3_malloc64((i64)nIn+1); if( zRet ){ memcpy(zRet, pIn, nIn); zRet[nIn] = '\0'; @@ -242805,7 +245658,7 @@ static int sqlite3Fts5ConfigParse( sqlite3_int64 nByte; int bUnindexed = 0; /* True if there are one or more UNINDEXED */ - *ppOut = pRet = (Fts5Config*)sqlite3_malloc(sizeof(Fts5Config)); + *ppOut = pRet = (Fts5Config*)sqlite3_malloc64(sizeof(Fts5Config)); if( pRet==0 ) return SQLITE_NOMEM; memset(pRet, 0, sizeof(Fts5Config)); pRet->pGlobal = pGlobal; @@ -243353,8 +246206,6 @@ static void sqlite3Fts5ConfigErrmsg(Fts5Config *pConfig, const char *zFmt, ...){ va_end(ap); } - - /* ** 2014 May 31 ** @@ -243671,7 +246522,7 @@ static int sqlite3Fts5ExprNew( assert( sParse.rc!=SQLITE_OK || sParse.zErr==0 ); if( sParse.rc==SQLITE_OK ){ - *ppNew = pNew = sqlite3_malloc(sizeof(Fts5Expr)); + *ppNew = pNew = sqlite3_malloc64(sizeof(Fts5Expr)); if( pNew==0 ){ sParse.rc = SQLITE_NOMEM; sqlite3Fts5ParseNodeFree(sParse.pExpr); @@ -243823,7 +246674,7 @@ static int sqlite3Fts5ExprAnd(Fts5Expr **pp1, Fts5Expr *p2){ p2->pRoot = 0; if( sParse.rc==SQLITE_OK ){ - Fts5ExprPhrase **ap = (Fts5ExprPhrase**)sqlite3_realloc( + Fts5ExprPhrase **ap = (Fts5ExprPhrase**)sqlite3_realloc64( p1->apExprPhrase, nPhrase * sizeof(Fts5ExprPhrase*) ); if( ap==0 ){ @@ -246735,7 +249586,7 @@ static int sqlite3Fts5HashNew(Fts5Config *pConfig, Fts5Hash **ppNew, int *pnByte int rc = SQLITE_OK; Fts5Hash *pNew; - *ppNew = pNew = (Fts5Hash*)sqlite3_malloc(sizeof(Fts5Hash)); + *ppNew = pNew = (Fts5Hash*)sqlite3_malloc64(sizeof(Fts5Hash)); if( pNew==0 ){ rc = SQLITE_NOMEM; }else{ @@ -249328,7 +252179,7 @@ static void fts5SegIterReverseInitPage(Fts5Index *p, Fts5SegIter *pIter){ /* If necessary, grow the pIter->aRowidOffset[] array. */ if( iRowidOffset>=pIter->nRowidOffset ){ - int nNew = pIter->nRowidOffset + 8; + i64 nNew = pIter->nRowidOffset + 8; int *aNew = (int*)sqlite3_realloc64(pIter->aRowidOffset,nNew*sizeof(int)); if( aNew==0 ){ p->rc = SQLITE_NOMEM; @@ -252634,31 +255485,31 @@ static void fts5DoSecureDelete( ** is another term following it on this page. So the subsequent term ** needs to be moved to replace the term associated with the entry ** being removed. */ - int nPrefix = 0; - int nSuffix = 0; - int nPrefix2 = 0; - int nSuffix2 = 0; + u64 nPrefix = 0; + u64 nSuffix = 0; + u64 nPrefix2 = 0; + u64 nSuffix2 = 0; iDelKeyOff = iNextOff; - iNextOff += fts5GetVarint32(&aPg[iNextOff], nPrefix2); - iNextOff += fts5GetVarint32(&aPg[iNextOff], nSuffix2); + iNextOff += fts5GetVarint(&aPg[iNextOff], &nPrefix2); + iNextOff += fts5GetVarint(&aPg[iNextOff], &nSuffix2); if( iKey!=1 ){ - iKeyOff += fts5GetVarint32(&aPg[iKeyOff], nPrefix); + iKeyOff += fts5GetVarint(&aPg[iKeyOff], &nPrefix); } - iKeyOff += fts5GetVarint32(&aPg[iKeyOff], nSuffix); + iKeyOff += fts5GetVarint(&aPg[iKeyOff], &nSuffix); nPrefix = MIN(nPrefix, nPrefix2); nSuffix = (nPrefix2 + nSuffix2) - nPrefix; - if( (iKeyOff+nSuffix)>iPgIdx || (iNextOff+nSuffix2)>iPgIdx ){ + if( (iKeyOff+nSuffix)>(u64)iPgIdx || (iNextOff+nSuffix2)>(u64)iPgIdx ){ FTS5_CORRUPT_IDX(p); }else{ if( iKey!=1 ){ iOff += sqlite3Fts5PutVarint(&aPg[iOff], nPrefix); } iOff += sqlite3Fts5PutVarint(&aPg[iOff], nSuffix); - if( nPrefix2>pSeg->term.n ){ + if( nPrefix2>(u64)pSeg->term.n ){ FTS5_CORRUPT_IDX(p); }else if( nPrefix2>nPrefix ){ memcpy(&aPg[iOff], &pSeg->term.p[nPrefix], nPrefix2-nPrefix); @@ -252689,7 +255540,7 @@ static void fts5DoSecureDelete( u8 *aTermIdx = &pTerm->p[pTerm->szLeaf]; int nTermIdx = pTerm->nn - pTerm->szLeaf; int iTermIdx = 0; - int iTermOff = 0; + i64 iTermOff = 0; while( 1 ){ u32 iVal = 0; @@ -252700,12 +255551,15 @@ static void fts5DoSecureDelete( } nTermIdx = iTermIdx; - memmove(&pTerm->p[iTermOff], &pTerm->p[pTerm->szLeaf], nTermIdx); - fts5PutU16(&pTerm->p[2], iTermOff); - - fts5DataWrite(p, iId, pTerm->p, iTermOff+nTermIdx); - if( nTermIdx==0 ){ - fts5SecureDeleteIdxEntry(p, iSegid, pSeg->iTermLeafPgno); + if( iTermOff>pTerm->szLeaf ){ + FTS5_CORRUPT_IDX(p); + }else{ + memmove(&pTerm->p[iTermOff], &pTerm->p[pTerm->szLeaf], nTermIdx); + fts5PutU16(&pTerm->p[2], iTermOff); + fts5DataWrite(p, iId, pTerm->p, iTermOff+nTermIdx); + if( nTermIdx==0 ){ + fts5SecureDeleteIdxEntry(p, iSegid, pSeg->iTermLeafPgno); + } } } fts5DataRelease(pTerm); @@ -252728,7 +255582,9 @@ static void fts5DoSecureDelete( int iPrevKeyOut = 0; int iKeyIn = 0; - memmove(&aPg[iOff], &aPg[iNextOff], nMove); + if( nMove>0 ){ + memmove(&aPg[iOff], &aPg[iNextOff], nMove); + } iPgIdx -= nShift; nPg = iPgIdx; fts5PutU16(&aPg[2], iPgIdx); @@ -253648,16 +256504,16 @@ struct Fts5TokenDataMap { ** aMap[] variables. */ struct Fts5TokenDataIter { - int nMapAlloc; /* Allocated size of aMap[] in entries */ - int nMap; /* Number of valid entries in aMap[] */ + i64 nMapAlloc; /* Allocated size of aMap[] in entries */ + i64 nMap; /* Number of valid entries in aMap[] */ Fts5TokenDataMap *aMap; /* Array of (rowid+pos -> token) mappings */ /* The following are used for prefix-queries only. */ Fts5Buffer terms; /* The following are used for other full-token tokendata queries only. */ - int nIter; - int nIterAlloc; + i64 nIter; + i64 nIterAlloc; Fts5PoslistReader *aPoslistReader; int *aPoslistToIter; Fts5Iter *apIter[FLEXARRAY]; @@ -253713,11 +256569,11 @@ static void fts5TokendataIterAppendMap( ){ if( p->rc==SQLITE_OK ){ if( pT->nMap==pT->nMapAlloc ){ - int nNew = pT->nMapAlloc ? pT->nMapAlloc*2 : 64; - int nAlloc = nNew * sizeof(Fts5TokenDataMap); + i64 nNew = pT->nMapAlloc ? pT->nMapAlloc*2 : 64; + i64 nAlloc = nNew * sizeof(Fts5TokenDataMap); Fts5TokenDataMap *aNew; - aNew = (Fts5TokenDataMap*)sqlite3_realloc(pT->aMap, nAlloc); + aNew = (Fts5TokenDataMap*)sqlite3_realloc64(pT->aMap, nAlloc); if( aNew==0 ){ p->rc = SQLITE_NOMEM; return; @@ -253743,7 +256599,7 @@ static void fts5TokendataIterAppendMap( */ static void fts5TokendataIterSortMap(Fts5Index *p, Fts5TokenDataIter *pT){ Fts5TokenDataMap *aTmp = 0; - int nByte = pT->nMap * sizeof(Fts5TokenDataMap); + i64 nByte = pT->nMap * sizeof(Fts5TokenDataMap); aTmp = (Fts5TokenDataMap*)sqlite3Fts5MallocZero(&p->rc, nByte); if( aTmp ){ @@ -254277,9 +257133,10 @@ static Fts5TokenDataIter *fts5AppendTokendataIter( if( p->rc==SQLITE_OK ){ if( pIn==0 || pIn->nIter==pIn->nIterAlloc ){ - int nAlloc = pIn ? pIn->nIterAlloc*2 : 16; - int nByte = SZ_FTS5TOKENDATAITER(nAlloc+1); - Fts5TokenDataIter *pNew = (Fts5TokenDataIter*)sqlite3_realloc(pIn, nByte); + i64 nAlloc = pIn ? pIn->nIterAlloc*2 : 16; + i64 nByte = SZ_FTS5TOKENDATAITER(nAlloc+1); + Fts5TokenDataIter *pNew; + pNew = (Fts5TokenDataIter*)sqlite3_realloc64(pIn, nByte); if( pNew==0 ){ p->rc = SQLITE_NOMEM; @@ -254376,8 +257233,8 @@ static void fts5IterSetOutputsTokendata(Fts5Iter *pIter){ /* Ensure the token-mapping is large enough */ if( eDetail==FTS5_DETAIL_FULL && pT->nMapAlloc<(pT->nMap + nByte) ){ - int nNew = (pT->nMapAlloc + nByte) * 2; - Fts5TokenDataMap *aNew = (Fts5TokenDataMap*)sqlite3_realloc( + i64 nNew = (pT->nMapAlloc + nByte) * 2; + Fts5TokenDataMap *aNew = (Fts5TokenDataMap*)sqlite3_realloc64( pT->aMap, nNew*sizeof(Fts5TokenDataMap) ); if( aNew==0 ){ @@ -257292,7 +260149,7 @@ static void fts5SetEstimatedRows(sqlite3_index_info *pIdxInfo, i64 nRow){ if( sqlite3_libversion_number()>=3008002 ) #endif { - pIdxInfo->estimatedRows = nRow; + pIdxInfo->estimatedRows = MAX(1, nRow); } #endif } @@ -257361,19 +260218,30 @@ static int fts5UsePatternMatch( ** a) If a MATCH operator is present, the cost depends on the other ** constraints also present. As follows: ** -** * No other constraints: cost=1000.0 -** * One rowid range constraint: cost=750.0 -** * Both rowid range constraints: cost=500.0 -** * An == rowid constraint: cost=100.0 +** * No other constraints: cost=50000.0 +** * One rowid range constraint: cost=37500.0 +** * Both rowid range constraints: cost=30000.0 +** * An == rowid constraint: cost=25000.0 ** ** b) Otherwise, if there is no MATCH: ** -** * No other constraints: cost=1000000.0 -** * One rowid range constraint: cost=750000.0 -** * Both rowid range constraints: cost=250000.0 -** * An == rowid constraint: cost=10.0 +** * No other constraints: cost=3000000.0 +** * One rowid range constraints: cost=2250000.0 +** * Both rowid range constraint: cost=750000.0 +** * An == rowid constraint: cost=25.0 ** ** Costs are not modified by the ORDER BY clause. +** +** The ratios used in case (a) are based on informal results obtained from +** the tool/fts5cost.tcl script. The "MATCH and ==" combination has the +** cost set quite high because the query may be a prefix query. Unless +** there is a prefix index, prefix queries with rowid constraints are much +** more expensive than non-prefix queries with rowid constraints. +** +** The estimated rows returned is set to the cost/40. For simple queries, +** experimental results show that cost/4 might be about right. But for +** more complex queries that use multiple terms the number of rows might +** be far fewer than this. So we compromise and use cost/40. */ static int fts5BestIndexMethod(sqlite3_vtab *pVTab, sqlite3_index_info *pInfo){ Fts5Table *pTab = (Fts5Table*)pVTab; @@ -257406,7 +260274,7 @@ static int fts5BestIndexMethod(sqlite3_vtab *pVTab, sqlite3_index_info *pInfo){ return SQLITE_ERROR; } - idxStr = (char*)sqlite3_malloc(pInfo->nConstraint * 8 + 1); + idxStr = (char*)sqlite3_malloc64((i64)pInfo->nConstraint * 8 + 1); if( idxStr==0 ) return SQLITE_NOMEM; pInfo->idxStr = idxStr; pInfo->needToFreeIdxStr = 1; @@ -257499,21 +260367,35 @@ static int fts5BestIndexMethod(sqlite3_vtab *pVTab, sqlite3_index_info *pInfo){ /* Calculate the estimated cost based on the flags set in idxFlags. */ if( bSeenEq ){ - pInfo->estimatedCost = nSeenMatch ? 1000.0 : 25.0; - fts5SetUniqueFlag(pInfo); + pInfo->estimatedCost = nSeenMatch ? 25000.0 : 25.0; fts5SetEstimatedRows(pInfo, 1); + fts5SetUniqueFlag(pInfo); }else{ - if( bSeenLt && bSeenGt ){ - pInfo->estimatedCost = nSeenMatch ? 5000.0 : 750000.0; - }else if( bSeenLt || bSeenGt ){ - pInfo->estimatedCost = nSeenMatch ? 7500.0 : 2250000.0; + i64 nEstRows; + if( nSeenMatch ){ + if( bSeenLt && bSeenGt ){ + pInfo->estimatedCost = 50000.0; + }else if( bSeenLt || bSeenGt ){ + pInfo->estimatedCost = 37500.0; + }else{ + pInfo->estimatedCost = 50000.0; + } + nEstRows = (i64)(pInfo->estimatedCost / 40.0); + for(i=1; iestimatedCost *= 2.5; + nEstRows = nEstRows / 2; + } }else{ - pInfo->estimatedCost = nSeenMatch ? 10000.0 : 3000000.0; - } - for(i=1; iestimatedCost *= 0.4; + if( bSeenLt && bSeenGt ){ + pInfo->estimatedCost = 750000.0; + }else if( bSeenLt || bSeenGt ){ + pInfo->estimatedCost = 2250000.0; + }else{ + pInfo->estimatedCost = 3000000.0; + } + nEstRows = (i64)(pInfo->estimatedCost / 4.0); } - fts5SetEstimatedRows(pInfo, (i64)(pInfo->estimatedCost / 4.0)); + fts5SetEstimatedRows(pInfo, nEstRows); } pInfo->idxNum = idxFlags; @@ -258856,6 +261738,7 @@ static int fts5UpdateMethod( } update_out: + sqlite3Fts5IndexCloseReader(pTab->p.pIndex); pTab->p.pConfig->pzErrmsg = 0; return rc; } @@ -260373,7 +263256,7 @@ static void fts5SourceIdFunc( ){ assert( nArg==0 ); UNUSED_PARAM2(nArg, apUnused); - sqlite3_result_text(pCtx, "fts5: 2026-03-13 10:38:09 737ae4a34738ffa0c3ff7f9bb18df914dd1cad163f28fd6b6e114a344fe6d618", -1, SQLITE_TRANSIENT); + sqlite3_result_text(pCtx, "fts5: 2026-05-05 10:34:17 c88b22011a54b4f6fbd149e9f8e4de77658ce58143a1af0e3785e4e6475127e9", -1, SQLITE_TRANSIENT); } /* @@ -260537,7 +263420,7 @@ static int fts5Init(sqlite3 *db){ int rc; Fts5Global *pGlobal = 0; - pGlobal = (Fts5Global*)sqlite3_malloc(sizeof(Fts5Global)); + pGlobal = (Fts5Global*)sqlite3_malloc64(sizeof(Fts5Global)); if( pGlobal==0 ){ rc = SQLITE_NOMEM; }else{ @@ -262253,7 +265136,7 @@ static int fts5AsciiCreate( if( nArg%2 ){ rc = SQLITE_ERROR; }else{ - p = sqlite3_malloc(sizeof(AsciiTokenizer)); + p = sqlite3_malloc64(sizeof(AsciiTokenizer)); if( p==0 ){ rc = SQLITE_NOMEM; }else{ @@ -262548,7 +265431,7 @@ static int fts5UnicodeCreate( if( nArg%2 ){ rc = SQLITE_ERROR; }else{ - p = (Unicode61Tokenizer*)sqlite3_malloc(sizeof(Unicode61Tokenizer)); + p = (Unicode61Tokenizer*)sqlite3_malloc64(sizeof(Unicode61Tokenizer)); if( p ){ const char *zCat = "L* N* Co"; int i; @@ -262771,7 +265654,7 @@ static int fts5PorterCreate( zBase = azArg[0]; } - pRet = (PorterTokenizer*)sqlite3_malloc(sizeof(PorterTokenizer)); + pRet = (PorterTokenizer*)sqlite3_malloc64(sizeof(PorterTokenizer)); if( pRet ){ memset(pRet, 0, sizeof(PorterTokenizer)); rc = pApi->xFindTokenizer_v2(pApi, zBase, &pUserdata, &pV2); @@ -263478,7 +266361,7 @@ static int fts5TriCreate( rc = SQLITE_ERROR; }else{ int i; - pNew = (TrigramTokenizer*)sqlite3_malloc(sizeof(*pNew)); + pNew = (TrigramTokenizer*)sqlite3_malloc64(sizeof(*pNew)); if( pNew==0 ){ rc = SQLITE_NOMEM; }else{ @@ -265464,7 +268347,7 @@ static int fts5VocabFilterMethod( const char *zCopy = (const char *)sqlite3_value_text(pLe); if( zCopy==0 ) zCopy = ""; pCsr->nLeTerm = sqlite3_value_bytes(pLe); - pCsr->zLeTerm = sqlite3_malloc(pCsr->nLeTerm+1); + pCsr->zLeTerm = sqlite3_malloc64((i64)pCsr->nLeTerm+1); if( pCsr->zLeTerm==0 ){ rc = SQLITE_NOMEM; }else{ diff --git a/deps/sqlite/sqlite3.h b/deps/sqlite/sqlite3.h index 302f0f5b1698d1..8ee26c99d86e6e 100644 --- a/deps/sqlite/sqlite3.h +++ b/deps/sqlite/sqlite3.h @@ -146,12 +146,12 @@ extern "C" { ** [sqlite3_libversion_number()], [sqlite3_sourceid()], ** [sqlite_version()] and [sqlite_source_id()]. */ -#define SQLITE_VERSION "3.51.3" -#define SQLITE_VERSION_NUMBER 3051003 -#define SQLITE_SOURCE_ID "2026-03-13 10:38:09 737ae4a34738ffa0c3ff7f9bb18df914dd1cad163f28fd6b6e114a344fe6d618" -#define SQLITE_SCM_BRANCH "branch-3.51" -#define SQLITE_SCM_TAGS "release version-3.51.3" -#define SQLITE_SCM_DATETIME "2026-03-13T10:38:09.694Z" +#define SQLITE_VERSION "3.53.1" +#define SQLITE_VERSION_NUMBER 3053001 +#define SQLITE_SOURCE_ID "2026-05-05 10:34:17 c88b22011a54b4f6fbd149e9f8e4de77658ce58143a1af0e3785e4e6475127e9" +#define SQLITE_SCM_BRANCH "branch-3.53" +#define SQLITE_SCM_TAGS "release version-3.53.1" +#define SQLITE_SCM_DATETIME "2026-05-05T10:34:17.344Z" /* ** CAPI3REF: Run-Time Library Version Numbers @@ -578,7 +578,7 @@ SQLITE_API int sqlite3_exec( #define SQLITE_WARNING_AUTOINDEX (SQLITE_WARNING | (1<<8)) #define SQLITE_AUTH_USER (SQLITE_AUTH | (1<<8)) #define SQLITE_OK_LOAD_PERMANENTLY (SQLITE_OK | (1<<8)) -#define SQLITE_OK_SYMLINK (SQLITE_OK | (2<<8)) /* internal use only */ +#define SQLITE_OK_SYMLINK (SQLITE_OK | (2<<8)) /* internal only */ /* ** CAPI3REF: Flags For File Open Operations @@ -1290,6 +1290,12 @@ struct sqlite3_io_methods { #define SQLITE_SET_LOCKPROXYFILE SQLITE_FCNTL_SET_LOCKPROXYFILE #define SQLITE_LAST_ERRNO SQLITE_FCNTL_LAST_ERRNO +/* reserved file-control numbers: +** 101 +** 102 +** 103 +*/ + /* ** CAPI3REF: Mutex Handle @@ -1490,7 +1496,7 @@ typedef const char *sqlite3_filename; ** greater and the function pointer is not NULL) and will fall back ** to xCurrentTime() if xCurrentTimeInt64() is unavailable. ** -** ^The xSetSystemCall(), xGetSystemCall(), and xNestSystemCall() interfaces +** ^The xSetSystemCall(), xGetSystemCall(), and xNextSystemCall() interfaces ** are not used by the SQLite core. These optional interfaces are provided ** by some VFSes to facilitate testing of the VFS code. By overriding ** system calls with functions under its control, a test program can @@ -1711,7 +1717,8 @@ SQLITE_API int sqlite3_os_end(void); ** are called "anytime configuration options". ** ^If sqlite3_config() is called after [sqlite3_initialize()] and before ** [sqlite3_shutdown()] with a first argument that is not an anytime -** configuration option, then the sqlite3_config() call will return SQLITE_MISUSE. +** configuration option, then the sqlite3_config() call will +** return SQLITE_MISUSE. ** Note, however, that ^sqlite3_config() can be called as part of the ** implementation of an application-defined [sqlite3_os_init()]. ** @@ -2277,9 +2284,10 @@ struct sqlite3_mem_methods { ** is less than 8. The "sz" argument should be a multiple of 8 less than ** 65536. If "sz" does not meet this constraint, it is reduced in size until ** it does. -**
  • The third argument ("cnt") is the number of slots. Lookaside is disabled -** if "cnt"is less than 1. The "cnt" value will be reduced, if necessary, so -** that the product of "sz" and "cnt" does not exceed 2,147,418,112. The "cnt" +**

  • The third argument ("cnt") is the number of slots. +** Lookaside is disabled if "cnt"is less than 1. +* The "cnt" value will be reduced, if necessary, so +** that the product of "sz" and "cnt" does not exceed 2,147,418,112. The "cnt" ** parameter is usually chosen so that the product of "sz" and "cnt" is less ** than 1,000,000. ** @@ -2567,12 +2575,15 @@ struct sqlite3_mem_methods { ** [[SQLITE_DBCONFIG_STMT_SCANSTATUS]] **

    SQLITE_DBCONFIG_STMT_SCANSTATUS
    **
    The SQLITE_DBCONFIG_STMT_SCANSTATUS option is only useful in -** SQLITE_ENABLE_STMT_SCANSTATUS builds. In this case, it sets or clears -** a flag that enables collection of the sqlite3_stmt_scanstatus_v2() -** statistics. For statistics to be collected, the flag must be set on -** the database handle both when the SQL statement is prepared and when it -** is stepped. The flag is set (collection of statistics is enabled) -** by default.

    This option takes two arguments: an integer and a pointer to +** [SQLITE_ENABLE_STMT_SCANSTATUS] builds. In this case, it sets or clears +** a flag that enables collection of run-time performance statistics +** used by [sqlite3_stmt_scanstatus_v2()] and the [nexec and ncycle] +** columns of the [bytecode virtual table]. +** For statistics to be collected, the flag must be set on +** the database handle both when the SQL statement is +** [sqlite3_prepare|prepared] and when it is [sqlite3_step|stepped]. +** The flag is set (collection of statistics is enabled) by default. +**

    This option takes two arguments: an integer and a pointer to ** an integer. The first argument is 1, 0, or -1 to enable, disable, or ** leave unchanged the statement scanstatus option. If the second argument ** is not NULL, then the value of the statement scanstatus setting after @@ -2645,16 +2656,34 @@ struct sqlite3_mem_methods { ** comments are allowed in SQL text after processing the first argument. **

    ** +** [[SQLITE_DBCONFIG_FP_DIGITS]] +**
    SQLITE_DBCONFIG_FP_DIGITS
    +**
    The SQLITE_DBCONFIG_FP_DIGITS setting is a small integer that determines +** the number of significant digits that SQLite will attempt to preserve when +** converting floating point numbers (IEEE 754 "doubles") into text. The +** default value 17, as of SQLite version 3.52.0. The value was 15 in all +** prior versions.

    +** This option takes two arguments which are an integer and a pointer +** to an integer. The first argument is a small integer, between 3 and 23, or +** zero. The FP_DIGITS setting is changed to that small integer, or left +** unaltered if the first argument is zero or out of range. The second argument +** is a pointer to an integer. If the pointer is not NULL, then the value of +** the FP_DIGITS setting, after possibly being modified by the first +** arguments, is written into the integer to which the second argument points. +**

    +** ** ** ** [[DBCONFIG arguments]]

    Arguments To SQLITE_DBCONFIG Options

    ** **

    Most of the SQLITE_DBCONFIG options take two arguments, so that the ** overall call to [sqlite3_db_config()] has a total of four parameters. -** The first argument (the third parameter to sqlite3_db_config()) is an integer. -** The second argument is a pointer to an integer. If the first argument is 1, -** then the option becomes enabled. If the first integer argument is 0, then the -** option is disabled. If the first argument is -1, then the option setting +** The first argument (the third parameter to sqlite3_db_config()) is +** an integer. +** The second argument is a pointer to an integer. If the first argument is 1, +** then the option becomes enabled. If the first integer argument is 0, +** then the option is disabled. +** If the first argument is -1, then the option setting ** is unchanged. The second argument, the pointer to an integer, may be NULL. ** If the second argument is not NULL, then a value of 0 or 1 is written into ** the integer to which the second argument points, depending on whether the @@ -2662,9 +2691,10 @@ struct sqlite3_mem_methods { ** the first argument. ** **

    While most SQLITE_DBCONFIG options use the argument format -** described in the previous paragraph, the [SQLITE_DBCONFIG_MAINDBNAME] -** and [SQLITE_DBCONFIG_LOOKASIDE] options are different. See the -** documentation of those exceptional options for details. +** described in the previous paragraph, the [SQLITE_DBCONFIG_MAINDBNAME], +** [SQLITE_DBCONFIG_LOOKASIDE], and [SQLITE_DBCONFIG_FP_DIGITS] options +** are different. See the documentation of those exceptional options for +** details. */ #define SQLITE_DBCONFIG_MAINDBNAME 1000 /* const char* */ #define SQLITE_DBCONFIG_LOOKASIDE 1001 /* void* int int */ @@ -2689,7 +2719,8 @@ struct sqlite3_mem_methods { #define SQLITE_DBCONFIG_ENABLE_ATTACH_CREATE 1020 /* int int* */ #define SQLITE_DBCONFIG_ENABLE_ATTACH_WRITE 1021 /* int int* */ #define SQLITE_DBCONFIG_ENABLE_COMMENTS 1022 /* int int* */ -#define SQLITE_DBCONFIG_MAX 1022 /* Largest DBCONFIG */ +#define SQLITE_DBCONFIG_FP_DIGITS 1023 /* int int* */ +#define SQLITE_DBCONFIG_MAX 1023 /* Largest DBCONFIG */ /* ** CAPI3REF: Enable Or Disable Extended Result Codes @@ -4171,6 +4202,7 @@ SQLITE_API void sqlite3_free_filename(sqlite3_filename); **

  • sqlite3_errmsg() **
  • sqlite3_errmsg16() **
  • sqlite3_error_offset() +**
  • sqlite3_db_handle() ** ** ** ^The sqlite3_errmsg() and sqlite3_errmsg16() return English-language @@ -4217,7 +4249,7 @@ SQLITE_API const char *sqlite3_errstr(int); SQLITE_API int sqlite3_error_offset(sqlite3 *db); /* -** CAPI3REF: Set Error Codes And Message +** CAPI3REF: Set Error Code And Message ** METHOD: sqlite3 ** ** Set the error code of the database handle passed as the first argument @@ -4336,6 +4368,10 @@ SQLITE_API int sqlite3_limit(sqlite3*, int id, int newVal); ** [[SQLITE_LIMIT_EXPR_DEPTH]] ^(
    SQLITE_LIMIT_EXPR_DEPTH
    **
    The maximum depth of the parse tree on any expression.
    )^ ** +** [[SQLITE_LIMIT_PARSER_DEPTH]] ^(
    SQLITE_LIMIT_PARSER_DEPTH
    +**
    The maximum depth of the LALR(1) parser stack used to analyze +** input SQL statements.
    )^ +** ** [[SQLITE_LIMIT_COMPOUND_SELECT]] ^(
    SQLITE_LIMIT_COMPOUND_SELECT
    **
    The maximum number of terms in a compound SELECT statement.
    )^ ** @@ -4380,6 +4416,7 @@ SQLITE_API int sqlite3_limit(sqlite3*, int id, int newVal); #define SQLITE_LIMIT_VARIABLE_NUMBER 9 #define SQLITE_LIMIT_TRIGGER_DEPTH 10 #define SQLITE_LIMIT_WORKER_THREADS 11 +#define SQLITE_LIMIT_PARSER_DEPTH 12 /* ** CAPI3REF: Prepare Flags @@ -4424,12 +4461,29 @@ SQLITE_API int sqlite3_limit(sqlite3*, int id, int newVal); ** fails, the sqlite3_prepare_v3() call returns the same error indications ** with or without this flag; it just omits the call to [sqlite3_log()] that ** logs the error. +** +** [[SQLITE_PREPARE_FROM_DDL]]
    SQLITE_PREPARE_FROM_DDL
    +**
    The SQLITE_PREPARE_FROM_DDL flag causes the SQL compiler to enforce +** security constraints that would otherwise only be enforced when parsing +** the database schema. In other words, the SQLITE_PREPARE_FROM_DDL flag +** causes the SQL compiler to treat the SQL statement being prepared as if +** it had come from an attacker. When SQLITE_PREPARE_FROM_DDL is used and +** [SQLITE_DBCONFIG_TRUSTED_SCHEMA] is off, SQL functions may only be called +** if they are tagged with [SQLITE_INNOCUOUS] and virtual tables may only +** be used if they are tagged with [SQLITE_VTAB_INNOCUOUS]. Best practice +** is to use the SQLITE_PREPARE_FROM_DDL option when preparing any SQL that +** is derived from parts of the database schema. In particular, virtual +** table implementations that run SQL statements that are derived from +** arguments to their CREATE VIRTUAL TABLE statement should always use +** [sqlite3_prepare_v3()] and set the SQLITE_PREPARE_FROM_DDL flag to +** prevent bypass of the [SQLITE_DBCONFIG_TRUSTED_SCHEMA] security checks. ** */ #define SQLITE_PREPARE_PERSISTENT 0x01 #define SQLITE_PREPARE_NORMALIZE 0x02 #define SQLITE_PREPARE_NO_VTAB 0x04 #define SQLITE_PREPARE_DONT_LOG 0x10 +#define SQLITE_PREPARE_FROM_DDL 0x20 /* ** CAPI3REF: Compiling An SQL Statement @@ -4443,8 +4497,9 @@ SQLITE_API int sqlite3_limit(sqlite3*, int id, int newVal); ** ** The preferred routine to use is [sqlite3_prepare_v2()]. The ** [sqlite3_prepare()] interface is legacy and should be avoided. -** [sqlite3_prepare_v3()] has an extra "prepFlags" option that is used -** for special purposes. +** [sqlite3_prepare_v3()] has an extra +** [SQLITE_PREPARE_FROM_DDL|"prepFlags" option] that is sometimes +** needed for special purpose or to pass along security restrictions. ** ** The use of the UTF-8 interfaces is preferred, as SQLite currently ** does all parsing using UTF-8. The UTF-16 interfaces are provided @@ -4849,8 +4904,8 @@ typedef struct sqlite3_context sqlite3_context; ** it should be a pointer to well-formed UTF16 text. ** ^If the third parameter to sqlite3_bind_text64() is not NULL, then ** it should be a pointer to a well-formed unicode string that is -** either UTF8 if the sixth parameter is SQLITE_UTF8, or UTF16 -** otherwise. +** either UTF8 if the sixth parameter is SQLITE_UTF8 or SQLITE_UTF8_ZT, +** or UTF16 otherwise. ** ** [[byte-order determination rules]] ^The byte-order of ** UTF16 input text is determined by the byte-order mark (BOM, U+FEFF) @@ -4896,10 +4951,15 @@ typedef struct sqlite3_context sqlite3_context; ** object and pointer to it must remain valid until then. ^SQLite will then ** manage the lifetime of its private copy. ** -** ^The sixth argument to sqlite3_bind_text64() must be one of -** [SQLITE_UTF8], [SQLITE_UTF16], [SQLITE_UTF16BE], or [SQLITE_UTF16LE] -** to specify the encoding of the text in the third parameter. If -** the sixth argument to sqlite3_bind_text64() is not one of the +** ^The sixth argument (the E argument) +** to sqlite3_bind_text64(S,K,Z,N,D,E) must be one of +** [SQLITE_UTF8], [SQLITE_UTF8_ZT], [SQLITE_UTF16], [SQLITE_UTF16BE], +** or [SQLITE_UTF16LE] to specify the encoding of the text in the +** third parameter, Z. The special value [SQLITE_UTF8_ZT] means that the +** string argument is both UTF-8 encoded and is zero-terminated. In other +** words, SQLITE_UTF8_ZT means that the Z array is allocated to hold at +** least N+1 bytes and that the Z[N] byte is zero. If +** the E argument to sqlite3_bind_text64(S,K,Z,N,D,E) is not one of the ** allowed values shown above, or if the text encoding is different ** from the encoding specified by the sixth parameter, then the behavior ** is undefined. @@ -5766,6 +5826,52 @@ SQLITE_API int sqlite3_create_window_function( ** ** These constants define integer codes that represent the various ** text encodings supported by SQLite. +** +**
    +** [[SQLITE_UTF8]]
    SQLITE_UTF8
    Text is encoding as UTF-8
    +** +** [[SQLITE_UTF16LE]]
    SQLITE_UTF16LE
    Text is encoding as UTF-16 +** with each code point being expressed "little endian" - the least significant +** byte first. This is the usual encoding, for example on Windows.
    +** +** [[SQLITE_UTF16BE]]
    SQLITE_UTF16BE
    Text is encoding as UTF-16 +** with each code point being expressed "big endian" - the most significant +** byte first. This encoding is less common, but is still sometimes seen, +** specially on older systems. +** +** [[SQLITE_UTF16]]
    SQLITE_UTF16
    Text is encoding as UTF-16 +** with each code point being expressed either little endian or as big +** endian, according to the native endianness of the host computer. +** +** [[SQLITE_ANY]]
    SQLITE_ANY
    This encoding value may only be used +** to declare the preferred text for [application-defined SQL functions] +** created using [sqlite3_create_function()] and similar. If the preferred +** encoding (the 4th parameter to sqlite3_create_function() - the eTextRep +** parameter) is SQLITE_ANY, that indicates that the function does not have +** a preference regarding the text encoding of its parameters and can take +** any text encoding that the SQLite core find convenient to supply. This +** option is deprecated. Please do not use it in new applications. +** +** [[SQLITE_UTF16_ALIGNED]]
    SQLITE_UTF16_ALIGNED
    This encoding +** value may be used as the 3rd parameter (the eTextRep parameter) to +** [sqlite3_create_collation()] and similar. This encoding value means +** that the application-defined collating sequence created expects its +** input strings to be in UTF16 in native byte order, and that the start +** of the strings must be aligned to a 2-byte boundary. +** +** [[SQLITE_UTF8_ZT]]
    SQLITE_UTF8_ZT
    This option can only be +** used to specify the text encoding to strings input to +** [sqlite3_result_text64()] and [sqlite3_bind_text64()]. +** The SQLITE_UTF8_ZT encoding means that the input string (call it "z") +** is UTF-8 encoded and that it is zero-terminated. If the length parameter +** (call it "n") is non-negative, this encoding option means that the caller +** guarantees that z array contains at least n+1 bytes and that the z[n] +** byte has a value of zero. +** This option gives the same output as SQLITE_UTF8, but can be more efficient +** by avoiding the need to make a copy of the input string, in some cases. +** However, if z is allocated to hold fewer than n+1 bytes or if the +** z[n] byte is not zero, undefined behavior may result. +**
    */ #define SQLITE_UTF8 1 /* IMP: R-37514-35566 */ #define SQLITE_UTF16LE 2 /* IMP: R-03371-37637 */ @@ -5773,6 +5879,7 @@ SQLITE_API int sqlite3_create_window_function( #define SQLITE_UTF16 4 /* Use native byte order */ #define SQLITE_ANY 5 /* Deprecated */ #define SQLITE_UTF16_ALIGNED 8 /* sqlite3_create_collation only */ +#define SQLITE_UTF8_ZT 16 /* Zero-terminated UTF8 */ /* ** CAPI3REF: Function Flags @@ -6007,26 +6114,22 @@ SQLITE_API SQLITE_DEPRECATED int sqlite3_memory_alarm(void(*)(void*,sqlite3_int6 ** the SQL function that supplied the [sqlite3_value*] parameters. ** ** As long as the input parameter is correct, these routines can only -** fail if an out-of-memory error occurs during a format conversion. -** Only the following subset of interfaces are subject to out-of-memory -** errors: -** -**
      -**
    • sqlite3_value_blob() -**
    • sqlite3_value_text() -**
    • sqlite3_value_text16() -**
    • sqlite3_value_text16le() -**
    • sqlite3_value_text16be() -**
    • sqlite3_value_bytes() -**
    • sqlite3_value_bytes16() -**
    -** +** fail if an out-of-memory error occurs while trying to do a +** UTF8→UTF16 or UTF16→UTF8 conversion. ** If an out-of-memory error occurs, then the return value from these ** routines is the same as if the column had contained an SQL NULL value. -** Valid SQL NULL returns can be distinguished from out-of-memory errors -** by invoking the [sqlite3_errcode()] immediately after the suspect +** If the input sqlite3_value was not obtained from [sqlite3_value_dup()], +** then valid SQL NULL returns can also be distinguished from +** out-of-memory errors after extracting the value +** by invoking the [sqlite3_errcode()] immediately after the suspicious ** return value is obtained and before any ** other SQLite interface is called on the same [database connection]. +** If the input sqlite3_value was obtained from sqlite3_value_dup() then +** it is disconnected from the database connection and so sqlite3_errcode() +** will not work. +** In that case, the only way to distinguish an out-of-memory +** condition from a true SQL NULL is to invoke sqlite3_value_type() on the +** input to see if it is NULL prior to trying to extract the value. */ SQLITE_API const void *sqlite3_value_blob(sqlite3_value*); SQLITE_API double sqlite3_value_double(sqlite3_value*); @@ -6053,7 +6156,8 @@ SQLITE_API int sqlite3_value_frombind(sqlite3_value*); ** of the value X, assuming that X has type TEXT.)^ If sqlite3_value_type(X) ** returns something other than SQLITE_TEXT, then the return value from ** sqlite3_value_encoding(X) is meaningless. ^Calls to -** [sqlite3_value_text(X)], [sqlite3_value_text16(X)], [sqlite3_value_text16be(X)], +** [sqlite3_value_text(X)], [sqlite3_value_text16(X)], +** [sqlite3_value_text16be(X)], ** [sqlite3_value_text16le(X)], [sqlite3_value_bytes(X)], or ** [sqlite3_value_bytes16(X)] might change the encoding of the value X and ** thus change the return from subsequent calls to sqlite3_value_encoding(X). @@ -6184,17 +6288,17 @@ SQLITE_API sqlite3 *sqlite3_context_db_handle(sqlite3_context*); ** query execution, under some circumstances the associated auxiliary data ** might be preserved. An example of where this might be useful is in a ** regular-expression matching function. The compiled version of the regular -** expression can be stored as auxiliary data associated with the pattern string. -** Then as long as the pattern string remains the same, +** expression can be stored as auxiliary data associated with the pattern +** string. Then as long as the pattern string remains the same, ** the compiled regular expression can be reused on multiple ** invocations of the same function. ** -** ^The sqlite3_get_auxdata(C,N) interface returns a pointer to the auxiliary data -** associated by the sqlite3_set_auxdata(C,N,P,X) function with the Nth argument -** value to the application-defined function. ^N is zero for the left-most -** function argument. ^If there is no auxiliary data -** associated with the function argument, the sqlite3_get_auxdata(C,N) interface -** returns a NULL pointer. +** ^The sqlite3_get_auxdata(C,N) interface returns a pointer to the auxiliary +** data associated by the sqlite3_set_auxdata(C,N,P,X) function with the +** Nth argument value to the application-defined function. ^N is zero +** for the left-most function argument. ^If there is no auxiliary data +** associated with the function argument, the sqlite3_get_auxdata(C,N) +** interface returns a NULL pointer. ** ** ^The sqlite3_set_auxdata(C,N,P,X) interface saves P as auxiliary data for the ** N-th argument of the application-defined function. ^Subsequent @@ -6278,10 +6382,14 @@ SQLITE_API void sqlite3_set_auxdata(sqlite3_context*, int N, void*, void (*)(voi ** ** There is no limit (other than available memory) on the number of different ** client data pointers (with different names) that can be attached to a -** single database connection. However, the implementation is optimized -** for the case of having only one or two different client data names. -** Applications and wrapper libraries are discouraged from using more than -** one client data name each. +** single database connection. However, the current implementation stores +** the content on a linked list. Insert and retrieval performance will +** be proportional to the number of entries. The design use case, and +** the use case for which the implementation is optimized, is +** that an application will store only small number of client data names, +** typically just one or two. This interface is not intended to be a +** generalized key/value store for thousands or millions of keys. It +** will work for that, but performance might be disappointing. ** ** There is no way to enumerate the client data pointers ** associated with a database connection. The N parameter can be thought @@ -6389,10 +6497,14 @@ typedef void (*sqlite3_destructor_type)(void*); ** set the return value of the application-defined function to be ** a text string which is represented as UTF-8, UTF-16 native byte order, ** UTF-16 little endian, or UTF-16 big endian, respectively. -** ^The sqlite3_result_text64() interface sets the return value of an +** ^The sqlite3_result_text64(C,Z,N,D,E) interface sets the return value of an ** application-defined function to be a text string in an encoding -** specified by the fifth (and last) parameter, which must be one -** of [SQLITE_UTF8], [SQLITE_UTF16], [SQLITE_UTF16BE], or [SQLITE_UTF16LE]. +** specified the E parameter, which must be one +** of [SQLITE_UTF8], [SQLITE_UTF8_ZT], [SQLITE_UTF16], [SQLITE_UTF16BE], +** or [SQLITE_UTF16LE]. ^The special value [SQLITE_UTF8_ZT] means that +** the result text is both UTF-8 and zero-terminated. In other words, +** SQLITE_UTF8_ZT means that the Z array holds at least N+1 bytes and that +** the Z[N] is zero. ** ^SQLite takes the text result from the application from ** the 2nd parameter of the sqlite3_result_text* interfaces. ** ^If the 3rd parameter to any of the sqlite3_result_text* interfaces @@ -6479,7 +6591,7 @@ SQLITE_API void sqlite3_result_int(sqlite3_context*, int); SQLITE_API void sqlite3_result_int64(sqlite3_context*, sqlite3_int64); SQLITE_API void sqlite3_result_null(sqlite3_context*); SQLITE_API void sqlite3_result_text(sqlite3_context*, const char*, int, void(*)(void*)); -SQLITE_API void sqlite3_result_text64(sqlite3_context*, const char*,sqlite3_uint64, +SQLITE_API void sqlite3_result_text64(sqlite3_context*, const char *z, sqlite3_uint64 n, void(*)(void*), unsigned char encoding); SQLITE_API void sqlite3_result_text16(sqlite3_context*, const void*, int, void(*)(void*)); SQLITE_API void sqlite3_result_text16le(sqlite3_context*, const void*, int,void(*)(void*)); @@ -7418,7 +7530,7 @@ SQLITE_API int sqlite3_table_column_metadata( ** ^The sqlite3_load_extension() interface attempts to load an ** [SQLite extension] library contained in the file zFile. If ** the file cannot be loaded directly, attempts are made to load -** with various operating-system specific extensions added. +** with various operating-system specific filename extensions added. ** So for example, if "samplelib" cannot be loaded, then names like ** "samplelib.so" or "samplelib.dylib" or "samplelib.dll" might ** be tried also. @@ -7426,10 +7538,10 @@ SQLITE_API int sqlite3_table_column_metadata( ** ^The entry point is zProc. ** ^(zProc may be 0, in which case SQLite will try to come up with an ** entry point name on its own. It first tries "sqlite3_extension_init". -** If that does not work, it constructs a name "sqlite3_X_init" where -** X consists of the lower-case equivalent of all ASCII alphabetic -** characters in the filename from the last "/" to the first following -** "." and omitting any initial "lib".)^ +** If that does not work, it tries names of the form "sqlite3_X_init" +** where X consists of the lower-case equivalent of all ASCII alphabetic +** characters or all ASCII alphanumeric characters in the filename from +** the last "/" to the first following "." and omitting any initial "lib".)^ ** ^The sqlite3_load_extension() interface returns ** [SQLITE_OK] on success and [SQLITE_ERROR] if something goes wrong. ** ^If an error occurs and pzErrMsg is not 0, then the @@ -7503,7 +7615,7 @@ SQLITE_API int sqlite3_enable_load_extension(sqlite3 *db, int onoff); **
     **    int xEntryPoint(
     **      sqlite3 *db,
    -**      const char **pzErrMsg,
    +**      char **pzErrMsg,
     **      const struct sqlite3_api_routines *pThunk
     **    );
     ** 
    )^ @@ -8253,13 +8365,6 @@ SQLITE_API int sqlite3_vfs_unregister(sqlite3_vfs*); ** SQLITE_MUTEX_W32 implementations are appropriate for use on Unix ** and Windows. ** -** If SQLite is compiled with the SQLITE_MUTEX_APPDEF preprocessor -** macro defined (with "-DSQLITE_MUTEX_APPDEF=1"), then no mutex -** implementation is included with the library. In this case the -** application must supply a custom mutex implementation using the -** [SQLITE_CONFIG_MUTEX] option of the sqlite3_config() function -** before calling sqlite3_initialize() or any other public sqlite3_ -** function that calls sqlite3_initialize(). ** ** ^The sqlite3_mutex_alloc() routine allocates a new ** mutex and returns a pointer to it. ^The sqlite3_mutex_alloc() @@ -8614,6 +8719,7 @@ SQLITE_API int sqlite3_test_control(int op, ...); #define SQLITE_TESTCTRL_TUNE 32 #define SQLITE_TESTCTRL_LOGEST 33 #define SQLITE_TESTCTRL_USELONGDOUBLE 34 /* NOT USED */ +#define SQLITE_TESTCTRL_ATOF 34 #define SQLITE_TESTCTRL_LAST 34 /* Largest TESTCTRL */ /* @@ -8722,17 +8828,22 @@ SQLITE_API sqlite3_str *sqlite3_str_new(sqlite3*); ** pass the returned value to [sqlite3_free()] to avoid a memory leak. ** ^The [sqlite3_str_finish(X)] interface may return a NULL pointer if any ** errors were encountered during construction of the string. ^The -** [sqlite3_str_finish(X)] interface will also return a NULL pointer if the +** [sqlite3_str_finish(X)] interface might also return a NULL pointer if the ** string in [sqlite3_str] object X is zero bytes long. +** +** ^The [sqlite3_str_free(X)] interface destroys both the sqlite3_str object +** X and the string content it contains. Calling sqlite3_str_free(X) is +** the equivalent of calling [sqlite3_free](sqlite3_str_finish(X)). */ SQLITE_API char *sqlite3_str_finish(sqlite3_str*); +SQLITE_API void sqlite3_str_free(sqlite3_str*); /* ** CAPI3REF: Add Content To A Dynamic String ** METHOD: sqlite3_str ** -** These interfaces add content to an sqlite3_str object previously obtained -** from [sqlite3_str_new()]. +** These interfaces add or remove content to an sqlite3_str object +** previously obtained from [sqlite3_str_new()]. ** ** ^The [sqlite3_str_appendf(X,F,...)] and ** [sqlite3_str_vappendf(X,F,V)] interfaces uses the [built-in printf] @@ -8755,6 +8866,10 @@ SQLITE_API char *sqlite3_str_finish(sqlite3_str*); ** ^The [sqlite3_str_reset(X)] method resets the string under construction ** inside [sqlite3_str] object X back to zero bytes in length. ** +** ^The [sqlite3_str_truncate(X,N)] method changes the length of the string +** under construction to be N bytes or less. This routine is a no-op if +** N is negative or if the string is already N bytes or smaller in size. +** ** These methods do not return a result code. ^If an error occurs, that fact ** is recorded in the [sqlite3_str] object and can be recovered by a ** subsequent call to [sqlite3_str_errcode(X)]. @@ -8765,6 +8880,7 @@ SQLITE_API void sqlite3_str_append(sqlite3_str*, const char *zIn, int N); SQLITE_API void sqlite3_str_appendall(sqlite3_str*, const char *zIn); SQLITE_API void sqlite3_str_appendchar(sqlite3_str*, int N, char C); SQLITE_API void sqlite3_str_reset(sqlite3_str*); +SQLITE_API void sqlite3_str_truncate(sqlite3_str*,int N); /* ** CAPI3REF: Status Of A Dynamic String @@ -10295,7 +10411,8 @@ SQLITE_API const char *sqlite3_vtab_collation(sqlite3_index_info*,int); ** ** sqlite3_vtab_distinct() return value ** Rows are returned in aOrderBy order -** Rows with the same value in all aOrderBy columns are adjacent +** Rows with the same value in all aOrderBy columns are +** adjacent ** Duplicates over all colUsed columns may be omitted ** 0yesyesno ** 1noyesno @@ -10304,8 +10421,8 @@ SQLITE_API const char *sqlite3_vtab_collation(sqlite3_index_info*,int); ** ** ** ^For the purposes of comparing virtual table output values to see if the -** values are the same value for sorting purposes, two NULL values are considered -** to be the same. In other words, the comparison operator is "IS" +** values are the same value for sorting purposes, two NULL values are +** considered to be the same. In other words, the comparison operator is "IS" ** (or "IS NOT DISTINCT FROM") and not "==". ** ** If a virtual table implementation is unable to meet the requirements @@ -10598,9 +10715,9 @@ SQLITE_API int sqlite3_vtab_rhs_value(sqlite3_index_info*, int, sqlite3_value ** ** a variable pointed to by the "pOut" parameter. ** ** The "flags" parameter must be passed a mask of flags. At present only -** one flag is defined - SQLITE_SCANSTAT_COMPLEX. If SQLITE_SCANSTAT_COMPLEX +** one flag is defined - [SQLITE_SCANSTAT_COMPLEX]. If SQLITE_SCANSTAT_COMPLEX ** is specified, then status information is available for all elements -** of a query plan that are reported by "EXPLAIN QUERY PLAN" output. If +** of a query plan that are reported by "[EXPLAIN QUERY PLAN]" output. If ** SQLITE_SCANSTAT_COMPLEX is not specified, then only query plan elements ** that correspond to query loops (the "SCAN..." and "SEARCH..." elements of ** the EXPLAIN QUERY PLAN output) are available. Invoking API @@ -10614,7 +10731,8 @@ SQLITE_API int sqlite3_vtab_rhs_value(sqlite3_index_info*, int, sqlite3_value ** ** elements used to implement the statement - a non-zero value is returned and ** the variable that pOut points to is unchanged. ** -** See also: [sqlite3_stmt_scanstatus_reset()] +** See also: [sqlite3_stmt_scanstatus_reset()] and the +** [nexec and ncycle] columns of the [bytecode virtual table]. */ SQLITE_API int sqlite3_stmt_scanstatus( sqlite3_stmt *pStmt, /* Prepared statement for which info desired */ @@ -11156,19 +11274,42 @@ SQLITE_API int sqlite3_deserialize( /* ** CAPI3REF: Bind array values to the CARRAY table-valued function ** -** The sqlite3_carray_bind(S,I,P,N,F,X) interface binds an array value to -** one of the first argument of the [carray() table-valued function]. The -** S parameter is a pointer to the [prepared statement] that uses the carray() -** functions. I is the parameter index to be bound. P is a pointer to the -** array to be bound, and N is the number of eements in the array. The -** F argument is one of constants [SQLITE_CARRAY_INT32], [SQLITE_CARRAY_INT64], -** [SQLITE_CARRAY_DOUBLE], [SQLITE_CARRAY_TEXT], or [SQLITE_CARRAY_BLOB] to -** indicate the datatype of the array being bound. The X argument is not a -** NULL pointer, then SQLite will invoke the function X on the P parameter -** after it has finished using P, even if the call to -** sqlite3_carray_bind() fails. The special-case finalizer -** SQLITE_TRANSIENT has no effect here. -*/ +** The sqlite3_carray_bind_v2(S,I,P,N,F,X,D) interface binds an array value to +** parameter that is the first argument of the [carray() table-valued function]. +** The S parameter is a pointer to the [prepared statement] that uses the +** carray() functions. I is the parameter index to be bound. I must be the +** index of the parameter that is the first argument to the carray() +** table-valued function. P is a pointer to the array to be bound, and N +** is the number of elements in the array. The F argument is one of +** constants [SQLITE_CARRAY_INT32], [SQLITE_CARRAY_INT64], +** [SQLITE_CARRAY_DOUBLE], [SQLITE_CARRAY_TEXT], +** or [SQLITE_CARRAY_BLOB] to indicate the datatype of the array P. +** +** If the X argument is not a NULL pointer or one of the special +** values [SQLITE_STATIC] or [SQLITE_TRANSIENT], then SQLite will invoke +** the function X with argument D when it is finished using the data in P. +** The call to X(D) is a destructor for the array P. The destructor X(D) +** is invoked even if the call to sqlite3_carray_bind_v2() fails. If the X +** parameter is the special-case value [SQLITE_STATIC], then SQLite assumes +** that the data static and the destructor is never invoked. If the X +** parameter is the special-case value [SQLITE_TRANSIENT], then +** sqlite3_carray_bind_v2() makes its own private copy of the data prior +** to returning and never invokes the destructor X. +** +** The sqlite3_carray_bind() function works the same as sqlite3_carray_bind_v2() +** with a D parameter set to P. In other words, +** sqlite3_carray_bind(S,I,P,N,F,X) is same as +** sqlite3_carray_bind_v2(S,I,P,N,F,X,P). +*/ +SQLITE_API int sqlite3_carray_bind_v2( + sqlite3_stmt *pStmt, /* Statement to be bound */ + int i, /* Parameter index */ + void *aData, /* Pointer to array data */ + int nData, /* Number of data elements */ + int mFlags, /* CARRAY flags */ + void (*xDel)(void*), /* Destructor for aData */ + void *pDel /* Optional argument to xDel() */ +); SQLITE_API int sqlite3_carray_bind( sqlite3_stmt *pStmt, /* Statement to be bound */ int i, /* Parameter index */ @@ -13199,6 +13340,232 @@ SQLITE_API int sqlite3session_config(int op, void *pArg); */ #define SQLITE_SESSION_CONFIG_STRMSIZE 1 +/* +** CAPI3REF: Configure a changegroup object +** +** Configure the changegroup object passed as the first argument. +** At present the only valid value for the second parameter is +** [SQLITE_CHANGEGROUP_CONFIG_PATCHSET]. +*/ +SQLITE_API int sqlite3changegroup_config(sqlite3_changegroup*, int, void *pArg); + +/* +** CAPI3REF: Options for sqlite3changegroup_config(). +** +** The following values may be passed as the 2nd parameter to +** sqlite3changegroup_config(). +** +**
    SQLITE_CHANGEGROUP_CONFIG_PATCHSET
    +** A changegroup object generates either a changeset or patchset. Usually, +** this is determined by whether the first call to sqlite3changegroup_add() +** is passed a changeset or a patchset. Or, if the first changes are added +** to the changegroup object using the sqlite3changegroup_change_xxx() +** APIs, then this option may be used to configure whether the changegroup +** object generates a changeset or patchset. +** +** When this option is invoked, parameter pArg must point to a value of +** type int. If the changegroup currently contains zero changes, and the +** value of the int variable is zero or greater than zero, then the +** changegroup is configured to generate a changeset or patchset, +** respectively. It is a no-op, not an error, if the changegroup is not +** configured because it has already started accumulating changes. +** +** Before returning, the int variable is set to 0 if the changegroup is +** configured to generate a changeset, or 1 if it is configured to generate +** a patchset. +*/ +#define SQLITE_CHANGEGROUP_CONFIG_PATCHSET 1 + + +/* +** CAPI3REF: Begin adding a change to a changegroup +** +** This API is used, in concert with other sqlite3changegroup_change_xxx() +** APIs, to add changes to a changegroup object one at a time. To add a +** single change, the caller must: +** +** 1. Invoke sqlite3changegroup_change_begin() to indicate the type of +** change (INSERT, UPDATE or DELETE), the affected table and whether +** or not the change should be marked as indirect. +** +** 2. Invoke sqlite3changegroup_change_int64() or one of the other four +** value functions - _null(), _double(), _text() or _blob() - one or +** more times to specify old.* and new.* values for the change being +** constructed. +** +** 3. Invoke sqlite3changegroup_change_finish() to either finish adding +** the change to the group, or to discard the change altogether. +** +** The first argument to this function must be a pointer to the existing +** changegroup object that the change will be added to. The second argument +** must be SQLITE_INSERT, SQLITE_UPDATE or SQLITE_DELETE. The third is the +** name of the table that the change affects, and the fourth is a boolean +** flag specifying whether the change should be marked as "indirect" (if +** bIndirect is non-zero) or not indirect (if bIndirect is zero). +** +** Following a successful call to this function, this function may not be +** called again on the same changegroup object until after +** sqlite3changegroup_change_finish() has been called. Doing so is an +** SQLITE_MISUSE error. +** +** The changegroup object passed as the first argument must be already +** configured with schema data for the specified table. It may be configured +** either by calling sqlite3changegroup_schema() with a database that contains +** the table, or sqlite3changegroup_add() with a changeset that contains the +** table. If the changegroup object has not been configured with a schema for +** the specified table when this function is called, SQLITE_ERROR is returned. +** +** If successful, SQLITE_OK is returned. Otherwise, if an error occurs, an +** SQLite error code is returned. In this case, if argument pzErr is non-NULL, +** then (*pzErr) may be set to point to a buffer containing a utf-8 formated, +** nul-terminated, English language error message. It is the responsibility +** of the caller to eventually free this buffer using sqlite3_free(). +*/ +SQLITE_API int sqlite3changegroup_change_begin( + sqlite3_changegroup*, + int eOp, + const char *zTab, + int bIndirect, + char **pzErr +); + +/* +** CAPI3REF: Add a 64-bit integer to a changegroup +** +** This function may only be called between a successful call to +** sqlite3changegroup_change_begin() and its matching +** sqlite3changegroup_change_finish() call. If it is called at any +** other time, it is an SQLITE_MISUSE error. Calling this function +** specifies a 64-bit integer value to be used in the change currently being +** added to the changegroup object passed as the first argument. +** +** The second parameter, bNew, specifies whether the value is to be part of +** the new.* (if bNew is non-zero) or old.* (if bNew is zero) record of +** the change under construction. If this does not match the type of change +** specified by the preceding call to sqlite3changegroup_change_begin() (i.e. +** an old.* value for an SQLITE_INSERT change, or a new.* value for an +** SQLITE_DELETE), then SQLITE_ERROR is returned. +** +** The third parameter specifies the column of the old.* or new.* record that +** the value will be a part of. If the specified table has an explicit primary +** key, then this is the index of the table column, numbered from 0 in the order +** specified within the CREATE TABLE statement. Or, if the table uses an +** implicit rowid key, then the column 0 is the rowid and the explicit columns +** are numbered starting from 1. If the iCol parameter is less than 0 or greater +** than the index of the last column in the table, SQLITE_RANGE is returned. +** +** The fourth parameter is the integer value to use as part of the old.* or +** new.* record. +** +** If this call is successful, SQLITE_OK is returned. Otherwise, if an +** error occurs, an SQLite error code is returned. +*/ +SQLITE_API int sqlite3changegroup_change_int64( + sqlite3_changegroup*, + int bNew, + int iCol, + sqlite3_int64 iVal +); + +/* +** CAPI3REF: Add a NULL to a changegroup +** +** This function is similar to sqlite3changegroup_change_int64(). Except that +** it configures the change currently under construction with a NULL value +** instead of a 64-bit integer. +*/ +SQLITE_API int sqlite3changegroup_change_null(sqlite3_changegroup*, int, int); + +/* +** CAPI3REF: Add an double to a changegroup +** +** This function is similar to sqlite3changegroup_change_int64(). Except that +** it configures the change currently being constructed with a real value +** instead of a 64-bit integer. +*/ +SQLITE_API int sqlite3changegroup_change_double(sqlite3_changegroup*, int, int, double); + +/* +** CAPI3REF: Add a text value to a changegroup +** +** This function is similar to sqlite3changegroup_change_int64(). It configures +** the currently accumulated change with a text value instead of a 64-bit +** integer. Parameter pVal points to a buffer containing the text encoded using +** utf-8. Parameter nVal may either be the size of the text value in bytes, or +** else a negative value, in which case the buffer pVal points to is assumed to +** be nul-terminated. +*/ +SQLITE_API int sqlite3changegroup_change_text( + sqlite3_changegroup*, int, int, const char *pVal, int nVal +); + +/* +** CAPI3REF: Add a blob to a changegroup +** +** This function is similar to sqlite3changegroup_change_int64(). It configures +** the currently accumulated change with a blob value instead of a 64-bit +** integer. Parameter pVal points to a buffer containing the blob. Parameter +** nVal is the size of the blob in bytes. +*/ +SQLITE_API int sqlite3changegroup_change_blob( + sqlite3_changegroup*, int, int, const void *pVal, int nVal +); + +/* +** CAPI3REF: Finish adding one-at-at-time changes to a changegroup +** +** This function may only be called following a successful call to +** sqlite3changegroup_change_begin(). Otherwise, it is an SQLITE_MISUSE error. +** +** If parameter bDiscard is non-zero, then the current change is simply +** discarded. In this case this function is always successful and SQLITE_OK +** returned. +** +** If parameter bDiscard is zero, then an attempt is made to add the current +** change to the changegroup. Assuming the changegroup is configured to +** produce a changeset (not a patchset), this requires that: +** +** * If the change is an INSERT or DELETE, then a value must be specified +** for all columns of the new.* or old.* record, respectively. +** +** * If the change is an UPDATE record, then values must be provided for +** the PRIMARY KEY columns of the old.* record, but must not be provided +** for PRIMARY KEY columns of the new.* record. +** +** * If the change is an UPDATE record, then for each non-PRIMARY KEY +** column in the old.* record for which a value has been provided, a +** value must also be provided for the same column in the new.* record. +** Similarly, for each non-PK column in the old.* record for which +** a value is not provided, a value must not be provided for the same +** column in the new.* record. +** +** * All values specified for PRIMARY KEY columns must be non-NULL. +** +** Otherwise, it is an error. +** +** If the changegroup already contains a change for the same row (identified +** by PRIMARY KEY columns), then the current change is combined with the +** existing change in the same way as for sqlite3changegroup_add(). +** +** For a patchset, all of the above rules apply except that it doesn't matter +** whether or not values are provided for the non-PK old.* record columns +** for an UPDATE or DELETE change. This means that code used to produce +** a changeset using the sqlite3changegroup_change_xxx() APIs may also +** be used to produce patchsets. +** +** If the call is successful, SQLITE_OK is returned. Otherwise, if an error +** occurs, an SQLite error code is returned. If an error is returned and +** parameter pzErr is not NULL, then (*pzErr) may be set to point to a buffer +** containing a nul-terminated, utf-8 encoded, English language error message. +** It is the responsibility of the caller to eventually free any such error +** message buffer using sqlite3_free(). +*/ +SQLITE_API int sqlite3changegroup_change_finish( + sqlite3_changegroup*, + int bDiscard, + char **pzErr +); + /* ** Make sure we can call this stuff from C++. */ diff --git a/deps/sqlite/sqlite3ext.h b/deps/sqlite/sqlite3ext.h index 5258faaed313c7..cad1a2a0016041 100644 --- a/deps/sqlite/sqlite3ext.h +++ b/deps/sqlite/sqlite3ext.h @@ -371,7 +371,11 @@ struct sqlite3_api_routines { /* Version 3.51.0 and later */ int (*set_errmsg)(sqlite3*,int,const char*); int (*db_status64)(sqlite3*,int,sqlite3_int64*,sqlite3_int64*,int); - + /* Version 3.52.0 and later */ + void (*str_truncate)(sqlite3_str*,int); + void (*str_free)(sqlite3_str*); + int (*carray_bind)(sqlite3_stmt*,int,void*,int,int,void(*)(void*)); + int (*carray_bind_v2)(sqlite3_stmt*,int,void*,int,int,void(*)(void*),void*); }; /* @@ -710,6 +714,11 @@ typedef int (*sqlite3_loadext_entry)( /* Version 3.51.0 and later */ #define sqlite3_set_errmsg sqlite3_api->set_errmsg #define sqlite3_db_status64 sqlite3_api->db_status64 +/* Version 3.52.0 and later */ +#define sqlite3_str_truncate sqlite3_api->str_truncate +#define sqlite3_str_free sqlite3_api->str_free +#define sqlite3_carray_bind sqlite3_api->carray_bind +#define sqlite3_carray_bind_v2 sqlite3_api->carray_bind_v2 #endif /* !defined(SQLITE_CORE) && !defined(SQLITE_OMIT_LOAD_EXTENSION) */ #if !defined(SQLITE_CORE) && !defined(SQLITE_OMIT_LOAD_EXTENSION) diff --git a/deps/sqlite/unofficial.gni b/deps/sqlite/unofficial.gni index dae3f36bde23db..0e62accfb6990e 100644 --- a/deps/sqlite/unofficial.gni +++ b/deps/sqlite/unofficial.gni @@ -15,6 +15,7 @@ template("sqlite_gn_build") { "SQLITE_ENABLE_FTS5", "SQLITE_ENABLE_GEOPOLY", "SQLITE_ENABLE_MATH_FUNCTIONS", + "SQLITE_ENABLE_PERCENTILE", "SQLITE_ENABLE_PREUPDATE_HOOK", "SQLITE_ENABLE_RBU", "SQLITE_ENABLE_RTREE", diff --git a/deps/uv/.clang-tidy b/deps/uv/.clang-tidy new file mode 100644 index 00000000000000..0f912ae86d5ea7 --- /dev/null +++ b/deps/uv/.clang-tidy @@ -0,0 +1,47 @@ +--- +# Configuration file for clang-tidy +# This configuration is tailored for the libuv C library project + +# Use default checks with minimal necessary disables +Checks: + # don't suggest reordering struct definitions + - -clang-analyzer-optin.performance.Padding + # allow memcpy (instead of memcpy_s) + - -clang-analyzer-security.insecureAPI.DeprecatedOrUnsafeBufferHandling + # allow strcpy + - -clang-analyzer-security.insecureAPI.strcpy + # allow TBAA + - -clang-analyzer-unix.MallocSizeof + # always allow `if () statement;` instead of `if () { statement; }` + - -readability-braces-around-statements + # allow any use of case and _ conventions in names + - -readability-identifier-naming + # allow defining a function prototype without naming all arguments + - -readability-named-parameter + # allow 1u instead of 1U constants + - -readability-uppercase-literal-suffix + +# Configure specific check options +CheckOptions: + - key: performance-unnecessary-value-param.AllowedTypes + value: 'uv_.*_t' + - key: readability-braces-around-statements.ShortStatementLines + value: '2' + - key: readability-function-size.LineThreshold + value: '150' + - key: readability-function-size.StatementThreshold + value: '80' + - key: misc-non-private-member-variables-in-classes.IgnoreClassesWithAllMemberVariablesBeingPublic + value: 'true' + +# Header filter - only analyze project files, not system headers +HeaderFilterRegex: '^.*/(src|include|test)/.*\.(h|c)$' + +# Format style for fix suggestions +FormatStyle: file + +# Treat warnings as errors +WarningsAsErrors: false + +# Use color, even when run through a program like ninja +UseColor: true diff --git a/deps/uv/.mailmap b/deps/uv/.mailmap index f5d5375e044e18..b8adf7b6a5d743 100644 --- a/deps/uv/.mailmap +++ b/deps/uv/.mailmap @@ -27,8 +27,10 @@ Jesse Gorzinski Jesse Gorzinski Juan José Arboleda Justin Venus +Keno Fischer Keno Fischer Keno Fischer +Lawrence Stubbs Leith Bade Leonard Hecker Lewis Russell @@ -42,7 +44,8 @@ Nick Logan Olivier Valentin Rasmus Christian Pedersen Rasmus Christian Pedersen -Richard Lau +Richard Lau +Richard Lau Robert Mustacchi Ryan Dahl Ryan Emery diff --git a/deps/uv/AUTHORS b/deps/uv/AUTHORS index 89a3d9db05c877..c8def1535533ac 100644 --- a/deps/uv/AUTHORS +++ b/deps/uv/AUTHORS @@ -210,7 +210,7 @@ guworks RossBencina Roger A. Light chenttuuvv -Richard Lau +Richard Lau ronkorving Corbin Simpson Zachary Hamm @@ -604,3 +604,33 @@ mugitya03 Itay Bookstein crupest AE1020 <68134252+AE1020@users.noreply.github.com> +dependabot[bot] <49699333+dependabot[bot]@users.noreply.github.com> +jhnh204 <51738134+jhnh204@users.noreply.github.com> +chemodax <53048645+chemodax@users.noreply.github.com> +Deep C +Luca Saccarola <96259932+saccarosium@users.noreply.github.com> +wisemanny <118970226+wisemanny@users.noreply.github.com> +Sean Dewar <6256228+seandewar@users.noreply.github.com> +Lawrence Stubbs +Emily +Anton Kirilov +Savas Sahin +m0cg +moe li +green-br +Christian Guinard <28689358+christiangnrd@users.noreply.github.com> +Gang Zhuo +Ayush Kumar +Ambuj Vashistha +Bart Louwers +Kartik Puri <84309847+BOXER78@users.noreply.github.com> +Oblivionsage <126214490+Oblivionsage@users.noreply.github.com> +Cody Tapscott <84105208+topolarity@users.noreply.github.com> +tobil4sk +Han Gao +mischief +StefanStojanovic +Przemysław Sobala +Quaylyn Rimer <31830590+killerdevildog@users.noreply.github.com> +Yasser Nascimento +Rudi Heitbaum diff --git a/deps/uv/CMakeLists.txt b/deps/uv/CMakeLists.txt index 73d5aff8926ed5..9b38b55530ed1b 100644 --- a/deps/uv/CMakeLists.txt +++ b/deps/uv/CMakeLists.txt @@ -24,6 +24,7 @@ set(CMAKE_C_STANDARD 11) set(CMAKE_EXPORT_COMPILE_COMMANDS ON) + option(LIBUV_BUILD_SHARED "Build shared lib" ON) cmake_dependent_option(LIBUV_BUILD_TESTS @@ -700,6 +701,8 @@ if(LIBUV_BUILD_TESTS) test/test-udp-send-immediate.c test/test-udp-sendmmsg-error.c test/test-udp-send-unreachable.c + test/test-udp-recv-cb-close-pollerr.c + test/test-udp-recvmsg-unreachable-error.c test/test-udp-try-send.c test/test-udp-recv-in-a-row.c test/test-udp-reuseport.c @@ -747,6 +750,14 @@ if(LIBUV_BUILD_TESTS) "$" "$/uv_run_tests_a_no_ext") endif() + + if(QNX) + install(TARGETS uv_run_tests uv_run_tests_a uv_run_benchmarks_a + DESTINATION ${CMAKE_INSTALL_BINDIR}/libuv_tests) + + install(DIRECTORY test/fixtures + DESTINATION ${CMAKE_INSTALL_BINDIR}/libuv_tests) + endif() endif() # Now for some gibbering horrors from beyond the stars... @@ -774,6 +785,11 @@ install(TARGETS uv_a EXPORT libuvConfig install(EXPORT libuvConfig DESTINATION ${CMAKE_INSTALL_LIBDIR}/cmake/libuv NAMESPACE libuv::) +write_basic_package_version_file(libuvConfigVersion.cmake + VERSION ${PACKAGE_VERSION} + COMPATIBILITY SameMajorVersion) +install(FILES ${CMAKE_CURRENT_BINARY_DIR}/libuvConfigVersion.cmake + DESTINATION ${CMAKE_INSTALL_LIBDIR}/cmake/libuv) if(LIBUV_BUILD_SHARED) # The version in the filename is mirroring the behaviour of autotools. @@ -814,3 +830,77 @@ message(STATUS "summary of build options: C compiler: ${CMAKE_C_COMPILER} (${CMAKE_C_COMPILER_ID}) CFLAGS: ${CMAKE_C_FLAGS_${_build_type}} ${CMAKE_C_FLAGS} ") + +# clang-tidy support +option(ENABLE_CLANG_TIDY "Enable clang-tidy checks" ON) +if(ENABLE_CLANG_TIDY) + find_program(CLANG_TIDY_EXE NAMES "clang-tidy") + if(CLANG_TIDY_EXE) + set(CMAKE_C_CLANG_TIDY "${CLANG_TIDY_EXE}") + message(STATUS "clang-tidy found: ${CLANG_TIDY_EXE}") + else() + set(CMAKE_C_CLANG_TIDY "clang-tidy") + message(STATUS "clang-tidy not found: install clang-tidy or set -DCLANG_TIDY_EXE to run tidy analysis on this platform") + endif() + + # Collect source files from existing targets (deduplicated) + set(ALL_SOURCE_FILES) + set(SRC_TARGETS) + set(TEST_TARGETS) + set(TIDY_TARGETS) + + # Add main library sources + list(APPEND ALL_SOURCE_FILES ${uv_sources}) + + # Add test sources if tests are enabled + if(LIBUV_BUILD_TESTS) + list(APPEND ALL_SOURCE_FILES ${uv_test_sources}) + endif() + + # Remove duplicates and non-existent files + list(REMOVE_DUPLICATES ALL_SOURCE_FILES) + + foreach(SOURCE_FILE ${ALL_SOURCE_FILES}) + # Create a clean target name + string(REPLACE "/" "-" TARGET_NAME ${SOURCE_FILE}) + string(REGEX REPLACE "\\.[^.]*$" "" TARGET_NAME ${TARGET_NAME}) + set(FULL_TARGET_NAME "tidy-${TARGET_NAME}") + + # Create individual target for this source file + add_custom_target(${FULL_TARGET_NAME} + COMMAND ${CMAKE_C_CLANG_TIDY} -p "${CMAKE_BINARY_DIR}" "${CMAKE_CURRENT_SOURCE_DIR}/${SOURCE_FILE}" + COMMENT "Running clang-tidy on ${SOURCE_FILE}" + VERBATIM) + + # Add to appropriate folder list + if(SOURCE_FILE MATCHES "^src/") + list(APPEND SRC_TARGETS ${FULL_TARGET_NAME}) + elseif(SOURCE_FILE MATCHES "^test/") + list(APPEND TEST_TARGETS ${FULL_TARGET_NAME}) + endif() + + # Add to list of all tidy targets + list(APPEND TIDY_TARGETS ${FULL_TARGET_NAME}) + endforeach() + + # Create folder-based targets + if(SRC_TARGETS) + add_custom_target(tidy-src + COMMENT "Running clang-tidy on src files" + VERBATIM) + add_dependencies(tidy-src ${SRC_TARGETS}) + endif() + + if(TEST_TARGETS) + add_custom_target(tidy-test + COMMENT "Running clang-tidy on test files" + VERBATIM) + add_dependencies(tidy-test ${TEST_TARGETS}) + endif() + + # Create main tidy target that depends on all individual targets + add_custom_target(tidy + COMMENT "Running clang-tidy on all source files" + VERBATIM) + add_dependencies(tidy ${TIDY_TARGETS}) +endif() diff --git a/deps/uv/ChangeLog b/deps/uv/ChangeLog index 787963715772d0..0a4fd4b51b06ad 100644 --- a/deps/uv/ChangeLog +++ b/deps/uv/ChangeLog @@ -1,4 +1,272 @@ -2025.04.25, Version 1.51.0 (Stable) +2026.03.06, Version 1.52.1 (Stable) + +Changes since version 1.52.0: + +* misc: add simple clang-tidy setup (Jameson Nash) + +* unix: check RLIMIT_AS and RLIMIT_DATA in uv_get_constrained_memory (Jameson + Nash) + +* win: add fs-fd-hash-inl.h to tarball (tobil4sk) + +* unix,win: support NULL loop for sync uv_getaddrinfo (Saúl Ibarra Corretgé) + +* Fix const-correctness warning in linux.c (Quaylyn Rimer) + +* build(deps): bump actions/upload-artifact from 6 to 7 (dependabot[bot]) + +* build(deps): bump actions/download-artifact from 7 to 8 (dependabot[bot]) + +* unix: fix compilation warnings with GCC 15 (Saúl Ibarra Corretgé) + +* test: remove conditionals from `uv_thread_self` usage (Yasser Nascimento) + +* unix: fix discard const (Rudi Heitbaum) + +* unix: do not cast to char variables that are const char (Rudi Heitbaum) + +* linux: fix crash if poll callback closes handle before `POLLERR` (Juan José + Arboleda) + + +2026.02.11, Version 1.52.0 (Stable), b556c0629d0fd250b5feefbc91b84c6f5e3dae48 + +Changes since version 1.51.0: + +* src: remove unused include of in timer.c (Juan José Arboleda) + +* test: skip `udp_multicast_join` if not system-wide available (Juan José + Arboleda) + +* test: remove unused include of in runner.h (Juan José Arboleda) + +* doc: don't mention UV_LOOP_ENABLE_IO_URING_SQPOLL (Poul T Lomholt) + +* unix: fix uv_thread_{get,set}priority error codes (Ryan Liptak) + +* build: dedup sanitizer jobs using matrix strategy (Juan José Arboleda) + +* doc: update ncurses link (Saúl Ibarra Corretgé) + +* tcp: support customizing TCP_KEEPINTVL and TCP_KEEPCNT (Andy Pan) + +* linux: fix -Wformat-truncation warning (Ben Noordhuis) + +* src: fix nullptr dereference in uv__print_handles (jhnh204) + +* build: make automake link libm on bsd-likes (Juan José Arboleda) + +* include: remove unused macro undefs from uv.h (Juan José Arboleda) + +* win: handle empty string in uv_get_process_title (Ben Noordhuis) + +* win: use WSA_FLAG_NO_HANDLE_INHERIT in WSASocketW (chemodax) + +* unix: handle possible `ENOMEM` in `uv__tcp_listen` (Juan José Arboleda) + +* win: replace GetModuleHandleA with GetModuleHandleW (chemodax) + +* qnx: add qnx 8 support (Deep C) + +* mailmap: update email address for Richard Lau (Richard Lau) + +* win: remove obsolete comment (Ben Noordhuis) + +* unix: handle possible `ENOMEM` in `uv__pipe_listen` (Juan José Arboleda) + +* unix: deduplicate uv_free_interface_addresses (Juan José Arboleda) + +* test: pass correct string type to GetModuleHandleW (Ben Noordhuis) + +* win: remove unnecessary inlining from fs.c (Ben Noordhuis) + +* win: move uv__process_reqs to core.c (Ben Noordhuis) + +* win: remove unnecessary inlining from header file (Ben Noordhuis) + +* test: skip slow process title test on asan+macos (Ben Noordhuis) + +* win: dissolve atomicops-inl.h (Ben Noordhuis) + +* win: move uv__process_endgames to core.c (Ben Noordhuis) + +* win: move uv__insert_pending_req to core.c (Ben Noordhuis) + +* win: replace inline asm with compiler intrinsic (Ben Noordhuis) + +* win,pipe: minimal fix to uv_read_cb->uv_read_start recursion bug (Jameson + Nash) + +* doc: make requirements work with newer python (Luca Saccarola) + +* win: fix -Wcast-function-type warnings in winapi.c (Ben Noordhuis) + +* win: fix -Wsign-compare warnings (Ben Noordhuis) + +* test: simplify ASSERT_OK macro for static analysis (Jameson Nash) + +* win: add arm64 machine type to uv_os_uname (wisemanny) + +* win: use ProcessPrng (Ben Noordhuis) + +* win: work around wine bug in uv_fs_{unlink,rmdir} (Keno Fischer) + +* doc: fix return value for uv_pipe_connect2 (Sean Dewar) + +* unix: fix udp sendmmsg fallback path (Ben Noordhuis) + +* doc: add binding `C framework` uv_coroutine to LINKS.md (Lawrence Stubbs) + +* linux: handle cgroups cpu.max with limit < period (Ben Noordhuis) + +* doc: update link, repo name change to c-asio (Lawrence Stubbs) + +* build(deps): bump actions/download-artifact from 4 to 5 (dependabot[bot]) + +* doc: remove nodeuv from LINKS.md (Ben Noordhuis) + +* test: use relative paths for pipes and unix sockets (Emily) + +* build(deps): bump actions/checkout from 4 to 5 (dependabot[bot]) + +* unix: improve uv__cpu_relax() on arm (Anton Kirilov) + +* win: fix compiler warnings (Savas Sahin) + +* unix: replace uv__io_t callback pointer with enum (Ben Noordhuis) + +* test,win: fix -Wunused-function warnings (Ben Noordhuis) + +* test,win: fix -Wcast-function-type warnings (Ben Noordhuis) + +* test,win: fix -Wattributes warnings (Ben Noordhuis) + +* win: shrink fd hash table from 2592k to 162k (Ben Noordhuis) + +* unix: fix build on the bsds (Ben Noordhuis) + +* netbsd: fix thread affinity compilation error (Santiago Gimeno) + +* unix: remove UV__SIGNAL_EVENT dispatch from uv__io_cb (Juan José Arboleda) + +* build: add -Werror when testing -Wflags (Jameson Nash) + +* win: fix path size calculation (Ben Noordhuis) + +* doc: correct uv_cancel return value (m0cg) + +* unix,win: look up UV_THREADPOOL_SIZE with uv_os_getenv (moe li) + +* build(deps): bump actions/setup-python from 5 to 6 (dependabot[bot]) + +* unix: fix uv__signal_loop_cleanup call in init (Jameson Nash) + +* aix: fix nullptr check in uv__skip_lines (Ben Noordhuis) + +* unix: add neoverse-v2 cpu identifier (green-br) + +* test: make `thread_priority` robust against system default nice levels + + (Juan José Arboleda) + +* unix,win: implement `uv_udp_open_ex` (Juan José Arboleda) + +* aix: add stub function to satisfy linker (Ben Noordhuis) + +* linux: add MSG_ERRQUEUE ipv4/ipv6 udp support (Juan José Arboleda) + +* ibmi: add stub function to satisfy linker (Ben Noordhuis) + +* darwin: better heuristic for available memory (Christian Guinard) + +* build(deps): bump actions/download-artifact from 5 to 6 (dependabot[bot]) + +* build(deps): bump actions/upload-artifact from 4 to 5 (dependabot[bot]) + +* unix: fix use of uninitialized variable (Ben Noordhuis) + +* doc: fix documentation for uv_utf16_to_wtf8() function (Gang Zhuo) + +* win: rename minimal_windows10_version1709() for libuv's convention (Andy Pan) + +* build(deps): bump actions/checkout from 5 to 6 (dependabot[bot]) + +* win: fix race in uv_fs_event_start() (Ben Noordhuis) + +* unix: support nanosecond resolution in uv__fs_to_timespec (Ayush Kumar) + +* win: handle sshfs-win quirk in uv_fs_readdir() (Ben Noordhuis) + +* unix,win: fix leak in uv_os_environ error path (Ambuj Vashistha) + +* test: add macros to run fs tests with io_uring (Santiago Gimeno) + +* linux: fix uv_fs_ftruncate io_uring implementation (Santiago Gimeno) + +* Update OS X reference to macOS in README (Bart Louwers) + +* ci: update macos runner images (Ben Noordhuis) + +* doc: add example usage for uv_sleep (Kartik Puri) + +* ci: add macos-15-intel to matrix (Ben Noordhuis) + +* win: Optimize file/directory delete. (chemodax) + +* build(deps): bump actions/download-artifact from 6 to 7 (dependabot[bot]) + +* build(deps): bump actions/upload-artifact from 5 to 6 (dependabot[bot]) + +* test: run more fs tests using io_uring too (Santiago Gimeno) + +* doc: add handle and request usage guidelines (Ben Noordhuis) + +* unix: remove handle from queue on uv_spawn() error (Oblivionsage) + +* doc: remove hp-ux from supported platforms list (Ben Noordhuis) + +* unix,win: add f_frsize field to uv_statfs_t (Ben Noordhuis) + +* test: fix -Wuninitialized-const-pointer warning (Ben Noordhuis) + +* test: fix -Wstringop-overread warning (Ben Noordhuis) + +* test: make pty test work under asan (Ben Noordhuis) + +* win: readlink support for IO_REPARSE_TAG_LX_SYMLINK (Cody Tapscott) + +* unix: fix partial read handling after POLLHUP (Ben Noordhuis) + +* unix: factor out common i/o poll code (Ben Noordhuis) + +* test: disable udp_reuseport test under qemu (Ben Noordhuis) + +* test: disable tcp_reuseport test under qemu (Ben Noordhuis) + +* unix,win: check nbufs argument is reasonable (Ben Noordhuis) + +* win: refactor to support large statfs blocks (Santiago Gimeno) + +* unix: remove sunpro references (Ben Noordhuis) + +* idna: fix assert in wtf8_to_utf16 conversion (tobil4sk) + +* aix,ibmi: fix test suite build breakage (Ben Noordhuis) + +* unix: implement cpu_relax() for riscv64 (Han Gao) + +* doc: add setuid warning to uv_exepath (Ben Noordhuis) + +* unix: make OpenBSD uv_exepath work (mischief) + +* win: fix uv_get_process_title (StefanStojanovic) + +* unix,udp: fix -Wgnu-folding-constant warning (Saúl Ibarra Corretgé) + +* cmake: add libuvConfigVersion.cmake file (Przemysław Sobala) + + +2025.04.25, Version 1.51.0 (Stable), 5152db2cbfeb5582e9c27c5ea1dba2cd9e10759b Changes since version 1.50.0: diff --git a/deps/uv/LINKS.md b/deps/uv/LINKS.md index 9f286ea3e9201f..c73c455223c47b 100644 --- a/deps/uv/LINKS.md +++ b/deps/uv/LINKS.md @@ -30,7 +30,6 @@ * [node9](https://github.com/jvburnes/node9): A portable, hybrid, distributed OS based on Inferno, LuaJIT and Libuv * [node.js](http://www.nodejs.org/): Javascript (using Google's V8) + libuv * [node.native](https://github.com/d5/node.native): node.js-like API for C++11 -* [nodeuv](https://github.com/nodeuv): An organization with several c++ wrappers for libs which are used in node.js. * [phastlight](https://github.com/phastlight/phastlight): Command line tool and web server written in PHP 5.3+ inspired by Node.js * [pilight](https://www.pilight.org/): home automation ("domotica") * [pixie](https://github.com/pixie-lang/pixie): clojure-inspired lisp with a tracing JIT @@ -109,4 +108,6 @@ * Haskell * [Z.Haskell](https://z.haskell.world) * C3 - * [libuv.c3l](https://github.com/velikoss/libuv.c3l) + * [libuv.c3l](https://github.com/velikoss/libuv.c3l) +* C + * [c-asio](https://github.com/zelang-dev/c-asio) A memory safe focus *C framework*, combining [c-raii](https://zelang-dev.github.io/c-raii), `libuv`, **coroutine** and other concurrency primitives. diff --git a/deps/uv/Makefile.am b/deps/uv/Makefile.am index f3808b696ce3db..cc70ffe4bd0805 100644 --- a/deps/uv/Makefile.am +++ b/deps/uv/Makefile.am @@ -61,13 +61,13 @@ AM_CPPFLAGS += -I$(top_srcdir)/src/win \ -DWIN32_LEAN_AND_MEAN \ -D_WIN32_WINNT=0x0A00 libuv_la_SOURCES += src/win/async.c \ - src/win/atomicops-inl.h \ src/win/core.c \ src/win/detect-wakeup.c \ src/win/dl.c \ src/win/error.c \ src/win/fs-event.c \ src/win/fs.c \ + src/win/fs-fd-hash-inl.h \ src/win/getaddrinfo.c \ src/win/getnameinfo.c \ src/win/handle.c \ @@ -326,6 +326,8 @@ test_run_tests_SOURCES = test/blackhole-server.c \ test/test-udp-send-immediate.c \ test/test-udp-sendmmsg-error.c \ test/test-udp-send-unreachable.c \ + test/test-udp-recv-cb-close-pollerr.c \ + test/test-udp-recvmsg-unreachable-error.c \ test/test-udp-try-send.c \ test/test-udp-recv-in-a-row.c \ test/test-udp-reuseport.c \ @@ -438,7 +440,7 @@ libuv_la_SOURCES += src/unix/bsd-ifaddrs.c \ src/unix/kqueue.c \ src/unix/proctitle.c \ src/unix/random-getentropy.c -test_run_tests_LDFLAGS += -lutil +test_run_tests_LDFLAGS += -lutil -lm endif if DRAGONFLY @@ -448,7 +450,7 @@ libuv_la_SOURCES += src/unix/bsd-ifaddrs.c \ src/unix/freebsd.c \ src/unix/kqueue.c \ src/unix/posix-hrtime.c -test_run_tests_LDFLAGS += -lutil +test_run_tests_LDFLAGS += -lutil -lm endif if FREEBSD @@ -459,7 +461,7 @@ libuv_la_SOURCES += src/unix/bsd-ifaddrs.c \ src/unix/kqueue.c \ src/unix/posix-hrtime.c \ src/unix/random-getrandom.c -test_run_tests_LDFLAGS += -lutil +test_run_tests_LDFLAGS += -lutil -lm endif if HAIKU @@ -491,7 +493,7 @@ libuv_la_SOURCES += src/unix/linux.c \ src/unix/proctitle.c \ src/unix/random-getrandom.c \ src/unix/random-sysctl-linux.c -test_run_tests_LDFLAGS += -lutil +test_run_tests_LDFLAGS += -lutil -lm endif if MSYS @@ -514,7 +516,7 @@ libuv_la_SOURCES += src/unix/bsd-ifaddrs.c \ src/unix/kqueue.c \ src/unix/netbsd.c \ src/unix/posix-hrtime.c -test_run_tests_LDFLAGS += -lutil +test_run_tests_LDFLAGS += -lutil -lm endif if OPENBSD @@ -525,7 +527,7 @@ libuv_la_SOURCES += src/unix/bsd-ifaddrs.c \ src/unix/openbsd.c \ src/unix/posix-hrtime.c \ src/unix/random-getentropy.c -test_run_tests_LDFLAGS += -lutil +test_run_tests_LDFLAGS += -lutil -lm endif if SUNOS diff --git a/deps/uv/README.md b/deps/uv/README.md index 7cc9d2dd53c27c..1f1fdbfe3f7059 100644 --- a/deps/uv/README.md +++ b/deps/uv/README.md @@ -215,7 +215,7 @@ $ cmake ../.. \ $ brew install --HEAD libuv ``` -Note to OS X users: +Note to macOS users: Make sure that you specify the architecture you wish to build for in the "ARCHS" flag. You can specify more than one by delimiting with a space diff --git a/deps/uv/SUPPORTED_PLATFORMS.md b/deps/uv/SUPPORTED_PLATFORMS.md index c560aa1086b981..b317da6f45c66f 100644 --- a/deps/uv/SUPPORTED_PLATFORMS.md +++ b/deps/uv/SUPPORTED_PLATFORMS.md @@ -12,7 +12,6 @@ | Linux with musl | Tier 2 | musl >= 1.0 | | | Android | Tier 3 | NDK >= r15b | Android 7.0, `-DANDROID_PLATFORM=android-24` | | MinGW | Tier 3 | MinGW-w64 | | -| SunOS | Tier 3 | Solaris 121 and later | | | Other | Tier 3 | N/A | | ## Support types diff --git a/deps/uv/configure.ac b/deps/uv/configure.ac index a4b03b8f5075ee..c5246110a2d2b6 100644 --- a/deps/uv/configure.ac +++ b/deps/uv/configure.ac @@ -13,7 +13,7 @@ # OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. AC_PREREQ(2.57) -AC_INIT([libuv], [1.51.0], [https://github.com/libuv/libuv/issues]) +AC_INIT([libuv], [1.52.1], [https://github.com/libuv/libuv/issues]) AC_CONFIG_MACRO_DIR([m4]) m4_include([m4/libuv-extra-automake-flags.m4]) m4_include([m4/as_case.m4]) @@ -27,7 +27,7 @@ AC_PROG_CC AM_PROG_CC_C_O CC_ATTRIBUTE_VISIBILITY([default], [ - CC_FLAG_VISIBILITY([CFLAGS="${CFLAGS} -fvisibility=hidden"]) + CC_CHECK_CFLAG_APPEND([-fvisibility=hidden]) ]) # Xlc has a flag "-f". Need to use CC_CHECK_FLAG_SUPPORTED_APPEND so # we exclude -fno-strict-aliasing for xlc diff --git a/deps/uv/docs/requirements.txt b/deps/uv/docs/requirements.txt index 2e310ebe7283af..0319b30871d114 100644 --- a/deps/uv/docs/requirements.txt +++ b/deps/uv/docs/requirements.txt @@ -1,36 +1,29 @@ # primary -furo==2023.5.20 -Sphinx==6.1.3 +furo==2024.8.6 +Sphinx==7.0.1 # dependencies -alabaster==0.7.13 -Babel==2.11.0 -beautifulsoup4==4.12.2 -certifi==2022.12.7 -charset-normalizer==3.0.1 -colorama==0.4.6 -docutils==0.19 -idna==3.4 +alabaster==0.7.16 +babel==2.17.0 +beautifulsoup4==4.13.3 +certifi==2025.1.31 +charset-normalizer==3.4.1 +docutils==0.20.1 +idna==3.10 imagesize==1.4.1 -importlib-metadata==6.0.0 -Jinja2==3.1.2 -livereload==2.6.3 -MarkupSafe==2.1.2 -packaging==23.0 -Pygments==2.14.0 -pytz==2022.7.1 -requests==2.28.2 -six==1.16.0 +Jinja2==3.1.6 +MarkupSafe==3.0.2 +packaging==24.2 +Pygments==2.19.1 +requests==2.32.3 snowballstemmer==2.2.0 -soupsieve==2.4.1 -sphinx-autobuild==2021.3.14 +soupsieve==2.6 sphinx-basic-ng==1.0.0b2 -sphinxcontrib-devhelp==1.0.2 -sphinxcontrib-htmlhelp==2.0.0 +sphinxcontrib-applehelp==2.0.0 +sphinxcontrib-devhelp==2.0.0 +sphinxcontrib-htmlhelp==2.1.0 sphinxcontrib-jsmath==1.0.1 -sphinxcontrib-qthelp==1.0.3 -sphinxcontrib-serializinghtml==1.1.5 -sphinxcontrib.applehelp==1.0.3 -tornado==6.3.2 -urllib3==1.26.14 -zipp==3.11.0 +sphinxcontrib-qthelp==2.0.0 +sphinxcontrib-serializinghtml==2.0.0 +typing_extensions==4.13.0 +urllib3==2.3.0 diff --git a/deps/uv/docs/src/design.rst b/deps/uv/docs/src/design.rst index 5a20595c3b42ce..7ad62076f33d7c 100644 --- a/deps/uv/docs/src/design.rst +++ b/deps/uv/docs/src/design.rst @@ -36,6 +36,31 @@ Requests represent (typically) short-lived operations. These operations can be p handle: write requests are used to write data on a handle; or standalone: getaddrinfo requests don't need a handle they run directly on the loop. +Guidelines for dealing with handles and requests: + +1. If `uv_foo_init()` succeeds in initializing the handle, you must call + :c:func:`uv_close()`. If the handle's init function errors, you don't + need to do anything. + +2. Only handles are closed, not requests. For example, :c:type:`uv_tcp_t` + is a handle, :c:type:`uv_write_t` is a request. + +3. The handle's memory can only be reclaimed or reused from inside the + :c:type:`uv_close_cb` or afterwards, not before. + +4. Most handles have init + start/stop functions; some handles don't. + Example: :c:type:`uv_tcp_t` vs. :c:type:`uv_process_t`; :c:func:`uv_spawn()` + combines handle initialization and process start into one. + +5. Requests are closed automatically when they complete, or when they are + cancelled with :c:func:`uv_cancel()`. + +6. No additional cleanup is needed except for :c:type:`uv_fs_t` and + :c:type:`uv_getaddrinfo_t` requests. For :c:type:`uv_fs_t`, call + :c:func:`uv_fs_req_cleanup()` once you are done with it; for + :c:type:`uv_getaddrinfo_t`, that's :c:func:`uv_freeaddrinfo()`. + +7. The request's memory can only be reclaimed or reused from that point onward. The I/O loop ^^^^^^^^^^^^ diff --git a/deps/uv/docs/src/fs.rst b/deps/uv/docs/src/fs.rst index 01a48e8edd85d8..99524e70289154 100644 --- a/deps/uv/docs/src/fs.rst +++ b/deps/uv/docs/src/fs.rst @@ -19,7 +19,7 @@ observable behavior. Libuv reverts to using its threadpool when the necessary kernel features are unavailable or unsuitable. Starting with libuv v1.49.0 this behavior was reverted and Libuv on Linux by default will be using the threadpool again. In order to enable io_uring the :c:type:`uv_loop_t` instance must be -configured with the :c:type:`UV_LOOP_ENABLE_IO_URING_SQPOLL` option. +configured with the :c:type:`UV_LOOP_USE_IO_URING_SQPOLL` option. .. note:: On Windows `uv_fs_*` functions use utf-8 encoding. @@ -129,7 +129,8 @@ Data types uint64_t f_bavail; uint64_t f_files; uint64_t f_ffree; - uint64_t f_spare[4]; + uint64_t f_frsize; + uint64_t f_spare[3]; } uv_statfs_t; .. c:enum:: uv_dirent_type_t diff --git a/deps/uv/docs/src/loop.rst b/deps/uv/docs/src/loop.rst index d1f41e1c9f4483..3d1973ba4f9f0c 100644 --- a/deps/uv/docs/src/loop.rst +++ b/deps/uv/docs/src/loop.rst @@ -86,12 +86,12 @@ API This option is necessary to use :c:func:`uv_metrics_idle_time`. - - UV_LOOP_ENABLE_IO_URING_SQPOLL: Enable SQPOLL io_uring instance to handle + - UV_LOOP_USE_IO_URING_SQPOLL: Enable SQPOLL io_uring instance to handle asynchronous file system operations. .. versionchanged:: 1.39.0 added the UV_METRICS_IDLE_TIME option. - .. versionchanged:: 1.49.0 added the UV_LOOP_ENABLE_IO_URING_SQPOLL option. + .. versionchanged:: 1.49.0 added the UV_LOOP_USE_IO_URING_SQPOLL option. .. c:function:: int uv_loop_close(uv_loop_t* loop) diff --git a/deps/uv/docs/src/misc.rst b/deps/uv/docs/src/misc.rst index db95e2dde83ea1..09db6244a0e1dc 100644 --- a/deps/uv/docs/src/misc.rst +++ b/deps/uv/docs/src/misc.rst @@ -522,6 +522,10 @@ API Gets the executable path. You *must* call `uv_setup_args` before calling this function. + Be careful in setuid executables. On some platforms the executable path + is an arbitrary string that is controlled by the user. On other platforms + environment variables are consulted that may be under control of the user. + .. c:function:: int uv_cwd(char* buffer, size_t* size) Gets the current working directory, and stores it in `buffer`. If the @@ -892,6 +896,16 @@ API .. versionadded:: 1.34.0 +.. code-block:: c + #include + #include + int main() { + printf("Sleeping for 1 second...\n"); + uv_sleep(1000); + printf("Awake!\n"); + return 0; + } + String manipulation functions ----------------------------- @@ -913,7 +927,7 @@ is not complete. `utf16_len` count (in characters) gives the length of `utf16`. If `utf16` is NUL terminated, `utf16_len` can be set to -1, otherwise it must be specified. If `wtf8_ptr` is `NULL`, no result will be computed, but the - length (equal to `uv_utf16_length_as_wtf8`) will be stored in `wtf8_ptr`. + length (equal to `uv_utf16_length_as_wtf8`) will be stored in `wtf8_len_ptr`. If `*wtf8_ptr` is `NULL`, space for the conversion will be allocated and returned in `wtf8_ptr` and the length will be returned in `wtf8_len_ptr`. Otherwise, the length of `*wtf8_ptr` must be passed in `wtf8_len_ptr`. The diff --git a/deps/uv/docs/src/pipe.rst b/deps/uv/docs/src/pipe.rst index 4abdc65e7153c7..bb77f90e3ce647 100644 --- a/deps/uv/docs/src/pipe.rst +++ b/deps/uv/docs/src/pipe.rst @@ -94,7 +94,7 @@ API Paths on Unix get truncated to ``sizeof(sockaddr_un.sun_path)`` bytes, typically between 92 and 108 bytes. -.. c:function:: void uv_pipe_connect2(uv_connect_t* req, uv_pipe_t* handle, const char* name, size_t namelen, unsigned int flags, uv_connect_cb cb) +.. c:function:: int uv_pipe_connect2(uv_connect_t* req, uv_pipe_t* handle, const char* name, size_t namelen, unsigned int flags, uv_connect_cb cb) Connect to the Unix domain socket or the Windows named pipe. diff --git a/deps/uv/docs/src/tcp.rst b/deps/uv/docs/src/tcp.rst index f9b203c41997d9..94a3b2741e48f4 100644 --- a/deps/uv/docs/src/tcp.rst +++ b/deps/uv/docs/src/tcp.rst @@ -91,6 +91,34 @@ API .. versionchanged:: 1.49.0 If `delay` is less than 1 then ``UV_EINVAL``` is returned. +.. c:function:: int uv_tcp_keepalive_ex(uv_tcp_t* handle, int on, unsigned int idle, unsigned int intvl, unsigned int cnt) + + Enable / disable TCP keep-alive with all socket options: `TCP_KEEPIDLE`, `TCP_KEEPINTVL` and `TCP_KEEPCNT`. + `idle` is the value for `TCP_KEEPIDLE`, `intvl` is the value for `TCP_KEEPINTVL`, + `cnt` is the value for `TCP_KEEPCNT`, ignored when `on` is zero. + + With TCP keep-alive enabled, `idle` is the time (in seconds) the connection needs to remain idle before + TCP starts sending keep-alive probes. `intvl` is the time (in seconds) between individual keep-alive probes. + TCP will drop the connection after sending `cnt` probes without getting any replies from the peer, then the + handle is destroyed with a ``UV_ETIMEDOUT`` error passed to the corresponding callback. + + If one of `idle`, `intvl`, or `cnt` is less than 1, ``UV_EINVAL`` is returned. + + .. versionchanged:: 1.52.0 added support of setting `TCP_KEEPINTVL` and `TCP_KEEPCNT` socket options. + + .. note:: + Ensure that the socket options are supported by the underlying operating system. + Currently supported platforms: + - AIX + - DragonFlyBSD + - FreeBSD + - illumos + - Linux + - macOS + - NetBSD + - Solaris + - Windows + .. c:function:: int uv_tcp_simultaneous_accepts(uv_tcp_t* handle, int enable) Enable / disable simultaneous asynchronous accept requests that are diff --git a/deps/uv/docs/src/udp.rst b/deps/uv/docs/src/udp.rst index 5f225e5cda4011..39fe77f5e1b365 100644 --- a/deps/uv/docs/src/udp.rst +++ b/deps/uv/docs/src/udp.rst @@ -173,6 +173,22 @@ API .. versionadded:: 1.7.0 .. versionchanged:: 1.37.0 added the `UV_UDP_RECVMMSG` flag. +.. c:function:: int uv_udp_open_ex(uv_udp_t* handle, uv_os_sock_t sock, unsigned int flags) + + Opens an existing file descriptor or Windows SOCKET as a UDP handle. + + :param handle: UDP handle. Should have been initialized with + :c:func:`uv_udp_init`. + + :param sock: An existing socket to associate with the handle. + + :param flags: Flags that control socket behavior, + ``UV_UDP_REUSEADDR``, and ``UV_UDP_REUSEPORT`` are supported. + + :returns: 0 on success, or an error code < 0 on failure. + + .. versionadded:: 1.52.0 + .. c:function:: int uv_udp_open(uv_udp_t* handle, uv_os_sock_t sock) Opens an existing file descriptor or Windows SOCKET as a UDP handle. @@ -189,6 +205,10 @@ API The passed file descriptor or SOCKET is not checked for its type, but it's required that it represents a valid datagram socket. + Internally sets the SO_REUSEADDR socket option unconditionally. This + means the reuse flag is always enabled, regardless of user intent. For + more control use :c:func:`uv_udp_open_ex`. + .. c:function:: int uv_udp_bind(uv_udp_t* handle, const struct sockaddr* addr, unsigned int flags) Bind the UDP handle to an IP address and port. diff --git a/deps/uv/include/uv.h b/deps/uv/include/uv.h index 938e998fdc54d1..da06345557bb6c 100644 --- a/deps/uv/include/uv.h +++ b/deps/uv/include/uv.h @@ -44,10 +44,8 @@ extern "C" { /* Building static library. */ # define UV_EXTERN /* nothing */ # endif -#elif __GNUC__ >= 4 +#elif defined(__GNUC__) # define UV_EXTERN __attribute__((visibility("default"))) -#elif defined(__SUNPRO_C) && (__SUNPRO_C >= 0x550) /* Sun Studio >= 8 */ -# define UV_EXTERN __global #else # define UV_EXTERN /* nothing */ #endif @@ -604,6 +602,11 @@ UV_EXTERN int uv_tcp_nodelay(uv_tcp_t* handle, int enable); UV_EXTERN int uv_tcp_keepalive(uv_tcp_t* handle, int enable, unsigned int delay); +UV_EXTERN int uv_tcp_keepalive_ex(uv_tcp_t* handle, + int on, + unsigned int idle, + unsigned int intvl, + unsigned int cnt); UV_EXTERN int uv_tcp_simultaneous_accepts(uv_tcp_t* handle, int enable); enum uv_tcp_flags { @@ -741,6 +744,9 @@ struct uv_udp_send_s { UV_EXTERN int uv_udp_init(uv_loop_t*, uv_udp_t* handle); UV_EXTERN int uv_udp_init_ex(uv_loop_t*, uv_udp_t* handle, unsigned int flags); UV_EXTERN int uv_udp_open(uv_udp_t* handle, uv_os_sock_t sock); +UV_EXTERN int uv_udp_open_ex(uv_udp_t* handle, + uv_os_sock_t sock, + unsigned int flags); UV_EXTERN int uv_udp_bind(uv_udp_t* handle, const struct sockaddr* addr, unsigned int flags); @@ -1203,7 +1209,7 @@ struct uv_cpu_times_s { }; struct uv_cpu_info_s { - char* model; + const char* model; int speed; struct uv_cpu_times_s cpu_times; }; @@ -1254,7 +1260,8 @@ struct uv_statfs_s { uint64_t f_bavail; uint64_t f_files; uint64_t f_ffree; - uint64_t f_spare[4]; + uint64_t f_frsize; + uint64_t f_spare[3]; }; typedef enum { @@ -1964,7 +1971,6 @@ UV_EXTERN void uv_wtf8_to_utf16(const char* wtf8, size_t utf16_len); /* Don't export the private CPP symbols. */ -#undef UV_HANDLE_TYPE_PRIVATE #undef UV_REQ_TYPE_PRIVATE #undef UV_REQ_PRIVATE_FIELDS #undef UV_STREAM_PRIVATE_FIELDS @@ -1976,12 +1982,10 @@ UV_EXTERN void uv_wtf8_to_utf16(const char* wtf8, #undef UV_TIMER_PRIVATE_FIELDS #undef UV_GETADDRINFO_PRIVATE_FIELDS #undef UV_GETNAMEINFO_PRIVATE_FIELDS -#undef UV_FS_REQ_PRIVATE_FIELDS #undef UV_WORK_PRIVATE_FIELDS #undef UV_FS_EVENT_PRIVATE_FIELDS #undef UV_SIGNAL_PRIVATE_FIELDS #undef UV_LOOP_PRIVATE_FIELDS -#undef UV_LOOP_PRIVATE_PLATFORM_FIELDS #undef UV__ERR #ifdef __cplusplus diff --git a/deps/uv/include/uv/unix.h b/deps/uv/include/uv/unix.h index 7c972026f688e8..c6ba419da98b39 100644 --- a/deps/uv/include/uv/unix.h +++ b/deps/uv/include/uv/unix.h @@ -85,13 +85,10 @@ struct uv__io_s; struct uv_loop_s; -typedef void (*uv__io_cb)(struct uv_loop_s* loop, - struct uv__io_s* w, - unsigned int events); typedef struct uv__io_s uv__io_t; struct uv__io_s { - uv__io_cb cb; + uintptr_t bits; struct uv__queue pending_queue; struct uv__queue watcher_queue; unsigned int pevents; /* Pending event mask i.e. mask at next tick. */ diff --git a/deps/uv/include/uv/version.h b/deps/uv/include/uv/version.h index 77432f259588eb..70f071a478f420 100644 --- a/deps/uv/include/uv/version.h +++ b/deps/uv/include/uv/version.h @@ -31,8 +31,8 @@ */ #define UV_VERSION_MAJOR 1 -#define UV_VERSION_MINOR 51 -#define UV_VERSION_PATCH 0 +#define UV_VERSION_MINOR 52 +#define UV_VERSION_PATCH 1 #define UV_VERSION_IS_RELEASE 1 #define UV_VERSION_SUFFIX "" diff --git a/deps/uv/include/uv/win.h b/deps/uv/include/uv/win.h index a88bf29e9ff504..7b4ebd4b7b2e85 100644 --- a/deps/uv/include/uv/win.h +++ b/deps/uv/include/uv/win.h @@ -279,7 +279,7 @@ typedef struct { DWORD tls_index; } uv_key_t; -#define UV_ONCE_INIT { 0, NULL } +#define UV_ONCE_INIT { 0, { NULL } } typedef struct uv_once_s { unsigned char unused; diff --git a/deps/uv/m4/libuv-check-flags.m4 b/deps/uv/m4/libuv-check-flags.m4 index 2a01308d37a0cb..ed3388b3ef0f2d 100644 --- a/deps/uv/m4/libuv-check-flags.m4 +++ b/deps/uv/m4/libuv-check-flags.m4 @@ -50,6 +50,24 @@ AC_DEFUN([CC_CHECK_CFLAGS_SILENT], [ [$2], [$3]) ]) +dnl Check if the flag is supported by compiler with werror +dnl CC_CHECK_CFLAGS_SILENT_WERROR([FLAG], [ACTION-IF-FOUND],[ACTION-IF-NOT-FOUND]) + +AC_DEFUN([CC_CHECK_CFLAGS_SILENT_WERROR], [ + AC_REQUIRE([CC_CHECK_WERROR]) + AC_CACHE_VAL(AS_TR_SH([cc_cv_cflags_werror_$1]), + [ac_save_CFLAGS="$CFLAGS" + CFLAGS="$CFLAGS $cc_cv_werror $1" + AC_COMPILE_IFELSE([AC_LANG_SOURCE([int a;])], + [eval "AS_TR_SH([cc_cv_cflags_werror_$1])='yes'"], + [eval "AS_TR_SH([cc_cv_cflags_werror_$1])='no'"]) + CFLAGS="$ac_save_CFLAGS" + ]) + + AS_IF([eval test x$]AS_TR_SH([cc_cv_cflags_werror_$1])[ = xyes], + [$2], [$3]) +]) + dnl Check if the flag is supported by compiler (cacheable) dnl CC_CHECK_CFLAGS([FLAG], [ACTION-IF-FOUND],[ACTION-IF-NOT-FOUND]) @@ -67,11 +85,11 @@ dnl CC_CHECK_CFLAG_APPEND(FLAG, [action-if-found], [action-if-not-found]) dnl Check for CFLAG and appends them to AM_CFLAGS if supported AC_DEFUN([CC_CHECK_CFLAG_APPEND], [ AC_CACHE_CHECK([if $CC supports $1 flag], - AS_TR_SH([cc_cv_cflags_$1]), - CC_CHECK_CFLAGS_SILENT([$1]) dnl Don't execute actions here! + AS_TR_SH([cc_cv_cflags_werror_$1]), + CC_CHECK_CFLAGS_SILENT_WERROR([$1]) dnl Don't execute actions here! ) - AS_IF([eval test x$]AS_TR_SH([cc_cv_cflags_$1])[ = xyes], + AS_IF([eval test x$]AS_TR_SH([cc_cv_cflags_werror_$1])[ = xyes], [AM_CFLAGS="$AM_CFLAGS $1"; DEBUG_CFLAGS="$DEBUG_CFLAGS $1"; $2], [$3]) AC_SUBST([AM_CFLAGS]) @@ -268,24 +286,6 @@ AC_DEFUN([CC_ATTRIBUTE_CONST], [ [$1], [$2]) ]) -AC_DEFUN([CC_FLAG_VISIBILITY], [ - AC_REQUIRE([CC_CHECK_WERROR]) - AC_CACHE_CHECK([if $CC supports -fvisibility=hidden], - [cc_cv_flag_visibility], - [cc_flag_visibility_save_CFLAGS="$CFLAGS" - CFLAGS="$CFLAGS $cc_cv_werror" - CC_CHECK_CFLAGS_SILENT([-fvisibility=hidden], - cc_cv_flag_visibility='yes', - cc_cv_flag_visibility='no') - CFLAGS="$cc_flag_visibility_save_CFLAGS"]) - - AS_IF([test "x$cc_cv_flag_visibility" = "xyes"], - [AC_DEFINE([SUPPORT_FLAG_VISIBILITY], 1, - [Define this if the compiler supports the -fvisibility flag]) - $1], - [$2]) -]) - AC_DEFUN([CC_FUNC_EXPECT], [ AC_REQUIRE([CC_CHECK_WERROR]) AC_CACHE_CHECK([if compiler has __builtin_expect function], diff --git a/deps/uv/src/idna.c b/deps/uv/src/idna.c index 5fcaf64c974a8a..4c876df9fd1c30 100644 --- a/deps/uv/src/idna.c +++ b/deps/uv/src/idna.c @@ -394,7 +394,7 @@ void uv_wtf8_to_utf16(const char* source_ptr, /* uv_wtf8_length_as_utf16 should have been called and checked first. */ assert(code_point >= 0); if (code_point > 0xFFFF) { - assert(code_point < 0x10FFFF); + assert(code_point <= 0x10FFFF); *w_target++ = (((code_point - 0x10000) >> 10) + 0xD800); *w_target++ = ((code_point - 0x10000) & 0x3FF) + 0xDC00; w_target_len -= 2; diff --git a/deps/uv/src/inet.c b/deps/uv/src/inet.c index cd77496846e90e..620be5a352e346 100644 --- a/deps/uv/src/inet.c +++ b/deps/uv/src/inet.c @@ -151,19 +151,19 @@ int uv_inet_pton(int af, const char* src, void* dst) { case AF_INET: return (inet_pton4(src, dst)); case AF_INET6: { - int len; - char tmp[UV__INET6_ADDRSTRLEN], *s, *p; - s = (char*) src; + const char *p; p = strchr(src, '%'); if (p != NULL) { - s = tmp; + int len; + char s[UV__INET6_ADDRSTRLEN]; len = p - src; if (len > UV__INET6_ADDRSTRLEN-1) return UV_EINVAL; memcpy(s, src, len); s[len] = '\0'; - } - return inet_pton6(s, dst); + return inet_pton6(s, dst); + } else + return inet_pton6(src, dst); } default: return UV_EAFNOSUPPORT; diff --git a/deps/uv/src/random.c b/deps/uv/src/random.c index 57fc0d911da316..402678cb69b504 100644 --- a/deps/uv/src/random.c +++ b/deps/uv/src/random.c @@ -61,7 +61,7 @@ static int uv__random(void* buf, size_t buflen) { # endif #elif defined(_WIN32) uv__once_init(); - rc = uv__random_rtlgenrandom(buf, buflen); + rc = uv__random_winrandom(buf, buflen); #else rc = uv__random_devurandom(buf, buflen); #endif diff --git a/deps/uv/src/threadpool.c b/deps/uv/src/threadpool.c index 98d81cc7b6a4ed..2a129a5d4a581b 100644 --- a/deps/uv/src/threadpool.c +++ b/deps/uv/src/threadpool.c @@ -194,11 +194,21 @@ void uv__threadpool_cleanup(void) { static void init_threads(void) { uv_thread_options_t config; unsigned int i; + size_t buflen; + char buf[16]; const char* val; + int err; + uv_sem_t sem; nthreads = ARRAY_SIZE(default_threads); - val = getenv("UV_THREADPOOL_SIZE"); + + buflen = ARRAY_SIZE(buf); + err = uv_os_getenv("UV_THREADPOOL_SIZE", buf, &buflen); + val = NULL; + if (err == 0) + val = buf; + if (val != NULL) nthreads = atoi(val); if (nthreads == 0) diff --git a/deps/uv/src/timer.c b/deps/uv/src/timer.c index 4525199ddc18c4..7cfca3b1fc04c9 100644 --- a/deps/uv/src/timer.c +++ b/deps/uv/src/timer.c @@ -22,7 +22,6 @@ #include "uv-common.h" #include "heap-inl.h" -#include #include diff --git a/deps/uv/src/unix/aix.c b/deps/uv/src/unix/aix.c index 48da0c9c40c842..4c0f4adb4c8386 100644 --- a/deps/uv/src/unix/aix.c +++ b/deps/uv/src/unix/aix.c @@ -229,28 +229,12 @@ void uv__io_poll(uv_loop_t* loop, int timeout) { } for (;;) { - /* Only need to set the provider_entry_time if timeout != 0. The function - * will return early if the loop isn't configured with UV_METRICS_IDLE_TIME. - */ - if (timeout != 0) - uv__metrics_set_provider_entry_time(loop); - - /* Store the current timeout in a location that's globally accessible so - * other locations like uv__work_done() can determine whether the queue - * of events in the callback were waiting when poll was called. - */ - lfields->current_timeout = timeout; - + uv__io_poll_prepare(loop, NULL, timeout); nfds = pollset_poll(loop->backend_fd, events, ARRAY_SIZE(events), timeout); - - /* Update loop->time unconditionally. It's tempting to skip the update when - * timeout == 0 (i.e. non-blocking poll) but there is no guarantee that the - * operating system didn't reschedule our process while in the syscall. - */ - SAVE_ERRNO(uv__update_time(loop)); + uv__io_poll_check(loop, NULL); if (nfds == 0) { if (reset_timeout != 0) { @@ -324,7 +308,7 @@ void uv__io_poll(uv_loop_t* loop, int timeout) { have_signals = 1; } else { uv__metrics_update_idle_time(loop); - w->cb(loop, w, pe->revents); + uv__io_cb(loop, w, pe->revents); } nevents++; @@ -339,7 +323,7 @@ void uv__io_poll(uv_loop_t* loop, int timeout) { if (have_signals != 0) { uv__metrics_update_idle_time(loop); - loop->signal_io_watcher.cb(loop, &loop->signal_io_watcher, POLLIN); + uv__signal_event(loop, &loop->signal_io_watcher, POLLIN); } loop->watchers[loop->nwatchers] = NULL; @@ -396,7 +380,7 @@ uint64_t uv_get_total_memory(void) { uint64_t uv_get_constrained_memory(void) { - return 0; /* Memory constraints are unknown. */ + return uv__get_rlimit_max_memory(); } @@ -632,7 +616,7 @@ static int uv__skip_lines(char **p, int n) { while(n > 0) { *p = strchr(*p, '\n'); - if (!p) + if (!*p) return lines; (*p)++; @@ -716,7 +700,7 @@ static int uv__parse_data(char *buf, int *events, uv_fs_event_t* handle) { /* This is the internal callback */ -static void uv__ahafs_event(uv_loop_t* loop, uv__io_t* event_watch, unsigned int fflags) { +void uv__ahafs_event(uv_loop_t* loop, uv__io_t* event_watch, unsigned int fflags) { char result_data[RDWR_BUF_SIZE]; int bytes, rc = 0; uv_fs_event_t* handle; @@ -767,7 +751,11 @@ static void uv__ahafs_event(uv_loop_t* loop, uv__io_t* event_watch, unsigned int handle->cb(handle, fname, events, 0); } -#endif +#else /* !HAVE_SYS_AHAFS_EVPRODS_H */ +void uv__ahafs_event(uv_loop_t* loop, uv__io_t* event_watch, unsigned int fflags) { + /* Stub function to satisfy the linker. */ +} +#endif /* HAVE_SYS_AHAFS_EVPRODS_H */ int uv_fs_event_init(uv_loop_t* loop, uv_fs_event_t* handle) { @@ -828,7 +816,7 @@ int uv_fs_event_start(uv_fs_event_t* handle, /* Setup/Initialize all the libuv routines */ uv__handle_start(handle); - uv__io_init(&handle->event_watcher, uv__ahafs_event, fd); + uv__io_init(&handle->event_watcher, UV__AHAFS_EVENT, fd); handle->path = uv__strdup(filename); handle->cb = cb; handle->dir_filename = NULL; @@ -1288,12 +1276,6 @@ int uv_interface_addresses(uv_interface_address_t** addresses, int* count) { } -void uv_free_interface_addresses(uv_interface_address_t* addresses, - int count) { - uv__free(addresses); -} - - void uv__platform_invalidate_fd(uv_loop_t* loop, int fd) { struct pollfd* events; uintptr_t i; diff --git a/deps/uv/src/unix/async.c b/deps/uv/src/unix/async.c index 538ae7876f2b24..f7995fc35197af 100644 --- a/deps/uv/src/unix/async.c +++ b/deps/uv/src/unix/async.c @@ -157,7 +157,7 @@ void uv__async_close(uv_async_t* handle) { } -static void uv__async_io(uv_loop_t* loop, uv__io_t* w, unsigned int events) { +void uv__async_io(uv_loop_t* loop, uv__io_t* w, unsigned int events) { char buf[1024]; ssize_t r; struct uv__queue queue; @@ -308,7 +308,7 @@ static int uv__async_start(uv_loop_t* loop) { return err; #endif - err = uv__io_init_start(loop, &loop->async_io_watcher, uv__async_io, + err = uv__io_init_start(loop, &loop->async_io_watcher, UV__ASYNC_IO, pipefd[0], POLLIN); if (err < 0) { uv__close(pipefd[0]); @@ -409,10 +409,12 @@ static void uv__cpu_relax(void) { #if defined(__i386__) || defined(__x86_64__) __asm__ __volatile__ ("rep; nop" ::: "memory"); /* a.k.a. PAUSE */ #elif (defined(__arm__) && __ARM_ARCH >= 7) || defined(__aarch64__) - __asm__ __volatile__ ("yield" ::: "memory"); + __asm__ __volatile__ ("isb" ::: "memory"); #elif (defined(__ppc__) || defined(__ppc64__)) && defined(__APPLE__) __asm volatile ("" : : : "memory"); #elif !defined(__APPLE__) && (defined(__powerpc64__) || defined(__ppc64__) || defined(__PPC64__)) __asm__ __volatile__ ("or 1,1,1; or 2,2,2" ::: "memory"); +#elif defined(__riscv) && __riscv_xlen == 64 + __asm__ volatile(".insn 0x0100000f" ::: "memory"); /* FENCE */ #endif } diff --git a/deps/uv/src/unix/bsd-ifaddrs.c b/deps/uv/src/unix/bsd-ifaddrs.c index 8d9ebd25d4306b..6829e2a8573aa6 100644 --- a/deps/uv/src/unix/bsd-ifaddrs.c +++ b/deps/uv/src/unix/bsd-ifaddrs.c @@ -155,10 +155,3 @@ int uv_interface_addresses(uv_interface_address_t** addresses, int* count) { return 0; } - - -/* TODO(bnoordhuis) share with linux.c */ -void uv_free_interface_addresses(uv_interface_address_t* addresses, - int count) { - uv__free(addresses); -} diff --git a/deps/uv/src/unix/bsd-proctitle.c b/deps/uv/src/unix/bsd-proctitle.c index b0c01e2cb855fc..761603995225d2 100644 --- a/deps/uv/src/unix/bsd-proctitle.c +++ b/deps/uv/src/unix/bsd-proctitle.c @@ -29,7 +29,7 @@ static uv_mutex_t process_title_mutex; static uv_once_t process_title_mutex_once = UV_ONCE_INIT; static char* process_title; - +char* uv_saved_argv0; static void init_process_title_mutex_once(void) { if (uv_mutex_init(&process_title_mutex)) @@ -45,6 +45,7 @@ void uv__process_title_cleanup(void) { char** uv_setup_args(int argc, char** argv) { process_title = argc > 0 ? uv__strdup(argv[0]) : NULL; + uv_saved_argv0 = argc > 0 ? uv__strdup(argv[0]) : NULL; return argv; } diff --git a/deps/uv/src/unix/core.c b/deps/uv/src/unix/core.c index bd51b69b8120e8..73027cbc52ab0f 100644 --- a/deps/uv/src/unix/core.c +++ b/deps/uv/src/unix/core.c @@ -275,7 +275,7 @@ void uv__make_close_pending(uv_handle_t* handle) { int uv__getiovmax(void) { #if defined(IOV_MAX) return IOV_MAX; -#elif defined(_SC_IOV_MAX) +#elif defined(_SC_IOV_MAX) && !defined(__QNX__) static _Atomic int iovmax_cached = -1; int iovmax; @@ -851,7 +851,7 @@ static void uv__run_pending(uv_loop_t* loop) { uv__queue_remove(q); uv__queue_init(q); w = uv__queue_data(q, uv__io_t, pending_queue); - w->cb(loop, w, POLLOUT); + uv__io_cb(loop, w, POLLOUT); } } @@ -903,20 +903,58 @@ static int maybe_resize(uv_loop_t* loop, unsigned int len) { } -void uv__io_init(uv__io_t* w, uv__io_cb cb, int fd) { +void uv__io_cb(uv_loop_t* loop, uv__io_t* w, unsigned int events) { + switch (uv__io_cb_get(w)) { + case UV__AHAFS_EVENT: + uv__ahafs_event(loop, w, events); + break; + case UV__ASYNC_IO: + uv__async_io(loop, w, events); + break; + case UV__FS_EVENT: + uv__fs_event(loop, w, events); + break; + case UV__FS_EVENT_READ: + uv__fs_event_read(loop, w, events); + break; + case UV__INOTIFY_READ: + uv__inotify_read(loop, w, events); + break; + case UV__POLL_IO: + uv__poll_io(loop, w, events); + break; + case UV__SERVER_IO: + uv__server_io(loop, w, events); + break; + case UV__STREAM_IO: + uv__stream_io(loop, w, events); + break; + case UV__UDP_IO: + uv__udp_io(loop, w, events); + break; + default: + UNREACHABLE(); + } +} + + +void uv__io_init(uv__io_t* w, uv__io_cb_t cb, int fd) { assert(fd >= -1); uv__queue_init(&w->pending_queue); uv__queue_init(&w->watcher_queue); - w->cb = cb; w->fd = fd; + w->bits = 0; w->events = 0; w->pevents = 0; + uv__io_cb_set(w, cb); } int uv__io_start(uv_loop_t* loop, uv__io_t* w, unsigned int events) { int err; + assert(uv__io_cb_get(w) >= UV__AHAFS_EVENT); + assert(uv__io_cb_get(w) <= UV__UDP_IO); assert(0 == (events & ~(POLLIN | POLLOUT | UV__POLLRDHUP | UV__POLLPRI))); assert(0 != events); assert(w->fd >= 0); @@ -950,17 +988,16 @@ int uv__io_start(uv_loop_t* loop, uv__io_t* w, unsigned int events) { int uv__io_init_start(uv_loop_t* loop, uv__io_t* w, - uv__io_cb cb, + uv__io_cb_t cb, int fd, unsigned int events) { int err; - assert(cb != NULL); assert(fd > -1); uv__io_init(w, cb, fd); err = uv__io_start(loop, w, events); if (err) - uv__io_init(w, NULL, -1); + uv__io_init(w, UV__NO_IO_CB, -1); return err; } @@ -1019,6 +1056,39 @@ int uv__io_active(const uv__io_t* w, unsigned int events) { } +void uv__io_poll_prepare(uv_loop_t* loop, sigset_t* pset, int timeout) { + uv__loop_internal_fields_t* lfields; + + /* Only need to set the provider_entry_time if timeout != 0. The function + * will return early if the loop isn't configured with UV_METRICS_IDLE_TIME. + */ + if (timeout != 0) + uv__metrics_set_provider_entry_time(loop); + + /* Store the current timeout in a location that's globally accessible so + * other locations like uv__work_done() can determine whether the queue + * of events in the callback were waiting when poll was called. + */ + lfields = uv__get_internal_fields(loop); + lfields->current_timeout = timeout; + + if (pset != NULL) + if (pthread_sigmask(SIG_BLOCK, pset, NULL)) + abort(); +} + +void uv__io_poll_check(uv_loop_t* loop, sigset_t* pset) { + if (pset != NULL) + if (pthread_sigmask(SIG_UNBLOCK, pset, NULL)) + abort(); + + /* Update loop->time unconditionally. It's tempting to skip the update when + * timeout == 0 (i.e. non-blocking poll) but there is no guarantee that the + * operating system didn't reschedule our process while in the syscall. + */ + SAVE_ERRNO(uv__update_time(loop)); +} + int uv__fd_exists(uv_loop_t* loop, int fd) { return (unsigned) fd < loop->nwatchers && loop->watchers[fd] != NULL; } @@ -1496,7 +1566,7 @@ int uv_os_environ(uv_env_item_t** envitems, int* count) { fail: for (i = 0; i < cnt; i++) { - envitem = &(*envitems)[cnt]; + envitem = &(*envitems)[i]; uv__free(envitem->name); } uv__free(*envitems); @@ -1611,6 +1681,10 @@ int uv_cpumask_size(void) { } int uv_os_getpriority(uv_pid_t pid, int* priority) { +#if defined(__QNX__) + /* QNX priority is not process-based */ + return UV_ENOSYS; +#else int r; if (priority == NULL) @@ -1624,10 +1698,15 @@ int uv_os_getpriority(uv_pid_t pid, int* priority) { *priority = r; return 0; +#endif } int uv_os_setpriority(uv_pid_t pid, int priority) { +#if defined(__QNX__) + /* QNX priority is not process-based */ + return UV_ENOSYS; +#else if (priority < UV_PRIORITY_HIGHEST || priority > UV_PRIORITY_LOW) return UV_EINVAL; @@ -1635,6 +1714,7 @@ int uv_os_setpriority(uv_pid_t pid, int priority) { return UV__ERR(errno); return 0; +#endif } /** @@ -1656,7 +1736,7 @@ int uv_thread_getpriority(uv_thread_t tid, int* priority) { r = pthread_getschedparam(tid, &policy, ¶m); if (r != 0) - return UV__ERR(errno); + return UV__ERR(r); #ifdef __linux__ if (SCHED_OTHER == policy && pthread_equal(tid, pthread_self())) { @@ -1709,7 +1789,7 @@ int uv_thread_setpriority(uv_thread_t tid, int priority) { r = pthread_getschedparam(tid, &policy, ¶m); if (r != 0) - return UV__ERR(errno); + return UV__ERR(r); #ifdef __linux__ /** @@ -1757,7 +1837,7 @@ int uv_thread_setpriority(uv_thread_t tid, int priority) { param.sched_priority = prio; r = pthread_setschedparam(tid, policy, ¶m); if (r != 0) - return UV__ERR(errno); + return UV__ERR(r); } return 0; @@ -1998,8 +2078,8 @@ unsigned int uv_available_parallelism(void) { #elif defined(__NetBSD__) cpuset_t* set = cpuset_create(); if (set != NULL) { - if (0 == sched_getaffinity_np(getpid(), sizeof(set), &set)) - rc = uv__cpu_count(&set); + if (0 == sched_getaffinity_np(getpid(), cpuset_size(set), set)) + rc = uv__cpu_count(set); cpuset_destroy(set); } #elif defined(__APPLE__) @@ -2102,3 +2182,27 @@ int uv__sock_reuseport(int fd) { return 0; } + +/* Check if rlimit has any expressed restrictions on usable memory. */ +uint64_t uv__get_rlimit_max_memory(void) { + struct rlimit rl; + uint64_t result = 0; + uint64_t rlimit_value; + +#if defined(RLIMIT_AS) + if (getrlimit(RLIMIT_AS, &rl) == 0 && rl.rlim_cur != RLIM_INFINITY) { + rlimit_value = rl.rlim_cur; + result = rlimit_value; + } +#endif + +#if defined(RLIMIT_DATA) + if (getrlimit(RLIMIT_DATA, &rl) == 0 && rl.rlim_cur != RLIM_INFINITY) { + rlimit_value = rl.rlim_cur; + if (result == 0 || rlimit_value < result) + result = rlimit_value; + } +#endif + + return result; +} diff --git a/deps/uv/src/unix/cygwin.c b/deps/uv/src/unix/cygwin.c index 4913108223f4da..29861ce8beb615 100644 --- a/deps/uv/src/unix/cygwin.c +++ b/deps/uv/src/unix/cygwin.c @@ -85,7 +85,7 @@ int uv_cpu_info(uv_cpu_info_t** cpu_infos, int* count) { } uint64_t uv_get_constrained_memory(void) { - return 0; /* Memory constraints are unknown. */ + return uv__get_rlimit_max_memory(); } uint64_t uv_get_available_memory(void) { diff --git a/deps/uv/src/unix/darwin.c b/deps/uv/src/unix/darwin.c index 009efbefaa70ee..c26a1faccbcc4b 100644 --- a/deps/uv/src/unix/darwin.c +++ b/deps/uv/src/unix/darwin.c @@ -121,12 +121,20 @@ uint64_t uv_get_total_memory(void) { uint64_t uv_get_constrained_memory(void) { - return 0; /* Memory constraints are unknown. */ + return uv__get_rlimit_max_memory(); } uint64_t uv_get_available_memory(void) { - return uv_get_free_memory(); + vm_statistics_data_t info; + mach_msg_type_number_t count = sizeof(info) / sizeof(integer_t); + + if (host_statistics(mach_host_self(), HOST_VM_INFO, + (host_info_t)&info, &count) != KERN_SUCCESS) { + return 0; + } + + return ((uint64_t) info.free_count + (uint64_t) info.inactive_count + (uint64_t) info.purgeable_count) * sysconf(_SC_PAGESIZE); } diff --git a/deps/uv/src/unix/freebsd.c b/deps/uv/src/unix/freebsd.c index a6de29c558cde4..d7ac94b0c2366b 100644 --- a/deps/uv/src/unix/freebsd.c +++ b/deps/uv/src/unix/freebsd.c @@ -117,7 +117,7 @@ uint64_t uv_get_total_memory(void) { uint64_t uv_get_constrained_memory(void) { - return 0; /* Memory constraints are unknown. */ + return uv__get_rlimit_max_memory(); } diff --git a/deps/uv/src/unix/fs.c b/deps/uv/src/unix/fs.c index 717f3fab36939e..90cb40d98d47ab 100644 --- a/deps/uv/src/unix/fs.c +++ b/deps/uv/src/unix/fs.c @@ -211,7 +211,8 @@ static ssize_t uv__fs_fdatasync(uv_fs_t* req) { || defined(__NetBSD__) \ || defined(__OpenBSD__) \ || defined(__linux__) \ - || defined(__sun) + || defined(__sun) \ + || defined(__QNX__) static struct timespec uv__fs_to_timespec(double time) { struct timespec ts; @@ -223,13 +224,6 @@ static struct timespec uv__fs_to_timespec(double time) { ts.tv_sec = time; ts.tv_nsec = (time - ts.tv_sec) * 1e9; - /* TODO(bnoordhuis) Remove this. utimesat() has nanosecond resolution but we - * stick to microsecond resolution for the sake of consistency with other - * platforms. I'm the original author of this compatibility hack but I'm - * less convinced it's useful nowadays. - */ - ts.tv_nsec -= ts.tv_nsec % 1000; - if (ts.tv_nsec < 0) { ts.tv_nsec += 1e9; ts.tv_sec -= 1; @@ -248,7 +242,8 @@ static ssize_t uv__fs_futime(uv_fs_t* req) { || defined(__NetBSD__) \ || defined(__OpenBSD__) \ || defined(__linux__) \ - || defined(__sun) + || defined(__sun) \ + || defined(__QNX__) struct timespec ts[2]; ts[0] = uv__fs_to_timespec(req->atime); ts[1] = uv__fs_to_timespec(req->mtime); @@ -465,27 +460,28 @@ static ssize_t uv__preadv_or_pwritev(int fd, off_t off, _Atomic uintptr_t* cache, int is_pread) { - ssize_t (*f)(int, const struct iovec*, uv__iovcnt, off_t); - void* p; + union { + ssize_t (*f)(int, const struct iovec*, uv__iovcnt, off_t); + void* p; + } u; - p = (void*) atomic_load_explicit(cache, memory_order_relaxed); - if (p == NULL) { + u.p = (void*) atomic_load_explicit(cache, memory_order_relaxed); + if (u.p == NULL) { #ifdef RTLD_DEFAULT /* Try _LARGEFILE_SOURCE version of preadv/pwritev first, * then fall back to the plain version, for libcs like musl. */ - p = dlsym(RTLD_DEFAULT, is_pread ? "preadv64" : "pwritev64"); - if (p == NULL) - p = dlsym(RTLD_DEFAULT, is_pread ? "preadv" : "pwritev"); + u.p = dlsym(RTLD_DEFAULT, is_pread ? "preadv64" : "pwritev64"); + if (u.p == NULL) + u.p = dlsym(RTLD_DEFAULT, is_pread ? "preadv" : "pwritev"); dlerror(); /* Clear errors. */ #endif /* RTLD_DEFAULT */ - if (p == NULL) - p = is_pread ? uv__preadv_emul : uv__pwritev_emul; - atomic_store_explicit(cache, (uintptr_t) p, memory_order_relaxed); + if (u.p == NULL) + u.f = is_pread ? uv__preadv_emul : uv__pwritev_emul; + atomic_store_explicit(cache, (uintptr_t) u.p, memory_order_relaxed); } - f = p; - return f(fd, bufs, nbufs, off); + return u.f(fd, bufs, nbufs, off); } @@ -716,6 +712,11 @@ static int uv__fs_statfs(uv_fs_t* req) { stat_fs->f_bavail = buf.f_bavail; stat_fs->f_files = buf.f_files; stat_fs->f_ffree = buf.f_ffree; +#if defined(__linux__) + stat_fs->f_frsize = buf.f_frsize; +#else + stat_fs->f_frsize = buf.f_bsize; +#endif req->ptr = stat_fs; return 0; } @@ -1147,7 +1148,8 @@ static ssize_t uv__fs_utime(uv_fs_t* req) { || defined(__NetBSD__) \ || defined(__OpenBSD__) \ || defined(__linux__) \ - || defined(__sun) + || defined(__sun) \ + || defined(__QNX__) struct timespec ts[2]; ts[0] = uv__fs_to_timespec(req->atime); ts[1] = uv__fs_to_timespec(req->mtime); @@ -1181,7 +1183,8 @@ static ssize_t uv__fs_lutime(uv_fs_t* req) { || defined(__NetBSD__) \ || defined(__OpenBSD__) \ || defined(__linux__) \ - || defined(__sun) + || defined(__sun) \ + || defined(__QNX__) struct timespec ts[2]; ts[0] = uv__fs_to_timespec(req->atime); ts[1] = uv__fs_to_timespec(req->mtime); @@ -1322,10 +1325,7 @@ static ssize_t uv__fs_copyfile(uv_fs_t* req) { times[1] = src_statsbuf.st_mtim; #endif - if (futimens(dstfd, times) == -1) { - err = UV__ERR(errno); - goto out; - } + (void) futimens(dstfd, times); /* * Change the ownership and permissions of the destination file to match the diff --git a/deps/uv/src/unix/getaddrinfo.c b/deps/uv/src/unix/getaddrinfo.c index b7075343666590..5d90c7a59b74cd 100644 --- a/deps/uv/src/unix/getaddrinfo.c +++ b/deps/uv/src/unix/getaddrinfo.c @@ -89,9 +89,7 @@ int uv__getaddrinfo_translate_error(int sys_err) { } assert(!"unknown EAI_* error code"); abort(); -#ifndef __SUNPRO_C return 0; /* Pacify compiler. */ -#endif } @@ -109,7 +107,9 @@ static void uv__getaddrinfo_done(struct uv__work* w, int status) { uv_getaddrinfo_t* req; req = container_of(w, uv_getaddrinfo_t, work_req); - uv__req_unregister(req->loop); + + if (req->loop != NULL) + uv__req_unregister(req->loop); /* See initialization in uv_getaddrinfo(). */ if (req->hints) @@ -151,6 +151,8 @@ int uv_getaddrinfo(uv_loop_t* loop, if (req == NULL || (hostname == NULL && service == NULL)) return UV_EINVAL; + if (loop == NULL && cb != NULL) + return UV_EINVAL; /* FIXME(bnoordhuis) IDNA does not seem to work z/OS, * probably because it uses EBCDIC rather than ASCII. @@ -177,7 +179,10 @@ int uv_getaddrinfo(uv_loop_t* loop, if (buf == NULL) return UV_ENOMEM; - uv__req_init(loop, req, UV_GETADDRINFO); + UV_REQ_INIT(req, UV_GETADDRINFO); + if (loop != NULL) + uv__req_register(loop); + req->loop = loop; req->cb = cb; req->addrinfo = NULL; diff --git a/deps/uv/src/unix/haiku.c b/deps/uv/src/unix/haiku.c index 0d3645f014b4eb..22c165916a5bd4 100644 --- a/deps/uv/src/unix/haiku.c +++ b/deps/uv/src/unix/haiku.c @@ -80,7 +80,7 @@ uint64_t uv_get_total_memory(void) { uint64_t uv_get_constrained_memory(void) { - return 0; /* Memory constraints are unknown. */ + return uv__get_rlimit_max_memory(); } diff --git a/deps/uv/src/unix/hurd.c b/deps/uv/src/unix/hurd.c index 63c878123f13ac..99f4f2ae48e6f5 100644 --- a/deps/uv/src/unix/hurd.c +++ b/deps/uv/src/unix/hurd.c @@ -163,7 +163,7 @@ int uv_cpu_info(uv_cpu_info_t** cpu_infos, int* count) { } uint64_t uv_get_constrained_memory(void) { - return 0; /* Memory constraints are unknown. */ + return uv__get_rlimit_max_memory(); } diff --git a/deps/uv/src/unix/ibmi.c b/deps/uv/src/unix/ibmi.c index 9d94d2af54468a..a534dfc5636372 100644 --- a/deps/uv/src/unix/ibmi.c +++ b/deps/uv/src/unix/ibmi.c @@ -245,7 +245,7 @@ uint64_t uv_get_total_memory(void) { uint64_t uv_get_constrained_memory(void) { - return 0; /* Memory constraints are unknown. */ + return uv__get_rlimit_max_memory(); } @@ -505,11 +505,6 @@ int uv_interface_addresses(uv_interface_address_t** addresses, int* count) { } -void uv_free_interface_addresses(uv_interface_address_t* addresses, - int count) { - uv__free(addresses); -} - char** uv_setup_args(int argc, char** argv) { char exepath[UV__PATH_MAX]; char* s; @@ -543,3 +538,9 @@ int uv_get_process_title(char* buffer, size_t size) { void uv__process_title_cleanup(void) { } + +void uv__ahafs_event(uv_loop_t* loop, + uv__io_t* event_watch, + unsigned int fflags) { + /* Stub function to satisfy the linker. */ +} diff --git a/deps/uv/src/unix/internal.h b/deps/uv/src/unix/internal.h index a1d7d4366308ac..80fe41f8ef6236 100644 --- a/deps/uv/src/unix/internal.h +++ b/deps/uv/src/unix/internal.h @@ -141,6 +141,11 @@ union uv__sockaddr { /* Leans on the fact that, on Linux, POLLRDHUP == EPOLLRDHUP. */ #ifdef POLLRDHUP # define UV__POLLRDHUP POLLRDHUP +#elif defined(__QNX__) +/* On QNX, POLLRDHUP is not available and the 0x2000 workaround + * leads to undefined bahavior. + */ +# define UV__POLLRDHUP 0 #else # define UV__POLLRDHUP 0x2000 #endif @@ -256,11 +261,64 @@ ssize_t uv__recvmsg(int fd, struct msghdr *msg, int flags); void uv__make_close_pending(uv_handle_t* handle); int uv__getiovmax(void); -void uv__io_init(uv__io_t* w, uv__io_cb cb, int fd); +typedef enum { + UV__NO_IO_CB, + UV__AHAFS_EVENT, + UV__ASYNC_IO, + UV__FS_EVENT, + UV__FS_EVENT_READ, + UV__INOTIFY_READ, + UV__POLL_IO, + UV__SIGNAL_EVENT, + UV__SERVER_IO, + UV__STREAM_IO, + UV__UDP_IO, +} uv__io_cb_t; + +#define uv__io_cb_get(w) ((uv__io_cb_t)((w)->bits & 15)) +#define uv__io_cb_set(w, cb) \ + do { \ + (w)->bits -= uv__io_cb_get(w); \ + (w)->bits |= (cb) & 15; \ + } while (0) + +void uv__ahafs_event(uv_loop_t* loop, uv__io_t* w, unsigned int events); +void uv__async_io(uv_loop_t* loop, uv__io_t* w, unsigned int events); +void uv__fs_event(uv_loop_t* loop, uv__io_t* w, unsigned int events); +void uv__fs_event_read(uv_loop_t* loop, uv__io_t* w, unsigned int events); +void uv__inotify_read(uv_loop_t* loop, uv__io_t* w, unsigned int events); +void uv__poll_io(uv_loop_t* loop, uv__io_t* w, unsigned int events); +void uv__signal_event(uv_loop_t* loop, uv__io_t* w, unsigned int events); +void uv__server_io(uv_loop_t* loop, uv__io_t* w, unsigned int events); +void uv__stream_io(uv_loop_t* loop, uv__io_t* w, unsigned int events); +void uv__udp_io(uv_loop_t* loop, uv__io_t* w, unsigned int events); + +#ifndef _AIX +#define uv__ahafs_event(loop, w, events) UNREACHABLE() +#endif + +#if !defined(__APPLE__) && \ + !defined(__DragonFly__) && \ + !defined(__FreeBSD__) && \ + !defined(__NetBSD__) && \ + !defined(__OpenBSD__) +#define uv__fs_event(loop, w, events) UNREACHABLE() +#endif + +#ifndef __linux__ +#define uv__inotify_read(loop, w, events) UNREACHABLE() +#endif + +#ifndef __sun__ +#define uv__fs_event_read(loop, w, events) UNREACHABLE() +#endif + +void uv__io_cb(uv_loop_t* loop, uv__io_t* w, unsigned int events); +void uv__io_init(uv__io_t* w, uv__io_cb_t cb, int fd); int uv__io_start(uv_loop_t* loop, uv__io_t* w, unsigned int events); int uv__io_init_start(uv_loop_t* loop, uv__io_t* w, - uv__io_cb cb, + uv__io_cb_t cb, int fd, unsigned int events); void uv__io_stop(uv_loop_t* loop, uv__io_t* w, unsigned int events); @@ -270,6 +328,8 @@ int uv__io_active(const uv__io_t* w, unsigned int events); int uv__io_check_fd(uv_loop_t* loop, int fd); void uv__io_poll(uv_loop_t* loop, int timeout); /* in milliseconds or -1 */ int uv__io_fork(uv_loop_t* loop); +void uv__io_poll_prepare(uv_loop_t* loop, sigset_t* pset, int timeout); +void uv__io_poll_check(uv_loop_t* loop, sigset_t* pset); int uv__fd_exists(uv_loop_t* loop, int fd); /* async */ @@ -299,7 +359,11 @@ int uv__slurp(const char* filename, char* buf, size_t len); /* tcp */ int uv__tcp_listen(uv_tcp_t* tcp, int backlog, uv_connection_cb cb); int uv__tcp_nodelay(int fd, int on); -int uv__tcp_keepalive(int fd, int on, unsigned int delay); +int uv__tcp_keepalive(int fd, + int on, + unsigned int idle, + unsigned int intvl, + unsigned int cnt); /* tty */ void uv__tty_close(uv_tty_t* handle); @@ -315,6 +379,7 @@ int uv__signal_loop_fork(uv_loop_t* loop); /* platform specific */ uint64_t uv__hrtime(uv_clocktype_t type); +uint64_t uv__get_rlimit_max_memory(void); int uv__kqueue_init(uv_loop_t* loop); int uv__platform_loop_init(uv_loop_t* loop); void uv__platform_loop_delete(uv_loop_t* loop); @@ -405,12 +470,12 @@ UV_UNUSED(static void uv__update_time(uv_loop_t* loop)) { loop->time = uv__hrtime(UV_CLOCK_FAST) / 1000000; } -UV_UNUSED(static char* uv__basename_r(const char* path)) { - char* s; +UV_UNUSED(static const char* uv__basename_r(const char* path)) { + const char* s; s = strrchr(path, '/'); if (s == NULL) - return (char*) path; + return path; return s + 1; } @@ -527,4 +592,6 @@ int uv__get_constrained_cpu(long long* quota); #define UV__KQUEUE_EVFILT_USER 0 #endif +extern char* uv_saved_argv0; + #endif /* UV_UNIX_INTERNAL_H_ */ diff --git a/deps/uv/src/unix/kqueue.c b/deps/uv/src/unix/kqueue.c index 39b72012c26955..27d28814363371 100644 --- a/deps/uv/src/unix/kqueue.c +++ b/deps/uv/src/unix/kqueue.c @@ -48,8 +48,6 @@ #define EV_OOBAND EV_FLAG1 #endif -static void uv__fs_event(uv_loop_t* loop, uv__io_t* w, unsigned int fflags); - int uv__kqueue_init(uv_loop_t* loop) { loop->backend_fd = kqueue(); @@ -204,7 +202,7 @@ void uv__io_poll(uv_loop_t* loop, int timeout) { fflags = 0; op = EV_ADD; - if (w->cb == uv__fs_event) { + if (UV__FS_EVENT == uv__io_cb_get(w)) { filter = EVFILT_VNODE; fflags = NOTE_ATTRIB | NOTE_WRITE | NOTE_RENAME | NOTE_DELETE | NOTE_EXTEND | NOTE_REVOKE; @@ -263,32 +261,19 @@ void uv__io_poll(uv_loop_t* loop, int timeout) { } for (;; nevents = 0) { - /* Only need to set the provider_entry_time if timeout != 0. The function - * will return early if the loop isn't configured with UV_METRICS_IDLE_TIME. - */ - if (timeout != 0) - uv__metrics_set_provider_entry_time(loop); - if (timeout != -1) { spec.tv_sec = timeout / 1000; spec.tv_nsec = (timeout % 1000) * 1000000; } - if (pset != NULL) - pthread_sigmask(SIG_BLOCK, pset, NULL); - - /* Store the current timeout in a location that's globally accessible so - * other locations like uv__work_done() can determine whether the queue - * of events in the callback were waiting when poll was called. - */ - lfields->current_timeout = timeout; - + uv__io_poll_prepare(loop, pset, timeout); nfds = kevent(loop->backend_fd, events, nevents, events, ARRAY_SIZE(events), timeout == -1 ? NULL : &spec); + uv__io_poll_check(loop, pset); if (nfds == -1) assert(errno == EINTR); @@ -296,15 +281,6 @@ void uv__io_poll(uv_loop_t* loop, int timeout) { /* Unlimited timeout should only return with events or signal. */ assert(timeout != -1); - if (pset != NULL) - pthread_sigmask(SIG_UNBLOCK, pset, NULL); - - /* Update loop->time unconditionally. It's tempting to skip the update when - * timeout == 0 (i.e. non-blocking poll) but there is no guarantee that the - * operating system didn't reschedule our process while in the syscall. - */ - uv__update_time(loop); - if (nfds == 0 || nfds == -1) { /* If kqueue is empty or interrupted, we might still have children ready * to reap immediately. */ @@ -366,7 +342,7 @@ void uv__io_poll(uv_loop_t* loop, int timeout) { w = &loop->async_io_watcher; assert(fd == w->fd); uv__metrics_update_idle_time(loop); - w->cb(loop, w, w->events); + uv__io_cb(loop, w, w->events); nevents++; continue; } @@ -376,7 +352,7 @@ void uv__io_poll(uv_loop_t* loop, int timeout) { assert(w->events == POLLIN); assert(w->pevents == POLLIN); uv__metrics_update_idle_time(loop); - w->cb(loop, w, ev->fflags); /* XXX always uv__fs_event() */ + uv__io_cb(loop, w, ev->fflags); /* XXX always uv__fs_event() */ nevents++; continue; } @@ -420,7 +396,7 @@ void uv__io_poll(uv_loop_t* loop, int timeout) { have_signals = 1; } else { uv__metrics_update_idle_time(loop); - w->cb(loop, w, revents); + uv__io_cb(loop, w, revents); } nevents++; @@ -440,7 +416,7 @@ void uv__io_poll(uv_loop_t* loop, int timeout) { if (have_signals != 0) { uv__metrics_update_idle_time(loop); - loop->signal_io_watcher.cb(loop, &loop->signal_io_watcher, POLLIN); + uv__signal_event(loop, &loop->signal_io_watcher, POLLIN); } loop->watchers[loop->nwatchers] = NULL; @@ -496,7 +472,7 @@ void uv__platform_invalidate_fd(uv_loop_t* loop, int fd) { } -static void uv__fs_event(uv_loop_t* loop, uv__io_t* w, unsigned int fflags) { +void uv__fs_event(uv_loop_t* loop, uv__io_t* w, unsigned int fflags) { uv_fs_event_t* handle; struct kevent ev; int events; @@ -622,7 +598,7 @@ int uv_fs_event_start(uv_fs_event_t* handle, r = uv__io_init_start(handle->loop, &handle->event_watcher, - uv__fs_event, + UV__FS_EVENT, fd, POLLIN); diff --git a/deps/uv/src/unix/linux.c b/deps/uv/src/unix/linux.c index ea3e2de0384b2c..110964884ddc04 100644 --- a/deps/uv/src/unix/linux.c +++ b/deps/uv/src/unix/linux.c @@ -267,9 +267,6 @@ struct watcher_root { }; static int uv__inotify_fork(uv_loop_t* loop, struct watcher_list* root); -static void uv__inotify_read(uv_loop_t* loop, - uv__io_t* w, - unsigned int revents); static int compare_watchers(const struct watcher_list* a, const struct watcher_list* b); static void maybe_free_watcher_list(struct watcher_list* w, @@ -878,7 +875,7 @@ int uv__iou_fs_ftruncate(uv_loop_t* loop, uv_fs_t* req) { return 0; sqe->fd = req->file; - sqe->len = req->off; + sqe->off = req->off; sqe->opcode = UV__IORING_OP_FTRUNCATE; uv__iou_submit(iou); @@ -1450,25 +1447,9 @@ void uv__io_poll(uv_loop_t* loop, int timeout) { while (*ctl->sqhead != *ctl->sqtail) uv__epoll_ctl_flush(epollfd, ctl, &prep); - /* Only need to set the provider_entry_time if timeout != 0. The function - * will return early if the loop isn't configured with UV_METRICS_IDLE_TIME. - */ - if (timeout != 0) - uv__metrics_set_provider_entry_time(loop); - - /* Store the current timeout in a location that's globally accessible so - * other locations like uv__work_done() can determine whether the queue - * of events in the callback were waiting when poll was called. - */ - lfields->current_timeout = timeout; - + uv__io_poll_prepare(loop, NULL, timeout); nfds = epoll_pwait(epollfd, events, ARRAY_SIZE(events), timeout, sigmask); - - /* Update loop->time unconditionally. It's tempting to skip the update when - * timeout == 0 (i.e. non-blocking poll) but there is no guarantee that the - * operating system didn't reschedule our process while in the syscall. - */ - SAVE_ERRNO(uv__update_time(loop)); + uv__io_poll_check(loop, NULL); if (nfds == -1) assert(errno == EINTR); @@ -1562,7 +1543,7 @@ void uv__io_poll(uv_loop_t* loop, int timeout) { have_signals = 1; } else { uv__metrics_update_idle_time(loop); - w->cb(loop, w, pe->events); + uv__io_cb(loop, w, pe->events); } nevents++; @@ -1578,7 +1559,7 @@ void uv__io_poll(uv_loop_t* loop, int timeout) { if (have_signals != 0) { uv__metrics_update_idle_time(loop); - loop->signal_io_watcher.cb(loop, &loop->signal_io_watcher, POLLIN); + uv__signal_event(loop, &loop->signal_io_watcher, POLLIN); } lfields->inv = NULL; @@ -1750,7 +1731,7 @@ int uv_cpu_info(uv_cpu_info_t** ci, int* count) { "0xd0b\nCortex-A76\n" "0xd0c\nNeoverse-N1\n" "0xd0d\nCortex-A77\n" "0xd0e\nCortex-A76AE\n" "0xd13\nCortex-R52\n" "0xd20\nCortex-M23\n" "0xd21\nCortex-M33\n" "0xd41\nCortex-A78\n" "0xd42\nCortex-A78AE\n" - "0xd4a\nNeoverse-E1\n" "0xd4b\nCortex-A78C\n" + "0xd4a\nNeoverse-E1\n" "0xd4b\nCortex-A78C\n" "0xd4f\nNeoverse-V2\n" #endif ""; struct cpu { @@ -1758,7 +1739,7 @@ int uv_cpu_info(uv_cpu_info_t** ci, int* count) { unsigned model; }; FILE* fp; - char* p; + const char* p; int found; int n; unsigned i; @@ -2045,13 +2026,6 @@ int uv_interface_addresses(uv_interface_address_t** addresses, int* count) { } -/* TODO(bnoordhuis) share with bsd-ifaddrs.c */ -void uv_free_interface_addresses(uv_interface_address_t* addresses, - int count) { - uv__free(addresses); -} - - void uv__set_process_title(const char* title) { #if defined(PR_SET_NAME) prctl(PR_SET_NAME, title); /* Only copies first 16 characters. */ @@ -2227,11 +2201,20 @@ static uint64_t uv__get_cgroup_constrained_memory(char buf[static 1024]) { uint64_t uv_get_constrained_memory(void) { char buf[1024]; + uint64_t cgroup_limit; + uint64_t rlimit_limit; - if (uv__slurp("/proc/self/cgroup", buf, sizeof(buf))) - return 0; + cgroup_limit = 0; + if (uv__slurp("/proc/self/cgroup", buf, sizeof(buf)) == 0) + cgroup_limit = uv__get_cgroup_constrained_memory(buf); + rlimit_limit = uv__get_rlimit_max_memory(); - return uv__get_cgroup_constrained_memory(buf); + /* Return the minimum of cgroup and rlimit constraints. */ + if (cgroup_limit == 0) + return rlimit_limit; + if (rlimit_limit == 0) + return cgroup_limit; + return cgroup_limit < rlimit_limit ? cgroup_limit : rlimit_limit; } @@ -2309,8 +2292,8 @@ static int uv__get_cgroupv2_constrained_cpu(const char* cgroup, static const char cgroup_mount[] = "/sys/fs/cgroup"; const char* cgroup_trimmed; char buf[1024]; - char full_path[256]; char path[256]; + char full_path[sizeof(path) + sizeof("/cpu.max")]; char quota_buf[16]; char* last_slash; int cgroup_size; @@ -2370,6 +2353,8 @@ static int uv__get_cgroupv2_constrained_cpu(const char* cgroup, goto next; *quota = limit / period; + if (*quota == 0) + *quota = 1; if (*quota < min_quota) min_quota = *quota; @@ -2386,10 +2371,10 @@ static int uv__get_cgroupv2_constrained_cpu(const char* cgroup, return 0; } -static char* uv__cgroup1_find_cpu_controller(const char* cgroup, +static const char* uv__cgroup1_find_cpu_controller(const char* cgroup, int* cgroup_size) { /* Seek to the cpu controller line. */ - char* cgroup_cpu = strstr(cgroup, ":cpu,"); + const char* cgroup_cpu = strstr(cgroup, ":cpu,"); if (cgroup_cpu != NULL) { /* Skip the controller prefix to the start of the cgroup path. */ @@ -2406,7 +2391,7 @@ static int uv__get_cgroupv1_constrained_cpu(const char* cgroup, char path[256]; char buf[1024]; int cgroup_size; - char* cgroup_cpu; + const char* cgroup_cpu; long long period_length; long long quota_per_period; @@ -2499,7 +2484,7 @@ static int init_inotify(uv_loop_t* loop) { if (fd < 0) return UV__ERR(errno); - err = uv__io_init_start(loop, &loop->inotify_read_watcher, uv__inotify_read, + err = uv__io_init_start(loop, &loop->inotify_read_watcher, UV__INOTIFY_READ, fd, POLLIN); if (err) { uv__close(fd); @@ -2595,9 +2580,7 @@ static void maybe_free_watcher_list(struct watcher_list* w, uv_loop_t* loop) { } -static void uv__inotify_read(uv_loop_t* loop, - uv__io_t* dummy, - unsigned int events) { +void uv__inotify_read(uv_loop_t* loop, uv__io_t* dummy, unsigned int events) { const struct inotify_event* e; struct watcher_list* w; uv_fs_event_t* h; diff --git a/deps/uv/src/unix/loop.c b/deps/uv/src/unix/loop.c index 5d3f0c7a348b33..da9fa3c8b80b86 100644 --- a/deps/uv/src/unix/loop.c +++ b/deps/uv/src/unix/loop.c @@ -83,7 +83,7 @@ int uv_loop_init(uv_loop_t* loop) { uv__signal_global_once_init(); err = uv__process_init(loop); if (err) - goto fail_signal_init; + goto fail_process_init; uv__queue_init(&loop->process_handles); err = uv_rwlock_init(&loop->cloexec_lock); @@ -110,9 +110,8 @@ int uv_loop_init(uv_loop_t* loop) { uv_rwlock_destroy(&loop->cloexec_lock); fail_rwlock_init: +fail_process_init: uv__signal_loop_cleanup(loop); - -fail_signal_init: uv__platform_loop_delete(loop); if (loop->backend_fd != -1) { diff --git a/deps/uv/src/unix/netbsd.c b/deps/uv/src/unix/netbsd.c index fa21e98e41aec8..37d962c4b10047 100644 --- a/deps/uv/src/unix/netbsd.c +++ b/deps/uv/src/unix/netbsd.c @@ -127,7 +127,7 @@ uint64_t uv_get_total_memory(void) { uint64_t uv_get_constrained_memory(void) { - return 0; /* Memory constraints are unknown. */ + return uv__get_rlimit_max_memory(); } diff --git a/deps/uv/src/unix/openbsd.c b/deps/uv/src/unix/openbsd.c index cf20fa6658209d..bc66316955bc90 100644 --- a/deps/uv/src/unix/openbsd.c +++ b/deps/uv/src/unix/openbsd.c @@ -59,54 +59,13 @@ void uv_loadavg(double avg[3]) { int uv_exepath(char* buffer, size_t* size) { - int mib[4]; - char **argsbuf = NULL; - size_t argsbuf_size = 100U; - size_t exepath_size; - pid_t mypid; - int err; - if (buffer == NULL || size == NULL || *size == 0) return UV_EINVAL; - mypid = getpid(); - for (;;) { - err = UV_ENOMEM; - argsbuf = uv__reallocf(argsbuf, argsbuf_size); - if (argsbuf == NULL) - goto out; - mib[0] = CTL_KERN; - mib[1] = KERN_PROC_ARGS; - mib[2] = mypid; - mib[3] = KERN_PROC_ARGV; - if (sysctl(mib, ARRAY_SIZE(mib), argsbuf, &argsbuf_size, NULL, 0) == 0) { - break; - } - if (errno != ENOMEM) { - err = UV__ERR(errno); - goto out; - } - argsbuf_size *= 2U; - } - - if (argsbuf[0] == NULL) { - err = UV_EINVAL; /* FIXME(bnoordhuis) More appropriate error. */ - goto out; - } - - *size -= 1; - exepath_size = strlen(argsbuf[0]); - if (*size > exepath_size) - *size = exepath_size; - - memcpy(buffer, argsbuf[0], *size); - buffer[*size] = '\0'; - err = 0; - -out: - uv__free(argsbuf); + if (uv_saved_argv0 == NULL) + return UV_EINVAL; - return err; + return uv__search_path(uv_saved_argv0, buffer, size); } @@ -135,7 +94,7 @@ uint64_t uv_get_total_memory(void) { uint64_t uv_get_constrained_memory(void) { - return 0; /* Memory constraints are unknown. */ + return uv__get_rlimit_max_memory(); } diff --git a/deps/uv/src/unix/os390.c b/deps/uv/src/unix/os390.c index 1b277292aebffb..6ba2f9158ba525 100644 --- a/deps/uv/src/unix/os390.c +++ b/deps/uv/src/unix/os390.c @@ -188,12 +188,23 @@ uint64_t uv_get_total_memory(void) { uint64_t uv_get_constrained_memory(void) { struct rlimit rl; + uint64_t memlimit; + uint64_t rlimit_limit; /* RLIMIT_MEMLIMIT return value is in megabytes rather than bytes. */ - if (getrlimit(RLIMIT_MEMLIMIT, &rl) == 0) - return rl.rlim_cur * 1024 * 1024; - - return 0; /* There is no memory limit set. */ + memlimit = 0; + if (getrlimit(RLIMIT_MEMLIMIT, &rl) == 0 && rl.rlim_cur != RLIM_INFINITY) + memlimit = rl.rlim_cur * 1024 * 1024; + + /* Also check RLIMIT_AS and RLIMIT_DATA. */ + rlimit_limit = uv__get_rlimit_max_memory(); + + /* Return the minimum of RLIMIT_MEMLIMIT and other rlimits. */ + if (memlimit == 0) + return rlimit_limit; + if (rlimit_limit == 0) + return memlimit; + return memlimit < rlimit_limit ? memlimit : rlimit_limit; } @@ -892,30 +903,15 @@ void uv__io_poll(uv_loop_t* loop, int timeout) { nfds = 0; for (;;) { - /* Only need to set the provider_entry_time if timeout != 0. The function - * will return early if the loop isn't configured with UV_METRICS_IDLE_TIME. - */ - if (timeout != 0) - uv__metrics_set_provider_entry_time(loop); - if (sizeof(int32_t) == sizeof(long) && timeout >= max_safe_timeout) timeout = max_safe_timeout; - /* Store the current timeout in a location that's globally accessible so - * other locations like uv__work_done() can determine whether the queue - * of events in the callback were waiting when poll was called. - */ - lfields->current_timeout = timeout; - + uv__io_poll_prepare(loop, NULL, timeout); nfds = epoll_wait(loop->ep, events, ARRAY_SIZE(events), timeout); - - /* Update loop->time unconditionally. It's tempting to skip the update when - * timeout == 0 (i.e. non-blocking poll) but there is no guarantee that the - * operating system didn't reschedule our process while in the syscall. - */ base = loop->time; - SAVE_ERRNO(uv__update_time(loop)); + uv__io_poll_check(loop, NULL); + if (nfds == 0) { assert(timeout != -1); @@ -1008,7 +1004,7 @@ void uv__io_poll(uv_loop_t* loop, int timeout) { have_signals = 1; } else { uv__metrics_update_idle_time(loop); - w->cb(loop, w, pe->events); + uv__io_cb(loop, w, pe->events); } nevents++; } @@ -1023,7 +1019,7 @@ void uv__io_poll(uv_loop_t* loop, int timeout) { if (have_signals != 0) { uv__metrics_update_idle_time(loop); - loop->signal_io_watcher.cb(loop, &loop->signal_io_watcher, POLLIN); + uv__signal_event(loop, &loop->signal_io_watcher, POLLIN); } loop->watchers[loop->nwatchers] = NULL; diff --git a/deps/uv/src/unix/pipe.c b/deps/uv/src/unix/pipe.c index 68e225e2e17fbb..eb03a47cccbe10 100644 --- a/deps/uv/src/unix/pipe.c +++ b/deps/uv/src/unix/pipe.c @@ -170,9 +170,8 @@ int uv__pipe_listen(uv_pipe_t* handle, int backlog, uv_connection_cb cb) { return UV__ERR(errno); handle->connection_cb = cb; - handle->io_watcher.cb = uv__server_io; - uv__io_start(handle->loop, &handle->io_watcher, POLLIN); - return 0; + uv__io_cb_set(&handle->io_watcher, UV__SERVER_IO); + return uv__io_start(handle->loop, &handle->io_watcher, POLLIN); } diff --git a/deps/uv/src/unix/poll.c b/deps/uv/src/unix/poll.c index 535ac6baafc6e0..60c3c20096f2b5 100644 --- a/deps/uv/src/unix/poll.c +++ b/deps/uv/src/unix/poll.c @@ -26,7 +26,7 @@ #include -static void uv__poll_io(uv_loop_t* loop, uv__io_t* w, unsigned int events) { +void uv__poll_io(uv_loop_t* loop, uv__io_t* w, unsigned int events) { uv_poll_t* handle; int pevents; @@ -87,7 +87,7 @@ int uv_poll_init(uv_loop_t* loop, uv_poll_t* handle, int fd) { return err; uv__handle_init(loop, (uv_handle_t*) handle, UV_POLL); - uv__io_init(&handle->io_watcher, uv__poll_io, fd); + uv__io_init(&handle->io_watcher, UV__POLL_IO, fd); handle->poll_cb = NULL; return 0; } diff --git a/deps/uv/src/unix/posix-poll.c b/deps/uv/src/unix/posix-poll.c index 2e016c2fbaed2e..5b7d75c22588de 100644 --- a/deps/uv/src/unix/posix-poll.c +++ b/deps/uv/src/unix/posix-poll.c @@ -195,31 +195,9 @@ void uv__io_poll(uv_loop_t* loop, int timeout) { * our caller then we need to loop around and poll() again. */ for (;;) { - /* Only need to set the provider_entry_time if timeout != 0. The function - * will return early if the loop isn't configured with UV_METRICS_IDLE_TIME. - */ - if (timeout != 0) - uv__metrics_set_provider_entry_time(loop); - - /* Store the current timeout in a location that's globally accessible so - * other locations like uv__work_done() can determine whether the queue - * of events in the callback were waiting when poll was called. - */ - lfields->current_timeout = timeout; - - if (pset != NULL) - if (pthread_sigmask(SIG_BLOCK, pset, NULL)) - abort(); + uv__io_poll_prepare(loop, pset, timeout); nfds = poll(loop->poll_fds, (nfds_t)loop->poll_fds_used, timeout); - if (pset != NULL) - if (pthread_sigmask(SIG_UNBLOCK, pset, NULL)) - abort(); - - /* Update loop->time unconditionally. It's tempting to skip the update when - * timeout == 0 (i.e. non-blocking poll) but there is no guarantee that the - * operating system didn't reschedule our process while in the syscall. - */ - SAVE_ERRNO(uv__update_time(loop)); + uv__io_poll_check(loop, pset); if (nfds == 0) { if (reset_timeout != 0) { @@ -294,7 +272,7 @@ void uv__io_poll(uv_loop_t* loop, int timeout) { have_signals = 1; } else { uv__metrics_update_idle_time(loop); - w->cb(loop, w, pe->revents); + uv__io_cb(loop, w, pe->revents); } nevents++; @@ -310,7 +288,7 @@ void uv__io_poll(uv_loop_t* loop, int timeout) { if (have_signals != 0) { uv__metrics_update_idle_time(loop); - loop->signal_io_watcher.cb(loop, &loop->signal_io_watcher, POLLIN); + uv__signal_event(loop, &loop->signal_io_watcher, POLLIN); } loop->poll_fds_iterating = 0; diff --git a/deps/uv/src/unix/process.c b/deps/uv/src/unix/process.c index 43e6b798458fc1..539e7d9417d3bf 100644 --- a/deps/uv/src/unix/process.c +++ b/deps/uv/src/unix/process.c @@ -1073,6 +1073,7 @@ int uv_spawn(uv_loop_t* loop, return exec_errorno; error: + uv__queue_remove(&process->handle_queue); if (pipes != NULL) { for (i = 0; i < stdio_count; i++) { if (i < options->stdio_count) diff --git a/deps/uv/src/unix/qnx.c b/deps/uv/src/unix/qnx.c index 57ea9dfd9ccc9c..c1030caf74bfa9 100644 --- a/deps/uv/src/unix/qnx.c +++ b/deps/uv/src/unix/qnx.c @@ -28,6 +28,14 @@ #include #include #include +#include +#include +#include +#if __QNX__ >= 800 +#define cpuinfo_val cpuinfo +#else +#define cpuinfo_val new_cpuinfo +#endif static void get_mem_info(uint64_t* totalmem, uint64_t* freemem) { @@ -67,24 +75,50 @@ int uv_exepath(char* buffer, size_t* size) { } +static uint64_t uv__read_pidin_info(const char* what) { + uint64_t rc; + char* p; + char buf[2048]; + + FILE* fp = popen("pidin info", "r"); + if (fp == NULL) + return 0; + + size_t sz = fread(buf, 1, sizeof(buf) - 1, fp); + buf[sz] = '\0'; + + pclose(fp); + + p = strstr(buf, what); + if (p == NULL) + return 0; + + p += strlen(what); + + rc = 0; + sscanf(p, "%" PRIu64 " MB", &rc); + + return rc * 1024 * 1024; +} + uint64_t uv_get_free_memory(void) { - uint64_t totalmem; uint64_t freemem; - get_mem_info(&totalmem, &freemem); + + freemem = uv__read_pidin_info("FreeMem:"); return freemem; } uint64_t uv_get_total_memory(void) { uint64_t totalmem; - uint64_t freemem; - get_mem_info(&totalmem, &freemem); + + totalmem = uv__read_pidin_info("MB/"); return totalmem; } uint64_t uv_get_constrained_memory(void) { - return 0; + return uv__get_rlimit_max_memory(); } @@ -113,15 +147,17 @@ int uv_resident_set_memory(size_t* rss) { int uv_uptime(double* uptime) { - struct qtime_entry* qtime = _SYSPAGE_ENTRY(_syspage_ptr, qtime); - *uptime = (qtime->nsec / 1000000000.0); + struct timespec ts; + if(clock_gettime(CLOCK_MONOTONIC, &ts)) + return UV__ERR(errno); + *uptime = (double)ts.tv_sec; return 0; } int uv_cpu_info(uv_cpu_info_t** cpu_infos, int* count) { struct cpuinfo_entry* cpuinfo = - (struct cpuinfo_entry*)_SYSPAGE_ENTRY(_syspage_ptr, new_cpuinfo); + (struct cpuinfo_entry*)_SYSPAGE_ENTRY(_syspage_ptr, cpuinfo_val); size_t cpuinfo_size = _SYSPAGE_ELEMENT_SIZE(_syspage_ptr, cpuinfo); struct strings_entry* strings = _SYSPAGE_ENTRY(_syspage_ptr, strings); int num_cpus = _syspage_ptr->num_cpu; diff --git a/deps/uv/src/unix/signal.c b/deps/uv/src/unix/signal.c index ccaa72db457c59..91fb149464e32e 100644 --- a/deps/uv/src/unix/signal.c +++ b/deps/uv/src/unix/signal.c @@ -45,7 +45,6 @@ static int uv__signal_start(uv_signal_t* handle, uv_signal_cb signal_cb, int signum, int oneshot); -static void uv__signal_event(uv_loop_t* loop, uv__io_t* w, unsigned int events); static int uv__signal_compare(uv_signal_t* w1, uv_signal_t* w2); static void uv__signal_stop(uv_signal_t* handle); static void uv__signal_unregister_handler(int signum); @@ -271,7 +270,7 @@ static int uv__signal_loop_once_init(uv_loop_t* loop) { if (err) return err; - err = uv__io_init_start(loop, &loop->signal_io_watcher, uv__signal_event, + err = uv__io_init_start(loop, &loop->signal_io_watcher, UV__SIGNAL_EVENT, pipefd[0], POLLIN); if (err) { uv__close(pipefd[0]); @@ -436,9 +435,7 @@ static int uv__signal_start(uv_signal_t* handle, } -static void uv__signal_event(uv_loop_t* loop, - uv__io_t* w, - unsigned int events) { +void uv__signal_event(uv_loop_t* loop, uv__io_t* w, unsigned int events) { uv__signal_msg_t* msg; uv_signal_t* handle; char buf[sizeof(uv__signal_msg_t) * 32]; diff --git a/deps/uv/src/unix/stream.c b/deps/uv/src/unix/stream.c index 18763b4744c30a..08a18314b1ec4e 100644 --- a/deps/uv/src/unix/stream.c +++ b/deps/uv/src/unix/stream.c @@ -73,7 +73,6 @@ STATIC_ASSERT(256 == sizeof(union uv__cmsg)); static void uv__stream_connect(uv_stream_t*); static void uv__write(uv_stream_t* stream); static void uv__read(uv_stream_t* stream); -static void uv__stream_io(uv_loop_t* loop, uv__io_t* w, unsigned int events); static void uv__write_callbacks(uv_stream_t* stream); static size_t uv__write_req_size(uv_write_t* req); static void uv__drain(uv_stream_t* stream); @@ -113,7 +112,7 @@ void uv__stream_init(uv_loop_t* loop, stream->select = NULL; #endif /* defined(__APPLE_) */ - uv__io_init(&stream->io_watcher, uv__stream_io, -1); + uv__io_init(&stream->io_watcher, UV__STREAM_IO, -1); } @@ -417,7 +416,7 @@ int uv__stream_open(uv_stream_t* stream, int fd, int flags) { /* TODO Use delay the user passed in. */ if ((stream->flags & UV_HANDLE_TCP_KEEPALIVE) && - uv__tcp_keepalive(fd, 1, 60)) { + uv__tcp_keepalive(fd, 1, 60, 1, 10)) { return UV__ERR(errno); } } @@ -1031,8 +1030,6 @@ static void uv__read(uv_stream_t* stream) { int err; int is_ipc; - stream->flags &= ~UV_HANDLE_READ_PARTIAL; - /* Prevent loop starvation when the data comes in as fast as (or faster than) * we can read it. XXX Need to rearm fd if we switch to edge-triggered I/O. */ @@ -1147,11 +1144,15 @@ static void uv__read(uv_stream_t* stream) { #endif stream->read_cb(stream, nread, &buf); - /* Return if we didn't fill the buffer, there is no more data to read. */ - if (nread < buflen) { - stream->flags |= UV_HANDLE_READ_PARTIAL; + /* Save a system call and return if we didn't fill the buffer + * completely, on the assumption the next read() will fail with EOF. + * + * Devices like PTYs sometimes operate in a packet-like mode where + * they don't return all available data in a single read but we'll + * catch it on the next read because of level-triggered I/O. + */ + if (nread < buflen) return; - } } } } @@ -1186,7 +1187,7 @@ int uv_shutdown(uv_shutdown_t* req, uv_stream_t* stream, uv_shutdown_cb cb) { } -static void uv__stream_io(uv_loop_t* loop, uv__io_t* w, unsigned int events) { +void uv__stream_io(uv_loop_t* loop, uv__io_t* w, unsigned int events) { uv_stream_t* stream; stream = container_of(w, uv_stream_t, io_watcher); @@ -1203,22 +1204,23 @@ static void uv__stream_io(uv_loop_t* loop, uv__io_t* w, unsigned int events) { assert(uv__stream_fd(stream) >= 0); - /* Ignore POLLHUP here. Even if it's set, there may still be data to read. */ - if (events & (POLLIN | POLLERR | POLLHUP)) + if (events & (POLLIN | POLLERR)) uv__read(stream); if (uv__stream_fd(stream) == -1) return; /* read_cb closed stream. */ /* Short-circuit iff POLLHUP is set, the user is still interested in read - * events and uv__read() reported a partial read but not EOF. If the EOF - * flag is set, uv__read() called read_cb with err=UV_EOF and we don't - * have to do anything. If the partial read flag is not set, we can't - * report the EOF yet because there is still data to read. + * events and uv__read() didn't see EOF. If the EOF flag is set, uv__read() + * called read_cb with err=UV_EOF and we don't have to do anything. + * + * POLLIN should not be set because, at least on Linux and possibly other + * operating systems, devices like PTYs sometimes produce partial reads even + * when more data is available. */ if ((events & POLLHUP) && + !(events & POLLIN) && (stream->flags & UV_HANDLE_READING) && - (stream->flags & UV_HANDLE_READ_PARTIAL) && !(stream->flags & UV_HANDLE_READ_EOF)) { uv_buf_t buf = { NULL, 0 }; uv__stream_eof(stream, &buf); @@ -1295,12 +1297,18 @@ static void uv__stream_connect(uv_stream_t* stream) { static int uv__check_before_write(uv_stream_t* stream, unsigned int nbufs, uv_stream_t* send_handle) { - assert(nbufs > 0); assert((stream->type == UV_TCP || stream->type == UV_NAMED_PIPE || stream->type == UV_TTY) && "uv_write (unix) does not yet support other types of streams"); + /* We're not beholden to IOV_MAX but limit the buffer count to catch sign + * conversion bugs where a caller passes in a signed negative number that + * then gets converted to a really large unsigned number. + */ + if (nbufs < 1 || nbufs > 1024*1024) + return UV_EINVAL; + if (uv__stream_fd(stream) < 0) return UV_EBADF; diff --git a/deps/uv/src/unix/sunos.c b/deps/uv/src/unix/sunos.c index 6c38c31aa00efa..c241e3506ce05a 100644 --- a/deps/uv/src/unix/sunos.c +++ b/deps/uv/src/unix/sunos.c @@ -210,12 +210,6 @@ void uv__io_poll(uv_loop_t* loop, int timeout) { } for (;;) { - /* Only need to set the provider_entry_time if timeout != 0. The function - * will return early if the loop isn't configured with UV_METRICS_IDLE_TIME. - */ - if (timeout != 0) - uv__metrics_set_provider_entry_time(loop); - if (timeout != -1) { spec.tv_sec = timeout / 1000; spec.tv_nsec = (timeout % 1000) * 1000000; @@ -227,17 +221,13 @@ void uv__io_poll(uv_loop_t* loop, int timeout) { nfds = 1; saved_errno = 0; - if (pset != NULL) - pthread_sigmask(SIG_BLOCK, pset, NULL); - + uv__io_poll_prepare(loop, pset, timeout); err = port_getn(loop->backend_fd, events, ARRAY_SIZE(events), &nfds, timeout == -1 ? NULL : &spec); - - if (pset != NULL) - pthread_sigmask(SIG_UNBLOCK, pset, NULL); + uv__io_poll_check(loop, pset); if (err) { /* Work around another kernel bug: port_getn() may return events even @@ -251,12 +241,6 @@ void uv__io_poll(uv_loop_t* loop, int timeout) { } } - /* Update loop->time unconditionally. It's tempting to skip the update when - * timeout == 0 (i.e. non-blocking poll) but there is no guarantee that the - * operating system didn't reschedule our process while in the syscall. - */ - SAVE_ERRNO(uv__update_time(loop)); - if (events[0].portev_source == 0) { if (reset_timeout != 0) { timeout = user_timeout; @@ -307,7 +291,7 @@ void uv__io_poll(uv_loop_t* loop, int timeout) { have_signals = 1; } else { uv__metrics_update_idle_time(loop); - w->cb(loop, w, pe->portev_events); + uv__io_cb(loop, w, pe->portev_events); } nevents++; @@ -329,7 +313,7 @@ void uv__io_poll(uv_loop_t* loop, int timeout) { if (have_signals != 0) { uv__metrics_update_idle_time(loop); - loop->signal_io_watcher.cb(loop, &loop->signal_io_watcher, POLLIN); + uv__signal_event(loop, &loop->signal_io_watcher, POLLIN); } loop->watchers[loop->nwatchers] = NULL; @@ -413,7 +397,7 @@ uint64_t uv_get_total_memory(void) { uint64_t uv_get_constrained_memory(void) { - return 0; /* Memory constraints are unknown. */ + return uv__get_rlimit_max_memory(); } @@ -446,9 +430,7 @@ static int uv__fs_event_rearm(uv_fs_event_t *handle) { } -static void uv__fs_event_read(uv_loop_t* loop, - uv__io_t* w, - unsigned int revents) { +void uv__fs_event_read(uv_loop_t* loop, uv__io_t* w, unsigned int revents) { uv_fs_event_t *handle = NULL; timespec_t timeout; port_event_t pe; @@ -548,7 +530,7 @@ int uv_fs_event_start(uv_fs_event_t* handle, if (first_run) { err = uv__io_init_start(handle->loop, &handle->loop->fs_event_watcher, - uv__fs_event_read, + UV__FS_EVENT_READ, portfd, POLLIN); if (err) @@ -898,11 +880,6 @@ int uv_interface_addresses(uv_interface_address_t** addresses, int* count) { } #endif /* SUNOS_NO_IFADDRS */ -void uv_free_interface_addresses(uv_interface_address_t* addresses, - int count) { - uv__free(addresses); -} - #if !defined(_POSIX_VERSION) || _POSIX_VERSION < 200809L size_t strnlen(const char* s, size_t maxlen) { diff --git a/deps/uv/src/unix/tcp.c b/deps/uv/src/unix/tcp.c index 98970d75278e31..aa81c16d6a95fc 100644 --- a/deps/uv/src/unix/tcp.c +++ b/deps/uv/src/unix/tcp.c @@ -444,10 +444,9 @@ int uv__tcp_listen(uv_tcp_t* tcp, int backlog, uv_connection_cb cb) { tcp->flags |= UV_HANDLE_BOUND; /* Start listening for connections. */ - tcp->io_watcher.cb = uv__server_io; - uv__io_start(tcp->loop, &tcp->io_watcher, POLLIN); + uv__io_cb_set(&tcp->io_watcher, UV__SERVER_IO); - return 0; + return uv__io_start(tcp->loop, &tcp->io_watcher, POLLIN); } @@ -466,22 +465,18 @@ int uv__tcp_nodelay(int fd, int on) { #else #define UV_KEEPALIVE_FACTOR(x) #endif -int uv__tcp_keepalive(int fd, int on, unsigned int delay) { - int idle; - int intvl; - int cnt; - - (void) &idle; - (void) &intvl; - (void) &cnt; - +int uv__tcp_keepalive(int fd, + int on, + unsigned int idle, + unsigned int intvl, + unsigned int cnt) { if (setsockopt(fd, SOL_SOCKET, SO_KEEPALIVE, &on, sizeof(on))) return UV__ERR(errno); if (!on) return 0; - if (delay < 1) + if (idle < 1 || intvl < 1 || cnt < 1) return UV_EINVAL; #ifdef __sun @@ -507,13 +502,16 @@ int uv__tcp_keepalive(int fd, int on, unsigned int delay) { * The TCP connection will be aborted after certain amount of probes, which is set by TCP_KEEPCNT, without receiving response. */ - idle = delay; - /* Kernel expects at least 10 seconds. */ + /* Kernel expects at least 10 seconds for TCP_KEEPIDLE and TCP_KEEPINTVL. */ if (idle < 10) idle = 10; - /* Kernel expects at most 10 days. */ + if (intvl < 10) + intvl = 10; + /* Kernel expects at most 10 days for TCP_KEEPIDLE and TCP_KEEPINTVL. */ if (idle > 10*24*60*60) idle = 10*24*60*60; + if (intvl > 10*24*60*60) + intvl = 10*24*60*60; UV_KEEPALIVE_FACTOR(idle); @@ -523,12 +521,10 @@ int uv__tcp_keepalive(int fd, int on, unsigned int delay) { if (setsockopt(fd, IPPROTO_TCP, TCP_KEEPIDLE, &idle, sizeof(idle))) return UV__ERR(errno); - intvl = 10; /* required at least 10 seconds */ UV_KEEPALIVE_FACTOR(intvl); if (setsockopt(fd, IPPROTO_TCP, TCP_KEEPINTVL, &intvl, sizeof(intvl))) return UV__ERR(errno); - cnt = 1; /* 1 retry, ensure (TCP_KEEPINTVL * TCP_KEEPCNT) is 10 seconds */ if (setsockopt(fd, IPPROTO_TCP, TCP_KEEPCNT, &cnt, sizeof(cnt))) return UV__ERR(errno); #else @@ -540,7 +536,7 @@ int uv__tcp_keepalive(int fd, int on, unsigned int delay) { /* Note that the consequent probes will not be sent at equal intervals on Solaris, * but will be sent using the exponential backoff algorithm. */ - int time_to_abort = 10; /* 10 seconds */ + unsigned int time_to_abort = intvl * cnt; UV_KEEPALIVE_FACTOR(time_to_abort); if (setsockopt(fd, IPPROTO_TCP, TCP_KEEPALIVE_ABORT_THRESHOLD, &time_to_abort, sizeof(time_to_abort))) return UV__ERR(errno); @@ -548,7 +544,6 @@ int uv__tcp_keepalive(int fd, int on, unsigned int delay) { #else /* !defined(__sun) */ - idle = delay; UV_KEEPALIVE_FACTOR(idle); #ifdef TCP_KEEPIDLE if (setsockopt(fd, IPPROTO_TCP, TCP_KEEPIDLE, &idle, sizeof(idle))) @@ -560,14 +555,12 @@ int uv__tcp_keepalive(int fd, int on, unsigned int delay) { #endif #ifdef TCP_KEEPINTVL - intvl = 1; /* 1 second; same as default on Win32 */ UV_KEEPALIVE_FACTOR(intvl); if (setsockopt(fd, IPPROTO_TCP, TCP_KEEPINTVL, &intvl, sizeof(intvl))) return UV__ERR(errno); #endif #ifdef TCP_KEEPCNT - cnt = 10; /* 10 retries; same as hardcoded on Win32 */ if (setsockopt(fd, IPPROTO_TCP, TCP_KEEPCNT, &cnt, sizeof(cnt))) return UV__ERR(errno); #endif @@ -595,11 +588,20 @@ int uv_tcp_nodelay(uv_tcp_t* handle, int on) { } -int uv_tcp_keepalive(uv_tcp_t* handle, int on, unsigned int delay) { +int uv_tcp_keepalive(uv_tcp_t* handle, int on, unsigned int idle) { + return uv_tcp_keepalive_ex(handle, on, idle, 1, 10); +} + + +int uv_tcp_keepalive_ex(uv_tcp_t* handle, + int on, + unsigned int idle, + unsigned int intvl, + unsigned int cnt) { int err; if (uv__stream_fd(handle) != -1) { - err =uv__tcp_keepalive(uv__stream_fd(handle), on, delay); + err = uv__tcp_keepalive(uv__stream_fd(handle), on, idle, intvl, cnt); if (err) return err; } @@ -609,7 +611,7 @@ int uv_tcp_keepalive(uv_tcp_t* handle, int on, unsigned int delay) { else handle->flags &= ~UV_HANDLE_TCP_KEEPALIVE; - /* TODO Store delay if uv__stream_fd(handle) == -1 but don't want to enlarge + /* TODO Store idle if uv__stream_fd(handle) == -1 but don't want to enlarge * uv_tcp_t with an int that's almost never used... */ diff --git a/deps/uv/src/unix/thread.c b/deps/uv/src/unix/thread.c index 34fea364aebe6d..001b6d744ba85f 100644 --- a/deps/uv/src/unix/thread.c +++ b/deps/uv/src/unix/thread.c @@ -870,9 +870,7 @@ int uv_cond_timedwait(uv_cond_t* cond, uv_mutex_t* mutex, uint64_t timeout) { return UV_ETIMEDOUT; abort(); -#ifndef __SUNPRO_C return UV_EINVAL; /* Satisfy the compiler. */ -#endif } diff --git a/deps/uv/src/unix/udp.c b/deps/uv/src/unix/udp.c index c4a3559d61e350..0a41391ffa6ac0 100644 --- a/deps/uv/src/unix/udp.c +++ b/deps/uv/src/unix/udp.c @@ -32,6 +32,10 @@ #endif #include +#if defined(__linux__) +#include +#endif + #if defined(IPV6_JOIN_GROUP) && !defined(IPV6_ADD_MEMBERSHIP) # define IPV6_ADD_MEMBERSHIP IPV6_JOIN_GROUP #endif @@ -41,8 +45,7 @@ #endif static void uv__udp_run_completed(uv_udp_t* handle); -static void uv__udp_io(uv_loop_t* loop, uv__io_t* w, unsigned int revents); -static void uv__udp_recvmsg(uv_udp_t* handle); +static void uv__udp_recvmsg(uv_udp_t* handle, int flag); static void uv__udp_sendmsg(uv_udp_t* handle); static int uv__udp_maybe_deferred_bind(uv_udp_t* handle, int domain, @@ -136,14 +139,57 @@ static void uv__udp_run_completed(uv_udp_t* handle) { } -static void uv__udp_io(uv_loop_t* loop, uv__io_t* w, unsigned int revents) { +#if defined(__linux__) +static int uv__udp_recvmsg_errqueue(uv_udp_t* handle, + struct msghdr* h, + uv_buf_t* buf, + const struct sockaddr* peer, + int flags) { + struct cmsghdr* cmsg; + struct sock_extended_err* serr; + struct sockaddr* offender; + + if (!(h->msg_flags & MSG_ERRQUEUE)) + return 0; + + flags |= UV_UDP_LINUX_RECVERR; + for (cmsg = CMSG_FIRSTHDR(h); cmsg != NULL; cmsg = CMSG_NXTHDR(h, cmsg)) { + if ((cmsg->cmsg_level == SOL_IP && cmsg->cmsg_type == IP_RECVERR) || + (cmsg->cmsg_level == SOL_IPV6 && cmsg->cmsg_type == IPV6_RECVERR)) { + serr = (struct sock_extended_err*) CMSG_DATA(cmsg); + + offender = SO_EE_OFFENDER(serr); + handle->recv_cb(handle, + UV__ERR(serr->ee_errno), + buf, + offender, + flags); + return 1; /* handled */ + } + } + return 0; +} +#endif + + +void uv__udp_io(uv_loop_t* loop, uv__io_t* w, unsigned int revents) { uv_udp_t* handle; handle = container_of(w, uv_udp_t, io_watcher); assert(handle->type == UV_UDP); if (revents & POLLIN) - uv__udp_recvmsg(handle); + uv__udp_recvmsg(handle, 0); + + /* Just Linux support for now. */ +#if defined(__linux__) + /* Guard against the case where the POLLIN callback above (e.g. via + * uv_udp_recv_stop + uv_close) already cleared recv_cb in the same + * revents iteration. uv__udp_recvmsg asserts recv_cb != NULL, so + * calling it with a NULL recv_cb would be wrong regardless of POLLERR. */ + if ((revents & POLLERR) && uv__is_active(handle)) + uv__udp_recvmsg(handle, MSG_ERRQUEUE); +#endif if (revents & POLLOUT && !uv__is_closing(handle)) { uv__udp_sendmsg(handle); @@ -151,7 +197,7 @@ static void uv__udp_io(uv_loop_t* loop, uv__io_t* w, unsigned int revents) { } } -static int uv__udp_recvmmsg(uv_udp_t* handle, uv_buf_t* buf) { +static int uv__udp_recvmmsg(uv_udp_t* handle, uv_buf_t* buf, int flag) { #if defined(__linux__) || defined(__FreeBSD__) || defined(__APPLE__) struct sockaddr_in6 peers[20]; struct iovec iov[ARRAY_SIZE(peers)]; @@ -161,6 +207,9 @@ static int uv__udp_recvmmsg(uv_udp_t* handle, uv_buf_t* buf) { size_t chunks; int flags; size_t k; +#if defined(__linux__) + char control[ARRAY_SIZE(peers)][64]; +#endif /* prepare structures for recvmmsg */ chunks = buf->len / UV__UDP_DGRAM_MAXSIZE; @@ -178,6 +227,12 @@ static int uv__udp_recvmmsg(uv_udp_t* handle, uv_buf_t* buf) { msgs[k].msg_hdr.msg_controllen = 0; msgs[k].msg_hdr.msg_flags = 0; msgs[k].msg_len = 0; +#if defined(__linux__) + if (flag & MSG_ERRQUEUE) { + msgs[k].msg_hdr.msg_control = control[k]; + msgs[k].msg_hdr.msg_controllen = sizeof(control[k]); + } +#endif } #if defined(__APPLE__) @@ -186,7 +241,7 @@ static int uv__udp_recvmmsg(uv_udp_t* handle, uv_buf_t* buf) { while (nread == -1 && errno == EINTR); #else do - nread = recvmmsg(handle->io_watcher.fd, msgs, chunks, 0, NULL); + nread = recvmmsg(handle->io_watcher.fd, msgs, chunks, flag, NULL); while (nread == -1 && errno == EINTR); #endif @@ -203,6 +258,13 @@ static int uv__udp_recvmmsg(uv_udp_t* handle, uv_buf_t* buf) { flags |= UV_UDP_PARTIAL; chunk_buf = uv_buf_init(iov[k].iov_base, iov[k].iov_len); +#if defined(__linux__) + if ((flag & MSG_ERRQUEUE) && + uv__udp_recvmsg_errqueue(handle, &msgs[k].msg_hdr, &chunk_buf, + (const struct sockaddr*) &peers[k], flags)) { + continue; + } +#endif handle->recv_cb(handle, msgs[k].msg_len, &chunk_buf, @@ -220,13 +282,16 @@ static int uv__udp_recvmmsg(uv_udp_t* handle, uv_buf_t* buf) { #endif /* __linux__ || ____FreeBSD__ || __APPLE__ */ } -static void uv__udp_recvmsg(uv_udp_t* handle) { +static void uv__udp_recvmsg(uv_udp_t* handle, int flag) { struct sockaddr_storage peer; struct msghdr h; ssize_t nread; uv_buf_t buf; int flags; int count; +#if defined(__linux__) + char control[256]; +#endif assert(handle->recv_cb != NULL); assert(handle->alloc_cb != NULL); @@ -246,7 +311,7 @@ static void uv__udp_recvmsg(uv_udp_t* handle) { assert(buf.base != NULL); if (uv_udp_using_recvmmsg(handle)) { - nread = uv__udp_recvmmsg(handle, &buf); + nread = uv__udp_recvmmsg(handle, &buf, flag); if (nread > 0) count -= nread; continue; @@ -258,25 +323,36 @@ static void uv__udp_recvmsg(uv_udp_t* handle) { h.msg_namelen = sizeof(peer); h.msg_iov = (void*) &buf; h.msg_iovlen = 1; - - do { - nread = recvmsg(handle->io_watcher.fd, &h, 0); +#if defined(__linux__) + if (flag & MSG_ERRQUEUE) { + h.msg_control = control; + h.msg_controllen = sizeof(control); } +#endif + + do + nread = recvmsg(handle->io_watcher.fd, &h, flag); while (nread == -1 && errno == EINTR); - if (nread == -1) { - if (errno == EAGAIN || errno == EWOULDBLOCK) - handle->recv_cb(handle, 0, &buf, NULL, 0); - else - handle->recv_cb(handle, UV__ERR(errno), &buf, NULL, 0); - } - else { - flags = 0; + flags = 0; + if (nread != -1) if (h.msg_flags & MSG_TRUNC) flags |= UV_UDP_PARTIAL; - handle->recv_cb(handle, nread, &buf, (const struct sockaddr*) &peer, flags); +#if defined(__linux__) + if ((flag & MSG_ERRQUEUE) && + uv__udp_recvmsg_errqueue(handle, &h, &buf, (void*) &peer, flags)) { + count--; + continue; } +#endif + + if (nread != -1) + handle->recv_cb(handle, nread, &buf, (void*) &peer, flags); + else if (errno == EAGAIN || errno == EWOULDBLOCK) + handle->recv_cb(handle, 0, &buf, NULL, 0); + else + handle->recv_cb(handle, UV__ERR(errno), &buf, NULL, 0); count--; } /* recv_cb callback may decide to pause or close the handle */ @@ -560,7 +636,7 @@ int uv__udp_disconnect(uv_udp_t* handle) { } while (r == -1 && errno == EINTR); if (r == -1) { -#if defined(BSD) /* The macro BSD is from sys/param.h */ +#if defined(BSD) || defined(__QNX__) /* The macro BSD is from sys/param.h */ if (errno != EAFNOSUPPORT && errno != EINVAL) return UV__ERR(errno); #else @@ -661,10 +737,10 @@ int uv__udp_try_send(uv_udp_t* handle, } err = uv__udp_sendmsg1(handle->io_watcher.fd, bufs, nbufs, addr); - if (err > 0) - return uv__count_bufs(bufs, nbufs); + if (err) + return err; - return err; + return uv__count_bufs(bufs, nbufs); } @@ -766,8 +842,8 @@ static int uv__udp_set_membership6(uv_udp_t* handle, !defined(__NetBSD__) && \ !defined(__ANDROID__) && \ !defined(__DragonFly__) && \ - !defined(__QNX__) && \ - !defined(__GNU__) + !defined(__GNU__) && \ + !defined(QNX_IOPKT) static int uv__udp_set_source_membership4(uv_udp_t* handle, const struct sockaddr_in* multicast_addr, const char* interface_addr, @@ -881,7 +957,7 @@ int uv__udp_init_ex(uv_loop_t* loop, handle->recv_cb = NULL; handle->send_queue_size = 0; handle->send_queue_count = 0; - uv__io_init(&handle->io_watcher, uv__udp_io, fd); + uv__io_init(&handle->io_watcher, UV__UDP_IO, fd); uv__queue_init(&handle->write_queue); uv__queue_init(&handle->write_completed_queue); @@ -898,9 +974,13 @@ int uv_udp_using_recvmmsg(const uv_udp_t* handle) { } -int uv_udp_open(uv_udp_t* handle, uv_os_sock_t sock) { +int uv_udp_open_ex(uv_udp_t* handle, uv_os_sock_t sock, unsigned int flags) { int err; + /* Check for bad flags. */ + if (flags & ~(UV_UDP_REUSEADDR | UV_UDP_REUSEPORT)) + return UV_EINVAL; + /* Check for already active socket. */ if (handle->io_watcher.fd != -1) return UV_EBUSY; @@ -912,9 +992,17 @@ int uv_udp_open(uv_udp_t* handle, uv_os_sock_t sock) { if (err) return err; - err = uv__sock_reuseaddr(sock); - if (err) - return err; + if (flags & UV_UDP_REUSEADDR) { + err = uv__sock_reuseaddr(sock); + if (err) + return err; + } + + if (flags & UV_UDP_REUSEPORT) { + err = uv__sock_reuseport(sock); + if (err) + return err; + } handle->io_watcher.fd = sock; if (uv__udp_is_connected(handle)) @@ -924,6 +1012,15 @@ int uv_udp_open(uv_udp_t* handle, uv_os_sock_t sock) { } +int uv_udp_open(uv_udp_t* handle, uv_os_sock_t sock) { + /* + * Keep backward compatibility, always set REUSEADDR. + * Refs: https://github.com/libuv/libuv/issues/4551 + */ + return uv_udp_open_ex(handle, sock, UV_UDP_REUSEADDR); +} + + int uv_udp_set_membership(uv_udp_t* handle, const char* multicast_addr, const char* interface_addr, @@ -957,8 +1054,8 @@ int uv_udp_set_source_membership(uv_udp_t* handle, !defined(__NetBSD__) && \ !defined(__ANDROID__) && \ !defined(__DragonFly__) && \ - !defined(__QNX__) && \ - !defined(__GNU__) + !defined(__GNU__) && \ + !defined(QNX_IOPKT) int err; union uv__sockaddr mcast_addr; union uv__sockaddr src_addr; @@ -1295,7 +1392,7 @@ static int uv__udp_sendmsg1(int fd, /* UDP sockets don't EOF so we don't have to handle r=0 specially, * that only happens when the input was a zero-sized buffer. */ - return 1; + return 0; } @@ -1312,7 +1409,7 @@ static int uv__udp_sendmsgv(int fd, nsent = 0; #if defined(__linux__) || defined(__FreeBSD__) || defined(__APPLE__) || \ - (defined(__sun__) && defined(MSG_WAITFORONE)) + (defined(__sun__) && defined(MSG_WAITFORONE)) || defined(__QNX__) if (count > 1) { for (i = 0; i < count; /*empty*/) { struct mmsghdr m[20]; @@ -1340,7 +1437,7 @@ static int uv__udp_sendmsgv(int fd, goto exit; } #endif /* defined(__linux__) || defined(__FreeBSD__) || defined(__APPLE__) || - * (defined(__sun__) && defined(MSG_WAITFORONE)) + * (defined(__sun__) && defined(MSG_WAITFORONE)) || defined(__QNX__) */ for (i = 0; i < count; i++, nsent++) @@ -1363,7 +1460,7 @@ static int uv__udp_sendmsgv(int fd, static void uv__udp_sendmsg(uv_udp_t* handle) { - static const int N = 20; + enum { N = 20 }; struct sockaddr* addrs[N]; unsigned int nbufs[N]; uv_buf_t* bufs[N]; diff --git a/deps/uv/src/uv-common.c b/deps/uv/src/uv-common.c index 60ff56b9dd7391..f1e8928d37ebf4 100644 --- a/deps/uv/src/uv-common.c +++ b/deps/uv/src/uv-common.c @@ -575,12 +575,17 @@ static void uv__print_handles(uv_loop_t* loop, int only_active, FILE* stream) { struct uv__queue* q; uv_handle_t* h; - if (loop == NULL) - loop = uv_default_loop(); - if (stream == NULL) stream = stderr; + if (loop == NULL) { + loop = uv_default_loop(); + if (loop == NULL) { + fprintf(stream, "uv_default_loop() failed\n"); + return; + } + } + uv__queue_foreach(q, &loop->handle_queue) { h = uv__queue_data(q, uv_handle_t, handle_queue); @@ -952,7 +957,7 @@ void uv_free_cpu_info(uv_cpu_info_t* cpu_infos, int count) { int i; for (i = 0; i < count; i++) - uv__free(cpu_infos[i].model); + uv__free((char*) cpu_infos[i].model); uv__free(cpu_infos); #endif /* __linux__ */ @@ -1049,3 +1054,11 @@ uint64_t uv_metrics_idle_time(uv_loop_t* loop) { idle_time += uv_hrtime() - entry_time; return idle_time; } + +/* OS390 needs a different implementation, already provided in os390.c. */ +#ifndef __MVS__ +void uv_free_interface_addresses(uv_interface_address_t* addresses, + int count) { + uv__free(addresses); +} +#endif /* !__MVS__ */ diff --git a/deps/uv/src/uv-common.h b/deps/uv/src/uv-common.h index b9a8e976eefdd6..5452a549388cf9 100644 --- a/deps/uv/src/uv-common.h +++ b/deps/uv/src/uv-common.h @@ -90,7 +90,6 @@ enum { UV_HANDLE_LISTENING = 0x00000040, UV_HANDLE_CONNECTION = 0x00000080, UV_HANDLE_SHUT = 0x00000200, - UV_HANDLE_READ_PARTIAL = 0x00000400, UV_HANDLE_READ_EOF = 0x00000800, /* Used by streams and UDP handles. */ diff --git a/deps/uv/src/win/async.c b/deps/uv/src/win/async.c index b904676e3a72dd..4c2cd265e62e55 100644 --- a/deps/uv/src/win/async.c +++ b/deps/uv/src/win/async.c @@ -23,10 +23,28 @@ #include "uv.h" #include "internal.h" -#include "atomicops-inl.h" #include "handle-inl.h" #include "req-inl.h" +#ifdef _MSC_VER /* MSVC */ + +/* _InterlockedOr8 is supported by MSVC on x32 and x64. It is slightly less + * efficient than InterlockedExchange, but InterlockedExchange8 does not exist, + * and interlocked operations on larger targets might require the target to be + * aligned. */ +#pragma intrinsic(_InterlockedOr8) + +static char uv__atomic_exchange_set(char volatile* target) { + return _InterlockedOr8(target, 1); +} + +#else /* GCC, Clang in mingw mode */ + +static char uv__atomic_exchange_set(char volatile* target) { + return __sync_fetch_and_or(target, 1); +} + +#endif /* _MSC_VER */ void uv__async_endgame(uv_loop_t* loop, uv_async_t* handle) { if (handle->flags & UV_HANDLE_CLOSING && diff --git a/deps/uv/src/win/atomicops-inl.h b/deps/uv/src/win/atomicops-inl.h deleted file mode 100644 index 2f984c6db0b428..00000000000000 --- a/deps/uv/src/win/atomicops-inl.h +++ /dev/null @@ -1,61 +0,0 @@ -/* Copyright Joyent, Inc. and other Node contributors. All rights reserved. - * - * Permission is hereby granted, free of charge, to any person obtaining a copy - * of this software and associated documentation files (the "Software"), to - * deal in the Software without restriction, including without limitation the - * rights to use, copy, modify, merge, publish, distribute, sublicense, and/or - * sell copies of the Software, and to permit persons to whom the Software is - * furnished to do so, subject to the following conditions: - * - * The above copyright notice and this permission notice shall be included in - * all copies or substantial portions of the Software. - * - * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR - * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, - * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE - * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER - * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING - * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS - * IN THE SOFTWARE. - */ - -#ifndef UV_WIN_ATOMICOPS_INL_H_ -#define UV_WIN_ATOMICOPS_INL_H_ - -#include "uv.h" -#include "internal.h" - - -/* Atomic set operation on char */ -#ifdef _MSC_VER /* MSVC */ - -/* _InterlockedOr8 is supported by MSVC on x32 and x64. It is slightly less - * efficient than InterlockedExchange, but InterlockedExchange8 does not exist, - * and interlocked operations on larger targets might require the target to be - * aligned. */ -#pragma intrinsic(_InterlockedOr8) - -static char INLINE uv__atomic_exchange_set(char volatile* target) { - return _InterlockedOr8(target, 1); -} - -#else /* GCC, Clang in mingw mode */ - -static inline char uv__atomic_exchange_set(char volatile* target) { -#if defined(__i386__) || defined(__x86_64__) - /* Mingw-32 version, hopefully this works for 64-bit gcc as well. */ - const char one = 1; - char old_value; - __asm__ __volatile__ ("lock xchgb %0, %1\n\t" - : "=r"(old_value), "=m"(*target) - : "0"(one), "m"(*target) - : "memory"); - return old_value; -#else - return __sync_fetch_and_or(target, 1); -#endif -} - -#endif - -#endif /* UV_WIN_ATOMICOPS_INL_H_ */ diff --git a/deps/uv/src/win/core.c b/deps/uv/src/win/core.c index 5f41c87ad5ed13..317238fd229629 100644 --- a/deps/uv/src/win/core.c +++ b/deps/uv/src/win/core.c @@ -428,6 +428,7 @@ static void uv__poll(uv_loop_t* loop, DWORD timeout) { BOOL success; uv_req_t* req; OVERLAPPED_ENTRY overlappeds[128]; + OVERLAPPED* overlapped; ULONG count; ULONG i; int repeat; @@ -491,7 +492,8 @@ static void uv__poll(uv_loop_t* loop, DWORD timeout) { if (actual_timeout == 0) uv__metrics_inc_events_waiting(loop, 1); - req = uv__overlapped_to_req(overlappeds[i].lpOverlapped); + overlapped = overlappeds[i].lpOverlapped; + req = container_of(overlapped, uv_req_t, u.io.overlapped); uv__insert_pending_req(loop, req); } } @@ -525,6 +527,177 @@ static void uv__poll(uv_loop_t* loop, DWORD timeout) { } +#define DELEGATE_STREAM_REQ(loop, req, method, handle_at) \ + do { \ + switch (((uv_handle_t*) (req)->handle_at)->type) { \ + case UV_TCP: \ + uv__process_tcp_##method##_req(loop, \ + (uv_tcp_t*) ((req)->handle_at), \ + req); \ + break; \ + \ + case UV_NAMED_PIPE: \ + uv__process_pipe_##method##_req(loop, \ + (uv_pipe_t*) ((req)->handle_at), \ + req); \ + break; \ + \ + case UV_TTY: \ + uv__process_tty_##method##_req(loop, \ + (uv_tty_t*) ((req)->handle_at), \ + req); \ + break; \ + \ + default: \ + assert(0); \ + } \ + } while (0) + + +static void uv__process_reqs(uv_loop_t* loop) { + uv_req_t* req; + uv_req_t* first; + uv_req_t* next; + + if (loop->pending_reqs_tail == NULL) + return; + + first = loop->pending_reqs_tail->next_req; + next = first; + loop->pending_reqs_tail = NULL; + + while (next != NULL) { + req = next; + next = req->next_req != first ? req->next_req : NULL; + + switch (req->type) { + case UV_READ: + DELEGATE_STREAM_REQ(loop, req, read, data); + break; + + case UV_WRITE: + DELEGATE_STREAM_REQ(loop, (uv_write_t*) req, write, handle); + break; + + case UV_ACCEPT: + DELEGATE_STREAM_REQ(loop, req, accept, data); + break; + + case UV_CONNECT: + DELEGATE_STREAM_REQ(loop, (uv_connect_t*) req, connect, handle); + break; + + case UV_SHUTDOWN: + DELEGATE_STREAM_REQ(loop, (uv_shutdown_t*) req, shutdown, handle); + break; + + case UV_UDP_RECV: + uv__process_udp_recv_req(loop, (uv_udp_t*) req->data, req); + break; + + case UV_UDP_SEND: + uv__process_udp_send_req(loop, + ((uv_udp_send_t*) req)->handle, + (uv_udp_send_t*) req); + break; + + case UV_WAKEUP: + uv__process_async_wakeup_req(loop, (uv_async_t*) req->data, req); + break; + + case UV_SIGNAL_REQ: + uv__process_signal_req(loop, (uv_signal_t*) req->data, req); + break; + + case UV_POLL_REQ: + uv__process_poll_req(loop, (uv_poll_t*) req->data, req); + break; + + case UV_PROCESS_EXIT: + uv__process_proc_exit(loop, (uv_process_t*) req->data); + break; + + case UV_FS_EVENT_REQ: + uv__process_fs_event_req(loop, req, (uv_fs_event_t*) req->data); + break; + + default: + assert(0); + } + } +} + +#undef DELEGATE_STREAM_REQ + +static void uv__process_endgames(uv_loop_t* loop) { + uv_handle_t* handle; + + while (loop->endgame_handles) { + handle = loop->endgame_handles; + loop->endgame_handles = handle->endgame_next; + + handle->flags &= ~UV_HANDLE_ENDGAME_QUEUED; + + switch (handle->type) { + case UV_TCP: + uv__tcp_endgame(loop, (uv_tcp_t*) handle); + break; + + case UV_NAMED_PIPE: + uv__pipe_endgame(loop, (uv_pipe_t*) handle); + break; + + case UV_TTY: + uv__tty_endgame(loop, (uv_tty_t*) handle); + break; + + case UV_UDP: + uv__udp_endgame(loop, (uv_udp_t*) handle); + break; + + case UV_POLL: + uv__poll_endgame(loop, (uv_poll_t*) handle); + break; + + case UV_TIMER: + uv__timer_close((uv_timer_t*) handle); + uv__handle_close(handle); + break; + + case UV_PREPARE: + case UV_CHECK: + case UV_IDLE: + uv__loop_watcher_endgame(loop, handle); + break; + + case UV_ASYNC: + uv__async_endgame(loop, (uv_async_t*) handle); + break; + + case UV_SIGNAL: + uv__signal_endgame(loop, (uv_signal_t*) handle); + break; + + case UV_PROCESS: + uv__process_endgame(loop, (uv_process_t*) handle); + break; + + case UV_FS_EVENT: + uv__fs_event_endgame(loop, (uv_fs_event_t*) handle); + break; + + case UV_FS_POLL: + uv__fs_poll_endgame(loop, (uv_fs_poll_t*) handle); + break; + + default: + assert(0); + break; + } + } +} + + int uv_run(uv_loop_t *loop, uv_run_mode mode) { DWORD timeout; int r; @@ -681,3 +854,26 @@ int uv__getsockpeername(const uv_handle_t* handle, return 0; } + +void uv__insert_pending_req(uv_loop_t* loop, uv_req_t* req) { + req->next_req = NULL; + if (loop->pending_reqs_tail) { +#ifdef _DEBUG + /* Ensure the request is not already in the queue, or the queue + * will get corrupted. + */ + uv_req_t* current = loop->pending_reqs_tail; + do { + assert(req != current); + current = current->next_req; + } while (current != loop->pending_reqs_tail); +#endif + + req->next_req = loop->pending_reqs_tail->next_req; + loop->pending_reqs_tail->next_req = req; + loop->pending_reqs_tail = req; + } else { + req->next_req = req; + loop->pending_reqs_tail = req; + } +} diff --git a/deps/uv/src/win/fs-event.c b/deps/uv/src/win/fs-event.c index 1bbb8c52be2d82..fd77f2a497844a 100644 --- a/deps/uv/src/win/fs-event.c +++ b/deps/uv/src/win/fs-event.c @@ -158,14 +158,14 @@ int uv_fs_event_start(uv_fs_event_t* handle, const char* path, unsigned int flags) { int is_path_dir; - size_t size; - DWORD attr, last_error; - WCHAR* dir = NULL, *dir_to_watch, *pathw = NULL; + DWORD last_error; + WCHAR* dir, *pathw = NULL; DWORD short_path_buffer_len; WCHAR *short_path_buffer; - WCHAR* short_path, *long_path; + WCHAR* short_path = NULL; + HANDLE file_handle = INVALID_HANDLE_VALUE; + BY_HANDLE_FILE_INFORMATION info; - short_path = NULL; if (uv__is_active(handle)) return UV_EINVAL; @@ -181,43 +181,26 @@ int uv_fs_event_start(uv_fs_event_t* handle, if (last_error) goto error_uv; - /* Determine whether path is a file or a directory. */ - attr = GetFileAttributesW(pathw); - if (attr == INVALID_FILE_ATTRIBUTES) { + file_handle = CreateFileW(pathw, + FILE_LIST_DIRECTORY, + FILE_SHARE_READ|FILE_SHARE_DELETE|FILE_SHARE_WRITE, + NULL, + OPEN_EXISTING, + FILE_FLAG_BACKUP_SEMANTICS|FILE_FLAG_OVERLAPPED, + NULL); + if (file_handle == INVALID_HANDLE_VALUE) { last_error = GetLastError(); goto error; } - is_path_dir = (attr & FILE_ATTRIBUTE_DIRECTORY) ? 1 : 0; - - if (is_path_dir) { - /* path is a directory, so that's the directory that we will watch. */ - - /* Convert to long path. */ - size = GetLongPathNameW(pathw, NULL, 0); - - if (size) { - long_path = (WCHAR*)uv__malloc(size * sizeof(WCHAR)); - if (!long_path) { - uv_fatal_error(ERROR_OUTOFMEMORY, "uv__malloc"); - } - - size = GetLongPathNameW(pathw, long_path, size); - if (size) { - long_path[size] = '\0'; - } else { - uv__free(long_path); - long_path = NULL; - } + if (!GetFileInformationByHandle(file_handle, &info)) { + last_error = GetLastError(); + goto error; + } - if (long_path) { - uv__free(pathw); - pathw = long_path; - } - } + is_path_dir = (info.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY) ? 1 : 0; - dir_to_watch = pathw; - } else { + if (!is_path_dir) { /* * path is a file. So we split path into dir & file parts, and * watch the dir directory. @@ -252,28 +235,50 @@ int uv_fs_event_start(uv_fs_event_t* handle, goto error; } - dir_to_watch = dir; uv__free(short_path); short_path = NULL; uv__free(pathw); pathw = NULL; - } - handle->dir_handle = CreateFileW(dir_to_watch, - FILE_LIST_DIRECTORY, - FILE_SHARE_READ | FILE_SHARE_DELETE | - FILE_SHARE_WRITE, - NULL, - OPEN_EXISTING, - FILE_FLAG_BACKUP_SEMANTICS | - FILE_FLAG_OVERLAPPED, - NULL); - - if (dir) { + /* Open the containing directory and watch that instead. Events for + * other files are filtered out in uv__process_fs_event_req(). + * Not super efficient but c'est ça. + */ + CloseHandle(file_handle); + file_handle = CreateFileW(dir, + FILE_LIST_DIRECTORY, + FILE_SHARE_READ|FILE_SHARE_DELETE|FILE_SHARE_WRITE, + NULL, + OPEN_EXISTING, + FILE_FLAG_BACKUP_SEMANTICS|FILE_FLAG_OVERLAPPED, + NULL); uv__free(dir); dir = NULL; + if (file_handle == INVALID_HANDLE_VALUE) { + last_error = GetLastError(); + goto error; + } + + if (!GetFileInformationByHandle(file_handle, &info)) { + last_error = GetLastError(); + goto error; + } + + /* Race with another process: directory foo in foo/bar was replaced + * with a file. Bail out with an error, we're not recursing upwards. + */ + if (!(info.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY)) { + /* TODO(bnoordhuis) ERROR_DIRECTORY is translated to UV_ENOENT, + * there's currently nothing that maps to UV_ENOTDIR. + */ + last_error = ERROR_DIRECTORY; + goto error; + } } + handle->dir_handle = file_handle; + file_handle = INVALID_HANDLE_VALUE; + if (handle->dir_handle == INVALID_HANDLE_VALUE) { last_error = GetLastError(); goto error; @@ -325,6 +330,11 @@ int uv_fs_event_start(uv_fs_event_t* handle, last_error = uv_translate_sys_error(last_error); error_uv: + if (file_handle != INVALID_HANDLE_VALUE) { + CloseHandle(file_handle); + file_handle = INVALID_HANDLE_VALUE; + } + if (handle->path) { uv__free(handle->path); handle->path = NULL; diff --git a/deps/uv/src/win/fs-fd-hash-inl.h b/deps/uv/src/win/fs-fd-hash-inl.h index 0b532af12d4371..94b4c3cc49b681 100644 --- a/deps/uv/src/win/fs-fd-hash-inl.h +++ b/deps/uv/src/win/fs-fd-hash-inl.h @@ -69,11 +69,11 @@ struct uv__fd_hash_bucket_s { static uv_mutex_t uv__fd_hash_mutex; static struct uv__fd_hash_entry_group_s - uv__fd_hash_entry_initial[UV__FD_HASH_SIZE * UV__FD_HASH_GROUP_SIZE]; + uv__fd_hash_entry_initial[UV__FD_HASH_SIZE]; static struct uv__fd_hash_bucket_s uv__fd_hash[UV__FD_HASH_SIZE]; -INLINE static void uv__fd_hash_init(void) { +static void uv__fd_hash_init(void) { size_t i; int err; @@ -82,10 +82,9 @@ INLINE static void uv__fd_hash_init(void) { uv_fatal_error(err, "uv_mutex_init"); } - for (i = 0; i < ARRAY_SIZE(uv__fd_hash); ++i) { + for (i = 0; i < ARRAY_SIZE(uv__fd_hash); i++) { uv__fd_hash[i].size = 0; - uv__fd_hash[i].data = - uv__fd_hash_entry_initial + i * UV__FD_HASH_GROUP_SIZE; + uv__fd_hash[i].data = &uv__fd_hash_entry_initial[i]; } } @@ -119,7 +118,7 @@ INLINE static void uv__fd_hash_init(void) { FIND_IN_GROUP_PTR(UV__FD_HASH_GROUP_SIZE); \ } while (0) -INLINE static int uv__fd_hash_get(int fd, struct uv__fd_info_s* info) { +static int uv__fd_hash_get(int fd, struct uv__fd_info_s* info) { FIND_COMMON_VARIABLES uv_mutex_lock(&uv__fd_hash_mutex); @@ -134,7 +133,7 @@ INLINE static int uv__fd_hash_get(int fd, struct uv__fd_info_s* info) { return entry_ptr != NULL; } -INLINE static void uv__fd_hash_add(int fd, struct uv__fd_info_s* info) { +static void uv__fd_hash_add(int fd, struct uv__fd_info_s* info) { FIND_COMMON_VARIABLES uv_mutex_lock(&uv__fd_hash_mutex); @@ -164,7 +163,7 @@ INLINE static void uv__fd_hash_add(int fd, struct uv__fd_info_s* info) { uv_mutex_unlock(&uv__fd_hash_mutex); } -INLINE static int uv__fd_hash_remove(int fd, struct uv__fd_info_s* info) { +static int uv__fd_hash_remove(int fd, struct uv__fd_info_s* info) { FIND_COMMON_VARIABLES uv_mutex_lock(&uv__fd_hash_mutex); diff --git a/deps/uv/src/win/fs.c b/deps/uv/src/win/fs.c index 27248f644f381b..4092de0ab31e56 100644 --- a/deps/uv/src/win/fs.c +++ b/deps/uv/src/win/fs.c @@ -167,9 +167,10 @@ typedef enum { FS__STAT_PATH_TRY_SLOW } fs__stat_path_return_t; -INLINE static void fs__stat_assign_statbuf_null(uv_stat_t* statbuf); -INLINE static void fs__stat_assign_statbuf(uv_stat_t* statbuf, - FILE_STAT_BASIC_INFORMATION stat_info, int do_lstat); +static void fs__stat_assign_statbuf_null(uv_stat_t* statbuf); +static void fs__stat_assign_statbuf(uv_stat_t* statbuf, + FILE_STAT_BASIC_INFORMATION stat_info, + int do_lstat); void uv__fs_init(void) { @@ -182,9 +183,9 @@ void uv__fs_init(void) { } -INLINE static int fs__readlink_handle(HANDLE handle, - char** target_ptr, - size_t* target_len_ptr) { +static int fs__readlink_handle(HANDLE handle, + char** target_ptr, + size_t* target_len_ptr) { char buffer[MAXIMUM_REPARSE_DATA_BUFFER_SIZE]; REPARSE_DATA_BUFFER* reparse_data = (REPARSE_DATA_BUFFER*) buffer; WCHAR* w_target; @@ -246,6 +247,32 @@ INLINE static int fs__readlink_handle(HANDLE handle, } } + } else if (reparse_data->ReparseTag == IO_REPARSE_TAG_LX_SYMLINK) { + /* Real (Linux) symlink */ + char* buffer; + char* target; + size_t target_len; + + target_len = (reparse_data->ReparseDataLength - + sizeof(ULONG)); /* Version field */ + buffer = (char*) reparse_data->LinuxSymbolicLinkReparseBuffer.PathBuffer; + + if (target_len_ptr != NULL) { + *target_len_ptr = target_len; + } + + if (target_ptr != NULL) { + assert(*target_ptr == NULL); + target = uv__malloc(target_len + 1); + if (target == NULL) { + return UV_ENOMEM; + } + memcpy(target, buffer, target_len); + target[target_len] = '\0'; + *target_ptr = target; + } + return 0; + } else if (reparse_data->ReparseTag == IO_REPARSE_TAG_MOUNT_POINT) { /* Junction. */ w_target = reparse_data->MountPointReparseBuffer.PathBuffer + @@ -319,8 +346,10 @@ INLINE static int fs__readlink_handle(HANDLE handle, } -INLINE static int fs__capture_path(uv_fs_t* req, const char* path, - const char* new_path, const int copy_path) { +static int fs__capture_path(uv_fs_t* req, + const char* path, + const char* new_path, + const int copy_path) { WCHAR* buf; WCHAR* pos; size_t buf_sz = 0; @@ -394,8 +423,10 @@ INLINE static int fs__capture_path(uv_fs_t* req, const char* path, } -INLINE static void uv__fs_req_init(uv_loop_t* loop, uv_fs_t* req, - uv_fs_type fs_type, const uv_fs_cb cb) { +static void uv__fs_req_init(uv_loop_t* loop, + uv_fs_t* req, + uv_fs_type fs_type, + const uv_fs_cb cb) { uv__once_init(); UV_REQ_INIT(req, UV_FS); req->loop = loop; @@ -1099,7 +1130,7 @@ void fs__write(uv_fs_t* req) { static void fs__unlink_rmdir(uv_fs_t* req, BOOL isrmdir) { const WCHAR* pathw = req->file.pathw; HANDLE handle; - BY_HANDLE_FILE_INFORMATION info; + FILE_BASIC_INFO info; FILE_DISPOSITION_INFORMATION disposition; FILE_DISPOSITION_INFORMATION_EX disposition_ex; IO_STATUS_BLOCK iosb; @@ -1107,7 +1138,7 @@ static void fs__unlink_rmdir(uv_fs_t* req, BOOL isrmdir) { DWORD error; handle = CreateFileW(pathw, - FILE_READ_ATTRIBUTES | FILE_WRITE_ATTRIBUTES | DELETE, + FILE_READ_ATTRIBUTES | DELETE, FILE_SHARE_READ | FILE_SHARE_WRITE | FILE_SHARE_DELETE, NULL, OPEN_EXISTING, @@ -1119,13 +1150,13 @@ static void fs__unlink_rmdir(uv_fs_t* req, BOOL isrmdir) { return; } - if (!GetFileInformationByHandle(handle, &info)) { + if (!GetFileInformationByHandleEx(handle, FileBasicInfo, &info, sizeof info)) { SET_REQ_WIN32_ERROR(req, GetLastError()); CloseHandle(handle); return; } - if (isrmdir && !(info.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY)) { + if (isrmdir && !(info.FileAttributes & FILE_ATTRIBUTE_DIRECTORY)) { /* Error if we're in rmdir mode but it is not a dir. * TODO: change it to UV_NOTDIR in v2. */ SET_REQ_UV_ERROR(req, UV_ENOENT, ERROR_DIRECTORY); @@ -1133,13 +1164,13 @@ static void fs__unlink_rmdir(uv_fs_t* req, BOOL isrmdir) { return; } - if (!isrmdir && (info.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY)) { + if (!isrmdir && (info.FileAttributes & FILE_ATTRIBUTE_DIRECTORY)) { /* If not explicitly allowed, do not allow deletion of directories, unless * it is a symlink. When the path refers to a non-symlink directory, report * EPERM as mandated by POSIX.1. */ /* Check if it is a reparse point. If it's not, it's a normal directory. */ - if (!(info.dwFileAttributes & FILE_ATTRIBUTE_REPARSE_POINT)) { + if (!(info.FileAttributes & FILE_ATTRIBUTE_REPARSE_POINT)) { SET_REQ_WIN32_ERROR(req, ERROR_ACCESS_DENIED); CloseHandle(handle); return; @@ -1178,18 +1209,37 @@ static void fs__unlink_rmdir(uv_fs_t* req, BOOL isrmdir) { error == ERROR_INVALID_PARAMETER /* pre Windows 10 error */ || error == ERROR_INVALID_FUNCTION /* pre Windows 10 1607 error */) { /* posix delete not supported so try fallback */ - if (info.dwFileAttributes & FILE_ATTRIBUTE_READONLY) { + if (info.FileAttributes & FILE_ATTRIBUTE_READONLY) { /* Remove read-only attribute */ FILE_BASIC_INFORMATION basic = { 0 }; - basic.FileAttributes = (info.dwFileAttributes & ~FILE_ATTRIBUTE_READONLY) | + /* We opened the handle above without FILE_WRITE_ATTRIBUTES access, which + * is not required in the happy path. On windows, it would probably + * be ok to ask for them anyway, but Wine has a bug that causes such calls + * to fail (https://bugs.winehq.org/show_bug.cgi?id=50771). To work around + * this bug, we re-open the handle here */ + HANDLE write_attributes_handle; + + basic.FileAttributes = (info.FileAttributes & ~FILE_ATTRIBUTE_READONLY) | FILE_ATTRIBUTE_ARCHIVE; - status = pNtSetInformationFile(handle, + write_attributes_handle = ReOpenFile(handle, FILE_WRITE_ATTRIBUTES, + FILE_SHARE_READ | FILE_SHARE_WRITE | + FILE_SHARE_DELETE, + FILE_FLAG_OPEN_REPARSE_POINT | + FILE_FLAG_BACKUP_SEMANTICS); + if (write_attributes_handle == INVALID_HANDLE_VALUE) { + SET_REQ_WIN32_ERROR(req, GetLastError()); + CloseHandle(handle); + return; + } + + status = pNtSetInformationFile(write_attributes_handle, &iosb, &basic, sizeof basic, FileBasicInformation); + CloseHandle(write_attributes_handle); if (!NT_SUCCESS(status)) { SET_REQ_WIN32_ERROR(req, pRtlNtStatusToDosError(status)); CloseHandle(handle); @@ -1264,7 +1314,7 @@ void fs__mktemp(uv_fs_t* req, uv__fs_mktemp_func func) { tries = TMP_MAX; do { - if (uv__random_rtlgenrandom((void *)&v, sizeof(v)) < 0) { + if (uv__random_winrandom(&v, sizeof(v)) < 0) { SET_REQ_UV_ERROR(req, UV_EIO, ERROR_IO_DEVICE); goto clobber; } @@ -1638,6 +1688,21 @@ void fs__readdir(uv_fs_t* req) { dir = req->ptr; dirents = dir->dirents; memset(dirents, 0, dir->nentries * sizeof(*dir->dirents)); + + /* Initial FindFirstFile can fail with ERROR_FILE_NOT_FOUND, meaning + * no matches, which leaves dir_handle set to INVALID_HANDLE_VALUE, + * see fs__opendir(). Not an actual error, just means no results. + * + * sshfs-win apparently works that way but reading an empty directory + * on a regular drive doesn't trigger that particular code path. + * + * See https://github.com/libuv/libuv/issues/4952 + */ + if (dir->dir_handle == INVALID_HANDLE_VALUE) { + SET_REQ_RESULT(req, 0); + return; + } + find_data = &dir->find_data; dirent_idx = 0; @@ -1698,8 +1763,9 @@ void fs__closedir(uv_fs_t* req) { SET_REQ_RESULT(req, 0); } -INLINE static fs__stat_path_return_t fs__stat_path(WCHAR* path, - uv_stat_t* statbuf, int do_lstat) { +static fs__stat_path_return_t fs__stat_path(WCHAR* path, + uv_stat_t* statbuf, + int do_lstat) { FILE_STAT_BASIC_INFORMATION stat_info; /* Check if the new fast API is available. */ @@ -1735,8 +1801,7 @@ INLINE static fs__stat_path_return_t fs__stat_path(WCHAR* path, return FS__STAT_PATH_SUCCESS; } -INLINE static int fs__stat_handle(HANDLE handle, uv_stat_t* statbuf, - int do_lstat) { +static int fs__stat_handle(HANDLE handle, uv_stat_t* statbuf, int do_lstat) { size_t target_length = 0; FILE_FS_DEVICE_INFORMATION device_info; FILE_ALL_INFORMATION file_info; @@ -1827,7 +1892,7 @@ INLINE static int fs__stat_handle(HANDLE handle, uv_stat_t* statbuf, return 0; } -INLINE static void fs__stat_assign_statbuf_null(uv_stat_t* statbuf) { +static void fs__stat_assign_statbuf_null(uv_stat_t* statbuf) { memset(statbuf, 0, sizeof(uv_stat_t)); statbuf->st_mode = _S_IFCHR; statbuf->st_mode |= (_S_IREAD | _S_IWRITE) | ((_S_IREAD | _S_IWRITE) >> 3) | @@ -1837,8 +1902,9 @@ INLINE static void fs__stat_assign_statbuf_null(uv_stat_t* statbuf) { statbuf->st_rdev = FILE_DEVICE_NULL << 16; } -INLINE static void fs__stat_assign_statbuf(uv_stat_t* statbuf, - FILE_STAT_BASIC_INFORMATION stat_info, int do_lstat) { +static void fs__stat_assign_statbuf(uv_stat_t* statbuf, + FILE_STAT_BASIC_INFORMATION stat_info, + int do_lstat) { statbuf->st_dev = stat_info.VolumeSerialNumber.LowPart; /* Todo: st_mode should probably always be 0666 for everyone. We might also @@ -1943,18 +2009,19 @@ INLINE static void fs__stat_assign_statbuf(uv_stat_t* statbuf, } -INLINE static void fs__stat_prepare_path(WCHAR* pathw) { +static void fs__stat_prepare_path(WCHAR* pathw) { size_t len = wcslen(pathw); - /* TODO: ignore namespaced paths. */ if (len > 1 && pathw[len - 2] != L':' && (pathw[len - 1] == L'\\' || pathw[len - 1] == L'/')) { pathw[len - 1] = '\0'; } } -INLINE static DWORD fs__stat_directory(WCHAR* path, uv_stat_t* statbuf, - int do_lstat, DWORD ret_error) { +static DWORD fs__stat_directory(WCHAR* path, + uv_stat_t* statbuf, + int do_lstat, + DWORD ret_error) { HANDLE handle = INVALID_HANDLE_VALUE; FILE_STAT_BASIC_INFORMATION stat_info; FILE_ID_FULL_DIR_INFORMATION dir_info; @@ -2127,9 +2194,9 @@ INLINE static DWORD fs__stat_directory(WCHAR* path, uv_stat_t* statbuf, return ret_error; } -INLINE static DWORD fs__stat_impl_from_path(WCHAR* path, - int do_lstat, - uv_stat_t* statbuf) { +static DWORD fs__stat_impl_from_path(WCHAR* path, + int do_lstat, + uv_stat_t* statbuf) { HANDLE handle; DWORD flags; DWORD ret; @@ -2174,7 +2241,7 @@ INLINE static DWORD fs__stat_impl_from_path(WCHAR* path, } -INLINE static void fs__stat_impl(uv_fs_t* req, int do_lstat) { +static void fs__stat_impl(uv_fs_t* req, int do_lstat) { DWORD error; error = fs__stat_impl_from_path(req->file.pathw, do_lstat, &req->statbuf); @@ -2197,7 +2264,7 @@ INLINE static void fs__stat_impl(uv_fs_t* req, int do_lstat) { } -INLINE static int fs__fstat_handle(int fd, HANDLE handle, uv_stat_t* statbuf) { +static int fs__fstat_handle(int fd, HANDLE handle, uv_stat_t* statbuf) { DWORD file_type; /* Each file type is processed differently. */ @@ -2273,7 +2340,7 @@ static void fs__rename(uv_fs_t* req) { } -INLINE static void fs__sync_impl(uv_fs_t* req) { +static void fs__sync_impl(uv_fs_t* req) { int fd = req->file.fd; int result; @@ -2579,7 +2646,7 @@ static void fs__fchmod(uv_fs_t* req) { } -INLINE static int fs__utime_handle(HANDLE handle, double atime, double mtime) { +static int fs__utime_handle(HANDLE handle, double atime, double mtime) { FILETIME filetime_as, *filetime_a = &filetime_as; FILETIME filetime_ms, *filetime_m = &filetime_ms; FILETIME now; @@ -2607,10 +2674,10 @@ INLINE static int fs__utime_handle(HANDLE handle, double atime, double mtime) { return 0; } -INLINE static DWORD fs__utime_impl_from_path(WCHAR* path, - double atime, - double mtime, - int do_lutime) { +static DWORD fs__utime_impl_from_path(WCHAR* path, + double atime, + double mtime, + int do_lutime) { HANDLE handle; DWORD flags; DWORD ret; @@ -2640,7 +2707,7 @@ INLINE static DWORD fs__utime_impl_from_path(WCHAR* path, return ret; } -INLINE static void fs__utime_impl(uv_fs_t* req, int do_lutime) { +static void fs__utime_impl(uv_fs_t* req, int do_lutime) { DWORD error; error = fs__utime_impl_from_path(req->file.pathw, @@ -3042,67 +3109,35 @@ static void fs__lchown(uv_fs_t* req) { static void fs__statfs(uv_fs_t* req) { + FILE_FS_FULL_SIZE_INFORMATION info; + IO_STATUS_BLOCK io_status; uv_statfs_t* stat_fs; - DWORD sectors_per_cluster; - DWORD bytes_per_sector; - DWORD free_clusters; - DWORD total_clusters; - WCHAR* pathw; + NTSTATUS nt_status; + HANDLE handle; - pathw = req->file.pathw; -retry_get_disk_free_space: - if (0 == GetDiskFreeSpaceW(pathw, - §ors_per_cluster, - &bytes_per_sector, - &free_clusters, - &total_clusters)) { - DWORD err; - WCHAR* fpart; - size_t len; - DWORD ret; - BOOL is_second; - - err = GetLastError(); - is_second = pathw != req->file.pathw; - if (err != ERROR_DIRECTORY || is_second) { - if (is_second) - uv__free(pathw); + handle = CreateFileW(req->file.pathw, + FILE_READ_ATTRIBUTES, + FILE_SHARE_READ | FILE_SHARE_WRITE | FILE_SHARE_DELETE, + NULL, + OPEN_EXISTING, + FILE_FLAG_BACKUP_SEMANTICS, + NULL); - SET_REQ_WIN32_ERROR(req, err); - return; - } + if (handle == INVALID_HANDLE_VALUE) { + SET_REQ_WIN32_ERROR(req, GetLastError()); + return; + } - len = MAX_PATH + 1; - pathw = uv__malloc(len * sizeof(*pathw)); - if (pathw == NULL) { - SET_REQ_UV_ERROR(req, UV_ENOMEM, ERROR_OUTOFMEMORY); - return; - } -retry_get_full_path_name: - ret = GetFullPathNameW(req->file.pathw, - len, - pathw, - &fpart); - if (ret == 0) { - uv__free(pathw); - SET_REQ_WIN32_ERROR(req, err); - return; - } else if (ret > len) { - len = ret; - pathw = uv__reallocf(pathw, len * sizeof(*pathw)); - if (pathw == NULL) { - SET_REQ_UV_ERROR(req, UV_ENOMEM, ERROR_OUTOFMEMORY); - return; - } - goto retry_get_full_path_name; - } - if (fpart != 0) - *fpart = L'\0'; + nt_status = pNtQueryVolumeInformationFile(handle, + &io_status, + &info, + sizeof info, + FileFsFullSizeInformation); + CloseHandle(handle); - goto retry_get_disk_free_space; - } - if (pathw != req->file.pathw) { - uv__free(pathw); + if (NT_ERROR(nt_status)) { + SET_REQ_WIN32_ERROR(req, pRtlNtStatusToDosError(nt_status)); + return; } stat_fs = uv__malloc(sizeof(*stat_fs)); @@ -3112,10 +3147,12 @@ static void fs__statfs(uv_fs_t* req) { } stat_fs->f_type = 0; - stat_fs->f_bsize = bytes_per_sector * sectors_per_cluster; - stat_fs->f_blocks = total_clusters; - stat_fs->f_bfree = free_clusters; - stat_fs->f_bavail = free_clusters; + stat_fs->f_bsize = (uint64_t)info.SectorsPerAllocationUnit * + info.BytesPerSector; + stat_fs->f_frsize = stat_fs->f_bsize; + stat_fs->f_blocks = info.TotalAllocationUnits.QuadPart; + stat_fs->f_bfree = info.ActualAvailableAllocationUnits.QuadPart; + stat_fs->f_bavail = info.CallerAvailableAllocationUnits.QuadPart; stat_fs->f_files = 0; stat_fs->f_ffree = 0; req->ptr = stat_fs; diff --git a/deps/uv/src/win/getaddrinfo.c b/deps/uv/src/win/getaddrinfo.c index 4b8ee75a0622f6..9404ccf70fabdc 100644 --- a/deps/uv/src/win/getaddrinfo.c +++ b/deps/uv/src/win/getaddrinfo.c @@ -208,7 +208,8 @@ static void uv__getaddrinfo_done(struct uv__work* w, int status) { } complete: - uv__req_unregister(req->loop); + if (req->loop != NULL) + uv__req_unregister(req->loop); /* finally do callback with converted result */ if (req->getaddrinfo_cb) @@ -239,7 +240,7 @@ void uv_freeaddrinfo(struct addrinfo* ai) { */ int uv_getaddrinfo(uv_loop_t* loop, uv_getaddrinfo_t* req, - uv_getaddrinfo_cb getaddrinfo_cb, + uv_getaddrinfo_cb cb, const char* node, const char* service, const struct addrinfo* hints) { @@ -252,12 +253,15 @@ int uv_getaddrinfo(uv_loop_t* loop, size_t hintoff = 0; ssize_t rc; - if (req == NULL || (node == NULL && service == NULL)) { + if (req == NULL || (node == NULL && service == NULL)) return UV_EINVAL; - } + if (loop == NULL && cb != NULL) + return UV_EINVAL; + + uv__once_init(); UV_REQ_INIT(req, UV_GETADDRINFO); - req->getaddrinfo_cb = getaddrinfo_cb; + req->getaddrinfo_cb = cb; req->addrinfo = NULL; req->loop = loop; req->retcode = 0; @@ -330,9 +334,10 @@ int uv_getaddrinfo(uv_loop_t* loop, req->addrinfow = NULL; } - uv__req_register(loop); + if (loop != NULL) + uv__req_register(loop); - if (getaddrinfo_cb) { + if (cb) { uv__work_submit(loop, &req->work_req, UV__WORK_SLOW_IO, diff --git a/deps/uv/src/win/handle-inl.h b/deps/uv/src/win/handle-inl.h index 4722e85790ad3c..e30d148cb026a4 100644 --- a/deps/uv/src/win/handle-inl.h +++ b/deps/uv/src/win/handle-inl.h @@ -95,74 +95,6 @@ INLINE static void uv__want_endgame(uv_loop_t* loop, uv_handle_t* handle) { } -INLINE static void uv__process_endgames(uv_loop_t* loop) { - uv_handle_t* handle; - - while (loop->endgame_handles) { - handle = loop->endgame_handles; - loop->endgame_handles = handle->endgame_next; - - handle->flags &= ~UV_HANDLE_ENDGAME_QUEUED; - - switch (handle->type) { - case UV_TCP: - uv__tcp_endgame(loop, (uv_tcp_t*) handle); - break; - - case UV_NAMED_PIPE: - uv__pipe_endgame(loop, (uv_pipe_t*) handle); - break; - - case UV_TTY: - uv__tty_endgame(loop, (uv_tty_t*) handle); - break; - - case UV_UDP: - uv__udp_endgame(loop, (uv_udp_t*) handle); - break; - - case UV_POLL: - uv__poll_endgame(loop, (uv_poll_t*) handle); - break; - - case UV_TIMER: - uv__timer_close((uv_timer_t*) handle); - uv__handle_close(handle); - break; - - case UV_PREPARE: - case UV_CHECK: - case UV_IDLE: - uv__loop_watcher_endgame(loop, handle); - break; - - case UV_ASYNC: - uv__async_endgame(loop, (uv_async_t*) handle); - break; - - case UV_SIGNAL: - uv__signal_endgame(loop, (uv_signal_t*) handle); - break; - - case UV_PROCESS: - uv__process_endgame(loop, (uv_process_t*) handle); - break; - - case UV_FS_EVENT: - uv__fs_event_endgame(loop, (uv_fs_event_t*) handle); - break; - - case UV_FS_POLL: - uv__fs_poll_endgame(loop, (uv_fs_poll_t*) handle); - break; - - default: - assert(0); - break; - } - } -} - INLINE static HANDLE uv__get_osfhandle(int fd) { /* _get_osfhandle() raises an assert in debug builds if the FD is invalid. diff --git a/deps/uv/src/win/internal.h b/deps/uv/src/win/internal.h index be408af6661026..db488be77d9166 100644 --- a/deps/uv/src/win/internal.h +++ b/deps/uv/src/win/internal.h @@ -269,7 +269,7 @@ int uv__getsockpeername(const uv_handle_t* handle, int* namelen, int delayed_error); -int uv__random_rtlgenrandom(void* buf, size_t buflen); +int uv__random_winrandom(void* buf, size_t buflen); /* diff --git a/deps/uv/src/win/pipe.c b/deps/uv/src/win/pipe.c index d05bfd28aec8b9..8f86a1fee2e4f3 100644 --- a/deps/uv/src/win/pipe.c +++ b/deps/uv/src/win/pipe.c @@ -2149,7 +2149,8 @@ void uv__process_pipe_read_req(uv_loop_t* loop, } else { /* The zero-read completed without error, indicating there is data * available in the kernel buffer. */ - while (handle->flags & UV_HANDLE_READING) { + while (handle->flags & UV_HANDLE_READING && + !(handle->flags & UV_HANDLE_READ_PENDING)) { bytes_requested = 65536; /* Depending on the type of pipe, read either IPC frames or raw data. */ if (handle->ipc) diff --git a/deps/uv/src/win/poll.c b/deps/uv/src/win/poll.c index 7fec2b99650646..a20867a99809f3 100644 --- a/deps/uv/src/win/poll.c +++ b/deps/uv/src/win/poll.c @@ -211,15 +211,11 @@ static SOCKET uv__fast_poll_create_peer_socket(HANDLE iocp, protocol_info->iProtocol, protocol_info, 0, - WSA_FLAG_OVERLAPPED); + WSA_FLAG_OVERLAPPED | WSA_FLAG_NO_HANDLE_INHERIT); if (sock == INVALID_SOCKET) { return INVALID_SOCKET; } - if (!SetHandleInformation((HANDLE) sock, HANDLE_FLAG_INHERIT, 0)) { - goto error; - }; - if (CreateIoCompletionPort((HANDLE) sock, iocp, (ULONG_PTR) sock, diff --git a/deps/uv/src/win/process.c b/deps/uv/src/win/process.c index 27605ca36f4434..45e85ed9613900 100644 --- a/deps/uv/src/win/process.c +++ b/deps/uv/src/win/process.c @@ -1220,7 +1220,7 @@ static int uv__kill(HANDLE process_handle, int signum) { NULL, &localappdata); _snwprintf_s(dump_folder, - sizeof(dump_folder), + ARRAY_SIZE(dump_folder), _TRUNCATE, L"%ls\\CrashDumps", localappdata); @@ -1233,7 +1233,7 @@ static int uv__kill(HANDLE process_handle, int signum) { /* Construct dump filename from process name and PID. */ _snwprintf_s(dump_name, - sizeof(dump_name), + ARRAY_SIZE(dump_name), _TRUNCATE, L"%ls\\%ls.%d.dmp", dump_folder, diff --git a/deps/uv/src/win/req-inl.h b/deps/uv/src/win/req-inl.h index cf16e8ba41fa73..af6fb7522672e5 100644 --- a/deps/uv/src/win/req-inl.h +++ b/deps/uv/src/win/req-inl.h @@ -81,134 +81,6 @@ uv_fatal_error(GetLastError(), "PostQueuedCompletionStatus"); \ } - -INLINE static uv_req_t* uv__overlapped_to_req(OVERLAPPED* overlapped) { - return container_of(overlapped, uv_req_t, u.io.overlapped); -} - - -INLINE static void uv__insert_pending_req(uv_loop_t* loop, uv_req_t* req) { - req->next_req = NULL; - if (loop->pending_reqs_tail) { -#ifdef _DEBUG - /* Ensure the request is not already in the queue, or the queue - * will get corrupted. - */ - uv_req_t* current = loop->pending_reqs_tail; - do { - assert(req != current); - current = current->next_req; - } while(current != loop->pending_reqs_tail); -#endif - - req->next_req = loop->pending_reqs_tail->next_req; - loop->pending_reqs_tail->next_req = req; - loop->pending_reqs_tail = req; - } else { - req->next_req = req; - loop->pending_reqs_tail = req; - } -} - - -#define DELEGATE_STREAM_REQ(loop, req, method, handle_at) \ - do { \ - switch (((uv_handle_t*) (req)->handle_at)->type) { \ - case UV_TCP: \ - uv__process_tcp_##method##_req(loop, \ - (uv_tcp_t*) ((req)->handle_at), \ - req); \ - break; \ - \ - case UV_NAMED_PIPE: \ - uv__process_pipe_##method##_req(loop, \ - (uv_pipe_t*) ((req)->handle_at), \ - req); \ - break; \ - \ - case UV_TTY: \ - uv__process_tty_##method##_req(loop, \ - (uv_tty_t*) ((req)->handle_at), \ - req); \ - break; \ - \ - default: \ - assert(0); \ - } \ - } while (0) - - -INLINE static void uv__process_reqs(uv_loop_t* loop) { - uv_req_t* req; - uv_req_t* first; - uv_req_t* next; - - if (loop->pending_reqs_tail == NULL) - return; - - first = loop->pending_reqs_tail->next_req; - next = first; - loop->pending_reqs_tail = NULL; - - while (next != NULL) { - req = next; - next = req->next_req != first ? req->next_req : NULL; - - switch (req->type) { - case UV_READ: - DELEGATE_STREAM_REQ(loop, req, read, data); - break; - - case UV_WRITE: - DELEGATE_STREAM_REQ(loop, (uv_write_t*) req, write, handle); - break; - - case UV_ACCEPT: - DELEGATE_STREAM_REQ(loop, req, accept, data); - break; - - case UV_CONNECT: - DELEGATE_STREAM_REQ(loop, (uv_connect_t*) req, connect, handle); - break; - - case UV_SHUTDOWN: - DELEGATE_STREAM_REQ(loop, (uv_shutdown_t*) req, shutdown, handle); - break; - - case UV_UDP_RECV: - uv__process_udp_recv_req(loop, (uv_udp_t*) req->data, req); - break; - - case UV_UDP_SEND: - uv__process_udp_send_req(loop, - ((uv_udp_send_t*) req)->handle, - (uv_udp_send_t*) req); - break; - - case UV_WAKEUP: - uv__process_async_wakeup_req(loop, (uv_async_t*) req->data, req); - break; - - case UV_SIGNAL_REQ: - uv__process_signal_req(loop, (uv_signal_t*) req->data, req); - break; - - case UV_POLL_REQ: - uv__process_poll_req(loop, (uv_poll_t*) req->data, req); - break; - - case UV_PROCESS_EXIT: - uv__process_proc_exit(loop, (uv_process_t*) req->data); - break; - - case UV_FS_EVENT_REQ: - uv__process_fs_event_req(loop, req, (uv_fs_event_t*) req->data); - break; - - default: - assert(0); - } - } -} +void uv__insert_pending_req(uv_loop_t* loop, uv_req_t* req); #endif /* UV_WIN_REQ_INL_H_ */ diff --git a/deps/uv/src/win/stream.c b/deps/uv/src/win/stream.c index a53a10b03823e1..ac19d3bdf3882f 100644 --- a/deps/uv/src/win/stream.c +++ b/deps/uv/src/win/stream.c @@ -111,6 +111,23 @@ int uv_read_stop(uv_stream_t* handle) { } +static int uv__check_before_write(uv_stream_t* handle, unsigned int nbufs) { + /* We're not beholden to IOV_MAX but limit the buffer count to catch sign + * conversion bugs where a caller passes in a signed negative number that + * then gets converted to a really large unsigned number. + */ + if (nbufs < 1 || nbufs > 1024*1024) { + return UV_EINVAL; + } + + if (!(handle->flags & UV_HANDLE_WRITABLE)) { + return UV_EPIPE; + } + + return 0; +} + + int uv_write(uv_write_t* req, uv_stream_t* handle, const uv_buf_t bufs[], @@ -119,8 +136,9 @@ int uv_write(uv_write_t* req, uv_loop_t* loop = handle->loop; int err; - if (!(handle->flags & UV_HANDLE_WRITABLE)) { - return UV_EPIPE; + err = uv__check_before_write(handle, nbufs); + if (err != 0) { + return err; } err = ERROR_INVALID_PARAMETER; @@ -156,10 +174,13 @@ int uv_write2(uv_write_t* req, return uv_write(req, handle, bufs, nbufs, cb); } + err = uv__check_before_write(handle, nbufs); + if (err != 0) { + return err; + } + if (handle->type != UV_NAMED_PIPE || !((uv_pipe_t*) handle)->ipc) { return UV_EINVAL; - } else if (!(handle->flags & UV_HANDLE_WRITABLE)) { - return UV_EPIPE; } err = uv__pipe_write( @@ -171,10 +192,15 @@ int uv_write2(uv_write_t* req, int uv_try_write(uv_stream_t* stream, const uv_buf_t bufs[], unsigned int nbufs) { + int err; + + err = uv__check_before_write(stream, nbufs); + if (err != 0) { + return err; + } + if (stream->flags & UV_HANDLE_CLOSING) return UV_EBADF; - if (!(stream->flags & UV_HANDLE_WRITABLE)) - return UV_EPIPE; switch (stream->type) { case UV_TCP: diff --git a/deps/uv/src/win/tcp.c b/deps/uv/src/win/tcp.c index c452c12e8f06f1..683c8d0e9466b4 100644 --- a/deps/uv/src/win/tcp.c +++ b/deps/uv/src/win/tcp.c @@ -49,29 +49,101 @@ static int uv__tcp_nodelay(uv_tcp_t* handle, SOCKET socket, int enable) { } -static int uv__tcp_keepalive(uv_tcp_t* handle, SOCKET socket, int enable, unsigned int delay) { +/* + * Check if Windows version is 10.0.16299 (Windows 10, version 1709) or later. + */ +static int uv__windows10_version1709(void) { + OSVERSIONINFOW os_info; + if (!pRtlGetVersion) + return 0; + os_info.dwOSVersionInfoSize = sizeof(os_info); + os_info.szCSDVersion[0] = L'\0'; + pRtlGetVersion(&os_info); + if (os_info.dwMajorVersion < 10) + return 0; + if (os_info.dwMajorVersion > 10) + return 1; + if (os_info.dwMinorVersion > 0) + return 1; + return os_info.dwBuildNumber >= 16299; +} + + +static int uv__tcp_keepalive(uv_tcp_t* handle, + SOCKET socket, + int on, + unsigned int idle, + unsigned int intvl, + unsigned int cnt) { if (setsockopt(socket, SOL_SOCKET, SO_KEEPALIVE, - (const char*)&enable, - sizeof enable) == -1) { + (const char*)&on, + sizeof on) == -1) { return WSAGetLastError(); } - if (!enable) + if (!on) return 0; - if (delay < 1) + if (idle < 1 || intvl < 1 || cnt < 1) return UV_EINVAL; - if (setsockopt(socket, - IPPROTO_TCP, - TCP_KEEPALIVE, - (const char*)&delay, - sizeof delay) == -1) { - return WSAGetLastError(); + /* Windows 10, version 1709 (build 10.0.16299) and later require second units + * for TCP keepalive options. */ + if (uv__windows10_version1709()) { + if (setsockopt(socket, + IPPROTO_TCP, + TCP_KEEPIDLE, + (const char*)&idle, + sizeof idle) == -1) { + return WSAGetLastError(); + } + + if (setsockopt(socket, + IPPROTO_TCP, + TCP_KEEPINTVL, + (const char*)&intvl, + sizeof intvl) == -1) { + return WSAGetLastError(); + } + + if (setsockopt(socket, + IPPROTO_TCP, + TCP_KEEPCNT, + (const char*)&cnt, + sizeof cnt) == -1) { + return WSAGetLastError(); + } + + return 0; } + /* For those versions prior to Windows 10 version 1709, + * we fall back to SIO_KEEPALIVE_VALS that expects millisecond units. + * The SIO_KEEPALIVE_VALS IOCTL is supported on Windows 2000 + * and later versions of the operating system. */ + struct tcp_keepalive keepalive; + keepalive.onoff = on; + keepalive.keepalivetime = idle * 1000; + keepalive.keepaliveinterval = intvl * 1000; + /* On Windows Vista and later, the number of keep-alive probes + * (data retransmissions) is set to 10 and cannot be changed. + * On Windows Server 2003, Windows XP, and Windows 2000, the default setting + * for number of keep-alive probes is 5 and cannot be changed programmatically. + */ + DWORD dummy; + if (WSAIoctl(socket, + SIO_KEEPALIVE_VALS, + (LPVOID) &keepalive, + sizeof keepalive, + NULL, + 0, + &dummy, + NULL, + NULL) == -1) + return WSAGetLastError(); + return 0; } @@ -132,7 +204,7 @@ static int uv__tcp_set_socket(uv_loop_t* loop, /* TODO: Use stored delay. */ if (handle->flags & UV_HANDLE_TCP_KEEPALIVE) { - err = uv__tcp_keepalive(handle, socket, 1, 60); + err = uv__tcp_keepalive(handle, socket, 1, 60, 1, 10); if (err) return err; } @@ -749,20 +821,6 @@ static int uv__is_loopback(const struct sockaddr_storage* storage) { return 0; } -// Check if Windows version is 10.0.16299 or later -static int uv__is_fast_loopback_fail_supported(void) { - OSVERSIONINFOW os_info; - if (!pRtlGetVersion) - return 0; - pRtlGetVersion(&os_info); - if (os_info.dwMajorVersion < 10) - return 0; - if (os_info.dwMajorVersion > 10) - return 1; - if (os_info.dwMinorVersion > 0) - return 1; - return os_info.dwBuildNumber >= 16299; -} static int uv__tcp_try_connect(uv_connect_t* req, uv_tcp_t* handle, @@ -809,7 +867,7 @@ static int uv__tcp_try_connect(uv_connect_t* req, * is not reachable, instead of waiting for 2s. We do not care if this fails. * This only works on Windows version 10.0.16299 and later. */ - if (uv__is_fast_loopback_fail_supported() && uv__is_loopback(&converted)) { + if (uv__windows10_version1709() && uv__is_loopback(&converted)) { memset(&retransmit_ioctl, 0, sizeof(retransmit_ioctl)); retransmit_ioctl.Rtt = TCP_INITIAL_RTO_NO_SYN_RETRANSMISSIONS; retransmit_ioctl.MaxSynRetransmissions = TCP_INITIAL_RTO_NO_SYN_RETRANSMISSIONS; @@ -1335,22 +1393,30 @@ int uv_tcp_nodelay(uv_tcp_t* handle, int enable) { } -int uv_tcp_keepalive(uv_tcp_t* handle, int enable, unsigned int delay) { +int uv_tcp_keepalive(uv_tcp_t* handle, int on, unsigned int idle) { + return uv_tcp_keepalive_ex(handle, on, idle, 1, 10); +} + +int uv_tcp_keepalive_ex(uv_tcp_t* handle, + int on, + unsigned int idle, + unsigned int intvl, + unsigned int cnt) { int err; if (handle->socket != INVALID_SOCKET) { - err = uv__tcp_keepalive(handle, handle->socket, enable, delay); + err = uv__tcp_keepalive(handle, handle->socket, on, idle, intvl, cnt); if (err) return uv_translate_sys_error(err); } - if (enable) { + if (on) { handle->flags |= UV_HANDLE_TCP_KEEPALIVE; } else { handle->flags &= ~UV_HANDLE_TCP_KEEPALIVE; } - /* TODO: Store delay if handle->socket isn't created yet. */ + /* TODO: Store idle if handle->socket isn't created yet. */ return 0; } diff --git a/deps/uv/src/win/thread.c b/deps/uv/src/win/thread.c index 753cb6a34a5b9a..9c38e3d8b3ca47 100644 --- a/deps/uv/src/win/thread.c +++ b/deps/uv/src/win/thread.c @@ -284,7 +284,7 @@ int uv_thread_equal(const uv_thread_t* t1, const uv_thread_t* t2) { static void uv__thread_name_init_once(void) { HMODULE m; - m = GetModuleHandleA("api-ms-win-core-processthreads-l1-1-3.dll"); + m = GetModuleHandleW(L"api-ms-win-core-processthreads-l1-1-3.dll"); if (m != NULL) { pGetThreadDescription = (void*) GetProcAddress(m, "GetThreadDescription"); pSetThreadDescription = (void*) GetProcAddress(m, "SetThreadDescription"); diff --git a/deps/uv/src/win/udp.c b/deps/uv/src/win/udp.c index e0873c2a899c24..08e358a2cf1092 100644 --- a/deps/uv/src/win/udp.c +++ b/deps/uv/src/win/udp.c @@ -204,7 +204,7 @@ static int uv__udp_maybe_bind(uv_udp_t* handle, * so we just return an error directly when UV_UDP_REUSEPORT is requested * for binding the socket. */ if (flags & UV_UDP_REUSEPORT) - return ERROR_NOT_SUPPORTED; + return UV_ENOTSUP; if ((flags & UV_UDP_IPV6ONLY) && addr->sa_family != AF_INET6) { /* UV_UDP_IPV6ONLY is supported only for IPV6 sockets */ @@ -908,11 +908,15 @@ int uv__udp_is_bound(uv_udp_t* handle) { } -int uv_udp_open(uv_udp_t* handle, uv_os_sock_t sock) { +int uv_udp_open_ex(uv_udp_t* handle, uv_os_sock_t sock, unsigned int flags) { WSAPROTOCOL_INFOW protocol_info; int opt_len; int err; + /* Check for bad flags. */ + if (flags & ~(UV_UDP_REUSEADDR | UV_UDP_REUSEPORT)) + return UV_EINVAL; + /* Detect the address family of the socket. */ opt_len = (int) sizeof protocol_info; if (getsockopt(sock, @@ -930,6 +934,25 @@ int uv_udp_open(uv_udp_t* handle, uv_os_sock_t sock) { if (err) return uv_translate_sys_error(err); + /* There is no SO_REUSEPORT on Windows, Windows only knows SO_REUSEADDR. + * so we just return an error directly when UV_UDP_REUSEPORT is requested + * for binding the socket. */ + if (flags & UV_UDP_REUSEPORT) + return UV_ENOTSUP; + + if (flags & UV_UDP_REUSEADDR) { + DWORD yes = 1; + /* Set SO_REUSEADDR on the socket. */ + if (setsockopt(handle->socket, + SOL_SOCKET, + SO_REUSEADDR, + (char*) &yes, + sizeof yes) == SOCKET_ERROR) { + err = WSAGetLastError(); + return uv_translate_sys_error(err); + } + } + if (uv__udp_is_bound(handle)) handle->flags |= UV_HANDLE_BOUND; @@ -940,6 +963,11 @@ int uv_udp_open(uv_udp_t* handle, uv_os_sock_t sock) { } +int uv_udp_open(uv_udp_t* handle, uv_os_sock_t sock) { + return uv_udp_open_ex(handle, sock, 0); +} + + #define SOCKOPT_SETTER(name, option4, option6, validate) \ int uv_udp_set_##name(uv_udp_t* handle, int value) { \ DWORD optval = (DWORD) value; \ @@ -1149,13 +1177,16 @@ int uv__udp_try_send2(uv_udp_t* handle, uv_buf_t* bufs[/*count*/], unsigned int nbufs[/*count*/], struct sockaddr* addrs[/*count*/]) { - unsigned int i; + int i; int r; - for (i = 0; i < count; i++) { + if (count > INT_MAX) + return UV_EINVAL; + + for (i = 0; i < (int) count; i++) { r = uv_udp_try_send(handle, bufs[i], nbufs[i], addrs[i]); if (r < 0) - return i > 0 ? i : r; /* Error if first packet, else send count. */ + return i > 0 ? i : (int) r; /* Error if first packet, else send count. */ } return i; diff --git a/deps/uv/src/win/util.c b/deps/uv/src/win/util.c index 57061bf8d703fe..fec07b269f7d38 100644 --- a/deps/uv/src/win/util.c +++ b/deps/uv/src/win/util.c @@ -376,10 +376,10 @@ int uv_set_process_title(const char* title) { static int uv__get_process_title(void) { - WCHAR title_w[MAX_TITLE_LENGTH]; + WCHAR title_w[MAX_PATH]; DWORD wlen; - wlen = GetConsoleTitleW(title_w, sizeof(title_w) / sizeof(WCHAR)); + wlen = GetModuleFileNameW(NULL, title_w, MAX_PATH); if (wlen == 0) return uv_translate_sys_error(GetLastError()); @@ -508,15 +508,15 @@ int uv_uptime(double* uptime) { unsigned int uv_available_parallelism(void) { DWORD_PTR procmask; DWORD_PTR sysmask; - int count; - int i; + unsigned count; + unsigned i; /* TODO(bnoordhuis) Use GetLogicalProcessorInformationEx() to support systems * with > 64 CPUs? See https://github.com/libuv/libuv/pull/3458 */ count = 0; if (GetProcessAffinityMask(GetCurrentProcess(), &procmask, &sysmask)) - for (i = 0; i < 8 * sizeof(procmask); i++) + for (i = 0; i < 8u * sizeof(procmask); i++) count += 1 & (procmask >> i); if (count > 0) @@ -867,12 +867,6 @@ int uv_interface_addresses(uv_interface_address_t** addresses_ptr, } -void uv_free_interface_addresses(uv_interface_address_t* addresses, - int count) { - uv__free(addresses); -} - - int uv_getrusage(uv_rusage_t *uv_rusage) { FILETIME create_time, exit_time, kernel_time, user_time; SYSTEMTIME kernel_system_time, user_system_time; @@ -1281,7 +1275,7 @@ int uv_os_environ(uv_env_item_t** envitems, int* count) { FreeEnvironmentStringsW(env); for (i = 0; i < cnt; i++) { - envitem = &(*envitems)[cnt]; + envitem = &(*envitems)[i]; uv__free(envitem->name); } uv__free(*envitems); @@ -1519,20 +1513,26 @@ int uv_os_setpriority(uv_pid_t pid, int priority) { } int uv_thread_getpriority(uv_thread_t tid, int* priority) { + DWORD err; int r; if (priority == NULL) return UV_EINVAL; r = GetThreadPriority(tid); - if (r == THREAD_PRIORITY_ERROR_RETURN) - return uv_translate_sys_error(GetLastError()); + if (r == THREAD_PRIORITY_ERROR_RETURN) { + err = GetLastError(); + if (err == ERROR_INVALID_HANDLE) + return UV_ESRCH; + return uv_translate_sys_error(err); + } *priority = r; return 0; } int uv_thread_setpriority(uv_thread_t tid, int priority) { + DWORD err; int r; switch (priority) { @@ -1555,8 +1555,12 @@ int uv_thread_setpriority(uv_thread_t tid, int priority) { return 0; } - if (r == 0) - return uv_translate_sys_error(GetLastError()); + if (r == 0) { + err = GetLastError(); + if (err == ERROR_INVALID_HANDLE) + return UV_ESRCH; + return uv_translate_sys_error(err); + } return 0; } @@ -1703,6 +1707,9 @@ int uv_os_uname(uv_utsname_t* buffer) { case PROCESSOR_ARCHITECTURE_ARM: uv__strscpy(buffer->machine, "arm", sizeof(buffer->machine)); break; + case PROCESSOR_ARCHITECTURE_ARM64: + uv__strscpy(buffer->machine, "arm64", sizeof(buffer->machine)); + break; default: uv__strscpy(buffer->machine, "unknown", sizeof(buffer->machine)); break; @@ -1735,10 +1742,13 @@ int uv_gettimeofday(uv_timeval64_t* tv) { return 0; } -int uv__random_rtlgenrandom(void* buf, size_t buflen) { +int uv__random_winrandom(void* buf, size_t buflen) { if (buflen == 0) return 0; + if (pProcessPrng != NULL && pProcessPrng(buf, buflen)) + return 0; + if (SystemFunction036(buf, buflen) == FALSE) return UV_EIO; diff --git a/deps/uv/src/win/winapi.c b/deps/uv/src/win/winapi.c index 315a0d49aff50b..7ed08dd2dc8d88 100644 --- a/deps/uv/src/win/winapi.c +++ b/deps/uv/src/win/winapi.c @@ -39,6 +39,9 @@ sNtQueryInformationProcess pNtQueryInformationProcess; /* Powrprof.dll function pointer */ sPowerRegisterSuspendResumeNotification pPowerRegisterSuspendResumeNotification; +/* bcryptprimitives.dll function pointer */ +sProcessPrng pProcessPrng; + /* User32.dll function pointer */ sSetWinEventHook pSetWinEventHook; @@ -53,92 +56,118 @@ void uv__winapi_init(void) { HMODULE powrprof_module; HMODULE user32_module; HMODULE ws2_32_module; + HMODULE bcryptprimitives_module; HMODULE api_win_core_file_module; - ntdll_module = GetModuleHandleA("ntdll.dll"); + union { + FARPROC proc; + sRtlGetVersion pRtlGetVersion; + sRtlNtStatusToDosError pRtlNtStatusToDosError; + sNtDeviceIoControlFile pNtDeviceIoControlFile; + sNtQueryInformationFile pNtQueryInformationFile; + sNtSetInformationFile pNtSetInformationFile; + sNtQueryVolumeInformationFile pNtQueryVolumeInformationFile; + sNtQueryDirectoryFile pNtQueryDirectoryFile; + sNtQuerySystemInformation pNtQuerySystemInformation; + sNtQueryInformationProcess pNtQueryInformationProcess; + sPowerRegisterSuspendResumeNotification pPowerRegisterSuspendResumeNotification; + sProcessPrng pProcessPrng; + sSetWinEventHook pSetWinEventHook; + uv_sGetHostNameW pGetHostNameW; + sGetFileInformationByName pGetFileInformationByName; + } u; + + ntdll_module = GetModuleHandleW(L"ntdll.dll"); if (ntdll_module == NULL) { - uv_fatal_error(GetLastError(), "GetModuleHandleA"); + uv_fatal_error(GetLastError(), "GetModuleHandleW"); } - pRtlGetVersion = (sRtlGetVersion) GetProcAddress(ntdll_module, - "RtlGetVersion"); + u.proc = GetProcAddress(ntdll_module, "RtlGetVersion"); + pRtlGetVersion = u.pRtlGetVersion; - pRtlNtStatusToDosError = (sRtlNtStatusToDosError) GetProcAddress( - ntdll_module, - "RtlNtStatusToDosError"); + u.proc = GetProcAddress(ntdll_module, "RtlNtStatusToDosError"); + pRtlNtStatusToDosError = u.pRtlNtStatusToDosError; if (pRtlNtStatusToDosError == NULL) { uv_fatal_error(GetLastError(), "GetProcAddress"); } - pNtDeviceIoControlFile = (sNtDeviceIoControlFile) GetProcAddress( - ntdll_module, - "NtDeviceIoControlFile"); + u.proc = GetProcAddress(ntdll_module, "NtDeviceIoControlFile"); + pNtDeviceIoControlFile = u.pNtDeviceIoControlFile; if (pNtDeviceIoControlFile == NULL) { uv_fatal_error(GetLastError(), "GetProcAddress"); } - pNtQueryInformationFile = (sNtQueryInformationFile) GetProcAddress( - ntdll_module, - "NtQueryInformationFile"); + u.proc = GetProcAddress(ntdll_module, "NtQueryInformationFile"); + pNtQueryInformationFile = u.pNtQueryInformationFile; if (pNtQueryInformationFile == NULL) { uv_fatal_error(GetLastError(), "GetProcAddress"); } - pNtSetInformationFile = (sNtSetInformationFile) GetProcAddress( - ntdll_module, - "NtSetInformationFile"); + u.proc = GetProcAddress(ntdll_module, "NtSetInformationFile"); + pNtSetInformationFile = u.pNtSetInformationFile; if (pNtSetInformationFile == NULL) { uv_fatal_error(GetLastError(), "GetProcAddress"); } - pNtQueryVolumeInformationFile = (sNtQueryVolumeInformationFile) - GetProcAddress(ntdll_module, "NtQueryVolumeInformationFile"); + u.proc = GetProcAddress(ntdll_module, "NtQueryVolumeInformationFile"); + pNtQueryVolumeInformationFile = u.pNtQueryVolumeInformationFile; if (pNtQueryVolumeInformationFile == NULL) { uv_fatal_error(GetLastError(), "GetProcAddress"); } - pNtQueryDirectoryFile = (sNtQueryDirectoryFile) - GetProcAddress(ntdll_module, "NtQueryDirectoryFile"); + u.proc = GetProcAddress(ntdll_module, "NtQueryDirectoryFile"); + pNtQueryDirectoryFile = u.pNtQueryDirectoryFile; if (pNtQueryDirectoryFile == NULL) { uv_fatal_error(GetLastError(), "GetProcAddress"); } - pNtQuerySystemInformation = (sNtQuerySystemInformation) GetProcAddress( - ntdll_module, - "NtQuerySystemInformation"); + u.proc = GetProcAddress(ntdll_module, "NtQuerySystemInformation"); + pNtQuerySystemInformation = u.pNtQuerySystemInformation; if (pNtQuerySystemInformation == NULL) { uv_fatal_error(GetLastError(), "GetProcAddress"); } - pNtQueryInformationProcess = (sNtQueryInformationProcess) GetProcAddress( - ntdll_module, - "NtQueryInformationProcess"); + u.proc = GetProcAddress(ntdll_module, "NtQueryInformationProcess"); + pNtQueryInformationProcess = u.pNtQueryInformationProcess; if (pNtQueryInformationProcess == NULL) { uv_fatal_error(GetLastError(), "GetProcAddress"); } - powrprof_module = LoadLibraryExA("powrprof.dll", NULL, LOAD_LIBRARY_SEARCH_SYSTEM32); + powrprof_module = LoadLibraryExA("powrprof.dll", + NULL, + LOAD_LIBRARY_SEARCH_SYSTEM32); if (powrprof_module != NULL) { - pPowerRegisterSuspendResumeNotification = (sPowerRegisterSuspendResumeNotification) - GetProcAddress(powrprof_module, "PowerRegisterSuspendResumeNotification"); + u.proc = GetProcAddress(powrprof_module, + "PowerRegisterSuspendResumeNotification"); + pPowerRegisterSuspendResumeNotification = + u.pPowerRegisterSuspendResumeNotification; + } + + bcryptprimitives_module = LoadLibraryExA("bcryptprimitives.dll", + NULL, + LOAD_LIBRARY_SEARCH_SYSTEM32); + if (bcryptprimitives_module != NULL) { + u.proc = GetProcAddress(bcryptprimitives_module, "ProcessPrng"); + pProcessPrng = u.pProcessPrng; } - user32_module = GetModuleHandleA("user32.dll"); + user32_module = GetModuleHandleW(L"user32.dll"); if (user32_module != NULL) { - pSetWinEventHook = (sSetWinEventHook) - GetProcAddress(user32_module, "SetWinEventHook"); + u.proc = GetProcAddress(user32_module, "SetWinEventHook"); + pSetWinEventHook = u.pSetWinEventHook; } - ws2_32_module = GetModuleHandleA("ws2_32.dll"); + ws2_32_module = GetModuleHandleW(L"ws2_32.dll"); if (ws2_32_module != NULL) { - pGetHostNameW = (uv_sGetHostNameW) GetProcAddress( - ws2_32_module, - "GetHostNameW"); + u.proc = GetProcAddress(ws2_32_module, "GetHostNameW"); + pGetHostNameW = u.pGetHostNameW; } - api_win_core_file_module = GetModuleHandleA("api-ms-win-core-file-l2-1-4.dll"); + api_win_core_file_module = + GetModuleHandleW(L"api-ms-win-core-file-l2-1-4.dll"); if (api_win_core_file_module != NULL) { - pGetFileInformationByName = (sGetFileInformationByName)GetProcAddress( - api_win_core_file_module, "GetFileInformationByName"); + u.proc = GetProcAddress(api_win_core_file_module, + "GetFileInformationByName"); + pGetFileInformationByName = u.pGetFileInformationByName; } } diff --git a/deps/uv/src/win/winapi.h b/deps/uv/src/win/winapi.h index b9c9f1abc8899e..2f25dc55fff9f4 100644 --- a/deps/uv/src/win/winapi.h +++ b/deps/uv/src/win/winapi.h @@ -4163,6 +4163,10 @@ typedef struct _REPARSE_DATA_BUFFER { ULONG Flags; WCHAR PathBuffer[1]; } SymbolicLinkReparseBuffer; + struct { + ULONG Version; + UCHAR PathBuffer[1]; + } LinuxSymbolicLinkReparseBuffer; struct { USHORT SubstituteNameOffset; USHORT SubstituteNameLength; @@ -4582,6 +4586,9 @@ typedef struct _SYSTEM_PROCESSOR_PERFORMANCE_INFORMATION { #ifndef IO_REPARSE_TAG_SYMLINK # define IO_REPARSE_TAG_SYMLINK (0xA000000CL) #endif +#ifndef IO_REPARSE_TAG_LX_SYMLINK +# define IO_REPARSE_TAG_LX_SYMLINK (0xA000001DL) +#endif #ifndef IO_REPARSE_TAG_APPEXECLINK # define IO_REPARSE_TAG_APPEXECLINK (0x8000001BL) #endif @@ -4751,6 +4758,8 @@ typedef DWORD (WINAPI *sPowerRegisterSuspendResumeNotification) HANDLE Recipient, _PHPOWERNOTIFY RegistrationHandle); +typedef BOOL (WINAPI *sProcessPrng)(/*_Out_*/PBYTE pbData, SIZE_T cbData); + /* from Winuser.h */ typedef VOID (CALLBACK* WINEVENTPROC) (HWINEVENTHOOK hWinEventHook, @@ -4815,6 +4824,9 @@ extern sNtQueryInformationProcess pNtQueryInformationProcess; /* Powrprof.dll function pointer */ extern sPowerRegisterSuspendResumeNotification pPowerRegisterSuspendResumeNotification; +/* bcryptprimitives.dll function pointer */ +extern sProcessPrng pProcessPrng; + /* User32.dll function pointer */ extern sSetWinEventHook pSetWinEventHook; diff --git a/deps/uv/src/win/winsock.h b/deps/uv/src/win/winsock.h index bb3808a35c27e6..e14b8b515a9935 100644 --- a/deps/uv/src/win/winsock.h +++ b/deps/uv/src/win/winsock.h @@ -38,10 +38,6 @@ # define SO_UPDATE_CONNECT_CONTEXT 0x7010 #endif -#ifndef TCP_KEEPALIVE -# define TCP_KEEPALIVE 3 -#endif - #ifndef IPV6_V6ONLY # define IPV6_V6ONLY 27 #endif @@ -62,6 +58,30 @@ # define MCAST_LEAVE_SOURCE_GROUP 46 #endif +#ifndef SIO_KEEPALIVE_VALS +#define SIO_KEEPALIVE_VALS _WSAIOW(IOC_VENDOR,4) +struct tcp_keepalive { + u_long onoff; + u_long keepalivetime; + u_long keepaliveinterval; +}; +#endif + +/* + * TCP keepalive definitions on MinGW are located in . + */ +#ifndef TCP_KEEPIDLE +#define TCP_KEEPIDLE 0x03 /* start keepalives after this period */ +#endif + +#ifndef TCP_KEEPINTVL +#define TCP_KEEPINTVL 0x11 /* interval between keepalives */ +#endif + +#ifndef TCP_KEEPCNT +#define TCP_KEEPCNT 0x10 /* number of keepalives before death */ +#endif + /* * TDI defines that are only in the DDK. * We only need receive flags so far. diff --git a/deps/uv/test/run-benchmarks.c b/deps/uv/test/run-benchmarks.c index 2b343da4c91731..d7290f968e2a4a 100644 --- a/deps/uv/test/run-benchmarks.c +++ b/deps/uv/test/run-benchmarks.c @@ -31,7 +31,7 @@ #ifdef __MVS__ #include "zos-base.h" /* Initialize environment and zoslib */ -__attribute__((constructor)) void init() { +__attribute__((constructor)) void init(void) { zoslib_config_t config; init_zoslib_config(&config); init_zoslib(config); diff --git a/deps/uv/test/run-tests.c b/deps/uv/test/run-tests.c index 17fb0e0cf73d25..9c2574ebf8ab01 100644 --- a/deps/uv/test/run-tests.c +++ b/deps/uv/test/run-tests.c @@ -40,7 +40,7 @@ #ifdef __MVS__ #include "zos-base.h" /* Initialize environment and zoslib */ -__attribute__((constructor)) void init() { +__attribute__((constructor)) void init(void) { zoslib_config_t config; init_zoslib_config(&config); init_zoslib(config); @@ -214,7 +214,10 @@ static int maybe_run_test(int argc, char **argv) { #ifdef _WIN32 DWORD flags; HMODULE kernelbase_module; - sCompareObjectHandles pCompareObjectHandles; /* function introduced in Windows 10 */ + union { + FARPROC proc; + sCompareObjectHandles pCompareObjectHandles; /* Windows >= 10 */ + } u; #endif notify_parent_process(); ASSERT_EQ(sizeof(closed_fd), read(0, &closed_fd, sizeof(closed_fd))); @@ -223,11 +226,10 @@ static int maybe_run_test(int argc, char **argv) { ASSERT_GT((intptr_t) closed_fd, 0); ASSERT_GT((intptr_t) open_fd, 0); ASSERT_NE(0, GetHandleInformation(open_fd, &flags)); - kernelbase_module = GetModuleHandleA("kernelbase.dll"); - pCompareObjectHandles = (sCompareObjectHandles) - GetProcAddress(kernelbase_module, "CompareObjectHandles"); - ASSERT_NE(pCompareObjectHandles == NULL || \ - !pCompareObjectHandles(open_fd, closed_fd), 0); + kernelbase_module = GetModuleHandleW(L"kernelbase.dll"); + u.proc = GetProcAddress(kernelbase_module, "CompareObjectHandles"); + if (u.pCompareObjectHandles != NULL) + ASSERT_EQ(FALSE, u.pCompareObjectHandles(open_fd, closed_fd)); #else ASSERT_GT(open_fd, 2); ASSERT_GT(closed_fd, 2); diff --git a/deps/uv/test/runner-win.c b/deps/uv/test/runner-win.c index 8035ca62f8ec9f..52e0f64debfefd 100644 --- a/deps/uv/test/runner-win.c +++ b/deps/uv/test/runner-win.c @@ -340,7 +340,7 @@ static int clear_line(void) { } -void rewind_cursor() { +void rewind_cursor(void) { if (clear_line() == -1) { /* If clear_line fails (stdout is not a console), print a newline. */ fprintf(stderr, "\n"); diff --git a/deps/uv/test/runner.h b/deps/uv/test/runner.h index ff7d4eec9b6870..23b7aa096a2158 100644 --- a/deps/uv/test/runner.h +++ b/deps/uv/test/runner.h @@ -22,7 +22,6 @@ #ifndef RUNNER_H_ #define RUNNER_H_ -#include /* PATH_MAX */ #include /* FILE */ @@ -57,7 +56,7 @@ typedef struct { task_entry_t TASKS[] = { #define TASK_LIST_END \ - { 0, 0, 0, 0, 0, 0 } \ + { 0, 0, 0, 0, 0, 0 } \ }; #define TEST_DECLARE(name) \ @@ -69,6 +68,23 @@ typedef struct { #define TEST_ENTRY_CUSTOM(name, is_helper, show_output, timeout) \ { #name, #name, &run_test_##name, is_helper, show_output, timeout }, +/* + * Macros for fs tests that, on linux, generate both normal and io_uring + * versions. + */ +#ifdef __linux__ +#define TEST_FS_DECLARE(name) \ + TEST_DECLARE(name) \ + TEST_DECLARE(name##_iouring) + +#define TEST_FS_ENTRY(name) \ + TEST_ENTRY(name) \ + TEST_ENTRY(name##_iouring) +#else +#define TEST_FS_DECLARE(name) TEST_DECLARE(name) +#define TEST_FS_ENTRY(name) TEST_ENTRY(name) +#endif + #define BENCHMARK_DECLARE(name) \ int run_benchmark_##name(void); diff --git a/deps/uv/test/task.h b/deps/uv/test/task.h index e25a9c9a1386aa..45674ff1901d5a 100644 --- a/deps/uv/test/task.h +++ b/deps/uv/test/task.h @@ -53,14 +53,10 @@ # define TEST_PIPENAME "\\\\.\\pipe\\uv-test" # define TEST_PIPENAME_2 "\\\\.\\pipe\\uv-test2" # define TEST_PIPENAME_3 "\\\\.\\pipe\\uv-test3" -#elif __ANDROID__ -# define TEST_PIPENAME "/data/local/tmp/uv-test-sock" -# define TEST_PIPENAME_2 "/data/local/tmp/uv-test-sock2" -# define TEST_PIPENAME_3 "/data/local/tmp/uv-test-sock3" #else -# define TEST_PIPENAME "/tmp/uv-test-sock" -# define TEST_PIPENAME_2 "/tmp/uv-test-sock2" -# define TEST_PIPENAME_3 "/tmp/uv-test-sock3" +# define TEST_PIPENAME "uv-test-sock" +# define TEST_PIPENAME_2 "uv-test-sock2" +# define TEST_PIPENAME_3 "uv-test-sock3" #endif #ifdef _WIN32 @@ -113,8 +109,8 @@ typedef enum { #define ASSERT_BASE(a, operator, b, type, conv) \ do { \ - volatile type eval_a = (type) (a); \ - volatile type eval_b = (type) (b); \ + type const eval_a = (a); \ + type const eval_b = (b); \ if (!(eval_a operator eval_b)) { \ fprintf(stderr, \ "Assertion failed in %s on line %d: `%s %s %s` " \ @@ -131,6 +127,21 @@ typedef enum { } \ } while (0) +#define ASSERT_OK(a) \ + do { \ + int64_t const eval_a = (a); \ + if (eval_a) { \ + fprintf(stderr, \ + "Assertion failed in %s on line %d: `%s` okay " \ + "(error: %"PRId64")\n", \ + __FILE__, \ + __LINE__, \ + #a, \ + eval_a); \ + abort(); \ + } \ + } while (0) + #define ASSERT_BASE_STR(expr, a, operator, b, type, conv) \ do { \ if (!(expr)) { \ @@ -173,8 +184,8 @@ typedef enum { do { \ if (!(expr)) { \ int i; \ - unsigned char* a_ = (unsigned char*)a; \ - unsigned char* b_ = (unsigned char*)b; \ + const unsigned char* a_ = (a); \ + const unsigned char* b_ = (b); \ fprintf(stderr, \ "Assertion failed in %s on line %d: `%s %s %s` (", \ __FILE__, \ @@ -202,7 +213,6 @@ typedef enum { #define ASSERT_LE(a, b) ASSERT_BASE(a, <=, b, int64_t, PRId64) #define ASSERT_LT(a, b) ASSERT_BASE(a, <, b, int64_t, PRId64) #define ASSERT_NE(a, b) ASSERT_BASE(a, !=, b, int64_t, PRId64) -#define ASSERT_OK(a) ASSERT_BASE(a, ==, 0, int64_t, PRId64) #define ASSERT_UINT64_EQ(a, b) ASSERT_BASE(a, ==, b, uint64_t, PRIu64) #define ASSERT_UINT64_GE(a, b) ASSERT_BASE(a, >=, b, uint64_t, PRIu64) @@ -211,12 +221,12 @@ typedef enum { #define ASSERT_UINT64_LT(a, b) ASSERT_BASE(a, <, b, uint64_t, PRIu64) #define ASSERT_UINT64_NE(a, b) ASSERT_BASE(a, !=, b, uint64_t, PRIu64) -#define ASSERT_DOUBLE_EQ(a, b) ASSERT_BASE(a, ==, b, double, "f") -#define ASSERT_DOUBLE_GE(a, b) ASSERT_BASE(a, >=, b, double, "f") -#define ASSERT_DOUBLE_GT(a, b) ASSERT_BASE(a, >, b, double, "f") -#define ASSERT_DOUBLE_LE(a, b) ASSERT_BASE(a, <=, b, double, "f") -#define ASSERT_DOUBLE_LT(a, b) ASSERT_BASE(a, <, b, double, "f") -#define ASSERT_DOUBLE_NE(a, b) ASSERT_BASE(a, !=, b, double, "f") +#define ASSERT_DOUBLE_EQ(a, b) ASSERT_BASE(a, ==, b, volatile double, "f") +#define ASSERT_DOUBLE_GE(a, b) ASSERT_BASE(a, >=, b, volatile double, "f") +#define ASSERT_DOUBLE_GT(a, b) ASSERT_BASE(a, >, b, volatile double, "f") +#define ASSERT_DOUBLE_LE(a, b) ASSERT_BASE(a, <=, b, volatile double, "f") +#define ASSERT_DOUBLE_LT(a, b) ASSERT_BASE(a, <, b, volatile double, "f") +#define ASSERT_DOUBLE_NE(a, b) ASSERT_BASE(a, !=, b, volatile double, "f") #define ASSERT_STR_EQ(a, b) \ ASSERT_BASE_STR(strcmp(a, b) == 0, a, == , b, char*, "s") @@ -237,19 +247,23 @@ typedef enum { ASSERT_BASE_HEX(memcmp(a, b, size) != 0, a, !=, b, size) #define ASSERT_NULL(a) \ - ASSERT_BASE(a, ==, NULL, void*, "p") + ASSERT_BASE(a, ==, NULL, const void*, "p") #define ASSERT_NOT_NULL(a) \ - ASSERT_BASE(a, !=, NULL, void*, "p") + ASSERT_BASE(a, !=, NULL, const void*, "p") #define ASSERT_PTR_EQ(a, b) \ - ASSERT_BASE(a, ==, b, void*, "p") + ASSERT_BASE(a, ==, b, const void*, "p") #define ASSERT_PTR_NE(a, b) \ - ASSERT_BASE(a, !=, b, void*, "p") + ASSERT_BASE(a, !=, b, const void*, "p") #define ASSERT_PTR_LT(a, b) \ - ASSERT_BASE(a, <, b, void*, "p") + ASSERT_BASE(a, <, b, const void*, "p") +#define ASSERT_PTR_LE(a, b) \ + ASSERT_BASE(a, <=, b, const void*, "p") +#define ASSERT_PTR_GE(a, b) \ + ASSERT_BASE(a, >=, b, const void*, "p") /* This macro cleans up the event loop. This is used to avoid valgrind * warnings about memory being "leaked" by the event loop. @@ -270,6 +284,19 @@ typedef enum { int run_benchmark_##name(void); \ int run_benchmark_##name(void) +#ifdef __linux__ +#define TEST_FS_IMPL(name) \ + int run_test_##name(void); \ + int run_test_##name##_iouring(void) { \ + uv_os_setenv("UV_USE_IO_URING", "1"); \ + uv_loop_configure(uv_default_loop(), UV_LOOP_USE_IO_URING_SQPOLL); \ + return run_test_##name(); \ + } \ + int run_test_##name(void) +#else +#define TEST_FS_IMPL(name) TEST_IMPL(name) +#endif + #define HELPER_IMPL(name) \ int run_helper_##name(void); \ int run_helper_##name(void) @@ -358,7 +385,7 @@ UNUSED static int can_ipv6(void) { return supported; } -#if defined(__CYGWIN__) || defined(__MSYS__) || defined(__PASE__) +#if defined(__CYGWIN__) || defined(__MSYS__) || defined(__PASE__) || defined(__QNX__) # define NO_FS_EVENTS "Filesystem watching not supported on this platform." #endif diff --git a/deps/uv/test/test-embed.c b/deps/uv/test/test-embed.c index 6e9917239aa562..84fc7cad31fd49 100644 --- a/deps/uv/test/test-embed.c +++ b/deps/uv/test/test-embed.c @@ -25,7 +25,7 @@ #include #include -#if !defined(_WIN32) && !defined(_AIX) +#if !defined(_WIN32) && !defined(_AIX) && !defined(__QNX__) #include #endif @@ -56,7 +56,7 @@ TEST_IMPL(embed) { ASSERT_LE(0, uv_barrier_wait(&barrier)); while (uv_loop_alive(loop)) { -#if defined(_WIN32) || defined(_AIX) +#if defined(_WIN32) || defined(_AIX) || defined(__QNX__) ASSERT_LE(0, uv_run(loop, UV_RUN_ONCE)); #else int rc; diff --git a/deps/uv/test/test-fs-copyfile.c b/deps/uv/test/test-fs-copyfile.c index f7a0c2363e8f1f..0cdf42aadcb197 100644 --- a/deps/uv/test/test-fs-copyfile.c +++ b/deps/uv/test/test-fs-copyfile.c @@ -102,7 +102,7 @@ static void touch_file(const char* name, unsigned int size) { } -TEST_IMPL(fs_copyfile) { +TEST_FS_IMPL(fs_copyfile) { const char src[] = "test_file_src"; uv_loop_t* loop; uv_fs_t req; @@ -220,8 +220,13 @@ TEST_IMPL(fs_copyfile) { r = uv_fs_copyfile(NULL, &req, fixture, dst, 0, NULL); /* On IBMi PASE, qsecofr users can overwrite read-only files */ # ifndef __PASE__ - ASSERT_EQ(req.result, UV_EACCES); - ASSERT_EQ(r, UV_EACCES); + if (0 == getuid()) { /* If root. */ + ASSERT_EQ(req.result, 0); + ASSERT_EQ(r, 0); + } else { + ASSERT_EQ(req.result, UV_EACCES); + ASSERT_EQ(r, UV_EACCES); + } # endif uv_fs_req_cleanup(&req); #endif diff --git a/deps/uv/test/test-fs-fd-hash.c b/deps/uv/test/test-fs-fd-hash.c index 4ed3d548e62171..a9ae25223ba9f3 100644 --- a/deps/uv/test/test-fs-fd-hash.c +++ b/deps/uv/test/test-fs-fd-hash.c @@ -66,17 +66,25 @@ void assert_removal(int fd) { /* Run a function for a set of values up to a very high number */ #define RUN_HASH(function) \ do { \ + uint64_t before = uv_hrtime(); \ for (fd = 0; fd < HASH_MAX; fd += HASH_INC) { \ function(fd); \ } \ + uint64_t after = uv_hrtime(); \ + double seconds = (after - before) / 1e9; \ + printf("%.5f hash %s\n", seconds, #function); \ } while (0) /* Run a function for a set of values that will cause many collisions */ #define RUN_COLLISIONS(function) \ do { \ + uint64_t before = uv_hrtime(); \ for (fd = 1; fd < BUCKET_MAX; fd += BUCKET_INC) { \ function(fd); \ } \ + uint64_t after = uv_hrtime(); \ + double seconds = (after - before) / 1e9; \ + printf("%.5f coll %s\n", seconds, #function); \ } while (0) diff --git a/deps/uv/test/test-fs-readdir.c b/deps/uv/test/test-fs-readdir.c index bacea653587c51..6ecfc077e155e8 100644 --- a/deps/uv/test/test-fs-readdir.c +++ b/deps/uv/test/test-fs-readdir.c @@ -96,7 +96,7 @@ static void empty_opendir_cb(uv_fs_t* req) { * of the uv_fs_opendir() -> uv_fs_readdir() -> uv_fs_closedir() sequence work * as expected when processing an empty directory. */ -TEST_IMPL(fs_readdir_empty_dir) { +TEST_FS_IMPL(fs_readdir_empty_dir) { const char* path; uv_fs_t mkdir_req; uv_fs_t rmdir_req; @@ -178,7 +178,7 @@ static void non_existing_opendir_cb(uv_fs_t* req) { ++non_existing_opendir_cb_count; } -TEST_IMPL(fs_readdir_non_existing_dir) { +TEST_FS_IMPL(fs_readdir_non_existing_dir) { const char* path; int r; @@ -230,7 +230,7 @@ static void file_opendir_cb(uv_fs_t* req) { ++file_opendir_cb_count; } -TEST_IMPL(fs_readdir_file) { +TEST_FS_IMPL(fs_readdir_file) { const char* path; int r; @@ -342,7 +342,7 @@ static void non_empty_opendir_cb(uv_fs_t* req) { ++non_empty_opendir_cb_count; } -TEST_IMPL(fs_readdir_non_empty_dir) { +TEST_FS_IMPL(fs_readdir_non_empty_dir) { size_t entries_count; uv_fs_t mkdir_req; uv_fs_t rmdir_req; @@ -518,7 +518,7 @@ static void cleanup_symlink_test_files(void) { uv_fs_req_cleanup(&req); } -TEST_IMPL(fs_readdir_symlink) { +TEST_FS_IMPL(fs_readdir_symlink) { uv_fs_t mkdir_req; uv_fs_t symlink_req; diff --git a/deps/uv/test/test-fs.c b/deps/uv/test/test-fs.c index 4761b15bad188b..2a20baf67cdfce 100644 --- a/deps/uv/test/test-fs.c +++ b/deps/uv/test/test-fs.c @@ -23,6 +23,7 @@ #include "task.h" #include +#include /* offsetof */ #include /* memset */ #include #include @@ -37,6 +38,13 @@ # ifndef ERROR_SYMLINK_NOT_SUPPORTED # define ERROR_SYMLINK_NOT_SUPPORTED 1464 # endif +# ifndef REPARSE_DATA_BUFFER_HEADER_SIZE +# define REPARSE_DATA_BUFFER_HEADER_SIZE \ + offsetof(REPARSE_DATA_BUFFER, GenericReparseBuffer) +# endif +# ifndef IO_REPARSE_TAG_LX_SYMLINK +# define IO_REPARSE_TAG_LX_SYMLINK (0xA000001DL) +# endif # ifndef S_IFIFO # define S_IFIFO _S_IFIFO # endif @@ -65,18 +73,30 @@ static const int is_win32 = 1; static const int is_win32 = 0; #endif -#if defined(__APPLE__) || defined(__SUNPRO_C) -static const int is_apple_or_sunpro_c = 1; -#else -static const int is_apple_or_sunpro_c = 0; -#endif - typedef struct { const char* path; double atime; double mtime; } utime_check_t; +#ifdef _WIN32 +# ifndef REPARSE_DATA_BUFFER +typedef struct _REPARSE_DATA_BUFFER { + ULONG ReparseTag; + USHORT ReparseDataLength; + USHORT Reserved; + union { + struct { + ULONG Version; + UCHAR PathBuffer[1]; + } LinuxSymbolicLinkReparseBuffer; + struct { + UCHAR DataBuffer[1]; + } GenericReparseBuffer; + } DUMMYUNIONNAME; +} REPARSE_DATA_BUFFER, *PREPARSE_DATA_BUFFER; +# endif +#endif static int dummy_cb_count; static int close_cb_count; @@ -152,7 +172,7 @@ int uv_test_getiovmax(void) { int uv_test_getiovmax(void) { #if defined(IOV_MAX) return IOV_MAX; -#elif defined(_SC_IOV_MAX) +#elif defined(_SC_IOV_MAX) && !defined(__QNX__) static int iovmax = -1; if (iovmax == -1) { iovmax = sysconf(_SC_IOV_MAX); @@ -356,13 +376,14 @@ static void statfs_cb(uv_fs_t* req) { stats = req->ptr; #if defined(_WIN32) || defined(__sun) || defined(_AIX) || defined(__MVS__) || \ - defined(__OpenBSD__) || defined(__NetBSD__) + defined(__OpenBSD__) || defined(__NetBSD__) || defined(__QNX__) ASSERT_OK(stats->f_type); #else ASSERT_UINT64_GT(stats->f_type, 0); #endif ASSERT_GT(stats->f_bsize, 0); + ASSERT_GT(stats->f_frsize, 0); ASSERT_GT(stats->f_blocks, 0); ASSERT_LE(stats->f_bfree, stats->f_blocks); ASSERT_LE(stats->f_bavail, stats->f_bfree); @@ -728,7 +749,7 @@ static void open_loop_cb(uv_fs_t* req) { } -TEST_IMPL(fs_file_noent) { +TEST_FS_IMPL(fs_file_noent) { uv_fs_t req; int r; @@ -753,7 +774,7 @@ TEST_IMPL(fs_file_noent) { return 0; } -TEST_IMPL(fs_file_nametoolong) { +TEST_FS_IMPL(fs_file_nametoolong) { uv_fs_t req; int r; char name[TOO_LONG_NAME_LENGTH + 1]; @@ -779,7 +800,7 @@ TEST_IMPL(fs_file_nametoolong) { return 0; } -TEST_IMPL(fs_file_loop) { +TEST_FS_IMPL(fs_file_loop) { uv_fs_t req; int r; @@ -855,9 +876,10 @@ static void check_utime(const char* path, ASSERT_LE(s->st_atim.tv_sec, (long) atime); } else { double st_atim; +#ifndef __APPLE__ /* TODO(vtjnash): would it be better to normalize this? */ - if (!is_apple_or_sunpro_c) - ASSERT_DOUBLE_GE(s->st_atim.tv_nsec, 0); + ASSERT_DOUBLE_GE(s->st_atim.tv_nsec, 0); +#endif st_atim = s->st_atim.tv_sec + s->st_atim.tv_nsec / 1e9; /* Linux does not allow reading reliably the atime of a symlink * since readlink() can update it @@ -890,9 +912,10 @@ static void check_utime(const char* path, ASSERT_LE(s->st_mtim.tv_sec, (long) mtime); } else { double st_mtim; +#ifndef __APPLE__ /* TODO(vtjnash): would it be better to normalize this? */ - if (!is_apple_or_sunpro_c) - ASSERT_DOUBLE_GE(s->st_mtim.tv_nsec, 0); + ASSERT_DOUBLE_GE(s->st_mtim.tv_nsec, 0); +#endif st_mtim = s->st_mtim.tv_sec + s->st_mtim.tv_nsec / 1e9; ASSERT_DOUBLE_EQ(st_mtim, mtime); } @@ -953,7 +976,7 @@ static void lutime_cb(uv_fs_t* req) { } -TEST_IMPL(fs_file_async) { +TEST_FS_IMPL(fs_file_async) { int r; /* Setup. */ @@ -1099,7 +1122,7 @@ static void fs_file_sync(int add_flags) { unlink("test_file"); unlink("test_file2"); } -TEST_IMPL(fs_file_sync) { +TEST_FS_IMPL(fs_file_sync) { fs_file_sync(0); fs_file_sync(UV_FS_O_FILEMAP); @@ -1107,7 +1130,7 @@ TEST_IMPL(fs_file_sync) { return 0; } -TEST_IMPL(fs_posix_delete) { +TEST_FS_IMPL(fs_posix_delete) { int r; /* Setup. */ @@ -1180,7 +1203,7 @@ static void fs_file_write_null_buffer(int add_flags) { unlink("test_file"); } -TEST_IMPL(fs_file_write_null_buffer) { +TEST_FS_IMPL(fs_file_write_null_buffer) { fs_file_write_null_buffer(0); fs_file_write_null_buffer(UV_FS_O_FILEMAP); @@ -1189,7 +1212,7 @@ TEST_IMPL(fs_file_write_null_buffer) { } -TEST_IMPL(fs_async_dir) { +TEST_FS_IMPL(fs_async_dir) { int r; uv_dirent_t dent; @@ -1373,17 +1396,17 @@ static void sendfile_setup(int f) { } -TEST_IMPL(fs_async_sendfile) { +TEST_FS_IMPL(fs_async_sendfile) { return test_sendfile(sendfile_setup, sendfile_cb, 65545); } -TEST_IMPL(fs_async_sendfile_nodata) { +TEST_FS_IMPL(fs_async_sendfile_nodata) { return test_sendfile(NULL, sendfile_nodata_cb, 0); } -TEST_IMPL(fs_mkdtemp) { +TEST_FS_IMPL(fs_mkdtemp) { int r; const char* path_template = "test_dir_XXXXXX"; @@ -1414,7 +1437,7 @@ TEST_IMPL(fs_mkdtemp) { } -TEST_IMPL(fs_mkstemp) { +TEST_FS_IMPL(fs_mkstemp) { int r; int fd; const char path_template[] = "test_file_XXXXXX"; @@ -1482,7 +1505,7 @@ TEST_IMPL(fs_mkstemp) { } -TEST_IMPL(fs_fstat) { +TEST_FS_IMPL(fs_fstat) { int r; uv_fs_t req; uv_file file; @@ -1646,7 +1669,7 @@ TEST_IMPL(fs_fstat) { } -TEST_IMPL(fs_fstat_st_dev) { +TEST_FS_IMPL(fs_fstat_st_dev) { uv_fs_t req; uv_fs_t req_link; uv_loop_t* loop = uv_default_loop(); @@ -1690,7 +1713,7 @@ TEST_IMPL(fs_fstat_st_dev) { } -TEST_IMPL(fs_fstat_stdio) { +TEST_FS_IMPL(fs_fstat_stdio) { int fd; int res; uv_fs_t req; @@ -1729,7 +1752,7 @@ TEST_IMPL(fs_fstat_stdio) { } -TEST_IMPL(fs_access) { +TEST_FS_IMPL(fs_access) { int r; uv_fs_t req; uv_file file; @@ -1805,7 +1828,7 @@ TEST_IMPL(fs_access) { } -TEST_IMPL(fs_chmod) { +TEST_FS_IMPL(fs_chmod) { int r; uv_fs_t req; uv_file file; @@ -1903,7 +1926,7 @@ TEST_IMPL(fs_chmod) { } -TEST_IMPL(fs_unlink_readonly) { +TEST_FS_IMPL(fs_unlink_readonly) { int r; uv_fs_t req; uv_file file; @@ -1960,7 +1983,7 @@ TEST_IMPL(fs_unlink_readonly) { } #ifdef _WIN32 -TEST_IMPL(fs_unlink_archive_readonly) { +TEST_FS_IMPL(fs_unlink_archive_readonly) { int r; uv_fs_t req; uv_file file; @@ -2016,7 +2039,7 @@ TEST_IMPL(fs_unlink_archive_readonly) { } #endif -TEST_IMPL(fs_chown) { +TEST_FS_IMPL(fs_chown) { int r; uv_fs_t req; uv_file file; @@ -2109,7 +2132,7 @@ TEST_IMPL(fs_chown) { } -TEST_IMPL(fs_link) { +TEST_FS_IMPL(fs_link) { int r; uv_fs_t req; uv_file file; @@ -2195,7 +2218,7 @@ TEST_IMPL(fs_link) { } -TEST_IMPL(fs_readlink) { +TEST_FS_IMPL(fs_readlink) { /* Must return UV_ENOENT on an inexistent file */ { uv_fs_t req; @@ -2249,7 +2272,7 @@ TEST_IMPL(fs_readlink) { } -TEST_IMPL(fs_realpath) { +TEST_FS_IMPL(fs_realpath) { uv_fs_t req; loop = uv_default_loop(); @@ -2270,7 +2293,7 @@ TEST_IMPL(fs_realpath) { } -TEST_IMPL(fs_symlink) { +TEST_FS_IMPL(fs_symlink) { int r; uv_fs_t req; uv_file file; @@ -2584,16 +2607,16 @@ int test_symlink_dir_impl(int type) { return 0; } -TEST_IMPL(fs_symlink_dir) { +TEST_FS_IMPL(fs_symlink_dir) { return test_symlink_dir_impl(UV_FS_SYMLINK_DIR); } -TEST_IMPL(fs_symlink_junction) { +TEST_FS_IMPL(fs_symlink_junction) { return test_symlink_dir_impl(UV_FS_SYMLINK_JUNCTION); } #ifdef _WIN32 -TEST_IMPL(fs_non_symlink_reparse_point) { +TEST_FS_IMPL(fs_non_symlink_reparse_point) { uv_fs_t req; int r; HANDLE file_handle; @@ -2693,7 +2716,81 @@ TEST_IMPL(fs_non_symlink_reparse_point) { return 0; } -TEST_IMPL(fs_lstat_windows_store_apps) { +TEST_FS_IMPL(fs_readlink_lx_symlink) { + uv_fs_t req; + int r; + HANDLE file_handle; + REPARSE_DATA_BUFFER* reparse_buffer; + DWORD bytes_returned; + const char* target_path = "target_file"; + size_t target_len = strlen(target_path); + size_t buffer_size; + + /* set-up */ + unlink("test_dir/lx_symlink"); + rmdir("test_dir"); + + loop = uv_default_loop(); + + uv_fs_mkdir(NULL, &req, "test_dir", 0777, NULL); + uv_fs_req_cleanup(&req); + + file_handle = CreateFile("test_dir/lx_symlink", + GENERIC_WRITE | FILE_WRITE_ATTRIBUTES, + 0, + NULL, + CREATE_ALWAYS, + FILE_FLAG_OPEN_REPARSE_POINT | + FILE_FLAG_BACKUP_SEMANTICS, + NULL); + ASSERT_PTR_NE(file_handle, INVALID_HANDLE_VALUE); + + /* Allocate buffer for reparse data */ + buffer_size = REPARSE_DATA_BUFFER_HEADER_SIZE + + sizeof(ULONG) + /* Version field */ + target_len; + reparse_buffer = malloc(buffer_size); + ASSERT_NOT_NULL(reparse_buffer); + + /* Set up Linux symlink reparse buffer */ + memset(reparse_buffer, 0, buffer_size); + reparse_buffer->ReparseTag = IO_REPARSE_TAG_LX_SYMLINK; + reparse_buffer->ReparseDataLength = sizeof(ULONG) + target_len; + reparse_buffer->Reserved = 0; + reparse_buffer->LinuxSymbolicLinkReparseBuffer.Version = 2; + memcpy(reparse_buffer->LinuxSymbolicLinkReparseBuffer.PathBuffer, + target_path, + target_len); + + r = DeviceIoControl(file_handle, + FSCTL_SET_REPARSE_POINT, + reparse_buffer, + buffer_size, + NULL, + 0, + &bytes_returned, + NULL); + ASSERT(r); + + CloseHandle(file_handle); + + /* Test that readlink works on the Linux symlink */ + r = uv_fs_readlink(NULL, &req, "test_dir/lx_symlink", NULL); + ASSERT_OK(r); + ASSERT_NOT_NULL(req.ptr); + ASSERT_OK(strcmp(req.ptr, target_path)); + uv_fs_req_cleanup(&req); + + /* clean-up */ + free(reparse_buffer); + unlink("test_dir/lx_symlink"); + rmdir("test_dir"); + + MAKE_VALGRIND_HAPPY(loop); + return 0; +} + +TEST_FS_IMPL(fs_lstat_windows_store_apps) { uv_loop_t* loop; char localappdata[MAX_PATH]; char windowsapps_path[MAX_PATH]; @@ -2746,7 +2843,7 @@ TEST_IMPL(fs_lstat_windows_store_apps) { #endif -TEST_IMPL(fs_utime) { +TEST_FS_IMPL(fs_utime) { utime_check_t checkme; const char* path = "test_file"; double atime; @@ -2827,13 +2924,15 @@ TEST_IMPL(fs_utime) { } -TEST_IMPL(fs_utime_round) { +TEST_FS_IMPL(fs_utime_round) { const char path[] = "test_file"; double atime; double mtime; uv_fs_t req; int r; - +#if defined(__QNX__) + RETURN_SKIP("Setting time to a negative value is unsupported on QNX"); +#endif loop = uv_default_loop(); unlink(path); r = uv_fs_open(NULL, &req, path, UV_FS_O_RDWR | UV_FS_O_CREAT, @@ -2869,7 +2968,7 @@ TEST_IMPL(fs_utime_round) { #ifdef _WIN32 -TEST_IMPL(fs_stat_root) { +TEST_FS_IMPL(fs_stat_root) { int r; r = uv_fs_stat(NULL, &stat_req, "\\", NULL); @@ -2900,7 +2999,7 @@ TEST_IMPL(fs_stat_root) { #endif -TEST_IMPL(fs_futime) { +TEST_FS_IMPL(fs_futime) { utime_check_t checkme; const char* path = "test_file"; double atime; @@ -2998,7 +3097,7 @@ TEST_IMPL(fs_futime) { } -TEST_IMPL(fs_lutime) { +TEST_FS_IMPL(fs_lutime) { utime_check_t checkme; const char* path = "test_file"; const char* symlink_path = "test_file_symlink"; @@ -3105,7 +3204,7 @@ TEST_IMPL(fs_lutime) { } -TEST_IMPL(fs_stat_missing_path) { +TEST_FS_IMPL(fs_stat_missing_path) { uv_fs_t req; int r; @@ -3121,7 +3220,7 @@ TEST_IMPL(fs_stat_missing_path) { } -TEST_IMPL(fs_scandir_empty_dir) { +TEST_FS_IMPL(fs_scandir_empty_dir) { const char* path; uv_fs_t req; uv_dirent_t dent; @@ -3158,7 +3257,7 @@ TEST_IMPL(fs_scandir_empty_dir) { } -TEST_IMPL(fs_scandir_non_existent_dir) { +TEST_FS_IMPL(fs_scandir_non_existent_dir) { const char* path; uv_fs_t req; uv_dirent_t dent; @@ -3191,7 +3290,7 @@ TEST_IMPL(fs_scandir_non_existent_dir) { return 0; } -TEST_IMPL(fs_scandir_file) { +TEST_FS_IMPL(fs_scandir_file) { const char* path; int r; @@ -3215,7 +3314,7 @@ TEST_IMPL(fs_scandir_file) { /* Run in Valgrind. Should not leak when the iterator isn't exhausted. */ -TEST_IMPL(fs_scandir_early_exit) { +TEST_FS_IMPL(fs_scandir_early_exit) { uv_dirent_t d; uv_fs_t req; @@ -3232,7 +3331,7 @@ TEST_IMPL(fs_scandir_early_exit) { } -TEST_IMPL(fs_open_dir) { +TEST_FS_IMPL(fs_open_dir) { const char* path; uv_fs_t req; int r, file; @@ -3329,7 +3428,7 @@ static void fs_file_open_append(int add_flags) { /* Cleanup */ unlink("test_file"); } -TEST_IMPL(fs_file_open_append) { +TEST_FS_IMPL(fs_file_open_append) { fs_file_open_append(0); fs_file_open_append(UV_FS_O_FILEMAP); @@ -3338,7 +3437,7 @@ TEST_IMPL(fs_file_open_append) { } -TEST_IMPL(fs_rename_to_existing_file) { +TEST_FS_IMPL(fs_rename_to_existing_file) { int r; /* Setup. */ @@ -3456,7 +3555,7 @@ static void fs_read_bufs(int add_flags) { ASSERT_OK(close_req.result); uv_fs_req_cleanup(&close_req); } -TEST_IMPL(fs_read_bufs) { +TEST_FS_IMPL(fs_read_bufs) { fs_read_bufs(0); fs_read_bufs(UV_FS_O_FILEMAP); @@ -3523,7 +3622,7 @@ static void fs_read_file_eof(int add_flags) { /* Cleanup */ unlink("test_file"); } -TEST_IMPL(fs_read_file_eof) { +TEST_FS_IMPL(fs_read_file_eof) { fs_read_file_eof(0); fs_read_file_eof(UV_FS_O_FILEMAP); @@ -3618,7 +3717,7 @@ static void fs_write_multiple_bufs(int add_flags) { /* Cleanup */ unlink("test_file"); } -TEST_IMPL(fs_write_multiple_bufs) { +TEST_FS_IMPL(fs_write_multiple_bufs) { fs_write_multiple_bufs(0); fs_write_multiple_bufs(UV_FS_O_FILEMAP); @@ -3726,7 +3825,7 @@ static void fs_write_alotof_bufs(int add_flags) { unlink("test_file"); free(iovs); } -TEST_IMPL(fs_write_alotof_bufs) { +TEST_FS_IMPL(fs_write_alotof_bufs) { fs_write_alotof_bufs(0); fs_write_alotof_bufs(UV_FS_O_FILEMAP); @@ -3842,7 +3941,7 @@ static void fs_write_alotof_bufs_with_offset(int add_flags) { unlink("test_file"); free(iovs); } -TEST_IMPL(fs_write_alotof_bufs_with_offset) { +TEST_FS_IMPL(fs_write_alotof_bufs_with_offset) { fs_write_alotof_bufs_with_offset(0); fs_write_alotof_bufs_with_offset(UV_FS_O_FILEMAP); @@ -3850,7 +3949,7 @@ TEST_IMPL(fs_write_alotof_bufs_with_offset) { return 0; } -TEST_IMPL(fs_read_dir) { +TEST_FS_IMPL(fs_read_dir) { int r; char buf[2]; loop = uv_default_loop(); @@ -3889,6 +3988,12 @@ TEST_IMPL(fs_read_dir) { * created on. That is why this assertion is a bit lenient. */ ASSERT((r >= 0) || (r == UV_EISDIR)); +#elif defined(__QNX__) + /* + * If UV_FS_O_DIRECTORY is supplied, QNX returns ENOSYS. Otherwise + * UV_EISDIR is returned. Here we are lenient and accept both. + */ + ASSERT((r == UV_ENOSYS) || (r == UV_EISDIR)); #else ASSERT_EQ(r, UV_EISDIR); #endif @@ -3907,11 +4012,11 @@ TEST_IMPL(fs_read_dir) { #ifdef _WIN32 -TEST_IMPL(fs_partial_read) { +TEST_FS_IMPL(fs_partial_read) { RETURN_SKIP("Test not implemented on Windows."); } -TEST_IMPL(fs_partial_write) { +TEST_FS_IMPL(fs_partial_write) { RETURN_SKIP("Test not implemented on Windows."); } @@ -4063,19 +4168,19 @@ static void test_fs_partial(int doread) { MAKE_VALGRIND_HAPPY(loop); } -TEST_IMPL(fs_partial_read) { +TEST_FS_IMPL(fs_partial_read) { test_fs_partial(1); return 0; } -TEST_IMPL(fs_partial_write) { +TEST_FS_IMPL(fs_partial_write) { test_fs_partial(0); return 0; } #endif/* _WIN32 */ -TEST_IMPL(fs_read_write_null_arguments) { +TEST_FS_IMPL(fs_read_write_null_arguments) { int r; r = uv_fs_read(NULL, &read_req, 0, NULL, 0, -1, NULL); @@ -4138,7 +4243,7 @@ TEST_IMPL(fs_read_write_null_arguments) { } -TEST_IMPL(get_osfhandle_valid_handle) { +TEST_FS_IMPL(get_osfhandle_valid_handle) { int r; uv_os_fd_t fd; @@ -4174,7 +4279,7 @@ TEST_IMPL(get_osfhandle_valid_handle) { return 0; } -TEST_IMPL(open_osfhandle_valid_handle) { +TEST_FS_IMPL(open_osfhandle_valid_handle) { int r; uv_os_fd_t handle; int fd; @@ -4220,7 +4325,7 @@ TEST_IMPL(open_osfhandle_valid_handle) { return 0; } -TEST_IMPL(fs_file_pos_after_op_with_offset) { +TEST_FS_IMPL(fs_file_pos_after_op_with_offset) { int r; /* Setup. */ @@ -4349,7 +4454,7 @@ static void fs_file_pos_write(int add_flags) { fs_file_pos_close_check("aecd", 4); } -TEST_IMPL(fs_file_pos_write) { +TEST_FS_IMPL(fs_file_pos_write) { fs_file_pos_write(0); fs_file_pos_write(UV_FS_O_FILEMAP); @@ -4389,7 +4494,7 @@ static void fs_file_pos_append(int add_flags) { fs_file_pos_close_check("abcde", 5); } -TEST_IMPL(fs_file_pos_append) { +TEST_FS_IMPL(fs_file_pos_append) { fs_file_pos_append(0); fs_file_pos_append(UV_FS_O_FILEMAP); @@ -4398,7 +4503,7 @@ TEST_IMPL(fs_file_pos_append) { } #endif -TEST_IMPL(fs_null_req) { +TEST_FS_IMPL(fs_null_req) { /* Verify that all fs functions return UV_EINVAL when the request is NULL. */ int r; @@ -4502,7 +4607,7 @@ TEST_IMPL(fs_null_req) { } #ifdef _WIN32 -TEST_IMPL(fs_exclusive_sharing_mode) { +TEST_FS_IMPL(fs_exclusive_sharing_mode) { int r; /* Setup. */ @@ -4557,7 +4662,7 @@ TEST_IMPL(fs_exclusive_sharing_mode) { #endif #ifdef _WIN32 -TEST_IMPL(fs_file_flag_no_buffering) { +TEST_FS_IMPL(fs_file_flag_no_buffering) { int r; /* Setup. */ @@ -4614,7 +4719,7 @@ int call_icacls(const char* command, ...) { return system(icacls_command); } -TEST_IMPL(fs_open_readonly_acl) { +TEST_FS_IMPL(fs_open_readonly_acl) { uv_passwd_t pwd; uv_fs_t req; int r; @@ -4689,7 +4794,7 @@ TEST_IMPL(fs_open_readonly_acl) { return 0; } -TEST_IMPL(fs_stat_no_permission) { +TEST_FS_IMPL(fs_stat_no_permission) { uv_passwd_t pwd; uv_fs_t req; int r; @@ -4745,7 +4850,7 @@ TEST_IMPL(fs_stat_no_permission) { #endif #ifdef _WIN32 -TEST_IMPL(fs_fchmod_archive_readonly) { +TEST_FS_IMPL(fs_fchmod_archive_readonly) { uv_fs_t req; uv_file file; int r; @@ -4790,7 +4895,7 @@ TEST_IMPL(fs_fchmod_archive_readonly) { return 0; } -TEST_IMPL(fs_invalid_mkdir_name) { +TEST_FS_IMPL(fs_invalid_mkdir_name) { uv_loop_t* loop; uv_fs_t req; int r; @@ -4804,29 +4909,49 @@ TEST_IMPL(fs_invalid_mkdir_name) { } #endif -TEST_IMPL(fs_statfs) { +TEST_FS_IMPL(fs_statfs) { uv_fs_t req; + uv_fs_t req1; int r; + /* Setup. */ + unlink("test_file"); + + r = uv_fs_open(NULL, &req, "test_file", UV_FS_O_WRONLY | UV_FS_O_CREAT, + S_IRUSR | S_IWUSR, NULL); + ASSERT_GT(r, 0); + + uv_fs_req_cleanup(&req); + + r = uv_fs_close(NULL, &req, req.result, NULL); + ASSERT_OK(r); + + uv_fs_req_cleanup(&req); + loop = uv_default_loop(); - /* Test the synchronous version. */ + /* Test the synchronous version for both a directory and a file. */ r = uv_fs_statfs(NULL, &req, ".", NULL); ASSERT_OK(r); statfs_cb(&req); - ASSERT_EQ(1, statfs_cb_count); + r = uv_fs_statfs(NULL, &req, "test_file", NULL); + ASSERT_OK(r); + statfs_cb(&req); + ASSERT_EQ(2, statfs_cb_count); - /* Test the asynchronous version. */ + /* Test the asynchronous version too. */ r = uv_fs_statfs(loop, &req, ".", statfs_cb); ASSERT_OK(r); + r = uv_fs_statfs(loop, &req1, "test_file", statfs_cb); + ASSERT_OK(r); uv_run(loop, UV_RUN_DEFAULT); - ASSERT_EQ(2, statfs_cb_count); + ASSERT_EQ(4, statfs_cb_count); MAKE_VALGRIND_HAPPY(loop); return 0; } -TEST_IMPL(fs_get_system_error) { +TEST_FS_IMPL(fs_get_system_error) { uv_fs_t req; int r; int system_error; @@ -4845,7 +4970,7 @@ TEST_IMPL(fs_get_system_error) { } -TEST_IMPL(fs_stat_batch_multiple) { +TEST_FS_IMPL(fs_stat_batch_multiple) { uv_fs_t req[300]; int r; int i; @@ -4871,7 +4996,7 @@ TEST_IMPL(fs_stat_batch_multiple) { #ifdef _WIN32 -TEST_IMPL(fs_wtf) { +TEST_FS_IMPL(fs_wtf) { int r; HANDLE file_handle; uv_dirent_t dent; diff --git a/deps/uv/test/test-get-currentexe.c b/deps/uv/test/test-get-currentexe.c index c813d3a5c4f883..98acbfd992fe6a 100644 --- a/deps/uv/test/test-get-currentexe.c +++ b/deps/uv/test/test-get-currentexe.c @@ -35,9 +35,6 @@ TEST_IMPL(get_currentexe) { #if defined(__QEMU__) RETURN_SKIP("Test does not currently work in QEMU"); #endif -#if defined(__OpenBSD__) - RETURN_SKIP("Test does not currently work in OpenBSD"); -#endif char buffer[PATHMAX]; char path[PATHMAX]; diff --git a/deps/uv/test/test-getaddrinfo.c b/deps/uv/test/test-getaddrinfo.c index 76137f06ca074c..3f81a9230f5266 100644 --- a/deps/uv/test/test-getaddrinfo.c +++ b/deps/uv/test/test-getaddrinfo.c @@ -119,7 +119,7 @@ TEST_IMPL(getaddrinfo_fail_sync) { uv_getaddrinfo_t req; /* Use a FQDN by ending in a period */ - ASSERT_GT(0, uv_getaddrinfo(uv_default_loop(), + ASSERT_GT(0, uv_getaddrinfo(NULL, &req, NULL, "example.invalid.", @@ -165,15 +165,13 @@ TEST_IMPL(getaddrinfo_basic_sync) { #endif uv_getaddrinfo_t req; - ASSERT_OK(uv_getaddrinfo(uv_default_loop(), + ASSERT_OK(uv_getaddrinfo(NULL, &req, NULL, name, NULL, NULL)); uv_freeaddrinfo(req.addrinfo); - - MAKE_VALGRIND_HAPPY(uv_default_loop()); return 0; } diff --git a/deps/uv/test/test-idna.c b/deps/uv/test/test-idna.c index 46df9f3c581015..c154bb4de78a7e 100644 --- a/deps/uv/test/test-idna.c +++ b/deps/uv/test/test-idna.c @@ -19,6 +19,14 @@ * IN THE SOFTWARE. */ +/* This blank UV_EXTERN squelches "‘uv_wtf8_to_utf16’ redeclared without + * dllimport attribute: previous dllimport ignored" warnings. We neither want + * or need dllimport or dllexport, we just include the source file verbatim. + * It's kind of sloppy because we end up with duplicate symbols, one in + * libuv.dll and one in this translation unit, but it works out fine in + * the end. + */ +#define UV_EXTERN #include "task.h" #define uv__malloc malloc #include "../src/idna.c" @@ -228,5 +236,13 @@ TEST_IMPL(wtf8) { ASSERT_GT(len, 0); ASSERT_LT(len, ARRAY_SIZE(buf)); uv_wtf8_to_utf16(input, buf, len); + + /* Test 0x10FFFF, max unicode character */ + static const char input_max[] = "\xF4\x8F\xBF\xBF"; + + len = uv_wtf8_length_as_utf16(input_max); + ASSERT_GT(len, 0); + ASSERT_LT(len, ARRAY_SIZE(buf)); + uv_wtf8_to_utf16(input_max, buf, len); return 0; } diff --git a/deps/uv/test/test-list.h b/deps/uv/test/test-list.h index 0dea544699d75f..b79a4ea74edf64 100644 --- a/deps/uv/test/test-list.h +++ b/deps/uv/test/test-list.h @@ -77,6 +77,7 @@ TEST_DECLARE (tty_escape_sequence_processing) #endif TEST_DECLARE (tty_file) TEST_DECLARE (tty_pty) +TEST_DECLARE (tty_pty_partial) TEST_DECLARE (stdio_over_pipes) TEST_DECLARE (stdio_emulate_iocp) TEST_DECLARE (ip6_pton) @@ -175,6 +176,10 @@ TEST_DECLARE (udp_send_and_recv) TEST_DECLARE (udp_send_hang_loop) TEST_DECLARE (udp_send_immediate) TEST_DECLARE (udp_send_unreachable) +TEST_DECLARE (udp_recv_cb_close_pollerr) +TEST_DECLARE (udp_recvmsg_unreachable_error) +TEST_DECLARE (udp_recvmsg_unreachable_error6) +TEST_DECLARE (udp_send_pollerr_no_recv) TEST_DECLARE (udp_mmsg) TEST_DECLARE (udp_multicast_join) TEST_DECLARE (udp_multicast_join6) @@ -352,53 +357,54 @@ TEST_DECLARE (fs_poll_close_request_multi_stop_start) TEST_DECLARE (fs_poll_close_request_stop_when_active) TEST_DECLARE (kill) TEST_DECLARE (kill_invalid_signum) -TEST_DECLARE (fs_file_noent) -TEST_DECLARE (fs_file_nametoolong) -TEST_DECLARE (fs_file_loop) -TEST_DECLARE (fs_file_async) -TEST_DECLARE (fs_file_sync) -TEST_DECLARE (fs_posix_delete) -TEST_DECLARE (fs_file_write_null_buffer) -TEST_DECLARE (fs_async_dir) -TEST_DECLARE (fs_async_sendfile) -TEST_DECLARE (fs_async_sendfile_nodata) -TEST_DECLARE (fs_mkdtemp) -TEST_DECLARE (fs_mkstemp) -TEST_DECLARE (fs_fstat) -TEST_DECLARE (fs_fstat_stdio) -TEST_DECLARE (fs_fstat_st_dev) -TEST_DECLARE (fs_access) -TEST_DECLARE (fs_chmod) -TEST_DECLARE (fs_copyfile) -TEST_DECLARE (fs_unlink_readonly) +TEST_FS_DECLARE (fs_file_noent) +TEST_FS_DECLARE (fs_file_nametoolong) +TEST_FS_DECLARE (fs_file_loop) +TEST_FS_DECLARE (fs_file_async) +TEST_FS_DECLARE (fs_file_sync) +TEST_FS_DECLARE (fs_posix_delete) +TEST_FS_DECLARE (fs_file_write_null_buffer) +TEST_FS_DECLARE (fs_async_dir) +TEST_FS_DECLARE (fs_async_sendfile) +TEST_FS_DECLARE (fs_async_sendfile_nodata) +TEST_FS_DECLARE (fs_mkdtemp) +TEST_FS_DECLARE (fs_mkstemp) +TEST_FS_DECLARE (fs_fstat) +TEST_FS_DECLARE (fs_fstat_stdio) +TEST_FS_DECLARE (fs_fstat_st_dev) +TEST_FS_DECLARE (fs_access) +TEST_FS_DECLARE (fs_chmod) +TEST_FS_DECLARE (fs_copyfile) +TEST_FS_DECLARE (fs_unlink_readonly) #ifdef _WIN32 -TEST_DECLARE (fs_unlink_archive_readonly) +TEST_FS_DECLARE (fs_unlink_archive_readonly) #endif -TEST_DECLARE (fs_chown) -TEST_DECLARE (fs_link) -TEST_DECLARE (fs_readlink) -TEST_DECLARE (fs_realpath) -TEST_DECLARE (fs_symlink) -TEST_DECLARE (fs_symlink_dir) +TEST_FS_DECLARE (fs_chown) +TEST_FS_DECLARE (fs_link) +TEST_FS_DECLARE (fs_readlink) +TEST_FS_DECLARE (fs_realpath) +TEST_FS_DECLARE (fs_symlink) +TEST_FS_DECLARE (fs_symlink_dir) #ifdef _WIN32 -TEST_DECLARE (fs_symlink_junction) -TEST_DECLARE (fs_non_symlink_reparse_point) -TEST_DECLARE (fs_lstat_windows_store_apps) -TEST_DECLARE (fs_open_flags) +TEST_FS_DECLARE (fs_symlink_junction) +TEST_FS_DECLARE (fs_non_symlink_reparse_point) +TEST_FS_DECLARE (fs_readlink_lx_symlink) +TEST_FS_DECLARE (fs_lstat_windows_store_apps) +TEST_FS_DECLARE (fs_open_flags) #endif #if defined(_WIN32) && !defined(USING_UV_SHARED) -TEST_DECLARE (fs_fd_hash) +TEST_FS_DECLARE (fs_fd_hash) #endif -TEST_DECLARE (fs_utime) -TEST_DECLARE (fs_utime_round) -TEST_DECLARE (fs_futime) -TEST_DECLARE (fs_lutime) -TEST_DECLARE (fs_file_open_append) -TEST_DECLARE (fs_statfs) -TEST_DECLARE (fs_stat_batch_multiple) -TEST_DECLARE (fs_stat_missing_path) -TEST_DECLARE (fs_read_bufs) -TEST_DECLARE (fs_read_file_eof) +TEST_FS_DECLARE (fs_utime) +TEST_FS_DECLARE (fs_utime_round) +TEST_FS_DECLARE (fs_futime) +TEST_FS_DECLARE (fs_lutime) +TEST_FS_DECLARE (fs_file_open_append) +TEST_FS_DECLARE (fs_statfs) +TEST_FS_DECLARE (fs_stat_batch_multiple) +TEST_FS_DECLARE (fs_stat_missing_path) +TEST_FS_DECLARE (fs_read_bufs) +TEST_FS_DECLARE (fs_read_file_eof) TEST_DECLARE (fs_event_watch_dir) TEST_DECLARE (fs_event_watch_delete_dir) TEST_DECLARE (fs_event_watch_dir_recursive) @@ -422,41 +428,41 @@ TEST_DECLARE (fs_event_close_in_callback) TEST_DECLARE (fs_event_start_and_close) TEST_DECLARE (fs_event_getpath) TEST_DECLARE (fs_event_stop_in_cb) -TEST_DECLARE (fs_scandir_empty_dir) -TEST_DECLARE (fs_scandir_non_existent_dir) -TEST_DECLARE (fs_scandir_file) -TEST_DECLARE (fs_scandir_early_exit) -TEST_DECLARE (fs_open_dir) -TEST_DECLARE (fs_readdir_empty_dir) -TEST_DECLARE (fs_readdir_file) -TEST_DECLARE (fs_readdir_non_empty_dir) -TEST_DECLARE (fs_readdir_non_existing_dir) +TEST_FS_DECLARE (fs_scandir_empty_dir) +TEST_FS_DECLARE (fs_scandir_non_existent_dir) +TEST_FS_DECLARE (fs_scandir_file) +TEST_FS_DECLARE (fs_scandir_early_exit) +TEST_FS_DECLARE (fs_open_dir) +TEST_FS_DECLARE (fs_readdir_empty_dir) +TEST_FS_DECLARE (fs_readdir_file) +TEST_FS_DECLARE (fs_readdir_non_empty_dir) +TEST_FS_DECLARE (fs_readdir_non_existing_dir) #ifdef _WIN32 -TEST_DECLARE (fs_readdir_symlink) +TEST_FS_DECLARE (fs_readdir_symlink) #endif -TEST_DECLARE (fs_rename_to_existing_file) -TEST_DECLARE (fs_write_multiple_bufs) -TEST_DECLARE (fs_read_write_null_arguments) +TEST_FS_DECLARE (fs_rename_to_existing_file) +TEST_FS_DECLARE (fs_write_multiple_bufs) +TEST_FS_DECLARE (fs_read_write_null_arguments) TEST_DECLARE (get_osfhandle_valid_handle) TEST_DECLARE (open_osfhandle_valid_handle) -TEST_DECLARE (fs_write_alotof_bufs) -TEST_DECLARE (fs_write_alotof_bufs_with_offset) -TEST_DECLARE (fs_partial_read) -TEST_DECLARE (fs_partial_write) -TEST_DECLARE (fs_file_pos_after_op_with_offset) -TEST_DECLARE (fs_null_req) -TEST_DECLARE (fs_read_dir) +TEST_FS_DECLARE (fs_write_alotof_bufs) +TEST_FS_DECLARE (fs_write_alotof_bufs_with_offset) +TEST_FS_DECLARE (fs_partial_read) +TEST_FS_DECLARE (fs_partial_write) +TEST_FS_DECLARE (fs_file_pos_after_op_with_offset) +TEST_FS_DECLARE (fs_null_req) +TEST_FS_DECLARE (fs_read_dir) #ifdef _WIN32 -TEST_DECLARE (fs_file_pos_write) -TEST_DECLARE (fs_file_pos_append) -TEST_DECLARE (fs_exclusive_sharing_mode) -TEST_DECLARE (fs_file_flag_no_buffering) -TEST_DECLARE (fs_open_readonly_acl) -TEST_DECLARE (fs_fchmod_archive_readonly) -TEST_DECLARE (fs_invalid_mkdir_name) -TEST_DECLARE (fs_wtf) +TEST_FS_DECLARE (fs_file_pos_write) +TEST_FS_DECLARE (fs_file_pos_append) +TEST_FS_DECLARE (fs_exclusive_sharing_mode) +TEST_FS_DECLARE (fs_file_flag_no_buffering) +TEST_FS_DECLARE (fs_open_readonly_acl) +TEST_FS_DECLARE (fs_fchmod_archive_readonly) +TEST_FS_DECLARE (fs_invalid_mkdir_name) +TEST_FS_DECLARE (fs_wtf) #endif -TEST_DECLARE (fs_get_system_error) +TEST_FS_DECLARE (fs_get_system_error) TEST_DECLARE (strscpy) TEST_DECLARE (strtok) TEST_DECLARE (threadpool_queue_work_simple) @@ -466,7 +472,7 @@ TEST_DECLARE (threadpool_cancel_getaddrinfo) TEST_DECLARE (threadpool_cancel_getnameinfo) TEST_DECLARE (threadpool_cancel_random) TEST_DECLARE (threadpool_cancel_work) -TEST_DECLARE (threadpool_cancel_fs) +TEST_FS_DECLARE (threadpool_cancel_fs) TEST_DECLARE (threadpool_cancel_single) TEST_DECLARE (threadpool_cancel_when_busy) TEST_DECLARE (thread_detach) @@ -517,8 +523,8 @@ TEST_DECLARE (environment_creation) #endif TEST_DECLARE (listen_with_simultaneous_accepts) TEST_DECLARE (listen_no_simultaneous_accepts) -TEST_DECLARE (fs_stat_root) -TEST_DECLARE (fs_stat_no_permission) +TEST_FS_DECLARE (fs_stat_root) +TEST_FS_DECLARE (fs_stat_no_permission) TEST_DECLARE (spawn_with_an_odd_path) TEST_DECLARE (spawn_no_path) TEST_DECLARE (spawn_no_ext) @@ -662,6 +668,7 @@ TASK_LIST_START #endif TEST_ENTRY (tty_file) TEST_ENTRY (tty_pty) + TEST_ENTRY (tty_pty_partial) TEST_ENTRY (stdio_over_pipes) TEST_ENTRY (stdio_emulate_iocp) TEST_ENTRY (ip6_pton) @@ -805,6 +812,10 @@ TASK_LIST_START TEST_ENTRY (udp_send_hang_loop) TEST_ENTRY (udp_send_immediate) TEST_ENTRY (udp_send_unreachable) + TEST_ENTRY (udp_recv_cb_close_pollerr) + TEST_ENTRY (udp_recvmsg_unreachable_error) + TEST_ENTRY (udp_recvmsg_unreachable_error6) + TEST_ENTRY (udp_send_pollerr_no_recv) TEST_ENTRY (udp_dgram_too_big) TEST_ENTRY (udp_dual_stack) TEST_ENTRY (udp_ipv6_only) @@ -1049,8 +1060,8 @@ TASK_LIST_START # endif TEST_ENTRY (listen_with_simultaneous_accepts) TEST_ENTRY (listen_no_simultaneous_accepts) - TEST_ENTRY (fs_stat_root) - TEST_ENTRY (fs_stat_no_permission) + TEST_FS_ENTRY (fs_stat_root) + TEST_FS_ENTRY (fs_stat_no_permission) TEST_ENTRY (spawn_with_an_odd_path) TEST_ENTRY (spawn_no_path) TEST_ENTRY (spawn_no_ext) @@ -1074,53 +1085,54 @@ TASK_LIST_START TEST_ENTRY (osx_select_many_fds) #endif - TEST_ENTRY (fs_file_noent) - TEST_ENTRY (fs_file_nametoolong) - TEST_ENTRY (fs_file_loop) - TEST_ENTRY (fs_file_async) - TEST_ENTRY (fs_file_sync) - TEST_ENTRY (fs_posix_delete) - TEST_ENTRY (fs_file_write_null_buffer) - TEST_ENTRY (fs_async_dir) - TEST_ENTRY (fs_async_sendfile) - TEST_ENTRY (fs_async_sendfile_nodata) - TEST_ENTRY (fs_mkdtemp) - TEST_ENTRY (fs_mkstemp) - TEST_ENTRY (fs_fstat) - TEST_ENTRY (fs_fstat_stdio) - TEST_ENTRY (fs_fstat_st_dev) - TEST_ENTRY (fs_access) - TEST_ENTRY (fs_chmod) - TEST_ENTRY (fs_copyfile) - TEST_ENTRY (fs_unlink_readonly) + TEST_FS_ENTRY (fs_file_noent) + TEST_FS_ENTRY (fs_file_nametoolong) + TEST_FS_ENTRY (fs_file_loop) + TEST_FS_ENTRY(fs_file_async) + TEST_FS_ENTRY (fs_file_sync) + TEST_FS_ENTRY (fs_posix_delete) + TEST_FS_ENTRY (fs_file_write_null_buffer) + TEST_FS_ENTRY (fs_async_dir) + TEST_FS_ENTRY (fs_async_sendfile) + TEST_FS_ENTRY (fs_async_sendfile_nodata) + TEST_FS_ENTRY (fs_mkdtemp) + TEST_FS_ENTRY (fs_mkstemp) + TEST_FS_ENTRY (fs_fstat) + TEST_FS_ENTRY (fs_fstat_stdio) + TEST_FS_ENTRY (fs_fstat_st_dev) + TEST_FS_ENTRY (fs_access) + TEST_FS_ENTRY (fs_chmod) + TEST_FS_ENTRY (fs_copyfile) + TEST_FS_ENTRY (fs_unlink_readonly) #ifdef _WIN32 - TEST_ENTRY (fs_unlink_archive_readonly) + TEST_FS_ENTRY (fs_unlink_archive_readonly) #endif - TEST_ENTRY (fs_chown) - TEST_ENTRY (fs_link) - TEST_ENTRY (fs_utime) - TEST_ENTRY (fs_utime_round) - TEST_ENTRY (fs_futime) - TEST_ENTRY (fs_lutime) - TEST_ENTRY (fs_readlink) - TEST_ENTRY (fs_realpath) - TEST_ENTRY (fs_symlink) - TEST_ENTRY (fs_symlink_dir) + TEST_FS_ENTRY (fs_chown) + TEST_FS_ENTRY (fs_link) + TEST_FS_ENTRY (fs_utime) + TEST_FS_ENTRY (fs_utime_round) + TEST_FS_ENTRY (fs_futime) + TEST_FS_ENTRY (fs_lutime) + TEST_FS_ENTRY (fs_readlink) + TEST_FS_ENTRY (fs_realpath) + TEST_FS_ENTRY (fs_symlink) + TEST_FS_ENTRY (fs_symlink_dir) #ifdef _WIN32 - TEST_ENTRY (fs_symlink_junction) - TEST_ENTRY (fs_non_symlink_reparse_point) - TEST_ENTRY (fs_lstat_windows_store_apps) - TEST_ENTRY (fs_open_flags) + TEST_FS_ENTRY (fs_symlink_junction) + TEST_FS_ENTRY (fs_non_symlink_reparse_point) + TEST_FS_ENTRY (fs_readlink_lx_symlink) + TEST_FS_ENTRY (fs_lstat_windows_store_apps) + TEST_FS_ENTRY (fs_open_flags) #endif #if defined(_WIN32) && !defined(USING_UV_SHARED) - TEST_ENTRY (fs_fd_hash) + TEST_FS_ENTRY (fs_fd_hash) #endif - TEST_ENTRY (fs_statfs) - TEST_ENTRY (fs_stat_batch_multiple) - TEST_ENTRY (fs_stat_missing_path) - TEST_ENTRY (fs_read_bufs) - TEST_ENTRY (fs_read_file_eof) - TEST_ENTRY (fs_file_open_append) + TEST_FS_ENTRY (fs_statfs) + TEST_FS_ENTRY (fs_stat_batch_multiple) + TEST_FS_ENTRY (fs_stat_missing_path) + TEST_FS_ENTRY (fs_read_bufs) + TEST_FS_ENTRY (fs_read_file_eof) + TEST_FS_ENTRY (fs_file_open_append) TEST_ENTRY (fs_event_watch_dir) TEST_ENTRY (fs_event_watch_delete_dir) TEST_ENTRY (fs_event_watch_dir_recursive) @@ -1144,39 +1156,39 @@ TASK_LIST_START TEST_ENTRY (fs_event_start_and_close) TEST_ENTRY (fs_event_getpath) TEST_ENTRY (fs_event_stop_in_cb) - TEST_ENTRY (fs_scandir_empty_dir) - TEST_ENTRY (fs_scandir_non_existent_dir) - TEST_ENTRY (fs_scandir_file) - TEST_ENTRY (fs_scandir_early_exit) - TEST_ENTRY (fs_open_dir) - TEST_ENTRY (fs_readdir_empty_dir) - TEST_ENTRY (fs_readdir_file) - TEST_ENTRY (fs_readdir_non_empty_dir) - TEST_ENTRY (fs_readdir_non_existing_dir) + TEST_FS_ENTRY (fs_scandir_empty_dir) + TEST_FS_ENTRY (fs_scandir_non_existent_dir) + TEST_FS_ENTRY (fs_scandir_file) + TEST_FS_ENTRY (fs_scandir_early_exit) + TEST_FS_ENTRY (fs_open_dir) + TEST_FS_ENTRY (fs_readdir_empty_dir) + TEST_FS_ENTRY (fs_readdir_file) + TEST_FS_ENTRY (fs_readdir_non_empty_dir) + TEST_FS_ENTRY (fs_readdir_non_existing_dir) #ifdef _WIN32 - TEST_ENTRY (fs_readdir_symlink) + TEST_FS_ENTRY (fs_readdir_symlink) #endif - TEST_ENTRY (fs_rename_to_existing_file) - TEST_ENTRY (fs_write_multiple_bufs) - TEST_ENTRY (fs_write_alotof_bufs) - TEST_ENTRY (fs_write_alotof_bufs_with_offset) - TEST_ENTRY (fs_partial_read) - TEST_ENTRY (fs_partial_write) - TEST_ENTRY (fs_read_write_null_arguments) - TEST_ENTRY (fs_file_pos_after_op_with_offset) - TEST_ENTRY (fs_null_req) - TEST_ENTRY (fs_read_dir) + TEST_FS_ENTRY (fs_rename_to_existing_file) + TEST_FS_ENTRY (fs_write_multiple_bufs) + TEST_FS_ENTRY (fs_write_alotof_bufs) + TEST_FS_ENTRY (fs_write_alotof_bufs_with_offset) + TEST_FS_ENTRY (fs_partial_read) + TEST_FS_ENTRY (fs_partial_write) + TEST_FS_ENTRY (fs_read_write_null_arguments) + TEST_FS_ENTRY (fs_file_pos_after_op_with_offset) + TEST_FS_ENTRY (fs_null_req) + TEST_FS_ENTRY (fs_read_dir) #ifdef _WIN32 - TEST_ENTRY (fs_file_pos_write) - TEST_ENTRY (fs_file_pos_append) - TEST_ENTRY (fs_exclusive_sharing_mode) - TEST_ENTRY (fs_file_flag_no_buffering) - TEST_ENTRY (fs_open_readonly_acl) - TEST_ENTRY (fs_fchmod_archive_readonly) - TEST_ENTRY (fs_invalid_mkdir_name) - TEST_ENTRY (fs_wtf) + TEST_FS_ENTRY (fs_file_pos_write) + TEST_FS_ENTRY (fs_file_pos_append) + TEST_FS_ENTRY (fs_exclusive_sharing_mode) + TEST_FS_ENTRY (fs_file_flag_no_buffering) + TEST_FS_ENTRY (fs_open_readonly_acl) + TEST_FS_ENTRY (fs_fchmod_archive_readonly) + TEST_FS_ENTRY (fs_invalid_mkdir_name) + TEST_FS_ENTRY (fs_wtf) #endif - TEST_ENTRY (fs_get_system_error) + TEST_FS_ENTRY (fs_get_system_error) TEST_ENTRY (get_osfhandle_valid_handle) TEST_ENTRY (open_osfhandle_valid_handle) TEST_ENTRY (strscpy) @@ -1188,7 +1200,7 @@ TASK_LIST_START TEST_ENTRY (threadpool_cancel_getnameinfo) TEST_ENTRY (threadpool_cancel_random) TEST_ENTRY (threadpool_cancel_work) - TEST_ENTRY (threadpool_cancel_fs) + TEST_FS_ENTRY (threadpool_cancel_fs) TEST_ENTRY (threadpool_cancel_single) TEST_ENTRY (threadpool_cancel_when_busy) TEST_ENTRY (thread_detach) diff --git a/deps/uv/test/test-poll-oob.c b/deps/uv/test/test-poll-oob.c index b40c93c3708776..4b119d4dd76fdb 100644 --- a/deps/uv/test/test-poll-oob.c +++ b/deps/uv/test/test-poll-oob.c @@ -91,8 +91,8 @@ static void poll_cb(uv_poll_t* handle, int status, int events) { while (n == -1 && errno == EINTR); ASSERT(n >= 0 || errno != EINVAL); if (cli_rd_check == 1) { - ASSERT_OK(strncmp(buffer, "world", n)); ASSERT_EQ(5, n); + ASSERT_OK(strncmp(buffer, "world", n)); cli_rd_check = 2; } if (cli_rd_check == 0) { diff --git a/deps/uv/test/test-poll.c b/deps/uv/test/test-poll.c index 5161de253768d8..e291e7377ffa7a 100644 --- a/deps/uv/test/test-poll.c +++ b/deps/uv/test/test-poll.c @@ -83,9 +83,9 @@ static int closed_connections = 0; static int valid_writable_wakeups = 0; static int spurious_writable_wakeups = 0; -#if !defined(__sun) && !defined(_AIX) && !defined(__MVS__) +#if !defined(__sun) && !defined(_AIX) && !defined(__MVS__) && !defined(__QNX__) static int disconnects = 0; -#endif /* !__sun && !_AIX && !__MVS__ */ +#endif /* !__sun && !_AIX && !__MVS__ && !__QNX__*/ static int got_eagain(void) { #ifdef _WIN32 @@ -409,7 +409,7 @@ static void connection_poll_cb(uv_poll_t* handle, int status, int events) { new_events &= ~UV_WRITABLE; } } -#if !defined(__sun) && !defined(_AIX) && !defined(__MVS__) +#if !defined(__sun) && !defined(_AIX) && !defined(__MVS__) && !defined(__QNX__) if (events & UV_DISCONNECT) { context->got_disconnect = 1; ++disconnects; @@ -417,9 +417,9 @@ static void connection_poll_cb(uv_poll_t* handle, int status, int events) { } if (context->got_fin && context->sent_fin && context->got_disconnect) { -#else /* __sun && _AIX && __MVS__ */ +#else /* __sun && _AIX && __MVS__ && __QNX__*/ if (context->got_fin && context->sent_fin) { -#endif /* !__sun && !_AIX && !__MVS__ */ +#endif /* !__sun && !_AIX && !__MVS__ && !__QNX__ */ /* Sent and received FIN. Close and destroy context. */ close_socket(context->sock); destroy_connection_context(context); @@ -587,7 +587,7 @@ static void start_poll_test(void) { spurious_writable_wakeups > 20, 0); ASSERT_EQ(closed_connections, NUM_CLIENTS * 2); -#if !defined(__sun) && !defined(_AIX) && !defined(__MVS__) +#if !defined(__sun) && !defined(_AIX) && !defined(__MVS__) && !defined(__QNX__) ASSERT_EQ(disconnects, NUM_CLIENTS * 2); #endif MAKE_VALGRIND_HAPPY(uv_default_loop()); @@ -633,12 +633,12 @@ TEST_IMPL(poll_unidirectional) { * In addition to regular files, we also disallow FIFOs on Darwin. */ #ifdef __APPLE__ -#define TEST_POLL_FIFO_PATH "/tmp/uv-test-poll-fifo" +#define TEST_POLL_FIFO_PATH "uv-test-poll-fifo" #endif TEST_IMPL(poll_bad_fdtype) { #if !defined(__sun) && \ !defined(_AIX) && !defined(__MVS__) && \ - !defined(__CYGWIN__) && !defined(__MSYS__) + !defined(__CYGWIN__) && !defined(__MSYS__) && !defined(__QNX__) uv_poll_t poll_handle; int fd[2]; diff --git a/deps/uv/test/test-process-priority.c b/deps/uv/test/test-process-priority.c index 941e4b36391032..5e61ef4c21d433 100644 --- a/deps/uv/test/test-process-priority.c +++ b/deps/uv/test/test-process-priority.c @@ -28,9 +28,9 @@ TEST_IMPL(process_priority) { int r; int i; -#if defined(__MVS__) +#if defined(__MVS__) || defined(__QNX__) if (uv_os_setpriority(0, 0) == UV_ENOSYS) - RETURN_SKIP("functionality not supported on zOS"); + RETURN_SKIP("functionality not supported on zOS and QNX"); #endif /* Verify that passing a NULL pointer returns UV_EINVAL. */ diff --git a/deps/uv/test/test-process-title-threadsafe.c b/deps/uv/test/test-process-title-threadsafe.c index 05baaf44a453ad..212c715a3d73dd 100644 --- a/deps/uv/test/test-process-title-threadsafe.c +++ b/deps/uv/test/test-process-title-threadsafe.c @@ -85,10 +85,18 @@ TEST_IMPL(process_title_threadsafe) { int i; #if defined(__sun) || defined(__CYGWIN__) || defined(__MSYS__) || \ - defined(__MVS__) || defined(__PASE__) + defined(__MVS__) || defined(__PASE__) || defined(__QNX__) RETURN_SKIP("uv_(get|set)_process_title is not implemented."); #endif +#if defined(__ASAN__) && defined(__APPLE__) + /* uv_set_process_title loads and unloads a bunch of dynamic libraries, + * and that's quite slow and prone to time out when running concurrently + * under AddressSanitizer. + */ + RETURN_SKIP("too slow under ASAN"); +#endif + ASSERT_OK(uv_set_process_title(titles[0])); ASSERT_OK(uv_sem_init(&getter_sem, 0)); diff --git a/deps/uv/test/test-process-title.c b/deps/uv/test/test-process-title.c index 7178cf87da4b52..3478033a9fbb17 100644 --- a/deps/uv/test/test-process-title.c +++ b/deps/uv/test/test-process-title.c @@ -61,7 +61,7 @@ static void uv_get_process_title_edge_cases(void) { TEST_IMPL(process_title) { #if defined(__sun) || defined(__CYGWIN__) || defined(__MSYS__) || \ - defined(__PASE__) + defined(__PASE__) || defined(__QNX__) RETURN_SKIP("uv_(get|set)_process_title is not implemented."); #endif diff --git a/deps/uv/test/test-spawn.c b/deps/uv/test/test-spawn.c index 964c8a86c76eb6..eaaa8bbeac3d00 100644 --- a/deps/uv/test/test-spawn.c +++ b/deps/uv/test/test-spawn.c @@ -1678,7 +1678,10 @@ TEST_IMPL(spawn_fs_open) { #ifdef _WIN32 const char dev_null[] = "NUL"; HMODULE kernelbase_module; - sCompareObjectHandles pCompareObjectHandles; /* function introduced in Windows 10 */ + union { + FARPROC proc; + sCompareObjectHandles pCompareObjectHandles; /* Windows >= 10 */ + } u; #else const char dev_null[] = "/dev/null"; #endif @@ -1701,12 +1704,10 @@ TEST_IMPL(spawn_fs_open) { #ifdef _WIN32 ASSERT_NE(0, DuplicateHandle(GetCurrentProcess(), fd, GetCurrentProcess(), &dup_fd, 0, /* inherit */ TRUE, DUPLICATE_SAME_ACCESS)); - kernelbase_module = GetModuleHandleA("kernelbase.dll"); - pCompareObjectHandles = (sCompareObjectHandles) - GetProcAddress(kernelbase_module, "CompareObjectHandles"); - ASSERT_NE(pCompareObjectHandles == NULL || - pCompareObjectHandles(fd, dup_fd), - 0); + kernelbase_module = GetModuleHandleW(L"kernelbase.dll"); + u.proc = GetProcAddress(kernelbase_module, "CompareObjectHandles"); + if (u.pCompareObjectHandles != NULL) + ASSERT_EQ(TRUE, u.pCompareObjectHandles(fd, dup_fd)); #else dup_fd = dup(fd); #endif diff --git a/deps/uv/test/test-tcp-close-accept.c b/deps/uv/test/test-tcp-close-accept.c index 4988dd132750c1..30e1f1fac98744 100644 --- a/deps/uv/test/test-tcp-close-accept.c +++ b/deps/uv/test/test-tcp-close-accept.c @@ -69,8 +69,8 @@ static void connect_cb(uv_connect_t* req, int status) { } ASSERT_OK(status); - ASSERT_LE(connect_reqs, req); - ASSERT_LE(req, connect_reqs + ARRAY_SIZE(connect_reqs)); + ASSERT_PTR_LE(connect_reqs, req); + ASSERT_PTR_LE(req, connect_reqs + ARRAY_SIZE(connect_reqs)); i = req - connect_reqs; buf = uv_buf_init("x", 1); diff --git a/deps/uv/test/test-tcp-connect-error-after-write.c b/deps/uv/test/test-tcp-connect-error-after-write.c index 7321259628d5e6..3e660bc6b9ded3 100644 --- a/deps/uv/test/test-tcp-connect-error-after-write.c +++ b/deps/uv/test/test-tcp-connect-error-after-write.c @@ -26,6 +26,17 @@ #include #include +#ifdef _WIN32 +/* + * Try to connect to an address on which nothing listens, get ECONNREFUSED + * (uv errno 12) and get connect_cb() called once with status != 0. + * Related issue: https://github.com/joyent/libuv/issues/443 + */ +TEST_IMPL(tcp_connect_error_after_write) { + RETURN_SKIP("This test is disabled on Windows. " + "See https://github.com/joyent/libuv/issues/444\n"); +} +#else /* !_WIN32 */ static int connect_cb_called; static int write_cb_called; static int close_cb_called; @@ -55,11 +66,6 @@ static void write_cb(uv_write_t* req, int status) { * Related issue: https://github.com/joyent/libuv/issues/443 */ TEST_IMPL(tcp_connect_error_after_write) { -#ifdef _WIN32 - RETURN_SKIP("This test is disabled on Windows for now. " - "See https://github.com/joyent/libuv/issues/444\n"); -#else - uv_connect_t connect_req; struct sockaddr_in addr; uv_write_t write_req; @@ -94,5 +100,5 @@ TEST_IMPL(tcp_connect_error_after_write) { MAKE_VALGRIND_HAPPY(uv_default_loop()); return 0; -#endif } +#endif /* !_WIN32 */ diff --git a/deps/uv/test/test-tcp-flags.c b/deps/uv/test/test-tcp-flags.c index 16218a27f0a3a8..04a238b2c4cd49 100644 --- a/deps/uv/test/test-tcp-flags.c +++ b/deps/uv/test/test-tcp-flags.c @@ -49,6 +49,21 @@ TEST_IMPL(tcp_flags) { r = uv_tcp_keepalive(&handle, 1, 0); ASSERT_EQ(r, UV_EINVAL); + r = uv_tcp_keepalive_ex(&handle, 1, 60, 60, 60); + ASSERT_OK(r); + + r = uv_tcp_keepalive_ex(&handle, 0, 0, 0, 0); + ASSERT_OK(r); + + r = uv_tcp_keepalive_ex(&handle, 1, 0, 10, 10); + ASSERT_EQ(r, UV_EINVAL); + + r = uv_tcp_keepalive_ex(&handle, 1, 10, 0, 10); + ASSERT_EQ(r, UV_EINVAL); + + r = uv_tcp_keepalive_ex(&handle, 1, 10, 10, 0); + ASSERT_EQ(r, UV_EINVAL); + uv_close((uv_handle_t*)&handle, NULL); r = uv_run(loop, UV_RUN_DEFAULT); diff --git a/deps/uv/test/test-tcp-reuseport.c b/deps/uv/test/test-tcp-reuseport.c index f108b9bbe0fe75..db77ff222f56da 100644 --- a/deps/uv/test/test-tcp-reuseport.c +++ b/deps/uv/test/test-tcp-reuseport.c @@ -178,6 +178,17 @@ TEST_IMPL(tcp_reuseport) { int r; int i; +#if defined(__QEMU__) + /* QEMU's user-mode emulator sometimes runs threads in sequence + * instead of in parallel and that throws off the test. + * See https://github.com/libuv/libuv/issues/4777. + */ + RETURN_SKIP("Unreliable under QEMU"); +#endif /* defined(__QEMU__) */ + + if (uv_available_parallelism() < 2) + RETURN_SKIP("Unreliable without thread parallelism"); + r = uv_mutex_init(&mutex); ASSERT_OK(r); diff --git a/deps/uv/test/test-tcp-rst.c b/deps/uv/test/test-tcp-rst.c index 7729f03e607d6a..cd4567037d4f37 100644 --- a/deps/uv/test/test-tcp-rst.c +++ b/deps/uv/test/test-tcp-rst.c @@ -22,6 +22,11 @@ #include "uv.h" #include "task.h" +#ifdef _WIN32 +TEST_IMPL(tcp_rst) { + RETURN_SKIP("Unix only test"); +} +#else /* !_WIN32 */ static uv_tcp_t tcp; static uv_connect_t connect_req; static uv_buf_t qbuf; @@ -76,12 +81,12 @@ static void connect_cb(uv_connect_t *req, int status) { * RST. Test checks that uv_guess_handle still works on a reset TCP handle. */ TEST_IMPL(tcp_rst) { + struct sockaddr_in server_addr; + int r; + #if defined(__OpenBSD__) RETURN_SKIP("Test does not currently work in OpenBSD"); #endif -#ifndef _WIN32 - struct sockaddr_in server_addr; - int r; qbuf.base = "QSH"; qbuf.len = 3; @@ -104,7 +109,5 @@ TEST_IMPL(tcp_rst) { MAKE_VALGRIND_HAPPY(uv_default_loop()); return 0; -#else - RETURN_SKIP("Unix only test"); -#endif } +#endif /* !_WIN32 */ diff --git a/deps/uv/test/test-tcp-write-fail.c b/deps/uv/test/test-tcp-write-fail.c index 530329a3ac63c8..c273c61655fe03 100644 --- a/deps/uv/test/test-tcp-write-fail.c +++ b/deps/uv/test/test-tcp-write-fail.c @@ -91,6 +91,7 @@ static void connect_cb(uv_connect_t* req, int status) { TEST_IMPL(tcp_write_fail) { struct sockaddr_in addr; uv_tcp_t client; + uv_buf_t buf; int r; ASSERT_OK(uv_ip4_addr("127.0.0.1", TEST_PORT, &addr)); @@ -98,6 +99,20 @@ TEST_IMPL(tcp_write_fail) { r = uv_tcp_init(uv_default_loop(), &client); ASSERT_OK(r); + r = uv_write(&write_req, + (uv_stream_t*) &client, + &buf, + 0, /* Illegal. Worse, senseless. */ + write_cb); + ASSERT_EQ(UV_EINVAL, r); + + r = uv_write(&write_req, + (uv_stream_t*) &client, + &buf, + -42, /* Undergoes sign conversion. */ + write_cb); + ASSERT_EQ(UV_EINVAL, r); + r = uv_tcp_connect(&connect_req, &client, (const struct sockaddr*) &addr, diff --git a/deps/uv/test/test-tcp-write-in-a-row.c b/deps/uv/test/test-tcp-write-in-a-row.c index 5c17ed496138e1..39762925cca3b4 100644 --- a/deps/uv/test/test-tcp-write-in-a-row.c +++ b/deps/uv/test/test-tcp-write-in-a-row.c @@ -112,13 +112,14 @@ static void start_server(void) { } TEST_IMPL(tcp_write_in_a_row) { + uv_connect_t connect_req; + struct sockaddr_in addr; + #if defined(_WIN32) RETURN_SKIP("tcp_write_in_a_row does not work on Windows"); #elif defined(__PASE__) RETURN_SKIP("tcp_write_in_a_row does not work on IBM i PASE"); -#else - uv_connect_t connect_req; - struct sockaddr_in addr; +#endif start_server(); @@ -139,5 +140,4 @@ TEST_IMPL(tcp_write_in_a_row) { MAKE_VALGRIND_HAPPY(uv_default_loop()); return 0; -#endif } diff --git a/deps/uv/test/test-thread-affinity.c b/deps/uv/test/test-thread-affinity.c index d21487d9937756..8d7e4ff2a69e6c 100644 --- a/deps/uv/test/test-thread-affinity.c +++ b/deps/uv/test/test-thread-affinity.c @@ -56,12 +56,7 @@ TEST_IMPL(thread_affinity) { int i; uv_thread_t threads[3]; -#ifdef _WIN32 - /* uv_thread_self isn't defined for the main thread on Windows */ - threads[0] = GetCurrentThread(); -#else threads[0] = uv_thread_self(); -#endif cpumasksize = uv_cpumask_size(); ASSERT_GT(cpumasksize, 0); diff --git a/deps/uv/test/test-thread-name.c b/deps/uv/test/test-thread-name.c index 39340744290a0e..f68656cecbc5d9 100644 --- a/deps/uv/test/test-thread-name.c +++ b/deps/uv/test/test-thread-name.c @@ -38,12 +38,7 @@ static void thread_run(void* arg) { sem = arg; -#ifdef _WIN32 - /* uv_thread_self isn't defined for the main thread on Windows. */ - thread = GetCurrentThread(); -#else thread = uv_thread_self(); -#endif r = uv_thread_setname("worker-thread"); ASSERT_OK(r); @@ -82,12 +77,7 @@ TEST_IMPL(thread_name) { memset(long_thread_name, 'a', sizeof(long_thread_name) - 1); long_thread_name[sizeof(long_thread_name) - 1] = '\0'; -#ifdef _WIN32 - /* uv_thread_self isn't defined for the main thread on Windows. */ - threads[0] = GetCurrentThread(); -#else threads[0] = uv_thread_self(); -#endif r = uv_thread_getname(&threads[0], tn, sizeof(tn)); ASSERT_OK(r); diff --git a/deps/uv/test/test-thread-priority.c b/deps/uv/test/test-thread-priority.c index 0aaf297722b118..acc33855130468 100644 --- a/deps/uv/test/test-thread-priority.c +++ b/deps/uv/test/test-thread-priority.c @@ -88,8 +88,6 @@ TEST_IMPL(thread_priority) { * test set nice value for the calling thread with default schedule policy */ #ifdef __linux__ - ASSERT_OK(uv_thread_getpriority(pthread_self(), &priority)); - ASSERT_EQ(priority, 0); ASSERT_OK(uv_thread_setpriority(pthread_self(), UV_THREAD_PRIORITY_LOWEST)); ASSERT_OK(uv_thread_getpriority(pthread_self(), &priority)); ASSERT_EQ(priority, (0 - UV_THREAD_PRIORITY_LOWEST * 2)); @@ -101,5 +99,11 @@ TEST_IMPL(thread_priority) { uv_sem_destroy(&sem); + /* Now that the thread no longer exists, verify that the relevant error is returned */ +#if !defined(__ANDROID__) + ASSERT_EQ(UV_ESRCH, uv_thread_getpriority(task_id, &priority)); + ASSERT_EQ(UV_ESRCH, uv_thread_setpriority(task_id, UV_THREAD_PRIORITY_LOWEST)); +#endif + return 0; -} \ No newline at end of file +} diff --git a/deps/uv/test/test-threadpool-cancel.c b/deps/uv/test/test-threadpool-cancel.c index 544fbbc348a159..c5e6e9aa384cc5 100644 --- a/deps/uv/test/test-threadpool-cancel.c +++ b/deps/uv/test/test-threadpool-cancel.c @@ -21,6 +21,7 @@ #include "uv.h" #include "task.h" +#include #ifdef _WIN32 # define putenv _putenv @@ -102,6 +103,7 @@ static int known_broken(uv_req_t* req) { case UV_FS_FDATASYNC: case UV_FS_FSTAT: case UV_FS_FSYNC: + case UV_FS_FTRUNCATE: case UV_FS_LINK: case UV_FS_LSTAT: case UV_FS_MKDIR: @@ -217,6 +219,7 @@ TEST_IMPL(threadpool_cancel_getaddrinfo) { r = uv_getaddrinfo(loop, reqs + 2, getaddrinfo_cb, "fail", "fail", NULL); ASSERT_OK(r); + memset(&hints, 0, sizeof(hints)); r = uv_getaddrinfo(loop, reqs + 3, getaddrinfo_cb, "fail", NULL, &hints); ASSERT_OK(r); @@ -313,7 +316,7 @@ TEST_IMPL(threadpool_cancel_work) { } -TEST_IMPL(threadpool_cancel_fs) { +TEST_FS_IMPL(threadpool_cancel_fs) { struct cancel_info ci; uv_fs_t reqs[26]; uv_loop_t* loop; diff --git a/deps/uv/test/test-tty.c b/deps/uv/test/test-tty.c index 1b11303829a137..9ecb3ae52ae5d3 100644 --- a/deps/uv/test/test-tty.c +++ b/deps/uv/test/test-tty.c @@ -421,10 +421,6 @@ TEST_IMPL(tty_pty) { #if defined(__QEMU__) RETURN_SKIP("Test does not currently work in QEMU"); #endif -#if defined(__ASAN__) - RETURN_SKIP("Test does not currently work in ASAN"); -#endif - #if defined(__APPLE__) || \ defined(__DragonFly__) || \ defined(__FreeBSD__) || \ @@ -432,16 +428,14 @@ TEST_IMPL(tty_pty) { defined(__NetBSD__) || \ defined(__OpenBSD__) int master_fd, slave_fd, r; - struct winsize w; uv_loop_t loop; uv_tty_t master_tty, slave_tty; - ASSERT_OK(uv_loop_init(&loop)); - - r = openpty(&master_fd, &slave_fd, NULL, NULL, &w); + r = openpty(&master_fd, &slave_fd, NULL, NULL, NULL); if (r != 0) RETURN_SKIP("No pty available, skipping."); + ASSERT_OK(uv_loop_init(&loop)); ASSERT_OK(uv_tty_init(&loop, &slave_tty, slave_fd, 0)); ASSERT_OK(uv_tty_init(&loop, &master_tty, master_fd, 0)); ASSERT(uv_is_readable((uv_stream_t*) &slave_tty)); @@ -466,3 +460,79 @@ TEST_IMPL(tty_pty) { #endif return 0; } + +#if !defined(__ANDROID__) && !defined(_WIN32) +static int tty_pty_partial_read_count; + +static void tty_pty_partial_feeder(void *arg) { + static char buf[1<<13]; + ssize_t n; + ssize_t r; + int fd; + int i; + + fd = *(int *)arg; + memset(buf, 'x', sizeof(buf)); + for (i = 0; i < 8; i++) { + for (n = 0; n < (int) sizeof(buf); n += r) { + do + r = write(fd, &buf[n], sizeof(buf) - n); + while (r == -1 && errno == EINTR); + ASSERT_GT(r, 0); + } + } + ASSERT_OK(close(fd)); +} + +static void tty_pty_partial_alloc_cb(uv_handle_t* handle, + size_t suggested_size, + uv_buf_t *buf) { + static char slab[1<<16]; + *buf = uv_buf_init(slab, sizeof(slab)); +} + +static void tty_pty_partial_read_cb(uv_stream_t* stream, + ssize_t nread, + const uv_buf_t *buf) { + if (nread > 0) + tty_pty_partial_read_count += nread; + else + uv_close((uv_handle_t*) stream, NULL); +} +#endif /* !defined(__ANDROID__) && !defined(_WIN32) */ + +TEST_IMPL(tty_pty_partial) { +#if !defined(_AIX) && \ + !defined(__ANDROID__) && \ + !defined(__MVS__) && \ + !defined(_WIN32) + int master_fd, slave_fd; + uv_tty_t master_tty; + uv_thread_t tid; + uv_loop_t loop; + int i; + + /* This test is not 100% deterministic. If the bug it is testing for is + * present, then it fails about 1 in 3 times, that's why it runs in a loop. + */ + for (i = 0; i < 10; i++) { + if (openpty(&master_fd, &slave_fd, NULL, NULL, NULL)) + RETURN_SKIP("No pty available, skipping."); + + tty_pty_partial_read_count = 0; + ASSERT_OK(uv_loop_init(&loop)); + ASSERT_OK(uv_tty_init(&loop, &master_tty, master_fd, 0)); + ASSERT_OK(uv_read_start((uv_stream_t*) &master_tty, + tty_pty_partial_alloc_cb, + tty_pty_partial_read_cb)); + ASSERT(uv_is_readable((uv_stream_t*) &master_tty)); + ASSERT(uv_is_writable((uv_stream_t*) &master_tty)); + ASSERT_OK(uv_thread_create(&tid, tty_pty_partial_feeder, &slave_fd)); + ASSERT_OK(uv_run(&loop, UV_RUN_DEFAULT)); + ASSERT_OK(uv_thread_join(&tid)); + ASSERT_EQ(tty_pty_partial_read_count, 65536); + MAKE_VALGRIND_HAPPY(&loop); + } +#endif + return 0; +} diff --git a/deps/uv/test/test-udp-ipv6.c b/deps/uv/test/test-udp-ipv6.c index 8ad80b9b5a9b6d..e21ad0aa5bd834 100644 --- a/deps/uv/test/test-udp-ipv6.c +++ b/deps/uv/test/test-udp-ipv6.c @@ -26,7 +26,7 @@ #include #include -#if defined(__FreeBSD__) || defined(__NetBSD__) +#if defined(__FreeBSD__) || defined(__NetBSD__) || defined(__QNX__) #include #endif @@ -49,7 +49,7 @@ static int recv_cb_called; static int close_cb_called; static uint16_t client_port; -#if defined(__FreeBSD__) || defined(__NetBSD__) +#if defined(__FreeBSD__) || defined(__NetBSD__) || defined(__QNX__) static int can_ipv6_ipv4_dual(void) { int v6only; size_t size = sizeof(int); @@ -228,7 +228,7 @@ TEST_IMPL(udp_dual_stack) { if (!can_ipv6()) RETURN_SKIP("IPv6 not supported"); -#if defined(__FreeBSD__) || defined(__NetBSD__) +#if defined(__FreeBSD__) || defined(__NetBSD__) || defined(__QNX__) if (!can_ipv6_ipv4_dual()) RETURN_SKIP("IPv6-IPv4 dual stack not supported"); #elif defined(__OpenBSD__) diff --git a/deps/uv/test/test-udp-multicast-join.c b/deps/uv/test/test-udp-multicast-join.c index 58b055561c6ded..548bf7414cfa4f 100644 --- a/deps/uv/test/test-udp-multicast-join.c +++ b/deps/uv/test/test-udp-multicast-join.c @@ -144,8 +144,8 @@ static void cl_recv_cb(uv_udp_t* handle, TEST_IMPL(udp_multicast_join) { -#if defined(__OpenBSD__) - RETURN_SKIP("Test does not currently work in OpenBSD"); +#if defined(__OpenBSD__) || defined(QNX_IOPKT) + RETURN_SKIP("Test does not currently work in OpenBSD or QNX"); #endif int r; struct sockaddr_in addr; @@ -168,6 +168,8 @@ TEST_IMPL(udp_multicast_join) { RETURN_SKIP("No multicast support."); if (r == UV_ENOEXEC) RETURN_SKIP("No multicast support (likely a firewall issue)."); + if (r == UV_ENOSYS) + RETURN_SKIP("No multicast support (likely a platform issue)."); ASSERT_OK(r); #if defined(__ANDROID__) /* It returns an ENOSYS error */ diff --git a/deps/uv/test/test-udp-multicast-join6.c b/deps/uv/test/test-udp-multicast-join6.c index 430e4e3321e859..c7d624318e53f9 100644 --- a/deps/uv/test/test-udp-multicast-join6.c +++ b/deps/uv/test/test-udp-multicast-join6.c @@ -35,7 +35,8 @@ defined(__MVS__) || \ defined(__FreeBSD__) || \ defined(__NetBSD__) || \ - defined(__OpenBSD__) + defined(__OpenBSD__) || \ + defined(__QNX__) #define MULTICAST_ADDR "ff02::1%lo0" #define INTERFACE_ADDR "::1%lo0" #else @@ -167,6 +168,9 @@ static int can_ipv6_external(void) { TEST_IMPL(udp_multicast_join6) { +#if defined(QNX_IOPKT) + RETURN_SKIP("Test does not currently work in QNX"); +#endif int r; struct sockaddr_in6 addr; diff --git a/deps/uv/test/test-udp-recv-cb-close-pollerr.c b/deps/uv/test/test-udp-recv-cb-close-pollerr.c new file mode 100644 index 00000000000000..8bf1b3877d4542 --- /dev/null +++ b/deps/uv/test/test-udp-recv-cb-close-pollerr.c @@ -0,0 +1,112 @@ +/* Copyright libuv contributors. All rights reserved. + * + * Permission is hereby granted, free of charge, to any person obtaining a copy + * of this software and associated documentation files (the "Software"), to + * deal in the Software without restriction, including without limitation the + * rights to use, copy, modify, merge, publish, distribute, sublicense, and/or + * sell copies of the Software, and to permit persons to whom the Software is + * furnished to do so, subject to the following conditions: + * + * The above copyright notice and this permission notice shall be included in + * all copies or substantial portions of the Software. + * + * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR + * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, + * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE + * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER + * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING + * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS + * IN THE SOFTWARE. + */ +#include "uv.h" +#include "task.h" + +static uv_udp_send_t send_req; +static uv_udp_t client; +static int alloc_cb_called; +static int recv_cb_called; +static int send_cb_called; + +static void alloc_cb(uv_handle_t* handle, size_t sz, uv_buf_t* buf) { + alloc_cb_called++; + buf->base = "uv"; + buf->len = 2; +} + +static void recv_cb(uv_udp_t* handle, ssize_t nread, const uv_buf_t* buf, + const struct sockaddr* addr, unsigned flags) { + recv_cb_called++; + /* Stop receiving and unset recv_cb and alloc_cb */ + uv_close((uv_handle_t*) handle, NULL); +} + +static void send_cb(uv_udp_send_t* req, int status) { + send_cb_called++; + /* The send completed; now just close the handle and let the loop drain. + * If a POLLERR arrives before the close completes, uv__udp_io must not + * crash when no recv callback is installed. */ + uv_close((uv_handle_t*) req->handle, NULL); +} + +/* Refs: https://github.com/libuv/libuv/issues/5030 */ +TEST_IMPL(udp_recv_cb_close_pollerr) { +#ifndef __linux__ + RETURN_SKIP("ICMP error handling is Linux-specific"); +#endif + struct sockaddr_in any_addr; + struct sockaddr_in addr; + uv_buf_t buf; + + ASSERT_OK(uv_udp_init(uv_default_loop(), &client)); + + ASSERT_OK(uv_ip4_addr("0.0.0.0", 0, &any_addr)); + ASSERT_OK(uv_udp_bind(&client, (const struct sockaddr*) &any_addr, + UV_UDP_LINUX_RECVERR)); + + ASSERT_OK(uv_ip4_addr("127.0.0.1", 9999, &addr)); + ASSERT_OK(uv_udp_connect(&client, (const struct sockaddr*) &addr)); + + ASSERT_OK(uv_udp_recv_start(&client, alloc_cb, recv_cb)); + + buf = uv_buf_init("PING", 4); + ASSERT_GT(uv_udp_try_send(&client, &buf, 1, NULL), 0); + + uv_run(uv_default_loop(), UV_RUN_DEFAULT); + + ASSERT_EQ(1, alloc_cb_called); + ASSERT_EQ(1, recv_cb_called); + + MAKE_VALGRIND_HAPPY(uv_default_loop()); + return 0; +} + +/* Same as above but WITHOUT uv_udp_recv_start. + * The ICMP POLLERR still fires on the fd; uv__udp_io must not crash when + * no recv/alloc callback is installed. */ +TEST_IMPL(udp_send_pollerr_no_recv) { +#ifndef __linux__ + RETURN_SKIP("ICMP error handling is Linux-specific"); +#endif + struct sockaddr_in any_addr; + struct sockaddr_in addr; + uv_buf_t buf; + + ASSERT_OK(uv_udp_init(uv_default_loop(), &client)); + + ASSERT_OK(uv_ip4_addr("0.0.0.0", 0, &any_addr)); + ASSERT_OK(uv_udp_bind(&client, (const struct sockaddr*) &any_addr, + UV_UDP_LINUX_RECVERR)); + + ASSERT_OK(uv_ip4_addr("127.0.0.1", 9999, &addr)); + ASSERT_OK(uv_udp_connect(&client, (const struct sockaddr*) &addr)); + + buf = uv_buf_init("PING", 4); + ASSERT_OK(uv_udp_send(&send_req, &client, &buf, 1, NULL, send_cb)); + + uv_run(uv_default_loop(), UV_RUN_DEFAULT); + + ASSERT_EQ(1, send_cb_called); + + MAKE_VALGRIND_HAPPY(uv_default_loop()); + return 0; +} \ No newline at end of file diff --git a/deps/uv/test/test-udp-recvmsg-unreachable-error.c b/deps/uv/test/test-udp-recvmsg-unreachable-error.c new file mode 100644 index 00000000000000..48990cc6d48681 --- /dev/null +++ b/deps/uv/test/test-udp-recvmsg-unreachable-error.c @@ -0,0 +1,125 @@ +/* Copyright libuv project and contributors. All rights reserved. + * + * Permission is hereby granted, free of charge, to any person obtaining a copy + * of this software and associated documentation files (the "Software"), to + * deal in the Software without restriction, including without limitation the + * rights to use, copy, modify, merge, publish, distribute, sublicense, and/or + * sell copies of the Software, and to permit persons to whom the Software is + * furnished to do so, subject to the following conditions: + * + * The above copyright notice and this permission notice shall be included in + * all copies or substantial portions of the Software. + * + * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR + * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, + * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE + * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER + * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING + * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS + * IN THE SOFTWARE. + */ + +#include "uv.h" +#include "task.h" + +#include +#include + +#define CLIENT_TEST_PORT 9123 +#define SERVER_TEST_PORT 9124 +#define RECV_CB_MAX_CALL 3 /* ECONNREFUSED, EAGAIN/EWOULDBLOCK, ICMP delivery */ + +static int recv_cb_called = 0; + +static void udp_send_cb(uv_udp_send_t* req, int status) { + ASSERT_EQ(status, 0); +} + +static void alloc_cb(uv_handle_t* handle, + size_t suggested_size, + uv_buf_t* buf) { + static char storage[4]; /* "PING" */ + buf->base = storage; + buf->len = sizeof(storage); +} + +static void read_cb(uv_udp_t* handle, + ssize_t nread, + const uv_buf_t* buf, + const struct sockaddr* addr, + unsigned flags) { + ASSERT(flags == 0 || (flags & UV_UDP_LINUX_RECVERR)); + recv_cb_called++; +} + +static void timer_cb(uv_timer_t* handle) { + uv_udp_t* udp = handle->data; + uv_close((uv_handle_t*) udp, NULL); +} + +TEST_IMPL(udp_recvmsg_unreachable_error) { +#if !defined(__linux__) + RETURN_SKIP("This test is Linux-specific"); +#endif + struct sockaddr_in server_addr, client_addr; + uv_udp_t client; + uv_timer_t timer; + uv_udp_send_t send_req; + uv_buf_t buf = uv_buf_init("PING", 4); + ASSERT_OK(uv_ip4_addr("127.0.0.1", CLIENT_TEST_PORT, &client_addr)); + ASSERT_OK(uv_ip4_addr("127.0.0.1", SERVER_TEST_PORT, &server_addr)); + ASSERT_OK(uv_udp_init(uv_default_loop(), &client)); + ASSERT_OK(uv_timer_init(uv_default_loop(), &timer)); + ASSERT_OK(uv_udp_bind(&client, + (const struct sockaddr*) &client_addr, + UV_UDP_LINUX_RECVERR)); + ASSERT_OK(uv_udp_recv_start(&client, alloc_cb, read_cb)); + timer.data = &client; + ASSERT_OK(uv_timer_start(&timer, timer_cb, 3000, 0)); + ASSERT_OK(uv_udp_send(&send_req, + &client, + &buf, + 1, + (const struct sockaddr*) &server_addr, + udp_send_cb)); + uv_run(uv_default_loop(), UV_RUN_DEFAULT); + ASSERT_EQ(recv_cb_called, RECV_CB_MAX_CALL); + return 0; +} + +TEST_IMPL(udp_recvmsg_unreachable_error6) { +#if !defined(__linux__) + RETURN_SKIP("This test is Linux-specific"); +#endif + struct sockaddr_in6 server_addr, client_addr; + uv_udp_t client; + uv_timer_t timer; + uv_udp_send_t send_req; + uv_buf_t buf = uv_buf_init("PING", 4); + + ASSERT_OK(uv_ip6_addr("::1", CLIENT_TEST_PORT, &client_addr)); + ASSERT_OK(uv_ip6_addr("::1", SERVER_TEST_PORT, &server_addr)); + + ASSERT_OK(uv_udp_init(uv_default_loop(), &client)); + ASSERT_OK(uv_timer_init(uv_default_loop(), &timer)); + + ASSERT_OK(uv_udp_bind(&client, + (const struct sockaddr*) &client_addr, + UV_UDP_LINUX_RECVERR)); + ASSERT_OK(uv_udp_recv_start(&client, alloc_cb, read_cb)); + + timer.data = &client; + ASSERT_OK(uv_timer_start(&timer, timer_cb, 3000, 0)); + + ASSERT_OK(uv_udp_send(&send_req, + &client, + &buf, + 1, + (const struct sockaddr*) &server_addr, + udp_send_cb)); + + uv_run(uv_default_loop(), UV_RUN_DEFAULT); + + ASSERT_EQ(recv_cb_called, RECV_CB_MAX_CALL); + return 0; +} diff --git a/deps/uv/test/test-udp-reuseport.c b/deps/uv/test/test-udp-reuseport.c index 7d4db40806f628..5d0f949654b4e1 100644 --- a/deps/uv/test/test-udp-reuseport.c +++ b/deps/uv/test/test-udp-reuseport.c @@ -215,6 +215,17 @@ TEST_IMPL(udp_reuseport) { int r; int i; +#if defined(__QEMU__) + /* QEMU's user-mode emulator sometimes runs threads in sequence + * instead of in parallel and that throws off the test. + * See https://github.com/libuv/libuv/issues/4777. + */ + RETURN_SKIP("Unreliable under QEMU"); +#endif /* defined(__QEMU__) */ + + if (uv_available_parallelism() < 2) + RETURN_SKIP("Unreliable without thread parallelism"); + r = uv_mutex_init(&mutex); ASSERT_OK(r); diff --git a/deps/uv/test/test-udp-send-unreachable.c b/deps/uv/test/test-udp-send-unreachable.c index 0a2f4a47a97580..a480206e0984be 100644 --- a/deps/uv/test/test-udp-send-unreachable.c +++ b/deps/uv/test/test-udp-send-unreachable.c @@ -83,7 +83,10 @@ static void recv_cb(uv_udp_t* handle, recv_cb_called++; if (nread < 0) { - ASSERT(0 && "unexpected error"); + if (flags && can_recverr) + ASSERT(flags & UV_UDP_LINUX_RECVERR); + else + ASSERT(0 && "unexpected error"); } else if (nread == 0) { /* Returning unused buffer */ ASSERT_NULL(addr); diff --git a/deps/v8/src/codegen/ppc/macro-assembler-ppc.cc b/deps/v8/src/codegen/ppc/macro-assembler-ppc.cc index 5e957d3b11b86f..28303fc42f592c 100644 --- a/deps/v8/src/codegen/ppc/macro-assembler-ppc.cc +++ b/deps/v8/src/codegen/ppc/macro-assembler-ppc.cc @@ -4636,6 +4636,7 @@ void MacroAssembler::I64x2Mul(Simd128Register dst, Simd128Register src1, if (CpuFeatures::IsSupported(PPC_10_PLUS)) { vmulld(dst, src1, src2); } else { + DCHECK(scratch1 != r0); Register scratch_1 = scratch1; Register scratch_2 = scratch2; for (int i = 0; i < 2; i++) { @@ -4988,6 +4989,7 @@ void MacroAssembler::I8x16BitMask(Register dst, Simd128Register src, if (CpuFeatures::IsSupported(PPC_10_PLUS)) { vextractbm(dst, src); } else { + DCHECK(scratch1 != r0); mov(scratch1, Operand(0x8101820283038)); mov(scratch2, Operand(0x4048505860687078)); mtvsrdd(scratch3, scratch1, scratch2); @@ -5040,6 +5042,7 @@ void MacroAssembler::I8x16Shuffle(Simd128Register dst, Simd128Register src1, Simd128Register src2, uint64_t high, uint64_t low, Register scratch1, Register scratch2, Simd128Register scratch3) { + DCHECK(scratch2 != r0); mov(scratch1, Operand(low)); mov(scratch2, Operand(high)); mtvsrdd(scratch3, scratch2, scratch1); @@ -5328,6 +5331,7 @@ void MacroAssembler::S128Not(Simd128Register dst, Simd128Register src) { void MacroAssembler::S128Const(Simd128Register dst, uint64_t high, uint64_t low, Register scratch1, Register scratch2) { + DCHECK(scratch2 != r0); mov(scratch1, Operand(low)); mov(scratch2, Operand(high)); mtvsrdd(dst, scratch2, scratch1); diff --git a/deps/v8/src/compiler/backend/ppc/code-generator-ppc.cc b/deps/v8/src/compiler/backend/ppc/code-generator-ppc.cc index 93d47489a2c356..3be279a0d2916e 100644 --- a/deps/v8/src/compiler/backend/ppc/code-generator-ppc.cc +++ b/deps/v8/src/compiler/backend/ppc/code-generator-ppc.cc @@ -2863,7 +2863,7 @@ CodeGenerator::CodeGenResult CodeGenerator::AssembleArchInstruction( break; } case kPPC_I8x16BitMask: { - __ I8x16BitMask(i.OutputRegister(), i.InputSimd128Register(0), r0, ip, + __ I8x16BitMask(i.OutputRegister(), i.InputSimd128Register(0), ip, r0, kScratchSimd128Reg); break; } diff --git a/deps/v8/src/objects/keys.cc b/deps/v8/src/objects/keys.cc index 08893c6841bee5..ba7a8563918647 100644 --- a/deps/v8/src/objects/keys.cc +++ b/deps/v8/src/objects/keys.cc @@ -458,6 +458,8 @@ MaybeHandle FastKeyAccumulator::GetKeys( return keys; } if (isolate_->has_exception()) return MaybeHandle(); + } else if (filter_ == SKIP_STRINGS && !MayHaveSymbols()) { + return isolate_->factory()->empty_fixed_array(); } if (try_prototype_info_cache_) { @@ -466,6 +468,34 @@ MaybeHandle FastKeyAccumulator::GetKeys( return GetKeysSlow(keys_conversion); } +bool FastKeyAccumulator::MayHaveSymbols() { + bool own_only = has_empty_prototype_ || mode_ == KeyCollectionMode::kOwnOnly; + Tagged map = receiver_->map(); + if (!own_only || IsCustomElementsReceiverMap(map)) { + return true; + } + + // From this point on we are certain to only collect own keys. + DCHECK(IsJSObject(*receiver_)); + + if (map->is_dictionary_map()) { + // TODO(olivf): Keep a bit in the dictionary to remember if we have any + // symbols. + return true; + } + int num = map->NumberOfOwnDescriptors(); + if (num == 0) { + return false; + } + int enum_length = receiver_->map()->EnumLength(); + if (enum_length != kInvalidEnumCacheSentinel) { + return enum_length != num; + } + // TODO(olivf): Keep a bit in the descriptor to remember if we have any + // symbols. + return true; +} + MaybeHandle FastKeyAccumulator::GetKeysFast( GetKeysConversion keys_conversion) { bool own_only = has_empty_prototype_ || mode_ == KeyCollectionMode::kOwnOnly; diff --git a/deps/v8/src/objects/keys.h b/deps/v8/src/objects/keys.h index d5fbb9b3bf5a84..32f7dec0541b31 100644 --- a/deps/v8/src/objects/keys.h +++ b/deps/v8/src/objects/keys.h @@ -197,6 +197,7 @@ class FastKeyAccumulator { bool is_receiver_simple_enum() { return is_receiver_simple_enum_; } bool has_empty_prototype() { return has_empty_prototype_; } bool may_have_elements() { return may_have_elements_; } + bool MayHaveSymbols(); MaybeHandle GetKeys( GetKeysConversion convert = GetKeysConversion::kKeepNumbers); diff --git a/deps/v8/src/wasm/baseline/ppc/liftoff-assembler-ppc-inl.h b/deps/v8/src/wasm/baseline/ppc/liftoff-assembler-ppc-inl.h index fb91dbe23931cc..0b6fabeabeda7e 100644 --- a/deps/v8/src/wasm/baseline/ppc/liftoff-assembler-ppc-inl.h +++ b/deps/v8/src/wasm/baseline/ppc/liftoff-assembler-ppc-inl.h @@ -2589,7 +2589,7 @@ void LiftoffAssembler::emit_v128_anytrue(LiftoffRegister dst, void LiftoffAssembler::emit_i8x16_bitmask(LiftoffRegister dst, LiftoffRegister src) { - I8x16BitMask(dst.gp(), src.fp().toSimd(), r0, ip, kScratchSimd128Reg); + I8x16BitMask(dst.gp(), src.fp().toSimd(), ip, r0, kScratchSimd128Reg); } void LiftoffAssembler::emit_s128_const(LiftoffRegister dst, diff --git a/deps/v8/src/wasm/constant-expression-interface.cc b/deps/v8/src/wasm/constant-expression-interface.cc index da2db6744a6348..feb774966f9528 100644 --- a/deps/v8/src/wasm/constant-expression-interface.cc +++ b/deps/v8/src/wasm/constant-expression-interface.cc @@ -40,7 +40,17 @@ void ConstantExpressionInterface::S128Const(FullDecoder* decoder, const Simd128Immediate& imm, Value* result) { if (!generate_value()) return; +#if V8_TARGET_BIG_ENDIAN + // Globals are not little endian enforced, they use native byte order and we + // need to reverse the bytes on big endian platforms. + uint8_t value[kSimd128Size]; + for (int i = 0; i < kSimd128Size; i++) { + value[i] = imm.value[kSimd128Size - 1 - i]; + } + result->runtime_value = WasmValue(value, kWasmS128); +#else result->runtime_value = WasmValue(imm.value, kWasmS128); +#endif } void ConstantExpressionInterface::UnOp(FullDecoder* decoder, WasmOpcode opcode, diff --git a/doc/api/addons.md b/doc/api/addons.md index 8e2864952e0841..48eaeb078456ec 100644 --- a/doc/api/addons.md +++ b/doc/api/addons.md @@ -4,22 +4,17 @@ -_Addons_ are dynamically-linked shared objects written in C++. The -[`require()`][require] function can load addons as ordinary Node.js modules. -Addons provide an interface between JavaScript and C/C++ libraries. +_Addons_ are dynamically-linked shared objects that can be loaded via the +[`require()`][] function as ordinary Node.js modules. +Addons provide a foreign function interface between JavaScript and native code. There are three options for implementing addons: -* Node-API +* [Node-API][] (recommended) * `nan` ([Native Abstractions for Node.js][]) * direct use of internal V8, libuv, and Node.js libraries -Unless there is a need for direct access to functionality which is not\ -exposed by Node-API, use Node-API. -Refer to [C/C++ addons with Node-API](n-api.md) for more information on -Node-API. - -When not using Node-API, implementing addons becomes more complex, requiring\ +This rest of this document focuses on the latter, requiring knowledge of multiple components and APIs: * [V8][]: the C++ library Node.js uses to provide the @@ -28,7 +23,7 @@ knowledge of multiple components and APIs: `v8.h` header file (`deps/v8/include/v8.h` in the Node.js source tree), and is also available [online][v8-docs]. -* [libuv][]: The C library that implements the Node.js event loop, its worker +* [`libuv`][]: The C library that implements the Node.js event loop, its worker threads and all of the asynchronous behaviors of the platform. It also serves as a cross-platform abstraction library, giving easy, POSIX-like access across all major operating systems to many common system tasks, such @@ -87,37 +82,40 @@ void Initialize(Local exports) { NODE_SET_METHOD(exports, "hello", Method); } -NODE_MODULE(NODE_GYP_MODULE_NAME, Initialize) +NODE_MODULE(NODE_GYP_MODULE_NAME, Initialize) // N.B.: no semi-colon, this is not a function } // namespace demo ``` -All Node.js addons must export an initialization function following -the pattern: +On most platforms, the following `Makefile` can get us started: -```cpp -void Initialize(Local exports); -NODE_MODULE(NODE_GYP_MODULE_NAME, Initialize) + + +```bash +NODEJS_DEV_ROOT ?= $(shell dirname "$$(command -v node)")/.. +CXXFLAGS = -std=c++23 -I$(NODEJS_DEV_ROOT)/include/node -fPIC -shared -Wl,-undefined,dynamic_lookup + +hello.node: hello.cc + $(CXX) $(CXXFLAGS) -o $@ $< ``` -There is no semi-colon after `NODE_MODULE` as it's not a function (see -`node.h`). + -The `module_name` must match the filename of the final binary (excluding -the `.node` suffix). +Then running the following commands will compile and run the code: -In the `hello.cc` example, then, the initialization function is `Initialize` -and the addon module name is `addon`. +```console +$ make +$ node -p 'require("./hello.node").hello()' +world +``` + +To integrate with the npm ecosystem, see the [Building][] section. -When building addons with `node-gyp`, using the macro `NODE_GYP_MODULE_NAME` as -the first parameter of `NODE_MODULE()` will ensure that the name of the final -binary will be passed to `NODE_MODULE()`. +### Context-aware addons Addons defined with `NODE_MODULE()` can not be loaded in multiple contexts or multiple threads at the same time. -### Context-aware addons - There are environments in which Node.js addons may need to be loaded multiple times in multiple contexts. For example, the [Electron][] runtime runs multiple instances of Node.js in a single process. Each instance will have its own @@ -257,8 +255,8 @@ changes: In order to be loaded from multiple Node.js environments, such as a main thread and a Worker thread, an add-on needs to either: -* Be an Node-API addon, or -* Be declared as context-aware using `NODE_MODULE_INIT()` as described above +* Be an [Node-API][] addon. +* Be declared as context-aware using `NODE_MODULE_INIT()` as described above. In order to support [`Worker`][] threads, addons need to clean up any resources they may have allocated when such a thread exits. This can be achieved through @@ -340,7 +338,7 @@ require('./build/Release/addon'); Once the source code has been written, it must be compiled into the binary `addon.node` file. To do so, create a file called `binding.gyp` in the top-level of the project describing the build configuration of the module -using a JSON-like format. This file is used by [node-gyp][], a tool written +using a JSON-like format. This file is used by [`node-gyp`][], a tool written specifically to compile Node.js addons. ```json @@ -375,7 +373,7 @@ version of `node-gyp` to perform this same set of actions, generating a compiled version of the addon for the user's platform on demand. Once built, the binary addon can be used from within Node.js by pointing -[`require()`][require] to the built `addon.node` module: +[`require()`][] to the built `addon.node` module: ```js // hello.js @@ -422,18 +420,46 @@ aware of: ### Loading addons using `require()` The filename extension of the compiled addon binary is `.node` (as opposed -to `.dll` or `.so`). The [`require()`][require] function is written to look for +to `.dll` or `.so`). The [`require()`][] function is written to look for files with the `.node` file extension and initialize those as dynamically-linked libraries. -When calling [`require()`][require], the `.node` extension can usually be +When calling [`require()`][], the `.node` extension can usually be omitted and Node.js will still find and initialize the addon. One caveat, however, is that Node.js will first attempt to locate and load modules or JavaScript files that happen to share the same base name. For instance, if there is a file `addon.js` in the same directory as the binary `addon.node`, -then [`require('addon')`][require] will give precedence to the `addon.js` file +then [`require('addon')`][`require()`] will give precedence to the `addon.js` file and load it instead. +### Loading addons using `import` + + + +> Stability: 1.0 - Early development + +You can use the [`--experimental-addon-modules`][] flag to enable support for +both static `import` and dynamic `import()` to load binary addons. + +If we reuse the Hello World example from earlier, you could do: + +```mjs +// hello.mjs +import myAddon from './hello.node'; +// N.B.: import {hello} from './hello.node' would not work + +console.log(myAddon.hello()); +``` + +```console +$ node --experimental-addon-modules hello.mjs +world +``` + ## Native abstractions for Node.js Each of the examples illustrated in this document directly use the @@ -453,59 +479,7 @@ illustration of how it can be used. > Stability: 2 - Stable -Node-API is an API for building native addons. It is independent from -the underlying JavaScript runtime (e.g. V8) and is maintained as part of -Node.js itself. This API will be Application Binary Interface (ABI) stable -across versions of Node.js. It is intended to insulate addons from -changes in the underlying JavaScript engine and allow modules -compiled for one version to run on later versions of Node.js without -recompilation. Addons are built/packaged with the same approach/tools -outlined in this document (node-gyp, etc.). The only difference is the -set of APIs that are used by the native code. Instead of using the V8 -or [Native Abstractions for Node.js][] APIs, the functions available -in the Node-API are used. - -Creating and maintaining an addon that benefits from the ABI stability -provided by Node-API carries with it certain -[implementation considerations][]. - -To use Node-API in the above "Hello world" example, replace the content of -`hello.cc` with the following. All other instructions remain the same. - -```cpp -// hello.cc using Node-API -#include - -namespace demo { - -napi_value Method(napi_env env, napi_callback_info args) { - napi_value greeting; - napi_status status; - - status = napi_create_string_utf8(env, "world", NAPI_AUTO_LENGTH, &greeting); - if (status != napi_ok) return nullptr; - return greeting; -} - -napi_value init(napi_env env, napi_value exports) { - napi_status status; - napi_value fn; - - status = napi_create_function(env, nullptr, 0, Method, nullptr, &fn); - if (status != napi_ok) return nullptr; - - status = napi_set_named_property(env, exports, "hello", fn); - if (status != napi_ok) return nullptr; - return exports; -} - -NAPI_MODULE(NODE_GYP_MODULE_NAME, init) - -} // namespace demo -``` - -The functions available and how to use them are documented in -[C/C++ addons with Node-API](n-api.md). +See [C/C++ addons with Node-API][Node-API]. ## Addon examples @@ -1376,18 +1350,20 @@ console.log(result); // Prints: 30 ``` +[Building]: #building [Electron]: https://electronjs.org/ [Embedder's Guide]: https://v8.dev/docs/embed [Linking to libraries included with Node.js]: #linking-to-libraries-included-with-nodejs [Native Abstractions for Node.js]: https://github.com/nodejs/nan +[Node-API]: n-api.md [V8]: https://v8.dev/ +[`--experimental-addon-modules`]: cli.md#--experimental-addon-modules [`Worker`]: worker_threads.md#class-worker +[`libuv`]: https://github.com/libuv/libuv +[`node-gyp`]: https://github.com/nodejs/node-gyp +[`require()`]: modules.md#requireid [bindings]: https://github.com/TooTallNate/node-bindings [download]: https://github.com/nodejs/node-addon-examples [examples]: https://github.com/nodejs/nan/tree/HEAD/examples/ -[implementation considerations]: n-api.md#implications-of-abi-stability [installation instructions]: https://github.com/nodejs/node-gyp#installation -[libuv]: https://github.com/libuv/libuv -[node-gyp]: https://github.com/nodejs/node-gyp -[require]: modules.md#requireid [v8-docs]: https://v8docs.nodesource.com/ diff --git a/doc/api/async_hooks.md b/doc/api/async_hooks.md index 07793fca90e445..a863350fc2d26d 100644 --- a/doc/api/async_hooks.md +++ b/doc/api/async_hooks.md @@ -144,18 +144,20 @@ function destroy(asyncId) { } function promiseResolve(asyncId) { } ``` -## `async_hooks.createHook(callbacks)` +## `async_hooks.createHook(options)` -* `callbacks` {Object} The [Hook Callbacks][] to register +* `options` {Object} The [Hook Callbacks][] to register * `init` {Function} The [`init` callback][]. * `before` {Function} The [`before` callback][]. * `after` {Function} The [`after` callback][]. * `destroy` {Function} The [`destroy` callback][]. * `promiseResolve` {Function} The [`promiseResolve` callback][]. + * `trackPromises` {boolean} Whether the hook should track `Promise`s. Cannot be `false` if + `promiseResolve` is set. **Default**: `true`. * Returns: {AsyncHook} Instance used for disabling and enabling hooks Registers functions to be called for different lifetime events of each async @@ -354,7 +356,8 @@ Furthermore users of [`AsyncResource`][] create async resources independent of Node.js itself. There is also the `PROMISE` resource type, which is used to track `Promise` -instances and asynchronous work scheduled by them. +instances and asynchronous work scheduled by them. The `Promise`s are only +tracked when `trackPromises` option is set to `true`. Users are able to define their own `type` when using the public embedder API. @@ -910,6 +913,38 @@ only on chained promises. That means promises not created by `then()`/`catch()` will not have the `before` and `after` callbacks fired on them. For more details see the details of the V8 [PromiseHooks][] API. +### Disabling promise execution tracking + +Tracking promise execution can cause a significant performance overhead. +To opt out of promise tracking, set `trackPromises` to `false`: + +```cjs +const { createHook } = require('node:async_hooks'); +const { writeSync } = require('node:fs'); +createHook({ + init(asyncId, type, triggerAsyncId, resource) { + // This init hook does not get called when trackPromises is set to false. + writeSync(1, `init hook triggered for ${type}\n`); + }, + trackPromises: false, // Do not track promises. +}).enable(); +Promise.resolve(1729); +``` + +```mjs +import { createHook } from 'node:async_hooks'; +import { writeSync } from 'node:fs'; + +createHook({ + init(asyncId, type, triggerAsyncId, resource) { + // This init hook does not get called when trackPromises is set to false. + writeSync(1, `init hook triggered for ${type}\n`); + }, + trackPromises: false, // Do not track promises. +}).enable(); +Promise.resolve(1729); +``` + ## JavaScript embedder API Library developers that handle their own asynchronous resources performing tasks @@ -934,7 +969,7 @@ The documentation for this class has moved [`AsyncLocalStorage`][]. [`Worker`]: worker_threads.md#class-worker [`after` callback]: #afterasyncid [`before` callback]: #beforeasyncid -[`createHook`]: #async_hookscreatehookcallbacks +[`createHook`]: #async_hookscreatehookoptions [`destroy` callback]: #destroyasyncid [`executionAsyncResource`]: #async_hooksexecutionasyncresource [`init` callback]: #initasyncid-type-triggerasyncid-resource diff --git a/doc/api/buffer.md b/doc/api/buffer.md index 37e42c002a9742..5208c499bfe72f 100644 --- a/doc/api/buffer.md +++ b/doc/api/buffer.md @@ -865,7 +865,7 @@ _may contain sensitive data_. Use [`buf.fill(0)`][`buf.fill()`] to initialize such `Buffer` instances with zeroes. When using [`Buffer.allocUnsafe()`][] to allocate new `Buffer` instances, -allocations less than `Buffer.poolSize >>> 1` (4KiB when default poolSize is used) are sliced +allocations less than `Buffer.poolSize >>> 1` (32KiB when default poolSize is used) are sliced from a single pre-allocated `Buffer`. This allows applications to avoid the garbage collection overhead of creating many individually allocated `Buffer` instances. This approach improves both performance and memory usage by @@ -1497,9 +1497,13 @@ console.log(Buffer.isEncoding('')); -* Type: {integer} **Default:** `8192` +* Type: {integer} **Default:** `65536` This is the size (in bytes) of pre-allocated internal `Buffer` instances used for pooling. This value may be modified. @@ -3490,13 +3494,13 @@ changes: calculations with them. --> +> Stability: 0 - Deprecated: Use [`buf.subarray`][] instead. + * `start` {integer} Where the new `Buffer` will start. **Default:** `0`. * `end` {integer} Where the new `Buffer` will end (not inclusive). **Default:** [`buf.length`][]. * Returns: {Buffer} -> Stability: 0 - Deprecated: Use [`buf.subarray`][] instead. - Returns a new `Buffer` that references the same memory as the original, but offset and cropped by the `start` and `end` indexes. diff --git a/doc/api/child_process.md b/doc/api/child_process.md index 23ef74d1d2026a..1786c2250044e2 100644 --- a/doc/api/child_process.md +++ b/doc/api/child_process.md @@ -118,51 +118,37 @@ operating systems (Unix, Linux, macOS) [`child_process.execFile()`][] can be more efficient because it does not spawn a shell by default. On Windows, however, `.bat` and `.cmd` files are not executable on their own without a terminal, and therefore cannot be launched using [`child_process.execFile()`][]. -When running on Windows, `.bat` and `.cmd` files can be invoked using -[`child_process.spawn()`][] with the `shell` option set, with -[`child_process.exec()`][], or by spawning `cmd.exe` and passing the `.bat` or -`.cmd` file as an argument (which is what the `shell` option and -[`child_process.exec()`][] do). In any case, if the script filename contains -spaces it needs to be quoted. +When running on Windows, `.bat` and `.cmd` files can be invoked by: + +* using [`child_process.spawn()`][] with the `shell` option set (not recommended, see [DEP0190][]), or +* using [`child_process.exec()`][], or +* spawning `cmd.exe` and passing the `.bat` or `.cmd` file as an argument + (which is what [`child_process.exec()`][] does internally). + +In any case, if the script filename contains spaces, it needs to be quoted. ```cjs -// OR... const { exec, spawn } = require('node:child_process'); -exec('my.bat', (err, stdout, stderr) => { - if (err) { - console.error(err); - return; - } - console.log(stdout); -}); +exec('my.bat', (err, stdout, stderr) => { /* ... */ }); -// Script with spaces in the filename: -const bat = spawn('"my script.cmd" a b', { shell: true }); -// or: -exec('"my script.cmd" a b', (err, stdout, stderr) => { - // ... -}); +// Or, spawning cmd.exe directly: +const bat = spawn('cmd.exe', ['/c', 'my.bat']); + +// If the script filename contains spaces, it needs to be quoted +exec('"my script.cmd" a b', (err, stdout, stderr) => { /* ... */ }); ``` ```mjs -// OR... import { exec, spawn } from 'node:child_process'; -exec('my.bat', (err, stdout, stderr) => { - if (err) { - console.error(err); - return; - } - console.log(stdout); -}); +exec('my.bat', (err, stdout, stderr) => { /* ... */ }); -// Script with spaces in the filename: -const bat = spawn('"my script.cmd" a b', { shell: true }); -// or: -exec('"my script.cmd" a b', (err, stdout, stderr) => { - // ... -}); +// Or, spawning cmd.exe directly: +const bat = spawn('cmd.exe', ['/c', 'my.bat']); + +// If the script filename contains spaces, it needs to be quoted +exec('"my script.cmd" a b', (err, stdout, stderr) => { /* ... */ }); ``` ### `child_process.exec(command[, options][, callback])` @@ -2353,6 +2339,7 @@ Therefore, this feature requires opting in by setting the or [`child_process.fork()`][]. [Advanced serialization]: #advanced-serialization +[DEP0190]: deprecations.md#dep0190-passing-args-to-nodechild_process-execfilespawn-with-shell-option [Default Windows shell]: #default-windows-shell [HTML structured clone algorithm]: https://developer.mozilla.org/en-US/docs/Web/API/Web_Workers_API/Structured_clone_algorithm [Shell requirements]: #shell-requirements diff --git a/doc/api/cli.md b/doc/api/cli.md index 0dfbe4b4fe0e41..60a09f0e4b344f 100644 --- a/doc/api/cli.md +++ b/doc/api/cli.md @@ -271,6 +271,36 @@ When passing a single flag with a comma a warning will be displayed. Examples can be found in the [File System Permissions][] documentation. +### `--allow-inspector` + + + +> Stability: 1.0 - Early development + +When using the [Permission Model][], the process will not be able to connect +through inspector protocol. + +Attempts to do so will throw an `ERR_ACCESS_DENIED` unless the +user explicitly passes the `--allow-inspector` flag when starting Node.js. + +Example: + +```js +const { Session } = require('node:inspector/promises'); + +const session = new Session(); +session.connect(); +``` + +```console +$ node --permission index.js +Error: connect ERR_ACCESS_DENIED Access to this API has been restricted. Use --allow-inspector to manage permissions. + code: 'ERR_ACCESS_DENIED', +} +``` + ### `--allow-wasi` diff --git a/doc/api/console.md b/doc/api/console.md index 1c966d094d1472..5023fd9c64ee81 100644 --- a/doc/api/console.md +++ b/doc/api/console.md @@ -102,6 +102,9 @@ const { Console } = console; + +> Stability: 1 - Experimental + +`node inspect` supports a non-interactive probe mode for inspecting runtime values +in an application via the flag `--probe`. + +Currently, probe mode only supports launching a new process from the entry point +script specified on the command line. + +The probe mode sets one or more source breakpoints, evaluates specified +expressions whenever the execution reaches a breakpoint, and prints one +final report of all the evaluated expressions when the session ends +(either on normal completion, error, or timeout). This allows developers to perform +printf-style debugging without having to modify the application code and +clean up afterwards. It also supports structured JSON output for tool use. + +```console +$ node inspect --probe :[:] --expr + [--probe :[:] --expr ...] + [--json] [--preview] [--timeout=] [--port=] + [--] [ ...] + + + + + + + + + + + + diff --git a/test/fixtures/wpt/FileAPI/BlobURL/cross-partition-self-fetch.https.html b/test/fixtures/wpt/FileAPI/BlobURL/cross-partition-self-fetch.https.html new file mode 100644 index 00000000000000..cbff2fa18fa15d --- /dev/null +++ b/test/fixtures/wpt/FileAPI/BlobURL/cross-partition-self-fetch.https.html @@ -0,0 +1,76 @@ + + + + + + + + + + + + + + + + \ No newline at end of file diff --git a/test/fixtures/wpt/FileAPI/BlobURL/cross-partition-worker-creation.https.html b/test/fixtures/wpt/FileAPI/BlobURL/cross-partition-worker-creation.https.html new file mode 100644 index 00000000000000..e8d0bad4c97580 --- /dev/null +++ b/test/fixtures/wpt/FileAPI/BlobURL/cross-partition-worker-creation.https.html @@ -0,0 +1,117 @@ + + + + + + + + + + + + + + + + \ No newline at end of file diff --git a/test/fixtures/wpt/FileAPI/BlobURL/cross-partition.https.html b/test/fixtures/wpt/FileAPI/BlobURL/cross-partition.https.html new file mode 100644 index 00000000000000..cb66ebe77093bc --- /dev/null +++ b/test/fixtures/wpt/FileAPI/BlobURL/cross-partition.https.html @@ -0,0 +1,482 @@ + + + + + + + + + + + + + + + + diff --git a/test/fixtures/wpt/FileAPI/BlobURL/cross-partition.tentative.https.html b/test/fixtures/wpt/FileAPI/BlobURL/cross-partition.tentative.https.html deleted file mode 100644 index c75ce07d054eb7..00000000000000 --- a/test/fixtures/wpt/FileAPI/BlobURL/cross-partition.tentative.https.html +++ /dev/null @@ -1,276 +0,0 @@ - - - - - - - - - - - - - - - diff --git a/test/fixtures/wpt/FileAPI/BlobURL/resources/common.js b/test/fixtures/wpt/FileAPI/BlobURL/resources/common.js new file mode 100644 index 00000000000000..60a97d6a5ea5fe --- /dev/null +++ b/test/fixtures/wpt/FileAPI/BlobURL/resources/common.js @@ -0,0 +1,33 @@ +const add_iframe_js = (iframe_origin, response_queue_uuid) => ` + const importScript = ${importScript}; + await importScript("/html/cross-origin-embedder-policy/credentialless" + + "/resources/common.js"); + await importScript("/html/anonymous-iframe/resources/common.js"); + await importScript("/common/utils.js"); + + // dispatcher.js has already been loaded by the popup this is running in. + await send("${response_queue_uuid}", newIframe("${iframe_origin}")); +`; + +async function create_test_iframes(t, response_queue_uuid) { + const same_site_origin = get_host_info().HTTPS_ORIGIN; + const cross_site_origin = get_host_info().HTTPS_NOTSAMESITE_ORIGIN; + + assert_equals("https://" + window.location.host, same_site_origin, + "this test assumes that the page's window.location.host corresponds to " + + "get_host_info().HTTPS_ORIGIN"); + + // Create a same-origin iframe in a cross-site popup. + const not_same_site_popup_uuid = newPopup(t, cross_site_origin); + await send(not_same_site_popup_uuid, + add_iframe_js(same_site_origin, response_queue_uuid)); + const cross_site_iframe_uuid = await receive(response_queue_uuid); + + // Create a same-origin iframe in a same-site popup. + const same_origin_popup_uuid = newPopup(t, same_site_origin); + await send(same_origin_popup_uuid, + add_iframe_js(same_site_origin, response_queue_uuid)); + const same_site_iframe_uuid = await receive(response_queue_uuid); + + return [cross_site_iframe_uuid, same_site_iframe_uuid]; +} \ No newline at end of file diff --git a/test/fixtures/wpt/FileAPI/WEB_FEATURES.yml b/test/fixtures/wpt/FileAPI/WEB_FEATURES.yml new file mode 100644 index 00000000000000..8d279ceaaeab21 --- /dev/null +++ b/test/fixtures/wpt/FileAPI/WEB_FEATURES.yml @@ -0,0 +1,3 @@ +features: +- name: file + files: "**" diff --git a/test/fixtures/wpt/FileAPI/blob/Blob-constructor.any.js b/test/fixtures/wpt/FileAPI/blob/Blob-constructor.any.js index 6dc44e8e156cce..03155b99cb20ea 100644 --- a/test/fixtures/wpt/FileAPI/blob/Blob-constructor.any.js +++ b/test/fixtures/wpt/FileAPI/blob/Blob-constructor.any.js @@ -104,6 +104,59 @@ test_blob(function() { desc: "A Uint8Array object should be treated as a sequence for the blobParts argument." }); +test(function() { + assert_throws_js(TypeError, function() { new Blob(true) }); +}, "blobParts not an object: boolean"); + +test(function() { + Boolean.prototype[Symbol.iterator] = () => ["FAIL"][Symbol.iterator]() + this.add_cleanup(function() { delete Boolean.prototype[Symbol.iterator] }); + assert_throws_js(TypeError, function() { new Blob(true) }); +}, "blobParts not an object: boolean with Boolean.prototype[Symbol.iterator]"); + +test(function() { + assert_throws_js(TypeError, function() { new Blob("fail") }); +}, "blobParts not an object: string"); + +test(function() { + const original = String.prototype[Symbol.iterator]; + String.prototype[Symbol.iterator] = () => ["FAIL"][Symbol.iterator]() + this.add_cleanup(function() { String.prototype[Symbol.iterator] = original }); + assert_throws_js(TypeError, function() { new Blob("fail") }); +}, "blobParts not an object: string with String.prototype[Symbol.iterator]"); + +test(function() { + assert_throws_js(TypeError, function() { new Blob(7) }); +}, "blobParts not an object: number"); + +test(function() { + Number.prototype[Symbol.iterator] = () => ["FAIL"][Symbol.iterator]() + this.add_cleanup(function() { delete Number.prototype[Symbol.iterator] }); + assert_throws_js(TypeError, function() { new Blob(7) }); +}, "blobParts not an object: number with Number.prototype[Symbol.iterator]"); + +test(function() { + assert_throws_js(TypeError, function() { new Blob(7n) }); +}, "blobParts not an object: BigInt"); + +test(function() { + BigInt.prototype[Symbol.iterator] = () => ["FAIL"][Symbol.iterator]() + this.add_cleanup(function() { delete BigInt.prototype[Symbol.iterator] }); + assert_throws_js(TypeError, function() { new Blob(7n) }); +}, "blobParts not an object: BigInt with BigInt.prototype[Symbol.iterator]"); + +test(function() { + const symbol = Symbol(); + assert_throws_js(TypeError, function() { new Blob(symbol) }); +}, "blobParts not an object: Symbol"); + +test(function() { + const symbol = Symbol(); + Symbol.prototype[Symbol.iterator] = () => ["FAIL"][Symbol.iterator]() + this.add_cleanup(function() { delete Symbol.prototype[Symbol.iterator] }); + assert_throws_js(TypeError, function() { new Blob(symbol) }); +}, "blobParts not an object: Symbol with Symbol.prototype[Symbol.iterator]"); + var test_error = { name: "test", message: "test error", @@ -290,14 +343,22 @@ test_blob(function() { new Int16Array([0x4150, 0x5353]), new Uint32Array([0x53534150]), new Int32Array([0x53534150]), - new Float16Array([2.65625, 58.59375]), new Float32Array([0xD341500000]) ]); }, { - expected: "PASSPASSPASSPASSPASSPASSPASSPASS", + expected: "PASSPASSPASSPASSPASSPASSPASS", type: "", desc: "Passing typed arrays as elements of the blobParts array should work." }); +test_blob(function() { + return new Blob([ + new Float16Array([2.65625, 58.59375]) + ]); +}, { + expected: "PASS", + type: "", + desc: "Passing a Float16Array as element of the blobParts array should work." +}); test_blob(function() { return new Blob([ // 0x535 3415053534150 diff --git a/test/fixtures/wpt/FileAPI/blob/Blob-newobject.any.js b/test/fixtures/wpt/FileAPI/blob/Blob-newobject.any.js new file mode 100644 index 00000000000000..e036c3a9a743e6 --- /dev/null +++ b/test/fixtures/wpt/FileAPI/blob/Blob-newobject.any.js @@ -0,0 +1,12 @@ +// META: title=Blob methods return new objects ([NewObject]) +// META: global=window,worker +'use strict'; + +['stream', 'text', 'arrayBuffer', 'bytes'].forEach(method => { + test(() => { + const blob = new Blob(['PASS']); + const a = blob[method](); + const b = blob[method](); + assert_not_equals(a, b, `Blob.${method}() must return a new object`); + }, `Blob.${method}() returns [NewObject]`); +}); diff --git a/test/fixtures/wpt/FileAPI/blob/Blob-slice.any.js b/test/fixtures/wpt/FileAPI/blob/Blob-slice.any.js index 1f85d44d269191..bedc8d737302a0 100644 --- a/test/fixtures/wpt/FileAPI/blob/Blob-slice.any.js +++ b/test/fixtures/wpt/FileAPI/blob/Blob-slice.any.js @@ -12,24 +12,50 @@ test_blob(function() { }); test(function() { - var blob1, blob2; + var blob1 = new Blob(["squiggle"]); + var blob2 = new Blob(["steak"], {type: "content/type"}); - test_blob(function() { - return blob1 = new Blob(["squiggle"]); - }, { + test_blob(() => blob1, + { expected: "squiggle", type: "", desc: "blob1." }); - test_blob(function() { - return blob2 = new Blob(["steak"], {type: "content/type"}); - }, { + test_blob(() => blob2, + { expected: "steak", type: "content/type", desc: "blob2." }); + test_blob(function() { + var blob = new Blob(["abcd"]); + return blob.slice(undefined, undefined, "content/type"); + }, { + expected: "abcd", + type: "content/type", + desc: "undefined start/end Blob slice" + }); + + test_blob(function() { + var blob = new Blob(["abcd"]); + return blob.slice(undefined, 2, "content/type"); + }, { + expected: "ab", + type: "content/type", + desc: "undefined start Blob slice" + }); + + test_blob(function() { + var blob = new Blob(["abcd"]); + return blob.slice(2, undefined, "content/type"); + }, { + expected: "cd", + type: "content/type", + desc: "undefined end Blob slice" + }); + test_blob(function() { return new Blob().slice(0,0,null); }, { @@ -74,6 +100,21 @@ test(function() { {start: 7, end: 4, contents: ""}] ], + // Test double start/end values + [ + ["abcd"], + [{start: 0.5, contents: "abcd"}, + {start: 1.5, contents: "cd"}, + {start: 2.5, contents: "cd"}, + {start: 3.5, contents: ""}, + {start: 0, end: 0.5, contents: ""}, + {start: 0, end: 1.5, contents: "ab"}, + {start: 0, end: 2.5, contents: "ab"}, + {start: 0, end: 3.5, contents: "abcd"}, + {start: 1.5, end: 2.5, contents: ""}, + {start: 1.5, end: 3.5, contents: "cd"}] + ], + // Test 3 strings [ ["foo", "bar", "baz"], diff --git a/test/fixtures/wpt/FileAPI/reading-data-section/filereader_readAsArrayBuffer.any.js b/test/fixtures/wpt/FileAPI/reading-data-section/filereader_readAsArrayBuffer.any.js index d06e3170782b7c..88c4f4d26cc0b2 100644 --- a/test/fixtures/wpt/FileAPI/reading-data-section/filereader_readAsArrayBuffer.any.js +++ b/test/fixtures/wpt/FileAPI/reading-data-section/filereader_readAsArrayBuffer.any.js @@ -7,6 +7,7 @@ reader.onload = this.step_func(function(evt) { assert_equals(reader.result.byteLength, 4, "The byteLength is 4"); assert_true(reader.result instanceof ArrayBuffer, "The result is instanceof ArrayBuffer"); + assert_array_equals(new Uint8Array(reader.result), [84, 69, 83, 84]); assert_equals(reader.readyState, reader.DONE); this.done(); }); diff --git a/test/fixtures/wpt/FileAPI/support/Blob.js b/test/fixtures/wpt/FileAPI/support/Blob.js index 2c249746858918..e8a52425a17085 100644 --- a/test/fixtures/wpt/FileAPI/support/Blob.js +++ b/test/fixtures/wpt/FileAPI/support/Blob.js @@ -5,23 +5,16 @@ self.test_blob = (fn, expectations) => { type = expectations.type, desc = expectations.desc; - var t = async_test(desc); - t.step(function() { + promise_test(async (t) => { var blob = fn(); assert_true(blob instanceof Blob); assert_false(blob instanceof File); assert_equals(blob.type, type); assert_equals(blob.size, expected.length); - var fr = new FileReader(); - fr.onload = t.step_func_done(function(event) { - assert_equals(this.result, expected); - }, fr); - fr.onerror = t.step_func(function(e) { - assert_unreached("got error event on FileReader"); - }); - fr.readAsText(blob, "UTF-8"); - }); + const text = await blob.text(); + assert_equals(text, expected); + }, desc); } self.test_blob_binary = (fn, expectations) => { @@ -29,25 +22,18 @@ self.test_blob_binary = (fn, expectations) => { type = expectations.type, desc = expectations.desc; - var t = async_test(desc); - t.step(function() { + promise_test(async (t) => { var blob = fn(); assert_true(blob instanceof Blob); assert_false(blob instanceof File); assert_equals(blob.type, type); assert_equals(blob.size, expected.length); - var fr = new FileReader(); - fr.onload = t.step_func_done(function(event) { - assert_true(this.result instanceof ArrayBuffer, - "Result should be an ArrayBuffer"); - assert_array_equals(new Uint8Array(this.result), expected); - }, fr); - fr.onerror = t.step_func(function(e) { - assert_unreached("got error event on FileReader"); - }); - fr.readAsArrayBuffer(blob); - }); + const ab = await blob.arrayBuffer(); + assert_true(ab instanceof ArrayBuffer, + "Result should be an ArrayBuffer"); + assert_array_equals(new Uint8Array(ab), expected); + }, desc); } // Assert that two TypedArray objects have the same byte values diff --git a/test/fixtures/wpt/FileAPI/support/send-file-form-helper.js b/test/fixtures/wpt/FileAPI/support/send-file-form-helper.js index 39c73c41b42207..d6adf21ec33795 100644 --- a/test/fixtures/wpt/FileAPI/support/send-file-form-helper.js +++ b/test/fixtures/wpt/FileAPI/support/send-file-form-helper.js @@ -180,7 +180,7 @@ const formPostFileUploadTest = ({ // Used to verify that the browser agrees with the test about // field value replacement and encoding independently of file system - // idiosyncrasies. + // idiosyncracies. form.append(Object.assign(document.createElement('input'), { type: 'hidden', name: 'filename', diff --git a/test/fixtures/wpt/FileAPI/support/send-file-formdata-helper.js b/test/fixtures/wpt/FileAPI/support/send-file-formdata-helper.js index dd62a0e98e92c8..53c8cca7e09b8e 100644 --- a/test/fixtures/wpt/FileAPI/support/send-file-formdata-helper.js +++ b/test/fixtures/wpt/FileAPI/support/send-file-formdata-helper.js @@ -34,7 +34,7 @@ const formDataPostFileUploadTest = ({ // Used to verify that the browser agrees with the test about // field value replacement and encoding independently of file system - // idiosyncrasies. + // idiosyncracies. formData.append("filename", fileBaseName); // Same, but with name and value reversed to ensure field names diff --git a/test/fixtures/wpt/FileAPI/url/url-in-tags.window.js b/test/fixtures/wpt/FileAPI/url/url-in-tags.window.js index f20b3599013bf5..8a722dcac82b66 100644 --- a/test/fixtures/wpt/FileAPI/url/url-in-tags.window.js +++ b/test/fixtures/wpt/FileAPI/url/url-in-tags.window.js @@ -1,3 +1,10 @@ +setup(() => { + const viewport_meta = document.createElement('meta'); + viewport_meta.name = "viewport"; + viewport_meta.content = "width=device-width,initial-scale=1"; + document.head.appendChild(viewport_meta); +}); + async_test(t => { const run_result = 'test_script_OK'; const blob_contents = 'window.test_result = "' + run_result + '";'; diff --git a/test/fixtures/wpt/README.md b/test/fixtures/wpt/README.md index 36dcccfc31af84..3473511d9b786e 100644 --- a/test/fixtures/wpt/README.md +++ b/test/fixtures/wpt/README.md @@ -17,7 +17,7 @@ Last update: - dom/events: https://github.com/web-platform-tests/wpt/tree/0a811c5161/dom/events - encoding: https://github.com/web-platform-tests/wpt/tree/1ac8deee08/encoding - fetch/data-urls/resources: https://github.com/web-platform-tests/wpt/tree/7c79d998ff/fetch/data-urls/resources -- FileAPI: https://github.com/web-platform-tests/wpt/tree/cceaf3628d/FileAPI +- FileAPI: https://github.com/web-platform-tests/wpt/tree/7f51301888/FileAPI - hr-time: https://github.com/web-platform-tests/wpt/tree/34cafd797e/hr-time - html/webappapis/atob: https://github.com/web-platform-tests/wpt/tree/f267e1dca6/html/webappapis/atob - html/webappapis/microtask-queuing: https://github.com/web-platform-tests/wpt/tree/2c5c3c4c27/html/webappapis/microtask-queuing diff --git a/test/fixtures/wpt/versions.json b/test/fixtures/wpt/versions.json index 44409a77ea798c..31f5447f0e8364 100644 --- a/test/fixtures/wpt/versions.json +++ b/test/fixtures/wpt/versions.json @@ -28,7 +28,7 @@ "path": "fetch/data-urls/resources" }, "FileAPI": { - "commit": "cceaf3628da950621004d9b5d8c1d1f367073347", + "commit": "7f5130188818b6c12c636491186b459ec2bf131f", "path": "FileAPI" }, "hr-time": { diff --git a/test/internet/test-dgram-broadcast-multi-process.js b/test/internet/test-dgram-broadcast-multi-process.js index a71b01aac5df84..aa6ef56e9f4d60 100644 --- a/test/internet/test-dgram-broadcast-multi-process.js +++ b/test/internet/test-dgram-broadcast-multi-process.js @@ -84,7 +84,7 @@ if (process.argv[2] !== 'child') { worker.messagesReceived = []; // Handle the death of workers - worker.on('exit', (code, signal) => { + worker.on('exit', common.mustCall((code, signal) => { // Don't consider this the true death if the worker // has finished successfully // or if the exit code is 0 @@ -108,9 +108,9 @@ if (process.argv[2] !== 'child') { process.exit(1); } - }); + })); - worker.on('message', (msg) => { + worker.on('message', common.mustCallAtLeast((msg) => { if (msg.listening) { listening += 1; @@ -134,7 +134,7 @@ if (process.argv[2] !== 'child') { 'required number of ' + 'messages. Will now compare.'); - Object.keys(workers).forEach((pid) => { + for (const pid of Object.keys(workers)) { const worker = workers[pid]; let count = 0; @@ -153,14 +153,14 @@ if (process.argv[2] !== 'child') { count); assert.strictEqual(count, messages.length); - }); + } clearTimeout(timer); console.error('[PARENT] Success'); killSubprocesses(workers); } } - }); + })); })(x); } @@ -196,14 +196,13 @@ if (process.argv[2] !== 'child') { buf.length, common.PORT, LOCAL_BROADCAST_HOST, - (err) => { - assert.ifError(err); + common.mustSucceed(() => { console.error('[PARENT] sent %s to %s:%s', util.inspect(buf.toString()), LOCAL_BROADCAST_HOST, common.PORT); process.nextTick(sendSocket.sendNext); - }, + }), ); }; diff --git a/test/internet/test-dgram-multicast-multi-process.js b/test/internet/test-dgram-multicast-multi-process.js index fe9c2cb02e772a..20051dbb07ecd6 100644 --- a/test/internet/test-dgram-multicast-multi-process.js +++ b/test/internet/test-dgram-multicast-multi-process.js @@ -69,7 +69,7 @@ function launchChildProcess() { } }); - worker.on('message', function(msg) { + worker.on('message', common.mustCallAtLeast((msg) => { if (msg.listening) { listening += 1; @@ -94,7 +94,7 @@ function launchChildProcess() { console.error('[PARENT] All workers have received the ' + 'required number of messages. Will now compare.'); - Object.keys(workers).forEach(function(pid) { + for (const pid of Object.keys(workers)) { const worker = workers[pid]; let count = 0; @@ -112,14 +112,14 @@ function launchChildProcess() { worker.pid, count); assert.strictEqual(count, messages.length); - }); + } clearTimeout(timer); console.error('[PARENT] Success'); killSubprocesses(workers); } } - }); + })); } function killSubprocesses(subprocesses) { @@ -182,13 +182,12 @@ if (process.argv[2] !== 'child') { buf.length, common.PORT, LOCAL_BROADCAST_HOST, - function(err) { - assert.ifError(err); + common.mustSucceed(() => { console.error('[PARENT] sent "%s" to %s:%s', buf.toString(), LOCAL_BROADCAST_HOST, common.PORT); process.nextTick(sendSocket.sendNext); - }, + }), ); }; } diff --git a/test/internet/test-dgram-multicast-set-interface-lo.js b/test/internet/test-dgram-multicast-set-interface-lo.js index b33a6922c181ad..8944f695f37090 100644 --- a/test/internet/test-dgram-multicast-set-interface-lo.js +++ b/test/internet/test-dgram-multicast-set-interface-lo.js @@ -144,7 +144,7 @@ if (process.argv[2] !== 'child') { } }); - worker.on('message', (msg) => { + worker.on('message', common.mustCallAtLeast((msg) => { if (msg.listening) { listening += 1; @@ -168,7 +168,7 @@ if (process.argv[2] !== 'child') { 'required number of ' + 'messages. Will now compare.'); - Object.keys(workers).forEach((pid) => { + for (const pid of Object.keys(workers)) { const worker = workers[pid]; let count = 0; @@ -189,14 +189,14 @@ if (process.argv[2] !== 'child') { assert.strictEqual(count, worker.messagesNeeded.length, 'A worker received ' + 'an invalid multicast message'); - }); + } clearTimeout(timer); console.error('[PARENT] Success'); killSubprocesses(workers); } } - }); + })); } const sendSocket = dgram.createSocket({ @@ -234,14 +234,13 @@ if (process.argv[2] !== 'child') { buf.length, PORTS[msg.mcast], msg.mcast, - (err) => { - assert.ifError(err); + common.mustSucceed(() => { console.error('[PARENT] sent %s to %s:%s', util.inspect(buf.toString()), msg.mcast, PORTS[msg.mcast]); process.nextTick(sendSocket.sendNext); - }, + }), ); }; } diff --git a/test/internet/test-dgram-multicast-ssm-multi-process.js b/test/internet/test-dgram-multicast-ssm-multi-process.js index 693d717a0d237e..e363b6234fae6c 100644 --- a/test/internet/test-dgram-multicast-ssm-multi-process.js +++ b/test/internet/test-dgram-multicast-ssm-multi-process.js @@ -63,7 +63,7 @@ function launchChildProcess() { } }); - worker.on('message', function(msg) { + worker.on('message', common.mustCallAtLeast((msg) => { if (msg.listening) { listening += 1; @@ -88,7 +88,7 @@ function launchChildProcess() { console.error('[PARENT] All workers have received the ' + 'required number of messages. Will now compare.'); - Object.keys(workers).forEach(function(pid) { + for (const pid of Object.keys(workers)) { const worker = workers[pid]; let count = 0; @@ -106,14 +106,14 @@ function launchChildProcess() { worker.pid, count); assert.strictEqual(count, messages.length); - }); + } clearTimeout(timer); console.error('[PARENT] Success'); killChildren(workers); } } - }); + })); } function killChildren(children) { @@ -176,13 +176,12 @@ if (process.argv[2] !== 'child') { buf.length, common.PORT, GROUP_ADDRESS, - function(err) { - assert.ifError(err); + common.mustSucceed((err) => { console.error('[PARENT] sent "%s" to %s:%s', buf.toString(), GROUP_ADDRESS, common.PORT); process.nextTick(sendSocket.sendNext); - }, + }), ); }; } diff --git a/test/internet/test-dgram-multicast-ssmv6-multi-process.js b/test/internet/test-dgram-multicast-ssmv6-multi-process.js index c8ecafdca910dc..fda5fa5fab0620 100644 --- a/test/internet/test-dgram-multicast-ssmv6-multi-process.js +++ b/test/internet/test-dgram-multicast-ssmv6-multi-process.js @@ -63,7 +63,7 @@ function launchChildProcess() { } }); - worker.on('message', function(msg) { + worker.on('message', common.mustCallAtLeast((msg) => { if (msg.listening) { listening += 1; @@ -88,7 +88,7 @@ function launchChildProcess() { console.error('[PARENT] All workers have received the ' + 'required number of messages. Will now compare.'); - Object.keys(workers).forEach(function(pid) { + for (const pid of Object.keys(workers)) { const worker = workers[pid]; let count = 0; @@ -106,14 +106,14 @@ function launchChildProcess() { worker.pid, count); assert.strictEqual(count, messages.length); - }); + } clearTimeout(timer); console.error('[PARENT] Success'); killChildren(workers); } } - }); + })); } function killChildren(children) { @@ -176,13 +176,12 @@ if (process.argv[2] !== 'child') { buf.length, common.PORT, GROUP_ADDRESS, - function(err) { - assert.ifError(err); + common.mustSucceed(() => { console.error('[PARENT] sent "%s" to %s:%s', buf.toString(), GROUP_ADDRESS, common.PORT); process.nextTick(sendSocket.sendNext); - }, + }), ); }; } diff --git a/test/internet/test-dns-any.js b/test/internet/test-dns-any.js index b3d087ca721aad..986e2bb283cc24 100644 --- a/test/internet/test-dns-any.js +++ b/test/internet/test-dns-any.js @@ -19,6 +19,7 @@ function checkWrap(req) { assert.ok(typeof req === 'object'); } +/* eslint-disable node-core/must-call-assert */ const checkers = { checkA(r) { assert.ok(isIPv4(r.address)); @@ -80,13 +81,14 @@ const checkers = { assert.strictEqual(r.type, 'SRV'); }, }; +/* eslint-enable node-core/must-call-assert */ -function TEST(f) { +function test(f) { function next() { const f = queue.shift(); if (f) { running = true; - f(done); + f(done).then(common.mustCall()); } } @@ -115,7 +117,7 @@ function processResult(res) { return types; } -TEST(async function test_sip2sip_for_naptr(done) { +test(async function test_sip2sip_for_naptr(done) { function validateResult(res) { const types = processResult(res); assert.ok(types.A && types.NS && types.NAPTR && types.SOA, @@ -135,7 +137,7 @@ TEST(async function test_sip2sip_for_naptr(done) { checkWrap(req); }); -TEST(async function test_google_for_cname_and_srv(done) { +test(async function test_google_for_cname_and_srv(done) { function validateResult(res) { const types = processResult(res); assert.ok(types.SRV); @@ -154,7 +156,7 @@ TEST(async function test_google_for_cname_and_srv(done) { checkWrap(req); }); -TEST(async function test_ptr(done) { +test(async function test_ptr(done) { function validateResult(res) { const types = processResult(res); assert.ok(types.PTR); diff --git a/test/internet/test-dns-cares-domains.js b/test/internet/test-dns-cares-domains.js index 92b7f543880218..3312a0e3f8ca21 100644 --- a/test/internet/test-dns-cares-domains.js +++ b/test/internet/test-dns-cares-domains.js @@ -5,7 +5,7 @@ const assert = require('assert'); const dns = require('dns'); const domain = require('domain'); -const methods = [ +[ 'resolve4', 'resolve6', 'resolveCname', @@ -17,13 +17,11 @@ const methods = [ 'resolvePtr', 'resolveNaptr', 'resolveSoa', -]; - -methods.forEach(function(method) { +].forEach(function(method) { const d = domain.create(); - d.run(function() { + d.run(common.mustCall(() => { dns[method](addresses.INET_HOST, common.mustCall(() => { assert.strictEqual(process.domain, d, `${method} retains domain`); })); - }); + })); }); diff --git a/test/internet/test-dns-ipv4.js b/test/internet/test-dns-ipv4.js index 0d674e8390b163..56b679d45aec7d 100644 --- a/test/internet/test-dns-ipv4.js +++ b/test/internet/test-dns-ipv4.js @@ -13,13 +13,13 @@ const dnsPromises = dns.promises; let running = false; const queue = []; -function TEST(f) { +function test(f) { function next() { const f = queue.shift(); if (f) { running = true; console.log(f.name); - f(done); + f(done)?.then(common.mustCall()); } } @@ -39,7 +39,7 @@ function checkWrap(req) { assert.ok(typeof req === 'object'); } -TEST(async function test_resolve4(done) { +test(async function test_resolve4(done) { function validateResult(res) { assert.ok(res.length > 0); @@ -60,7 +60,7 @@ TEST(async function test_resolve4(done) { checkWrap(req); }); -TEST(async function test_reverse_ipv4(done) { +test(async function test_reverse_ipv4(done) { function validateResult(res) { assert.ok(res.length > 0); @@ -82,7 +82,7 @@ TEST(async function test_reverse_ipv4(done) { checkWrap(req); }); -TEST(async function test_lookup_ipv4_explicit(done) { +test(async function test_lookup_ipv4_explicit(done) { function validateResult(res) { assert.ok(net.isIPv4(res.address)); assert.strictEqual(res.family, 4); @@ -100,7 +100,7 @@ TEST(async function test_lookup_ipv4_explicit(done) { checkWrap(req); }); -TEST(async function test_lookup_ipv4_implicit(done) { +test(async function test_lookup_ipv4_implicit(done) { function validateResult(res) { assert.ok(net.isIPv4(res.address)); assert.strictEqual(res.family, 4); @@ -118,7 +118,7 @@ TEST(async function test_lookup_ipv4_implicit(done) { checkWrap(req); }); -TEST(async function test_lookup_ipv4_explicit_object(done) { +test(async function test_lookup_ipv4_explicit_object(done) { function validateResult(res) { assert.ok(net.isIPv4(res.address)); assert.strictEqual(res.family, 4); @@ -136,7 +136,7 @@ TEST(async function test_lookup_ipv4_explicit_object(done) { checkWrap(req); }); -TEST(async function test_lookup_ipv4_hint_addrconfig(done) { +test(async function test_lookup_ipv4_hint_addrconfig(done) { function validateResult(res) { assert.ok(net.isIPv4(res.address)); assert.strictEqual(res.family, 4); @@ -156,7 +156,7 @@ TEST(async function test_lookup_ipv4_hint_addrconfig(done) { checkWrap(req); }); -TEST(async function test_lookup_ip_ipv4(done) { +test(async function test_lookup_ip_ipv4(done) { function validateResult(res) { assert.strictEqual(res.address, '127.0.0.1'); assert.strictEqual(res.family, 4); @@ -173,7 +173,7 @@ TEST(async function test_lookup_ip_ipv4(done) { checkWrap(req); }); -TEST(async function test_lookup_localhost_ipv4(done) { +test(async function test_lookup_localhost_ipv4(done) { function validateResult(res) { assert.strictEqual(res.address, '127.0.0.1'); assert.strictEqual(res.family, 4); @@ -190,7 +190,7 @@ TEST(async function test_lookup_localhost_ipv4(done) { checkWrap(req); }); -TEST(async function test_lookup_all_ipv4(done) { +test(async function test_lookup_all_ipv4(done) { function validateResult(res) { assert.ok(Array.isArray(res)); assert.ok(res.length > 0); @@ -218,7 +218,7 @@ TEST(async function test_lookup_all_ipv4(done) { checkWrap(req); }); -TEST(async function test_lookupservice_ip_ipv4(done) { +test(async function test_lookupservice_ip_ipv4(done) { function validateResult(res) { assert.strictEqual(typeof res.hostname, 'string'); assert(res.hostname); @@ -238,12 +238,12 @@ TEST(async function test_lookupservice_ip_ipv4(done) { checkWrap(req); }); -TEST(function test_lookupservice_ip_ipv4_promise(done) { +test(function test_lookupservice_ip_ipv4_promise(done) { util.promisify(dns.lookupService)('127.0.0.1', 80) - .then(common.mustCall(({ hostname, service }) => { + .then(({ hostname, service }) => { assert.strictEqual(typeof hostname, 'string'); assert(hostname.length > 0); assert(['http', 'www', '80'].includes(service)); done(); - })); + }).then(common.mustCall()); }); diff --git a/test/internet/test-dns-ipv6.js b/test/internet/test-dns-ipv6.js index b1c8a095c0b991..c682765b5a9007 100644 --- a/test/internet/test-dns-ipv6.js +++ b/test/internet/test-dns-ipv6.js @@ -13,13 +13,13 @@ const isIPv6 = net.isIPv6; let running = false; const queue = []; -function TEST(f) { +function test(f) { function next() { const f = queue.shift(); if (f) { running = true; console.log(f.name); - f(done); + f(done)?.then(common.mustCall()); } } @@ -39,7 +39,7 @@ function checkWrap(req) { assert.ok(typeof req === 'object'); } -TEST(async function test_resolve6(done) { +test(async function test_resolve6(done) { function validateResult(res) { assert.ok(res.length > 0); @@ -60,7 +60,7 @@ TEST(async function test_resolve6(done) { checkWrap(req); }); -TEST(async function test_reverse_ipv6(done) { +test(async function test_reverse_ipv6(done) { function validateResult(res) { assert.ok(res.length > 0); @@ -81,7 +81,7 @@ TEST(async function test_reverse_ipv6(done) { checkWrap(req); }); -TEST(async function test_lookup_ipv6_explicit(done) { +test(async function test_lookup_ipv6_explicit(done) { function validateResult(res) { assert.ok(isIPv6(res.address)); assert.strictEqual(res.family, 6); @@ -101,7 +101,7 @@ TEST(async function test_lookup_ipv6_explicit(done) { }); // This ends up just being too problematic to test -// TEST(function test_lookup_ipv6_implicit(done) { +// test(function test_lookup_ipv6_implicit(done) { // var req = dns.lookup(addresses.INET6_HOST, function(err, ip, family) { // assert.ifError(err); // assert.ok(net.isIPv6(ip)); @@ -113,7 +113,7 @@ TEST(async function test_lookup_ipv6_explicit(done) { // checkWrap(req); // }); -TEST(async function test_lookup_ipv6_explicit_object(done) { +test(async function test_lookup_ipv6_explicit_object(done) { function validateResult(res) { assert.ok(isIPv6(res.address)); assert.strictEqual(res.family, 6); @@ -131,7 +131,7 @@ TEST(async function test_lookup_ipv6_explicit_object(done) { checkWrap(req); }); -TEST(function test_lookup_ipv6_hint(done) { +test(function test_lookup_ipv6_hint(done) { const req = dns.lookup(addresses.INET6_HOST, { family: 6, hints: dns.V4MAPPED, @@ -159,7 +159,7 @@ TEST(function test_lookup_ipv6_hint(done) { checkWrap(req); }); -TEST(async function test_lookup_ip_ipv6(done) { +test(async function test_lookup_ip_ipv6(done) { function validateResult(res) { assert.ok(isIPv6(res.address)); assert.strictEqual(res.family, 6); @@ -177,7 +177,7 @@ TEST(async function test_lookup_ip_ipv6(done) { checkWrap(req); }); -TEST(async function test_lookup_all_ipv6(done) { +test(async function test_lookup_all_ipv6(done) { function validateResult(res) { assert.ok(Array.isArray(res)); assert.ok(res.length > 0); @@ -206,7 +206,7 @@ TEST(async function test_lookup_all_ipv6(done) { checkWrap(req); }); -TEST(function test_lookupservice_ip_ipv6(done) { +test(function test_lookupservice_ip_ipv6(done) { const req = dns.lookupService( '::1', 80, common.mustCall((err, host, service) => { @@ -227,7 +227,7 @@ TEST(function test_lookupservice_ip_ipv6(done) { }); // Disabled because it appears to be not working on Linux. -// TEST(function test_lookup_localhost_ipv6(done) { +// test(function test_lookup_localhost_ipv6(done) { // var req = dns.lookup('localhost', 6, function(err, ip, family) { // assert.ifError(err); // assert.ok(net.isIPv6(ip)); diff --git a/test/internet/test-dns-txt-sigsegv.js b/test/internet/test-dns-txt-sigsegv.js index eeebf28fc7761c..013394f2d9c2e8 100644 --- a/test/internet/test-dns-txt-sigsegv.js +++ b/test/internet/test-dns-txt-sigsegv.js @@ -9,7 +9,7 @@ const dnsPromises = dns.promises; assert.strictEqual(result.length, 0); })().then(common.mustCall()); -dns.resolveTxt('www.microsoft.com', function(err, records) { +dns.resolveTxt('www.microsoft.com', common.mustCall((err, records) => { assert.strictEqual(err, null); assert.strictEqual(records.length, 0); -}); +})); diff --git a/test/internet/test-dns.js b/test/internet/test-dns.js index 9b08f8f92b00d3..7da2f3708b153f 100644 --- a/test/internet/test-dns.js +++ b/test/internet/test-dns.js @@ -39,13 +39,13 @@ let running = false; const queue = []; -function TEST(f) { +function test(f) { function next() { const f = queue.shift(); if (f) { running = true; console.log(f.name); - f(done); + f(done)?.then(common.mustCall()); } } @@ -69,13 +69,15 @@ function checkWrap(req) { } -TEST(function test_reverse_bogus(done) { - dnsPromises.reverse('bogus ip') - .then(common.mustNotCall()) - .catch(common.mustCall((err) => { +test(function test_reverse_bogus(done) { + assert.rejects( + dnsPromises.reverse('bogus ip'), + (err) => { assert.strictEqual(err.code, 'EINVAL'); assert.strictEqual(getSystemErrorName(err.errno), 'EINVAL'); - })); + return true; + }, + ).then(common.mustCall()); assert.throws(() => { dns.reverse('bogus ip', common.mustNotCall()); @@ -83,7 +85,7 @@ TEST(function test_reverse_bogus(done) { done(); }); -TEST(async function test_resolve4_ttl(done) { +test(async function test_resolve4_ttl(done) { function validateResult(result) { assert.ok(result.length > 0); @@ -102,16 +104,15 @@ TEST(async function test_resolve4_ttl(done) { const req = dns.resolve4(addresses.INET4_HOST, { ttl: true, - }, function(err, result) { - assert.ifError(err); + }, common.mustSucceed((result) => { validateResult(result); done(); - }); + })); checkWrap(req); }); -TEST(async function test_resolve6_ttl(done) { +test(async function test_resolve6_ttl(done) { function validateResult(result) { assert.ok(result.length > 0); @@ -130,16 +131,15 @@ TEST(async function test_resolve6_ttl(done) { const req = dns.resolve6(addresses.INET6_HOST, { ttl: true, - }, function(err, result) { - assert.ifError(err); + }, common.mustSucceed((result) => { validateResult(result); done(); - }); + })); checkWrap(req); }); -TEST(async function test_resolveMx(done) { +test(async function test_resolveMx(done) { function validateResult(result) { assert.ok(result.length > 0); @@ -153,35 +153,33 @@ TEST(async function test_resolveMx(done) { validateResult(await dnsPromises.resolveMx(addresses.MX_HOST)); - const req = dns.resolveMx(addresses.MX_HOST, function(err, result) { - assert.ifError(err); + const req = dns.resolveMx(addresses.MX_HOST, common.mustSucceed((result) => { validateResult(result); done(); - }); + })); checkWrap(req); }); -TEST(function test_resolveMx_failure(done) { - dnsPromises.resolveMx(addresses.NOT_FOUND) - .then(common.mustNotCall()) - .catch(common.mustCall((err) => { - assert.strictEqual(err.code, 'ENOTFOUND'); - })); +test(function test_resolveMx_failure(done) { + assert.rejects( + dnsPromises.resolveMx(addresses.NOT_FOUND), + { code: 'ENOTFOUND' }, + ).then(common.mustCall()); - const req = dns.resolveMx(addresses.NOT_FOUND, function(err, result) { + const req = dns.resolveMx(addresses.NOT_FOUND, common.mustCall((err, result) => { assert.ok(err instanceof Error); assert.strictEqual(err.code, 'ENOTFOUND'); assert.strictEqual(result, undefined); done(); - }); + })); checkWrap(req); }); -TEST(async function test_resolveNs(done) { +test(async function test_resolveNs(done) { function validateResult(result) { assert.ok(result.length > 0); @@ -193,35 +191,33 @@ TEST(async function test_resolveNs(done) { validateResult(await dnsPromises.resolveNs(addresses.NS_HOST)); - const req = dns.resolveNs(addresses.NS_HOST, function(err, names) { - assert.ifError(err); + const req = dns.resolveNs(addresses.NS_HOST, common.mustSucceed((names) => { validateResult(names); done(); - }); + })); checkWrap(req); }); -TEST(function test_resolveNs_failure(done) { - dnsPromises.resolveNs(addresses.NOT_FOUND) - .then(common.mustNotCall()) - .catch(common.mustCall((err) => { - assert.strictEqual(err.code, 'ENOTFOUND'); - })); +test(function test_resolveNs_failure(done) { + assert.rejects( + dnsPromises.resolveNs(addresses.NOT_FOUND), + { code: 'ENOTFOUND' }, + ).then(common.mustCall()); - const req = dns.resolveNs(addresses.NOT_FOUND, function(err, result) { + const req = dns.resolveNs(addresses.NOT_FOUND, common.mustCall((err, result) => { assert.ok(err instanceof Error); assert.strictEqual(err.code, 'ENOTFOUND'); assert.strictEqual(result, undefined); done(); - }); + })); checkWrap(req); }); -TEST(async function test_resolveSrv(done) { +test(async function test_resolveSrv(done) { function validateResult(result) { assert.ok(result.length > 0); @@ -237,35 +233,33 @@ TEST(async function test_resolveSrv(done) { validateResult(await dnsPromises.resolveSrv(addresses.SRV_HOST)); - const req = dns.resolveSrv(addresses.SRV_HOST, function(err, result) { - assert.ifError(err); + const req = dns.resolveSrv(addresses.SRV_HOST, common.mustSucceed((result) => { validateResult(result); done(); - }); + })); checkWrap(req); }); -TEST(function test_resolveSrv_failure(done) { - dnsPromises.resolveSrv(addresses.NOT_FOUND) - .then(common.mustNotCall()) - .catch(common.mustCall((err) => { - assert.strictEqual(err.code, 'ENOTFOUND'); - })); +test(function test_resolveSrv_failure(done) { + assert.rejects( + dnsPromises.resolveSrv(addresses.NOT_FOUND), + { code: 'ENOTFOUND' }, + ).then(common.mustCall()); - const req = dns.resolveSrv(addresses.NOT_FOUND, function(err, result) { + const req = dns.resolveSrv(addresses.NOT_FOUND, common.mustCall((err, result) => { assert.ok(err instanceof Error); assert.strictEqual(err.code, 'ENOTFOUND'); assert.strictEqual(result, undefined); done(); - }); + })); checkWrap(req); }); -TEST(async function test_resolvePtr(done) { +test(async function test_resolvePtr(done) { function validateResult(result) { assert.ok(result.length > 0); @@ -277,35 +271,33 @@ TEST(async function test_resolvePtr(done) { validateResult(await dnsPromises.resolvePtr(addresses.PTR_HOST)); - const req = dns.resolvePtr(addresses.PTR_HOST, function(err, result) { - assert.ifError(err); + const req = dns.resolvePtr(addresses.PTR_HOST, common.mustSucceed((result) => { validateResult(result); done(); - }); + })); checkWrap(req); }); -TEST(function test_resolvePtr_failure(done) { - dnsPromises.resolvePtr(addresses.NOT_FOUND) - .then(common.mustNotCall()) - .catch(common.mustCall((err) => { - assert.strictEqual(err.code, 'ENOTFOUND'); - })); +test(function test_resolvePtr_failure(done) { + assert.rejects( + dnsPromises.resolvePtr(addresses.NOT_FOUND), + { code: 'ENOTFOUND' }, + ).then(common.mustCall()); - const req = dns.resolvePtr(addresses.NOT_FOUND, function(err, result) { + const req = dns.resolvePtr(addresses.NOT_FOUND, common.mustCall((err, result) => { assert.ok(err instanceof Error); assert.strictEqual(err.code, 'ENOTFOUND'); assert.strictEqual(result, undefined); done(); - }); + })); checkWrap(req); }); -TEST(async function test_resolveNaptr(done) { +test(async function test_resolveNaptr(done) { function validateResult(result) { assert.ok(result.length > 0); @@ -322,35 +314,33 @@ TEST(async function test_resolveNaptr(done) { validateResult(await dnsPromises.resolveNaptr(addresses.NAPTR_HOST)); - const req = dns.resolveNaptr(addresses.NAPTR_HOST, function(err, result) { - assert.ifError(err); + const req = dns.resolveNaptr(addresses.NAPTR_HOST, common.mustSucceed((result) => { validateResult(result); done(); - }); + })); checkWrap(req); }); -TEST(function test_resolveNaptr_failure(done) { - dnsPromises.resolveNaptr(addresses.NOT_FOUND) - .then(common.mustNotCall()) - .catch(common.mustCall((err) => { - assert.strictEqual(err.code, 'ENOTFOUND'); - })); +test(function test_resolveNaptr_failure(done) { + assert.rejects( + dnsPromises.resolveNaptr(addresses.NOT_FOUND), + { code: 'ENOTFOUND' }, + ).then(common.mustCall()); - const req = dns.resolveNaptr(addresses.NOT_FOUND, function(err, result) { + const req = dns.resolveNaptr(addresses.NOT_FOUND, common.mustCall((err, result) => { assert.ok(err instanceof Error); assert.strictEqual(err.code, 'ENOTFOUND'); assert.strictEqual(result, undefined); done(); - }); + })); checkWrap(req); }); -TEST(async function test_resolveSoa(done) { +test(async function test_resolveSoa(done) { function validateResult(result) { assert.strictEqual(typeof result, 'object'); assert.strictEqual(typeof result.nsname, 'string'); @@ -371,35 +361,33 @@ TEST(async function test_resolveSoa(done) { validateResult(await dnsPromises.resolveSoa(addresses.SOA_HOST)); - const req = dns.resolveSoa(addresses.SOA_HOST, function(err, result) { - assert.ifError(err); + const req = dns.resolveSoa(addresses.SOA_HOST, common.mustSucceed((result) => { validateResult(result); done(); - }); + })); checkWrap(req); }); -TEST(function test_resolveSoa_failure(done) { - dnsPromises.resolveSoa(addresses.NOT_FOUND) - .then(common.mustNotCall()) - .catch(common.mustCall((err) => { - assert.strictEqual(err.code, 'ENOTFOUND'); - })); +test(function test_resolveSoa_failure(done) { + assert.rejects( + dnsPromises.resolveSoa(addresses.NOT_FOUND), + { code: 'ENOTFOUND' }, + ).then(common.mustCall()); - const req = dns.resolveSoa(addresses.NOT_FOUND, function(err, result) { + const req = dns.resolveSoa(addresses.NOT_FOUND, common.mustCall((err, result) => { assert.ok(err instanceof Error); assert.strictEqual(err.code, 'ENOTFOUND'); assert.strictEqual(result, undefined); done(); - }); + })); checkWrap(req); }); -TEST(async function test_resolveCaa(done) { +test(async function test_resolveCaa(done) { function validateResult(result) { assert.ok(Array.isArray(result), `expected array, got ${util.inspect(result)}`); @@ -411,35 +399,33 @@ TEST(async function test_resolveCaa(done) { validateResult(await dnsPromises.resolveCaa(addresses.CAA_HOST)); - const req = dns.resolveCaa(addresses.CAA_HOST, function(err, records) { - assert.ifError(err); + const req = dns.resolveCaa(addresses.CAA_HOST, common.mustSucceed((records) => { validateResult(records); done(); - }); + })); checkWrap(req); }); -TEST(function test_resolveCaa_failure(done) { - dnsPromises.resolveTxt(addresses.NOT_FOUND) - .then(common.mustNotCall()) - .catch(common.mustCall((err) => { - assert.strictEqual(err.code, 'ENOTFOUND'); - })); +test(function test_resolveCaa_failure(done) { + assert.rejects( + dnsPromises.resolveTxt(addresses.NOT_FOUND), + { code: 'ENOTFOUND' }, + ).then(common.mustCall()); - const req = dns.resolveCaa(addresses.NOT_FOUND, function(err, result) { + const req = dns.resolveCaa(addresses.NOT_FOUND, common.mustCall((err, result) => { assert.ok(err instanceof Error); assert.strictEqual(err.code, 'ENOTFOUND'); assert.strictEqual(result, undefined); done(); - }); + })); checkWrap(req); }); -TEST(async function test_resolveCname(done) { +test(async function test_resolveCname(done) { function validateResult(result) { assert.ok(result.length > 0); @@ -451,35 +437,33 @@ TEST(async function test_resolveCname(done) { validateResult(await dnsPromises.resolveCname(addresses.CNAME_HOST)); - const req = dns.resolveCname(addresses.CNAME_HOST, function(err, names) { - assert.ifError(err); + const req = dns.resolveCname(addresses.CNAME_HOST, common.mustSucceed((names) => { validateResult(names); done(); - }); + })); checkWrap(req); }); -TEST(function test_resolveCname_failure(done) { - dnsPromises.resolveCname(addresses.NOT_FOUND) - .then(common.mustNotCall()) - .catch(common.mustCall((err) => { - assert.strictEqual(err.code, 'ENOTFOUND'); - })); +test(function test_resolveCname_failure(done) { + assert.rejects( + dnsPromises.resolveCname(addresses.NOT_FOUND), + { code: 'ENOTFOUND' }, + ).then(common.mustCall()); - const req = dns.resolveCname(addresses.NOT_FOUND, function(err, result) { + const req = dns.resolveCname(addresses.NOT_FOUND, common.mustCall((err, result) => { assert.ok(err instanceof Error); assert.strictEqual(err.code, 'ENOTFOUND'); assert.strictEqual(result, undefined); done(); - }); + })); checkWrap(req); }); -TEST(async function test_resolveTlsa(done) { +test(async function test_resolveTlsa(done) { function validateResult(result) { assert.ok(Array.isArray(result)); assert.ok(result.length >= 1); @@ -493,35 +477,33 @@ TEST(async function test_resolveTlsa(done) { validateResult(await dnsPromises.resolveTlsa(addresses.TLSA_HOST)); - const req = dns.resolveTlsa(addresses.TLSA_HOST, function(err, records) { - assert.ifError(err); + const req = dns.resolveTlsa(addresses.TLSA_HOST, common.mustSucceed((records) => { validateResult(records); done(); - }); + })); checkWrap(req); }); -TEST(function test_resolveTlsa_failure(done) { - dnsPromises.resolveTlsa(addresses.NOT_FOUND) - .then(common.mustNotCall()) - .catch(common.mustCall((err) => { - assert.strictEqual(err.code, 'ENOTFOUND'); - })); +test(function test_resolveTlsa_failure(done) { + assert.rejects( + dnsPromises.resolveTlsa(addresses.NOT_FOUND), + { code: 'ENOTFOUND' }, + ).then(common.mustCall()); - const req = dns.resolveTlsa(addresses.NOT_FOUND, function(err, result) { + const req = dns.resolveTlsa(addresses.NOT_FOUND, common.mustCall((err, result) => { assert.ok(err instanceof Error); assert.strictEqual(err.code, 'ENOTFOUND'); assert.strictEqual(result, undefined); done(); - }); + })); checkWrap(req); }); -TEST(async function test_resolveTxt(done) { +test(async function test_resolveTxt(done) { function validateResult(result) { assert.ok(result.length > 0); assert.ok(result.every((elem) => Array.isArray(elem) && elem.length === 1)); @@ -530,41 +512,40 @@ TEST(async function test_resolveTxt(done) { validateResult(await dnsPromises.resolveTxt(addresses.TXT_HOST)); - const req = dns.resolveTxt(addresses.TXT_HOST, function(err, records) { - assert.ifError(err); + const req = dns.resolveTxt(addresses.TXT_HOST, common.mustSucceed((records) => { validateResult(records); done(); - }); + })); checkWrap(req); }); -TEST(function test_resolveTxt_failure(done) { - dnsPromises.resolveTxt(addresses.NOT_FOUND) - .then(common.mustNotCall()) - .catch(common.mustCall((err) => { - assert.strictEqual(err.code, 'ENOTFOUND'); - })); +test(function test_resolveTxt_failure(done) { + assert.rejects( + dnsPromises.resolveTxt(addresses.NOT_FOUND), + { code: 'ENOTFOUND' }, + ).then(common.mustCall()); - const req = dns.resolveTxt(addresses.NOT_FOUND, function(err, result) { + const req = dns.resolveTxt(addresses.NOT_FOUND, common.mustCall((err, result) => { assert.ok(err instanceof Error); assert.strictEqual(err.code, 'ENOTFOUND'); assert.strictEqual(result, undefined); done(); - }); + })); checkWrap(req); }); -TEST(function test_lookup_failure(done) { - dnsPromises.lookup(addresses.NOT_FOUND, 4) - .then(common.mustNotCall()) - .catch(common.expectsError({ code: dns.NOTFOUND })); +test(function test_lookup_failure(done) { + assert.rejects( + dnsPromises.lookup(addresses.NOT_FOUND, 4), + { code: dns.NOTFOUND }, + ).then(common.mustCall()); - const req = dns.lookup(addresses.NOT_FOUND, 4, (err) => { + const req = dns.lookup(addresses.NOT_FOUND, 4, common.mustCall((err) => { assert.ok(err instanceof Error); assert.strictEqual(err.code, dns.NOTFOUND); assert.strictEqual(err.code, 'ENOTFOUND'); @@ -572,13 +553,13 @@ TEST(function test_lookup_failure(done) { assert.ok(err.message.includes(addresses.NOT_FOUND)); done(); - }); + })); checkWrap(req); }); -TEST(async function test_lookup_ip_all(done) { +test(async function test_lookup_ip_all(done) { function validateResult(result) { assert.ok(Array.isArray(result)); assert.ok(result.length > 0); @@ -591,19 +572,18 @@ TEST(async function test_lookup_ip_all(done) { const req = dns.lookup( '127.0.0.1', { all: true }, - function(err, ips, family) { - assert.ifError(err); + common.mustSucceed((ips, family) => { assert.strictEqual(family, undefined); validateResult(ips); done(); - }, + }), ); checkWrap(req); }); -TEST(function test_lookup_ip_all_promise(done) { +test(function test_lookup_ip_all_promise(done) { const req = util.promisify(dns.lookup)('127.0.0.1', { all: true }) .then(function(ips) { assert.ok(Array.isArray(ips)); @@ -618,7 +598,7 @@ TEST(function test_lookup_ip_all_promise(done) { }); -TEST(function test_lookup_ip_promise(done) { +test(function test_lookup_ip_promise(done) { util.promisify(dns.lookup)('127.0.0.1') .then(function({ address, family }) { assert.strictEqual(address, '127.0.0.1'); @@ -629,22 +609,23 @@ TEST(function test_lookup_ip_promise(done) { }); -TEST(async function test_lookup_null_all(done) { +test(async function test_lookup_null_all(done) { assert.deepStrictEqual(await dnsPromises.lookup(null, { all: true }), []); - const req = dns.lookup(null, { all: true }, (err, ips) => { - assert.ifError(err); + const req = dns.lookup(null, { + all: true, + }, common.mustSucceed((ips) => { assert.ok(Array.isArray(ips)); assert.strictEqual(ips.length, 0); done(); - }); + })); checkWrap(req); }); -TEST(async function test_lookup_all_mixed(done) { +test(async function test_lookup_all_mixed(done) { function validateResult(result) { assert.ok(Array.isArray(result)); assert.ok(result.length > 0); @@ -663,78 +644,80 @@ TEST(async function test_lookup_all_mixed(done) { const req = dns.lookup(addresses.INET_HOST, { all: true, - }, function(err, ips) { - assert.ifError(err); + }, common.mustSucceed((ips) => { validateResult(ips); done(); - }); + })); checkWrap(req); }); -TEST(function test_lookupservice_invalid(done) { - dnsPromises.lookupService('1.2.3.4', 80) - .then(common.mustNotCall()) - .catch(common.expectsError({ code: 'ENOTFOUND' })); +test(function test_lookupservice_invalid(done) { + assert.rejects( + dnsPromises.lookupService('1.2.3.4', 80), + { code: 'ENOTFOUND' }, + ).then(common.mustCall()); - const req = dns.lookupService('1.2.3.4', 80, (err) => { + const req = dns.lookupService('1.2.3.4', 80, common.mustCall((err) => { assert(err instanceof Error); assert.strictEqual(err.code, 'ENOTFOUND'); assert.match(err.message, /1\.2\.3\.4/); done(); - }); + })); checkWrap(req); }); -TEST(function test_reverse_failure(done) { - dnsPromises.reverse('203.0.113.0') - .then(common.mustNotCall()) - .catch(common.expectsError({ +test(function test_reverse_failure(done) { + assert.rejects( + dnsPromises.reverse('203.0.113.0'), + { code: 'ENOTFOUND', hostname: '203.0.113.0', - })); + }, + ).then(common.mustCall()); // 203.0.113.0/24 are addresses reserved for (RFC) documentation use only - const req = dns.reverse('203.0.113.0', function(err) { + const req = dns.reverse('203.0.113.0', common.mustCall((err) => { assert(err instanceof Error); assert.strictEqual(err.code, 'ENOTFOUND'); // Silly error code... assert.strictEqual(err.hostname, '203.0.113.0'); assert.match(err.message, /203\.0\.113\.0/); done(); - }); + })); checkWrap(req); }); -TEST(function test_lookup_failure(done) { - dnsPromises.lookup(addresses.NOT_FOUND) - .then(common.mustNotCall()) - .catch(common.expectsError({ +test(function test_lookup_failure(done) { + assert.rejects( + dnsPromises.lookup(addresses.NOT_FOUND), + { code: 'ENOTFOUND', hostname: addresses.NOT_FOUND, - })); + }, + ).then(common.mustCall()); - const req = dns.lookup(addresses.NOT_FOUND, (err) => { + const req = dns.lookup(addresses.NOT_FOUND, common.mustCall((err) => { assert(err instanceof Error); assert.strictEqual(err.code, 'ENOTFOUND'); // Silly error code... assert.strictEqual(err.hostname, addresses.NOT_FOUND); assert.ok(err.message.includes(addresses.NOT_FOUND)); done(); - }); + })); checkWrap(req); }); -TEST(function test_resolve_failure(done) { - const req = dns.resolve4(addresses.NOT_FOUND, (err) => { +test(function test_resolve_failure(done) { + const req = dns.resolve4(addresses.NOT_FOUND, common.mustCall((err) => { assert(err instanceof Error); switch (err.code) { @@ -750,7 +733,7 @@ TEST(function test_resolve_failure(done) { assert.ok(err.message.includes(addresses.NOT_FOUND)); done(); - }); + })); checkWrap(req); }); @@ -765,14 +748,14 @@ const req = new cares.GetAddrInfoReqWrap(); cares.getaddrinfo(req, addresses.INET4_HOST, 4, /* hints */ 0, /* order */ cares.DNS_ORDER_VERBATIM); -req.oncomplete = function(err, domains) { +req.oncomplete = common.mustCallAtLeast((err, domains) => { assert.strictEqual(err, 0); console.log(`${addresses.INET4_HOST} = ${domains}`); assert.ok(Array.isArray(domains)); assert.ok(domains.length >= 1); assert.strictEqual(typeof domains[0], 'string'); getaddrinfoCallbackCalled = true; -}; +}); process.on('exit', function() { console.log(`${completed} tests completed`); diff --git a/test/internet/test-https-autoselectfamily-slow-timeout.js b/test/internet/test-https-autoselectfamily-slow-timeout.js index e7c55df9c8da40..ae7bb566be2b5a 100644 --- a/test/internet/test-https-autoselectfamily-slow-timeout.js +++ b/test/internet/test-https-autoselectfamily-slow-timeout.js @@ -13,8 +13,8 @@ request( `https://${addresses.INET_HOST}/en`, // Purposely set this to a low value because we want all connection but the last to fail { autoSelectFamily: true, autoSelectFamilyAttemptTimeout: 10 }, - (res) => { + common.mustCall((res) => { assert.strictEqual(res.statusCode, 200); res.resume(); - }, + }), ).end(); diff --git a/test/internet/test-https-issue-43963.js b/test/internet/test-https-issue-43963.js index 0d5a6109145d1b..aa86be77cbcda4 100644 --- a/test/internet/test-https-issue-43963.js +++ b/test/internet/test-https-issue-43963.js @@ -18,7 +18,7 @@ server.on( }), ); -server.listen(0, () => { +server.listen(0, common.mustCallAtLeast(() => { const req = https.request({ hostname: '127.0.0.1', port: server.address().port, @@ -28,4 +28,4 @@ server.listen(0, () => { common.mustCall(() => server.close()), ); req.end(); -}); +})); diff --git a/test/internet/test-net-autoselectfamily-events-failure.js b/test/internet/test-net-autoselectfamily-events-failure.js index a1d1930a9b4907..27f0ad96d32858 100644 --- a/test/internet/test-net-autoselectfamily-events-failure.js +++ b/test/internet/test-net-autoselectfamily-events-failure.js @@ -28,15 +28,15 @@ const { createConnection } = require('net'); autoSelectFamilyAttemptTimeout: 10, }); - connection.on('connectionAttempt', (address, port, family) => { + connection.on('connectionAttempt', common.mustCallAtLeast((address, port, family) => { assert.strictEqual(address, INET4_IP); assert.strictEqual(port, 10); assert.strictEqual(family, 4); pass(); - }); + }, 0)); - connection.on('connectionAttemptFailed', (address, port, family, error) => { + connection.on('connectionAttemptFailed', common.mustCallAtLeast((address, port, family, error) => { assert.strictEqual(address, INET4_IP); assert.strictEqual(port, 10); assert.strictEqual(family, 4); @@ -47,7 +47,7 @@ const { createConnection } = require('net'); ); pass(); - }); + }, 0)); connection.on('ready', () => { pass(); @@ -85,7 +85,7 @@ const { createConnection } = require('net'); { address: INET4_IP, port: 10, family: 4 }, ]; - connection.on('connectionAttempt', (address, port, family) => { + connection.on('connectionAttempt', common.mustCallAtLeast((address, port, family) => { const expected = addresses.shift(); assert.strictEqual(address, expected.address); @@ -93,9 +93,9 @@ const { createConnection } = require('net'); assert.strictEqual(family, expected.family); pass(); - }); + }, 0)); - connection.on('connectionAttemptFailed', (address, port, family, error) => { + connection.on('connectionAttemptFailed', common.mustCallAtLeast((address, port, family, error) => { const expected = addresses.shift(); assert.strictEqual(address, expected.address); @@ -108,7 +108,7 @@ const { createConnection } = require('net'); ); pass(); - }); + }, 0)); connection.on('ready', () => { pass(); diff --git a/test/internet/test-net-autoselectfamily-events-timeout.js b/test/internet/test-net-autoselectfamily-events-timeout.js index 5968b68afd037e..3fc3052a876bfd 100644 --- a/test/internet/test-net-autoselectfamily-events-timeout.js +++ b/test/internet/test-net-autoselectfamily-events-timeout.js @@ -34,13 +34,13 @@ const { createConnection } = require('net'); const pass = common.mustCall(); - connection.on('connectionAttemptTimeout', (address, port, family) => { + connection.on('connectionAttemptTimeout', common.mustCallAtLeast((address, port, family) => { assert.strictEqual(address, INET4_IP); assert.strictEqual(port, 443); assert.strictEqual(family, 4); connection.destroy(); pass(); - }); + }, 0)); connection.on('ready', () => { pass(); diff --git a/test/js-native-api/3_callbacks/test.js b/test/js-native-api/3_callbacks/test.js index b84d3fbc9ddec0..9c61e18c982b89 100644 --- a/test/js-native-api/3_callbacks/test.js +++ b/test/js-native-api/3_callbacks/test.js @@ -3,14 +3,14 @@ const common = require('../../common'); const assert = require('assert'); const addon = require(`./build/${common.buildType}/3_callbacks`); -addon.RunCallback(function(msg) { +addon.RunCallback(common.mustCall((msg) => { assert.strictEqual(msg, 'hello world'); -}); +})); function testRecv(desiredRecv) { - addon.RunCallbackWithRecv(function() { + addon.RunCallbackWithRecv(common.mustCall(function() { assert.strictEqual(this, desiredRecv); - }, desiredRecv); + }), desiredRecv); } testRecv(undefined); diff --git a/test/js-native-api/test_dataview/binding.gyp b/test/js-native-api/test_dataview/binding.gyp index 64235390812d79..c6d8a22c035c43 100644 --- a/test/js-native-api/test_dataview/binding.gyp +++ b/test/js-native-api/test_dataview/binding.gyp @@ -4,7 +4,10 @@ "target_name": "test_dataview", "sources": [ "test_dataview.c" - ] + ], + + # For node_api_is_sharedarraybuffer + 'defines': [ 'NAPI_EXPERIMENTAL', 'NODE_API_EXPERIMENTAL_NO_WARNING' ] } ] } diff --git a/test/js-native-api/test_dataview/test.js b/test/js-native-api/test_dataview/test.js index a6be58494069e5..218d9446a6b972 100644 --- a/test/js-native-api/test_dataview/test.js +++ b/test/js-native-api/test_dataview/test.js @@ -5,7 +5,7 @@ const assert = require('assert'); // Testing api calls for arrays const test_dataview = require(`./build/${common.buildType}/test_dataview`); -// Test for creating dataview +// Test for creating dataview with ArrayBuffer { const buffer = new ArrayBuffer(128); const template = Reflect.construct(DataView, [buffer]); @@ -15,10 +15,30 @@ const test_dataview = require(`./build/${common.buildType}/test_dataview`); `Expect ${theDataview} to be a DataView`); } -// Test for creating dataview with invalid range +// Test for creating dataview with SharedArrayBuffer +{ + const buffer = new SharedArrayBuffer(128); + const template = new DataView(buffer); + + const theDataview = test_dataview.CreateDataViewFromJSDataView(template); + assert.ok(theDataview instanceof DataView, + `Expect ${theDataview} to be a DataView`); + + assert.strictEqual(template.buffer, theDataview.buffer); +} + +// Test for creating dataview with ArrayBuffer and invalid range { const buffer = new ArrayBuffer(128); assert.throws(() => { test_dataview.CreateDataView(buffer, 10, 200); }, RangeError); } + +// Test for creating dataview with SharedArrayBuffer and invalid range +{ + const buffer = new SharedArrayBuffer(128); + assert.throws(() => { + test_dataview.CreateDataView(buffer, 10, 200); + }, RangeError); +} diff --git a/test/js-native-api/test_dataview/test_dataview.c b/test/js-native-api/test_dataview/test_dataview.c index 9f62b734c6a9ef..ec564e6e280014 100644 --- a/test/js-native-api/test_dataview/test_dataview.c +++ b/test/js-native-api/test_dataview/test_dataview.c @@ -20,9 +20,18 @@ static napi_value CreateDataView(napi_env env, napi_callback_info info) { bool is_arraybuffer; NODE_API_CALL(env, napi_is_arraybuffer(env, arraybuffer, &is_arraybuffer)); - NODE_API_ASSERT(env, is_arraybuffer, - "Wrong type of arguments. Expects a ArrayBuffer as the first " - "argument."); + + if (!is_arraybuffer) { + bool is_sharedarraybuffer; + NODE_API_CALL( + env, + node_api_is_sharedarraybuffer(env, arraybuffer, &is_sharedarraybuffer)); + NODE_API_ASSERT(env, + is_sharedarraybuffer, + "Wrong type of arguments. Expects a SharedArrayBuffer or " + "ArrayBuffer as the first " + "argument."); + } napi_valuetype valuetype1; NODE_API_CALL(env, napi_typeof(env, args[1], &valuetype1)); diff --git a/test/js-native-api/test_object/binding.gyp b/test/js-native-api/test_object/binding.gyp index e63c1649a05140..cb1dca11ad65ad 100644 --- a/test/js-native-api/test_object/binding.gyp +++ b/test/js-native-api/test_object/binding.gyp @@ -5,7 +5,10 @@ "sources": [ "test_null.c", "test_object.c" - ] + ], + "defines": [ + "NAPI_EXPERIMENTAL" + ], }, { "target_name": "test_exceptions", diff --git a/test/js-native-api/test_object/test.js b/test/js-native-api/test_object/test.js index a745d45e6f75e1..603f7d765aa703 100644 --- a/test/js-native-api/test_object/test.js +++ b/test/js-native-api/test_object/test.js @@ -5,7 +5,6 @@ const assert = require('assert'); // Testing api calls for objects const test_object = require(`./build/${common.buildType}/test_object`); - const object = { hello: 'world', array: [ @@ -391,3 +390,21 @@ assert.deepStrictEqual(test_object.TestGetProperty(), { delete obj.x; }, /Cannot delete property 'x' of #/); } + +{ + const objectWithProperties = test_object.TestCreateObjectWithProperties(); + assert.strictEqual(typeof objectWithProperties, 'object'); + assert.strictEqual(objectWithProperties.name, 'Foo'); + assert.strictEqual(objectWithProperties.age, 42); + assert.strictEqual(objectWithProperties.active, true); + + const emptyObject = test_object.TestCreateObjectWithPropertiesEmpty(); + assert.strictEqual(typeof emptyObject, 'object'); + assert.strictEqual(Object.keys(emptyObject).length, 0); + + const objectWithCustomPrototype = test_object.TestCreateObjectWithCustomPrototype(); + assert.strictEqual(typeof objectWithCustomPrototype, 'object'); + assert.deepStrictEqual(Object.getOwnPropertyNames(objectWithCustomPrototype), ['value']); + assert.strictEqual(objectWithCustomPrototype.value, 42); + assert.strictEqual(typeof objectWithCustomPrototype.test, 'function'); +} diff --git a/test/js-native-api/test_object/test_object.c b/test/js-native-api/test_object/test_object.c index 6d74128118f997..0b807f9a62342d 100644 --- a/test/js-native-api/test_object/test_object.c +++ b/test/js-native-api/test_object/test_object.c @@ -710,6 +710,79 @@ CheckTypeTag(napi_env env, napi_callback_info info) { return js_result; } +static napi_value TestCreateObjectWithProperties(napi_env env, + napi_callback_info info) { + napi_value names[3]; + napi_value values[3]; + napi_value result; + + NODE_API_CALL( + env, napi_create_string_utf8(env, "name", NAPI_AUTO_LENGTH, &names[0])); + NODE_API_CALL( + env, napi_create_string_utf8(env, "Foo", NAPI_AUTO_LENGTH, &values[0])); + + NODE_API_CALL( + env, napi_create_string_utf8(env, "age", NAPI_AUTO_LENGTH, &names[1])); + NODE_API_CALL(env, napi_create_int32(env, 42, &values[1])); + + NODE_API_CALL( + env, napi_create_string_utf8(env, "active", NAPI_AUTO_LENGTH, &names[2])); + NODE_API_CALL(env, napi_get_boolean(env, true, &values[2])); + + napi_value null_prototype; + NODE_API_CALL(env, napi_get_null(env, &null_prototype)); + NODE_API_CALL(env, + napi_create_object_with_properties( + env, null_prototype, names, values, 3, &result)); + + return result; +} + +static napi_value TestCreateObjectWithPropertiesEmpty(napi_env env, + napi_callback_info info) { + napi_value result; + + NODE_API_CALL( + env, + napi_create_object_with_properties(env, NULL, NULL, NULL, 0, &result)); + + return result; +} + +static napi_value TestCreateObjectWithCustomPrototype(napi_env env, + napi_callback_info info) { + napi_value prototype; + napi_value method_name; + napi_value method_func; + napi_value names[1]; + napi_value values[1]; + napi_value result; + + NODE_API_CALL(env, napi_create_object(env, &prototype)); + NODE_API_CALL( + env, + napi_create_string_utf8(env, "test", NAPI_AUTO_LENGTH, &method_name)); + NODE_API_CALL(env, + napi_create_function(env, + "test", + NAPI_AUTO_LENGTH, + TestCreateObjectWithProperties, + NULL, + &method_func)); + NODE_API_CALL(env, + napi_set_property(env, prototype, method_name, method_func)); + + NODE_API_CALL( + env, napi_create_string_utf8(env, "value", NAPI_AUTO_LENGTH, &names[0])); + NODE_API_CALL(env, napi_create_int32(env, 42, &values[0])); + + NODE_API_CALL(env, + napi_create_object_with_properties( + env, prototype, names, values, 1, &result)); + + return result; +} + EXTERN_C_START napi_value Init(napi_env env, napi_value exports) { napi_property_descriptor descriptors[] = { @@ -743,6 +816,12 @@ napi_value Init(napi_env env, napi_value exports) { DECLARE_NODE_API_PROPERTY("TestGetProperty", TestGetProperty), DECLARE_NODE_API_PROPERTY("TestFreeze", TestFreeze), DECLARE_NODE_API_PROPERTY("TestSeal", TestSeal), + DECLARE_NODE_API_PROPERTY("TestCreateObjectWithProperties", + TestCreateObjectWithProperties), + DECLARE_NODE_API_PROPERTY("TestCreateObjectWithPropertiesEmpty", + TestCreateObjectWithPropertiesEmpty), + DECLARE_NODE_API_PROPERTY("TestCreateObjectWithCustomPrototype", + TestCreateObjectWithCustomPrototype), }; init_test_null(env, exports); diff --git a/test/js-native-api/test_promise/test.js b/test/js-native-api/test_promise/test.js index dc18411cbd32b3..367815b9698226 100644 --- a/test/js-native-api/test_promise/test.js +++ b/test/js-native-api/test_promise/test.js @@ -50,9 +50,9 @@ test_promise.concludeCurrentPromise(undefined, true); const rejectPromise = Promise.reject(-1); const expected_reason = -1; assert.strictEqual(test_promise.isPromise(rejectPromise), true); -rejectPromise.catch((reason) => { +rejectPromise.catch(common.mustCall((reason) => { assert.strictEqual(reason, expected_reason); -}); +})); assert.strictEqual(test_promise.isPromise(2.4), false); assert.strictEqual(test_promise.isPromise('I promise!'), false); diff --git a/test/known_issues/test-dgram-bind-shared-ports-after-port-0.js b/test/known_issues/test-dgram-bind-shared-ports-after-port-0.js index 9d668b702880e7..7fc5447e2b5ef1 100644 --- a/test/known_issues/test-dgram-bind-shared-ports-after-port-0.js +++ b/test/known_issues/test-dgram-bind-shared-ports-after-port-0.js @@ -21,25 +21,25 @@ if (cluster.isPrimary) { if (err.code === 'ENOTSUP') throw err; }); - worker1.on('message', (msg) => { + worker1.on('message', common.mustCall((msg) => { if (typeof msg !== 'object') process.exit(0); if (msg.message !== 'success') process.exit(0); if (typeof msg.port1 !== 'number') process.exit(0); const worker2 = cluster.fork({ PRT1: msg.port1 }); worker2.on('message', () => process.exit(0)); - worker2.on('exit', (code, signal) => { + worker2.on('exit', common.mustCall((code, signal) => { // This is the droid we are looking for assert.strictEqual(code, 0); assert.strictEqual(signal, null); - }); + })); // cleanup anyway process.on('exit', () => { worker1.send(BYE); worker2.send(BYE); }); - }); + })); // end primary code } else { // worker code diff --git a/test/known_issues/test-fs-cp-non-utf8.js b/test/known_issues/test-fs-cp-non-utf8.js index 12c04a4227f6c2..814859be8ea63e 100644 --- a/test/known_issues/test-fs-cp-non-utf8.js +++ b/test/known_issues/test-fs-cp-non-utf8.js @@ -9,7 +9,7 @@ if (!common.isLinux) { common.skip('This test is only applicable to Linux'); } -const { ok, strictEqual } = require('assert'); +const assert = require('assert'); const { join } = require('path'); const path = require('path'); const tmpdir = require('../common/tmpdir'); @@ -42,8 +42,8 @@ const name = Buffer.from([ const testPath = Buffer.concat([tmpdirPath, sepBuf, name]); writeFileSync(testPath, 'test content'); -ok(existsSync(testPath)); -strictEqual(readFileSync(testPath, 'utf8'), 'test content'); +assert.ok(existsSync(testPath)); +assert.strictEqual(readFileSync(testPath, 'utf8'), 'test content'); // The cpSync is expected to fail because the implementation does not // properly handle non-UTF8 names in the path. diff --git a/test/known_issues/test-http-clientrequest-end-contentlength.js b/test/known_issues/test-http-clientrequest-end-contentlength.js index 9d5370ad07a303..988dd08bd26e7c 100644 --- a/test/known_issues/test-http-clientrequest-end-contentlength.js +++ b/test/known_issues/test-http-clientrequest-end-contentlength.js @@ -16,9 +16,9 @@ const response = 'content-length: 19\r\n'; const methods = [ 'GET', 'HEAD', 'DELETE', 'POST', 'PATCH', 'PUT', 'OPTIONS' ]; const server = http.createServer(common.mustCall(function(req, res) { - req.on('data', function(chunk) { + req.on('data', common.mustCall((chunk) => { assert.strictEqual(chunk, Buffer.from(upload)); - }); + })); res.setHeader('Content-Type', 'text/plain'); let payload = `${req.method}\r\n`; for (let i = 0; i < req.rawHeaders.length; i += 2) { @@ -30,22 +30,22 @@ const server = http.createServer(common.mustCall(function(req, res) { res.end(payload); }), methods.length); -server.listen(0, function tryNextRequest() { +server.listen(0, common.mustCall(function tryNextRequest() { const method = methods.pop(); if (method === undefined) return; const port = server.address().port; - const req = http.request({ method, port }, function(res) { + const req = http.request({ method, port }, common.mustCall((res) => { const chunks = []; res.on('data', function(chunk) { chunks.push(chunk); }); - res.on('end', function() { + res.on('end', common.mustCall(() => { const received = Buffer.concat(chunks).toString(); const expected = method.toLowerCase() + '\r\n' + response; assert.strictEqual(received.toLowerCase(), expected); tryNextRequest(); - }); - }); + })); + })); req.end(upload); -}).unref(); +})).unref(); diff --git a/test/known_issues/test-http-clientrequest-end-empty-response-body.js b/test/known_issues/test-http-clientrequest-end-empty-response-body.js index 2edbe239a3cae2..36aad2ed047075 100644 --- a/test/known_issues/test-http-clientrequest-end-empty-response-body.js +++ b/test/known_issues/test-http-clientrequest-end-empty-response-body.js @@ -17,9 +17,9 @@ const response = ''; const methods = [ 'GET', 'HEAD', 'DELETE', 'POST', 'PATCH', 'PUT', 'OPTIONS' ]; const server = http.createServer(common.mustCall(function(req, res) { - req.on('data', function(chunk) { + req.on('data', common.mustCall((chunk) => { assert.strictEqual(chunk.toString(), upload); - }); + })); res.setHeader('Content-Type', 'text/plain'); res.write(`${req.method}\r\n`); for (let i = 0; i < req.rawHeaders.length; i += 2) { @@ -31,22 +31,22 @@ const server = http.createServer(common.mustCall(function(req, res) { res.end(); }), methods.length); -server.listen(0, function tryNextRequest() { +server.listen(0, common.mustCall(function tryNextRequest() { const method = methods.pop(); if (method === undefined) return; const port = server.address().port; - const req = http.request({ method, port }, function(res) { + const req = http.request({ method, port }, common.mustCall((res) => { const chunks = []; res.on('data', function(chunk) { chunks.push(chunk); }); - res.on('end', function() { + res.on('end', common.mustCall(() => { const received = Buffer.concat(chunks).toString(); const expected = method.toLowerCase() + '\r\n' + response; assert.strictEqual(received.toLowerCase(), expected); tryNextRequest(); - }); - }); + })); + })); req.end(); -}).unref(); +})).unref(); diff --git a/test/known_issues/test-http-clientrequest-write-chunked.js b/test/known_issues/test-http-clientrequest-write-chunked.js index 2cf63a8be85297..77d9f503fbd07c 100644 --- a/test/known_issues/test-http-clientrequest-write-chunked.js +++ b/test/known_issues/test-http-clientrequest-write-chunked.js @@ -16,9 +16,9 @@ const response = 'transfer-encoding: chunked\r\n'; const methods = [ 'GET', 'HEAD', 'DELETE', 'POST', 'PATCH', 'PUT', 'OPTIONS' ]; const server = http.createServer(common.mustCall(function(req, res) { - req.on('data', function(chunk) { + req.on('data', common.mustCall((chunk) => { assert.strictEqual(chunk.toString(), upload); - }); + })); res.setHeader('Content-Type', 'text/plain'); res.write(`${req.method}\r\n`); for (let i = 0; i < req.rawHeaders.length; i += 2) { @@ -30,23 +30,23 @@ const server = http.createServer(common.mustCall(function(req, res) { res.end(); }), methods.length); -server.listen(0, function tryNextRequest() { +server.listen(0, common.mustCall(function tryNextRequest() { const method = methods.pop(); if (method === undefined) return; const port = server.address().port; - const req = http.request({ method, port }, function(res) { + const req = http.request({ method, port }, common.mustCall((res) => { const chunks = []; res.on('data', function(chunk) { chunks.push(chunk); }); - res.on('end', function() { + res.on('end', common.mustCall(() => { const received = Buffer.concat(chunks).toString(); const expected = method.toLowerCase() + '\r\n' + response; assert.strictEqual(received.toLowerCase(), expected); tryNextRequest(); - }); - }); + })); + })); req.write(upload); req.end(); -}).unref(); +})).unref(); diff --git a/test/known_issues/test-http-path-contains-unicode.js b/test/known_issues/test-http-path-contains-unicode.js index 1e063a3e70fad2..dfa632922b1d1e 100644 --- a/test/known_issues/test-http-path-contains-unicode.js +++ b/test/known_issues/test-http-path-contains-unicode.js @@ -22,7 +22,7 @@ const server = http.createServer(common.mustCall(function(req, res) { })); -server.listen(0, () => { +server.listen(0, common.mustCall(() => { http.request({ port: server.address().port, path: expected, @@ -33,4 +33,4 @@ server.listen(0, () => { console.log(e.message); process.exit(1); }).end(); -}); +})); diff --git a/test/known_issues/test-inspector-cluster-port-clash.js b/test/known_issues/test-inspector-cluster-port-clash.js index e5daee61b78ff6..14f09016c485b7 100644 --- a/test/known_issues/test-inspector-cluster-port-clash.js +++ b/test/known_issues/test-inspector-cluster-port-clash.js @@ -30,11 +30,11 @@ function serialFork() { const worker = cluster.fork(); worker.on('error', (err) => assert.fail(err)); // No common.mustCall since 1 out of 3 should fail. - worker.on('online', () => { + worker.on('online', common.mustCall(() => { worker.on('message', common.mustCall((message) => { ports.push(message.debugPort); })); - }); + })); worker.on('exit', common.mustCall((code, signal) => { assert.strictEqual(signal, null); // worker 2 should fail because of port clash with `server` diff --git a/test/node-api/test_buffer/binding.gyp b/test/node-api/test_buffer/binding.gyp index 0a1dc92de7ffb4..4463d95a69b89b 100644 --- a/test/node-api/test_buffer/binding.gyp +++ b/test/node-api/test_buffer/binding.gyp @@ -3,7 +3,8 @@ { "target_name": "test_buffer", "defines": [ - 'NAPI_VERSION=10' + "NAPI_EXPERIMENTAL", + "NODE_API_EXPERIMENTAL_NO_WARNING" ], "sources": [ "test_buffer.c" ] }, diff --git a/test/node-api/test_buffer/test.js b/test/node-api/test_buffer/test.js index c51eddabc183e6..8ea0f5f01a7db9 100644 --- a/test/node-api/test_buffer/test.js +++ b/test/node-api/test_buffer/test.js @@ -4,7 +4,8 @@ const common = require('../../common'); const binding = require(`./build/${common.buildType}/test_buffer`); const assert = require('assert'); -const tick = require('util').promisify(require('../../common/tick')); +const util = require('util'); +const tick = util.promisify(require('../../common/tick')); (async function() { assert.strictEqual(binding.newBuffer().toString(), binding.theText); @@ -26,6 +27,17 @@ const tick = require('util').promisify(require('../../common/tick')); console.log('gc2'); assert.strictEqual(binding.getDeleterCallCount(), 2); + // Caveat emptor: it's indeterminate when the SharedArrayBuffer's backing + // store is reclaimed; at least some of the time it happens even before + // calling gc(). + let sab = binding.newExternalSharedArrayBuffer(); + assert(util.types.isSharedArrayBuffer(sab)); + sab = null; + global.gc(); + await tick(10); + console.log('gc3'); + assert.strictEqual(binding.getDeleterCallCount(), 3); + // To test this doesn't crash binding.invalidObjectAsBuffer({}); diff --git a/test/node-api/test_buffer/test_buffer.c b/test/node-api/test_buffer/test_buffer.c index 9cfda6334fb3ef..cb5e609e91a4cf 100644 --- a/test/node-api/test_buffer/test_buffer.c +++ b/test/node-api/test_buffer/test_buffer.c @@ -58,6 +58,30 @@ static napi_value newExternalBuffer(napi_env env, napi_callback_info info) { return theBuffer; } +static char externalSharedArrayBufferData[1]; + +static void freeExternalSharedArrayBuffer(void* data, void* hint) { + (void)hint; + NODE_API_BASIC_ASSERT_RETURN_VOID( + data == (void*)externalSharedArrayBufferData, + "SharedArrayBuffer points to wrong data"); + deleterCallCount++; +} + +static napi_value newExternalSharedArrayBuffer(napi_env env, + napi_callback_info info) { + napi_value sab; + NODE_API_CALL( + env, + node_api_create_external_sharedarraybuffer(env, + externalSharedArrayBufferData, + 1, + freeExternalSharedArrayBuffer, + NULL, + &sab)); + return sab; +} + static napi_value getDeleterCallCount(napi_env env, napi_callback_info info) { napi_value callCount; NODE_API_CALL(env, napi_create_int32(env, deleterCallCount, &callCount)); @@ -171,6 +195,8 @@ static napi_value Init(napi_env env, napi_value exports) { napi_property_descriptor methods[] = { DECLARE_NODE_API_PROPERTY("newBuffer", newBuffer), DECLARE_NODE_API_PROPERTY("newExternalBuffer", newExternalBuffer), + DECLARE_NODE_API_PROPERTY("newExternalSharedArrayBuffer", + newExternalSharedArrayBuffer), DECLARE_NODE_API_PROPERTY("getDeleterCallCount", getDeleterCallCount), DECLARE_NODE_API_PROPERTY("copyBuffer", copyBuffer), DECLARE_NODE_API_PROPERTY("bufferHasInstance", bufferHasInstance), diff --git a/test/node-api/test_threadsafe_function_abort/binding.cc b/test/node-api/test_threadsafe_function_abort/binding.cc new file mode 100644 index 00000000000000..ff8444a984f513 --- /dev/null +++ b/test/node-api/test_threadsafe_function_abort/binding.cc @@ -0,0 +1,89 @@ +#include +#include +#include + +#include +#include +#include +#include +#include + +template +inline auto call(const char* name, Args&&... args) -> R { + napi_status status; + if constexpr (std::is_same_v) { + status = func(std::forward(args)...); + if (status == napi_ok) { + return; + } + } else { + R ret; + status = func(std::forward(args)..., &ret); + if (status == napi_ok) { + return ret; + } + } + std::fprintf(stderr, "%s: %d\n", name, status); + std::abort(); +} + +#define NAPI_CALL(ret_type, func, ...) \ + call(#func, ##__VA_ARGS__) + +class Context { + public: + enum class State { kCreated, kCalled } state = State::kCreated; +}; + +void tsfn_callback(napi_env env, + napi_value js_cb, + void* ctx_p, + void* /* data */) { + auto ctx = static_cast(ctx_p); + assert(ctx->state == Context::State::kCreated); + ctx->state = Context::State::kCalled; +} + +void tsfn_finalize(napi_env env, + void* /* finalize_data */, + void* finalize_hint) { + auto ctx = static_cast(finalize_hint); + assert(ctx->state == Context::State::kCalled); + delete ctx; +} + +auto run(napi_env env, napi_callback_info info) -> napi_value { + auto global = NAPI_CALL(napi_value, napi_get_global, env); + auto undefined = NAPI_CALL(napi_value, napi_get_undefined, env); + auto ctx = new Context(); + auto tsfn = NAPI_CALL(napi_threadsafe_function, + napi_create_threadsafe_function, + env, + nullptr, + global, + undefined, + 0, + 1 /* initial_thread_count */, + nullptr, + tsfn_finalize, + ctx, + tsfn_callback); + + NAPI_CALL( + void, napi_call_threadsafe_function, tsfn, nullptr, napi_tsfn_blocking); + + NAPI_CALL(void, napi_unref_threadsafe_function, env, tsfn); + + NAPI_CALL(void, + napi_release_threadsafe_function, + tsfn, + napi_threadsafe_function_release_mode::napi_tsfn_abort); + return NAPI_CALL(napi_value, napi_get_undefined, env); +} + +napi_value init(napi_env env, napi_value exports) { + return NAPI_CALL( + napi_value, napi_create_function, env, nullptr, 0, run, nullptr); +} + +NAPI_MODULE(NODE_GYP_MODULE_NAME, init) diff --git a/test/node-api/test_threadsafe_function_abort/binding.gyp b/test/node-api/test_threadsafe_function_abort/binding.gyp new file mode 100644 index 00000000000000..eb08b447a94a86 --- /dev/null +++ b/test/node-api/test_threadsafe_function_abort/binding.gyp @@ -0,0 +1,11 @@ +{ + "targets": [ + { + "target_name": "binding", + "sources": ["binding.cc"], + "cflags_cc": ["--std=c++20"], + 'cflags!': [ '-fno-exceptions', '-fno-rtti' ], + 'cflags_cc!': [ '-fno-exceptions', '-fno-rtti' ], + } + ] +} diff --git a/test/node-api/test_threadsafe_function_abort/test.js b/test/node-api/test_threadsafe_function_abort/test.js new file mode 100644 index 00000000000000..2102bb3ced3e32 --- /dev/null +++ b/test/node-api/test_threadsafe_function_abort/test.js @@ -0,0 +1,6 @@ +'use strict'; + +const common = require('../../common'); +const binding = require(`./build/${common.buildType}/binding`); + +binding(); diff --git a/test/node-api/test_threadsafe_function_shutdown/binding.cc b/test/node-api/test_threadsafe_function_shutdown/binding.cc new file mode 100644 index 00000000000000..11696b849a0713 --- /dev/null +++ b/test/node-api/test_threadsafe_function_shutdown/binding.cc @@ -0,0 +1,83 @@ +#include +#include +#include + +#include +#include +#include +#include // NOLINT(build/c++11) +#include +#include + +template +inline auto call(const char* name, Args&&... args) -> R { + napi_status status; + if constexpr (std::is_same_v) { + status = func(std::forward(args)...); + if (status == napi_ok) { + return; + } + } else { + R ret; + status = func(std::forward(args)..., &ret); + if (status == napi_ok) { + return ret; + } + } + std::fprintf(stderr, "%s: %d\n", name, status); + std::abort(); +} + +#define NAPI_CALL(ret_type, func, ...) \ + call(#func, ##__VA_ARGS__) + +void thread_func(napi_threadsafe_function tsfn) { + fprintf(stderr, "thread_func: starting\n"); + auto status = + napi_call_threadsafe_function(tsfn, nullptr, napi_tsfn_blocking); + while (status == napi_ok) { + std::this_thread::sleep_for(std::chrono::milliseconds(1)); + status = napi_call_threadsafe_function(tsfn, nullptr, napi_tsfn_blocking); + } + fprintf(stderr, "thread_func: Got status %d, exiting...\n", status); +} + +void tsfn_callback(napi_env env, napi_value js_cb, void* ctx, void* data) { + if (env == nullptr) { + fprintf(stderr, "tsfn_callback: env=%p\n", env); + } +} + +void tsfn_finalize(napi_env env, void* finalize_data, void* finalize_hint) { + fprintf(stderr, "tsfn_finalize: env=%p\n", env); +} + +auto run(napi_env env, napi_callback_info info) -> napi_value { + auto global = NAPI_CALL(napi_value, napi_get_global, env); + auto undefined = NAPI_CALL(napi_value, napi_get_undefined, env); + auto n_threads = 32; + auto tsfn = NAPI_CALL(napi_threadsafe_function, + napi_create_threadsafe_function, + env, + nullptr, + global, + undefined, + 0, + n_threads, + nullptr, + tsfn_finalize, + nullptr, + tsfn_callback); + for (auto i = 0; i < n_threads; ++i) { + std::thread([tsfn] { thread_func(tsfn); }).detach(); + } + NAPI_CALL(void, napi_unref_threadsafe_function, env, tsfn); + return NAPI_CALL(napi_value, napi_get_undefined, env); +} + +napi_value init(napi_env env, napi_value exports) { + return NAPI_CALL( + napi_value, napi_create_function, env, nullptr, 0, run, nullptr); +} + +NAPI_MODULE(NODE_GYP_MODULE_NAME, init) diff --git a/test/node-api/test_threadsafe_function_shutdown/binding.gyp b/test/node-api/test_threadsafe_function_shutdown/binding.gyp new file mode 100644 index 00000000000000..eb08b447a94a86 --- /dev/null +++ b/test/node-api/test_threadsafe_function_shutdown/binding.gyp @@ -0,0 +1,11 @@ +{ + "targets": [ + { + "target_name": "binding", + "sources": ["binding.cc"], + "cflags_cc": ["--std=c++20"], + 'cflags!': [ '-fno-exceptions', '-fno-rtti' ], + 'cflags_cc!': [ '-fno-exceptions', '-fno-rtti' ], + } + ] +} diff --git a/test/node-api/test_threadsafe_function_shutdown/test.js b/test/node-api/test_threadsafe_function_shutdown/test.js new file mode 100644 index 00000000000000..9b2587b5bbdfde --- /dev/null +++ b/test/node-api/test_threadsafe_function_shutdown/test.js @@ -0,0 +1,17 @@ +'use strict'; + +const common = require('../../common'); +const process = require('process'); +const assert = require('assert'); +const { fork } = require('child_process'); +const binding = require(`./build/${common.buildType}/binding`); + +if (process.argv[2] === 'child') { + binding(); + setTimeout(() => {}, 100); +} else { + const child = fork(__filename, ['child']); + child.on('close', common.mustCall((code) => { + assert.strictEqual(code, 0); + })); +} diff --git a/test/parallel/parallel.status b/test/parallel/parallel.status index fcc14f7b9fee4a..cb9a23ff82a785 100644 --- a/test/parallel/parallel.status +++ b/test/parallel/parallel.status @@ -23,6 +23,9 @@ test-fs-read-stream-concurrent-reads: PASS, FLAKY # https://github.com/nodejs/build/issues/3043 test-snapshot-incompatible: SKIP +# https://github.com/nodejs/node/issues/53579 +test-snapshot-reproducible: SKIP + [$system==win32] # https://github.com/nodejs/node/issues/54807 test-runner-watch-mode-complex: PASS, FLAKY @@ -79,6 +82,8 @@ test-cluster-dgram-1: SKIP [$arch==arm] # https://github.com/nodejs/node/issues/63835 test-fs-utimes-y2K38: SKIP +# https://github.com/nodejs/node/issues/54534 +test-runner-run-watch: PASS, FLAKY [$arch==arm || $arch==arm64] # https://github.com/nodejs/node/pull/31178 diff --git a/test/parallel/test-assert-deep.js b/test/parallel/test-assert-deep.js index 57d2be85ccbaae..8fa72c5a75f971 100644 --- a/test/parallel/test-assert-deep.js +++ b/test/parallel/test-assert-deep.js @@ -248,6 +248,14 @@ function assertOnlyDeepEqual(a, b, err) { ); } +function activateMemoizedCycleDetection() { + const circA = {}; + circA.self = circA; + const circB = {}; + circB.self = circB; + assert.deepStrictEqual(circA, circB); +} + test('es6 Maps and Sets', () => { assertDeepAndStrictEqual(new Set(), new Set()); assertDeepAndStrictEqual(new Map(), new Map()); @@ -597,6 +605,36 @@ test('GH-14441. Circular structures should be consistent', () => { } }); +test('deepStrictEqual handles shared expected array elements after cycle detection', () => { + const sharedExpected = { outer: { inner: 0 } }; + const actualValues = [{ outer: { inner: 0 } }, { outer: { inner: 0 } }]; + const expectedValues = [sharedExpected, sharedExpected]; + + activateMemoizedCycleDetection(); + + assertDeepAndStrictEqual(actualValues[0], expectedValues[0]); + assertDeepAndStrictEqual(actualValues[1], expectedValues[1]); + assertDeepAndStrictEqual(actualValues, expectedValues); +}); + +test('deepStrictEqual handles cross-root aliases after cycle detection', () => { + activateMemoizedCycleDetection(); + + const nestedExpected = {}; + nestedExpected.loop = nestedExpected; + nestedExpected.payload = { value: 1 }; + + const expected = {}; + expected.loop = nestedExpected; + expected.payload = { value: 1 }; + + const actual = {}; + actual.loop = expected; + actual.payload = { value: 1 }; + + assertDeepAndStrictEqual(actual, expected); +}); + // https://github.com/nodejs/node-v0.x-archive/pull/7178 test('Ensure reflexivity of deepEqual with `arguments` objects.', () => { const args = (function() { return arguments; })(); diff --git a/test/parallel/test-async-local-storage-http-parser-leak.js b/test/parallel/test-async-local-storage-http-parser-leak.js new file mode 100644 index 00000000000000..2992db7c73f575 --- /dev/null +++ b/test/parallel/test-async-local-storage-http-parser-leak.js @@ -0,0 +1,29 @@ +// Flags: --expose-gc +'use strict'; + +const common = require('../common'); +const { onGC } = require('../common/gc'); +const assert = require('node:assert'); +const { AsyncLocalStorage } = require('node:async_hooks'); +const { freeParser, parsers, HTTPParser } = require('_http_common'); + +let storeGCed = false; + +const als = new AsyncLocalStorage(); + +function test() { + const store = {}; + onGC(store, { ongc: common.mustCall(() => { storeGCed = true; }) }); + let parser; + als.run(store, common.mustCall(() => { + parser = parsers.alloc(); + parser.initialize(HTTPParser.RESPONSE, {}); + })); + freeParser(parser); +} + +test(); +global.gc(); +setImmediate(common.mustCall(() => { + assert.ok(storeGCed); +})); diff --git a/test/parallel/test-async-local-storage-weak-asyncwrap-leak.js b/test/parallel/test-async-local-storage-weak-asyncwrap-leak.js new file mode 100644 index 00000000000000..baa13f610ed9aa --- /dev/null +++ b/test/parallel/test-async-local-storage-weak-asyncwrap-leak.js @@ -0,0 +1,49 @@ +// Flags: --expose-gc +'use strict'; +const common = require('../common'); +const assert = require('node:assert'); +const zlib = require('node:zlib'); +const v8 = require('node:v8'); +const { AsyncLocalStorage } = require('node:async_hooks'); + +// This test verifies that referencing an AsyncLocalStorage store from +// a weak AsyncWrap does not prevent the store from being garbage collected. +// We use zlib streams as examples of weak AsyncWraps here, but the +// issue is not specific to zlib. + +class Store {} + +let zlibDone = false; + +// Use immediates to ensure no accidental async context propagation occurs +setImmediate(common.mustCall(() => { + const asyncLocalStorage = new AsyncLocalStorage(); + const store = new Store(); + asyncLocalStorage.run(store, common.mustCall(() => { + (async () => { + const zlibStream = zlib.createGzip(); + // (Make sure this test does not break if _handle is renamed + // to something else) + assert.strictEqual(typeof zlibStream._handle, 'object'); + // Create backreference from AsyncWrap to store + store.zlibStream = zlibStream._handle; + // Let the zlib stream finish (not strictly necessary) + zlibStream.end('hello world'); + await zlibStream.toArray(); + zlibDone = true; + })().then(common.mustCall()); + })); +})); + +const finish = common.mustCall(() => { + global.gc(); + // Make sure the ALS instance has been garbage-collected + assert.strictEqual(v8.queryObjects(Store), 0); +}); + +const interval = setInterval(() => { + if (zlibDone) { + clearInterval(interval); + finish(); + } +}, 5); diff --git a/test/parallel/test-buffer-concat.js b/test/parallel/test-buffer-concat.js index 39e6ca7997ecba..11bf9e1758f21f 100644 --- a/test/parallel/test-buffer-concat.js +++ b/test/parallel/test-buffer-concat.js @@ -106,3 +106,13 @@ assert.deepStrictEqual( assert.deepStrictEqual(Buffer.concat([new Uint8Array([0x41, 0x42]), new Uint8Array([0x43, 0x44])]), Buffer.from('ABCD')); + +// Spoofed length getter should not cause uninitialized memory exposure +{ + const u8_1 = new Uint8Array([1, 2, 3, 4]); + const u8_2 = new Uint8Array([5, 6, 7, 8]); + Object.defineProperty(u8_1, 'length', { get() { return 100; } }); + const buf = Buffer.concat([u8_1, u8_2]); + assert.strictEqual(buf.length, 8); + assert.deepStrictEqual(buf, Buffer.from([1, 2, 3, 4, 5, 6, 7, 8])); +} diff --git a/test/parallel/test-buffer-zero-fill-cli.js b/test/parallel/test-buffer-zero-fill-cli.js index 4299f81039b0b5..f3feb2a3e1b05f 100644 --- a/test/parallel/test-buffer-zero-fill-cli.js +++ b/test/parallel/test-buffer-zero-fill-cli.js @@ -14,6 +14,13 @@ function isZeroFilled(buf) { return true; } +// We have to consume the data from the pool as otherwise +// we would be testing what's in snapshot, which is zero-filled +// regardless of the flag presence, and we want to test the flag +for (let i = 0; i < 8; i++) { + assert(isZeroFilled(Buffer.allocUnsafe(1024))); +} + // This can be somewhat unreliable because the // allocated memory might just already happen to // contain all zeroes. The test is run multiple @@ -22,7 +29,8 @@ for (let i = 0; i < 50; i++) { const bufs = [ Buffer.alloc(20), Buffer.allocUnsafe(20), - SlowBuffer(20), + SlowBuffer(20), // Heap + Buffer.allocUnsafeSlow(128), // Alloc Buffer(20), new SlowBuffer(20), ]; diff --git a/test/parallel/test-child-process-fork-advanced-header-serialization.js b/test/parallel/test-child-process-fork-advanced-header-serialization.js index 27c15649e732d6..85116a1b5d16e0 100644 --- a/test/parallel/test-child-process-fork-advanced-header-serialization.js +++ b/test/parallel/test-child-process-fork-advanced-header-serialization.js @@ -13,11 +13,9 @@ if (process.argv[2] === 'child-buffer') { v & 0xFF, ]); const fd = process.channel?.fd; - if (fd === undefined) { - // skip test - process.exit(0); + if (fd !== undefined) { + fs.writeSync(fd, payload); } - fs.writeSync(fd, payload); return; } diff --git a/test/parallel/test-child-process-internal.js b/test/parallel/test-child-process-internal.js index c6ce0a8e04718c..345d4951742393 100644 --- a/test/parallel/test-child-process-internal.js +++ b/test/parallel/test-child-process-internal.js @@ -34,9 +34,6 @@ if (process.argv[2] === 'child') { // Send internal message process.send(internal); - - process.exit(0); - } else { const fork = require('child_process').fork; diff --git a/test/parallel/test-child-process-silent.js b/test/parallel/test-child-process-silent.js index 892c4527c9e2a2..3c0acf97555d0d 100644 --- a/test/parallel/test-child-process-silent.js +++ b/test/parallel/test-child-process-silent.js @@ -20,7 +20,7 @@ // USE OR OTHER DEALINGS IN THE SOFTWARE. 'use strict'; -require('../common'); +const common = require('../common'); const assert = require('assert'); const childProcess = require('child_process'); @@ -44,9 +44,7 @@ if (process.argv[2] === 'pipe') { // Allow child process to self terminate child.disconnect(); - child.on('exit', function() { - process.exit(0); - }); + child.on('exit', common.mustCall()); } else { // Testcase | start primary && child IPC test diff --git a/test/parallel/test-child-process-spawnsync-input.js b/test/parallel/test-child-process-spawnsync-input.js index 62ae476ae17caa..f0c3d3d78978d0 100644 --- a/test/parallel/test-child-process-spawnsync-input.js +++ b/test/parallel/test-child-process-spawnsync-input.js @@ -65,7 +65,6 @@ if (process.argv.includes('spawnchild')) { checkSpawnSyncRet(ret); break; } - process.exit(0); return; } diff --git a/test/parallel/test-child-process-spawnsync-non-string-args.js b/test/parallel/test-child-process-spawnsync-non-string-args.js new file mode 100644 index 00000000000000..5ac14d821f7b0f --- /dev/null +++ b/test/parallel/test-child-process-spawnsync-non-string-args.js @@ -0,0 +1,7 @@ +'use strict'; +const common = require('../common'); +const { spawnSync } = require('child_process'); +const stateful = { + toString: common.mustCall(() => ';'), +}; +spawnSync(process.execPath, ['-e', stateful], { stdio: 'ignore' }); diff --git a/test/parallel/test-child-process-stdout-flush-exit.js b/test/parallel/test-child-process-stdout-flush-exit.js index 90f746c39ef6d3..4c5de7d9a2b42d 100644 --- a/test/parallel/test-child-process-stdout-flush-exit.js +++ b/test/parallel/test-child-process-stdout-flush-exit.js @@ -36,7 +36,6 @@ if (process.argv[2] === 'child') { console.log('filler'); } console.log('goodbye'); - process.exit(0); } else { // parent process const spawn = require('child_process').spawn; diff --git a/test/parallel/test-cli-eval.js b/test/parallel/test-cli-eval.js index 42e9369f6aa876..e7352bfe2c8fb4 100644 --- a/test/parallel/test-cli-eval.js +++ b/test/parallel/test-cli-eval.js @@ -35,7 +35,7 @@ const fixtures = require('../common/fixtures'); if (process.argv.length > 2) { console.log(process.argv.slice(2).join(' ')); - process.exit(0); + return; } // Assert that nothing is written to stdout. @@ -115,6 +115,32 @@ child.exec(...common.escapePOSIXShell`"${process.execPath}" -p "\\-42"`, common. assert.strictEqual(stderr, ''); })); +// Eval expressions that start with '-' can be passed with '='. +child.exec(...common.escapePOSIXShell`"${process.execPath}" --print --eval=-42`, common.mustSucceed((stdout, stderr) => { + assert.strictEqual(stdout, '-42\n'); + assert.strictEqual(stderr, ''); +})); + +// Edge case: negative zero should preserve its sign when printed. +child.exec(...common.escapePOSIXShell`"${process.execPath}" --print --eval=-0`, common.mustSucceed((stdout, stderr) => { + assert.strictEqual(stdout, '-0\n'); + assert.strictEqual(stderr, ''); +})); + +// Nearby-path safety: option-looking values should still be rejected with -e. +child.exec(...common.escapePOSIXShell`"${process.execPath}" -e -p`, common.mustCall((err, stdout, stderr) => { + assert.strictEqual(err.code, 9); + assert.strictEqual(stdout, ''); + assert.strictEqual(stderr.trim(), + `${process.execPath}: -e requires an argument`); +})); + +// Long output should not be truncated. +child.exec(...common.escapePOSIXShell`"${process.execPath}" -p "'1'.repeat(1e5)"`, common.mustSucceed((stdout, stderr) => { + assert.strictEqual(stdout, `${'1'.repeat(1e5)}\n`); + assert.strictEqual(stderr, ''); +})); + child.exec(...common.escapePOSIXShell`"${process.execPath}" --use-strict -p process.execArgv`, common.mustSucceed((stdout, stderr) => { assert.strictEqual( diff --git a/test/parallel/test-console-tty-colors-per-stream.js b/test/parallel/test-console-tty-colors-per-stream.js new file mode 100644 index 00000000000000..a7502766a1e354 --- /dev/null +++ b/test/parallel/test-console-tty-colors-per-stream.js @@ -0,0 +1,23 @@ +'use strict'; +require('../common'); +const { Console } = require('console'); +const { PassThrough } = require('stream'); +const { strict: assert } = require('assert'); + +const stdout = new PassThrough().setEncoding('utf8'); +const stderr = new PassThrough().setEncoding('utf8'); + +const console = new Console({ + stdout, + stderr, + inspectOptions: new Map([ + [stdout, { colors: true }], + [stderr, { colors: false }], + ]), +}); + +console.log('Hello', 42); +console.warn('Hello', 42); + +assert.strictEqual(stdout.read(), 'Hello \x1B[33m42\x1B[39m\n'); +assert.strictEqual(stderr.read(), 'Hello 42\n'); diff --git a/test/parallel/test-crypto-authenticated.js b/test/parallel/test-crypto-authenticated.js index e8fedf2d5d5072..9778ea548e81d7 100644 --- a/test/parallel/test-crypto-authenticated.js +++ b/test/parallel/test-crypto-authenticated.js @@ -772,3 +772,26 @@ for (const test of TEST_CASES) { decipher.final(); }, /Unsupported state or unable to authenticate data/); } + +// Refs: https://github.com/nodejs/node/issues/62342 +{ + const key = crypto.randomBytes(16); + const nonce = crypto.randomBytes(13); + + const cipher = crypto.createCipheriv('aes-128-ccm', key, nonce, { + authTagLength: 16, + }); + cipher.setAAD(Buffer.alloc(0), { plaintextLength: 0 }); + cipher.update(new DataView(new ArrayBuffer(0))); + cipher.final(); + const tag = cipher.getAuthTag(); + assert.strictEqual(tag.length, 16); + + const decipher = crypto.createDecipheriv('aes-128-ccm', key, nonce, { + authTagLength: 16, + }); + decipher.setAuthTag(tag); + decipher.setAAD(Buffer.alloc(0), { plaintextLength: 0 }); + decipher.update(new DataView(new ArrayBuffer(0))); + decipher.final(); +} diff --git a/test/parallel/test-crypto-pbkdf2.js b/test/parallel/test-crypto-pbkdf2.js index efd8d6eaf0d640..78b73ed6c4e0d0 100644 --- a/test/parallel/test-crypto-pbkdf2.js +++ b/test/parallel/test-crypto-pbkdf2.js @@ -110,6 +110,35 @@ for (const iterations of [-1, 0, 2147483648]) { }); }); +// `-0` keylen must not abort the process via the native binding's +// IsInt32() assertion. Behavior of `keylen=0` itself varies by OpenSSL +// build (bundled returns an empty buffer; some shared OpenSSL builds +// throw); the requirement here is only that `-0` produces the same +// outcome as `+0`. +{ + let posError; + let posResult; + try { + posResult = crypto.pbkdf2Sync('password', 'salt', 1, 0, 'sha256'); + } catch (err) { + posError = err; + } + let negError; + let negResult; + try { + negResult = crypto.pbkdf2Sync('password', 'salt', 1, -0, 'sha256'); + } catch (err) { + negError = err; + } + if (posError !== undefined) { + assert.strictEqual(negError?.message, posError.message); + } else { + assert.deepStrictEqual(negResult, posResult); + } + + crypto.pbkdf2('password', 'salt', 1, -0, 'sha256', common.mustCall()); +} + // Should not get FATAL ERROR with empty password and salt // https://github.com/nodejs/node/issues/8571 crypto.pbkdf2('', '', 1, 32, 'sha256', common.mustSucceed()); diff --git a/test/parallel/test-crypto-scrypt.js b/test/parallel/test-crypto-scrypt.js index 03a18c7522531c..395e6065ed2c98 100644 --- a/test/parallel/test-crypto-scrypt.js +++ b/test/parallel/test-crypto-scrypt.js @@ -256,3 +256,30 @@ for (const { args, expected } of badargs) { ['p', 1], ['parallelization', 1], ].forEach((arg) => testParameter(...arg)); } + +// `-0` keylen must not abort the process via the native binding's +// IsInt32() assertion. Assert that `-0` produces the same outcome as +// `+0` (which differs by OpenSSL build). +{ + let posError; + let posResult; + try { + posResult = crypto.scryptSync('', '', 0); + } catch (err) { + posError = err; + } + let negError; + let negResult; + try { + negResult = crypto.scryptSync('', '', -0); + } catch (err) { + negError = err; + } + if (posError !== undefined) { + assert.strictEqual(negError?.message, posError.message); + } else { + assert.deepStrictEqual(negResult, posResult); + } + + crypto.scrypt('', '', -0, common.mustCall()); +} diff --git a/test/parallel/test-debugger-exceptions.js b/test/parallel/test-debugger-exceptions.js index 3f75161a6b6e3d..27818612301163 100644 --- a/test/parallel/test-debugger-exceptions.js +++ b/test/parallel/test-debugger-exceptions.js @@ -27,8 +27,10 @@ const path = require('path'); await cli.waitFor(/disconnect/); // Next run: With `breakOnException` it pauses in both places. - await cli.stepCommand('r'); + await cli.command('r'); + await cli.waitFor(/ ok\n/); await cli.waitForInitialBreak(); + await cli.waitForPrompt(); assert.deepStrictEqual(cli.breakInfo, { filename: script, line: 1 }); await cli.command('breakOnException'); await cli.stepCommand('c'); @@ -38,16 +40,20 @@ const path = require('path'); // Next run: With `breakOnUncaught` it only pauses on the 2nd exception. await cli.command('breakOnUncaught'); - await cli.stepCommand('r'); // Also, the setting survives the restart. + await cli.command('r'); // Also, the setting survives the restart. + await cli.waitFor(/ ok\n/); await cli.waitForInitialBreak(); + await cli.waitForPrompt(); assert.deepStrictEqual(cli.breakInfo, { filename: script, line: 1 }); await cli.stepCommand('c'); assert.ok(cli.output.includes(`exception in ${script}:9`)); // Next run: Back to the initial state! It should die again. await cli.command('breakOnNone'); - await cli.stepCommand('r'); + await cli.command('r'); + await cli.waitFor(/ ok\n/); await cli.waitForInitialBreak(); + await cli.waitForPrompt(); assert.deepStrictEqual(cli.breakInfo, { filename: script, line: 1 }); await cli.command('c'); await cli.waitFor(/disconnect/); diff --git a/test/parallel/test-debugger-inspect-help-forwarding.mjs b/test/parallel/test-debugger-inspect-help-forwarding.mjs new file mode 100644 index 00000000000000..796fcf36cc7bee --- /dev/null +++ b/test/parallel/test-debugger-inspect-help-forwarding.mjs @@ -0,0 +1,34 @@ +// Tests that --help / -h are forwarded to the debuggee when a script is +// also passed, instead of being hijacked as the inspect help flag. + +import { skipIfInspectorDisabled } from '../common/index.mjs'; + +skipIfInspectorDisabled(); + +import * as fixtures from '../common/fixtures.mjs'; +import startCLI from '../common/debugger.js'; + +import assert from 'assert'; + +async function getEvaluatedArgv(flag) { + const script = fixtures.path('debugger', 'empty.js'); + const cli = startCLI([script, flag]); + try { + await cli.waitForInitialBreak(); + await cli.waitForPrompt(); + await cli.command('exec process.argv'); + return cli.output; + } finally { + await cli.quit(); + } +} + +async function checkForwardedHelp(flag) { + const output = await getEvaluatedArgv(flag); + assert(output.includes(`'${flag}'`), + `expected debuggee process.argv to include "${flag}", got:\n${output}`); + assert.doesNotMatch(output, /Usage: .+ inspect/); +} + +await checkForwardedHelp('--help'); +await checkForwardedHelp('-h'); diff --git a/test/parallel/test-debugger-inspect-help.js b/test/parallel/test-debugger-inspect-help.js new file mode 100644 index 00000000000000..3dfc1f79af7166 --- /dev/null +++ b/test/parallel/test-debugger-inspect-help.js @@ -0,0 +1,37 @@ +'use strict'; + +// Tests that `node inspect` help text is printed when +// `--help` / `-h` is passed and there is no script, +// or when there are no additional arguments. +const common = require('../common'); +common.skipIfInspectorDisabled(); + +const { + spawnSyncAndAssert, + spawnSyncAndExit, +} = require('../common/child_process'); + +const usageRegex = /^Usage: .+ inspect .*debugger\.html/ms; + +// --help / -h prints the usage to stdout and exits with code 0, +// for both interactive and probe-mode invocations. +const helpArgs = [ + ['inspect', '--help'], + ['inspect', '-h'], + ['inspect', '--probe', '--help'], + ['inspect', '--probe', '-h'], +]; + +for (const args of helpArgs) { + spawnSyncAndAssert(process.execPath, args, { + stdout: usageRegex, + }); +} + +// `node inspect` with no args prints the usage to stderr and exits +// with kInvalidCommandLineArgument (9). +spawnSyncAndExit(process.execPath, ['inspect'], { + status: 9, + signal: null, + stderr: usageRegex, +}); diff --git a/test/parallel/test-debugger-preserve-breaks.js b/test/parallel/test-debugger-preserve-breaks.js index bb0eba961432ec..aba19dd8e033f4 100644 --- a/test/parallel/test-debugger-preserve-breaks.js +++ b/test/parallel/test-debugger-preserve-breaks.js @@ -29,6 +29,8 @@ const runTest = async () => { await cli.stepCommand('c'); // hit line 3 assert.deepStrictEqual(cli.breakInfo, { filename: script, line: 3 }); await cli.command('restart'); + await cli.waitFor(/Debugger attached\./); + await cli.waitForPrompt(); await cli.waitForInitialBreak(); assert.deepStrictEqual(cli.breakInfo, { filename: script, line: 1 }); await cli.stepCommand('c'); diff --git a/test/parallel/test-debugger-probe-activation.js b/test/parallel/test-debugger-probe-activation.js new file mode 100644 index 00000000000000..69eb1324ef882e --- /dev/null +++ b/test/parallel/test-debugger-probe-activation.js @@ -0,0 +1,38 @@ +// This tests that probe mode only activates when --probe is present, +// so that other options can be used as user script arguments without +// accidentally activating probe mode. +'use strict'; + +const common = require('../common'); +common.skipIfInspectorDisabled(); + +const fixtures = require('../common/fixtures'); +const startCLI = require('../common/debugger'); + +const assert = require('assert'); + +const script = fixtures.path('debugger', 'three-lines.js'); +const cli = startCLI([ + script, + '--json', + '--preview', + '--timeout=1', + '--expr', + 'value', +]); + +(async () => { + try { + await cli.waitForInitialBreak(); + await cli.waitForPrompt(); + await cli.command('exec JSON.stringify(process.argv.slice(2))'); + // Check that it's parsable as usual. + assert.match( + cli.output, + /\["--json","--preview","--timeout=1","--expr","value"\]/, + ); + } finally { + const code = await cli.quit(); + assert.strictEqual(code, 0); + } +})().then(common.mustCall()); diff --git a/test/parallel/test-debugger-probe-child-inspect-port-zero.js b/test/parallel/test-debugger-probe-child-inspect-port-zero.js new file mode 100644 index 00000000000000..2abc81441edeb1 --- /dev/null +++ b/test/parallel/test-debugger-probe-child-inspect-port-zero.js @@ -0,0 +1,37 @@ +// This tests child --inspect-port=0 pass-through in probe mode. +'use strict'; + +const common = require('../common'); +common.skipIfInspectorDisabled(); + +const { spawnSyncAndAssert } = require('../common/child_process'); +const { assertProbeJson, probeScript } = require('../common/debugger-probe'); + +spawnSyncAndAssert(process.execPath, [ + 'inspect', + '--json', + '--probe', `${probeScript}:12`, + '--expr', 'finalValue', + '--', + '--inspect-port=0', + probeScript, +], { + stdout(output) { + assertProbeJson(output, { + v: 1, + probes: [{ + expr: 'finalValue', + target: [probeScript, 12], + }], + results: [{ + probe: 0, + event: 'hit', + hit: 1, + result: { type: 'number', value: 81, description: '81' }, + }, { + event: 'completed', + }], + }); + }, + trim: true, +}); diff --git a/test/parallel/test-debugger-probe-global-option-order.js b/test/parallel/test-debugger-probe-global-option-order.js new file mode 100644 index 00000000000000..19487c8f623795 --- /dev/null +++ b/test/parallel/test-debugger-probe-global-option-order.js @@ -0,0 +1,35 @@ +// This tests that global probe options can appear after the first --probe. +'use strict'; + +const common = require('../common'); +common.skipIfInspectorDisabled(); + +const { spawnSyncAndAssert } = require('../common/child_process'); +const { assertProbeJson, probeScript } = require('../common/debugger-probe'); + +spawnSyncAndAssert(process.execPath, [ + 'inspect', + '--probe', `${probeScript}:12`, + '--expr', 'finalValue', + '--json', + probeScript, +], { + stdout(output) { + assertProbeJson(output, { + v: 1, + probes: [{ + expr: 'finalValue', + target: [probeScript, 12], + }], + results: [{ + probe: 0, + event: 'hit', + hit: 1, + result: { type: 'number', value: 81, description: '81' }, + }, { + event: 'completed', + }], + }); + }, + trim: true, +}); diff --git a/test/parallel/test-debugger-probe-json-preview.js b/test/parallel/test-debugger-probe-json-preview.js new file mode 100644 index 00000000000000..853939075aa326 --- /dev/null +++ b/test/parallel/test-debugger-probe-json-preview.js @@ -0,0 +1,100 @@ +// This tests debugger probe JSON preview opt-in for object-like values. +'use strict'; + +const common = require('../common'); +common.skipIfInspectorDisabled(); + +const { spawnSyncAndAssert } = require('../common/child_process'); +const { + assertProbeJson, + probeTypesScript, +} = require('../common/debugger-probe'); + +const location = `${probeTypesScript}:17`; + +spawnSyncAndAssert(process.execPath, [ + 'inspect', + '--json', + '--preview', + '--probe', location, + '--expr', 'objectValue', + '--probe', location, + '--expr', 'arrayValue', + '--probe', location, + '--expr', 'errorValue', + probeTypesScript, +], { + stdout(output) { + assertProbeJson(output, { + v: 1, + probes: [ + { expr: 'objectValue', target: [probeTypesScript, 17] }, + { expr: 'arrayValue', target: [probeTypesScript, 17] }, + { expr: 'errorValue', target: [probeTypesScript, 17] }, + ], + results: [ + { + probe: 0, + event: 'hit', + hit: 1, + result: { + type: 'object', + description: 'Object', + preview: { + type: 'object', + description: 'Object', + overflow: false, + properties: [ + { name: 'alpha', type: 'number', value: '1' }, + { name: 'beta', type: 'string', value: 'two' }, + ], + }, + }, + }, + { + probe: 1, + event: 'hit', + hit: 1, + result: { + type: 'object', + subtype: 'array', + description: 'Array(3)', + preview: { + type: 'object', + subtype: 'array', + description: 'Array(3)', + overflow: false, + properties: [ + { name: '0', type: 'number', value: '1' }, + { name: '1', type: 'string', value: 'two' }, + { name: '2', type: 'number', value: '3' }, + ], + }, + }, + }, + { + probe: 2, + event: 'hit', + hit: 1, + result: { + type: 'object', + subtype: 'error', + description: 'Error: boom', + preview: { + type: 'object', + subtype: 'error', + description: 'Error: boom', + overflow: false, + properties: [ + { name: 'stack', type: 'string', value: 'Error: boom' }, + { name: 'message', type: 'string', value: 'boom' }, + ], + }, + }, + }, + { event: 'completed' }, + ], + }); + }, + trim: true, +}); diff --git a/test/parallel/test-debugger-probe-json-special-values.js b/test/parallel/test-debugger-probe-json-special-values.js new file mode 100644 index 00000000000000..97782c9e314e3d --- /dev/null +++ b/test/parallel/test-debugger-probe-json-special-values.js @@ -0,0 +1,144 @@ +// This tests debugger probe JSON output for stable special-cased values. +'use strict'; + +const common = require('../common'); +common.skipIfInspectorDisabled(); + +const { spawnSyncAndAssert } = require('../common/child_process'); +const { + assertProbeJson, + probeTypesScript, +} = require('../common/debugger-probe'); + +const location = `${probeTypesScript}:17`; + +spawnSyncAndAssert(process.execPath, [ + 'inspect', + '--json', + '--probe', location, + '--expr', 'stringValue', + '--probe', location, + '--expr', 'booleanValue', + '--probe', location, + '--expr', 'undefinedValue', + '--probe', location, + '--expr', 'nullValue', + '--probe', location, + '--expr', 'nanValue', + '--probe', location, + '--expr', 'bigintValue', + '--probe', location, + '--expr', 'symbolValue', + '--probe', location, + '--expr', 'functionValue', + '--probe', location, + '--expr', 'objectValue', + '--probe', location, + '--expr', 'arrayValue', + '--probe', location, + '--expr', 'errorValue', + probeTypesScript, +], { + stdout(output) { + assertProbeJson(output, { + v: 1, + probes: [ + { expr: 'stringValue', target: [probeTypesScript, 17] }, + { expr: 'booleanValue', target: [probeTypesScript, 17] }, + { expr: 'undefinedValue', target: [probeTypesScript, 17] }, + { expr: 'nullValue', target: [probeTypesScript, 17] }, + { expr: 'nanValue', target: [probeTypesScript, 17] }, + { expr: 'bigintValue', target: [probeTypesScript, 17] }, + { expr: 'symbolValue', target: [probeTypesScript, 17] }, + { expr: 'functionValue', target: [probeTypesScript, 17] }, + { expr: 'objectValue', target: [probeTypesScript, 17] }, + { expr: 'arrayValue', target: [probeTypesScript, 17] }, + { expr: 'errorValue', target: [probeTypesScript, 17] }, + ], + results: [ + { + probe: 0, + event: 'hit', + hit: 1, + result: { type: 'string', value: 'hello' }, + }, + { + probe: 1, + event: 'hit', + hit: 1, + result: { type: 'boolean', value: true }, + }, + { + probe: 2, + event: 'hit', + hit: 1, + result: { type: 'undefined' }, + }, + { + probe: 3, + event: 'hit', + hit: 1, + result: { type: 'object', subtype: 'null', value: null }, + }, + { + probe: 4, + event: 'hit', + hit: 1, + result: { type: 'number', unserializableValue: 'NaN', description: 'NaN' }, + }, + { + probe: 5, + event: 'hit', + hit: 1, + result: { type: 'bigint', unserializableValue: '1n', description: '1n' }, + }, + { + probe: 6, + event: 'hit', + hit: 1, + result: { type: 'symbol', description: 'Symbol(tag)' }, + }, + { + probe: 7, + event: 'hit', + hit: 1, + result: { + type: 'function', + description: '() => 1', + }, + }, + { + probe: 8, + event: 'hit', + hit: 1, + result: { + type: 'object', + description: 'Object', + }, + }, + { + probe: 9, + event: 'hit', + hit: 1, + result: { + type: 'object', + subtype: 'array', + description: 'Array(3)', + }, + }, + { + probe: 10, + event: 'hit', + hit: 1, + result: { + type: 'object', + subtype: 'error', + description: 'Error: boom', + }, + }, + { event: 'completed' }, + ], + }); + }, + trim: true, +}); diff --git a/test/parallel/test-debugger-probe-json.js b/test/parallel/test-debugger-probe-json.js new file mode 100644 index 00000000000000..be2288ee78ddac --- /dev/null +++ b/test/parallel/test-debugger-probe-json.js @@ -0,0 +1,65 @@ +// This tests debugger probe JSON output for duplicate and multi-probe hits. +'use strict'; + +const common = require('../common'); +common.skipIfInspectorDisabled(); + +const { spawnSyncAndAssert } = require('../common/child_process'); +const { assertProbeJson, probeScript } = require('../common/debugger-probe'); + +spawnSyncAndAssert(process.execPath, [ + 'inspect', + '--json', + '--probe', `${probeScript}:8`, + '--expr', 'index', + '--probe', `${probeScript}:8`, + '--expr', 'total', + '--probe', `${probeScript}:12`, + '--expr', 'finalValue', + probeScript, +], { + stdout(output) { + assertProbeJson(output, { + v: 1, + probes: [ + { expr: 'index', target: [probeScript, 8] }, + { expr: 'total', target: [probeScript, 8] }, + { expr: 'finalValue', target: [probeScript, 12] }, + ], + results: [ + { + probe: 0, + event: 'hit', + hit: 1, + result: { type: 'number', value: 0, description: '0' }, + }, + { + probe: 1, + event: 'hit', + hit: 1, + result: { type: 'number', value: 0, description: '0' }, + }, + { + probe: 0, + event: 'hit', + hit: 2, + result: { type: 'number', value: 1, description: '1' }, + }, + { + probe: 1, + event: 'hit', + hit: 2, + result: { type: 'number', value: 40, description: '40' }, + }, + { + probe: 2, + event: 'hit', + hit: 1, + result: { type: 'number', value: 81, description: '81' }, + }, + { event: 'completed' }, + ], + }); + }, + trim: true, +}); diff --git a/test/parallel/test-debugger-probe-launch.js b/test/parallel/test-debugger-probe-launch.js new file mode 100644 index 00000000000000..09511fabf2caaf --- /dev/null +++ b/test/parallel/test-debugger-probe-launch.js @@ -0,0 +1,26 @@ +// This tests that probe launch failures fail fast instead of timing out. +'use strict'; + +const common = require('../common'); +common.skipIfInspectorDisabled(); + +const assert = require('assert'); +const { spawnSyncAndExit } = require('../common/child_process'); +const { probeScript } = require('../common/debugger-probe'); + +spawnSyncAndExit(process.execPath, [ + 'inspect', + '--probe', `${probeScript}:12`, + '--expr', 'finalValue', + '--', + '--not-a-real-node-flag', + probeScript, +], { + signal: null, + status: 1, + stderr(output) { + assert.match(output, /bad option: --not-a-real-node-flag/); + assert.match(output, /Target exited before the inspector was ready \(code 9\)/); + }, + trim: true, +}); diff --git a/test/parallel/test-debugger-probe-miss.js b/test/parallel/test-debugger-probe-miss.js new file mode 100644 index 00000000000000..2908b8092aeb7d --- /dev/null +++ b/test/parallel/test-debugger-probe-miss.js @@ -0,0 +1,28 @@ +// This tests that probe sessions report unresolved breakpoints as misses. +'use strict'; + +const common = require('../common'); +common.skipIfInspectorDisabled(); + +const { spawnSyncAndAssert } = require('../common/child_process'); +const { assertProbeJson, missScript } = require('../common/debugger-probe'); + +spawnSyncAndAssert(process.execPath, [ + 'inspect', + '--json', + '--probe', `${missScript}:99`, + '--expr', '42', + missScript, +], { + stdout(output) { + assertProbeJson(output, { + v: 1, + probes: [{ expr: '42', target: [missScript, 99] }], + results: [{ + event: 'miss', + pending: [0], + }], + }); + }, + trim: true, +}); diff --git a/test/parallel/test-debugger-probe-missing-expr.js b/test/parallel/test-debugger-probe-missing-expr.js new file mode 100644 index 00000000000000..57adb70b1b7f35 --- /dev/null +++ b/test/parallel/test-debugger-probe-missing-expr.js @@ -0,0 +1,19 @@ +// This tests that probe mode rejects a --probe without a matching --expr. +'use strict'; + +const common = require('../common'); +common.skipIfInspectorDisabled(); + +const { spawnSyncAndExit } = require('../common/child_process'); +const { probeScript } = require('../common/debugger-probe'); + +spawnSyncAndExit(process.execPath, [ + 'inspect', + '--probe', `${probeScript}:12`, + probeScript, +], { + signal: null, + status: 9, + stderr: /Each --probe must be followed immediately by --expr/, + trim: true, +}); diff --git a/test/parallel/test-debugger-probe-requires-separator.js b/test/parallel/test-debugger-probe-requires-separator.js new file mode 100644 index 00000000000000..bbbefb0069805f --- /dev/null +++ b/test/parallel/test-debugger-probe-requires-separator.js @@ -0,0 +1,21 @@ +// This tests that child Node.js flags require -- in probe mode. +'use strict'; + +const common = require('../common'); +common.skipIfInspectorDisabled(); + +const { spawnSyncAndExit } = require('../common/child_process'); +const { probeScript } = require('../common/debugger-probe'); + +spawnSyncAndExit(process.execPath, [ + 'inspect', + '--probe', `${probeScript}:12`, + '--expr', 'finalValue', + '--inspect-port=0', + probeScript, +], { + signal: null, + status: 9, + stderr: /Use -- before child Node\.js flags in probe mode/, + trim: true, +}); diff --git a/test/parallel/test-debugger-probe-text-special-values.js b/test/parallel/test-debugger-probe-text-special-values.js new file mode 100644 index 00000000000000..3886eb66daed8b --- /dev/null +++ b/test/parallel/test-debugger-probe-text-special-values.js @@ -0,0 +1,69 @@ +// This tests debugger probe text output for stable special-cased values. +'use strict'; + +const common = require('../common'); +common.skipIfInspectorDisabled(); + +const { spawnSyncAndAssert } = require('../common/child_process'); +const { + assertProbeText, + probeTypesScript, +} = require('../common/debugger-probe'); + +const location = `${probeTypesScript}:17`; + +spawnSyncAndAssert(process.execPath, [ + 'inspect', + '--probe', location, + '--expr', 'stringValue', + '--probe', location, + '--expr', 'booleanValue', + '--probe', location, + '--expr', 'undefinedValue', + '--probe', location, + '--expr', 'nullValue', + '--probe', location, + '--expr', 'nanValue', + '--probe', location, + '--expr', 'bigintValue', + '--probe', location, + '--expr', 'symbolValue', + '--probe', location, + '--expr', 'functionValue', + '--probe', location, + '--expr', 'objectValue', + '--probe', location, + '--expr', 'arrayValue', + '--probe', location, + '--expr', 'errorValue', + probeTypesScript, +], { + stdout(output) { + assertProbeText(output, [ + `Hit 1 at ${location}`, + ' stringValue = "hello"', + `Hit 1 at ${location}`, + ' booleanValue = true', + `Hit 1 at ${location}`, + ' undefinedValue = undefined', + `Hit 1 at ${location}`, + ' nullValue = null', + `Hit 1 at ${location}`, + ' nanValue = NaN', + `Hit 1 at ${location}`, + ' bigintValue = 1n', + `Hit 1 at ${location}`, + ' symbolValue = Symbol(tag)', + `Hit 1 at ${location}`, + ' functionValue = () => 1', + `Hit 1 at ${location}`, + ' objectValue = {alpha: 1, beta: "two"}', + `Hit 1 at ${location}`, + ' arrayValue = [1, "two", 3]', + `Hit 1 at ${location}`, + ' errorValue = Error: boom', + 'Completed', + ].join('\n')); + }, + trim: true, +}); diff --git a/test/parallel/test-debugger-probe-text.js b/test/parallel/test-debugger-probe-text.js new file mode 100644 index 00000000000000..30e77b25985d16 --- /dev/null +++ b/test/parallel/test-debugger-probe-text.js @@ -0,0 +1,23 @@ +// This tests debugger probe text output for a single hit. +'use strict'; + +const common = require('../common'); +common.skipIfInspectorDisabled(); + +const { spawnSyncAndAssert } = require('../common/child_process'); +const { assertProbeText, probeScript } = require('../common/debugger-probe'); + +spawnSyncAndAssert(process.execPath, [ + 'inspect', + '--probe', `${probeScript}:12`, + '--expr', 'finalValue', + probeScript, +], { + stdout(output) { + assertProbeText(output, + `Hit 1 at ${probeScript}:12\n` + + ' finalValue = 81\n' + + 'Completed'); + }, + trim: true, +}); diff --git a/test/parallel/test-debugger-probe-timeout.js b/test/parallel/test-debugger-probe-timeout.js new file mode 100644 index 00000000000000..fe641f31943af0 --- /dev/null +++ b/test/parallel/test-debugger-probe-timeout.js @@ -0,0 +1,35 @@ +// This tests probe session timeout behavior and teardown. +'use strict'; + +const common = require('../common'); +common.skipIfInspectorDisabled(); + +const { spawnSyncAndExit } = require('../common/child_process'); +const { assertProbeJson, timeoutScript } = require('../common/debugger-probe'); + +spawnSyncAndExit(process.execPath, [ + 'inspect', + '--json', + '--timeout=200', + '--probe', `${timeoutScript}:99`, + '--expr', '1', + timeoutScript, +], { + signal: null, + status: 1, + stdout(output) { + assertProbeJson(output, { + v: 1, + probes: [{ expr: '1', target: [timeoutScript, 99] }], + results: [{ + event: 'timeout', + pending: [0], + error: { + code: 'probe_timeout', + message: `Timed out after 200ms waiting for probes: ${timeoutScript}:99`, + }, + }], + }); + }, + trim: true, +}); diff --git a/test/parallel/test-debugger-restart-message.js b/test/parallel/test-debugger-restart-message.js index 292a15bd9f4d7a..3f19e22f550eeb 100644 --- a/test/parallel/test-debugger-restart-message.js +++ b/test/parallel/test-debugger-restart-message.js @@ -20,12 +20,16 @@ const startCLI = require('../common/debugger'); async function onWaitForInitialBreak() { try { - await cli.waitForInitialBreak(); + await cli.waitFor(/ ok\n/); await cli.waitForPrompt(); assert.strictEqual(cli.output.match(listeningRegExp).length, 1); for (let i = 0; i < RESTARTS; i++) { - await cli.stepCommand('restart'); + // For `restart`, sync on attach/prompt instead of BREAK_MESSAGE to avoid flaky races. + // https://github.com/nodejs/node/issues/61762 + await cli.command('restart'); + await cli.waitFor(/Debugger attached\./); + await cli.waitForPrompt(); assert.strictEqual(cli.output.match(listeningRegExp).length, 1); } } finally { diff --git a/test/parallel/test-debugger-run-after-quit-restart.js b/test/parallel/test-debugger-run-after-quit-restart.js index 2da4cea6359c85..e7d7ad4dee208a 100644 --- a/test/parallel/test-debugger-run-after-quit-restart.js +++ b/test/parallel/test-debugger-run-after-quit-restart.js @@ -46,7 +46,8 @@ const path = require('path'); .then(() => { assert.match(cli.output, /Use `run` to start the app again/); }) - .then(() => cli.stepCommand('run')) + .then(() => cli.command('run')) + .then(() => cli.waitFor(/ ok\n/)) .then(() => cli.waitForInitialBreak()) .then(() => cli.waitForPrompt()) .then(() => { @@ -62,8 +63,10 @@ const path = require('path'); { filename: script, line: 2 }, ); }) - .then(() => cli.stepCommand('restart')) + .then(() => cli.command('restart')) + .then(() => cli.waitFor(/ ok\n/)) .then(() => cli.waitForInitialBreak()) + .then(() => cli.waitForPrompt()) .then(() => { assert.deepStrictEqual( cli.breakInfo, @@ -76,7 +79,8 @@ const path = require('path'); .then(() => { assert.match(cli.output, /Use `run` to start the app again/); }) - .then(() => cli.stepCommand('run')) + .then(() => cli.command('run')) + .then(() => cli.waitFor(/ ok\n/)) .then(() => cli.waitForInitialBreak()) .then(() => cli.waitForPrompt()) .then(() => { diff --git a/test/parallel/test-diagnostics-channel-child-process.js b/test/parallel/test-diagnostics-channel-child-process.js new file mode 100644 index 00000000000000..1d16fd4298779e --- /dev/null +++ b/test/parallel/test-diagnostics-channel-child-process.js @@ -0,0 +1,94 @@ +'use strict'; +const common = require('../common'); +const assert = require('assert'); +const { spawn, ChildProcess } = require('child_process'); +const dc = require('diagnostics_channel'); +const path = require('path'); +const fs = require('fs'); +const tmpdir = require('../common/tmpdir'); + +const isChildProcess = (process) => process instanceof ChildProcess; + +function testDiagnosticChannel(subscribers, test, after) { + dc.tracingChannel('child_process.spawn').subscribe(subscribers); + + test(common.mustCall(() => { + dc.tracingChannel('child_process.spawn').unsubscribe(subscribers); + after?.(); + })); +} + +const testSuccessfulSpawn = common.mustCall(() => { + let cb; + + testDiagnosticChannel( + { + start: common.mustCall(({ process: childProcess, options }) => { + assert.strictEqual(isChildProcess(childProcess), true); + assert.strictEqual(options.file, process.execPath); + }), + end: common.mustCall(({ process: childProcess }) => { + assert.strictEqual(isChildProcess(childProcess), true); + }), + error: common.mustNotCall(), + }, + common.mustCall((callback) => { + cb = callback; + const child = spawn(process.execPath, ['-e', 'process.exit(0)']); + child.on('close', () => { + cb(); + }); + }), + testFailingSpawnENOENT + ); +}); + +const testFailingSpawnENOENT = common.mustCall(() => { + testDiagnosticChannel( + { + start: common.mustCall(({ process: childProcess, options }) => { + assert.strictEqual(isChildProcess(childProcess), true); + assert.strictEqual(options.file, 'does-not-exist'); + }), + end: common.mustNotCall(), + error: common.mustCall(({ process: childProcess, error }) => { + assert.strictEqual(isChildProcess(childProcess), true); + assert.strictEqual(error.code, 'ENOENT'); + }), + }, + common.mustCall((callback) => { + const child = spawn('does-not-exist'); + child.on('error', () => {}); + callback(); + }), + common.isWindows ? undefined : testFailingSpawnEACCES, + ); +}); + +const testFailingSpawnEACCES = !common.isWindows ? common.mustCall(() => { + tmpdir.refresh(); + const noExecFile = path.join(tmpdir.path, 'no-exec'); + fs.writeFileSync(noExecFile, ''); + fs.chmodSync(noExecFile, 0o644); + + testDiagnosticChannel( + { + start: common.mustCall(({ process: childProcess, options }) => { + assert.strictEqual(isChildProcess(childProcess), true); + assert.strictEqual(options.file, noExecFile); + }), + end: common.mustNotCall(), + error: common.mustCall(({ process: childProcess, error }) => { + assert.strictEqual(isChildProcess(childProcess), true); + assert.strictEqual(error.code, 'EACCES'); + }), + }, + common.mustCall((callback) => { + const child = spawn(noExecFile); + child.on('error', () => {}); + callback(); + }), + ); +}) : undefined; + +testSuccessfulSpawn(); diff --git a/test/parallel/test-dns-resolvesrv-econnrefused.js b/test/parallel/test-dns-resolvesrv-econnrefused.js new file mode 100644 index 00000000000000..a0acf63c6fae30 --- /dev/null +++ b/test/parallel/test-dns-resolvesrv-econnrefused.js @@ -0,0 +1,147 @@ +'use strict'; +// Regression test for SRV record resolution returning ECONNREFUSED. +// +// This test verifies that dns.resolveSrv() properly handles SRV queries +// and doesn't incorrectly return ECONNREFUSED errors when DNS servers +// are reachable but the query format or handling has issues. +// +// Background: In certain Node.js versions, SRV queries could fail with +// ECONNREFUSED even when the DNS server was accessible, affecting +// applications using MongoDB Atlas (mongodb+srv://) and other services +// that rely on SRV record discovery. + +const common = require('../common'); +const dnstools = require('../common/dns'); +const dns = require('dns'); +const dnsPromises = dns.promises; +const assert = require('assert'); +const dgram = require('dgram'); + +// Test 1: Basic SRV resolution should succeed, not return ECONNREFUSED +{ + const server = dgram.createSocket('udp4'); + const srvRecord = { + type: 'SRV', + name: 'mongodb-server.cluster0.example.net', + port: 27017, + priority: 0, + weight: 1, + ttl: 60, + }; + + server.on('message', common.mustCall((msg, { address, port }) => { + const parsed = dnstools.parseDNSPacket(msg); + const domain = parsed.questions[0].domain; + + server.send(dnstools.writeDNSPacket({ + id: parsed.id, + questions: parsed.questions, + answers: [Object.assign({ domain }, srvRecord)], + }), port, address); + })); + + server.bind(0, common.mustCall(async () => { + const { port } = server.address(); + const resolver = new dnsPromises.Resolver(); + resolver.setServers([`127.0.0.1:${port}`]); + + try { + const result = await resolver.resolveSrv( + '_mongodb._tcp.cluster0.example.net' + ); + + // Should NOT throw ECONNREFUSED + assert.ok(Array.isArray(result)); + assert.strictEqual(result.length, 1); + assert.strictEqual(result[0].name, 'mongodb-server.cluster0.example.net'); + assert.strictEqual(result[0].port, 27017); + assert.strictEqual(result[0].priority, 0); + assert.strictEqual(result[0].weight, 1); + } catch (err) { + // This is the regression: should NOT get ECONNREFUSED + assert.notStrictEqual(err.code, 'ECONNREFUSED'); + throw err; + } finally { + server.close(); + } + })); +} + +// Test 2: Multiple SRV records (common for MongoDB Atlas clusters) +{ + const server = dgram.createSocket('udp4'); + const srvRecords = [ + { type: 'SRV', name: 'shard-00-00.cluster.mongodb.net', port: 27017, priority: 0, weight: 1, ttl: 60 }, + { type: 'SRV', name: 'shard-00-01.cluster.mongodb.net', port: 27017, priority: 0, weight: 1, ttl: 60 }, + { type: 'SRV', name: 'shard-00-02.cluster.mongodb.net', port: 27017, priority: 0, weight: 1, ttl: 60 }, + ]; + + server.on('message', common.mustCall((msg, { address, port }) => { + const parsed = dnstools.parseDNSPacket(msg); + const domain = parsed.questions[0].domain; + + server.send(dnstools.writeDNSPacket({ + id: parsed.id, + questions: parsed.questions, + answers: srvRecords.map((r) => Object.assign({ domain }, r)), + }), port, address); + })); + + server.bind(0, common.mustCall(async () => { + const { port } = server.address(); + const resolver = new dnsPromises.Resolver(); + resolver.setServers([`127.0.0.1:${port}`]); + + const result = await resolver.resolveSrv('_mongodb._tcp.cluster.mongodb.net'); + + assert.strictEqual(result.length, 3); + + const names = result.map((r) => r.name).sort(); + assert.deepStrictEqual(names, [ + 'shard-00-00.cluster.mongodb.net', + 'shard-00-01.cluster.mongodb.net', + 'shard-00-02.cluster.mongodb.net', + ]); + + server.close(); + })); +} + +// Test 3: Callback-based API should also work +{ + const server = dgram.createSocket('udp4'); + + server.on('message', common.mustCall((msg, { address, port }) => { + const parsed = dnstools.parseDNSPacket(msg); + const domain = parsed.questions[0].domain; + + server.send(dnstools.writeDNSPacket({ + id: parsed.id, + questions: parsed.questions, + answers: [{ + domain, + type: 'SRV', + name: 'service.example.com', + port: 443, + priority: 10, + weight: 5, + ttl: 120, + }], + }), port, address); + })); + + server.bind(0, common.mustCall(() => { + const { port } = server.address(); + const resolver = new dns.Resolver(); + resolver.setServers([`127.0.0.1:${port}`]); + + resolver.resolveSrv('_https._tcp.example.com', common.mustSucceed((result) => { + assert.strictEqual(result.length, 1); + assert.strictEqual(result[0].name, 'service.example.com'); + assert.strictEqual(result[0].port, 443); + assert.strictEqual(result[0].priority, 10); + assert.strictEqual(result[0].weight, 5); + server.close(); + })); + })); +} diff --git a/test/parallel/test-dns-resolvesrv.js b/test/parallel/test-dns-resolvesrv.js new file mode 100644 index 00000000000000..2cdd7b93df402d --- /dev/null +++ b/test/parallel/test-dns-resolvesrv.js @@ -0,0 +1,102 @@ +'use strict'; +// Regression test for dns.resolveSrv() functionality. +// This test ensures SRV record resolution works correctly, which is +// critical for services like MongoDB Atlas that use SRV records for +// connection discovery (mongodb+srv:// URIs). +// +// Related issue: dns.resolveSrv() returning ECONNREFUSED instead of +// properly resolving SRV records. + +const common = require('../common'); +const dnstools = require('../common/dns'); +const dns = require('dns'); +const dnsPromises = dns.promises; +const assert = require('assert'); +const dgram = require('dgram'); + +const srvRecords = [ + { + type: 'SRV', + name: 'server1.example.org', + port: 27017, + priority: 0, + weight: 5, + ttl: 300, + }, + { + type: 'SRV', + name: 'server2.example.org', + port: 27017, + priority: 0, + weight: 5, + ttl: 300, + }, + { + type: 'SRV', + name: 'server3.example.org', + port: 27017, + priority: 1, + weight: 10, + ttl: 300, + }, +]; + +const server = dgram.createSocket('udp4'); + +server.on('message', common.mustCall((msg, { address, port }) => { + const parsed = dnstools.parseDNSPacket(msg); + const domain = parsed.questions[0].domain; + assert.strictEqual(domain, '_mongodb._tcp.cluster0.example.org'); + + server.send(dnstools.writeDNSPacket({ + id: parsed.id, + questions: parsed.questions, + answers: srvRecords.map((record) => Object.assign({ domain }, record)), + }), port, address); +}, 2)); // Called twice: once for callback, once for promises + +server.bind(0, common.mustCall(async () => { + const address = server.address(); + const resolver = new dns.Resolver(); + const resolverPromises = new dnsPromises.Resolver(); + + resolver.setServers([`127.0.0.1:${address.port}`]); + resolverPromises.setServers([`127.0.0.1:${address.port}`]); + + function validateResult(result) { + assert.ok(Array.isArray(result), 'Result should be an array'); + assert.strictEqual(result.length, 3); + + for (const record of result) { + assert.strictEqual(typeof record, 'object'); + assert.strictEqual(typeof record.name, 'string'); + assert.strictEqual(typeof record.port, 'number'); + assert.strictEqual(typeof record.priority, 'number'); + assert.strictEqual(typeof record.weight, 'number'); + assert.strictEqual(record.port, 27017); + } + + // Verify we got all expected server names + const names = result.map((r) => r.name).sort(); + assert.deepStrictEqual(names, [ + 'server1.example.org', + 'server2.example.org', + 'server3.example.org', + ]); + } + + // Test promises API + const promiseResult = await resolverPromises.resolveSrv( + '_mongodb._tcp.cluster0.example.org' + ); + validateResult(promiseResult); + + // Test callback API + resolver.resolveSrv( + '_mongodb._tcp.cluster0.example.org', + common.mustSucceed((result) => { + validateResult(result); + server.close(); + }) + ); +})); diff --git a/test/parallel/test-eslint-must-call-assert.js b/test/parallel/test-eslint-must-call-assert.js index 356d168fd195d4..bc82a5f1b32490 100644 --- a/test/parallel/test-eslint-must-call-assert.js +++ b/test/parallel/test-eslint-must-call-assert.js @@ -8,7 +8,7 @@ common.skipIfEslintMissing(); const RuleTester = require('../../tools/eslint/node_modules/eslint').RuleTester; const rule = require('../../tools/eslint-rules/must-call-assert'); -const message = 'Assertions must be wrapped into `common.mustCall` or `common.mustCallAtLeast`'; +const message = 'Assertions must be wrapped into `common.mustSucceed`, `common.mustCall` or `common.mustCallAtLeast`'; const tester = new RuleTester(); tester.run('must-call-assert', rule, { @@ -18,6 +18,8 @@ tester.run('must-call-assert', rule, { 'process.once("message", common.mustCall((code) => {assert.strictEqual(code, 0)}));', 'process.once("message", common.mustCall((code) => {if(2+2 === 5) { assert.strictEqual(code, 0)} }));', 'process.once("message", common.mustCall((code) => { (() => assert.strictEqual(code, 0))(); }));', + 'someAsyncTask(common.mustSucceed((code) => { (() => assert.strictEqual(code, 0))(); }));', + 'someAsyncTask(mustSucceed((code) => { (() => assert.strictEqual(code, 0))(); }));', '(async () => {await assert.rejects(fun())})().then()', '[1, true].forEach((val) => assert.strictEqual(fun(val), 0));', 'const assert = require("node:assert")', @@ -68,11 +70,42 @@ tester.run('must-call-assert', rule, { import assert from 'node:assert'; describe("whatever", () => { - it("should not be reported", async () => { + it("should not be reported", async (t) => { assert.strictEqual(2+2, 5); + await t.test("name", () => { + assert.ok(global.test); + }); }); }); `, + ` + process.on("message", common.mustCall(() => { + Promise.all([].map(async (val) => { + val = await asyncTask(val); + assert.strictEqual(val, 3); + })).then(common.mustCall()); + })); + `, + ` + spawnSyncAndAssert( + outputFile, + { + env: { + NODE_DEBUG_NATIVE: 'SEA,MKSNAPSHOT', + ...process.env, + }, + }, + { + trim: true, + stdout: 'Hello from snapshot', + stderr(output) { + assert.doesNotMatch( + output, + /Single executable application is an experimental feature/); + }, + }, + ); + `, ], invalid: [ { diff --git a/test/parallel/test-event-emitter-modify-in-emit.js b/test/parallel/test-event-emitter-modify-in-emit.js index 995fa01d11a1a8..fecabca9def3e8 100644 --- a/test/parallel/test-event-emitter-modify-in-emit.js +++ b/test/parallel/test-event-emitter-modify-in-emit.js @@ -78,3 +78,21 @@ assert.strictEqual(e.listeners('foo').length, 2); e.emit('foo'); assert.deepStrictEqual(['callback2', 'callback3'], callbacks_called); assert.strictEqual(e.listeners('foo').length, 0); + +// Verify that removing all callbacks while in emit allows the current emit to +// propagate to all listeners. +callbacks_called = []; + +function callback4() { + callbacks_called.push('callback4'); + e.removeAllListeners('foo'); +} + +e.on('foo', callback4); +e.on('foo', callback2); +e.on('foo', callback3); +assert.strictEqual(e.listeners('foo').length, 3); +e.emit('foo'); +assert.deepStrictEqual(['callback4', 'callback2', 'callback3'], + callbacks_called); +assert.strictEqual(e.listeners('foo').length, 0); diff --git a/test/parallel/test-fs-promises.js b/test/parallel/test-fs-promises.js index d28af0f4833c49..27f66ae2050d11 100644 --- a/test/parallel/test-fs-promises.js +++ b/test/parallel/test-fs-promises.js @@ -89,6 +89,7 @@ function verifyStatFsObject(stat, isBigint = false) { assert.strictEqual(typeof stat, 'object'); assert.strictEqual(typeof stat.type, valueType); assert.strictEqual(typeof stat.bsize, valueType); + assert.strictEqual(typeof stat.frsize, valueType); assert.strictEqual(typeof stat.blocks, valueType); assert.strictEqual(typeof stat.bfree, valueType); assert.strictEqual(typeof stat.bavail, valueType); @@ -152,6 +153,12 @@ async function executeOnHandle(dest, func) { }); } + // File stats throwIfNoEntry: false + { + const stats = await stat('meow.js', { throwIfNoEntry: false }); + assert.strictEqual(stats, undefined); + } + // File system stats { const statFs = await statfs(dest); diff --git a/test/parallel/test-fs-read-position-validation.mjs b/test/parallel/test-fs-read-position-validation.mjs index 504f02c3374cd6..0c6a2bf8550d9e 100644 --- a/test/parallel/test-fs-read-position-validation.mjs +++ b/test/parallel/test-fs-read-position-validation.mjs @@ -91,3 +91,26 @@ async function testInvalid(code, position) { await testInvalid('ERR_INVALID_ARG_TYPE', badTypeValue); } } + +{ + const emptyBuffer = Buffer.alloc(0); + await new Promise((resolve, reject) => { + fs.open(filepath, 'r', common.mustSucceed((fd) => { + try { + assert.throws( + () => fs.read(fd, emptyBuffer, 0, 0, { not: 'a number' }, common.mustNotCall()), + { code: 'ERR_INVALID_ARG_TYPE' } + ); + assert.throws( + () => fs.read(fd, { buffer: emptyBuffer, offset: 0, length: 0, position: 'string' }, common.mustNotCall()), + { code: 'ERR_INVALID_ARG_TYPE' } + ); + resolve(); + } catch (err) { + reject(err); + } finally { + fs.close(fd, common.mustSucceed()); + } + })); + }); +} diff --git a/test/parallel/test-fs-read-promises-position-validation.mjs b/test/parallel/test-fs-read-promises-position-validation.mjs index 8bc238d3f269f4..6a2d957cee8706 100644 --- a/test/parallel/test-fs-read-promises-position-validation.mjs +++ b/test/parallel/test-fs-read-promises-position-validation.mjs @@ -79,6 +79,30 @@ async function testInvalid(code, position) { for (const badTypeValue of [ false, true, '1', Symbol(1), {}, [], () => {}, Promise.resolve(1), ]) { - testInvalid('ERR_INVALID_ARG_TYPE', badTypeValue); + await testInvalid('ERR_INVALID_ARG_TYPE', badTypeValue); + } +} + +{ + const emptyBuffer = Buffer.alloc(0); + let fh; + try { + fh = await fs.promises.open(filepath, 'r'); + await assert.rejects( + fh.read(emptyBuffer, 0, 0, { not: 'a number' }), + { code: 'ERR_INVALID_ARG_TYPE' } + ); + } finally { + await fh?.close(); + } + + try { + fh = await fs.promises.open(filepath, 'r'); + await assert.rejects( + fh.read({ buffer: emptyBuffer, offset: 0, length: 0, position: 'string' }), + { code: 'ERR_INVALID_ARG_TYPE' } + ); + } finally { + await fh?.close(); } } diff --git a/test/parallel/test-fs-readSync-position-validation.mjs b/test/parallel/test-fs-readSync-position-validation.mjs index 305e37778d9aac..2363c6a5ea2c63 100644 --- a/test/parallel/test-fs-readSync-position-validation.mjs +++ b/test/parallel/test-fs-readSync-position-validation.mjs @@ -77,3 +77,21 @@ function testInvalid(code, position) { testInvalid('ERR_INVALID_ARG_TYPE', badTypeValue); } } + +{ + const emptyBuffer = Buffer.alloc(0); + let fdSync; + try { + fdSync = fs.openSync(filepath, 'r'); + assert.throws( + () => fs.readSync(fdSync, emptyBuffer, 0, 0, { not: 'a number' }), + { code: 'ERR_INVALID_ARG_TYPE' } + ); + assert.throws( + () => fs.readSync(fdSync, emptyBuffer, { offset: 0, length: 0, position: 'string' }), + { code: 'ERR_INVALID_ARG_TYPE' } + ); + } finally { + if (fdSync) fs.closeSync(fdSync); + } +} diff --git a/test/parallel/test-fs-stat-abort-test.js b/test/parallel/test-fs-stat-abort-test.js new file mode 100644 index 00000000000000..2a2b35f8030d7f --- /dev/null +++ b/test/parallel/test-fs-stat-abort-test.js @@ -0,0 +1,34 @@ +'use strict'; + +require('../common'); +const test = require('node:test'); +const assert = require('node:assert'); +const fs = require('node:fs'); +const tmpdir = require('../common/tmpdir'); + +test('fs.stat should throw AbortError when called with an already aborted AbortSignal', async () => { + // This test verifies that fs.stat immediately throws an AbortError if the provided AbortSignal + // has already been canceled. This approach is used because trying to abort an fs.stat call in flight + // is unreliable given that file system operations tend to complete very quickly on many platforms. + tmpdir.refresh(); + + const filePath = tmpdir.resolve('temp.txt'); + fs.writeFileSync(filePath, 'Test'); + + // Create an already aborted AbortSignal. + const signal = AbortSignal.abort(); + + const { promise, resolve, reject } = Promise.withResolvers(); + fs.stat(filePath, { signal }, (err, stats) => { + if (err) { + return reject(err); + } + resolve(stats); + }); + + // Assert that the promise is rejected with an AbortError. + await assert.rejects(promise, { name: 'AbortError' }); + + fs.unlinkSync(filePath); + tmpdir.refresh(); +}); diff --git a/test/parallel/test-fs-stat-date.mjs b/test/parallel/test-fs-stat-date.mjs index 5f85bff2731e86..489cd4fc20fd9c 100644 --- a/test/parallel/test-fs-stat-date.mjs +++ b/test/parallel/test-fs-stat-date.mjs @@ -42,6 +42,13 @@ function closeEnough(actual, expected, margin) { `expected ${expected} ± ${margin}, got ${actual}`); } +// Ensure that accessed atime and mtime are enumerable +function validateEnumerability(stats) { + const keys = Object.keys(stats); + assert.ok(keys.includes('atime')); + assert.ok(keys.includes('mtime')); +} + async function runTest(atime, mtime, margin = 0) { margin += Number.EPSILON; try { @@ -56,24 +63,28 @@ async function runTest(atime, mtime, margin = 0) { closeEnough(stats.mtimeMs, mtime, margin); closeEnough(stats.atime.getTime(), new Date(atime).getTime(), margin); closeEnough(stats.mtime.getTime(), new Date(mtime).getTime(), margin); + validateEnumerability(stats); const statsBigint = await fsPromises.stat(filepath, { bigint: true }); closeEnough(statsBigint.atimeMs, BigInt(atime), margin); closeEnough(statsBigint.mtimeMs, BigInt(mtime), margin); closeEnough(statsBigint.atime.getTime(), new Date(atime).getTime(), margin); closeEnough(statsBigint.mtime.getTime(), new Date(mtime).getTime(), margin); + validateEnumerability(statsBigint); const statsSync = fs.statSync(filepath); closeEnough(statsSync.atimeMs, atime, margin); closeEnough(statsSync.mtimeMs, mtime, margin); closeEnough(statsSync.atime.getTime(), new Date(atime).getTime(), margin); closeEnough(statsSync.mtime.getTime(), new Date(mtime).getTime(), margin); + validateEnumerability(statsSync); const statsSyncBigint = fs.statSync(filepath, { bigint: true }); closeEnough(statsSyncBigint.atimeMs, BigInt(atime), margin); closeEnough(statsSyncBigint.mtimeMs, BigInt(mtime), margin); closeEnough(statsSyncBigint.atime.getTime(), new Date(atime).getTime(), margin); closeEnough(statsSyncBigint.mtime.getTime(), new Date(mtime).getTime(), margin); + validateEnumerability(statsSyncBigint); } // Too high/low numbers produce too different results on different platforms diff --git a/test/parallel/test-fs-stat.js b/test/parallel/test-fs-stat.js index cc7be77e53dadc..93bf6573a109a7 100644 --- a/test/parallel/test-fs-stat.js +++ b/test/parallel/test-fs-stat.js @@ -224,5 +224,9 @@ fs.lstat(__filename, undefined, common.mustCall()); { // Test that the throwIfNoEntry option works and returns undefined - assert.ok(!(fs.statSync('./wont_exists', { throwIfNoEntry: false }))); + const opts = { throwIfNoEntry: false }; + assert.ok(!(fs.statSync('./wont_exists', opts))); + fs.stat('./wont_exists', opts, common.mustSucceed((err, stats) => { + assert.strictEqual(stats, undefined); + })); } diff --git a/test/parallel/test-fs-statfs.js b/test/parallel/test-fs-statfs.js index 5fd34f215bc34a..58200e22e38b47 100644 --- a/test/parallel/test-fs-statfs.js +++ b/test/parallel/test-fs-statfs.js @@ -7,7 +7,7 @@ function verifyStatFsObject(statfs, isBigint = false) { const valueType = isBigint ? 'bigint' : 'number'; [ - 'type', 'bsize', 'blocks', 'bfree', 'bavail', 'files', 'ffree', + 'type', 'bsize', 'frsize', 'blocks', 'bfree', 'bavail', 'files', 'ffree', ].forEach((k) => { assert.ok(Object.hasOwn(statfs, k)); assert.strictEqual(typeof statfs[k], valueType, diff --git a/test/parallel/test-fs-utimes.js b/test/parallel/test-fs-utimes.js index e6ae75d4e33a5f..7de54c4f2d923e 100644 --- a/test/parallel/test-fs-utimes.js +++ b/test/parallel/test-fs-utimes.js @@ -70,6 +70,11 @@ function expect_ok(syscall, resource, err, atime, mtime, statSync) { ); } +function getExpectedMtime(mtime) { + // Negative numeric timestamps are normalized to "now" at call time. + return fs._toUnixTimestamp(mtime); +} + const stats = fs.statSync(tmpdir.path); const asPath = (path) => path; @@ -98,11 +103,13 @@ function runTests(iter) { // // test async code paths // + const expectedUtimesMtime = getExpectedMtime(mtime); fs.utimes(pathType(tmpdir.path), atime, mtime, common.mustCall((err) => { - expect_ok('utimes', tmpdir.path, err, atime, mtime); + expect_ok('utimes', tmpdir.path, err, atime, expectedUtimesMtime); + const expectedLutimesMtime = getExpectedMtime(mtime); fs.lutimes(pathType(lpath), atime, mtime, common.mustCall((err) => { - expect_ok('lutimes', lpath, err, atime, mtime, fs.lstatSync); + expect_ok('lutimes', lpath, err, atime, expectedLutimesMtime, fs.lstatSync); fs.utimes(pathType('foobarbaz'), atime, mtime, common.mustCall((err) => { expect_errno('utimes', 'foobarbaz', err, 'ENOENT'); @@ -114,8 +121,9 @@ function runTests(iter) { fd = fs.openSync(tmpdir.path, 'r'); } + const expectedFutimesMtime = getExpectedMtime(mtime); fs.futimes(fd, atime, mtime, common.mustCall((err) => { - expect_ok('futimes', fd, err, atime, mtime); + expect_ok('futimes', fd, err, atime, expectedFutimesMtime); syncTests(); @@ -129,17 +137,20 @@ function runTests(iter) { // test synchronized code paths, these functions throw on failure // function syncTests() { + const expectedUtimesMtime = getExpectedMtime(mtime); fs.utimesSync(pathType(tmpdir.path), atime, mtime); - expect_ok('utimesSync', tmpdir.path, undefined, atime, mtime); + expect_ok('utimesSync', tmpdir.path, undefined, atime, expectedUtimesMtime); + const expectedLutimesMtime = getExpectedMtime(mtime); fs.lutimesSync(pathType(lpath), atime, mtime); - expect_ok('lutimesSync', lpath, undefined, atime, mtime, fs.lstatSync); + expect_ok('lutimesSync', lpath, undefined, atime, expectedLutimesMtime, fs.lstatSync); // Some systems don't have futimes // if there's an error, it should be ENOSYS try { + const expectedFutimesMtime = getExpectedMtime(mtime); fs.futimesSync(fd, atime, mtime); - expect_ok('futimesSync', fd, undefined, atime, mtime); + expect_ok('futimesSync', fd, undefined, atime, expectedFutimesMtime); } catch (ex) { expect_errno('futimesSync', fd, ex, 'ENOSYS'); } diff --git a/test/parallel/test-fs-watch-ignore-promise.js b/test/parallel/test-fs-watch-ignore-promise.js new file mode 100644 index 00000000000000..8229a19e61a8e9 --- /dev/null +++ b/test/parallel/test-fs-watch-ignore-promise.js @@ -0,0 +1,219 @@ +'use strict'; + +const common = require('../common'); + +if (common.isIBMi) + common.skip('IBMi does not support `fs.watch()`'); + +if (common.isAIX) + common.skip('folder watch capability is limited in AIX.'); + +if (common.isSunOS) + common.skip('fs.watch is not reliable on SunOS.'); + +const assert = require('assert'); +const path = require('path'); +const fs = require('fs/promises'); +const fsSync = require('fs'); + +const tmpdir = require('../common/tmpdir'); +const testDir = tmpdir.path; +tmpdir.refresh(); + +// Test 1: String glob pattern ignore with Promise API +(async function testGlobIgnore() { + const testsubdir = await fs.mkdtemp(testDir + path.sep); + const keepFile = 'keep.txt'; + const ignoreFile = 'ignore.log'; + const keepFilePath = path.join(testsubdir, keepFile); + const ignoreFilePath = path.join(testsubdir, ignoreFile); + + const watcher = fs.watch(testsubdir, { ignore: '*.log' }); + + let seenIgnored = false; + let interval; + + process.on('exit', () => { + assert.ok(interval === null); + assert.strictEqual(seenIgnored, false); + }); + + process.nextTick(common.mustCall(() => { + interval = setInterval(() => { + fsSync.writeFileSync(ignoreFilePath, 'ignored'); + fsSync.writeFileSync(keepFilePath, 'content-' + Date.now()); + }, 100); + })); + + for await (const { filename } of watcher) { + if (filename === ignoreFile) { + seenIgnored = true; + } + if (filename === keepFile) { + break; + } + } + + clearInterval(interval); + interval = null; +})().then(common.mustCall()); + +// Test 2: RegExp ignore pattern with Promise API +(async function testRegExpIgnore() { + const testsubdir = await fs.mkdtemp(testDir + path.sep); + const keepFile = 'keep.txt'; + const ignoreFile = 'ignore.tmp'; + const keepFilePath = path.join(testsubdir, keepFile); + const ignoreFilePath = path.join(testsubdir, ignoreFile); + + const watcher = fs.watch(testsubdir, { ignore: /\.tmp$/ }); + + let seenIgnored = false; + let interval; + + process.on('exit', () => { + assert.ok(interval === null); + assert.strictEqual(seenIgnored, false); + }); + + process.nextTick(common.mustCall(() => { + interval = setInterval(() => { + fsSync.writeFileSync(ignoreFilePath, 'ignored'); + fsSync.writeFileSync(keepFilePath, 'content-' + Date.now()); + }, 100); + })); + + for await (const { filename } of watcher) { + if (filename === ignoreFile) { + seenIgnored = true; + } + if (filename === keepFile) { + break; + } + } + + clearInterval(interval); + interval = null; +})().then(common.mustCall()); + +// Test 3: Function ignore pattern with Promise API +(async function testFunctionIgnore() { + const testsubdir = await fs.mkdtemp(testDir + path.sep); + const keepFile = 'visible.txt'; + const ignoreFile = '.hidden'; + const keepFilePath = path.join(testsubdir, keepFile); + const ignoreFilePath = path.join(testsubdir, ignoreFile); + + const watcher = fs.watch(testsubdir, { + ignore: (filename) => filename.startsWith('.'), + }); + + let seenIgnored = false; + let interval; + + process.on('exit', () => { + assert.ok(interval === null); + assert.strictEqual(seenIgnored, false); + }); + + process.nextTick(common.mustCall(() => { + interval = setInterval(() => { + fsSync.writeFileSync(ignoreFilePath, 'ignored'); + fsSync.writeFileSync(keepFilePath, 'content-' + Date.now()); + }, 100); + })); + + for await (const { filename } of watcher) { + if (filename === ignoreFile) { + seenIgnored = true; + } + if (filename === keepFile) { + break; + } + } + + clearInterval(interval); + interval = null; +})().then(common.mustCall()); + +// Test 4: Array of mixed patterns with Promise API +(async function testArrayIgnore() { + const testsubdir = await fs.mkdtemp(testDir + path.sep); + const keepFile = 'keep.txt'; + const ignoreLog = 'debug.log'; + const ignoreTmp = 'temp.tmp'; + const keepFilePath = path.join(testsubdir, keepFile); + const ignoreLogPath = path.join(testsubdir, ignoreLog); + const ignoreTmpPath = path.join(testsubdir, ignoreTmp); + + const watcher = fs.watch(testsubdir, { + ignore: [ + '*.log', + /\.tmp$/, + ], + }); + + let seenLog = false; + let seenTmp = false; + let interval; + + process.on('exit', () => { + assert.ok(interval === null); + assert.strictEqual(seenLog, false); + assert.strictEqual(seenTmp, false); + }); + + process.nextTick(common.mustCall(() => { + interval = setInterval(() => { + fsSync.writeFileSync(ignoreLogPath, 'ignored'); + fsSync.writeFileSync(ignoreTmpPath, 'ignored'); + fsSync.writeFileSync(keepFilePath, 'content-' + Date.now()); + }, 100); + })); + + for await (const { filename } of watcher) { + if (filename === ignoreLog) seenLog = true; + if (filename === ignoreTmp) seenTmp = true; + if (filename === keepFile) { + break; + } + } + + clearInterval(interval); + interval = null; +})().then(common.mustCall()); + +// Test 5: Invalid option validation with Promise API +// Note: async generators don't execute until iteration starts, +// so we need to use assert.rejects with iteration +(async function testInvalidIgnore() { + const testsubdir = await fs.mkdtemp(testDir + path.sep); + + await assert.rejects( + async () => { + const watcher = fs.watch(testsubdir, { ignore: 123 }); + // eslint-disable-next-line no-unused-vars + for await (const _ of watcher) { + // Will throw before yielding + } + }, + { + code: 'ERR_INVALID_ARG_TYPE', + name: 'TypeError', + } + ); + + await assert.rejects( + async () => { + const watcher = fs.watch(testsubdir, { ignore: '' }); + // eslint-disable-next-line no-unused-vars + for await (const _ of watcher) { + // Will throw before yielding + } + }, + { + code: 'ERR_INVALID_ARG_VALUE', + name: 'TypeError', + } + ); +})().then(common.mustCall()); diff --git a/test/parallel/test-fs-watch-ignore-recursive.js b/test/parallel/test-fs-watch-ignore-recursive.js new file mode 100644 index 00000000000000..f4533a73ab0a99 --- /dev/null +++ b/test/parallel/test-fs-watch-ignore-recursive.js @@ -0,0 +1,234 @@ +'use strict'; + +const common = require('../common'); + +if (common.isIBMi) + common.skip('IBMi does not support `fs.watch()`'); + +if (common.isAIX) + common.skip('folder watch capability is limited in AIX.'); + +if (common.isSunOS) + common.skip('fs.watch is not reliable on SunOS.'); + +const assert = require('assert'); +const path = require('path'); +const fs = require('fs'); + +const tmpdir = require('../common/tmpdir'); +const testDir = tmpdir.path; +tmpdir.refresh(); + +// Test 1: String glob pattern ignore with recursive watch +{ + const rootDirectory = fs.mkdtempSync(testDir + path.sep); + const testDirectory = path.join(rootDirectory, 'test-recursive-glob'); + const subDirectory = path.join(testDirectory, 'subdir'); + fs.mkdirSync(testDirectory); + fs.mkdirSync(subDirectory); + + const testFile = path.join(subDirectory, 'file.txt'); + const ignoredFile = path.join(subDirectory, 'file.log'); + + const watcher = fs.watch(testDirectory, { + recursive: true, + ignore: '*.log', + }); + + let seenFile = false; + let seenIgnored = false; + let interval; + + watcher.on('change', common.mustCallAtLeast((event, filename) => { + // On recursive watch, filename includes relative path from watched dir + if (filename && filename.endsWith('file.txt')) { + seenFile = true; + } + if (filename && filename.endsWith('file.log')) { + seenIgnored = true; + } + if (seenFile) { + clearInterval(interval); + interval = null; + watcher.close(); + } + }, 1)); + + // Use setInterval to handle potential event delays on macOS FSEvents + process.nextTick(common.mustCall(() => { + interval = setInterval(() => { + fs.writeFileSync(ignoredFile, 'ignored'); + fs.writeFileSync(testFile, 'content-' + Date.now()); + }, 100); + })); + + process.on('exit', () => { + assert.strictEqual(interval, null); + assert.strictEqual(seenFile, true); + assert.strictEqual(seenIgnored, false); + }); +} + +// Test 2: RegExp ignore pattern with recursive watch +{ + const rootDirectory = fs.mkdtempSync(testDir + path.sep); + const testDirectory = path.join(rootDirectory, 'test-recursive-regexp'); + const subDirectory = path.join(testDirectory, 'nested'); + fs.mkdirSync(testDirectory); + fs.mkdirSync(subDirectory); + + const testFile = path.join(subDirectory, 'keep.txt'); + const ignoredFile = path.join(subDirectory, 'temp.tmp'); + + const watcher = fs.watch(testDirectory, { + recursive: true, + ignore: /\.tmp$/, + }); + + let seenFile = false; + let seenIgnored = false; + let interval; + + watcher.on('change', common.mustCallAtLeast((event, filename) => { + if (filename && filename.endsWith('keep.txt')) { + seenFile = true; + } + if (filename && filename.endsWith('temp.tmp')) { + seenIgnored = true; + } + if (seenFile) { + clearInterval(interval); + interval = null; + watcher.close(); + } + }, 1)); + + // Use setInterval to handle potential event delays on macOS FSEvents + process.nextTick(common.mustCall(() => { + interval = setInterval(() => { + fs.writeFileSync(ignoredFile, 'ignored'); + fs.writeFileSync(testFile, 'content-' + Date.now()); + }, 100); + })); + + process.on('exit', () => { + assert.strictEqual(interval, null); + assert.strictEqual(seenFile, true); + assert.strictEqual(seenIgnored, false); + }); +} + +// Test 3: Glob pattern with ** to match paths in subdirectories +{ + const rootDirectory = fs.mkdtempSync(testDir + path.sep); + const testDirectory = path.join(rootDirectory, 'test-recursive-globstar'); + const nodeModules = path.join(testDirectory, 'node_modules'); + const srcDir = path.join(testDirectory, 'src'); + fs.mkdirSync(testDirectory); + fs.mkdirSync(nodeModules); + fs.mkdirSync(srcDir); + + const testFile = path.join(srcDir, 'app.js'); + const ignoredFile = path.join(nodeModules, 'package.json'); + + const watcher = fs.watch(testDirectory, { + recursive: true, + // On Linux, matching the directory skips watching it entirely. + // On macOS, the native watcher still needs to filter file events inside. + ignore: ['**/node_modules/**', '**/node_modules'], + }); + + let seenFile = false; + let seenIgnored = false; + let interval; + + watcher.on('change', common.mustCallAtLeast((event, filename) => { + if (filename && filename.endsWith('app.js')) { + seenFile = true; + } + if (filename && filename.includes('node_modules')) { + seenIgnored = true; + } + if (seenFile) { + clearInterval(interval); + interval = null; + watcher.close(); + } + }, 1)); + + // Use setInterval to handle potential event delays on macOS FSEvents + process.nextTick(common.mustCall(() => { + interval = setInterval(() => { + fs.writeFileSync(ignoredFile, '{}'); + fs.writeFileSync(testFile, 'console.log("hello-' + Date.now() + '")'); + }, 100); + })); + + process.on('exit', () => { + assert.strictEqual(interval, null); + assert.strictEqual(seenFile, true); + assert.strictEqual(seenIgnored, false); + }); +} + +// Test 4: Array of mixed patterns with recursive watch +{ + const rootDirectory = fs.mkdtempSync(testDir + path.sep); + const testDirectory = path.join(rootDirectory, 'test-recursive-array'); + const subDirectory = path.join(testDirectory, 'deep'); + fs.mkdirSync(testDirectory); + fs.mkdirSync(subDirectory); + + const testFile = path.join(subDirectory, 'visible.txt'); + const ignoredLog = path.join(subDirectory, 'debug.log'); + const ignoredTmp = path.join(subDirectory, 'temp.tmp'); + const ignoredHidden = path.join(subDirectory, '.gitignore'); + + const watcher = fs.watch(testDirectory, { + recursive: true, + ignore: [ + '*.log', + /\.tmp$/, + (filename) => path.basename(filename).startsWith('.'), + ], + }); + + let seenFile = false; + let seenLog = false; + let seenTmp = false; + let seenHidden = false; + let interval; + + watcher.on('change', common.mustCallAtLeast((event, filename) => { + if (filename && filename.endsWith('visible.txt')) { + seenFile = true; + } + if (filename && filename.endsWith('debug.log')) seenLog = true; + if (filename && filename.endsWith('temp.tmp')) seenTmp = true; + if (filename && filename.endsWith('.gitignore')) seenHidden = true; + + if (seenFile) { + clearInterval(interval); + interval = null; + watcher.close(); + } + }, 1)); + + // Use setInterval to handle potential event delays on macOS FSEvents + process.nextTick(common.mustCall(() => { + interval = setInterval(() => { + fs.writeFileSync(ignoredLog, 'ignored'); + fs.writeFileSync(ignoredTmp, 'ignored'); + fs.writeFileSync(ignoredHidden, 'ignored'); + fs.writeFileSync(testFile, 'content-' + Date.now()); + }, 100); + })); + + process.on('exit', () => { + assert.strictEqual(interval, null); + assert.strictEqual(seenFile, true); + assert.strictEqual(seenLog, false); + assert.strictEqual(seenTmp, false); + assert.strictEqual(seenHidden, false); + }); +} diff --git a/test/parallel/test-fs-watch-ignore.js b/test/parallel/test-fs-watch-ignore.js new file mode 100644 index 00000000000000..bedab156706df9 --- /dev/null +++ b/test/parallel/test-fs-watch-ignore.js @@ -0,0 +1,248 @@ +'use strict'; + +const common = require('../common'); + +if (common.isIBMi) + common.skip('IBMi does not support `fs.watch()`'); + +if (common.isAIX) + common.skip('folder watch capability is limited in AIX.'); + +if (common.isSunOS) + common.skip('fs.watch is not reliable on SunOS.'); + +const assert = require('assert'); +const path = require('path'); +const fs = require('fs'); + +const tmpdir = require('../common/tmpdir'); +const testDir = tmpdir.path; +tmpdir.refresh(); + +// Test 1: String glob pattern ignore +{ + const rootDirectory = fs.mkdtempSync(testDir + path.sep); + const testDirectory = path.join(rootDirectory, 'test-glob'); + fs.mkdirSync(testDirectory); + + const testFile = path.join(testDirectory, 'file.txt'); + const ignoredFile = path.join(testDirectory, 'file.log'); + + const watcher = fs.watch(testDirectory, { + ignore: '*.log', + }); + + let seenFile = false; + let seenIgnored = false; + let interval; + + watcher.on('change', common.mustCallAtLeast((event, filename) => { + if (filename === 'file.txt') { + seenFile = true; + } + if (filename === 'file.log') { + seenIgnored = true; + } + if (seenFile) { + clearInterval(interval); + interval = null; + watcher.close(); + } + }, 1)); + + process.nextTick(common.mustCall(() => { + interval = setInterval(() => { + fs.writeFileSync(ignoredFile, 'ignored'); + fs.writeFileSync(testFile, 'content-' + Date.now()); + }, 100); + })); + + process.on('exit', () => { + assert.strictEqual(interval, null); + assert.strictEqual(seenFile, true); + assert.strictEqual(seenIgnored, false); + }); +} + +// Test 2: RegExp ignore pattern +{ + const rootDirectory = fs.mkdtempSync(testDir + path.sep); + const testDirectory = path.join(rootDirectory, 'test-regexp'); + fs.mkdirSync(testDirectory); + + const testFile = path.join(testDirectory, 'keep.txt'); + const ignoredFile = path.join(testDirectory, 'ignore.tmp'); + + const watcher = fs.watch(testDirectory, { + ignore: /\.tmp$/, + }); + + let seenFile = false; + let seenIgnored = false; + let interval; + + watcher.on('change', common.mustCallAtLeast((event, filename) => { + if (filename === 'keep.txt') { + seenFile = true; + } + if (filename === 'ignore.tmp') { + seenIgnored = true; + } + if (seenFile) { + clearInterval(interval); + interval = null; + watcher.close(); + } + }, 1)); + + process.nextTick(common.mustCall(() => { + interval = setInterval(() => { + fs.writeFileSync(ignoredFile, 'ignored'); + fs.writeFileSync(testFile, 'content-' + Date.now()); + }, 100); + })); + + process.on('exit', () => { + assert.strictEqual(interval, null); + assert.strictEqual(seenFile, true); + assert.strictEqual(seenIgnored, false); + }); +} + +// Test 3: Function ignore pattern +{ + const rootDirectory = fs.mkdtempSync(testDir + path.sep); + const testDirectory = path.join(rootDirectory, 'test-function'); + fs.mkdirSync(testDirectory); + + const testFile = path.join(testDirectory, 'visible.txt'); + const ignoredFile = path.join(testDirectory, '.hidden'); + + const watcher = fs.watch(testDirectory, { + ignore: (filename) => filename.startsWith('.'), + }); + + let seenFile = false; + let seenIgnored = false; + let interval; + + watcher.on('change', common.mustCallAtLeast((event, filename) => { + if (filename === 'visible.txt') { + seenFile = true; + } + if (filename === '.hidden') { + seenIgnored = true; + } + if (seenFile) { + clearInterval(interval); + interval = null; + watcher.close(); + } + }, 1)); + + process.nextTick(common.mustCall(() => { + interval = setInterval(() => { + fs.writeFileSync(ignoredFile, 'ignored'); + fs.writeFileSync(testFile, 'content-' + Date.now()); + }, 100); + })); + + process.on('exit', () => { + assert.strictEqual(interval, null); + assert.strictEqual(seenFile, true); + assert.strictEqual(seenIgnored, false); + }); +} + +// Test 4: Array of mixed patterns +{ + const rootDirectory = fs.mkdtempSync(testDir + path.sep); + const testDirectory = path.join(rootDirectory, 'test-array'); + fs.mkdirSync(testDirectory); + + const testFile = path.join(testDirectory, 'keep.txt'); + const ignoredLog = path.join(testDirectory, 'debug.log'); + const ignoredTmp = path.join(testDirectory, 'temp.tmp'); + const ignoredHidden = path.join(testDirectory, '.secret'); + + const watcher = fs.watch(testDirectory, { + ignore: [ + '*.log', + /\.tmp$/, + (filename) => filename.startsWith('.'), + ], + }); + + let seenFile = false; + let seenLog = false; + let seenTmp = false; + let seenHidden = false; + let interval; + + watcher.on('change', common.mustCallAtLeast((event, filename) => { + if (filename === 'keep.txt') { + seenFile = true; + } + if (filename === 'debug.log') seenLog = true; + if (filename === 'temp.tmp') seenTmp = true; + if (filename === '.secret') seenHidden = true; + + if (seenFile) { + clearInterval(interval); + interval = null; + watcher.close(); + } + }, 1)); + + process.nextTick(common.mustCall(() => { + interval = setInterval(() => { + fs.writeFileSync(ignoredLog, 'ignored'); + fs.writeFileSync(ignoredTmp, 'ignored'); + fs.writeFileSync(ignoredHidden, 'ignored'); + fs.writeFileSync(testFile, 'content-' + Date.now()); + }, 100); + })); + + process.on('exit', () => { + assert.strictEqual(interval, null); + assert.strictEqual(seenFile, true); + assert.strictEqual(seenLog, false); + assert.strictEqual(seenTmp, false); + assert.strictEqual(seenHidden, false); + }); +} + +// Test 5: Invalid option validation +{ + assert.throws( + () => fs.watch('.', { ignore: 123 }), + { + code: 'ERR_INVALID_ARG_TYPE', + name: 'TypeError', + } + ); + + assert.throws( + () => fs.watch('.', { ignore: '' }), + { + code: 'ERR_INVALID_ARG_VALUE', + name: 'TypeError', + } + ); + + assert.throws( + () => fs.watch('.', { ignore: [123] }), + { + code: 'ERR_INVALID_ARG_TYPE', + name: 'TypeError', + } + ); + + assert.throws( + () => fs.watch('.', { ignore: [''] }), + { + code: 'ERR_INVALID_ARG_VALUE', + name: 'TypeError', + } + ); +} diff --git a/test/parallel/test-http-client-path-toctou.js b/test/parallel/test-http-client-path-toctou.js new file mode 100644 index 00000000000000..2975ba363d2614 --- /dev/null +++ b/test/parallel/test-http-client-path-toctou.js @@ -0,0 +1,68 @@ +'use strict'; +require('../common'); +const assert = require('assert'); +const http = require('http'); + +// Test that mutating req.path after construction to include +// invalid characters (e.g. CRLF) throws ERR_UNESCAPED_CHARACTERS. +// Regression test for a TOCTOU vulnerability where path was only +// validated at construction time but could be mutated before +// _implicitHeader() flushed it to the socket. + +// Use a createConnection that returns nothing to avoid actual connection. +const req = new http.ClientRequest({ + host: '127.0.0.1', + port: 1, + path: '/valid', + method: 'GET', + createConnection: () => {}, +}); + +// Attempting to set path with CRLF must throw +assert.throws( + () => { req.path = '/evil\r\nX-Injected: true\r\n\r\n'; }, + { + code: 'ERR_UNESCAPED_CHARACTERS', + name: 'TypeError', + message: 'Request path contains unescaped characters', + } +); + +// Path must be unchanged after failed mutation +assert.strictEqual(req.path, '/valid'); + +// Attempting to set path with lone CR must throw +assert.throws( + () => { req.path = '/evil\rpath'; }, + { + code: 'ERR_UNESCAPED_CHARACTERS', + name: 'TypeError', + } +); + +// Attempting to set path with lone LF must throw +assert.throws( + () => { req.path = '/evil\npath'; }, + { + code: 'ERR_UNESCAPED_CHARACTERS', + name: 'TypeError', + } +); + +// Attempting to set path with null byte must throw +assert.throws( + () => { req.path = '/evil\0path'; }, + { + code: 'ERR_UNESCAPED_CHARACTERS', + name: 'TypeError', + } +); + +// Valid path mutation should succeed +req.path = '/also-valid'; +assert.strictEqual(req.path, '/also-valid'); + +req.path = '/path?query=1&other=2'; +assert.strictEqual(req.path, '/path?query=1&other=2'); + +req.destroy(); diff --git a/test/parallel/test-http-client-request-listeners-leak.js b/test/parallel/test-http-client-request-listeners-leak.js new file mode 100644 index 00000000000000..789ef6ca7e8011 --- /dev/null +++ b/test/parallel/test-http-client-request-listeners-leak.js @@ -0,0 +1,50 @@ +'use strict'; +const common = require('../common'); +const assert = require('assert'); +const http = require('http'); +const { defaultMaxListeners } = require('events'); + +// Immediately destroying an HTTP request must not leak listeners on the +// freed socket. When sockets are reused via a keep-alive agent leaked +// listeners would accumulate to trigger a MaxListenersExceededWarning. + +// Check we don't get a MaxListenersExceededWarning: +process.on('warning', common.mustNotCall('Unexpected warning emitted')); + +const server = http.createServer(common.mustNotCall()); + +server.listen(0, common.mustCall(() => { + const agent = new http.Agent({ keepAlive: true }); + const port = server.address().port; + + // Count actual socket creations to confirm reuse: + let createSocketCount = 0; + const origCreateSocket = agent.createSocket.bind(agent); + agent.createSocket = function(...args) { + createSocketCount++; + return origCreateSocket(...args); + }; + + function executeHttpGet() { + return new Promise((resolve) => { + const req = http.get({ host: '127.0.0.1', port, agent }); + req.on('error', resolve); + req.on('close', resolve); + req.on('response', common.mustNotCall()); + req.destroy(); + }); + } + + async function main() { + for (let i = 0; i < defaultMaxListeners + 1; i++) { + await executeHttpGet(); + } + + assert.strictEqual(createSocketCount, 1); + + server.close(); + agent.destroy(); + } + + main().then(common.mustCall()); +})); diff --git a/test/parallel/test-http-early-hints-invalid-argument.js b/test/parallel/test-http-early-hints-invalid-argument.js index f776bcafa40ed3..edf613614bc721 100644 --- a/test/parallel/test-http-early-hints-invalid-argument.js +++ b/test/parallel/test-http-early-hints-invalid-argument.js @@ -47,3 +47,44 @@ const testResBody = 'response content\n'; req.on('information', common.mustNotCall()); })); } + +{ + const server = http.createServer(common.mustCall((req, res) => { + debug('Server sending early hints with CRLF injection...'); + + assert.throws(() => { + res.writeEarlyHints({ + 'link': '; rel=preload; as=style', + 'X-Custom': 'valid\r\nSet-Cookie: session=evil', + }); + }, (err) => err.code === 'ERR_INVALID_CHAR'); + + assert.throws(() => { + res.writeEarlyHints({ + 'link': '; rel=preload; as=style', + 'X-Custom\r\nSet-Cookie: session=evil': 'value', + }); + }, (err) => err.code === 'ERR_INVALID_HTTP_TOKEN'); + + assert.throws(() => { + res.writeEarlyHints({ + link: '; rel=preload; as=style', + }); + }, (err) => err.code === 'ERR_INVALID_ARG_VALUE'); + + debug('Server sending full response...'); + res.end(testResBody); + server.close(); + })); + + server.listen(0, common.mustCall(() => { + const req = http.request({ + port: server.address().port, path: '/' + }); + + req.end(); + debug('Client sending request...'); + + req.on('information', common.mustNotCall()); + })); +} diff --git a/test/parallel/test-http-information-headers.js b/test/parallel/test-http-information-headers.js index fc860b321f03e9..73175f1293cd02 100644 --- a/test/parallel/test-http-information-headers.js +++ b/test/parallel/test-http-information-headers.js @@ -9,11 +9,7 @@ const countdown = new Countdown(2, () => server.close()); const server = http.createServer((req, res) => { console.error('Server sending informational message #1...'); - // These function calls may rewritten as necessary - // to call res.writeHead instead - res._writeRaw('HTTP/1.1 102 Processing\r\n'); - res._writeRaw('Foo: Bar\r\n'); - res._writeRaw('\r\n', common.mustCall()); + res.writeInformation(102, { Foo: 'Bar' }, common.mustCall()); console.error('Server sending full response...'); res.writeHead(200, { 'Content-Type': 'text/plain', diff --git a/test/parallel/test-http-outgoing-destroyed.js b/test/parallel/test-http-outgoing-destroyed.js index 4f8fd47eaa8222..e5fe5bb85b0172 100644 --- a/test/parallel/test-http-outgoing-destroyed.js +++ b/test/parallel/test-http-outgoing-destroyed.js @@ -2,6 +2,32 @@ const common = require('../common'); const http = require('http'); const assert = require('assert'); +const { OutgoingMessage } = require('http'); + +// OutgoingMessage.destroy() with no socket should emit 'close' and set closed. +{ + const msg = new OutgoingMessage(); + assert.strictEqual(msg.destroyed, false); + assert.strictEqual(msg.closed, false); + msg.on('close', common.mustCall(() => { + assert.strictEqual(msg.destroyed, true); + assert.strictEqual(msg.closed, true); + })); + msg.destroy(); + assert.strictEqual(msg.destroyed, true); +} + +// OutgoingMessage.destroy(err) with no socket should set errored and emit 'close'. +{ + const msg = new OutgoingMessage(); + const err = new Error('test destroy'); + msg.on('close', common.mustCall(() => { + assert.strictEqual(msg.closed, true); + assert.strictEqual(msg.errored, err); + })); + msg.destroy(err); + assert.strictEqual(msg.errored, err); +} { const server = http.createServer(common.mustCall((req, res) => { diff --git a/test/parallel/test-http-outgoing-drain-writable-length.js b/test/parallel/test-http-outgoing-drain-writable-length.js new file mode 100644 index 00000000000000..39bb0a9447676d --- /dev/null +++ b/test/parallel/test-http-outgoing-drain-writable-length.js @@ -0,0 +1,58 @@ +'use strict'; +// Regression test: when a pipelined ServerResponse (whose writes were +// buffered in outputData while the socket belonged to a previous response) +// is finally assigned its socket and flushed, 'drain' must not be emitted +// until the socket's own buffer has actually drained. Previously, +// socketOnDrain was called synchronously from _flushOutput via _onPendingData +// and emitted 'drain' even though the bytes we just wrote were still sitting +// in the socket's writable buffer, so res.writableLength was non-zero. + +const common = require('../common'); +const http = require('http'); +const net = require('net'); +const assert = require('assert'); + +let step = 0; + +const server = http.createServer(common.mustCall((req, res) => { + step++; + + if (step === 1) { + // Keep the first response open briefly so the second is queued with + // res.socket === null. + res.writeHead(200, { 'Content-Type': 'text/plain' }); + setTimeout(() => res.end('ok'), 50); + return; + } + + // Second (pipelined) response - queued in state.outgoing, no socket yet. + assert.strictEqual(res.socket, null); + + res.writeHead(200, { 'Content-Type': 'text/plain' }); + + // Write past the response's highWaterMark so res.write() returns false + // and kNeedDrain is set. Data is buffered in outputData. + const chunk = Buffer.alloc(16 * 1024, 'x'); + while (res.write(chunk)); + assert.strictEqual(res.writableNeedDrain, true); + + res.on('drain', common.mustCall(() => { + assert.strictEqual( + res.writableLength, 0, + `'drain' fired with writableLength=${res.writableLength}`, + ); + res.end(); + server.close(); + })); +}, 2)); + +server.listen(0, common.mustCall(function() { + const port = this.address().port; + const client = net.connect(port); + client.write( + `GET /1 HTTP/1.1\r\nHost: localhost:${port}\r\n\r\n` + + `GET /2 HTTP/1.1\r\nHost: localhost:${port}\r\n\r\n`, + ); + client.resume(); + client.on('error', () => {}); +})); diff --git a/test/parallel/test-http-parser-freed-during-execute.js b/test/parallel/test-http-parser-freed-during-execute.js new file mode 100644 index 00000000000000..c7605b75d95aa5 --- /dev/null +++ b/test/parallel/test-http-parser-freed-during-execute.js @@ -0,0 +1,23 @@ +'use strict'; + +const common = require('../common'); +const { createServer } = require('http'); +const { connect } = require('net'); + +// Regression test: ensure llhttp_execute() is aborted when freeParser() is +// called synchronously during parsing of pipelined requests. +const server = createServer(common.mustCall((req, res) => { + req.socket.emit('close'); + res.end(); +}, 1)); + +server.unref(); + +server.listen(0, common.mustCall(() => { + // Two pipelined requests in one write, processed by a single llhttp_execute(). + const client = connect(server.address().port); + client.end( + 'GET / HTTP/1.1\r\nHost: localhost\r\nConnection: keep-alive\r\n\r\n' + + 'GET / HTTP/1.1\r\nHost: localhost\r\nConnection: close\r\n\r\n', + ); +})); diff --git a/test/parallel/test-http-pipeline-outgoing-destroy.js b/test/parallel/test-http-pipeline-outgoing-destroy.js new file mode 100644 index 00000000000000..4cb4e8030376bf --- /dev/null +++ b/test/parallel/test-http-pipeline-outgoing-destroy.js @@ -0,0 +1,50 @@ +'use strict'; +// Test that queued (pipelined) outgoing responses are destroyed when the +// socket closes before the first response has finished. Previously, +// socketOnClose only aborted state.incoming (pending requests) but left +// state.outgoing responses with socket=null alive forever. + +const common = require('../common'); +const http = require('http'); +const net = require('net'); +const assert = require('assert'); + +let requestCount = 0; + +const server = http.createServer(common.mustCall((req, res) => { + requestCount++; + + if (requestCount === 1) { + // Keep the first response open so the second response is queued in + // state.outgoing with socket === null. + res.writeHead(200); + res.write('start'); + // Intentionally do not call res.end(). + } else { + // The second response should be queued — no socket assigned yet. + assert.strictEqual(res.socket, null); + assert.strictEqual(res.destroyed, false); + assert.strictEqual(res.closed, false); + + res.on('close', common.mustCall(() => { + assert.strictEqual(res.destroyed, true); + assert.strictEqual(res.closed, true); + server.close(); + })); + + // Simulate client dying while first response is still in flight. + req.socket.destroy(); + } +}, 2)); + +server.listen(0, common.mustCall(function() { + const port = this.address().port; + const client = net.connect(port); + + // Send two pipelined HTTP/1.1 requests at once. + client.write( + `GET /1 HTTP/1.1\r\nHost: localhost:${port}\r\n\r\n` + + `GET /2 HTTP/1.1\r\nHost: localhost:${port}\r\n\r\n`, + ); + client.resume(); +})); diff --git a/test/parallel/test-http-request-lookup-error-catchable.js b/test/parallel/test-http-request-lookup-error-catchable.js new file mode 100644 index 00000000000000..242f6ad45a553f --- /dev/null +++ b/test/parallel/test-http-request-lookup-error-catchable.js @@ -0,0 +1,47 @@ +'use strict'; +const common = require('../common'); +const http = require('http'); +const net = require('net'); + +// This test verifies that errors occurring synchronously during connection +// when using http.request with a custom lookup function and blockList +// can be caught by the error handler. +// Regression test for https://github.com/nodejs/node/issues/48771 + +// The issue occurs when: +// 1. http.request() is called with a custom synchronous lookup function +// 2. The lookup returns an IP that triggers a synchronous error (e.g., blockList) +// 3. The error is emitted before http's error handler is set up (via nextTick) +// +// The fix attaches socketErrorListener synchronously in onSocket so that +// socket errors are forwarded to the request before onSocketNT runs. + +const blockList = new net.BlockList(); +blockList.addAddress(common.localhostIPv4); + +// Synchronous lookup that returns the blocked IP +const lookup = (_hostname, _options, callback) => { + callback(null, common.localhostIPv4, 4); +}; + +const req = http.request({ + host: 'example.com', + port: 80, + lookup, + family: 4, // Force IPv4 to use simple lookup path + createConnection: (opts) => { + // Pass blockList to trigger synchronous ERR_IP_BLOCKED error + return net.createConnection({ ...opts, blockList }); + }, +}, common.mustNotCall()); + +// This error handler must be called. +// Without the fix, the error would be emitted before http.request() +// returns, causing an unhandled 'error' event. +req.on('error', common.mustCall((err) => { + if (err.code !== 'ERR_IP_BLOCKED') { + throw new Error(`Expected ERR_IP_BLOCKED but got ${err.code}`); + } +})); + +req.end(); diff --git a/test/parallel/test-http-request-signal.js b/test/parallel/test-http-request-signal.js new file mode 100644 index 00000000000000..b7c9fdc79e8365 --- /dev/null +++ b/test/parallel/test-http-request-signal.js @@ -0,0 +1,85 @@ +'use strict'; + +const common = require('../common'); +const assert = require('assert'); +const http = require('http'); + +// Test 1: req.signal is an AbortSignal and aborts on 'close' +{ + const server = http.createServer(common.mustCall((req, res) => { + assert.ok(req.signal instanceof AbortSignal); + assert.strictEqual(req.signal.aborted, false); + req.signal.onabort = common.mustCall(() => { + assert.strictEqual(req.signal.aborted, true); + }); + res.destroy(); + })); + server.listen(0, common.mustCall(() => { + http.get({ port: server.address().port }, () => {}).on('error', () => { + server.close(); + }); + })); +} + +// Test 2: req.signal is aborted if accessed after destroy +{ + const req = new http.IncomingMessage(null); + req.destroy(); + assert.strictEqual(req.signal.aborted, true); +} + +// Test 3: Multiple accesses return the same signal +{ + const req = new http.IncomingMessage(null); + assert.strictEqual(req.signal, req.signal); +} + + +// Test 4: res.signal on a client-side http.request() response (IncomingMessage). +{ + const server = http.createServer(common.mustCall((req, res) => { + res.writeHead(200); + res.write('partial'); + })); + + server.listen(0, common.mustCall(() => { + const clientReq = http.request( + { port: server.address().port }, + common.mustCall((res) => { + assert.ok(res.signal instanceof AbortSignal); + assert.strictEqual(res.signal.aborted, false); + + res.signal.onabort = common.mustCall(() => { + assert.strictEqual(res.signal.aborted, true); + server.close(); + }); + clientReq.destroy(); + }), + ); + clientReq.on('error', () => {}); + clientReq.end(); + })); +} + +// Test 5: Client cancels a pending request. +{ + const server = http.createServer(common.mustCall((req, res) => { + req.signal.onabort = common.mustCall(() => { + assert.strictEqual(req.signal.aborted, true); + server.close(); + }); + res.flushHeaders(); + })); + + server.listen(0, common.mustCall(() => { + const clientReq = http.request( + { port: server.address().port }, + common.mustCall((res) => { + res.on('error', () => {}); + clientReq.destroy(); + }), + ); + clientReq.on('error', () => {}); + clientReq.end(); + })); +} diff --git a/test/parallel/test-http-write-information.js b/test/parallel/test-http-write-information.js new file mode 100644 index 00000000000000..9c17602cf8d645 --- /dev/null +++ b/test/parallel/test-http-write-information.js @@ -0,0 +1,94 @@ +'use strict'; +const common = require('../common'); +const assert = require('node:assert'); +const http = require('node:http'); + +// Happy flow: arbitrary 1xx status with custom headers, observed by the +// client's 'information' event. +{ + const server = http.createServer(common.mustCall((req, res) => { + res.writeInformation(110, { 'X-Progress': '50%', 'X-Stage': 'reading' }); + res.writeInformation(199, [['X-Custom', 'one'], ['X-Custom-2', 'two']]); + res.end('done'); + })); + + server.listen(0, common.mustCall(() => { + const req = http.request({ port: server.address().port }); + + const seen = []; + req.on('information', (res) => { + seen.push({ + statusCode: res.statusCode, + headers: res.headers, + }); + }); + + req.on('response', common.mustCall((res) => { + assert.strictEqual(res.statusCode, 200); + + assert.strictEqual(seen.length, 2); + assert.strictEqual(seen[0].statusCode, 110); + assert.strictEqual(seen[0].headers['x-progress'], '50%'); + assert.strictEqual(seen[0].headers['x-stage'], 'reading'); + assert.strictEqual(seen[1].statusCode, 199); + assert.strictEqual(seen[1].headers['x-custom'], 'one'); + assert.strictEqual(seen[1].headers['x-custom-2'], 'two'); + + res.resume(); + res.on('end', common.mustCall(() => server.close())); + })); + + req.end(); + })); +} + +// Headers argument is optional / nullable. +{ + const server = http.createServer(common.mustCall((req, res) => { + res.writeInformation(150); + res.writeInformation(151, null); + res.end(); + })); + + server.listen(0, common.mustCall(() => { + const req = http.request({ port: server.address().port }); + let count = 0; + req.on('information', () => count++); + req.on('response', common.mustCall((res) => { + assert.strictEqual(count, 2); + res.resume(); + res.on('end', common.mustCall(() => server.close())); + })); + req.end(); + })); +} + +// Error cases. +{ + const server = http.createServer(common.mustCall((req, res) => { + assert.throws(() => res.writeInformation(101), + { code: 'ERR_HTTP_INVALID_STATUS_CODE' }); + assert.throws(() => res.writeInformation(99), + { code: 'ERR_OUT_OF_RANGE' }); + assert.throws(() => res.writeInformation(200), + { code: 'ERR_OUT_OF_RANGE' }); + assert.throws(() => res.writeInformation('100'), + { code: 'ERR_INVALID_ARG_TYPE' }); + assert.throws(() => res.writeInformation(150, { 'X-Bad\n': 'v' }), + { code: 'ERR_INVALID_HTTP_TOKEN' }); + + res.writeHead(200); + assert.throws(() => res.writeInformation(150), + { code: 'ERR_HTTP_HEADERS_SENT' }); + res.end(); + })); + + server.listen(0, common.mustCall(() => { + const req = http.request({ port: server.address().port }); + req.on('response', common.mustCall((res) => { + res.resume(); + res.on('end', common.mustCall(() => server.close())); + })); + req.end(); + })); +} diff --git a/test/parallel/test-http2-client-destroy.js b/test/parallel/test-http2-client-destroy.js index d7609fc33391ac..eeafd1a92cfefe 100644 --- a/test/parallel/test-http2-client-destroy.js +++ b/test/parallel/test-http2-client-destroy.js @@ -81,7 +81,19 @@ const { getEventListeners } = require('events'); assert.throws(() => client.ping(), sessionError); assert.throws(() => client.settings({}), sessionError); assert.throws(() => client.goaway(), sessionError); - assert.throws(() => client.request(), sessionError); + + const pendingReq = client.request(); + pendingReq.on('response', common.mustNotCall()); + pendingReq.on('error', common.expectsError(sessionError)); + pendingReq.on('close', common.mustCall()); + + client.on('close', common.mustCall(() => { + const postCloseReq = client.request(); + postCloseReq.on('response', common.mustNotCall()); + postCloseReq.on('error', common.expectsError(sessionError)); + postCloseReq.on('close', common.mustCall()); + })); + client.close(); // Should be a non-op at this point // Wait for setImmediate call from destroy() to complete @@ -92,7 +104,6 @@ const { getEventListeners } = require('events'); assert.throws(() => client.ping(), sessionError); assert.throws(() => client.settings({}), sessionError); assert.throws(() => client.goaway(), sessionError); - assert.throws(() => client.request(), sessionError); client.close(); // Should be a non-op at this point }); diff --git a/test/parallel/test-http2-client-session-close-before-stream-close.js b/test/parallel/test-http2-client-session-close-before-stream-close.js new file mode 100644 index 00000000000000..5ebcd8522dfb41 --- /dev/null +++ b/test/parallel/test-http2-client-session-close-before-stream-close.js @@ -0,0 +1,59 @@ +'use strict'; + +const common = require('../common'); +if (!common.hasCrypto) + common.skip('missing crypto'); + +const assert = require('assert'); +const http2 = require('http2'); + +const server = http2.createServer(); +let serverSocket; + +server.on('connection', common.mustCall((socket) => { + serverSocket = socket; + socket.on('error', () => {}); +})); + +server.on('sessionError', () => {}); +server.on('stream', common.mustCall((stream, headers) => { + if (headers[':path'] === '/close') { + stream.respond({ ':status': 200 }); + stream.write('partial', common.mustCall(() => { + setImmediate(() => serverSocket.destroy()); + })); + return; + } + + stream.respond({ ':status': 200 }); + stream.end('ok'); +})); + +server.listen(0, common.mustCall(() => { + const session = http2.connect(`http://localhost:${server.address().port}`); + let cachedSession = session; + + session.on('error', () => {}); + session.on('close', common.mustCall(() => { + cachedSession = undefined; + server.close(); + })); + + const req = session.request({ ':path': '/close' }); + req.on('response', common.mustCall()); + req.on('error', () => {}); + req.on('close', common.mustCall(() => { + // This must not throw synchronously even though the session is no longer + // usable. Depending on teardown timing, the returned stream may report a + // closed session before the destroy state is fully observable here. + const req2 = session.request({ ':path': '/again' }); + + req2.on('error', common.mustCall((err) => { + assert.ok( + err.code === 'ERR_HTTP2_INVALID_SESSION' || + err.code === 'ERR_HTTP2_GOAWAY_SESSION'); + assert.strictEqual(cachedSession, undefined); + })); + })); + req.resume(); +})); diff --git a/test/parallel/test-http2-compat-write-early-hints-invalid-header.js b/test/parallel/test-http2-compat-write-early-hints-invalid-header.js new file mode 100644 index 00000000000000..222c8e997cfb72 --- /dev/null +++ b/test/parallel/test-http2-compat-write-early-hints-invalid-header.js @@ -0,0 +1,60 @@ +'use strict'; + +const common = require('../common'); +if (!common.hasCrypto) common.skip('missing crypto'); + +const assert = require('node:assert'); +const http2 = require('node:http2'); +const debug = require('node:util').debuglog('test'); + +const testResBody = 'response content'; + +{ + const server = http2.createServer(); + + server.on('request', common.mustCall((req, res) => { + debug('Server sending early hints...'); + + assert.throws(() => { + res.writeEarlyHints({ + 'link': '; rel=preload; as=style', + 'x\rbad': 'value', + }); + }, (err) => err.code === 'ERR_INVALID_HTTP_TOKEN'); + + assert.throws(() => { + res.writeEarlyHints({ + 'link': '; rel=preload; as=style', + 'x-custom': undefined, + }); + }, (err) => err.code === 'ERR_HTTP2_INVALID_HEADER_VALUE'); + + debug('Server sending full response...'); + res.end(testResBody); + })); + + server.listen(0); + + server.on('listening', common.mustCall(() => { + const client = http2.connect(`http://localhost:${server.address().port}`); + const req = client.request(); + + debug('Client sending request...'); + + req.on('headers', common.mustNotCall()); + + req.on('response', common.mustCall((headers) => { + assert.strictEqual(headers[':status'], 200); + })); + + let data = ''; + req.on('data', common.mustCallAtLeast((d) => data += d)); + + req.on('end', common.mustCall(() => { + debug('Got full response.'); + assert.strictEqual(data, testResBody); + client.close(); + server.close(); + })); + })); +} diff --git a/test/parallel/test-http2-compat-write-information.js b/test/parallel/test-http2-compat-write-information.js new file mode 100644 index 00000000000000..9aea480098e894 --- /dev/null +++ b/test/parallel/test-http2-compat-write-information.js @@ -0,0 +1,70 @@ +'use strict'; + +const common = require('../common'); +if (!common.hasCrypto) common.skip('missing crypto'); + +const assert = require('node:assert'); +const http2 = require('node:http2'); + +{ + const server = http2.createServer(); + + server.on('request', common.mustCall((req, res) => { + res.writeInformation(110, { 'X-Progress': '50%' }); + res.writeInformation(199, { 'X-Custom': 'one' }); + res.end('done'); + })); + + server.listen(0, common.mustCall(() => { + const client = http2.connect(`http://localhost:${server.address().port}`); + const req = client.request(); + + const seen = []; + req.on('headers', (headers) => { + seen.push({ + status: headers[':status'], + headers, + }); + }); + + req.on('response', common.mustCall((headers) => { + assert.strictEqual(headers[':status'], 200); + assert.strictEqual(seen.length, 2); + assert.strictEqual(seen[0].status, 110); + assert.strictEqual(seen[0].headers['x-progress'], '50%'); + assert.strictEqual(seen[1].status, 199); + assert.strictEqual(seen[1].headers['x-custom'], 'one'); + })); + + req.resume(); + req.on('end', common.mustCall(() => { + client.close(); + server.close(); + })); + })); +} + +// Error cases. +{ + const server = http2.createServer(); + + server.on('request', common.mustCall((req, res) => { + assert.throws(() => res.writeInformation(101), + { code: 'ERR_HTTP2_STATUS_INVALID' }); + assert.throws(() => res.writeInformation(200), + { code: 'ERR_HTTP2_STATUS_INVALID' }); + assert.throws(() => res.writeInformation('100'), + { code: 'ERR_HTTP2_STATUS_INVALID' }); + res.end(); + })); + + server.listen(0, common.mustCall(() => { + const client = http2.connect(`http://localhost:${server.address().port}`); + const req = client.request(); + req.resume(); + req.on('end', common.mustCall(() => { + client.close(); + server.close(); + })); + })); +} diff --git a/test/parallel/test-http2-res-writable-properties.js b/test/parallel/test-http2-res-writable-properties.js index 488cb1babf3e8a..5cee258a9f572b 100644 --- a/test/parallel/test-http2-res-writable-properties.js +++ b/test/parallel/test-http2-res-writable-properties.js @@ -7,11 +7,14 @@ const http2 = require('http2'); const server = http2.createServer(common.mustCall((req, res) => { const hwm = req.socket.writableHighWaterMark; assert.strictEqual(res.writableHighWaterMark, hwm); + assert.strictEqual(res.writableObjectMode, res.stream.writableObjectMode); + assert.strictEqual(res.writableNeedDrain, res.stream.writableNeedDrain); assert.strictEqual(res.writableLength, 0); res.write(''); const len = res.writableLength; res.write('asd'); assert.strictEqual(res.writableLength, len + 3); + assert.strictEqual(res.writableNeedDrain, res.stream.writableNeedDrain); res.end(); res.on('finish', common.mustCall(() => { assert.strictEqual(res.writableLength, 0); diff --git a/test/parallel/test-inspector-invalid-protocol.js b/test/parallel/test-inspector-invalid-protocol.js new file mode 100644 index 00000000000000..28c02028aed472 --- /dev/null +++ b/test/parallel/test-inspector-invalid-protocol.js @@ -0,0 +1,40 @@ +'use strict'; +const common = require('../common'); +common.skipIfInspectorDisabled(); +const { spawn } = require('node:child_process'); +const assert = require('node:assert'); + +(async () => { + const child = spawn( + process.execPath, + ['--inspect-wait=0', '-e', "console.log('test');"], + {} + ); + + const url = await new Promise((resolve) => { + child.stderr.on('data', (data) => { + const msg = data.toString(); + const match = msg.match(/ws:\/\/127\.0\.0\.1:(\d+)\/([a-f0-9-]+)/); + if (match) { + child.stderr.removeAllListeners('data'); + return resolve(match[0]); + } + }); + }); + + child.once('exit', (_, signal) => { + assert.strictEqual(signal, 'SIGTERM'); + }); + + const socket = new WebSocket(url); + + socket.addEventListener('open', common.mustCall(() => { + socket.send('This is not a valid protocol message'); + })); + + socket.addEventListener('message', common.mustCall((event) => { + assert.ok(Object.keys(JSON.parse(event.data)).includes('error')); + socket.close(); + child.kill(); + })); +})().then(common.mustCall()); diff --git a/test/parallel/test-inspector-network-http.js b/test/parallel/test-inspector-network-http.js index 74c6488ef399a5..3b9c0899b03a84 100644 --- a/test/parallel/test-inspector-network-http.js +++ b/test/parallel/test-inspector-network-http.js @@ -32,9 +32,28 @@ const setResponseHeaders = (res) => { const kTimeout = 1000; const kDelta = 200; +const kDefaultResponseHeaders = { + 'server': 'node', + 'etag': '12345', + 'set-cookie': 'key1=value1\nkey2=value2', + 'x-header2': 'value1, value2', +}; + +function getDefaultResponseExpect(url) { + return { + url, + mimeType: 'text/plain', + charset: 'utf-8', + responseHeaders: kDefaultResponseHeaders, + }; +} + +function getPathName(req) { + return new URL(req.url, `http://${req.headers.host}`).pathname; +} const handleRequest = (req, res) => { - const path = req.url; + const path = getPathName(req); switch (path) { case '/hello-world': setResponseHeaders(res); @@ -46,6 +65,22 @@ const handleRequest = (req, res) => { res.end('hello world\n'); }, kTimeout); break; + case '/echo-post': { + const chunks = []; + req.on('data', (chunk) => { + chunks.push(chunk); + }); + req.on('end', () => { + const body = Buffer.concat(chunks).toString(); + res.setHeader('Content-Type', 'application/json; charset=utf-8'); + res.writeHead(200); + res.end(JSON.stringify({ + method: req.method, + body, + })); + }); + break; + } default: assert(false, `Unexpected path: ${path}`); } @@ -77,7 +112,7 @@ function verifyRequestWillBeSent({ method, params }, expect) { assert.ok(params.requestId.startsWith('node-network-event-')); assert.strictEqual(params.request.url, expect.url); - assert.strictEqual(params.request.method, 'GET'); + assert.strictEqual(params.request.method, expect.method ?? 'GET'); assert.strictEqual(typeof params.request.headers, 'object'); assert.strictEqual(params.request.headers['accept-language'], 'en-US'); assert.strictEqual(params.request.headers.cookie, 'k1=v1; k2=v2'); @@ -103,12 +138,20 @@ function verifyResponseReceived({ method, params }, expect) { assert.strictEqual(params.response.statusText, 'OK'); assert.strictEqual(params.response.url, expect.url); assert.strictEqual(typeof params.response.headers, 'object'); - assert.strictEqual(params.response.headers.server, 'node'); - assert.strictEqual(params.response.headers.etag, '12345'); - assert.strictEqual(params.response.headers['set-cookie'], 'key1=value1\nkey2=value2'); - assert.strictEqual(params.response.headers['x-header2'], 'value1, value2'); - assert.strictEqual(params.response.mimeType, 'text/plain'); - assert.strictEqual(params.response.charset, 'utf-8'); + if (expect.responseHeaders?.server) { + assert.strictEqual(params.response.headers.server, expect.responseHeaders.server); + } + if (expect.responseHeaders?.etag) { + assert.strictEqual(params.response.headers.etag, expect.responseHeaders.etag); + } + if (expect.responseHeaders?.['set-cookie']) { + assert.strictEqual(params.response.headers['set-cookie'], expect.responseHeaders['set-cookie']); + } + if (expect.responseHeaders?.['x-header2']) { + assert.strictEqual(params.response.headers['x-header2'], expect.responseHeaders['x-header2']); + } + assert.strictEqual(params.response.mimeType, expect.mimeType); + assert.strictEqual(params.response.charset, expect.charset); return params; } @@ -151,17 +194,46 @@ function verifyHttpResponse(response) { })); } -async function testHttpGet() { - const url = `http://127.0.0.1:${httpServer.address().port}/hello-world`; +function drainHttpResponse(response) { + response.resume(); +} + +function createRequestTracker(url, responseExpect, requestExpect = {}) { const requestWillBeSentFuture = once(session, 'Network.requestWillBeSent') - .then(([event]) => verifyRequestWillBeSent(event, { url })); + .then(([event]) => verifyRequestWillBeSent(event, { + url, + method: requestExpect.method, + })); const responseReceivedFuture = once(session, 'Network.responseReceived') - .then(([event]) => verifyResponseReceived(event, { url })); + .then(([event]) => verifyResponseReceived(event, responseExpect)); const loadingFinishedFuture = once(session, 'Network.loadingFinished') .then(([event]) => verifyLoadingFinished(event)); + return { + requestWillBeSentFuture, + responseReceivedFuture, + loadingFinishedFuture, + }; +} + +async function assertResponseBody(responseReceived, expectedBody, expectedBase64Encoded = false) { + const responseBody = await session.post('Network.getResponseBody', { + requestId: responseReceived.requestId, + }); + assert.strictEqual(responseBody.base64Encoded, expectedBase64Encoded); + assert.strictEqual(responseBody.body, expectedBody); +} + +async function testHttpGet() { + const url = `http://127.0.0.1:${httpServer.address().port}/hello-world`; + const { + requestWillBeSentFuture, + responseReceivedFuture, + loadingFinishedFuture, + } = createRequestTracker(url, getDefaultResponseExpect(url)); + http.get({ host: '127.0.0.1', port: httpServer.address().port, @@ -175,24 +247,83 @@ async function testHttpGet() { const delta = (loadingFinished.timestamp - responseReceived.timestamp) * 1000; assert.ok(delta > kDelta); + await assertResponseBody(responseReceived, '\nhello world\n'); +} - const responseBody = await session.post('Network.getResponseBody', { - requestId: responseReceived.requestId, +async function testHttpGetWithAbsoluteUrlPath() { + const url = `http://127.0.0.1:${httpServer.address().port}/hello-world`; + const { + requestWillBeSentFuture, + responseReceivedFuture, + loadingFinishedFuture, + } = createRequestTracker(url, getDefaultResponseExpect(url)); + + http.get({ + host: '127.0.0.1', + port: httpServer.address().port, + path: url, + headers: requestHeaders, + }, common.mustCall(verifyHttpResponse)); + + await requestWillBeSentFuture; + const responseReceived = await responseReceivedFuture; + const loadingFinished = await loadingFinishedFuture; + + const delta = (loadingFinished.timestamp - responseReceived.timestamp) * 1000; + assert.ok(delta > kDelta); + await assertResponseBody(responseReceived, '\nhello world\n'); +} + +async function testHttpPostWithAbsoluteUrlPath() { + const requestBody = JSON.stringify({ title: 'foo', type: 'post' }); + const url = `http://127.0.0.1:${httpServer.address().port}/echo-post`; + const { + requestWillBeSentFuture, + responseReceivedFuture, + loadingFinishedFuture, + } = createRequestTracker(url, { + url, + mimeType: 'application/json', + charset: 'utf-8', + }, { + method: 'POST', }); - assert.strictEqual(responseBody.base64Encoded, false); - assert.strictEqual(responseBody.body, '\nhello world\n'); + + const responsePromise = new Promise((resolve, reject) => { + const req = http.request({ + host: '127.0.0.1', + port: httpServer.address().port, + path: url, + method: 'POST', + headers: { + ...requestHeaders, + 'Content-Type': 'application/json', + 'Content-Length': Buffer.byteLength(requestBody), + }, + }, resolve); + req.on('error', reject); + req.end(requestBody); + }); + + const response = await responsePromise; + drainHttpResponse(response); + + await requestWillBeSentFuture; + const responseReceived = await responseReceivedFuture; + await loadingFinishedFuture; + await assertResponseBody(responseReceived, JSON.stringify({ + method: 'POST', + body: requestBody, + })); } async function testHttpsGet() { const url = `https://127.0.0.1:${httpsServer.address().port}/hello-world`; - const requestWillBeSentFuture = once(session, 'Network.requestWillBeSent') - .then(([event]) => verifyRequestWillBeSent(event, { url })); - - const responseReceivedFuture = once(session, 'Network.responseReceived') - .then(([event]) => verifyResponseReceived(event, { url })); - - const loadingFinishedFuture = once(session, 'Network.loadingFinished') - .then(([event]) => verifyLoadingFinished(event)); + const { + requestWillBeSentFuture, + responseReceivedFuture, + loadingFinishedFuture, + } = createRequestTracker(url, getDefaultResponseExpect(url)); https.get({ host: '127.0.0.1', @@ -208,12 +339,7 @@ async function testHttpsGet() { const delta = (loadingFinished.timestamp - responseReceived.timestamp) * 1000; assert.ok(delta > kDelta); - - const responseBody = await session.post('Network.getResponseBody', { - requestId: responseReceived.requestId, - }); - assert.strictEqual(responseBody.base64Encoded, false); - assert.strictEqual(responseBody.body, '\nhello world\n'); + await assertResponseBody(responseReceived, '\nhello world\n'); } async function testHttpError() { @@ -257,6 +383,10 @@ async function testHttpsError() { const testNetworkInspection = async () => { await testHttpGet(); session.removeAllListeners(); + await testHttpGetWithAbsoluteUrlPath(); + session.removeAllListeners(); + await testHttpPostWithAbsoluteUrlPath(); + session.removeAllListeners(); await testHttpsGet(); session.removeAllListeners(); await testHttpError(); diff --git a/test/parallel/test-inspector-port-zero-cluster.js b/test/parallel/test-inspector-port-zero-cluster.js index 5ee7bcf7417345..8b17dbee73500b 100644 --- a/test/parallel/test-inspector-port-zero-cluster.js +++ b/test/parallel/test-inspector-port-zero-cluster.js @@ -35,7 +35,7 @@ function serialFork() { if (cluster.isPrimary) { Promise.all([serialFork(), serialFork(), serialFork()]) - .then(common.mustCall((ports) => { + .then((ports) => { ports.splice(0, 0, process.debugPort); // 4 = [primary, worker1, worker2, worker3].length() assert.strictEqual(ports.length, 4); @@ -44,12 +44,8 @@ if (cluster.isPrimary) { assert.strictEqual(ports[0] === 65535 ? 1024 : ports[0] + 1, ports[1]); assert.strictEqual(ports[1] === 65535 ? 1024 : ports[1] + 1, ports[2]); assert.strictEqual(ports[2] === 65535 ? 1024 : ports[2] + 1, ports[3]); - })) - .catch( - (err) => { - console.error(err); - process.exit(1); - }); + }) + .then(common.mustCall()); } else { - process.exit(0); + process.disconnect(); } diff --git a/test/parallel/test-memory-usage.js b/test/parallel/test-memory-usage.js index 8e5ea4de5bf587..9f1160f19ca6e8 100644 --- a/test/parallel/test-memory-usage.js +++ b/test/parallel/test-memory-usage.js @@ -44,6 +44,8 @@ if (r.arrayBuffers > 0) { const after = process.memoryUsage(); assert.ok(after.external - r.external >= size, `${after.external} - ${r.external} >= ${size}`); - assert.strictEqual(after.arrayBuffers - r.arrayBuffers, size, - `${after.arrayBuffers} - ${r.arrayBuffers} === ${size}`); + // `arrayBuffers` is process-wide, so unrelated backing stores may be freed + // between the two snapshots. Check that the live ArrayBuffer is included. + assert.ok(after.arrayBuffers >= size, + `${after.arrayBuffers} >= ${size}`); } diff --git a/test/parallel/test-module-subpath-import-long-path.js b/test/parallel/test-module-subpath-import-long-path.js new file mode 100644 index 00000000000000..69207746f77062 --- /dev/null +++ b/test/parallel/test-module-subpath-import-long-path.js @@ -0,0 +1,40 @@ +// Regression test for https://github.com/nodejs/node/issues/62043 +'use strict'; + +const common = require('../common'); +if (!common.isWindows) { + common.skip('this test is Windows-specific.'); +} + +const fs = require('fs'); +const { createRequire } = require('module'); +const path = require('path'); +const tmpdir = require('../common/tmpdir'); + +tmpdir.refresh(); + +const TARGET = 260; // Shortest length that used to trigger the bug +const fixedLen = tmpdir.path.length + 2 + 'package.json'.length; +const dirNameLen = Math.max(TARGET - fixedLen, 1); + +const dir = path.join(tmpdir.path, 'a'.repeat(dirNameLen)); +const depDir = path.join(dir, 'node_modules', 'dep'); +const packageJsonPath = path.join(dir, 'package.json'); + +fs.mkdirSync(depDir, { recursive: true }); +fs.writeFileSync( + packageJsonPath, + JSON.stringify({ imports: { '#foo': './foo.mjs' } }), +); +fs.writeFileSync(path.join(dir, 'foo.mjs'), 'export default 1;\n'); +fs.writeFileSync( + path.join(depDir, 'package.json'), + JSON.stringify({ name: 'dep', exports: { '.': './index.mjs' } }), +); +fs.writeFileSync(path.join(depDir, 'index.mjs'), 'export default 1;\n'); + +const req = createRequire(path.join(dir, '_.mjs')); + +// Both resolves should succeed without throwing +req.resolve('dep'); +req.resolve('#foo'); diff --git a/test/parallel/test-net-listen-twice.js b/test/parallel/test-net-listen-twice.js index 5a2399ea217005..281868da5a9eb7 100644 --- a/test/parallel/test-net-listen-twice.js +++ b/test/parallel/test-net-listen-twice.js @@ -19,7 +19,7 @@ if (cluster.isPrimary) { server.listen(); } catch (e) { console.error(e); - process.exit(0); + return; } let i = 0; process.on('internalMessage', (msg) => { diff --git a/test/parallel/test-net-pipe-connect-errors.js b/test/parallel/test-net-pipe-connect-errors.js index fec4259b348dfb..33dc6a8a23b5e1 100644 --- a/test/parallel/test-net-pipe-connect-errors.js +++ b/test/parallel/test-net-pipe-connect-errors.js @@ -24,6 +24,7 @@ const common = require('../common'); const fixtures = require('../common/fixtures'); const fs = require('fs'); const net = require('net'); +const path = require('path'); const assert = require('assert'); // Test if ENOTSOCK is fired when trying to connect to a file which is not @@ -38,11 +39,11 @@ if (common.isWindows) { } else { const tmpdir = require('../common/tmpdir'); tmpdir.refresh(); - // Keep the file name very short so that we don't exceed the 108 char limit - // on CI for a POSIX socket. Even though this isn't actually a socket file, - // the error will be different from the one we are expecting if we exceed the - // limit. - emptyTxt = `${tmpdir.path}0.txt`; + // Use a short relative path so that we don't exceed the 108 byte limit for + // Unix socket paths in long or multibyte CI workspaces. Even though this + // isn't actually a socket file, the error will be different from the one we + // are expecting if the path is too long. + emptyTxt = path.join(path.relative(process.cwd(), tmpdir.path), '0.txt'); function cleanup() { try { diff --git a/test/parallel/test-net-socket-tos.js b/test/parallel/test-net-socket-tos.js new file mode 100644 index 00000000000000..8510e840daa503 --- /dev/null +++ b/test/parallel/test-net-socket-tos.js @@ -0,0 +1,100 @@ +'use strict'; +const common = require('../common'); +const assert = require('assert'); +const net = require('net'); + +const server = net.createServer( + common.mustCall((socket) => { + socket.end(); + }), +); + +server.listen( + 0, + common.mustCall(() => { + const port = server.address().port; + const client = new net.Socket(); + + // Set TOS before connection to test caching behavior + client.setTypeOfService(0x10); + client.connect(port); + + client.on( + 'connect', + common.mustCall(() => { + // TEST 1: setTypeOfService validation + // Should throw if value is not a number, is NaN, or is out of range (0-255) + assert.throws(() => client.setTypeOfService('invalid'), { + code: 'ERR_INVALID_ARG_TYPE', + }); + assert.throws(() => client.setTypeOfService(NaN), { + code: 'ERR_INVALID_ARG_TYPE', + }); + assert.throws(() => client.setTypeOfService(256), { + code: 'ERR_OUT_OF_RANGE', + }); + assert.throws(() => client.setTypeOfService(-1), { + code: 'ERR_OUT_OF_RANGE', + }); + + // TEST 2a: Verify deferred application + // Check if the TOS value set before connect() was cached and applied. + // We mask with 0xFC to check only the high 6 bits (DSCP), + // ignoring the lowest 2 bits (ECN) which the OS may modify or zero out. + const mask = 0xFC; + const preConnectGot = client.getTypeOfService(); + + // Windows often resets TOS or ignores it without admin/registry tweaks. + // We only assert strict equality on non-Windows platforms. + if (!common.isWindows) { + assert.strictEqual( + preConnectGot & mask, + 0x10 & mask, + `Pre-connect TOS should be ${0x10 & mask}, got ${preConnectGot & mask}`, + ); + } + + // TEST 2b: Setting and getting TOS on an active connection + const tosValue = 0x10; // IPTOS_LOWDELAY (16) + + // On all platforms, this should succeed (tries both IPv4 and IPv6) + client.setTypeOfService(tosValue); + + // Verify values + const got = client.getTypeOfService(); + + if (!common.isWindows) { + assert.strictEqual( + got & mask, + tosValue & mask, + `Expected TOS ${tosValue & mask}, got ${got & mask}`, + ); + } + + // TEST 3: Boundary values + // Check min (0x00), max (0xFF), and arbitrary intermediate values + for (const boundaryValue of [0x00, 0xFF, 0x3F]) { + client.setTypeOfService(boundaryValue); + const gotBoundary = client.getTypeOfService(); + + if (!common.isWindows) { + assert.strictEqual( + gotBoundary & mask, + boundaryValue & mask, + `Expected TOS ${boundaryValue & mask}, got ${gotBoundary & mask}`, + ); + } + } + + client.end(); + }), + ); + + client.on( + 'end', + common.mustCall(() => { + server.close(); + }), + ); + }), +); diff --git a/test/parallel/test-net-socket-write-after-close.js b/test/parallel/test-net-socket-write-after-close.js index 207f735fffdef1..3c6537937d28e5 100644 --- a/test/parallel/test-net-socket-write-after-close.js +++ b/test/parallel/test-net-socket-write-after-close.js @@ -12,7 +12,7 @@ const net = require('net'); client.on('error', common.mustCall((err) => { server.close(); assert.strictEqual(err.constructor, Error); - assert.strictEqual(err.message, 'write EBADF'); + assert.strictEqual(err.message, `write ${common.isWindows ? 'EPIPE' : 'EBADF'}`); })); client._handle.close(); client.write('foo'); diff --git a/test/parallel/test-npm-install.js b/test/parallel/test-npm-install.js index fe9dbd46d9a7e0..0b295522a80cdf 100644 --- a/test/parallel/test-npm-install.js +++ b/test/parallel/test-npm-install.js @@ -6,64 +6,37 @@ if (common.isInsideDirWithUnusualChars) common.skip('npm does not support this install path'); const path = require('path'); -const exec = require('child_process').exec; const assert = require('assert'); const fs = require('fs'); const fixtures = require('../common/fixtures'); +const { spawnSyncAndAssert } = require('../common/child_process'); const tmpdir = require('../common/tmpdir'); tmpdir.refresh(); -const npmSandbox = tmpdir.resolve('npm-sandbox'); -fs.mkdirSync(npmSandbox); -const homeDir = tmpdir.resolve('home'); -fs.mkdirSync(homeDir); -const installDir = tmpdir.resolve('install-dir'); -fs.mkdirSync(installDir); - -const npmPath = path.join( - __dirname, - '..', - '..', - 'deps', - 'npm', - 'bin', - 'npm-cli.js' -); - -const pkgContent = JSON.stringify({ - dependencies: { - 'package-name': fixtures.path('packages/main') - } -}); -const pkgPath = path.join(installDir, 'package.json'); +// Copy fixtures/npm-install to the tmpdir for testing +fs.cpSync(fixtures.path('npm-install'), tmpdir.path, { recursive: true }); -fs.writeFileSync(pkgPath, pkgContent); +const npmPath = path.join(__dirname, '..', '..', 'deps', 'npm', 'bin', 'npm-cli.js'); -const env = { ...process.env, - PATH: path.dirname(process.execPath), - NODE: process.execPath, - NPM: npmPath, - NPM_CONFIG_PREFIX: path.join(npmSandbox, 'npm-prefix'), - NPM_CONFIG_TMP: path.join(npmSandbox, 'npm-tmp'), - NPM_CONFIG_AUDIT: false, - NPM_CONFIG_UPDATE_NOTIFIER: false, - HOME: homeDir }; +const env = { + ...process.env, + PATH: path.dirname(process.execPath), + NODE: process.execPath, + NPM: npmPath, + NPM_CONFIG_PREFIX: tmpdir.resolve('npm-prefix'), + NPM_CONFIG_TMP: tmpdir.resolve('npm-tmp'), + NPM_CONFIG_AUDIT: false, + NPM_CONFIG_UPDATE_NOTIFIER: false, + HOME: tmpdir.resolve('home'), +}; -exec(`"${common.isWindows ? process.execPath : '$NODE'}" "${common.isWindows ? npmPath : '$NPM'}" install`, { - cwd: installDir, - env: env -}, common.mustCall(handleExit)); - -function handleExit(error, stdout, stderr) { - const code = error ? error.code : 0; - const signalCode = error ? error.signal : null; - - if (code !== 0) { - process.stderr.write(stderr); - } +const installDir = tmpdir.resolve('install-dir'); +spawnSyncAndAssert( + process.execPath, + [npmPath, 'install'], + { cwd: installDir, env }, + {} +); - assert.strictEqual(code, 0, `npm install got error code ${code}`); - assert.strictEqual(signalCode, null, `unexpected signal: ${signalCode}`); - assert(fs.existsSync(`${installDir}/node_modules/package-name`)); -} +assert(fs.existsSync(path.join(installDir, 'node_modules', 'example'))); diff --git a/test/parallel/test-performance-eventlooputil.js b/test/parallel/test-perf-hooks-eventlooputilization.js similarity index 93% rename from test/parallel/test-performance-eventlooputil.js rename to test/parallel/test-perf-hooks-eventlooputilization.js index 3b0c36892ea486..680139d6bb8444 100644 --- a/test/parallel/test-performance-eventlooputil.js +++ b/test/parallel/test-perf-hooks-eventlooputilization.js @@ -6,10 +6,13 @@ const TIMEOUT = 10; const SPIN_DUR = 50; const assert = require('assert'); -const { performance } = require('perf_hooks'); +const { performance, eventLoopUtilization } = require('perf_hooks'); const { Worker, parentPort } = require('worker_threads'); -const { nodeTiming, eventLoopUtilization } = performance; +// Verifies that `performance.eventLoopUtilization` is an alias of +// `perf_hooks.eventLoopUtilization`. +assert.strictEqual(performance.eventLoopUtilization, eventLoopUtilization); +const { nodeTiming } = performance; const elu = eventLoopUtilization(); // Take into account whether this test was started as a Worker. diff --git a/test/parallel/test-perf-hooks-histogram-fast-calls.js b/test/parallel/test-perf-hooks-histogram-fast-calls.js new file mode 100644 index 00000000000000..2017bf49ee35ed --- /dev/null +++ b/test/parallel/test-perf-hooks-histogram-fast-calls.js @@ -0,0 +1,35 @@ +// Flags: --expose-internals --no-warnings --allow-natives-syntax +'use strict'; + +const common = require('../common'); +const assert = require('assert'); + +const { internalBinding } = require('internal/test/binding'); + +const histogram = require('perf_hooks').createHistogram(); + +function testFastMethods() { + histogram.record(1); + histogram.recordDelta(); + histogram.percentile(50); + histogram.reset(); +} + +eval('%PrepareFunctionForOptimization(histogram.record)'); +eval('%PrepareFunctionForOptimization(histogram.recordDelta)'); +eval('%PrepareFunctionForOptimization(histogram.percentile)'); +eval('%PrepareFunctionForOptimization(histogram.reset)'); +testFastMethods(); +eval('%OptimizeFunctionOnNextCall(histogram.record)'); +eval('%OptimizeFunctionOnNextCall(histogram.recordDelta)'); +eval('%OptimizeFunctionOnNextCall(histogram.percentile)'); +eval('%OptimizeFunctionOnNextCall(histogram.reset)'); +testFastMethods(); + +if (common.isDebug) { + const { getV8FastApiCallCount } = internalBinding('debug'); + assert.strictEqual(getV8FastApiCallCount('histogram.record'), 1); + assert.strictEqual(getV8FastApiCallCount('histogram.recordDelta'), 1); + assert.strictEqual(getV8FastApiCallCount('histogram.percentile'), 1); + assert.strictEqual(getV8FastApiCallCount('histogram.reset'), 1); +} diff --git a/test/parallel/test-perf-hooks-histogram.js b/test/parallel/test-perf-hooks-histogram.js index e625f4eba09b50..d440ef3d7388e4 100644 --- a/test/parallel/test-perf-hooks-histogram.js +++ b/test/parallel/test-perf-hooks-histogram.js @@ -41,8 +41,10 @@ const { inspect } = require('util'); code: 'ERR_INVALID_ARG_TYPE' }); }); - throws(() => h.record(0, Number.MAX_SAFE_INTEGER + 1), { - code: 'ERR_OUT_OF_RANGE' + [0, Number.MAX_SAFE_INTEGER + 1].forEach((i) => { + throws(() => h.record(i), { + code: 'ERR_OUT_OF_RANGE' + }); }); strictEqual(h.min, 1); diff --git a/test/parallel/test-perf-hooks-timerify-basic.js b/test/parallel/test-perf-hooks-timerify-basic.js new file mode 100644 index 00000000000000..c33d83b1cf21c1 --- /dev/null +++ b/test/parallel/test-perf-hooks-timerify-basic.js @@ -0,0 +1,25 @@ +// Test basic functionality of timerify and PerformanceObserver. +'use strict'; + +const common = require('../common'); +const assert = require('assert'); +const { timerify, PerformanceObserver } = require('perf_hooks'); + +// Verifies that `performance.timerify` is an alias of `perf_hooks.timerify`. +assert.strictEqual(performance.timerify, timerify); + +// Intentional non-op. Do not wrap in common.mustCall(); +const n = timerify(function noop() {}); + +const obs = new PerformanceObserver(common.mustCall((list) => { + const entries = list.getEntries(); + const entry = entries[0]; + assert(entry); + assert.strictEqual(entry.name, 'noop'); + assert.strictEqual(entry.entryType, 'function'); + assert.strictEqual(typeof entry.duration, 'number'); + assert.strictEqual(typeof entry.startTime, 'number'); + obs.disconnect(); +})); +obs.observe({ entryTypes: ['function'] }); +n(); diff --git a/test/parallel/test-perf-hooks-timerify-constructor.js b/test/parallel/test-perf-hooks-timerify-constructor.js new file mode 100644 index 00000000000000..65ae42f373a5e5 --- /dev/null +++ b/test/parallel/test-perf-hooks-timerify-constructor.js @@ -0,0 +1,27 @@ +// Test that timerify works with class constructors and creates performance +// entries with the correct name. + +'use strict'; + +const common = require('../common'); +const assert = require('assert'); +const { timerify, PerformanceObserver } = require('perf_hooks'); + +class N {} +const n = timerify(N); + +const obs = new PerformanceObserver(common.mustCall((list) => { + const entries = list.getEntries(); + const entry = entries[0]; + assert.strictEqual(entry[0], 1); + assert.strictEqual(entry[1], 'abc'); + assert(entry); + assert.strictEqual(entry.name, 'N'); + assert.strictEqual(entry.entryType, 'function'); + assert.strictEqual(typeof entry.duration, 'number'); + assert.strictEqual(typeof entry.startTime, 'number'); + obs.disconnect(); +})); +obs.observe({ entryTypes: ['function'] }); + +new n(1, 'abc'); diff --git a/test/parallel/test-perf-hooks-timerify-error.js b/test/parallel/test-perf-hooks-timerify-error.js new file mode 100644 index 00000000000000..d7851072115b85 --- /dev/null +++ b/test/parallel/test-perf-hooks-timerify-error.js @@ -0,0 +1,16 @@ +// Test that errors thrown in timerified functions bubble up without creating +// performance timeline entries. + +'use strict'; + +const common = require('../common'); +const assert = require('assert'); +const { timerify, PerformanceObserver } = require('perf_hooks'); + +const obs = new PerformanceObserver(common.mustNotCall()); +obs.observe({ entryTypes: ['function'] }); +const n = timerify(() => { + throw new Error('test'); +}); +assert.throws(() => n(), /^Error: test$/); +obs.disconnect(); diff --git a/test/parallel/test-perf-hooks-timerify-histogram-async.mjs b/test/parallel/test-perf-hooks-timerify-histogram-async.mjs new file mode 100644 index 00000000000000..2fc6b6a2e49669 --- /dev/null +++ b/test/parallel/test-perf-hooks-timerify-histogram-async.mjs @@ -0,0 +1,17 @@ +// Test that timerify works with histogram option for asynchronous functions. + +import '../common/index.mjs'; +import assert from 'assert'; +import { createHistogram, timerify } from 'perf_hooks'; +import { setTimeout as sleep } from 'timers/promises'; + +const histogram = createHistogram(); +const m = async (a, b = 1) => { + await sleep(10); +}; +const n = timerify(m, { histogram }); +assert.strictEqual(histogram.max, 0); +for (let i = 0; i < 10; i++) { + await n(); +} +assert.notStrictEqual(histogram.max, 0); diff --git a/test/parallel/test-perf-hooks-timerify-histogram-sync.mjs b/test/parallel/test-perf-hooks-timerify-histogram-sync.mjs new file mode 100644 index 00000000000000..b26a40ee3cda65 --- /dev/null +++ b/test/parallel/test-perf-hooks-timerify-histogram-sync.mjs @@ -0,0 +1,19 @@ +// Test that timerify works with histogram option for synchronous functions. + +import { sleepSync } from '../common/index.mjs'; +import assert from 'assert'; +import { createHistogram, timerify } from 'perf_hooks'; + +const histogram = createHistogram(); + +const m = () => { + // Deterministic blocking delay (~1 millisecond). The histogram operates on + // nanosecond precision, so this should be sufficient to prevent zero timings. + sleepSync(1); +}; +const n = timerify(m, { histogram }); +assert.strictEqual(histogram.max, 0); +for (let i = 0; i < 10; i++) { + n(); +} +assert.notStrictEqual(histogram.max, 0); diff --git a/test/parallel/test-perf-hooks-timerify-invalid-args.js b/test/parallel/test-perf-hooks-timerify-invalid-args.js new file mode 100644 index 00000000000000..dc874c40ad730f --- /dev/null +++ b/test/parallel/test-perf-hooks-timerify-invalid-args.js @@ -0,0 +1,28 @@ +// Test that timerify throws appropriate errors for invalid argument types. + +'use strict'; + +require('../common'); +const assert = require('assert'); +const { timerify } = require('perf_hooks'); + +[1, {}, [], null, undefined, Infinity].forEach((input) => { + assert.throws(() => timerify(input), + { + code: 'ERR_INVALID_ARG_TYPE', + name: 'TypeError', + message: /The "fn" argument must be of type function/ + }); +}); + +const asyncFunc = async (a, b = 1) => {}; +const syncFunc = (a, b = 1) => {}; + +[1, '', {}, [], false].forEach((histogram) => { + assert.throws(() => timerify(asyncFunc, { histogram }), { + code: 'ERR_INVALID_ARG_TYPE' + }); + assert.throws(() => timerify(syncFunc, { histogram }), { + code: 'ERR_INVALID_ARG_TYPE' + }); +}); diff --git a/test/parallel/test-perf-hooks-timerify-multiple-wrapping.js b/test/parallel/test-perf-hooks-timerify-multiple-wrapping.js new file mode 100644 index 00000000000000..f56ac108a11783 --- /dev/null +++ b/test/parallel/test-perf-hooks-timerify-multiple-wrapping.js @@ -0,0 +1,19 @@ +// Test that functions can be wrapped multiple times and verify length and name +// properties are preserved correctly. + +'use strict'; + +require('../common'); +const assert = require('assert'); +const { timerify } = require('perf_hooks'); + +const m = (a, b = 1) => {}; +const n = timerify(m); +const o = timerify(m); +const p = timerify(n); +assert.notStrictEqual(n, o); +assert.notStrictEqual(n, p); +assert.notStrictEqual(o, p); +assert.strictEqual(n.length, m.length); +assert.strictEqual(n.name, 'timerified m'); +assert.strictEqual(p.name, 'timerified timerified m'); diff --git a/test/parallel/test-perf-hooks-timerify-return-value.js b/test/parallel/test-perf-hooks-timerify-return-value.js new file mode 100644 index 00000000000000..44c3cdb1c4d631 --- /dev/null +++ b/test/parallel/test-perf-hooks-timerify-return-value.js @@ -0,0 +1,24 @@ +// Regression tests for https://github.com/nodejs/node/issues/40623 +// Test that timerify preserves return values and class constructor behavior. + +'use strict'; + +require('../common'); +const assert = require('assert'); +const { timerify } = require('perf_hooks'); + +assert.strictEqual(timerify(function func() { + return 1; +})(), 1); +assert.strictEqual(timerify(function() { + return 1; +})(), 1); +assert.strictEqual(timerify(() => { + return 1; +})(), 1); +class C {} +const wrap = timerify(C); +assert.ok(new wrap() instanceof C); +assert.throws(() => wrap(), { + name: 'TypeError', +}); diff --git a/test/parallel/test-performance-function.js b/test/parallel/test-performance-function.js deleted file mode 100644 index b69a21308cf048..00000000000000 --- a/test/parallel/test-performance-function.js +++ /dev/null @@ -1,150 +0,0 @@ -'use strict'; - -const common = require('../common'); -const assert = require('assert'); - -const { - createHistogram, - performance, - PerformanceObserver -} = require('perf_hooks'); - -const { - setTimeout: sleep -} = require('timers/promises'); - -{ - // Intentional non-op. Do not wrap in common.mustCall(); - const n = performance.timerify(function noop() {}); - - const obs = new PerformanceObserver(common.mustCall((list) => { - const entries = list.getEntries(); - const entry = entries[0]; - assert(entry); - assert.strictEqual(entry.name, 'noop'); - assert.strictEqual(entry.entryType, 'function'); - assert.strictEqual(typeof entry.duration, 'number'); - assert.strictEqual(typeof entry.startTime, 'number'); - obs.disconnect(); - })); - obs.observe({ entryTypes: ['function'] }); - n(); -} - -{ - // If the error throws, the error should just be bubbled up and the - // performance timeline entry will not be reported. - const obs = new PerformanceObserver(common.mustNotCall()); - obs.observe({ entryTypes: ['function'] }); - const n = performance.timerify(() => { - throw new Error('test'); - }); - assert.throws(() => n(), /^Error: test$/); - obs.disconnect(); -} - -{ - class N {} - const n = performance.timerify(N); - - const obs = new PerformanceObserver(common.mustCall((list) => { - const entries = list.getEntries(); - const entry = entries[0]; - assert.strictEqual(entry[0], 1); - assert.strictEqual(entry[1], 'abc'); - assert(entry); - assert.strictEqual(entry.name, 'N'); - assert.strictEqual(entry.entryType, 'function'); - assert.strictEqual(typeof entry.duration, 'number'); - assert.strictEqual(typeof entry.startTime, 'number'); - obs.disconnect(); - })); - obs.observe({ entryTypes: ['function'] }); - - new n(1, 'abc'); -} - -{ - [1, {}, [], null, undefined, Infinity].forEach((input) => { - assert.throws(() => performance.timerify(input), - { - code: 'ERR_INVALID_ARG_TYPE', - name: 'TypeError', - message: /The "fn" argument must be of type function/ - }); - }); -} - -// Function can be wrapped many times, also check length and name -{ - const m = (a, b = 1) => {}; - const n = performance.timerify(m); - const o = performance.timerify(m); - const p = performance.timerify(n); - assert.notStrictEqual(n, o); - assert.notStrictEqual(n, p); - assert.notStrictEqual(o, p); - assert.strictEqual(n.length, m.length); - assert.strictEqual(n.name, 'timerified m'); - assert.strictEqual(p.name, 'timerified timerified m'); -} - -(async () => { - let _deadCode; - - const histogram = createHistogram(); - const m = (a, b = 1) => { - for (let i = 0; i < 1e3; i++) - _deadCode = i; - }; - const n = performance.timerify(m, { histogram }); - assert.strictEqual(histogram.max, 0); - for (let i = 0; i < 10; i++) { - n(); - await sleep(10); - } - assert.ok(_deadCode >= 0); - assert.notStrictEqual(histogram.max, 0); - [1, '', {}, [], false].forEach((histogram) => { - assert.throws(() => performance.timerify(m, { histogram }), { - code: 'ERR_INVALID_ARG_TYPE' - }); - }); -})().then(common.mustCall()); - -(async () => { - const histogram = createHistogram(); - const m = async (a, b = 1) => { - await sleep(10); - }; - const n = performance.timerify(m, { histogram }); - assert.strictEqual(histogram.max, 0); - for (let i = 0; i < 10; i++) { - await n(); - } - assert.notStrictEqual(histogram.max, 0); - [1, '', {}, [], false].forEach((histogram) => { - assert.throws(() => performance.timerify(m, { histogram }), { - code: 'ERR_INVALID_ARG_TYPE' - }); - }); -})().then(common.mustCall()); - -// Regression tests for https://github.com/nodejs/node/issues/40623 -{ - assert.strictEqual(performance.timerify(function func() { - return 1; - })(), 1); - assert.strictEqual(performance.timerify(function() { - return 1; - })(), 1); - assert.strictEqual(performance.timerify(() => { - return 1; - })(), 1); - class C {} - const wrap = performance.timerify(C); - assert.ok(new wrap() instanceof C); - assert.throws(() => wrap(), { - name: 'TypeError', - }); -} diff --git a/test/parallel/test-permission-allow-child-process-cli.js b/test/parallel/test-permission-allow-child-process-cli.js index f2ec02f02f46f5..66600205fe7833 100644 --- a/test/parallel/test-permission-allow-child-process-cli.js +++ b/test/parallel/test-permission-allow-child-process-cli.js @@ -21,7 +21,7 @@ if (process.argv[2] === 'child') { code: 'ERR_ACCESS_DENIED', permission: 'FileSystemWrite', })); - process.exit(0); + return; } // Guarantee the initial state diff --git a/test/parallel/test-permission-allow-inspector.js b/test/parallel/test-permission-allow-inspector.js new file mode 100644 index 00000000000000..7d8b2aba8357a8 --- /dev/null +++ b/test/parallel/test-permission-allow-inspector.js @@ -0,0 +1,55 @@ +// Flags: --permission --allow-fs-read=* --allow-inspector +'use strict'; + +const common = require('../common'); + +common.skipIfInspectorDisabled(); + +const { Session } = require('node:inspector/promises'); +const assert = require('node:assert'); + +const session = new Session(); +session.connect(); + +// Guarantee WorkerImpl doesn't gets bypassed +(async () => { + await session.post('Debugger.enable'); + await session.post('Runtime.enable'); + + globalThis.Worker = require('node:worker_threads').Worker; + + const { result: { objectId } } = await session.post('Runtime.evaluate', { expression: 'Worker' }); + const { internalProperties } = await session.post('Runtime.getProperties', { objectId: objectId }); + const { + value: { + value: { scriptId } + } + } = internalProperties.filter((prop) => prop.name === '[[FunctionLocation]]')[0]; + const { scriptSource } = await session.post('Debugger.getScriptSource', { scriptId }); + + const lineNumber = scriptSource.substring(0, scriptSource.indexOf('new WorkerImpl')).split('\n').length; + + // Attempt to bypass it based on https://hackerone.com/reports/1962701 + await session.post('Debugger.setBreakpointByUrl', { + lineNumber: lineNumber, + url: 'node:internal/worker', + columnNumber: 0, + condition: '((isInternal = true),false)' + }); + + assert.throws(() => { + // eslint-disable-next-line no-undef + new Worker(` + const child_process = require("node:child_process"); + console.log(child_process.execSync("ls -l").toString()); + + console.log(require("fs").readFileSync("/etc/passwd").toString()) + `, { + eval: true, + }); + }, { + message: 'Access to this API has been restricted. Use --allow-worker to manage permissions.', + code: 'ERR_ACCESS_DENIED', + permission: 'WorkerThreads' + }); +})().then(common.mustCall()); diff --git a/test/parallel/test-permission-allow-worker-cli.js b/test/parallel/test-permission-allow-worker-cli.js index 3dcafea7a3fa35..4aab1d4b982eee 100644 --- a/test/parallel/test-permission-allow-worker-cli.js +++ b/test/parallel/test-permission-allow-worker-cli.js @@ -6,7 +6,7 @@ const assert = require('assert'); const { isMainThread, Worker } = require('worker_threads'); if (!isMainThread) { - process.exit(0); + return; } // Guarantee the initial state diff --git a/test/parallel/test-permission-child-process-cli.js b/test/parallel/test-permission-child-process-cli.js index abd4271257b6fa..3330bcddd96f9d 100644 --- a/test/parallel/test-permission-child-process-cli.js +++ b/test/parallel/test-permission-child-process-cli.js @@ -12,7 +12,7 @@ const assert = require('assert'); const childProcess = require('child_process'); if (process.argv[2] === 'child') { - process.exit(0); + return; } // Guarantee the initial state diff --git a/test/parallel/test-permission-dc-worker-threads.js b/test/parallel/test-permission-dc-worker-threads.js deleted file mode 100644 index 4fdb566f9e1701..00000000000000 --- a/test/parallel/test-permission-dc-worker-threads.js +++ /dev/null @@ -1,19 +0,0 @@ -// Flags: --permission --allow-fs-read=* --experimental-test-module-mocks -'use strict'; - -const common = require('../common'); -const assert = require('node:assert'); - -{ - const diagnostics_channel = require('node:diagnostics_channel'); - diagnostics_channel.subscribe('worker_threads', common.mustNotCall()); - const { mock } = require('node:test'); - - // Module mocking should throw instead of posting to worker_threads dc - assert.throws(() => { - mock.module('node:path'); - }, common.expectsError({ - code: 'ERR_ACCESS_DENIED', - permission: 'WorkerThreads', - })); -} diff --git a/test/parallel/test-permission-inspector.js b/test/parallel/test-permission-inspector.js index 878adbf93415d4..51994c218eb5bb 100644 --- a/test/parallel/test-permission-inspector.js +++ b/test/parallel/test-permission-inspector.js @@ -22,7 +22,7 @@ if (!common.hasCrypto) const session = new Session(); session.connect(); }, common.expectsError({ - message: 'Access to this API has been restricted. ', + message: 'Access to this API has been restricted. Use --allow-inspector to manage permissions.', code: 'ERR_ACCESS_DENIED', permission: 'Inspector', })); diff --git a/test/parallel/test-permission-warning-flags.js b/test/parallel/test-permission-warning-flags.js index 9b20248eae18e9..e203f4bc78b210 100644 --- a/test/parallel/test-permission-warning-flags.js +++ b/test/parallel/test-permission-warning-flags.js @@ -7,6 +7,7 @@ const assert = require('assert'); const warnFlags = [ '--allow-addons', '--allow-child-process', + '--allow-inspector', '--allow-wasi', '--allow-worker', ]; diff --git a/test/parallel/test-process-env.js b/test/parallel/test-process-env.js index f20be5a194dbf9..a27e5eb5ffd347 100644 --- a/test/parallel/test-process-env.js +++ b/test/parallel/test-process-env.js @@ -31,7 +31,7 @@ if (process.argv[2] === 'you-are-the-child') { assert.strictEqual(process.env.hasOwnProperty, 'asdf'); const has = Object.hasOwn(process.env, 'hasOwnProperty'); assert.strictEqual(has, true); - process.exit(0); + return; } { diff --git a/test/parallel/test-repl-no-terminal-restore-process-listeners.js b/test/parallel/test-repl-no-terminal-restore-process-listeners.js new file mode 100644 index 00000000000000..0cbe3de0bee59d --- /dev/null +++ b/test/parallel/test-repl-no-terminal-restore-process-listeners.js @@ -0,0 +1,17 @@ +'use strict'; +const common = require('../common'); +const { startNewREPLServer } = require('../common/repl'); +const assert = require('assert'); + +const originalProcessNewListenerCount = process.listenerCount('newListener'); +const { replServer } = startNewREPLServer(); + +const listenerCountBeforeClose = process.listenerCount('newListener'); +replServer.close(); +replServer.once('exit', common.mustCall(() => { + setImmediate(common.mustCall(() => { + const listenerCountAfterClose = process.listenerCount('newListener'); + assert.strictEqual(listenerCountAfterClose, listenerCountBeforeClose - 1); + assert.strictEqual(listenerCountAfterClose, originalProcessNewListenerCount); + })); +})); diff --git a/test/parallel/test-runner-aftereach-runtime-skip.js b/test/parallel/test-runner-aftereach-runtime-skip.js new file mode 100644 index 00000000000000..7a6ba2ea9cbddf --- /dev/null +++ b/test/parallel/test-runner-aftereach-runtime-skip.js @@ -0,0 +1,36 @@ +'use strict'; + +const common = require('../common'); +const assert = require('node:assert'); +const { beforeEach, afterEach, test } = require('node:test'); + +let beforeEachTotal = 0; +let afterEachRuntimeSkip = 0; +let afterEachTotal = 0; + +beforeEach(common.mustCall(() => { + beforeEachTotal++; +}, 2)); + +afterEach(common.mustCall((t) => { + afterEachTotal++; + if (t.name === 'runtime skip') { + afterEachRuntimeSkip++; + } +}, 2)); + +test('normal test', (t) => { + t.assert.ok(true); +}); + +test('runtime skip', (t) => { + t.skip('skip after setup'); +}); + +test('static skip', { skip: true }, common.mustNotCall()); + +process.on('exit', () => { + assert.strictEqual(beforeEachTotal, 2); + assert.strictEqual(afterEachRuntimeSkip, 1); + assert.strictEqual(afterEachTotal, 2); +}); diff --git a/test/parallel/test-runner-coverage.js b/test/parallel/test-runner-coverage.js index 5756f1d237605c..8557c6c474af00 100644 --- a/test/parallel/test-runner-coverage.js +++ b/test/parallel/test-runner-coverage.js @@ -489,3 +489,19 @@ test('correctly prints the coverage report of files contained in parent director assert(result.stdout.toString().includes(report)); assert.strictEqual(result.status, 0); }); + +// Regression test for https://github.com/nodejs/node/issues/61080 +test('coverage with directory and file named "file"', skipIfNoInspector, () => { + const fixture = fixtures.path('test-runner', 'coverage-file-name', 'test.js'); + const args = [ + '--experimental-test-coverage', + '--test-reporter', + 'tap', + fixture, + ]; + const result = spawnSync(process.execPath, args); + + assert.strictEqual(result.stderr.toString(), ''); + assert.strictEqual(result.status, 0); + assert(result.stdout.toString().includes('start of coverage report')); +}); diff --git a/test/parallel/test-runner-enqueue-file-syntax-error.js b/test/parallel/test-runner-enqueue-file-syntax-error.js new file mode 100644 index 00000000000000..dc520feade320e --- /dev/null +++ b/test/parallel/test-runner-enqueue-file-syntax-error.js @@ -0,0 +1,19 @@ +'use strict'; +const common = require('../common'); +const assert = require('node:assert'); +const fixtures = require('../common/fixtures'); +const { run } = require('node:test'); + +const testFile = fixtures.path('test-runner', 'syntax-error-test.mjs'); +const testRun = run({ + files: [testFile], + isolation: 'none' +}); + +testRun.on('test:enqueue', common.mustCall((test) => { + assert.strictEqual(test.file, testFile); +})); + +testRun.on('test:fail', common.mustCall((test) => { + assert.match(test.details.error.toString(), /SyntaxError: Unexpected token 'true'/); +})); diff --git a/test/parallel/test-runner-execution-ordered-bypass.mjs b/test/parallel/test-runner-execution-ordered-bypass.mjs new file mode 100644 index 00000000000000..85b468cae2a7e1 --- /dev/null +++ b/test/parallel/test-runner-execution-ordered-bypass.mjs @@ -0,0 +1,59 @@ +// Flags: --no-warnings + +import '../common/index.mjs'; +import * as fixtures from '../common/fixtures.mjs'; +import assert from 'node:assert'; +import { test, run } from 'node:test'; + +const files = [ + fixtures.path('test-runner', 'execution-ordered-bypass', 'slow.mjs'), + fixtures.path('test-runner', 'execution-ordered-bypass', 'fast-fail.mjs'), +]; + +test('execution-ordered events bypass FileTest declaration-order buffer', async () => { + // Concurrency must be a number so the runner does not collapse it to 1 on + // single-core CI runners (where `concurrency: true` resolves to + // `availableParallelism() - 1`). Without two slots the runner spawns the + // files sequentially and fast-fail never starts while slow is sleeping. + const stream = run({ + files, + isolation: 'process', + concurrency: 2, + }); + + const events = []; + + stream.on('test:complete', (data) => { + if (data.name === 'slow' || data.name === 'fast-fail') { + events.push(`complete:${data.name}`); + } + }); + + stream.on('test:fail', (data) => { + if (data.name === 'fast-fail') { + events.push(`fail:${data.name}`); + } + }); + + // eslint-disable-next-line no-unused-vars + for await (const _ of stream); + + const completeFast = events.indexOf('complete:fast-fail'); + const completeSlow = events.indexOf('complete:slow'); + const failFast = events.indexOf('fail:fast-fail'); + + assert.notStrictEqual(completeFast, -1); + assert.notStrictEqual(completeSlow, -1); + assert.notStrictEqual(failFast, -1); + + assert.ok( + completeFast < completeSlow, + `test:complete for fast-fail should arrive before slow; events=${events.join(', ')}`, + ); + + // test:fail is declaration-ordered, so the bypass must not affect it. + assert.ok( + failFast > completeSlow, + `test:fail for fast-fail should arrive after test:complete for slow; events=${events.join(', ')}`, + ); +}); diff --git a/test/parallel/test-runner-mock-timers-with-timeout.js b/test/parallel/test-runner-mock-timers-with-timeout.js new file mode 100644 index 00000000000000..67f266851fe1ed --- /dev/null +++ b/test/parallel/test-runner-mock-timers-with-timeout.js @@ -0,0 +1,14 @@ +'use strict'; +require('../common'); +const fixtures = require('../common/fixtures'); +const assert = require('node:assert'); +const { spawnSync } = require('node:child_process'); +const { test } = require('node:test'); + +test('mock timers do not break test timeout cleanup', async () => { + const fixture = fixtures.path('test-runner', 'mock-timers-with-timeout.js'); + const cp = spawnSync(process.execPath, ['--test', fixture], { + timeout: 30_000, + }); + assert.strictEqual(cp.status, 0, `Test failed:\nstdout: ${cp.stdout}\nstderr: ${cp.stderr}`); +}); diff --git a/test/parallel/test-runner-mock-timers.js b/test/parallel/test-runner-mock-timers.js index f99936f449bc77..a39a0cf80dc7ed 100644 --- a/test/parallel/test-runner-mock-timers.js +++ b/test/parallel/test-runner-mock-timers.js @@ -266,6 +266,32 @@ describe('Mock Timers Test Suite', () => { assert.deepStrictEqual(fn.mock.calls[0].arguments, args); }); + it('should expose Timeout.prototype[Symbol.dispose]', (t) => { + t.mock.timers.enable({ apis: ['setTimeout'] }); + const fn = t.mock.fn(); + const timeout = globalThis.setTimeout(fn, 2000); + + assert.strictEqual(typeof timeout[Symbol.dispose], 'function'); + + timeout[Symbol.dispose](); + t.mock.timers.tick(2000); + + assert.strictEqual(fn.mock.callCount(), 0); + }); + + it('should expose Timeout.prototype.close()', (t) => { + t.mock.timers.enable({ apis: ['setTimeout'] }); + const fn = t.mock.fn(); + const timeout = globalThis.setTimeout(fn, 2000); + + assert.strictEqual(typeof timeout.close, 'function'); + assert.strictEqual(timeout.close(), timeout); + + t.mock.timers.tick(2000); + + assert.strictEqual(fn.mock.callCount(), 0); + }); + it('should keep setTimeout working if timers are disabled', (t, done) => { const now = Date.now(); const timeout = 2; diff --git a/test/parallel/test-runner-module-mocking.js b/test/parallel/test-runner-module-mocking.js index 5d5588351621b8..8034b15583cdc7 100644 --- a/test/parallel/test-runner-module-mocking.js +++ b/test/parallel/test-runner-module-mocking.js @@ -680,43 +680,3 @@ test('wrong import syntax should throw error after module mocking.', async () => assert.match(stderr, /Error \[ERR_MODULE_NOT_FOUND\]: Cannot find module/); assert.strictEqual(code, 1); }); - -test('should throw ERR_ACCESS_DENIED when permission model is enabled', async (t) => { - const cwd = fixtures.path('test-runner'); - const fixture = fixtures.path('test-runner', 'mock-nm.js'); - const args = [ - '--permission', - '--allow-fs-read=*', - '--experimental-test-module-mocks', - fixture, - ]; - const { - code, - stdout, - } = await common.spawnPromisified(process.execPath, args, { cwd }); - - assert.strictEqual(code, 1); - assert.match(stdout, /Access to this API has been restricted/); -}); - -test('should work when --allow-worker is passed and permission model is enabled', async (t) => { - const cwd = fixtures.path('test-runner'); - const fixture = fixtures.path('test-runner', 'mock-nm.js'); - const args = [ - '--permission', - '--allow-fs-read=*', - '--allow-worker', - '--experimental-test-module-mocks', - fixture, - ]; - const { - code, - stdout, - stderr, - signal, - } = await common.spawnPromisified(process.execPath, args, { cwd }); - - assert.strictEqual(code, 0, stderr); - assert.strictEqual(signal, null); - assert.match(stdout, /pass 1/, stderr); -}); diff --git a/test/parallel/test-runner-run-files-undefined.mjs b/test/parallel/test-runner-run-files-undefined.mjs index 9d08b10a4550cd..a0981b307d1999 100644 --- a/test/parallel/test-runner-run-files-undefined.mjs +++ b/test/parallel/test-runner-run-files-undefined.mjs @@ -1,61 +1,31 @@ -import * as common from '../common/index.mjs'; +import '../common/index.mjs'; import tmpdir from '../common/tmpdir.js'; -import { describe, it, run, beforeEach } from 'node:test'; -import { dot, spec, tap } from 'node:test/reporters'; -import { fork } from 'node:child_process'; -import assert from 'node:assert'; - -if (common.hasCrypto) { - console.log('1..0 # Skipped: no crypto'); - process.exit(0); -} - -if (process.env.CHILD === 'true') { - describe('require(\'node:test\').run with no files', { concurrency: true }, () => { - beforeEach(() => { - tmpdir.refresh(); - process.chdir(tmpdir.path); +import { spawnSyncAndExitWithoutError } from '../common/child_process.js'; + +async function runTests(run, reporters) { + for (const reporterName of Object.keys(reporters)) { + if (reporterName === 'default') continue; + console.log({ reporterName }); + + const stream = run({ + files: undefined + }).compose(reporters[reporterName]); + stream.on('test:fail', () => { + throw new Error('Received test:fail with ' + reporterName); }); - - it('should neither pass or fail', async () => { - const stream = run({ - files: undefined - }).compose(tap); - stream.on('test:fail', common.mustNotCall()); - stream.on('test:pass', common.mustNotCall()); - - // eslint-disable-next-line no-unused-vars - for await (const _ of stream); + stream.on('test:pass', () => { + throw new Error('Received test:pass with ' + reporterName); }); - it('can use the spec reporter', async () => { - const stream = run({ - files: undefined - }).compose(spec); - stream.on('test:fail', common.mustNotCall()); - stream.on('test:pass', common.mustNotCall()); - - // eslint-disable-next-line no-unused-vars - for await (const _ of stream); - }); + // eslint-disable-next-line no-unused-vars + for await (const _ of stream); + } +} - it('can use the dot reporter', async () => { - const stream = run({ - files: undefined - }).compose(dot); - stream.on('test:fail', common.mustNotCall()); - stream.on('test:pass', common.mustNotCall()); +tmpdir.refresh(); +spawnSyncAndExitWithoutError(process.execPath, ['--input-type=module', '-e', ` + import { run } from 'node:test'; + import * as reporters from 'node:test/reporters'; - // eslint-disable-next-line no-unused-vars - for await (const _ of stream); - }); - }); -} else if (common.isAIX) { - console.log('1..0 # Skipped: test runner without specifying files fails on AIX'); -} else { - fork(import.meta.filename, [], { - env: { CHILD: 'true' } - }).on('exit', common.mustCall((code) => { - assert.strictEqual(code, 0); - })); -} + await (${runTests})(run, reporters); +`], { cwd: tmpdir.path }); diff --git a/test/parallel/test-sqlite-authz.js b/test/parallel/test-sqlite-authz.js new file mode 100644 index 00000000000000..2bf268847cd370 --- /dev/null +++ b/test/parallel/test-sqlite-authz.js @@ -0,0 +1,278 @@ +'use strict'; + +const { skipIfSQLiteMissing } = require('../common'); +skipIfSQLiteMissing(); + +const assert = require('node:assert'); +const { DatabaseSync, constants } = require('node:sqlite'); +const { suite, it } = require('node:test'); + +suite('DatabaseSync.prototype.setAuthorizer()', () => { + const createTestDatabase = () => { + const db = new DatabaseSync(':memory:'); + db.exec('CREATE TABLE users (id INTEGER, name TEXT)'); + return db; + }; + + it('receives correct parameters for SELECT operations', (t) => { + const authorizer = t.mock.fn(() => constants.SQLITE_OK); + const db = createTestDatabase(); + + db.setAuthorizer(authorizer); + db.prepare('SELECT id FROM users').get(); + + assert.strictEqual(authorizer.mock.callCount(), 2); + const callArguments = authorizer.mock.calls.map((call) => call.arguments); + + assert.deepStrictEqual( + callArguments, + [ + [constants.SQLITE_SELECT, null, null, null, null], + [constants.SQLITE_READ, 'users', 'id', 'main', null], + ] + ); + }); + + it('receives correct parameters for INSERT operations', (t) => { + const authorizer = t.mock.fn(() => constants.SQLITE_OK); + const db = createTestDatabase(); + + db.setAuthorizer(authorizer); + db.prepare('INSERT INTO users (id, name) VALUES (?, ?)').run(1, 'node'); + + assert.strictEqual(authorizer.mock.callCount(), 1); + + const callArguments = authorizer.mock.calls.map((call) => call.arguments); + assert.deepStrictEqual( + callArguments, + [[constants.SQLITE_INSERT, 'users', null, 'main', null]], + ); + }); + + it('allows operations when authorizer returns SQLITE_OK', () => { + const db = new DatabaseSync(':memory:'); + db.setAuthorizer(() => constants.SQLITE_OK); + + db.exec('CREATE TABLE users (id INTEGER, name TEXT)'); + const tables = db.prepare("SELECT name FROM sqlite_master WHERE type='table'").all(); + + assert.strictEqual(tables[0].name, 'users'); + }); + + it('blocks operations when authorizer returns SQLITE_DENY', () => { + const db = new DatabaseSync(':memory:'); + db.setAuthorizer(() => constants.SQLITE_DENY); + + assert.throws(() => { + db.exec('SELECT 1'); + }, { + code: 'ERR_SQLITE_ERROR', + message: /not authorized/ + }); + }); + + it('ignores SELECT operations when authorizer returns SQLITE_IGNORE', () => { + const db = createTestDatabase(); + db.prepare('INSERT INTO users (id, name) VALUES (?, ?)').run(1, 'Alice'); + + db.setAuthorizer((actionCode) => { + if (actionCode === constants.SQLITE_SELECT) { + return constants.SQLITE_IGNORE; + } + return constants.SQLITE_OK; + }); + + // SELECT should be ignored and return no results + const result = db.prepare('SELECT * FROM users').all(); + assert.deepStrictEqual(result, []); + }); + + it('ignores READ operations when authorizer returns SQLITE_IGNORE', () => { + const db = createTestDatabase(); + db.prepare('INSERT INTO users (id, name) VALUES (?, ?)').run(1, 'Alice'); + + db.setAuthorizer((actionCode, arg1, arg2) => { + if (actionCode === constants.SQLITE_READ && arg1 === 'users' && arg2 === 'name') { + return constants.SQLITE_IGNORE; + } + return constants.SQLITE_OK; + }); + + // Reading the 'name' column should be ignored, returning NULL + const result = db.prepare('SELECT id, name FROM users WHERE id = 1').get(); + assert.strictEqual(result.id, 1); + assert.strictEqual(result.name, null); + }); + + it('ignores INSERT operations when authorizer returns SQLITE_IGNORE', () => { + const db = createTestDatabase(); + + db.setAuthorizer((actionCode) => { + if (actionCode === constants.SQLITE_INSERT) { + return constants.SQLITE_IGNORE; + } + return constants.SQLITE_OK; + }); + + db.prepare('INSERT INTO users (id, name) VALUES (?, ?)').run(1, 'Alice'); + + // Verify no data was inserted + const count = db.prepare('SELECT COUNT(*) as count FROM users').get(); + assert.strictEqual(count.count, 0); + }); + + it('ignores UPDATE operations when authorizer returns SQLITE_IGNORE', () => { + const db = createTestDatabase(); + db.exec("INSERT INTO users (id, name) VALUES (1, 'Alice')"); + + db.setAuthorizer((actionCode) => { + if (actionCode === constants.SQLITE_UPDATE) { + return constants.SQLITE_IGNORE; + } + return constants.SQLITE_OK; + }); + + db.prepare('UPDATE users SET name = ? WHERE id = ?').run('Bob', 1); + + // Verify data was not updated + const result = db.prepare('SELECT name FROM users WHERE id = 1').get(); + assert.strictEqual(result.name, 'Alice'); + }); + + it('ignores DELETE operations when authorizer returns SQLITE_IGNORE', () => { + const db = createTestDatabase(); + db.exec("INSERT INTO users (id, name) VALUES (1, 'Alice')"); + + db.setAuthorizer(() => constants.SQLITE_IGNORE); + + db.prepare('DELETE FROM users WHERE id = ?').run(1); + + db.setAuthorizer(null); + + // Verify data was not deleted + const count = db.prepare('SELECT COUNT(*) as count FROM users').get(); + assert.strictEqual(count.count, 1); + }); + + it('rethrows error when authorizer throws error', () => { + const db = new DatabaseSync(':memory:'); + db.setAuthorizer(() => { + throw new Error('Unknown error'); + }); + + assert.throws(() => { + db.exec('SELECT 1'); + }, { + message: 'Unknown error' + }); + }); + + it('throws error when authorizer returns nothing', () => { + const db = new DatabaseSync(':memory:'); + db.setAuthorizer(() => { + }); + + assert.throws(() => { + db.exec('SELECT 1'); + }, { + message: 'Authorizer callback must return an integer authorization code' + }); + }); + + it('throws error when authorizer returns NaN', () => { + const db = new DatabaseSync(':memory:'); + db.setAuthorizer(() => { + return '1'; + }); + + assert.throws(() => { + db.exec('SELECT 1'); + }, { + message: 'Authorizer callback must return an integer authorization code' + }); + }); + + it('throws error when authorizer returns a invalid code', () => { + const db = new DatabaseSync(':memory:'); + db.setAuthorizer(() => { + return 3; + }); + + assert.throws(() => { + db.exec('SELECT 1'); + }, { + message: 'Authorizer callback returned a invalid authorization code' + }); + }); + + it('clears authorizer when set to null', (t) => { + const authorizer = t.mock.fn(() => constants.SQLITE_OK); + const db = new DatabaseSync(':memory:'); + const statement = db.prepare('SELECT 1'); + + // Set authorizer and verify it's called + db.setAuthorizer(authorizer); + statement.run(); + assert.strictEqual(authorizer.mock.callCount(), 1); + + // Clear authorizer and verify it's no longer called + db.setAuthorizer(null); + statement.run(); + assert.strictEqual(authorizer.mock.callCount(), 1); + }); + + it('throws when callback is a string', () => { + const db = new DatabaseSync(':memory:'); + + assert.throws(() => { + db.setAuthorizer('not a function'); + }, { + code: 'ERR_INVALID_ARG_TYPE', + message: /The "callback" argument must be a function/ + }); + }); + + it('throws when callback is a number', () => { + const db = new DatabaseSync(':memory:'); + + assert.throws(() => { + db.setAuthorizer(1); + }, { + code: 'ERR_INVALID_ARG_TYPE', + message: /The "callback" argument must be a function/ + }); + }); + + it('throws when callback is an object', () => { + const db = new DatabaseSync(':memory:'); + + assert.throws(() => { + db.setAuthorizer({}); + }, { + code: 'ERR_INVALID_ARG_TYPE', + message: /The "callback" argument must be a function/ + }); + }); + + it('throws when callback is an array', () => { + const db = new DatabaseSync(':memory:'); + + assert.throws(() => { + db.setAuthorizer([]); + }, { + code: 'ERR_INVALID_ARG_TYPE', + message: /The "callback" argument must be a function/ + }); + }); + + it('throws when callback is undefined', () => { + const db = new DatabaseSync(':memory:'); + + assert.throws(() => { + db.setAuthorizer(); + }, { + code: 'ERR_INVALID_ARG_TYPE', + message: /The "callback" argument must be a function/ + }); + }); +}); diff --git a/test/parallel/test-sqlite-backup.mjs b/test/parallel/test-sqlite-backup.mjs index 46f25887edd1ef..5248acd07af4cb 100644 --- a/test/parallel/test-sqlite-backup.mjs +++ b/test/parallel/test-sqlite-backup.mjs @@ -1,3 +1,4 @@ +// Flags: --expose-gc import { isWindows, skipIfSQLiteMissing } from '../common/index.mjs'; import tmpdir from '../common/tmpdir.js'; import { join } from 'node:path'; @@ -242,3 +243,43 @@ test('backup has correct name and length', (t) => { t.assert.strictEqual(backup.name, 'backup'); t.assert.strictEqual(backup.length, 2); }); + +test('source database is kept alive while a backup is in flight', async (t) => { + // Regression test: previously, BackupJob stored a raw DatabaseSync* and the + // source could be garbage-collected while the backup was still running, + // leading to a use-after-free when BackupJob::Finalize() dereferenced the + // stale pointer via source_->RemoveBackup(this). + const destDb = nextDb(); + + let database = makeSourceDb(); + // Insert enough rows to ensure the backup takes multiple steps. + const insert = database.prepare('INSERT INTO data (key, value) VALUES (?, ?)'); + for (let i = 3; i <= 500; i++) { + insert.run(i, 'A'.repeat(1024) + i); + } + + const p = backup(database, destDb, { + rate: 1, + progress() {}, + }); + // Drop the last strong JS reference to the source database. With the bug, + // the DatabaseSync could be collected here and the in-flight backup would + // later crash while accessing the freed source. + database = null; + + // Nudge the GC aggressively, but the backup must keep the source alive + // regardless. Without the fix, the source DatabaseSync would be collected + // and BackupJob::Finalize() would crash the process. + for (let i = 0; i < 5; i++) { + global.gc(); + await new Promise((resolve) => setImmediate(resolve)); + } + + const totalPages = await p; + t.assert.ok(totalPages > 0); + + const backupDb = new DatabaseSync(destDb); + t.after(() => { backupDb.close(); }); + const rows = backupDb.prepare('SELECT COUNT(*) AS n FROM data').get(); + t.assert.strictEqual(rows.n, 500); +}); diff --git a/test/parallel/test-sqlite-data-types.js b/test/parallel/test-sqlite-data-types.js index 590c6d5bdc1e6e..26af15a777d234 100644 --- a/test/parallel/test-sqlite-data-types.js +++ b/test/parallel/test-sqlite-data-types.js @@ -82,6 +82,41 @@ suite('data binding and mapping', () => { }); }); + test('large strings are bound correctly', (t) => { + const db = new DatabaseSync(nextDb()); + t.after(() => { db.close(); }); + const setup = db.exec( + 'CREATE TABLE data(key INTEGER PRIMARY KEY, text TEXT) STRICT;' + ); + t.assert.strictEqual(setup, undefined); + + t.assert.deepStrictEqual( + db.prepare('INSERT INTO data (key, text) VALUES (?, ?)').run(1, ''), + { changes: 1, lastInsertRowid: 1 }, + ); + + const update = db.prepare('UPDATE data SET text = ? WHERE key = 1'); + + // > 1024 bytes so `Utf8Value` uses heap storage internally. + const largeAscii = 'a'.repeat(8 * 1024); + // Force a non-one-byte string path through UTF-8 conversion. + const largeUnicode = '\u2603'.repeat(2048); + + const res = update.run(largeAscii); + t.assert.strictEqual(res.changes, 1); + + t.assert.strictEqual( + db.prepare('SELECT text FROM data WHERE key = 1').get().text, + largeAscii, + ); + + t.assert.strictEqual(update.run(largeUnicode).changes, 1); + t.assert.strictEqual( + db.prepare('SELECT text FROM data WHERE key = 1').get().text, + largeUnicode, + ); + }); + test('unsupported data types', (t) => { const db = new DatabaseSync(nextDb()); t.after(() => { db.close(); }); diff --git a/test/parallel/test-sqlite-named-parameters.js b/test/parallel/test-sqlite-named-parameters.js index e1acd0f38fa2f7..db8f46e6b6ce5a 100644 --- a/test/parallel/test-sqlite-named-parameters.js +++ b/test/parallel/test-sqlite-named-parameters.js @@ -119,3 +119,103 @@ suite('StatementSync.prototype.setAllowUnknownNamedParameters()', () => { }); }); }); + +suite('options.allowUnknownNamedParameters', () => { + test('unknown named parameters are allowed when input is true', (t) => { + const db = new DatabaseSync(':memory:'); + t.after(() => { db.close(); }); + const setup = db.exec( + 'CREATE TABLE data(key INTEGER, val INTEGER) STRICT;' + ); + t.assert.strictEqual(setup, undefined); + const stmt = db.prepare( + 'INSERT INTO data (key, val) VALUES ($k, $v)', + { allowUnknownNamedParameters: true } + ); + const params = { $a: 1, $b: 2, $k: 42, $y: 25, $v: 84, $z: 99 }; + t.assert.deepStrictEqual( + stmt.run(params), + { changes: 1, lastInsertRowid: 1 }, + ); + }); + + test('unknown named parameters throw when input is false', (t) => { + const db = new DatabaseSync(':memory:'); + t.after(() => { db.close(); }); + const setup = db.exec( + 'CREATE TABLE data(key INTEGER, val INTEGER) STRICT;' + ); + t.assert.strictEqual(setup, undefined); + const stmt = db.prepare( + 'INSERT INTO data (key, val) VALUES ($k, $v)', + { allowUnknownNamedParameters: false } + ); + const params = { $a: 1, $b: 2, $k: 42, $y: 25, $v: 84, $z: 99 }; + t.assert.throws(() => { + stmt.run(params); + }, { + code: 'ERR_INVALID_STATE', + message: /Unknown named parameter '\$a'/, + }); + }); + + test('unknown named parameters throws error by default', (t) => { + const db = new DatabaseSync(':memory:'); + t.after(() => { db.close(); }); + const setup = db.exec( + 'CREATE TABLE data(key INTEGER, val INTEGER) STRICT;' + ); + t.assert.strictEqual(setup, undefined); + const stmt = db.prepare('INSERT INTO data (key, val) VALUES ($k, $v)'); + const params = { $a: 1, $b: 2, $k: 42, $y: 25, $v: 84, $z: 99 }; + t.assert.throws(() => { + stmt.run(params); + }, { + code: 'ERR_INVALID_STATE', + message: /Unknown named parameter '\$a'/, + }); + }); + + test('throws when option is not a boolean', (t) => { + const db = new DatabaseSync(':memory:'); + t.after(() => { db.close(); }); + const setup = db.exec( + 'CREATE TABLE data(key INTEGER PRIMARY KEY, val INTEGER) STRICT;' + ); + t.assert.strictEqual(setup, undefined); + t.assert.throws(() => { + db.prepare( + 'INSERT INTO data (key, val) VALUES ($k, $v)', + { allowUnknownNamedParameters: 'true' } + ); + }, { + code: 'ERR_INVALID_ARG_TYPE', + message: /The "options\.allowUnknownNamedParameters" argument must be a boolean/, + }); + }); + + test('setAllowUnknownNamedParameters can override prepare option', (t) => { + const db = new DatabaseSync(':memory:'); + t.after(() => { db.close(); }); + const setup = db.exec( + 'CREATE TABLE data(key INTEGER, val INTEGER) STRICT;' + ); + t.assert.strictEqual(setup, undefined); + const stmt = db.prepare( + 'INSERT INTO data (key, val) VALUES ($k, $v)', + { allowUnknownNamedParameters: true } + ); + const params = { $a: 1, $b: 2, $k: 42, $y: 25, $v: 84, $z: 99 }; + t.assert.deepStrictEqual( + stmt.run(params), + { changes: 1, lastInsertRowid: 1 }, + ); + t.assert.strictEqual(stmt.setAllowUnknownNamedParameters(false), undefined); + t.assert.throws(() => { + stmt.run(params); + }, { + code: 'ERR_INVALID_STATE', + message: /Unknown named parameter '\$a'/, + }); + }); +}); diff --git a/test/parallel/test-sqlite-session.js b/test/parallel/test-sqlite-session.js index 5d0cdd3d3c9a8d..6f559bebb9f9dd 100644 --- a/test/parallel/test-sqlite-session.js +++ b/test/parallel/test-sqlite-session.js @@ -471,6 +471,27 @@ test('database.applyChangeset() - wrong arguments', (t) => { }); }); +test('database.applyChangeset() - malformed changeset returns SQLITE_CORRUPT', { + skip: process.config.variables.node_shared_sqlite ? + 'requires the bundled SQLite session fix' : false, +}, (t) => { + const database = new DatabaseSync(':memory:'); + database.exec('CREATE TABLE t1(a INTEGER PRIMARY KEY, b, c, d)'); + + const changeset = Buffer.from( + '540401000000743100177e0072286565286565', + 'hex'); + + t.assert.throws(() => { + database.applyChangeset(changeset); + }, { + name: 'Error', + message: 'database disk image is malformed', + errcode: 11, + code: 'ERR_SQLITE_ERROR', + }); +}); + test('session.patchset()', (t) => { const database = new DatabaseSync(':memory:'); database.exec('CREATE TABLE data(key INTEGER PRIMARY KEY, value TEXT)'); diff --git a/test/parallel/test-sqlite-statement-sync.js b/test/parallel/test-sqlite-statement-sync.js index 04494a02c692a8..62e95363f1c46a 100644 --- a/test/parallel/test-sqlite-statement-sync.js +++ b/test/parallel/test-sqlite-statement-sync.js @@ -609,3 +609,248 @@ suite('StatementSync.prototype.setAllowBareNamedParameters()', () => { }); }); }); + +suite('options.readBigInts', () => { + test('BigInts are returned when input is true', (t) => { + const db = new DatabaseSync(nextDb()); + t.after(() => { db.close(); }); + const setup = db.exec(` + CREATE TABLE data(key INTEGER PRIMARY KEY, val INTEGER) STRICT; + INSERT INTO data (key, val) VALUES (1, 42); + `); + t.assert.strictEqual(setup, undefined); + + const query = db.prepare('SELECT val FROM data', { readBigInts: true }); + t.assert.deepStrictEqual(query.get(), { __proto__: null, val: 42n }); + }); + + test('numbers are returned when input is false', (t) => { + const db = new DatabaseSync(nextDb()); + t.after(() => { db.close(); }); + const setup = db.exec(` + CREATE TABLE data(key INTEGER PRIMARY KEY, val INTEGER) STRICT; + INSERT INTO data (key, val) VALUES (1, 42); + `); + t.assert.strictEqual(setup, undefined); + + const query = db.prepare('SELECT val FROM data', { readBigInts: false }); + t.assert.deepStrictEqual(query.get(), { __proto__: null, val: 42 }); + }); + + test('throws when input is not a boolean', (t) => { + const db = new DatabaseSync(nextDb()); + t.after(() => { db.close(); }); + const setup = db.exec( + 'CREATE TABLE data(key INTEGER PRIMARY KEY, val INTEGER) STRICT;' + ); + t.assert.strictEqual(setup, undefined); + t.assert.throws(() => { + db.prepare('SELECT val FROM data', { readBigInts: 'true' }); + }, { + code: 'ERR_INVALID_ARG_TYPE', + message: /The "options\.readBigInts" argument must be a boolean/, + }); + }); + + test('setReadBigInts can override prepare option', (t) => { + const db = new DatabaseSync(nextDb()); + t.after(() => { db.close(); }); + const setup = db.exec(` + CREATE TABLE data(key INTEGER PRIMARY KEY, val INTEGER) STRICT; + INSERT INTO data (key, val) VALUES (1, 42); + `); + t.assert.strictEqual(setup, undefined); + + const query = db.prepare('SELECT val FROM data', { readBigInts: true }); + t.assert.deepStrictEqual(query.get(), { __proto__: null, val: 42n }); + t.assert.strictEqual(query.setReadBigInts(false), undefined); + t.assert.deepStrictEqual(query.get(), { __proto__: null, val: 42 }); + }); +}); + +suite('options.returnArrays', () => { + test('arrays are returned when input is true', (t) => { + const db = new DatabaseSync(nextDb()); + t.after(() => { db.close(); }); + const setup = db.exec(` + CREATE TABLE data(key INTEGER PRIMARY KEY, val TEXT) STRICT; + INSERT INTO data (key, val) VALUES (1, 'one'); + `); + t.assert.strictEqual(setup, undefined); + + const query = db.prepare( + 'SELECT key, val FROM data WHERE key = 1', + { returnArrays: true } + ); + t.assert.deepStrictEqual(query.get(), [1, 'one']); + }); + + test('objects are returned when input is false', (t) => { + const db = new DatabaseSync(nextDb()); + t.after(() => { db.close(); }); + const setup = db.exec(` + CREATE TABLE data(key INTEGER PRIMARY KEY, val TEXT) STRICT; + INSERT INTO data (key, val) VALUES (1, 'one'); + `); + t.assert.strictEqual(setup, undefined); + + const query = db.prepare( + 'SELECT key, val FROM data WHERE key = 1', + { returnArrays: false } + ); + t.assert.deepStrictEqual(query.get(), { __proto__: null, key: 1, val: 'one' }); + }); + + test('throws when input is not a boolean', (t) => { + const db = new DatabaseSync(nextDb()); + t.after(() => { db.close(); }); + const setup = db.exec( + 'CREATE TABLE data(key INTEGER PRIMARY KEY, val TEXT) STRICT;' + ); + t.assert.strictEqual(setup, undefined); + t.assert.throws(() => { + db.prepare('SELECT key, val FROM data', { returnArrays: 'true' }); + }, { + code: 'ERR_INVALID_ARG_TYPE', + message: /The "options\.returnArrays" argument must be a boolean/, + }); + }); + + test('setReturnArrays can override prepare option', (t) => { + const db = new DatabaseSync(nextDb()); + t.after(() => { db.close(); }); + const setup = db.exec(` + CREATE TABLE data(key INTEGER PRIMARY KEY, val TEXT) STRICT; + INSERT INTO data (key, val) VALUES (1, 'one'); + `); + t.assert.strictEqual(setup, undefined); + + const query = db.prepare( + 'SELECT key, val FROM data WHERE key = 1', + { returnArrays: true } + ); + t.assert.deepStrictEqual(query.get(), [1, 'one']); + t.assert.strictEqual(query.setReturnArrays(false), undefined); + t.assert.deepStrictEqual(query.get(), { __proto__: null, key: 1, val: 'one' }); + }); + + test('all() returns arrays when input is true', (t) => { + const db = new DatabaseSync(nextDb()); + t.after(() => { db.close(); }); + const setup = db.exec(` + CREATE TABLE data(key INTEGER PRIMARY KEY, val TEXT) STRICT; + INSERT INTO data (key, val) VALUES (1, 'one'); + INSERT INTO data (key, val) VALUES (2, 'two'); + `); + t.assert.strictEqual(setup, undefined); + + const query = db.prepare( + 'SELECT key, val FROM data ORDER BY key', + { returnArrays: true } + ); + t.assert.deepStrictEqual(query.all(), [ + [1, 'one'], + [2, 'two'], + ]); + }); + + test('iterate() returns arrays when input is true', (t) => { + const db = new DatabaseSync(nextDb()); + t.after(() => { db.close(); }); + const setup = db.exec(` + CREATE TABLE data(key INTEGER PRIMARY KEY, val TEXT) STRICT; + INSERT INTO data (key, val) VALUES (1, 'one'); + INSERT INTO data (key, val) VALUES (2, 'two'); + `); + t.assert.strictEqual(setup, undefined); + + const query = db.prepare( + 'SELECT key, val FROM data ORDER BY key', + { returnArrays: true } + ); + t.assert.deepStrictEqual(query.iterate().toArray(), [ + [1, 'one'], + [2, 'two'], + ]); + }); +}); + +suite('options.allowBareNamedParameters', () => { + test('bare named parameters are allowed when input is true', (t) => { + const db = new DatabaseSync(nextDb()); + t.after(() => { db.close(); }); + const setup = db.exec( + 'CREATE TABLE data(key INTEGER PRIMARY KEY, val INTEGER) STRICT;' + ); + t.assert.strictEqual(setup, undefined); + const stmt = db.prepare( + 'INSERT INTO data (key, val) VALUES ($k, $v)', + { allowBareNamedParameters: true } + ); + t.assert.deepStrictEqual( + stmt.run({ k: 1, v: 2 }), + { changes: 1, lastInsertRowid: 1 }, + ); + }); + + test('bare named parameters throw when input is false', (t) => { + const db = new DatabaseSync(nextDb()); + t.after(() => { db.close(); }); + const setup = db.exec( + 'CREATE TABLE data(key INTEGER PRIMARY KEY, val INTEGER) STRICT;' + ); + t.assert.strictEqual(setup, undefined); + const stmt = db.prepare( + 'INSERT INTO data (key, val) VALUES ($k, $v)', + { allowBareNamedParameters: false } + ); + t.assert.throws(() => { + stmt.run({ k: 1, v: 2 }); + }, { + code: 'ERR_INVALID_STATE', + message: /Unknown named parameter 'k'/, + }); + }); + + test('throws when input is not a boolean', (t) => { + const db = new DatabaseSync(nextDb()); + t.after(() => { db.close(); }); + const setup = db.exec( + 'CREATE TABLE data(key INTEGER PRIMARY KEY, val INTEGER) STRICT;' + ); + t.assert.strictEqual(setup, undefined); + t.assert.throws(() => { + db.prepare( + 'INSERT INTO data (key, val) VALUES ($k, $v)', + { allowBareNamedParameters: 'true' } + ); + }, { + code: 'ERR_INVALID_ARG_TYPE', + message: /The "options\.allowBareNamedParameters" argument must be a boolean/, + }); + }); + + test('setAllowBareNamedParameters can override prepare option', (t) => { + const db = new DatabaseSync(nextDb()); + t.after(() => { db.close(); }); + const setup = db.exec( + 'CREATE TABLE data(key INTEGER PRIMARY KEY, val INTEGER) STRICT;' + ); + t.assert.strictEqual(setup, undefined); + const stmt = db.prepare( + 'INSERT INTO data (key, val) VALUES ($k, $v)', + { allowBareNamedParameters: false } + ); + t.assert.throws(() => { + stmt.run({ k: 1, v: 2 }); + }, { + code: 'ERR_INVALID_STATE', + message: /Unknown named parameter 'k'/, + }); + t.assert.strictEqual(stmt.setAllowBareNamedParameters(true), undefined); + t.assert.deepStrictEqual( + stmt.run({ k: 2, v: 4 }), + { changes: 1, lastInsertRowid: 2 }, + ); + }); +}); diff --git a/test/parallel/test-sqlite.js b/test/parallel/test-sqlite.js index 602f2fa2daa46d..ebbcd27d1345c2 100644 --- a/test/parallel/test-sqlite.js +++ b/test/parallel/test-sqlite.js @@ -204,6 +204,19 @@ suite('SQL APIs enabled at build time', () => { ); }); + test('percentile is enabled', (t) => { + const db = new DatabaseSync(':memory:'); + db.exec(` + CREATE TABLE t1 (x INTEGER); + INSERT INTO t1 (x) VALUES (1), (2), (3), (4), (5); + `); + + t.assert.deepStrictEqual( + db.prepare('SELECT percentile(x, 50) AS p50 FROM t1;').get(), + { __proto__: null, p50: 3 }, + ); + }); + test('dbstat is enabled', (t) => { const db = new DatabaseSync(nextDb()); t.after(() => { db.close(); }); @@ -244,7 +257,7 @@ suite('SQL APIs enabled at build time', () => { ); }); - test('fts3 parenthesis', (t) => { + test('fts3 parenthesis is enabled', (t) => { const db = new DatabaseSync(':memory:'); db.exec(` CREATE VIRTUAL TABLE t1 USING fts3(content TEXT); diff --git a/test/parallel/test-stream-consumers.js b/test/parallel/test-stream-consumers.js index 883d55dc6f02fb..150808037252fa 100644 --- a/test/parallel/test-stream-consumers.js +++ b/test/parallel/test-stream-consumers.js @@ -8,6 +8,7 @@ const { arrayBuffer, blob, buffer, + bytes, text, json, } = require('stream/consumers'); @@ -61,6 +62,18 @@ const kArrayBuffer = setTimeout(() => passthrough.end('there'), 10); } +{ + const passthrough = new PassThrough(); + + bytes(passthrough).then(common.mustCall((uint8arr) => { + assert(uint8arr instanceof Uint8Array); + assert.strictEqual(uint8arr.byteLength, 10); + assert.deepStrictEqual(Buffer.from(uint8arr), buf); + })); + + passthrough.write('hello'); + setTimeout(() => passthrough.end('there'), 10); +} { const passthrough = new PassThrough(); @@ -219,6 +232,24 @@ const kArrayBuffer = stream.end({}); } +{ + const stream = new PassThrough({ + readableObjectMode: true, + writableObjectMode: true, + }); + + bytes(stream).then(common.mustCall((uint8arr) => { + assert(uint8arr instanceof Uint8Array); + assert.strictEqual(uint8arr.byteLength, 30); + assert.strictEqual( + Buffer.from(uint8arr).toString(), + '[object Object][object Object]'); + })); + + stream.write({}); + stream.end({}); +} + { const stream = new PassThrough({ readableObjectMode: true, diff --git a/test/parallel/test-stream-duplex-from.js b/test/parallel/test-stream-duplex-from.js index e3c117ff8dedb0..2b31518500ae1d 100644 --- a/test/parallel/test-stream-duplex-from.js +++ b/test/parallel/test-stream-duplex-from.js @@ -401,3 +401,20 @@ function makeATestWritableStream(writeFunc) { assert.strictEqual(d.writable, false); })); } + +// When the readable side errors, the error must propagate to the writable side. +{ + const expectedErr = new Error('readable error'); + const r = new Readable({ read() {} }); + const w = new Writable({ + write(chunk, encoding, callback) { callback(); }, + }); + const d = Duplex.from({ readable: r, writable: w }); + d.on('error', common.mustCall((err) => { + assert.strictEqual(err, expectedErr); + })); + w.on('error', common.mustCall((err) => { + assert.strictEqual(err, expectedErr); + })); + r.destroy(expectedErr); +} diff --git a/test/parallel/test-stream-compose-operator.js b/test/parallel/test-stream-readable-compose.js similarity index 69% rename from test/parallel/test-stream-compose-operator.js rename to test/parallel/test-stream-readable-compose.js index 4fefb004f5a1e5..b31b5d871a60f7 100644 --- a/test/parallel/test-stream-compose-operator.js +++ b/test/parallel/test-stream-readable-compose.js @@ -2,7 +2,9 @@ const common = require('../common'); const { - Readable, Transform, + PassThrough, + Readable, + Transform, } = require('stream'); const assert = require('assert'); @@ -19,6 +21,8 @@ const assert = require('assert'); } } }); + assert.strictEqual(stream.readable, true); + assert.strictEqual(stream.writable, false); const result = ['ab', 'cd']; (async () => { for await (const item of stream) { @@ -35,6 +39,8 @@ const assert = require('assert'); callback(null, chunk); }, 4) })); + assert.strictEqual(stream.readable, true); + assert.strictEqual(stream.writable, false); const result = ['a', 'b', 'c', 'd']; (async () => { for await (const item of stream) { @@ -43,6 +49,26 @@ const assert = require('assert'); })().then(common.mustCall()); } +{ + // With Duplex stream as `this`, ensuring writes to the composed stream + // are passed to the head of the pipeline + const pt = new PassThrough({ objectMode: true }); + const composed = pt.compose(async function *(stream) { + for await (const chunk of stream) { + yield chunk * 2; + } + }); + assert.strictEqual(composed.readable, true); + assert.strictEqual(composed.writable, true); + pt.on('data', common.mustCall((chunk) => { + assert.strictEqual(chunk, 123); + })); + composed.on('data', common.mustCall((chunk) => { + assert.strictEqual(chunk, 246); + })); + composed.end(123); +} + { // Throwing an error during `compose` (before waiting for data) const stream = Readable.from([1, 2, 3, 4, 5]).compose(async function *(stream) { // eslint-disable-line require-yield @@ -90,6 +116,24 @@ const assert = require('assert'); ).then(common.mustCall()); } +{ + // Errors from nested `.compose()` calls should propagate instead of hanging. + const stream = Readable.from(['hello']) + .compose(async function *(source) { // eslint-disable-line require-yield + for await (const chunk of source) { + throw new Error(`boom: ${chunk}`); + } + }) + .compose(async function *(source) { + yield* source; + }); + + assert.rejects( + stream.toArray(), + /boom: hello/, + ).then(common.mustCall()); +} + { // AbortSignal const ac = new AbortController(); diff --git a/test/parallel/test-trace-exit.js b/test/parallel/test-trace-exit.js index 7a4c222c40f74c..bfe412c5fba9c7 100644 --- a/test/parallel/test-trace-exit.js +++ b/test/parallel/test-trace-exit.js @@ -7,26 +7,22 @@ const { Worker, isMainThread, workerData } = require('worker_threads'); const variant = process.argv[process.argv.length - 1]; switch (true) { - case variant === 'main-thread': { - return; - } - case variant === 'main-thread-exit': { + case isMainThread ? variant === 'main-thread-exit' : workerData === 'worker-thread-exit': return process.exit(0); - } case variant.startsWith('worker-thread'): { const worker = new Worker(__filename, { workerData: variant }); worker.on('error', common.mustNotCall()); worker.on('exit', common.mustCall((code) => { assert.strictEqual(code, 0); })); - return; } - case !isMainThread: { - if (workerData === 'worker-thread-exit') { - process.exit(0); - } + // eslint-disable-next-line no-fallthrough + case variant === 'main-thread': + // eslint-disable-next-line no-fallthrough + case variant === 'main-thread-exit': + // eslint-disable-next-line no-fallthrough + case !isMainThread: return; - } } (async function() { diff --git a/test/parallel/test-url-format-whatwg.js b/test/parallel/test-url-format-whatwg.js index f399e0faf1d16a..12594335d6bd67 100644 --- a/test/parallel/test-url-format-whatwg.js +++ b/test/parallel/test-url-format-whatwg.js @@ -147,3 +147,11 @@ test('should format tel: prefix', { skip: !hasIntl }, () => { url.format(new URL('tel:123'), { unicode: true }) ); }); + +// Regression test: url.format should not crash on URLs that ada::url_aggregator +// can parse but ada::url cannot (e.g. special scheme URLs with opaque paths). +test('should not crash on URLs with invalid IDN hostnames', () => { + const u = new URL('ws:xn-\u022B'); + // doesNotThrow + url.format(u, { fragment: false, unicode: false, auth: false, search: false }); +}); diff --git a/test/parallel/test-util-getcallsite.js b/test/parallel/test-util-getcallsite.js deleted file mode 100644 index 34b52e9b20a6bb..00000000000000 --- a/test/parallel/test-util-getcallsite.js +++ /dev/null @@ -1,9 +0,0 @@ -'use strict'; - -require('../common'); -const { getCallSite } = require('node:util'); -const { expectWarning } = require('../common'); - -const warning = 'The `util.getCallSite` API has been renamed to `util.getCallSites()`.'; -expectWarning('ExperimentalWarning', warning); -getCallSite(); diff --git a/test/parallel/test-util-types.js b/test/parallel/test-util-types.js index 75b77a03e1ac81..93323028afc8ce 100644 --- a/test/parallel/test-util-types.js +++ b/test/parallel/test-util-types.js @@ -654,23 +654,6 @@ for (const [ value, _method ] of [ } } -{ - function testIsDataView(input) { - return types.isDataView(input); - } - - eval('%PrepareFunctionForOptimization(testIsDataView)'); - testIsDataView(new DataView(new ArrayBuffer())); - eval('%OptimizeFunctionOnNextCall(testIsDataView)'); - assert.strictEqual(testIsDataView(new DataView(new ArrayBuffer())), true); - assert.strictEqual(testIsDataView(Math.random()), false); - - if (common.isDebug) { - const { getV8FastApiCallCount } = internalBinding('debug'); - assert.strictEqual(getV8FastApiCallCount('types.isDataView'), 2); - } -} - { function testIsSharedArrayBuffer(input) { return types.isSharedArrayBuffer(input); diff --git a/test/parallel/test-util.js b/test/parallel/test-util.js index 9a8b885647a31e..e7c2b266d2d45e 100644 --- a/test/parallel/test-util.js +++ b/test/parallel/test-util.js @@ -186,3 +186,13 @@ assert.throws(() => { message: 'The "str" argument must be of type string.' + common.invalidArgTypeHelper({}) }); + +// stripVTControlCharacters: fast path returns input when no ANSI codes +assert.strictEqual(util.stripVTControlCharacters('hello'), 'hello'); +assert.strictEqual(util.stripVTControlCharacters(''), ''); + +// stripVTControlCharacters: strips 7-bit ESC sequences +assert.strictEqual(util.stripVTControlCharacters('\u001B[31mfoo\u001B[39m'), 'foo'); + +// stripVTControlCharacters: strips 8-bit CSI sequences +assert.strictEqual(util.stripVTControlCharacters('\u009B31mfoo\u009B39m'), 'foo'); diff --git a/test/parallel/test-validators.js b/test/parallel/test-validators.js index 848fa0c27bbebe..8acb04f3d072bc 100644 --- a/test/parallel/test-validators.js +++ b/test/parallel/test-validators.js @@ -93,6 +93,14 @@ const invalidArgValueError = { assert.throws(() => { validateArray([], 'foo', 1); }, invalidArgValueError); + + validateArray([1, 2, 3], 'foo', 3); + assert.throws(() => { + validateArray([1, 2], 'foo', 3); + }, (err) => { + assert.ok(err.message.includes('at least 3'), `Expected "at least 3" in: ${err.message}`); + return true; + }); } { diff --git a/test/parallel/test-vm-global-contextual-store.js b/test/parallel/test-vm-global-contextual-store.js new file mode 100644 index 00000000000000..1ae74adb541b58 --- /dev/null +++ b/test/parallel/test-vm-global-contextual-store.js @@ -0,0 +1,19 @@ +'use strict'; + +require('../common'); +const assert = require('assert'); +const vm = require('vm'); + +const ctx = vm.createContext({ x: 0 }); + +// Global properties should be intercepted in strict mode +vm.runInContext('"use strict"; x = 42', ctx); +assert.strictEqual(ctx.x, 42); + +// Contextual store should only be intercepted in non-strict mode +vm.runInContext('y = 42', ctx); +assert.strictEqual(ctx.y, 42); + +assert.throws(() => vm.runInContext('"use strict"; z = 42', ctx), + /ReferenceError: z is not defined/); +assert.strictEqual(Object.hasOwn(ctx, 'z'), false); diff --git a/test/parallel/test-webcrypto-util.js b/test/parallel/test-webcrypto-util.js index b8d5361433fd0e..9763acfb71e098 100644 --- a/test/parallel/test-webcrypto-util.js +++ b/test/parallel/test-webcrypto-util.js @@ -8,12 +8,73 @@ if (!common.hasCrypto) const assert = require('assert'); const { + bigIntArrayToUnsignedInt, normalizeAlgorithm, + validateKeyOps, } = require('internal/crypto/util'); +// bigIntArrayToUnsignedInt must return an unsigned 32-bit value even when +// the most significant byte has its top bit set. Otherwise the signed `<<` +// operator yields a negative Int32 for inputs like [0x80, 0x00, 0x00, 0x01]. +{ + assert.strictEqual( + bigIntArrayToUnsignedInt(new Uint8Array([0x80, 0x00, 0x00, 0x01])), + 0x80000001); + assert.strictEqual( + bigIntArrayToUnsignedInt(new Uint8Array([0xff, 0xff, 0xff, 0xff])), + 0xffffffff); + assert.strictEqual( + bigIntArrayToUnsignedInt(new Uint8Array([1, 0, 1])), + 65537); + assert.strictEqual( + bigIntArrayToUnsignedInt(new Uint8Array([1, 0, 0, 0, 0])), + undefined); +} + { // Check that normalizeAlgorithm does not mutate object inputs. const algorithm = { name: 'ECDSA', hash: 'SHA-256' }; assert.strictEqual(normalizeAlgorithm(algorithm, 'sign') !== algorithm, true); assert.deepStrictEqual(algorithm, { name: 'ECDSA', hash: 'SHA-256' }); } + +// The algorithm name getter should only be invoked once during +// normalizeAlgorithm, including for algorithms with a non-null desiredType +// where step 6 runs the specialized dictionary converter. +// Refs: https://github.com/web-platform-tests/wpt/pull/57614#pullrequestreview-3808145365 +{ + let nameReadCount = 0; + const algorithm = { + get name() { + nameReadCount++; + return 'AES-GCM'; + }, + iv: new Uint8Array(12), + }; + const normalized = normalizeAlgorithm(algorithm, 'encrypt'); + assert.strictEqual(normalized.name, 'AES-GCM'); + assert.strictEqual(nameReadCount, 1); +} + +{ + let nameReadCount = 0; + const algorithm = { + get name() { + nameReadCount++; + return 'ECDSA'; + }, + hash: 'SHA-256', + }; + const normalized = normalizeAlgorithm(algorithm, 'sign'); + assert.strictEqual(normalized.name, 'ECDSA'); + assert.strictEqual(nameReadCount, 1); +} + +{ + for (const ops of [ + ['sign', 'toString', 'constructor'], + ['sign', '__proto__', 'constructor'], + ]) { + validateKeyOps(ops); + } +} diff --git a/test/parallel/test-webstreams-duplex-fromweb-writev-unhandled-rejection.js b/test/parallel/test-webstreams-duplex-fromweb-writev-unhandled-rejection.js new file mode 100644 index 00000000000000..5367b2a09e1f42 --- /dev/null +++ b/test/parallel/test-webstreams-duplex-fromweb-writev-unhandled-rejection.js @@ -0,0 +1,55 @@ +'use strict'; + +// Regression test for https://github.com/nodejs/node/issues/62199 +// +// When Duplex.fromWeb is corked, writes are batched into _writev. If destroy() +// is called in the same microtask (after uncork()), writer.ready rejects with a +// non-array value. The done() callback inside _writev unconditionally called +// error.filter(), which throws TypeError on non-arrays. This TypeError became +// an unhandled rejection that crashed the process. +// +// The same bug exists in newStreamWritableFromWritableStream (Writable.fromWeb). + +const common = require('../common'); +const { Duplex, Writable } = require('stream'); +const { TransformStream, WritableStream } = require('stream/web'); + +// Exact reproduction from the issue report (davidje13). +// Before the fix: process crashes with unhandled TypeError. +// After the fix: stream closes cleanly with no unhandled rejection. +{ + const output = Duplex.fromWeb(new TransformStream()); + + output.on('close', common.mustCall()); + + output.cork(); + output.write('test'); + output.write('test'); + output.uncork(); + output.destroy(); +} + +// Same bug in Writable.fromWeb (newStreamWritableFromWritableStream). +{ + const writable = Writable.fromWeb(new WritableStream()); + + writable.on('close', common.mustCall()); + + writable.cork(); + writable.write('test'); + writable.write('test'); + writable.uncork(); + writable.destroy(); +} + +// Regression: normal cork/uncork/_writev success path must still work. +// Verifies that () => done() correctly signals success via callback(). +{ + const writable = Writable.fromWeb(new WritableStream({ write() {} })); + + writable.cork(); + writable.write('foo'); + writable.write('bar'); + writable.uncork(); + writable.end(common.mustCall()); +} diff --git a/test/parallel/test-whatwg-transformstream-cancel-write-race.js b/test/parallel/test-whatwg-transformstream-cancel-write-race.js new file mode 100644 index 00000000000000..5c32a25b9246f9 --- /dev/null +++ b/test/parallel/test-whatwg-transformstream-cancel-write-race.js @@ -0,0 +1,51 @@ +'use strict'; + +require('../common'); +const { test } = require('node:test'); +const assert = require('node:assert'); +const { TransformStream } = require('stream/web'); +const { setTimeout } = require('timers/promises'); + +// https://github.com/nodejs/node/issues/62036 + +test('Late write racing with reader.cancel() should not throw an internal TypeError', async () => { + const stream = new TransformStream({ + transform(chunk, controller) { + controller.enqueue(chunk); + }, + }); + + await setTimeout(0); + + const reader = stream.readable.getReader(); + const writer = stream.writable.getWriter(); + + // Release backpressure. + const pendingRead = reader.read(); + + // Simulate client disconnect / shutdown. + const pendingCancel = reader.cancel(new Error('client disconnected')); + + // Late write racing with cancel. + const pendingLateWrite = writer.write('late-write'); + + const [ + readResult, + cancelResult, + lateWriteResult, + ] = await Promise.allSettled([ + pendingRead, + pendingCancel, + pendingLateWrite, + ]); + + assert.strictEqual(readResult.status, 'fulfilled'); + assert.strictEqual(cancelResult.status, 'fulfilled'); + if (lateWriteResult.status === 'rejected') { + const err = lateWriteResult.reason; + const isNotAFunction = err instanceof TypeError && + /transformAlgorithm is not a function/.test(err.message); + assert.ok(!isNotAFunction, + `Internal implementation error leaked: ${err.message}`); + } +}); diff --git a/test/parallel/test-worker-cwd-race-condition.js b/test/parallel/test-worker-cwd-race-condition.js new file mode 100644 index 00000000000000..19394c85f0d1c4 --- /dev/null +++ b/test/parallel/test-worker-cwd-race-condition.js @@ -0,0 +1,70 @@ +// Flags: --expose-internals --no-warnings +'use strict'; + +const common = require('../common'); +const { isMainThread } = require('worker_threads'); + +if (!isMainThread) { + common.skip('process.chdir is not available in Workers'); +} + +const { internalBinding } = require('internal/test/binding'); + +const assert = require('assert'); +const { Worker } = require('worker_threads'); + +const processBinding = internalBinding('process_methods'); +const originalChdir = processBinding.chdir; + +const cwdOriginal = process.cwd(); +const i32 = new Int32Array(new SharedArrayBuffer(12)); + +processBinding.chdir = common.mustCall(function chdir(path) { + // Signal to the worker that we're inside the chdir call + Atomics.store(i32, 0, 1); + Atomics.notify(i32, 0); + + // Pause the chdir call while the worker calls process.cwd(), + // to simulate a race condition + Atomics.wait(i32, 1, 0); + + return originalChdir(path); +}); + +const worker = new Worker(` + const { + parentPort, + workerData: { i32 }, + } = require('worker_threads'); + + // Wait until the main thread has entered the chdir call + Atomics.wait(i32, 0, 0); + + const cwdDuringChdir = process.cwd(); + + // Signal the main thread to continue the chdir call + Atomics.store(i32, 1, 1); + Atomics.notify(i32, 1); + + // Wait until the main thread has left the chdir call + Atomics.wait(i32, 2, 0); + + const cwdAfterChdir = process.cwd(); + parentPort.postMessage({ cwdDuringChdir, cwdAfterChdir }); +`, { + eval: true, + workerData: { i32 }, +}); + +worker.on('exit', common.mustCall()); +worker.on('error', common.mustNotCall()); +worker.on('message', common.mustCall(({ cwdDuringChdir, cwdAfterChdir }) => { + assert.strictEqual(cwdDuringChdir, cwdOriginal); + assert.strictEqual(cwdAfterChdir, process.cwd()); +})); + +process.chdir('..'); + +// Signal to the worker that the chdir call is completed +Atomics.store(i32, 2, 1); +Atomics.notify(i32, 2); diff --git a/test/parallel/test-worker-nearheaplimit-deadlock.js b/test/parallel/test-worker-nearheaplimit-deadlock.js index b22c86b211611f..b7f19f6089e88c 100644 --- a/test/parallel/test-worker-nearheaplimit-deadlock.js +++ b/test/parallel/test-worker-nearheaplimit-deadlock.js @@ -1,7 +1,9 @@ -// Flags: --no-node-snapshot +// Flags: --no-node-snapshot --no-maglev // With node snapshot the OOM can occur during the deserialization of the // context, so disable it since we want the OOM to occur during the creation of // the message port. +// With Maglev, the OOM can occur during compilation instead, so disable it for +// the same reason. 'use strict'; const common = require('../common'); const assert = require('assert'); diff --git a/test/parallel/test-worker-safe-getters.js b/test/parallel/test-worker-safe-getters.js index 69856659a5773b..a22f92b3354a4b 100644 --- a/test/parallel/test-worker-safe-getters.js +++ b/test/parallel/test-worker-safe-getters.js @@ -29,6 +29,4 @@ if (isMainThread) { assert.strictEqual(w.stdout, stdout); assert.strictEqual(w.stderr, stderr); })); -} else { - process.exit(0); } diff --git a/test/parallel/test-worker-stdio-flush-inflight.js b/test/parallel/test-worker-stdio-flush-inflight.js index 34b81152811e7b..a51656ca1ec880 100644 --- a/test/parallel/test-worker-stdio-flush-inflight.js +++ b/test/parallel/test-worker-stdio-flush-inflight.js @@ -20,5 +20,4 @@ if (isMainThread) { process.stdout.write('hello'); process.stdout.write(' '); process.stdout.write('world'); - process.exit(0); } diff --git a/test/parallel/test-worker-thread-name.js b/test/parallel/test-worker-thread-name.js index 47e497b07b5164..541761b4e2d1b7 100644 --- a/test/parallel/test-worker-thread-name.js +++ b/test/parallel/test-worker-thread-name.js @@ -8,7 +8,6 @@ const name = 'test-worker-thread-name'; if (workerData?.isWorker) { assert.strictEqual(threadName, name); - process.exit(0); } else { const w = new Worker(__filename, { name, workerData: { isWorker: true } }); assert.strictEqual(w.threadName, name); diff --git a/test/parallel/test-zlib-brotli-16GB.js b/test/parallel/test-zlib-brotli-16GB.js index 9b894320e91ebd..7bd5a137f908fd 100644 --- a/test/parallel/test-zlib-brotli-16GB.js +++ b/test/parallel/test-zlib-brotli-16GB.js @@ -2,7 +2,7 @@ const common = require('../common'); const { createBrotliDecompress } = require('node:zlib'); -const strictEqual = require('node:assert').strictEqual; +const assert = require('node:assert'); const { getDefaultHighWaterMark } = require('stream'); // This tiny HEX string is a 16GB file. @@ -19,5 +19,5 @@ decoder.end(buf); // to process the data and the buffer is not empty. setTimeout(common.mustCall(() => { // There is only one chunk in the buffer - strictEqual(decoder._readableState.buffer.length, getDefaultHighWaterMark() / (16 * 1024)); + assert.strictEqual(decoder._readableState.buffer.length, getDefaultHighWaterMark() / (16 * 1024)); }), common.platformTimeout(500)); diff --git a/test/parallel/test-zlib-brotli-kmaxlength-rangeerror.js b/test/parallel/test-zlib-brotli-kmaxlength-rangeerror.js index 6a59ad34b0a174..69f23542cb9ac0 100644 --- a/test/parallel/test-zlib-brotli-kmaxlength-rangeerror.js +++ b/test/parallel/test-zlib-brotli-kmaxlength-rangeerror.js @@ -1,5 +1,5 @@ 'use strict'; -require('../common'); +const common = require('../common'); // This test ensures that zlib throws a RangeError if the final buffer needs to // be larger than kMaxLength and concatenation fails. @@ -18,9 +18,9 @@ buffer.kMaxLength = oldkMaxLength; const encoded = Buffer.from('G38A+CXCIrFAIAM=', 'base64'); // Async -zlib.brotliDecompress(encoded, function(err) { +zlib.brotliDecompress(encoded, common.mustCall((err) => { assert.ok(err instanceof RangeError); -}); +})); // Sync assert.throws(function() { diff --git a/test/parallel/test-zlib-from-concatenated-gzip.js b/test/parallel/test-zlib-from-concatenated-gzip.js index 1de36dacf95f3d..31985aa2bbe791 100644 --- a/test/parallel/test-zlib-from-concatenated-gzip.js +++ b/test/parallel/test-zlib-from-concatenated-gzip.js @@ -47,9 +47,7 @@ const pmmResultBuffers = []; fs.createReadStream(pmmFileGz) .pipe(zlib.createGunzip()) - .on('error', (err) => { - assert.ifError(err); - }) + .on('error', common.mustNotCall()) .on('data', (data) => pmmResultBuffers.push(data)) .on('finish', common.mustCall(() => { // Result should match original random garbage @@ -61,9 +59,7 @@ fs.createReadStream(pmmFileGz) const resultBuffers = []; const unzip = zlib.createGunzip() - .on('error', (err) => { - assert.ifError(err); - }) + .on('error', common.mustNotCall()) .on('data', (data) => resultBuffers.push(data)) .on('finish', common.mustCall(() => { assert.strictEqual( diff --git a/test/parallel/test-zlib-kmaxlength-rangeerror.js b/test/parallel/test-zlib-kmaxlength-rangeerror.js index 9803630214eb36..bae49a6530a902 100644 --- a/test/parallel/test-zlib-kmaxlength-rangeerror.js +++ b/test/parallel/test-zlib-kmaxlength-rangeerror.js @@ -1,5 +1,5 @@ 'use strict'; -require('../common'); +const common = require('../common'); // This test ensures that zlib throws a RangeError if the final buffer needs to // be larger than kMaxLength and concatenation fails. @@ -18,9 +18,9 @@ buffer.kMaxLength = oldkMaxLength; const encoded = Buffer.from('H4sIAAAAAAAAA0tMHFgAAIw2K/GAAAAA', 'base64'); // Async -zlib.gunzip(encoded, function(err) { +zlib.gunzip(encoded, common.mustCall((err) => { assert.ok(err instanceof RangeError); -}); +})); // Sync assert.throws(function() { diff --git a/test/parallel/test-zlib-maxOutputLength.js b/test/parallel/test-zlib-maxOutputLength.js index 9af0b3736f8815..ec293aabe7fc04 100644 --- a/test/parallel/test-zlib-maxOutputLength.js +++ b/test/parallel/test-zlib-maxOutputLength.js @@ -17,9 +17,7 @@ assert.throws(function() { }, RangeError); // Async -zlib.brotliDecompress(encoded, { maxOutputLength: 256 }, function(err) { - assert.strictEqual(err, null); -}); +zlib.brotliDecompress(encoded, { maxOutputLength: 256 }, common.mustSucceed()); // Sync zlib.brotliDecompressSync(encoded, { maxOutputLength: 256 }); diff --git a/test/parallel/test-zlib-reset-before-write.js b/test/parallel/test-zlib-reset-before-write.js index afa207f12c1b30..05c1cdce2c4972 100644 --- a/test/parallel/test-zlib-reset-before-write.js +++ b/test/parallel/test-zlib-reset-before-write.js @@ -21,9 +21,7 @@ for (const fn of [ const output = []; inflate - .on('error', (err) => { - assert.ifError(err); - }) + .on('error', common.mustNotCall()) .on('data', (chunk) => output.push(chunk)) .on('end', common.mustCall( () => assert.strictEqual(Buffer.concat(output).toString(), 'abc'))); diff --git a/test/parallel/test-zlib-truncated.js b/test/parallel/test-zlib-truncated.js index 94bc0e21cb7a5f..c489388a674e52 100644 --- a/test/parallel/test-zlib-truncated.js +++ b/test/parallel/test-zlib-truncated.js @@ -1,7 +1,7 @@ 'use strict'; // Tests zlib streams with truncated compressed input -require('../common'); +const common = require('../common'); const assert = require('assert'); const zlib = require('zlib'); @@ -23,8 +23,7 @@ const errMessage = /unexpected end of file/; { comp: 'deflate', decomp: 'inflate', decompSync: 'inflateSync' }, { comp: 'deflateRaw', decomp: 'inflateRaw', decompSync: 'inflateRawSync' }, ].forEach(function(methods) { - zlib[methods.comp](inputString, function(err, compressed) { - assert.ifError(err); + zlib[methods.comp](inputString, common.mustSucceed((compressed) => { const truncated = compressed.slice(0, compressed.length / 2); const toUTF8 = (buffer) => buffer.toString('utf-8'); @@ -33,10 +32,9 @@ const errMessage = /unexpected end of file/; assert.strictEqual(toUTF8(decompressed), inputString); // async sanity - zlib[methods.decomp](compressed, function(err, result) { - assert.ifError(err); + zlib[methods.decomp](compressed, common.mustSucceed((result) => { assert.strictEqual(toUTF8(result), inputString); - }); + })); // Sync truncated input test assert.throws(function() { @@ -44,9 +42,9 @@ const errMessage = /unexpected end of file/; }, errMessage); // Async truncated input test - zlib[methods.decomp](truncated, function(err, result) { + zlib[methods.decomp](truncated, common.mustCall((err) => { assert.match(err.message, errMessage); - }); + })); const syncFlushOpt = { finishFlush: zlib.constants.Z_SYNC_FLUSH }; @@ -55,10 +53,9 @@ const errMessage = /unexpected end of file/; assert.strictEqual(result, inputString.slice(0, result.length)); // Async truncated input test, finishFlush = Z_SYNC_FLUSH - zlib[methods.decomp](truncated, syncFlushOpt, function(err, decompressed) { - assert.ifError(err); + zlib[methods.decomp](truncated, syncFlushOpt, common.mustSucceed((decompressed) => { const result = toUTF8(decompressed); assert.strictEqual(result, inputString.slice(0, result.length)); - }); - }); + })); + })); }); diff --git a/test/parallel/test-zlib-type-error.js b/test/parallel/test-zlib-type-error.js index 3432d75e346ef1..912b59fd9ca923 100644 --- a/test/parallel/test-zlib-type-error.js +++ b/test/parallel/test-zlib-type-error.js @@ -1,20 +1,9 @@ 'use strict'; require('../common'); -const assert = require('assert').strict; +const assert = require('assert'); const test = require('node:test'); const { DecompressionStream } = require('stream/web'); -async function expectTypeError(promise) { - let threw = false; - try { - await promise; - } catch (err) { - threw = true; - assert(err instanceof TypeError, `Expected TypeError, got ${err}`); - } - assert(threw, 'Expected promise to reject'); -} - test('DecompressStream deflat emits error on trailing data', async () => { const valid = new Uint8Array([120, 156, 75, 4, 0, 0, 98, 0, 98]); // deflate('a') const empty = new Uint8Array(1); @@ -22,10 +11,11 @@ test('DecompressStream deflat emits error on trailing data', async () => { const double = new Uint8Array([...valid, ...valid]); for (const chunk of [[invalid], [valid, empty], [valid, valid], [valid, double]]) { - await expectTypeError( + await assert.rejects( Array.fromAsync( new Blob([chunk]).stream().pipeThrough(new DecompressionStream('deflate')) - ) + ), + { name: 'TypeError' }, ); } }); @@ -37,10 +27,11 @@ test('DecompressStream gzip emits error on trailing data', async () => { const invalid = new Uint8Array([...valid, ...empty]); const double = new Uint8Array([...valid, ...valid]); for (const chunk of [[invalid], [valid, empty], [valid, valid], [double]]) { - await expectTypeError( + await assert.rejects( Array.fromAsync( new Blob([chunk]).stream().pipeThrough(new DecompressionStream('gzip')) - ) + ), + { name: 'TypeError' }, ); } }); diff --git a/test/parallel/test-zlib-unzip-one-byte-chunks.js b/test/parallel/test-zlib-unzip-one-byte-chunks.js index b379584a0438ec..8fb8bcd39a7a28 100644 --- a/test/parallel/test-zlib-unzip-one-byte-chunks.js +++ b/test/parallel/test-zlib-unzip-one-byte-chunks.js @@ -1,38 +1,30 @@ 'use strict'; -require('../common'); +const common = require('../common'); const assert = require('node:assert'); const zlib = require('node:zlib'); -const { test } = require('node:test'); -test('zlib should unzip one byte chunks', async () => { - const { promise, resolve } = Promise.withResolvers(); - const data = Buffer.concat([ - zlib.gzipSync('abc'), - zlib.gzipSync('def'), - ]); +const data = Buffer.concat([ + zlib.gzipSync('abc'), + zlib.gzipSync('def'), +]); - const resultBuffers = []; +const resultBuffers = []; - const unzip = zlib.createUnzip() - .on('error', (err) => { - assert.ifError(err); - }) - .on('data', (data) => resultBuffers.push(data)) - .on('finish', () => { - const unzipped = Buffer.concat(resultBuffers).toString(); - assert.strictEqual(unzipped, 'abcdef', - `'${unzipped}' should match 'abcdef' after zipping ` + - 'and unzipping'); - resolve(); - }); +const unzip = zlib.createUnzip() + .on('error', common.mustNotCall()) + .on('data', (data) => resultBuffers.push(data)) + .on('finish', common.mustCall(() => { + const unzipped = Buffer.concat(resultBuffers).toString(); + assert.strictEqual(unzipped, 'abcdef', + `'${unzipped}' should match 'abcdef' after zipping ` + + 'and unzipping'); + })); - for (let i = 0; i < data.length; i++) { - // Write each single byte individually. - unzip.write(Buffer.from([data[i]])); - } +for (let i = 0; i < data.length; i++) { + // Write each single byte individually. + unzip.write(Buffer.from([data[i]])); +} - unzip.end(); - await promise; -}); +unzip.end(); diff --git a/test/parallel/test-zlib-write-after-close.js b/test/parallel/test-zlib-write-after-close.js index 2d5d4965b0fec4..6b2b1c8cd0172b 100644 --- a/test/parallel/test-zlib-write-after-close.js +++ b/test/parallel/test-zlib-write-after-close.js @@ -21,25 +21,17 @@ 'use strict'; -require('../common'); +const common = require('../common'); const zlib = require('node:zlib'); const assert = require('node:assert'); -const { test } = require('node:test'); -test('zlib should not allow writing after close', async (t) => { - const { promise, resolve } = Promise.withResolvers(); - const closeCallback = t.mock.fn(); - zlib.gzip('hello', function() { - const unzip = zlib.createGunzip(); - unzip.close(closeCallback); - unzip.write('asd', function(err) { - assert.strictEqual(err.code, 'ERR_STREAM_DESTROYED'); - assert.strictEqual(err.name, 'Error'); - assert.strictEqual(err.message, 'Cannot call write after a stream was destroyed'); - resolve(); - }); - }); - await promise; - assert.strictEqual(closeCallback.mock.callCount(), 1); -}); +zlib.gzip('hello', common.mustCall(() => { + const unzip = zlib.createGunzip(); + unzip.close(common.mustCall()); + unzip.write('asd', common.mustCall((err) => { + assert.strictEqual(err.code, 'ERR_STREAM_DESTROYED'); + assert.strictEqual(err.name, 'Error'); + assert.strictEqual(err.message, 'Cannot call write after a stream was destroyed'); + })); +})); diff --git a/test/parallel/test-zlib-write-after-flush.js b/test/parallel/test-zlib-write-after-flush.js index fbe7c9859ea9fe..9449ab46823b80 100644 --- a/test/parallel/test-zlib-write-after-flush.js +++ b/test/parallel/test-zlib-write-after-flush.js @@ -21,39 +21,33 @@ 'use strict'; -require('../common'); +const common = require('../common'); const assert = require('node:assert'); const zlib = require('node:zlib'); -const { test } = require('node:test'); -test('zlib should accept writing after flush', async () => { - for (const [ createCompress, createDecompress ] of [ - [ zlib.createGzip, zlib.createGunzip ], - [ zlib.createBrotliCompress, zlib.createBrotliDecompress ], - [ zlib.createZstdCompress, zlib.createZstdDecompress ], - ]) { - const { promise, resolve, reject } = Promise.withResolvers(); - const gzip = createCompress(); - const gunz = createDecompress(); +for (const [ createCompress, createDecompress ] of [ + [ zlib.createGzip, zlib.createGunzip ], + [ zlib.createBrotliCompress, zlib.createBrotliDecompress ], + [ zlib.createZstdCompress, zlib.createZstdDecompress ], +]) { + const gzip = createCompress(); + const gunz = createDecompress(); - gzip.pipe(gunz); + gzip.pipe(gunz); - let output = ''; - const input = 'A line of data\n'; - gunz.setEncoding('utf8'); - gunz.on('error', reject); - gunz.on('data', (c) => output += c); - gunz.on('end', () => { - assert.strictEqual(output, input); - resolve(); - }); + let output = ''; + const input = 'A line of data\n'; + gunz.setEncoding('utf8'); + gunz.on('error', common.mustNotCall()); + gunz.on('data', (c) => output += c); + gunz.on('end', common.mustCall(() => { + assert.strictEqual(output, input); + })); - // Make sure that flush/write doesn't trigger an assert failure - gzip.flush(); - gzip.write(input); - gzip.end(); - gunz.read(0); - await promise; - } -}); + // Make sure that flush/write doesn't trigger an assert failure + gzip.flush(); + gzip.write(input); + gzip.end(); + gunz.read(0); +} diff --git a/test/parallel/test-zlib-zero-byte.js b/test/parallel/test-zlib-zero-byte.js index a6120d4b92ed29..c3e56bd180ec93 100644 --- a/test/parallel/test-zlib-zero-byte.js +++ b/test/parallel/test-zlib-zero-byte.js @@ -21,35 +21,29 @@ 'use strict'; -require('../common'); +const common = require('../common'); const assert = require('node:assert'); const zlib = require('node:zlib'); -const { test } = require('node:test'); -test('zlib should properly handle zero byte input', async () => { - const compressors = [ - [zlib.Gzip, 20], - [zlib.BrotliCompress, 1], - [zlib.ZstdCompress, 9], - ]; +const compressors = [ + [zlib.Gzip, 20], + [zlib.BrotliCompress, 1], + [zlib.ZstdCompress, 9], +]; - for (const [Compressor, expected] of compressors) { - const { promise, resolve, reject } = Promise.withResolvers(); - const gz = new Compressor(); - const emptyBuffer = Buffer.alloc(0); - let received = 0; - gz.on('data', function(c) { - received += c.length; - }); - gz.on('error', reject); - gz.on('end', function() { - assert.strictEqual(received, expected, - `${received}, ${expected}, ${Compressor.name}`); - resolve(); - }); - gz.write(emptyBuffer); - gz.end(); - await promise; - } -}); +for (const [Compressor, expected] of compressors) { + const gz = new Compressor(); + const emptyBuffer = Buffer.alloc(0); + let received = 0; + gz.on('data', function(c) { + received += c.length; + }); + gz.on('error', common.mustNotCall()); + gz.on('end', common.mustCall(() => { + assert.strictEqual(received, expected, + `${received}, ${expected}, ${Compressor.name}`); + })); + gz.write(emptyBuffer); + gz.end(); +} diff --git a/test/parallel/test-zlib-zstd-kmaxlength-rangeerror.js b/test/parallel/test-zlib-zstd-kmaxlength-rangeerror.js index 58ad8ff2c98dea..4537f16370148a 100644 --- a/test/parallel/test-zlib-zstd-kmaxlength-rangeerror.js +++ b/test/parallel/test-zlib-zstd-kmaxlength-rangeerror.js @@ -1,5 +1,5 @@ 'use strict'; -require('../common'); +const common = require('../common'); // This test ensures that zlib throws a RangeError if the final buffer needs to // be larger than kMaxLength and concatenation fails. @@ -19,9 +19,9 @@ buffer.kMaxLength = oldkMaxLength; const encoded = Buffer.from('KLUv/SCARQAAEGFhAQA7BVg=', 'base64'); // Async -zlib.zstdDecompress(encoded, function(err) { +zlib.zstdDecompress(encoded, common.mustCall((err) => { assert.ok(err instanceof RangeError); -}); +})); // Sync assert.throws(function() { diff --git a/test/sea/test-single-executable-application-inspect.js b/test/sea/test-single-executable-application-inspect.js index aa963bdee276f9..5422159fbf3a88 100644 --- a/test/sea/test-single-executable-application-inspect.js +++ b/test/sea/test-single-executable-application-inspect.js @@ -65,7 +65,7 @@ seaProcess.stdout.on('data', (data) => { console.log(`[SEA][STDOUT] ${data}`); }); -seaProcess.stderr.on('data', (data) => { +seaProcess.stderr.on('data', common.mustCallAtLeast((data) => { console.log(`[SEA][STDERR] ${data}`); seaStderr += data; @@ -104,19 +104,19 @@ seaProcess.stderr.on('data', (data) => { console.log(`[INSPECT][STDERR] ${data}`); }); - inspectorProcess.on('close', (code) => { + inspectorProcess.on('close', common.mustCall((code) => { assert.strictEqual(code, 0, `Inspector process exited with code ${code}.`); - }); + })); inspectorProcess.on('error', (err) => { throw err; }); } -}); +})); -seaProcess.on('close', (code) => { +seaProcess.on('close', common.mustCall((code) => { assert.strictEqual(code, 0, `SEA process exited with code ${code}.`); -}); +})); seaProcess.on('error', (err) => { throw err; diff --git a/test/sequential/test-watch-mode-inspect.mjs b/test/sequential/test-watch-mode-inspect.mjs index a04ba474f6a47f..4f4148aea7b0f6 100644 --- a/test/sequential/test-watch-mode-inspect.mjs +++ b/test/sequential/test-watch-mode-inspect.mjs @@ -3,7 +3,6 @@ import * as fixtures from '../common/fixtures.mjs'; import assert from 'node:assert'; import { describe, it } from 'node:test'; import { writeFileSync, readFileSync } from 'node:fs'; -import { setTimeout } from 'node:timers/promises'; import { NodeInstance } from '../common/inspector-helper.js'; @@ -12,10 +11,7 @@ if (common.isIBMi) common.skipIfInspectorDisabled(); -let gettingDebuggedPid = false; - async function getDebuggedPid(instance, waitForLog = true) { - gettingDebuggedPid = true; const session = await instance.connectInspectorSession(); await session.send({ method: 'Runtime.enable' }); if (waitForLog) { @@ -25,20 +21,23 @@ async function getDebuggedPid(instance, waitForLog = true) { 'method': 'Runtime.evaluate', 'params': { 'expression': 'process.pid' } })).result; session.disconnect(); - gettingDebuggedPid = false; return innerPid; } -function restart(file) { +// Triggers a single restart and resolves when the restarted child prints "safe to debug now". +function restartAndWaitForReady(file, instance) { + const ready = new Promise((resolve) => { + instance.on('stdout', (data) => { + if (data?.includes('safe to debug now')) { + resolve(); + } + }); + }); writeFileSync(file, readFileSync(file)); - const interval = setInterval(() => { - if (!gettingDebuggedPid) { - writeFileSync(file, readFileSync(file)); - } - }, common.platformTimeout(500)); - return () => clearInterval(interval); + return ready; } + describe('watch mode - inspect', () => { it('should start debugger on inner process', async () => { const file = fixtures.path('watch-mode/inspect.js'); @@ -51,11 +50,9 @@ describe('watch mode - inspect', () => { const pids = [instance.pid]; pids.push(await getDebuggedPid(instance)); instance.resetPort(); - const stopRestarting = restart(file); + await restartAndWaitForReady(file, instance); pids.push(await getDebuggedPid(instance)); - stopRestarting(); - await setTimeout(common.platformTimeout(500)); await instance.kill(); // There should be a process per restart and one per parent process. diff --git a/test/sequential/test-worker-eventlooputil.js b/test/sequential/test-worker-eventlooputil.js index 396902915e1c17..bf7ff7da00cd70 100644 --- a/test/sequential/test-worker-eventlooputil.js +++ b/test/sequential/test-worker-eventlooputil.js @@ -10,7 +10,7 @@ const { parentPort, } = require('worker_threads'); const { performance } = require('perf_hooks'); -const { eventLoopUtilization } = require('perf_hooks').performance; +const { eventLoopUtilization } = require('perf_hooks'); // Use argv to detect whether we're running as a Worker called by this test vs. // this test also being called as a Worker. diff --git a/test/system-ca/README.md b/test/system-ca/README.md index 422b8af1db049f..8a3783b1ce1e40 100644 --- a/test/system-ca/README.md +++ b/test/system-ca/README.md @@ -18,6 +18,34 @@ security add-certificates \ security add-certificates \ -k /Users/$USER/Library/Keychains/login.keychain-db \ test/fixtures/keys/non-trusted-intermediate-ca.pem +security add-trusted-cert \ + -k /Users/$USER/Library/Keychains/login.keychain-db \ + test/fixtures/keys/expired-root-cert.pem +# Self-signed cert with trust settings that lack kSecTrustSettingsResult. +security add-trusted-cert \ + -k /Users/$USER/Library/Keychains/login.keychain-db \ + test/fixtures/keys/selfsigned-no-result-root-cert.pem +security trust-settings-export /tmp/node-trust-settings.plist +CERT_SHA1=$(openssl x509 \ + -in test/fixtures/keys/selfsigned-no-result-root-cert.pem \ + -fingerprint -sha1 -noout | sed 's/.*=//;s/://g') +/usr/libexec/PlistBuddy \ + -c "Delete :trustList:${CERT_SHA1}:trustSettings" \ + /tmp/node-trust-settings.plist +/usr/libexec/PlistBuddy \ + -c "Add :trustList:${CERT_SHA1}:trustSettings array" \ + /tmp/node-trust-settings.plist +/usr/libexec/PlistBuddy \ + -c "Add :trustList:${CERT_SHA1}:trustSettings:0 dict" \ + /tmp/node-trust-settings.plist +security trust-settings-import /tmp/node-trust-settings.plist +rm /tmp/node-trust-settings.plist +# Duplicate cert in a second keychain +security create-keychain -p "test" /tmp/node-test-dup.keychain +security add-certificates \ + -k /tmp/node-test-dup.keychain \ + test/fixtures/keys/fake-startcom-root-cert.pem +security list-keychains -d user -s login.keychain-db /tmp/node-test-dup.keychain ``` **Removing the certificate** @@ -29,6 +57,12 @@ security delete-certificate -c 'NodeJS-Test-Intermediate-CA' \ -t /Users/$USER/Library/Keychains/login.keychain-db security delete-certificate -c 'NodeJS-Non-Trusted-Test-Intermediate-CA' \ -t /Users/$USER/Library/Keychains/login.keychain-db +security delete-certificate -c 'NodeJS-Test-Expired-Root' \ + -t /Users/$USER/Library/Keychains/login.keychain-db +security delete-certificate -c 'NodeJS-Test-No-Result-Root' \ + -t /Users/$USER/Library/Keychains/login.keychain-db +security list-keychains -d user -s login.keychain-db +security delete-keychain /tmp/node-test-dup.keychain ``` ## Windows diff --git a/test/system-ca/test-macos-cert-filtering.mjs b/test/system-ca/test-macos-cert-filtering.mjs new file mode 100644 index 00000000000000..582891a7b21ea1 --- /dev/null +++ b/test/system-ca/test-macos-cert-filtering.mjs @@ -0,0 +1,93 @@ +// Flags: --use-system-ca + +import * as common from '../common/index.mjs'; +import assert from 'node:assert/strict'; +import * as fixtures from '../common/fixtures.mjs'; +import { it, describe } from 'node:test'; +import { includesCert, extractMetadata } from '../common/tls.js'; +import { execFileSync } from 'node:child_process'; + +if (!common.hasCrypto) { + common.skip('requires crypto'); +} + +if (process.platform !== 'darwin') { + common.skip('macOS-specific test'); +} + +function isCertInKeychain(cn) { + try { + execFileSync('security', ['find-certificate', '-c', cn], { stdio: 'pipe' }); + return true; + } catch { + return false; + } +} + +function isDupKeychainPresent() { + try { + const out = execFileSync( + 'security', ['list-keychains', '-d', 'user'], + { encoding: 'utf8' }, + ); + return out.includes('node-test-dup.keychain'); + } catch { + return false; + } +} + +const { default: tls } = await import('node:tls'); + +const systemCerts = tls.getCACertificates('system'); +const fakeStartcomCert = fixtures.readKey('fake-startcom-root-cert.pem'); +if (!includesCert(systemCerts, fakeStartcomCert)) { + common.skip( + 'fake-startcom-root-cert.pem not found in system CA store. ' + + 'Please follow setup instructions in test/system-ca/README.md', + ); +} +if (!isDupKeychainPresent()) { + common.skip( + 'Duplicate keychain not set up. ' + + 'Please follow setup instructions in test/system-ca/README.md', + ); +} +if (!isCertInKeychain('NodeJS-Test-Expired-Root')) { + common.skip( + 'Expired cert not installed. ' + + 'Please follow setup instructions in test/system-ca/README.md', + ); +} + +describe('macOS certificate filtering', () => { + it('includes self-signed cert with absent kSecTrustSettingsResult', () => { + const noResultCert = fixtures.readKey('selfsigned-no-result-root-cert.pem'); + assert.ok( + includesCert(systemCerts, noResultCert), + 'Self-signed cert with absent kSecTrustSettingsResult ' + + '(defaulting to TrustRoot) should be in system CA list', + ); + }); + + it('deduplicates certificates from multiple keychains', () => { + const target = extractMetadata(fakeStartcomCert); + const matches = systemCerts.filter((c) => { + const m = extractMetadata(c); + return m.serialNumber === target.serialNumber && + m.issuer === target.issuer && + m.subject === target.subject; + }); + assert.strictEqual( + matches.length, 1, + `Expected exactly 1 copy of fake-startcom-root-cert, found ${matches.length}`, + ); + }); + + it('filters out expired certificates', () => { + const expiredCert = fixtures.readKey('expired-root-cert.pem'); + assert.ok( + !includesCert(systemCerts, expiredCert), + 'Expired certificate should not be in system CA list', + ); + }); +}); diff --git a/test/test-runner/test-output-coverage-with-mock-cjs.mjs b/test/test-runner/test-output-coverage-with-mock-cjs.mjs new file mode 100644 index 00000000000000..3f8152a5cdcd89 --- /dev/null +++ b/test/test-runner/test-output-coverage-with-mock-cjs.mjs @@ -0,0 +1,22 @@ +import * as common from '../common/index.mjs'; +import * as fixtures from '../common/fixtures.mjs'; +import { spawnAndAssert, defaultTransform, ensureCwdIsProjectRoot } from '../common/assertSnapshot.js'; + +if (!process.features.inspector) { + common.skip('inspector support required'); +} + +ensureCwdIsProjectRoot(); +await spawnAndAssert( + fixtures.path('test-runner/output/coverage-with-mock-cjs.mjs'), + defaultTransform, + { + flags: [ + '--disable-warning=ExperimentalWarning', + '--test-reporter=tap', + '--experimental-test-module-mocks', + '--experimental-test-coverage', + '--test-coverage-exclude=!test/**', + ], + }, +); diff --git a/test/test-runner/test-output-spec-reporter-watch-restart.mjs b/test/test-runner/test-output-spec-reporter-watch-restart.mjs new file mode 100644 index 00000000000000..d158375974c48b --- /dev/null +++ b/test/test-runner/test-output-spec-reporter-watch-restart.mjs @@ -0,0 +1,18 @@ +import '../common/index.mjs'; +import { spec as SpecReporter } from 'node:test/reporters'; +import assert from 'node:assert'; + +const reporter = new SpecReporter(); +let output = ''; + +reporter.on('data', (chunk) => { + output += chunk; +}); + +reporter.write({ + type: 'test:watch:restarted', +}); + +reporter.end(); + +assert.match(output, /Restarted at .+/); diff --git a/test/test426/README.md b/test/test426/README.md index 58b499920f7087..00f249c8d36a29 100644 --- a/test/test426/README.md +++ b/test/test426/README.md @@ -7,7 +7,7 @@ suite ensures that the Node.js source map implementation conforms to the The [`test/fixtures/test426`](../fixtures/test426/) contains a copy of the set of [Source Map Tests][] suite. The last updated hash is: -* +* See the json files in [the `status` folder](./status) for prerequisites, expected failures, and support status for specific tests. diff --git a/test/wpt/README.md b/test/wpt/README.md index df890d5d832ee0..aba1b8617f906e 100644 --- a/test/wpt/README.md +++ b/test/wpt/README.md @@ -1,18 +1,16 @@ # Web Platform Tests -The tests here are drivers for running the [Web Platform Tests][]. - -See [`test/fixtures/wpt/README.md`][] for a hash of the last -updated WPT commit for each module being covered here. - -See the json files in [the `status` folder](./status) for prerequisites, -expected failures, and support status for specific tests in each module. - -Currently there are still some Web Platform Tests titled `test-whatwg-*` -under `test/parallel` that have not been migrated to be run with the -WPT harness and have automatic updates. There are also a few -`test-whatwg-*-custom-*` tests that may need to be upstreamed. -This folder covers the tests that have been migrated. +This directory contains test runners that execute upstream +[Web Platform Tests][] against Node.js using the WPT harness. +The actual test files live in `test/fixtures/wpt`, a subset of the +upstream WPT repository containing only the modules relevant to Node.js. +Each module is updated independently using [git node wpt][], so +different modules may be pinned to different upstream commits. + +Each module has a status file in the [`status` folder](./status) that +declares build requirements, expected failures, and tests to skip. +See [`test/fixtures/wpt/README.md`][] for the pinned WPT commit +hashes for each module. @@ -20,10 +18,10 @@ This folder covers the tests that have been migrated. ### 1. Create a status file -For example, to add the URL tests, add a `test/wpt/status/url.json` file. +For example, to add the URL tests, add a `test/wpt/status/url.cjs` file. -In the beginning, it's fine to leave an empty object `{}` in the file if -it's not yet clear how compliant the implementation is, +In the beginning, it's fine to leave an empty object `module.exports = {}` +in the file if it's not yet clear how compliant the implementation is, the requirements and expected failures can be figured out in a later step when the tests are run for the first time. @@ -39,7 +37,7 @@ cd /path/to/node/project git node wpt url ``` -### 3. Create the test driver +### 3. Create the test runner For example, for the URL tests, add a file `test/wpt/test-url.js`: @@ -50,21 +48,49 @@ const { WPTRunner } = require('../common/wpt'); const runner = new WPTRunner('url'); -// Set Node.js flags required for the tests. -runner.setFlags(['--expose-internals']); - -// Set a script that will be executed in the worker before running the tests. -runner.setInitScript(` - const { internalBinding } = require('internal/test/binding'); - const { DOMException } = internalBinding('messaging'); - global.DOMException = DOMException; -`); - +runner.pretendGlobalThisAs('Window'); runner.runJsTests(); ``` -This driver is capable of running the tests located in `test/fixtures/wpt/url` -with the WPT harness while taking the status file into account. +The runner loads the tests from `test/fixtures/wpt/url`, applies the +status rules from `test/wpt/status/url.cjs`, and runs them using +worker threads. + +#### `new WPTRunner(path[, options])` + +* `path` {string} Relative path of the WPT module + (e.g. `'url'`, `'html/webappapis/timers'`). +* `options` {Object} + * `concurrency` {number} Number of tests to run in parallel. + Defaults to `os.availableParallelism() - 1`. Set to `1` for tests + that require sequential execution (e.g. web-locks, webstorage). + +#### `runner.setFlags(flags)` + +* `flags` {string\[]} Node.js CLI flags passed to each worker thread + (e.g. `['--expose-internals']`). + +#### `runner.setInitScript(script)` + +* `script` {string} JavaScript code executed in the worker before + the tests run. Useful for setting up globals needed by the tests. + +#### `runner.setScriptModifier(modifier)` + +* `modifier` {Function} A callback `(meta) => void` invoked for each + script before it is run in the worker. `meta` is an object with + `code` {string} and `filename` {string} properties that can be + mutated. + +#### `runner.pretendGlobalThisAs(name)` + +* `name` {string} Currently only `'Window'` is supported. Sets up + `globalThis.Window` so that WPT tests checking the global scope + type work correctly. + +#### `runner.runJsTests()` + +Starts running the tests. Must be called last, after all configuration. ### 4. Run the tests @@ -76,26 +102,28 @@ tools/test.py wpt/test-url ``` To run a specific test in WPT, for example, `url/url-searchparams.any.js`, -pass the file name as argument to the corresponding test driver: +pass the file name as argument to the corresponding test runner: ```bash node test/wpt/test-url.js url-searchparams.any.js ``` If there are any failures, update the corresponding status file -(in this case, `test/wpt/status/url.json`) to make the test pass. +(in this case, `test/wpt/status/url.cjs`) to make the test pass. For example, to mark `url/url-searchparams.any.js` as expected to fail, -add this to `test/wpt/status/url.json`: - -```json - "url-searchparams.any.js": { - "fail": { - "expected": [ - "test name in the WPT test case, e.g. second argument passed to test()" - ] - } - } +add this to `test/wpt/status/url.cjs`: + +```js +module.exports = { + 'url-searchparams.any.js': { + fail: { + expected: [ + 'test name in the WPT test case, e.g. second argument passed to test()', + ], + }, + }, +}; ``` See [Format of a status file](#status-format) for details. @@ -110,77 +138,114 @@ The tests can be updated in a way similar to how they are added. Run Step 2 and Step 4 of [adding tests for a new module](#add-tests). The [git node wpt][] command maintains the status of the local -WPT subset, if no files are updated after running it for a module, -the local subset is up to date and there is no need to update them -until they are changed in the upstream. - -## How it works +WPT subset. If no files are updated after running it for a module, +the local subset is up to date and there is no need to create a PR. +When files are updated, run the tests and update the status file to +account for any new failures or passes before submitting. -Note: currently this test suite only supports `.js` tests. There is -ongoing work in the upstream to properly split out the tests into files -that can be run in a shell environment like Node.js. +## Daily WPT report -### Getting the original test files and harness from WPT +A [GitHub Actions workflow][] runs every night and uploads results to +[wpt.fyi][]. It tests all active Node.js release lines and the latest +nightly build against the WPT `epochs/daily` branch, which is a daily +snapshot of the upstream WPT repository. -The original files and harness from WPT are downloaded and stored in -`test/fixtures/wpt`. +Unlike the pinned fixtures used in CI, this workflow replaces +`test/fixtures/wpt` with the full `epochs/daily` checkout so that +results reflect the latest upstream tests. Results can be viewed on +the [wpt.fyi dashboard][]. -The [git node wpt][] command automate this process while maintaining a map -containing the hash of the last updated commit for each module in -`test/fixtures/wpt/versions.json` and [`test/fixtures/wpt/README.md`][]. -It also maintains the LICENSE file in `test/fixtures/wpt`. + -### Loading and running the tests +## Format of a status file -Given a module, the `WPTRunner` class in [`test/common/wpt`](../common/wpt.js) -loads: +The status file can be either a `.json` file or a `.cjs` module that exports +the same object. Using CJS allows for conditional logic and regular +expressions, which JSON does not support. -* `.js` test files (for example, `test/common/wpt/url/*.js` for `url`) -* Status file (for example, `test/wpt/status/url.json` for `url`) -* The WPT harness +```js +module.exports = { + 'something.scope.js': { // the file name + // Optional: If the requirement is not met, this test will be skipped. + // Supported values: + // 'small-icu' - requires at least small-icu intl support + // 'full-icu' - requires full-icu intl support + // 'crypto' - requires crypto (OpenSSL) support + // 'inspector' - requires the inspector to be available + requires: ['small-icu'], + + // Optional: the entire file will be skipped with the reason printed. + skip: 'explain why we cannot run a test that is supposed to pass', + + // Optional: failing tests. + fail: { + // Tests that are expected to fail consistently. + expected: [ + 'test name in the WPT test case, e.g. second argument passed to test()', + 'another test name', + ], + // Tests that fail intermittently. These are treated as expected + // failures but are not flagged as unexpected passes when they + // succeed. + flaky: [ + 'flaky test name', + ], + }, + }, +}; +``` -Then, for each test, it creates a worker thread with the globals and mocks, -sets up the harness result hooks, loads the metadata in the test (including -loading extra resources), and runs all the tests in that worker thread, -skipping tests that cannot be run because of lack of dependency or -expected failures. +A test should be marked with `skip` when it cannot be run at all, for +example, because it depends on a browser-only Web API or a harness feature +that has not been ported to the Node.js runner. Use `fail` instead when +the test can run but produces incorrect results due to an implementation +bug or missing feature. - +### Skipping individual subtests -## Format of a status file +To skip specific subtests within a file (rather than skipping the entire file), +use `skipTests` with an array of exact test names or regular expressions: -```json -{ - "something.scope.js": { // the file name - // Optional: If the requirement is not met, this test will be skipped - "requires": ["small-icu"], // supports: "small-icu", "full-icu", "crypto" - - // Optional: the test will be skipped with the reason printed - "skip": "explain why we cannot run a test that's supposed to pass", - - // Optional: failing tests - "fail": { - "note": "You may leave an optional arbitrary note e.g. with TODOs", - "expected": [ - "test name in the WPT test case, e.g. second argument passed to test()", - "another test name" - ], - "flaky": [ - "flaky test name" - ] - } - } -} +```js +module.exports = { + 'something.scope.js': { + skipTests: [ + 'exact test name to skip', + /regexp pattern to match/, + ], + }, +}; ``` -A test may have to be skipped because it depends on another irrelevant -Web API, or certain harness has not been ported in our test runner yet. -In that case it needs to be marked with `skip` instead of `fail`. +Skipped subtests are reported as `[SKIP]` in the output, recorded as `NOTRUN` +in the WPT report, and counted separately in the summary line. + +This is useful for skipping a particular subtest that crashes the runner, +which would otherwise prevent the rest of the file from being run. Using CJS +status files also enables conditionally skipping slow or resource-heavy +subtests in CI on specific architectures. + +### Wildcard patterns in file names + +File name keys can include a `*` character to match multiple test files +with a single entry. For example, to skip all `.window.js` tests: + +```js +module.exports = { + '*.window.js': { + skip: 'window tests are not relevant for Node.js', + }, +}; +``` -The status file may optionally also be a CJS module that exports the object. -This allows for more complex logic to be used to determine the expected status -of a test. +The `*` is converted to a `.*` regular expression, so `"subdir/*.any.js"` +would match all `.any.js` files under the `subdir` directory. A test file +can match multiple rules (both an exact match and one or more wildcard +patterns); all matched rules are merged. +[GitHub Actions workflow]: ../../.github/workflows/daily-wpt-fyi.yml [Web Platform Tests]: https://github.com/web-platform-tests/wpt [`test/fixtures/wpt/README.md`]: ../fixtures/wpt/README.md [git node wpt]: https://github.com/nodejs/node-core-utils/blob/HEAD/docs/git-node.md#git-node-wpt +[wpt.fyi]: https://wpt.fyi +[wpt.fyi dashboard]: https://wpt.fyi/results/?label=master&label=experimental&product=node.js&product=chrome&product=firefox&product=safari&product=ladybird&product=servo&q=node.js%3A%21missing diff --git a/test/wpt/status/FileAPI/blob.cjs b/test/wpt/status/FileAPI/blob.cjs new file mode 100644 index 00000000000000..99ec7dd22cea5f --- /dev/null +++ b/test/wpt/status/FileAPI/blob.cjs @@ -0,0 +1,51 @@ +'use strict'; + +const os = require('node:os'); + +// On AIX, V8's OS::DecommitPages() has an inherent race condition caused by +// AIX's non-POSIX MAP_FIXED behavior. The implementation must munmap() then +// mmap(), and another thread can steal the address range in between. The +// Blob.arrayBuffer() tests trigger this by creating enough GC pressure +// (especially the concurrent reads test) to hit the race window. +// See deps/v8/src/base/platform/platform-aix.cc, lines 168-203. +const isAIX = os.type() === 'AIX'; + +const conditionalSkips = {}; + +if (isAIX) { + conditionalSkips['Blob-array-buffer.any.js'] = { + skip: 'V8 DecommitPages race condition on AIX (munmap/mmap non-atomic)', + }; +} + +module.exports = { + ...conditionalSkips, + 'Blob-constructor-dom.window.js': { + skip: 'Depends on DOM API', + }, + 'Blob-constructor.any.js': { + fail: { + flaky: [ + 'Passing typed arrays as elements of the blobParts array should work.', + 'Passing a Float16Array as element of the blobParts array should work.', + 'Passing a Float64Array as element of the blobParts array should work.', + 'Passing BigInt typed arrays as elements of the blobParts array should work.', + ], + }, + }, + 'Blob-in-worker.worker.js': { + skip: 'Depends on Web Workers API', + }, + 'Blob-slice.any.js': { + fail: { + expected: [ + 'Slicing test: slice (1,1).', + 'Slicing test: slice (1,3).', + 'Slicing test: slice (1,5).', + 'Slicing test: slice (1,7).', + 'Slicing test: slice (1,8).', + 'Slicing test: slice (1,9).', + ], + }, + }, +}; diff --git a/test/wpt/status/FileAPI/blob.json b/test/wpt/status/FileAPI/blob.json deleted file mode 100644 index 8ea03bbc019992..00000000000000 --- a/test/wpt/status/FileAPI/blob.json +++ /dev/null @@ -1,48 +0,0 @@ -{ - "Blob-constructor-dom.window.js": { - "skip": "Depends on DOM API" - }, - "Blob-constructor.any.js": { - "fail": { - "note": "Depends on File API", - "expected": [ - "A plain object with @@iterator should be treated as a sequence for the blobParts argument.", - "A plain object with @@iterator and a length property should be treated as a sequence for the blobParts argument.", - "A String object should be treated as a sequence for the blobParts argument.", - "A Uint8Array object should be treated as a sequence for the blobParts argument.", - "Getters and value conversions should happen in order until an exception is thrown.", - "Changes to the blobParts array should be reflected in the returned Blob (pop).", - "Changes to the blobParts array should be reflected in the returned Blob (unshift).", - "ToString should be called on elements of the blobParts array.", - "ArrayBuffer elements of the blobParts array should be supported.", - "Passing typed arrays as elements of the blobParts array should work.", - "Passing a Float64Array as element of the blobParts array should work.", - "Passing BigInt typed arrays as elements of the blobParts array should work.", - "Array with two blobs", - "Array with two buffers", - "Array with two bufferviews", - "Array with mixed types", - "options properties should be accessed in lexicographic order.", - "Arguments should be evaluated from left to right.", - "Passing null (index 0) for options should use the defaults.", - "Passing null (index 0) for options should use the defaults (with newlines).", - "Passing undefined (index 1) for options should use the defaults.", - "Passing undefined (index 1) for options should use the defaults (with newlines).", - "Passing object \"[object Object]\" (index 2) for options should use the defaults.", - "Passing object \"[object Object]\" (index 2) for options should use the defaults (with newlines).", - "Passing object \"[object Object]\" (index 3) for options should use the defaults.", - "Passing object \"[object Object]\" (index 3) for options should use the defaults (with newlines).", - "Passing object \"/regex/\" (index 4) for options should use the defaults.", - "Passing object \"/regex/\" (index 4) for options should use the defaults (with newlines).", - "Passing function \"function() {}\" (index 5) for options should use the defaults.", - "Passing function \"function() {}\" (index 5) for options should use the defaults (with newlines)." - ] - } - }, - "Blob-in-worker.worker.js": { - "skip": "Depends on Web Workers API" - }, - "Blob-slice.any.js": { - "skip": "Depends on File API" - } -} diff --git a/test/wpt/status/streams.json b/test/wpt/status/streams.json index af3646c65ea660..222a68014f4af6 100644 --- a/test/wpt/status/streams.json +++ b/test/wpt/status/streams.json @@ -2,14 +2,6 @@ "idlharness-shadowrealm.window.js": { "skip": "ShadowRealm support is not enabled" }, - "piping/general-addition.any.js": { - "fail": { - "note": "Blocked on https://github.com/whatwg/streams/issues/1243", - "expected": [ - "enqueue() must not synchronously call write algorithm" - ] - } - }, "queuing-strategies-size-function-per-global.window.js": { "skip": "Browser-specific test" }, diff --git a/test/wpt/status/webidl/ecmascript-binding/es-exceptions.json b/test/wpt/status/webidl/ecmascript-binding/es-exceptions.json deleted file mode 100644 index 0967ef424bce67..00000000000000 --- a/test/wpt/status/webidl/ecmascript-binding/es-exceptions.json +++ /dev/null @@ -1 +0,0 @@ -{} diff --git a/test/wpt/test-domexception.js b/test/wpt/test-domexception.js deleted file mode 100644 index 8fa93bc59bdf44..00000000000000 --- a/test/wpt/test-domexception.js +++ /dev/null @@ -1,7 +0,0 @@ -'use strict'; - -const { WPTRunner } = require('../common/wpt'); - -const runner = new WPTRunner('webidl/ecmascript-binding/es-exceptions'); - -runner.runJsTests(); diff --git a/tools/actions/lint-release-proposal-commit-list.mjs b/tools/actions/lint-release-proposal-commit-list.mjs index 9bbc7159fbf17a..a51f0c590026cf 100755 --- a/tools/actions/lint-release-proposal-commit-list.mjs +++ b/tools/actions/lint-release-proposal-commit-list.mjs @@ -6,6 +6,7 @@ // Example: // $ git log upstream/vXX.x...upstream/vX.X.X-proposal \ // --reverse --format='{"prURL":"%(trailers:key=PR-URL,valueonly,separator=)","title":"%s","smallSha":"%h"}' \ +// --abbrev=10 \ // | sed 's/,"title":"Revert "\([^"]\+\)""/,"title":"Revert \\"\1\\""/g' \ // | ./lint-release-proposal-commit-list.mjs "path/to/CHANGELOG.md" "$(git rev-parse upstream/vX.X.X-proposal)" diff --git a/tools/actions/review_backport.sh b/tools/actions/review_backport.sh index 29dcc699235d23..57b46c799e6404 100755 --- a/tools/actions/review_backport.sh +++ b/tools/actions/review_backport.sh @@ -2,11 +2,16 @@ BACKPORT_PR=$1 +[ -x "$(command -v gh || true)" ] || { + # shellcheck disable=SC2016 + echo 'Missing required `gh` dependency' >&2 + exit 1 +} [ -n "$BACKPORT_PR" ] || { - echo "Usage:" - echo 'tools/actions/review_backport.sh https://github.com/nodejs/node/pull/ | less' - echo 'DIFF_CMD="codium --wait --diff" tools/actions/review_backport.sh https://github.com/nodejs/node/pull/' - echo "Limitations: This tools only supports PRs that landed as single commit, e.g. with 'commit-queue-squash' label." + echo "Usage:" >&2 + echo 'tools/actions/review_backport.sh https://github.com/nodejs/node/pull/ | less' >&2 + echo 'DIFF_CMD="codium --wait --diff" tools/actions/review_backport.sh https://github.com/nodejs/node/pull/' >&2 + echo "Limitations: This tools only supports PRs that landed as single commit, e.g. with 'commit-queue-squash' label." >&2 exit 1 } @@ -15,16 +20,28 @@ SED_CMD='s/^index [a-f0-9]\+..[a-f0-9]\+ \([0-7]\{6\}\)$/index eeeeeeeeee..eeeee set -ex +BACKPORT_PR_URL=$(gh pr view "$BACKPORT_PR" --json url --jq .url) + ORIGINAL=$(mktemp) BACKPORT=$(mktemp) +trap 'set -x; rm -f "$ORIGINAL" "$BACKPORT"; set +x; trap - EXIT; exit' EXIT INT HUP + gh pr view "$BACKPORT_PR" --json commits --jq '.[] | map([ .oid, (.messageBody | match("(?:^|\\n)PR-URL: (https?://.+/pull/\\d+)(?:\\n|$)", "g") | .captures | last | .string)] | @tsv) | .[]' \ | while read -r LINE; do COMMIT_SHA=$(echo "$LINE" | cut -f1) PR_URL=$(echo "$LINE" | cut -f2) curl -fsL "$PR_URL.diff" | sed "$SED_CMD" >> "$ORIGINAL" - curl -fsL "$BACKPORT_PR/commits/$COMMIT_SHA.diff" | sed "$SED_CMD" >> "$BACKPORT" + curl -fsL "$BACKPORT_PR_URL/commits/$COMMIT_SHA.diff" | sed "$SED_CMD" >> "$BACKPORT" done -${DIFF_CMD:-diff} "$ORIGINAL" "$BACKPORT" -rm "$ORIGINAL" "$BACKPORT" +${DIFF_CMD:-diff} "$ORIGINAL" "$BACKPORT" || echo "diff command exited with $?" >&2 + +set +x + +printf "Approve the PR using gh? [y/N] " +read -r r +[ "$r" != "y" ] || { + set -x + gh pr review "$BACKPORT_PR" --approve +} diff --git a/tools/actions/start-ci.sh b/tools/actions/start-ci.sh index bca1da86074f3b..4d4fadf958a961 100755 --- a/tools/actions/start-ci.sh +++ b/tools/actions/start-ci.sh @@ -10,7 +10,7 @@ for pr in "$@"; do ci_started=yes rm -f output; - ncu-ci run "$pr" >output 2>&1 || ci_started=no + ncu-ci run --check-for-duplicates "$pr" >output 2>&1 || ci_started=no cat output if [ "$ci_started" = "no" ]; then diff --git a/tools/certdata.txt b/tools/certdata.txt index 150f746b62d376..97b118f6879758 100644 --- a/tools/certdata.txt +++ b/tools/certdata.txt @@ -979,7 +979,7 @@ END CKA_SERIAL_NUMBER MULTILINE_OCTAL \002\002\005\011 END -CKA_TRUST_SERVER_AUTH CK_TRUST CKT_NSS_TRUSTED_DELEGATOR +CKA_TRUST_SERVER_AUTH CK_TRUST CKT_NSS_MUST_VERIFY_TRUST CKA_TRUST_EMAIL_PROTECTION CK_TRUST CKT_NSS_TRUSTED_DELEGATOR CKA_TRUST_CODE_SIGNING CK_TRUST CKT_NSS_MUST_VERIFY_TRUST CKA_TRUST_STEP_UP_APPROVED CK_BBOOL CK_FALSE @@ -1161,163 +1161,6 @@ END CKA_SERIAL_NUMBER MULTILINE_OCTAL \002\002\005\306 END -CKA_TRUST_SERVER_AUTH CK_TRUST CKT_NSS_TRUSTED_DELEGATOR -CKA_TRUST_EMAIL_PROTECTION CK_TRUST CKT_NSS_TRUSTED_DELEGATOR -CKA_TRUST_CODE_SIGNING CK_TRUST CKT_NSS_MUST_VERIFY_TRUST -CKA_TRUST_STEP_UP_APPROVED CK_BBOOL CK_FALSE - -# -# Certificate "XRamp Global CA Root" -# -# Issuer: CN=XRamp Global Certification Authority,O=XRamp Security Services Inc,OU=www.xrampsecurity.com,C=US -# Serial Number:50:94:6c:ec:18:ea:d5:9c:4d:d5:97:ef:75:8f:a0:ad -# Subject: CN=XRamp Global Certification Authority,O=XRamp Security Services Inc,OU=www.xrampsecurity.com,C=US -# Not Valid Before: Mon Nov 01 17:14:04 2004 -# Not Valid After : Mon Jan 01 05:37:19 2035 -# Fingerprint (SHA-256): CE:CD:DC:90:50:99:D8:DA:DF:C5:B1:D2:09:B7:37:CB:E2:C1:8C:FB:2C:10:C0:FF:0B:CF:0D:32:86:FC:1A:A2 -# Fingerprint (SHA1): B8:01:86:D1:EB:9C:86:A5:41:04:CF:30:54:F3:4C:52:B7:E5:58:C6 -CKA_CLASS CK_OBJECT_CLASS CKO_CERTIFICATE -CKA_TOKEN CK_BBOOL CK_TRUE -CKA_PRIVATE CK_BBOOL CK_FALSE -CKA_MODIFIABLE CK_BBOOL CK_FALSE -CKA_LABEL UTF8 "XRamp Global CA Root" -CKA_CERTIFICATE_TYPE CK_CERTIFICATE_TYPE CKC_X_509 -CKA_SUBJECT MULTILINE_OCTAL -\060\201\202\061\013\060\011\006\003\125\004\006\023\002\125\123 -\061\036\060\034\006\003\125\004\013\023\025\167\167\167\056\170 -\162\141\155\160\163\145\143\165\162\151\164\171\056\143\157\155 -\061\044\060\042\006\003\125\004\012\023\033\130\122\141\155\160 -\040\123\145\143\165\162\151\164\171\040\123\145\162\166\151\143 -\145\163\040\111\156\143\061\055\060\053\006\003\125\004\003\023 -\044\130\122\141\155\160\040\107\154\157\142\141\154\040\103\145 -\162\164\151\146\151\143\141\164\151\157\156\040\101\165\164\150 -\157\162\151\164\171 -END -CKA_ID UTF8 "0" -CKA_ISSUER MULTILINE_OCTAL -\060\201\202\061\013\060\011\006\003\125\004\006\023\002\125\123 -\061\036\060\034\006\003\125\004\013\023\025\167\167\167\056\170 -\162\141\155\160\163\145\143\165\162\151\164\171\056\143\157\155 -\061\044\060\042\006\003\125\004\012\023\033\130\122\141\155\160 -\040\123\145\143\165\162\151\164\171\040\123\145\162\166\151\143 -\145\163\040\111\156\143\061\055\060\053\006\003\125\004\003\023 -\044\130\122\141\155\160\040\107\154\157\142\141\154\040\103\145 -\162\164\151\146\151\143\141\164\151\157\156\040\101\165\164\150 -\157\162\151\164\171 -END -CKA_SERIAL_NUMBER MULTILINE_OCTAL -\002\020\120\224\154\354\030\352\325\234\115\325\227\357\165\217 -\240\255 -END -CKA_VALUE MULTILINE_OCTAL -\060\202\004\060\060\202\003\030\240\003\002\001\002\002\020\120 -\224\154\354\030\352\325\234\115\325\227\357\165\217\240\255\060 -\015\006\011\052\206\110\206\367\015\001\001\005\005\000\060\201 -\202\061\013\060\011\006\003\125\004\006\023\002\125\123\061\036 -\060\034\006\003\125\004\013\023\025\167\167\167\056\170\162\141 -\155\160\163\145\143\165\162\151\164\171\056\143\157\155\061\044 -\060\042\006\003\125\004\012\023\033\130\122\141\155\160\040\123 -\145\143\165\162\151\164\171\040\123\145\162\166\151\143\145\163 -\040\111\156\143\061\055\060\053\006\003\125\004\003\023\044\130 -\122\141\155\160\040\107\154\157\142\141\154\040\103\145\162\164 -\151\146\151\143\141\164\151\157\156\040\101\165\164\150\157\162 -\151\164\171\060\036\027\015\060\064\061\061\060\061\061\067\061 -\064\060\064\132\027\015\063\065\060\061\060\061\060\065\063\067 -\061\071\132\060\201\202\061\013\060\011\006\003\125\004\006\023 -\002\125\123\061\036\060\034\006\003\125\004\013\023\025\167\167 -\167\056\170\162\141\155\160\163\145\143\165\162\151\164\171\056 -\143\157\155\061\044\060\042\006\003\125\004\012\023\033\130\122 -\141\155\160\040\123\145\143\165\162\151\164\171\040\123\145\162 -\166\151\143\145\163\040\111\156\143\061\055\060\053\006\003\125 -\004\003\023\044\130\122\141\155\160\040\107\154\157\142\141\154 -\040\103\145\162\164\151\146\151\143\141\164\151\157\156\040\101 -\165\164\150\157\162\151\164\171\060\202\001\042\060\015\006\011 -\052\206\110\206\367\015\001\001\001\005\000\003\202\001\017\000 -\060\202\001\012\002\202\001\001\000\230\044\036\275\025\264\272 -\337\307\214\245\047\266\070\013\151\363\266\116\250\054\056\041 -\035\134\104\337\041\135\176\043\164\376\136\176\264\112\267\246 -\255\037\256\340\006\026\342\233\133\331\147\164\153\135\200\217 -\051\235\206\033\331\234\015\230\155\166\020\050\130\344\145\260 -\177\112\230\171\237\340\303\061\176\200\053\265\214\300\100\073 -\021\206\320\313\242\206\066\140\244\325\060\202\155\331\156\320 -\017\022\004\063\227\137\117\141\132\360\344\371\221\253\347\035 -\073\274\350\317\364\153\055\064\174\342\110\141\034\216\363\141 -\104\314\157\240\112\251\224\260\115\332\347\251\064\172\162\070 -\250\101\314\074\224\021\175\353\310\246\214\267\206\313\312\063 -\073\331\075\067\213\373\172\076\206\054\347\163\327\012\127\254 -\144\233\031\353\364\017\004\010\212\254\003\027\031\144\364\132 -\045\042\215\064\054\262\366\150\035\022\155\323\212\036\024\332 -\304\217\246\342\043\205\325\172\015\275\152\340\351\354\354\027 -\273\102\033\147\252\045\355\105\203\041\374\301\311\174\325\142 -\076\372\362\305\055\323\375\324\145\002\003\001\000\001\243\201 -\237\060\201\234\060\023\006\011\053\006\001\004\001\202\067\024 -\002\004\006\036\004\000\103\000\101\060\013\006\003\125\035\017 -\004\004\003\002\001\206\060\017\006\003\125\035\023\001\001\377 -\004\005\060\003\001\001\377\060\035\006\003\125\035\016\004\026 -\004\024\306\117\242\075\006\143\204\011\234\316\142\344\004\254 -\215\134\265\351\266\033\060\066\006\003\125\035\037\004\057\060 -\055\060\053\240\051\240\047\206\045\150\164\164\160\072\057\057 -\143\162\154\056\170\162\141\155\160\163\145\143\165\162\151\164 -\171\056\143\157\155\057\130\107\103\101\056\143\162\154\060\020 -\006\011\053\006\001\004\001\202\067\025\001\004\003\002\001\001 -\060\015\006\011\052\206\110\206\367\015\001\001\005\005\000\003 -\202\001\001\000\221\025\071\003\001\033\147\373\112\034\371\012 -\140\133\241\332\115\227\142\371\044\123\047\327\202\144\116\220 -\056\303\111\033\053\232\334\374\250\170\147\065\361\035\360\021 -\275\267\110\343\020\366\015\337\077\322\311\266\252\125\244\110 -\272\002\333\336\131\056\025\133\073\235\026\175\107\327\067\352 -\137\115\166\022\066\273\037\327\241\201\004\106\040\243\054\155 -\251\236\001\176\077\051\316\000\223\337\375\311\222\163\211\211 -\144\236\347\053\344\034\221\054\322\271\316\175\316\157\061\231 -\323\346\276\322\036\220\360\011\024\171\134\043\253\115\322\332 -\041\037\115\231\171\235\341\317\047\237\020\233\034\210\015\260 -\212\144\101\061\270\016\154\220\044\244\233\134\161\217\272\273 -\176\034\033\333\152\200\017\041\274\351\333\246\267\100\364\262 -\213\251\261\344\357\232\032\320\075\151\231\356\250\050\243\341 -\074\263\360\262\021\234\317\174\100\346\335\347\103\175\242\330 -\072\265\251\215\362\064\231\304\324\020\341\006\375\011\204\020 -\073\356\304\114\364\354\047\174\102\302\164\174\202\212\011\311 -\264\003\045\274 -END -CKA_NSS_MOZILLA_CA_POLICY CK_BBOOL CK_TRUE -CKA_NSS_SERVER_DISTRUST_AFTER CK_BBOOL CK_FALSE -CKA_NSS_EMAIL_DISTRUST_AFTER CK_BBOOL CK_FALSE - -# Trust for "XRamp Global CA Root" -# Issuer: CN=XRamp Global Certification Authority,O=XRamp Security Services Inc,OU=www.xrampsecurity.com,C=US -# Serial Number:50:94:6c:ec:18:ea:d5:9c:4d:d5:97:ef:75:8f:a0:ad -# Subject: CN=XRamp Global Certification Authority,O=XRamp Security Services Inc,OU=www.xrampsecurity.com,C=US -# Not Valid Before: Mon Nov 01 17:14:04 2004 -# Not Valid After : Mon Jan 01 05:37:19 2035 -# Fingerprint (SHA-256): CE:CD:DC:90:50:99:D8:DA:DF:C5:B1:D2:09:B7:37:CB:E2:C1:8C:FB:2C:10:C0:FF:0B:CF:0D:32:86:FC:1A:A2 -# Fingerprint (SHA1): B8:01:86:D1:EB:9C:86:A5:41:04:CF:30:54:F3:4C:52:B7:E5:58:C6 -CKA_CLASS CK_OBJECT_CLASS CKO_NSS_TRUST -CKA_TOKEN CK_BBOOL CK_TRUE -CKA_PRIVATE CK_BBOOL CK_FALSE -CKA_MODIFIABLE CK_BBOOL CK_FALSE -CKA_LABEL UTF8 "XRamp Global CA Root" -CKA_CERT_SHA1_HASH MULTILINE_OCTAL -\270\001\206\321\353\234\206\245\101\004\317\060\124\363\114\122 -\267\345\130\306 -END -CKA_CERT_MD5_HASH MULTILINE_OCTAL -\241\013\104\263\312\020\330\000\156\235\017\330\017\222\012\321 -END -CKA_ISSUER MULTILINE_OCTAL -\060\201\202\061\013\060\011\006\003\125\004\006\023\002\125\123 -\061\036\060\034\006\003\125\004\013\023\025\167\167\167\056\170 -\162\141\155\160\163\145\143\165\162\151\164\171\056\143\157\155 -\061\044\060\042\006\003\125\004\012\023\033\130\122\141\155\160 -\040\123\145\143\165\162\151\164\171\040\123\145\162\166\151\143 -\145\163\040\111\156\143\061\055\060\053\006\003\125\004\003\023 -\044\130\122\141\155\160\040\107\154\157\142\141\154\040\103\145 -\162\164\151\146\151\143\141\164\151\157\156\040\101\165\164\150 -\157\162\151\164\171 -END -CKA_SERIAL_NUMBER MULTILINE_OCTAL -\002\020\120\224\154\354\030\352\325\234\115\325\227\357\165\217 -\240\255 -END CKA_TRUST_SERVER_AUTH CK_TRUST CKT_NSS_MUST_VERIFY_TRUST CKA_TRUST_EMAIL_PROTECTION CK_TRUST CKT_NSS_TRUSTED_DELEGATOR CKA_TRUST_CODE_SIGNING CK_TRUST CKT_NSS_MUST_VERIFY_TRUST @@ -1754,7 +1597,7 @@ CKA_SERIAL_NUMBER MULTILINE_OCTAL \002\020\014\347\340\345\027\330\106\376\217\345\140\374\033\360 \060\071 END -CKA_TRUST_SERVER_AUTH CK_TRUST CKT_NSS_TRUSTED_DELEGATOR +CKA_TRUST_SERVER_AUTH CK_TRUST CKT_NSS_MUST_VERIFY_TRUST CKA_TRUST_EMAIL_PROTECTION CK_TRUST CKT_NSS_TRUSTED_DELEGATOR CKA_TRUST_CODE_SIGNING CK_TRUST CKT_NSS_MUST_VERIFY_TRUST CKA_TRUST_STEP_UP_APPROVED CK_BBOOL CK_FALSE @@ -1897,7 +1740,7 @@ CKA_SERIAL_NUMBER MULTILINE_OCTAL \002\020\010\073\340\126\220\102\106\261\241\165\152\311\131\221 \307\112 END -CKA_TRUST_SERVER_AUTH CK_TRUST CKT_NSS_TRUSTED_DELEGATOR +CKA_TRUST_SERVER_AUTH CK_TRUST CKT_NSS_MUST_VERIFY_TRUST CKA_TRUST_EMAIL_PROTECTION CK_TRUST CKT_NSS_TRUSTED_DELEGATOR CKA_TRUST_CODE_SIGNING CK_TRUST CKT_NSS_MUST_VERIFY_TRUST CKA_TRUST_STEP_UP_APPROVED CK_BBOOL CK_FALSE @@ -2041,7 +1884,7 @@ CKA_SERIAL_NUMBER MULTILINE_OCTAL \002\020\002\254\134\046\152\013\100\233\217\013\171\362\256\106 \045\167 END -CKA_TRUST_SERVER_AUTH CK_TRUST CKT_NSS_TRUSTED_DELEGATOR +CKA_TRUST_SERVER_AUTH CK_TRUST CKT_NSS_MUST_VERIFY_TRUST CKA_TRUST_EMAIL_PROTECTION CK_TRUST CKT_NSS_TRUSTED_DELEGATOR CKA_TRUST_CODE_SIGNING CK_TRUST CKT_NSS_MUST_VERIFY_TRUST CKA_TRUST_STEP_UP_APPROVED CK_BBOOL CK_FALSE @@ -2208,281 +2051,7 @@ END CKA_SERIAL_NUMBER MULTILINE_OCTAL \002\011\000\273\100\034\103\365\136\117\260 END -CKA_TRUST_SERVER_AUTH CK_TRUST CKT_NSS_TRUSTED_DELEGATOR -CKA_TRUST_EMAIL_PROTECTION CK_TRUST CKT_NSS_TRUSTED_DELEGATOR -CKA_TRUST_CODE_SIGNING CK_TRUST CKT_NSS_MUST_VERIFY_TRUST -CKA_TRUST_STEP_UP_APPROVED CK_BBOOL CK_FALSE - -# -# Certificate "SecureTrust CA" -# -# Issuer: CN=SecureTrust CA,O=SecureTrust Corporation,C=US -# Serial Number:0c:f0:8e:5c:08:16:a5:ad:42:7f:f0:eb:27:18:59:d0 -# Subject: CN=SecureTrust CA,O=SecureTrust Corporation,C=US -# Not Valid Before: Tue Nov 07 19:31:18 2006 -# Not Valid After : Mon Dec 31 19:40:55 2029 -# Fingerprint (SHA-256): F1:C1:B5:0A:E5:A2:0D:D8:03:0E:C9:F6:BC:24:82:3D:D3:67:B5:25:57:59:B4:E7:1B:61:FC:E9:F7:37:5D:73 -# Fingerprint (SHA1): 87:82:C6:C3:04:35:3B:CF:D2:96:92:D2:59:3E:7D:44:D9:34:FF:11 -CKA_CLASS CK_OBJECT_CLASS CKO_CERTIFICATE -CKA_TOKEN CK_BBOOL CK_TRUE -CKA_PRIVATE CK_BBOOL CK_FALSE -CKA_MODIFIABLE CK_BBOOL CK_FALSE -CKA_LABEL UTF8 "SecureTrust CA" -CKA_CERTIFICATE_TYPE CK_CERTIFICATE_TYPE CKC_X_509 -CKA_SUBJECT MULTILINE_OCTAL -\060\110\061\013\060\011\006\003\125\004\006\023\002\125\123\061 -\040\060\036\006\003\125\004\012\023\027\123\145\143\165\162\145 -\124\162\165\163\164\040\103\157\162\160\157\162\141\164\151\157 -\156\061\027\060\025\006\003\125\004\003\023\016\123\145\143\165 -\162\145\124\162\165\163\164\040\103\101 -END -CKA_ID UTF8 "0" -CKA_ISSUER MULTILINE_OCTAL -\060\110\061\013\060\011\006\003\125\004\006\023\002\125\123\061 -\040\060\036\006\003\125\004\012\023\027\123\145\143\165\162\145 -\124\162\165\163\164\040\103\157\162\160\157\162\141\164\151\157 -\156\061\027\060\025\006\003\125\004\003\023\016\123\145\143\165 -\162\145\124\162\165\163\164\040\103\101 -END -CKA_SERIAL_NUMBER MULTILINE_OCTAL -\002\020\014\360\216\134\010\026\245\255\102\177\360\353\047\030 -\131\320 -END -CKA_VALUE MULTILINE_OCTAL -\060\202\003\270\060\202\002\240\240\003\002\001\002\002\020\014 -\360\216\134\010\026\245\255\102\177\360\353\047\030\131\320\060 -\015\006\011\052\206\110\206\367\015\001\001\005\005\000\060\110 -\061\013\060\011\006\003\125\004\006\023\002\125\123\061\040\060 -\036\006\003\125\004\012\023\027\123\145\143\165\162\145\124\162 -\165\163\164\040\103\157\162\160\157\162\141\164\151\157\156\061 -\027\060\025\006\003\125\004\003\023\016\123\145\143\165\162\145 -\124\162\165\163\164\040\103\101\060\036\027\015\060\066\061\061 -\060\067\061\071\063\061\061\070\132\027\015\062\071\061\062\063 -\061\061\071\064\060\065\065\132\060\110\061\013\060\011\006\003 -\125\004\006\023\002\125\123\061\040\060\036\006\003\125\004\012 -\023\027\123\145\143\165\162\145\124\162\165\163\164\040\103\157 -\162\160\157\162\141\164\151\157\156\061\027\060\025\006\003\125 -\004\003\023\016\123\145\143\165\162\145\124\162\165\163\164\040 -\103\101\060\202\001\042\060\015\006\011\052\206\110\206\367\015 -\001\001\001\005\000\003\202\001\017\000\060\202\001\012\002\202 -\001\001\000\253\244\201\345\225\315\365\366\024\216\302\117\312 -\324\342\170\225\130\234\101\341\015\231\100\044\027\071\221\063 -\146\351\276\341\203\257\142\134\211\321\374\044\133\141\263\340 -\021\021\101\034\035\156\360\270\273\370\336\247\201\272\246\110 -\306\237\035\275\276\216\251\101\076\270\224\355\051\032\324\216 -\322\003\035\003\357\155\015\147\034\127\327\006\255\312\310\365 -\376\016\257\146\045\110\004\226\013\135\243\272\026\303\010\117 -\321\106\370\024\134\362\310\136\001\231\155\375\210\314\206\250 -\301\157\061\102\154\122\076\150\313\363\031\064\337\273\207\030 -\126\200\046\304\320\334\300\157\337\336\240\302\221\026\240\144 -\021\113\104\274\036\366\347\372\143\336\146\254\166\244\161\243 -\354\066\224\150\172\167\244\261\347\016\057\201\172\342\265\162 -\206\357\242\153\213\360\017\333\323\131\077\272\162\274\104\044 -\234\343\163\263\367\257\127\057\102\046\235\251\164\272\000\122 -\362\113\315\123\174\107\013\066\205\016\146\251\010\227\026\064 -\127\301\146\367\200\343\355\160\124\307\223\340\056\050\025\131 -\207\272\273\002\003\001\000\001\243\201\235\060\201\232\060\023 -\006\011\053\006\001\004\001\202\067\024\002\004\006\036\004\000 -\103\000\101\060\013\006\003\125\035\017\004\004\003\002\001\206 -\060\017\006\003\125\035\023\001\001\377\004\005\060\003\001\001 -\377\060\035\006\003\125\035\016\004\026\004\024\102\062\266\026 -\372\004\375\376\135\113\172\303\375\367\114\100\035\132\103\257 -\060\064\006\003\125\035\037\004\055\060\053\060\051\240\047\240 -\045\206\043\150\164\164\160\072\057\057\143\162\154\056\163\145 -\143\165\162\145\164\162\165\163\164\056\143\157\155\057\123\124 -\103\101\056\143\162\154\060\020\006\011\053\006\001\004\001\202 -\067\025\001\004\003\002\001\000\060\015\006\011\052\206\110\206 -\367\015\001\001\005\005\000\003\202\001\001\000\060\355\117\112 -\341\130\072\122\162\133\265\246\243\145\030\246\273\121\073\167 -\351\235\352\323\237\134\340\105\145\173\015\312\133\342\160\120 -\262\224\005\024\256\111\307\215\101\007\022\163\224\176\014\043 -\041\375\274\020\177\140\020\132\162\365\230\016\254\354\271\177 -\335\172\157\135\323\034\364\377\210\005\151\102\251\005\161\310 -\267\254\046\350\056\264\214\152\377\161\334\270\261\337\231\274 -\174\041\124\053\344\130\242\273\127\051\256\236\251\243\031\046 -\017\231\056\010\260\357\375\151\317\231\032\011\215\343\247\237 -\053\311\066\064\173\044\263\170\114\225\027\244\006\046\036\266 -\144\122\066\137\140\147\331\234\305\005\164\013\347\147\043\322 -\010\374\210\351\256\213\177\341\060\364\067\176\375\306\062\332 -\055\236\104\060\060\154\356\007\336\322\064\374\322\377\100\366 -\113\364\146\106\006\124\246\362\062\012\143\046\060\153\233\321 -\334\213\107\272\341\271\325\142\320\242\240\364\147\005\170\051 -\143\032\157\004\326\370\306\114\243\232\261\067\264\215\345\050 -\113\035\236\054\302\270\150\274\355\002\356\061 -END -CKA_NSS_MOZILLA_CA_POLICY CK_BBOOL CK_TRUE -CKA_NSS_SERVER_DISTRUST_AFTER CK_BBOOL CK_FALSE -CKA_NSS_EMAIL_DISTRUST_AFTER CK_BBOOL CK_FALSE - -# Trust for "SecureTrust CA" -# Issuer: CN=SecureTrust CA,O=SecureTrust Corporation,C=US -# Serial Number:0c:f0:8e:5c:08:16:a5:ad:42:7f:f0:eb:27:18:59:d0 -# Subject: CN=SecureTrust CA,O=SecureTrust Corporation,C=US -# Not Valid Before: Tue Nov 07 19:31:18 2006 -# Not Valid After : Mon Dec 31 19:40:55 2029 -# Fingerprint (SHA-256): F1:C1:B5:0A:E5:A2:0D:D8:03:0E:C9:F6:BC:24:82:3D:D3:67:B5:25:57:59:B4:E7:1B:61:FC:E9:F7:37:5D:73 -# Fingerprint (SHA1): 87:82:C6:C3:04:35:3B:CF:D2:96:92:D2:59:3E:7D:44:D9:34:FF:11 -CKA_CLASS CK_OBJECT_CLASS CKO_NSS_TRUST -CKA_TOKEN CK_BBOOL CK_TRUE -CKA_PRIVATE CK_BBOOL CK_FALSE -CKA_MODIFIABLE CK_BBOOL CK_FALSE -CKA_LABEL UTF8 "SecureTrust CA" -CKA_CERT_SHA1_HASH MULTILINE_OCTAL -\207\202\306\303\004\065\073\317\322\226\222\322\131\076\175\104 -\331\064\377\021 -END -CKA_CERT_MD5_HASH MULTILINE_OCTAL -\334\062\303\247\155\045\127\307\150\011\235\352\055\251\242\321 -END -CKA_ISSUER MULTILINE_OCTAL -\060\110\061\013\060\011\006\003\125\004\006\023\002\125\123\061 -\040\060\036\006\003\125\004\012\023\027\123\145\143\165\162\145 -\124\162\165\163\164\040\103\157\162\160\157\162\141\164\151\157 -\156\061\027\060\025\006\003\125\004\003\023\016\123\145\143\165 -\162\145\124\162\165\163\164\040\103\101 -END -CKA_SERIAL_NUMBER MULTILINE_OCTAL -\002\020\014\360\216\134\010\026\245\255\102\177\360\353\047\030 -\131\320 -END -CKA_TRUST_SERVER_AUTH CK_TRUST CKT_NSS_TRUSTED_DELEGATOR -CKA_TRUST_EMAIL_PROTECTION CK_TRUST CKT_NSS_MUST_VERIFY_TRUST -CKA_TRUST_CODE_SIGNING CK_TRUST CKT_NSS_MUST_VERIFY_TRUST -CKA_TRUST_STEP_UP_APPROVED CK_BBOOL CK_FALSE - -# -# Certificate "Secure Global CA" -# -# Issuer: CN=Secure Global CA,O=SecureTrust Corporation,C=US -# Serial Number:07:56:22:a4:e8:d4:8a:89:4d:f4:13:c8:f0:f8:ea:a5 -# Subject: CN=Secure Global CA,O=SecureTrust Corporation,C=US -# Not Valid Before: Tue Nov 07 19:42:28 2006 -# Not Valid After : Mon Dec 31 19:52:06 2029 -# Fingerprint (SHA-256): 42:00:F5:04:3A:C8:59:0E:BB:52:7D:20:9E:D1:50:30:29:FB:CB:D4:1C:A1:B5:06:EC:27:F1:5A:DE:7D:AC:69 -# Fingerprint (SHA1): 3A:44:73:5A:E5:81:90:1F:24:86:61:46:1E:3B:9C:C4:5F:F5:3A:1B -CKA_CLASS CK_OBJECT_CLASS CKO_CERTIFICATE -CKA_TOKEN CK_BBOOL CK_TRUE -CKA_PRIVATE CK_BBOOL CK_FALSE -CKA_MODIFIABLE CK_BBOOL CK_FALSE -CKA_LABEL UTF8 "Secure Global CA" -CKA_CERTIFICATE_TYPE CK_CERTIFICATE_TYPE CKC_X_509 -CKA_SUBJECT MULTILINE_OCTAL -\060\112\061\013\060\011\006\003\125\004\006\023\002\125\123\061 -\040\060\036\006\003\125\004\012\023\027\123\145\143\165\162\145 -\124\162\165\163\164\040\103\157\162\160\157\162\141\164\151\157 -\156\061\031\060\027\006\003\125\004\003\023\020\123\145\143\165 -\162\145\040\107\154\157\142\141\154\040\103\101 -END -CKA_ID UTF8 "0" -CKA_ISSUER MULTILINE_OCTAL -\060\112\061\013\060\011\006\003\125\004\006\023\002\125\123\061 -\040\060\036\006\003\125\004\012\023\027\123\145\143\165\162\145 -\124\162\165\163\164\040\103\157\162\160\157\162\141\164\151\157 -\156\061\031\060\027\006\003\125\004\003\023\020\123\145\143\165 -\162\145\040\107\154\157\142\141\154\040\103\101 -END -CKA_SERIAL_NUMBER MULTILINE_OCTAL -\002\020\007\126\042\244\350\324\212\211\115\364\023\310\360\370 -\352\245 -END -CKA_VALUE MULTILINE_OCTAL -\060\202\003\274\060\202\002\244\240\003\002\001\002\002\020\007 -\126\042\244\350\324\212\211\115\364\023\310\360\370\352\245\060 -\015\006\011\052\206\110\206\367\015\001\001\005\005\000\060\112 -\061\013\060\011\006\003\125\004\006\023\002\125\123\061\040\060 -\036\006\003\125\004\012\023\027\123\145\143\165\162\145\124\162 -\165\163\164\040\103\157\162\160\157\162\141\164\151\157\156\061 -\031\060\027\006\003\125\004\003\023\020\123\145\143\165\162\145 -\040\107\154\157\142\141\154\040\103\101\060\036\027\015\060\066 -\061\061\060\067\061\071\064\062\062\070\132\027\015\062\071\061 -\062\063\061\061\071\065\062\060\066\132\060\112\061\013\060\011 -\006\003\125\004\006\023\002\125\123\061\040\060\036\006\003\125 -\004\012\023\027\123\145\143\165\162\145\124\162\165\163\164\040 -\103\157\162\160\157\162\141\164\151\157\156\061\031\060\027\006 -\003\125\004\003\023\020\123\145\143\165\162\145\040\107\154\157 -\142\141\154\040\103\101\060\202\001\042\060\015\006\011\052\206 -\110\206\367\015\001\001\001\005\000\003\202\001\017\000\060\202 -\001\012\002\202\001\001\000\257\065\056\330\254\154\125\151\006 -\161\345\023\150\044\263\117\330\314\041\107\370\361\140\070\211 -\211\003\351\275\352\136\106\123\011\334\134\365\132\350\367\105 -\052\002\353\061\141\327\051\063\114\316\307\174\012\067\176\017 -\272\062\230\341\035\227\257\217\307\334\311\070\226\363\333\032 -\374\121\355\150\306\320\156\244\174\044\321\256\102\310\226\120 -\143\056\340\376\165\376\230\247\137\111\056\225\343\071\063\144 -\216\036\244\137\220\322\147\074\262\331\376\101\271\125\247\011 -\216\162\005\036\213\335\104\205\202\102\320\111\300\035\140\360 -\321\027\054\225\353\366\245\301\222\243\305\302\247\010\140\015 -\140\004\020\226\171\236\026\064\346\251\266\372\045\105\071\310 -\036\145\371\223\365\252\361\122\334\231\230\075\245\206\032\014 -\065\063\372\113\245\004\006\025\034\061\200\357\252\030\153\302 -\173\327\332\316\371\063\040\325\365\275\152\063\055\201\004\373 -\260\134\324\234\243\342\134\035\343\251\102\165\136\173\324\167 -\357\071\124\272\311\012\030\033\022\231\111\057\210\113\375\120 -\142\321\163\347\217\172\103\002\003\001\000\001\243\201\235\060 -\201\232\060\023\006\011\053\006\001\004\001\202\067\024\002\004 -\006\036\004\000\103\000\101\060\013\006\003\125\035\017\004\004 -\003\002\001\206\060\017\006\003\125\035\023\001\001\377\004\005 -\060\003\001\001\377\060\035\006\003\125\035\016\004\026\004\024 -\257\104\004\302\101\176\110\203\333\116\071\002\354\354\204\172 -\346\316\311\244\060\064\006\003\125\035\037\004\055\060\053\060 -\051\240\047\240\045\206\043\150\164\164\160\072\057\057\143\162 -\154\056\163\145\143\165\162\145\164\162\165\163\164\056\143\157 -\155\057\123\107\103\101\056\143\162\154\060\020\006\011\053\006 -\001\004\001\202\067\025\001\004\003\002\001\000\060\015\006\011 -\052\206\110\206\367\015\001\001\005\005\000\003\202\001\001\000 -\143\032\010\100\175\244\136\123\015\167\330\172\256\037\015\013 -\121\026\003\357\030\174\310\343\257\152\130\223\024\140\221\262 -\204\334\210\116\276\071\212\072\363\346\202\211\135\001\067\263 -\253\044\244\025\016\222\065\132\112\104\136\116\127\372\165\316 -\037\110\316\146\364\074\100\046\222\230\154\033\356\044\106\014 -\027\263\122\245\333\245\221\221\317\067\323\157\347\047\010\072 -\116\031\037\072\247\130\134\027\317\171\077\213\344\247\323\046 -\043\235\046\017\130\151\374\107\176\262\320\215\213\223\277\051 -\117\103\151\164\166\147\113\317\007\214\346\002\367\265\341\264 -\103\265\113\055\024\237\371\334\046\015\277\246\107\164\006\330 -\210\321\072\051\060\204\316\322\071\200\142\033\250\307\127\111 -\274\152\125\121\147\025\112\276\065\007\344\325\165\230\067\171 -\060\024\333\051\235\154\305\151\314\107\125\242\060\367\314\134 -\177\302\303\230\034\153\116\026\200\353\172\170\145\105\242\000 -\032\257\014\015\125\144\064\110\270\222\271\361\264\120\051\362 -\117\043\037\332\154\254\037\104\341\335\043\170\121\133\307\026 -END -CKA_NSS_MOZILLA_CA_POLICY CK_BBOOL CK_TRUE -CKA_NSS_SERVER_DISTRUST_AFTER CK_BBOOL CK_FALSE -CKA_NSS_EMAIL_DISTRUST_AFTER CK_BBOOL CK_FALSE - -# Trust for "Secure Global CA" -# Issuer: CN=Secure Global CA,O=SecureTrust Corporation,C=US -# Serial Number:07:56:22:a4:e8:d4:8a:89:4d:f4:13:c8:f0:f8:ea:a5 -# Subject: CN=Secure Global CA,O=SecureTrust Corporation,C=US -# Not Valid Before: Tue Nov 07 19:42:28 2006 -# Not Valid After : Mon Dec 31 19:52:06 2029 -# Fingerprint (SHA-256): 42:00:F5:04:3A:C8:59:0E:BB:52:7D:20:9E:D1:50:30:29:FB:CB:D4:1C:A1:B5:06:EC:27:F1:5A:DE:7D:AC:69 -# Fingerprint (SHA1): 3A:44:73:5A:E5:81:90:1F:24:86:61:46:1E:3B:9C:C4:5F:F5:3A:1B -CKA_CLASS CK_OBJECT_CLASS CKO_NSS_TRUST -CKA_TOKEN CK_BBOOL CK_TRUE -CKA_PRIVATE CK_BBOOL CK_FALSE -CKA_MODIFIABLE CK_BBOOL CK_FALSE -CKA_LABEL UTF8 "Secure Global CA" -CKA_CERT_SHA1_HASH MULTILINE_OCTAL -\072\104\163\132\345\201\220\037\044\206\141\106\036\073\234\304 -\137\365\072\033 -END -CKA_CERT_MD5_HASH MULTILINE_OCTAL -\317\364\047\015\324\355\334\145\026\111\155\075\332\277\156\336 -END -CKA_ISSUER MULTILINE_OCTAL -\060\112\061\013\060\011\006\003\125\004\006\023\002\125\123\061 -\040\060\036\006\003\125\004\012\023\027\123\145\143\165\162\145 -\124\162\165\163\164\040\103\157\162\160\157\162\141\164\151\157 -\156\061\031\060\027\006\003\125\004\003\023\020\123\145\143\165 -\162\145\040\107\154\157\142\141\154\040\103\101 -END -CKA_SERIAL_NUMBER MULTILINE_OCTAL -\002\020\007\126\042\244\350\324\212\211\115\364\023\310\360\370 -\352\245 -END -CKA_TRUST_SERVER_AUTH CK_TRUST CKT_NSS_TRUSTED_DELEGATOR +CKA_TRUST_SERVER_AUTH CK_TRUST CKT_NSS_MUST_VERIFY_TRUST CKA_TRUST_EMAIL_PROTECTION CK_TRUST CKT_NSS_TRUSTED_DELEGATOR CKA_TRUST_CODE_SIGNING CK_TRUST CKT_NSS_MUST_VERIFY_TRUST CKA_TRUST_STEP_UP_APPROVED CK_BBOOL CK_FALSE @@ -2638,7 +2207,7 @@ CKA_SERIAL_NUMBER MULTILINE_OCTAL \002\020\116\201\055\212\202\145\340\013\002\356\076\065\002\106 \345\075 END -CKA_TRUST_SERVER_AUTH CK_TRUST CKT_NSS_TRUSTED_DELEGATOR +CKA_TRUST_SERVER_AUTH CK_TRUST CKT_NSS_MUST_VERIFY_TRUST CKA_TRUST_EMAIL_PROTECTION CK_TRUST CKT_NSS_TRUSTED_DELEGATOR CKA_TRUST_CODE_SIGNING CK_TRUST CKT_NSS_MUST_VERIFY_TRUST CKA_TRUST_STEP_UP_APPROVED CK_BBOOL CK_FALSE @@ -3052,7 +2621,7 @@ END CKA_SERIAL_NUMBER MULTILINE_OCTAL \002\011\000\376\334\343\001\017\311\110\377 END -CKA_TRUST_SERVER_AUTH CK_TRUST CKT_NSS_TRUSTED_DELEGATOR +CKA_TRUST_SERVER_AUTH CK_TRUST CKT_NSS_MUST_VERIFY_TRUST CKA_TRUST_EMAIL_PROTECTION CK_TRUST CKT_NSS_TRUSTED_DELEGATOR CKA_TRUST_CODE_SIGNING CK_TRUST CKT_NSS_MUST_VERIFY_TRUST CKA_TRUST_STEP_UP_APPROVED CK_BBOOL CK_FALSE @@ -3232,130 +2801,6 @@ CKA_TRUST_EMAIL_PROTECTION CK_TRUST CKT_NSS_TRUSTED_DELEGATOR CKA_TRUST_CODE_SIGNING CK_TRUST CKT_NSS_MUST_VERIFY_TRUST CKA_TRUST_STEP_UP_APPROVED CK_BBOOL CK_FALSE -# -# Certificate "certSIGN ROOT CA" -# -# Issuer: OU=certSIGN ROOT CA,O=certSIGN,C=RO -# Serial Number:20:06:05:16:70:02 -# Subject: OU=certSIGN ROOT CA,O=certSIGN,C=RO -# Not Valid Before: Tue Jul 04 17:20:04 2006 -# Not Valid After : Fri Jul 04 17:20:04 2031 -# Fingerprint (SHA-256): EA:A9:62:C4:FA:4A:6B:AF:EB:E4:15:19:6D:35:1C:CD:88:8D:4F:53:F3:FA:8A:E6:D7:C4:66:A9:4E:60:42:BB -# Fingerprint (SHA1): FA:B7:EE:36:97:26:62:FB:2D:B0:2A:F6:BF:03:FD:E8:7C:4B:2F:9B -CKA_CLASS CK_OBJECT_CLASS CKO_CERTIFICATE -CKA_TOKEN CK_BBOOL CK_TRUE -CKA_PRIVATE CK_BBOOL CK_FALSE -CKA_MODIFIABLE CK_BBOOL CK_FALSE -CKA_LABEL UTF8 "certSIGN ROOT CA" -CKA_CERTIFICATE_TYPE CK_CERTIFICATE_TYPE CKC_X_509 -CKA_SUBJECT MULTILINE_OCTAL -\060\073\061\013\060\011\006\003\125\004\006\023\002\122\117\061 -\021\060\017\006\003\125\004\012\023\010\143\145\162\164\123\111 -\107\116\061\031\060\027\006\003\125\004\013\023\020\143\145\162 -\164\123\111\107\116\040\122\117\117\124\040\103\101 -END -CKA_ID UTF8 "0" -CKA_ISSUER MULTILINE_OCTAL -\060\073\061\013\060\011\006\003\125\004\006\023\002\122\117\061 -\021\060\017\006\003\125\004\012\023\010\143\145\162\164\123\111 -\107\116\061\031\060\027\006\003\125\004\013\023\020\143\145\162 -\164\123\111\107\116\040\122\117\117\124\040\103\101 -END -CKA_SERIAL_NUMBER MULTILINE_OCTAL -\002\006\040\006\005\026\160\002 -END -CKA_VALUE MULTILINE_OCTAL -\060\202\003\070\060\202\002\040\240\003\002\001\002\002\006\040 -\006\005\026\160\002\060\015\006\011\052\206\110\206\367\015\001 -\001\005\005\000\060\073\061\013\060\011\006\003\125\004\006\023 -\002\122\117\061\021\060\017\006\003\125\004\012\023\010\143\145 -\162\164\123\111\107\116\061\031\060\027\006\003\125\004\013\023 -\020\143\145\162\164\123\111\107\116\040\122\117\117\124\040\103 -\101\060\036\027\015\060\066\060\067\060\064\061\067\062\060\060 -\064\132\027\015\063\061\060\067\060\064\061\067\062\060\060\064 -\132\060\073\061\013\060\011\006\003\125\004\006\023\002\122\117 -\061\021\060\017\006\003\125\004\012\023\010\143\145\162\164\123 -\111\107\116\061\031\060\027\006\003\125\004\013\023\020\143\145 -\162\164\123\111\107\116\040\122\117\117\124\040\103\101\060\202 -\001\042\060\015\006\011\052\206\110\206\367\015\001\001\001\005 -\000\003\202\001\017\000\060\202\001\012\002\202\001\001\000\267 -\063\271\176\310\045\112\216\265\333\264\050\033\252\127\220\350 -\321\042\323\144\272\323\223\350\324\254\206\141\100\152\140\127 -\150\124\204\115\274\152\124\002\005\377\337\233\232\052\256\135 -\007\217\112\303\050\177\357\373\053\372\171\361\307\255\360\020 -\123\044\220\213\146\311\250\210\253\257\132\243\000\351\276\272 -\106\356\133\163\173\054\027\202\201\136\142\054\241\002\145\263 -\275\305\053\000\176\304\374\003\063\127\015\355\342\372\316\135 -\105\326\070\315\065\266\262\301\320\234\201\112\252\344\262\001 -\134\035\217\137\231\304\261\255\333\210\041\353\220\010\202\200 -\363\060\243\103\346\220\202\256\125\050\111\355\133\327\251\020 -\070\016\376\217\114\133\233\106\352\101\365\260\010\164\303\320 -\210\063\266\174\327\164\337\334\204\321\103\016\165\071\241\045 -\100\050\352\170\313\016\054\056\071\235\214\213\156\026\034\057 -\046\202\020\342\343\145\224\012\004\300\136\367\135\133\370\020 -\342\320\272\172\113\373\336\067\000\000\032\133\050\343\322\234 -\163\076\062\207\230\241\311\121\057\327\336\254\063\263\117\002 -\003\001\000\001\243\102\060\100\060\017\006\003\125\035\023\001 -\001\377\004\005\060\003\001\001\377\060\016\006\003\125\035\017 -\001\001\377\004\004\003\002\001\306\060\035\006\003\125\035\016 -\004\026\004\024\340\214\233\333\045\111\263\361\174\206\326\262 -\102\207\013\320\153\240\331\344\060\015\006\011\052\206\110\206 -\367\015\001\001\005\005\000\003\202\001\001\000\076\322\034\211 -\056\065\374\370\165\335\346\177\145\210\364\162\114\311\054\327 -\062\116\363\335\031\171\107\275\216\073\133\223\017\120\111\044 -\023\153\024\006\162\357\011\323\241\241\343\100\204\311\347\030 -\062\164\074\110\156\017\237\113\324\367\036\323\223\206\144\124 -\227\143\162\120\325\125\317\372\040\223\002\242\233\303\043\223 -\116\026\125\166\240\160\171\155\315\041\037\317\057\055\274\031 -\343\210\061\370\131\032\201\011\310\227\246\164\307\140\304\133 -\314\127\216\262\165\375\033\002\011\333\131\157\162\223\151\367 -\061\101\326\210\070\277\207\262\275\026\171\371\252\344\276\210 -\045\335\141\047\043\034\265\061\007\004\066\264\032\220\275\240 -\164\161\120\211\155\274\024\343\017\206\256\361\253\076\307\240 -\011\314\243\110\321\340\333\144\347\222\265\317\257\162\103\160 -\213\371\303\204\074\023\252\176\222\233\127\123\223\372\160\302 -\221\016\061\371\233\147\135\351\226\070\136\137\263\163\116\210 -\025\147\336\236\166\020\142\040\276\125\151\225\103\000\071\115 -\366\356\260\132\116\111\104\124\130\137\102\203 -END -CKA_NSS_MOZILLA_CA_POLICY CK_BBOOL CK_TRUE -CKA_NSS_SERVER_DISTRUST_AFTER CK_BBOOL CK_FALSE -CKA_NSS_EMAIL_DISTRUST_AFTER CK_BBOOL CK_FALSE - -# Trust for "certSIGN ROOT CA" -# Issuer: OU=certSIGN ROOT CA,O=certSIGN,C=RO -# Serial Number:20:06:05:16:70:02 -# Subject: OU=certSIGN ROOT CA,O=certSIGN,C=RO -# Not Valid Before: Tue Jul 04 17:20:04 2006 -# Not Valid After : Fri Jul 04 17:20:04 2031 -# Fingerprint (SHA-256): EA:A9:62:C4:FA:4A:6B:AF:EB:E4:15:19:6D:35:1C:CD:88:8D:4F:53:F3:FA:8A:E6:D7:C4:66:A9:4E:60:42:BB -# Fingerprint (SHA1): FA:B7:EE:36:97:26:62:FB:2D:B0:2A:F6:BF:03:FD:E8:7C:4B:2F:9B -CKA_CLASS CK_OBJECT_CLASS CKO_NSS_TRUST -CKA_TOKEN CK_BBOOL CK_TRUE -CKA_PRIVATE CK_BBOOL CK_FALSE -CKA_MODIFIABLE CK_BBOOL CK_FALSE -CKA_LABEL UTF8 "certSIGN ROOT CA" -CKA_CERT_SHA1_HASH MULTILINE_OCTAL -\372\267\356\066\227\046\142\373\055\260\052\366\277\003\375\350 -\174\113\057\233 -END -CKA_CERT_MD5_HASH MULTILINE_OCTAL -\030\230\300\326\351\072\374\371\260\365\014\367\113\001\104\027 -END -CKA_ISSUER MULTILINE_OCTAL -\060\073\061\013\060\011\006\003\125\004\006\023\002\122\117\061 -\021\060\017\006\003\125\004\012\023\010\143\145\162\164\123\111 -\107\116\061\031\060\027\006\003\125\004\013\023\020\143\145\162 -\164\123\111\107\116\040\122\117\117\124\040\103\101 -END -CKA_SERIAL_NUMBER MULTILINE_OCTAL -\002\006\040\006\005\026\160\002 -END -CKA_TRUST_SERVER_AUTH CK_TRUST CKT_NSS_TRUSTED_DELEGATOR -CKA_TRUST_EMAIL_PROTECTION CK_TRUST CKT_NSS_MUST_VERIFY_TRUST -CKA_TRUST_CODE_SIGNING CK_TRUST CKT_NSS_MUST_VERIFY_TRUST -CKA_TRUST_STEP_UP_APPROVED CK_BBOOL CK_FALSE - # # Certificate "NetLock Arany (Class Gold) Főtanúsítvány" # @@ -3962,6 +3407,10 @@ CKA_SERIAL_NUMBER MULTILINE_OCTAL \002\020\000\260\267\132\026\110\137\277\341\313\365\213\327\031 \346\175 END +# For Server Distrust After: Wed Apr 15 23:59:59 2026 +CKA_NSS_SERVER_DISTRUST_AFTER MULTILINE_OCTAL +\062\066\060\064\061\065\062\063\065\071\065\071\132 +END CKA_TRUST_SERVER_AUTH CK_TRUST CKT_NSS_TRUSTED_DELEGATOR CKA_TRUST_EMAIL_PROTECTION CK_TRUST CKT_NSS_MUST_VERIFY_TRUST CKA_TRUST_CODE_SIGNING CK_TRUST CKT_NSS_MUST_VERIFY_TRUST @@ -4422,542 +3871,6 @@ CKA_TRUST_EMAIL_PROTECTION CK_TRUST CKT_NSS_MUST_VERIFY_TRUST CKA_TRUST_CODE_SIGNING CK_TRUST CKT_NSS_MUST_VERIFY_TRUST CKA_TRUST_STEP_UP_APPROVED CK_BBOOL CK_FALSE -# -# Certificate "AffirmTrust Commercial" -# -# Issuer: CN=AffirmTrust Commercial,O=AffirmTrust,C=US -# Serial Number:77:77:06:27:26:a9:b1:7c -# Subject: CN=AffirmTrust Commercial,O=AffirmTrust,C=US -# Not Valid Before: Fri Jan 29 14:06:06 2010 -# Not Valid After : Tue Dec 31 14:06:06 2030 -# Fingerprint (SHA-256): 03:76:AB:1D:54:C5:F9:80:3C:E4:B2:E2:01:A0:EE:7E:EF:7B:57:B6:36:E8:A9:3C:9B:8D:48:60:C9:6F:5F:A7 -# Fingerprint (SHA1): F9:B5:B6:32:45:5F:9C:BE:EC:57:5F:80:DC:E9:6E:2C:C7:B2:78:B7 -CKA_CLASS CK_OBJECT_CLASS CKO_CERTIFICATE -CKA_TOKEN CK_BBOOL CK_TRUE -CKA_PRIVATE CK_BBOOL CK_FALSE -CKA_MODIFIABLE CK_BBOOL CK_FALSE -CKA_LABEL UTF8 "AffirmTrust Commercial" -CKA_CERTIFICATE_TYPE CK_CERTIFICATE_TYPE CKC_X_509 -CKA_SUBJECT MULTILINE_OCTAL -\060\104\061\013\060\011\006\003\125\004\006\023\002\125\123\061 -\024\060\022\006\003\125\004\012\014\013\101\146\146\151\162\155 -\124\162\165\163\164\061\037\060\035\006\003\125\004\003\014\026 -\101\146\146\151\162\155\124\162\165\163\164\040\103\157\155\155 -\145\162\143\151\141\154 -END -CKA_ID UTF8 "0" -CKA_ISSUER MULTILINE_OCTAL -\060\104\061\013\060\011\006\003\125\004\006\023\002\125\123\061 -\024\060\022\006\003\125\004\012\014\013\101\146\146\151\162\155 -\124\162\165\163\164\061\037\060\035\006\003\125\004\003\014\026 -\101\146\146\151\162\155\124\162\165\163\164\040\103\157\155\155 -\145\162\143\151\141\154 -END -CKA_SERIAL_NUMBER MULTILINE_OCTAL -\002\010\167\167\006\047\046\251\261\174 -END -CKA_VALUE MULTILINE_OCTAL -\060\202\003\114\060\202\002\064\240\003\002\001\002\002\010\167 -\167\006\047\046\251\261\174\060\015\006\011\052\206\110\206\367 -\015\001\001\013\005\000\060\104\061\013\060\011\006\003\125\004 -\006\023\002\125\123\061\024\060\022\006\003\125\004\012\014\013 -\101\146\146\151\162\155\124\162\165\163\164\061\037\060\035\006 -\003\125\004\003\014\026\101\146\146\151\162\155\124\162\165\163 -\164\040\103\157\155\155\145\162\143\151\141\154\060\036\027\015 -\061\060\060\061\062\071\061\064\060\066\060\066\132\027\015\063 -\060\061\062\063\061\061\064\060\066\060\066\132\060\104\061\013 -\060\011\006\003\125\004\006\023\002\125\123\061\024\060\022\006 -\003\125\004\012\014\013\101\146\146\151\162\155\124\162\165\163 -\164\061\037\060\035\006\003\125\004\003\014\026\101\146\146\151 -\162\155\124\162\165\163\164\040\103\157\155\155\145\162\143\151 -\141\154\060\202\001\042\060\015\006\011\052\206\110\206\367\015 -\001\001\001\005\000\003\202\001\017\000\060\202\001\012\002\202 -\001\001\000\366\033\117\147\007\053\241\025\365\006\042\313\037 -\001\262\343\163\105\006\104\111\054\273\111\045\024\326\316\303 -\267\253\054\117\306\101\062\224\127\372\022\247\133\016\342\217 -\037\036\206\031\247\252\265\055\271\137\015\212\302\257\205\065 -\171\062\055\273\034\142\067\362\261\133\112\075\312\315\161\137 -\351\102\276\224\350\310\336\371\042\110\144\306\345\253\306\053 -\155\255\005\360\372\325\013\317\232\345\360\120\244\213\073\107 -\245\043\133\172\172\370\063\077\270\357\231\227\343\040\301\326 -\050\211\317\224\373\271\105\355\343\100\027\021\324\164\360\013 -\061\342\053\046\152\233\114\127\256\254\040\076\272\105\172\005 -\363\275\233\151\025\256\175\116\040\143\304\065\166\072\007\002 -\311\067\375\307\107\356\350\361\166\035\163\025\362\227\244\265 -\310\172\171\331\102\252\053\177\134\376\316\046\117\243\146\201 -\065\257\104\272\124\036\034\060\062\145\235\346\074\223\136\120 -\116\172\343\072\324\156\314\032\373\371\322\067\256\044\052\253 -\127\003\042\050\015\111\165\177\267\050\332\165\277\216\343\334 -\016\171\061\002\003\001\000\001\243\102\060\100\060\035\006\003 -\125\035\016\004\026\004\024\235\223\306\123\213\136\312\257\077 -\237\036\017\345\231\225\274\044\366\224\217\060\017\006\003\125 -\035\023\001\001\377\004\005\060\003\001\001\377\060\016\006\003 -\125\035\017\001\001\377\004\004\003\002\001\006\060\015\006\011 -\052\206\110\206\367\015\001\001\013\005\000\003\202\001\001\000 -\130\254\364\004\016\315\300\015\377\012\375\324\272\026\137\051 -\275\173\150\231\130\111\322\264\035\067\115\177\047\175\106\006 -\135\103\306\206\056\076\163\262\046\175\117\223\251\266\304\052 -\232\253\041\227\024\261\336\214\323\253\211\025\330\153\044\324 -\361\026\256\330\244\134\324\177\121\216\355\030\001\261\223\143 -\275\274\370\141\200\232\236\261\316\102\160\342\251\175\006\045 -\175\047\241\376\157\354\263\036\044\332\343\113\125\032\000\073 -\065\264\073\331\327\135\060\375\201\023\211\362\302\006\053\355 -\147\304\216\311\103\262\134\153\025\211\002\274\142\374\116\362 -\265\063\252\262\157\323\012\242\120\343\366\073\350\056\104\302 -\333\146\070\251\063\126\110\361\155\033\063\215\015\214\077\140 -\067\235\323\312\155\176\064\176\015\237\162\166\213\033\237\162 -\375\122\065\101\105\002\226\057\034\262\232\163\111\041\261\111 -\107\105\107\264\357\152\064\021\311\115\232\314\131\267\326\002 -\236\132\116\145\265\224\256\033\337\051\260\026\361\277\000\236 -\007\072\027\144\265\004\265\043\041\231\012\225\073\227\174\357 -END -CKA_NSS_MOZILLA_CA_POLICY CK_BBOOL CK_TRUE -# For Server Distrust After: Sat Nov 30 23:59:59 2024 -CKA_NSS_SERVER_DISTRUST_AFTER MULTILINE_OCTAL -\062\064\061\061\063\060\062\063\065\071\065\071\132 -END -CKA_NSS_EMAIL_DISTRUST_AFTER CK_BBOOL CK_FALSE - -# Trust for "AffirmTrust Commercial" -# Issuer: CN=AffirmTrust Commercial,O=AffirmTrust,C=US -# Serial Number:77:77:06:27:26:a9:b1:7c -# Subject: CN=AffirmTrust Commercial,O=AffirmTrust,C=US -# Not Valid Before: Fri Jan 29 14:06:06 2010 -# Not Valid After : Tue Dec 31 14:06:06 2030 -# Fingerprint (SHA-256): 03:76:AB:1D:54:C5:F9:80:3C:E4:B2:E2:01:A0:EE:7E:EF:7B:57:B6:36:E8:A9:3C:9B:8D:48:60:C9:6F:5F:A7 -# Fingerprint (SHA1): F9:B5:B6:32:45:5F:9C:BE:EC:57:5F:80:DC:E9:6E:2C:C7:B2:78:B7 -CKA_CLASS CK_OBJECT_CLASS CKO_NSS_TRUST -CKA_TOKEN CK_BBOOL CK_TRUE -CKA_PRIVATE CK_BBOOL CK_FALSE -CKA_MODIFIABLE CK_BBOOL CK_FALSE -CKA_LABEL UTF8 "AffirmTrust Commercial" -CKA_CERT_SHA1_HASH MULTILINE_OCTAL -\371\265\266\062\105\137\234\276\354\127\137\200\334\351\156\054 -\307\262\170\267 -END -CKA_CERT_MD5_HASH MULTILINE_OCTAL -\202\222\272\133\357\315\212\157\246\075\125\371\204\366\326\267 -END -CKA_ISSUER MULTILINE_OCTAL -\060\104\061\013\060\011\006\003\125\004\006\023\002\125\123\061 -\024\060\022\006\003\125\004\012\014\013\101\146\146\151\162\155 -\124\162\165\163\164\061\037\060\035\006\003\125\004\003\014\026 -\101\146\146\151\162\155\124\162\165\163\164\040\103\157\155\155 -\145\162\143\151\141\154 -END -CKA_SERIAL_NUMBER MULTILINE_OCTAL -\002\010\167\167\006\047\046\251\261\174 -END -CKA_TRUST_SERVER_AUTH CK_TRUST CKT_NSS_TRUSTED_DELEGATOR -CKA_TRUST_EMAIL_PROTECTION CK_TRUST CKT_NSS_MUST_VERIFY_TRUST -CKA_TRUST_CODE_SIGNING CK_TRUST CKT_NSS_MUST_VERIFY_TRUST -CKA_TRUST_STEP_UP_APPROVED CK_BBOOL CK_FALSE - -# -# Certificate "AffirmTrust Networking" -# -# Issuer: CN=AffirmTrust Networking,O=AffirmTrust,C=US -# Serial Number:7c:4f:04:39:1c:d4:99:2d -# Subject: CN=AffirmTrust Networking,O=AffirmTrust,C=US -# Not Valid Before: Fri Jan 29 14:08:24 2010 -# Not Valid After : Tue Dec 31 14:08:24 2030 -# Fingerprint (SHA-256): 0A:81:EC:5A:92:97:77:F1:45:90:4A:F3:8D:5D:50:9F:66:B5:E2:C5:8F:CD:B5:31:05:8B:0E:17:F3:F0:B4:1B -# Fingerprint (SHA1): 29:36:21:02:8B:20:ED:02:F5:66:C5:32:D1:D6:ED:90:9F:45:00:2F -CKA_CLASS CK_OBJECT_CLASS CKO_CERTIFICATE -CKA_TOKEN CK_BBOOL CK_TRUE -CKA_PRIVATE CK_BBOOL CK_FALSE -CKA_MODIFIABLE CK_BBOOL CK_FALSE -CKA_LABEL UTF8 "AffirmTrust Networking" -CKA_CERTIFICATE_TYPE CK_CERTIFICATE_TYPE CKC_X_509 -CKA_SUBJECT MULTILINE_OCTAL -\060\104\061\013\060\011\006\003\125\004\006\023\002\125\123\061 -\024\060\022\006\003\125\004\012\014\013\101\146\146\151\162\155 -\124\162\165\163\164\061\037\060\035\006\003\125\004\003\014\026 -\101\146\146\151\162\155\124\162\165\163\164\040\116\145\164\167 -\157\162\153\151\156\147 -END -CKA_ID UTF8 "0" -CKA_ISSUER MULTILINE_OCTAL -\060\104\061\013\060\011\006\003\125\004\006\023\002\125\123\061 -\024\060\022\006\003\125\004\012\014\013\101\146\146\151\162\155 -\124\162\165\163\164\061\037\060\035\006\003\125\004\003\014\026 -\101\146\146\151\162\155\124\162\165\163\164\040\116\145\164\167 -\157\162\153\151\156\147 -END -CKA_SERIAL_NUMBER MULTILINE_OCTAL -\002\010\174\117\004\071\034\324\231\055 -END -CKA_VALUE MULTILINE_OCTAL -\060\202\003\114\060\202\002\064\240\003\002\001\002\002\010\174 -\117\004\071\034\324\231\055\060\015\006\011\052\206\110\206\367 -\015\001\001\005\005\000\060\104\061\013\060\011\006\003\125\004 -\006\023\002\125\123\061\024\060\022\006\003\125\004\012\014\013 -\101\146\146\151\162\155\124\162\165\163\164\061\037\060\035\006 -\003\125\004\003\014\026\101\146\146\151\162\155\124\162\165\163 -\164\040\116\145\164\167\157\162\153\151\156\147\060\036\027\015 -\061\060\060\061\062\071\061\064\060\070\062\064\132\027\015\063 -\060\061\062\063\061\061\064\060\070\062\064\132\060\104\061\013 -\060\011\006\003\125\004\006\023\002\125\123\061\024\060\022\006 -\003\125\004\012\014\013\101\146\146\151\162\155\124\162\165\163 -\164\061\037\060\035\006\003\125\004\003\014\026\101\146\146\151 -\162\155\124\162\165\163\164\040\116\145\164\167\157\162\153\151 -\156\147\060\202\001\042\060\015\006\011\052\206\110\206\367\015 -\001\001\001\005\000\003\202\001\017\000\060\202\001\012\002\202 -\001\001\000\264\204\314\063\027\056\153\224\154\153\141\122\240 -\353\243\317\171\224\114\345\224\200\231\313\125\144\104\145\217 -\147\144\342\006\343\134\067\111\366\057\233\204\204\036\055\362 -\140\235\060\116\314\204\205\342\054\317\036\236\376\066\253\063 -\167\065\104\330\065\226\032\075\066\350\172\016\330\325\107\241 -\152\151\213\331\374\273\072\256\171\132\325\364\326\161\273\232 -\220\043\153\232\267\210\164\207\014\036\137\271\236\055\372\253 -\123\053\334\273\166\076\223\114\010\010\214\036\242\043\034\324 -\152\255\042\272\231\001\056\155\145\313\276\044\146\125\044\113 -\100\104\261\033\327\341\302\205\300\336\020\077\075\355\270\374 -\361\361\043\123\334\277\145\227\157\331\371\100\161\215\175\275 -\225\324\316\276\240\136\047\043\336\375\246\320\046\016\000\051 -\353\074\106\360\075\140\277\077\120\322\334\046\101\121\236\024 -\067\102\004\243\160\127\250\033\207\355\055\372\173\356\214\012 -\343\251\146\211\031\313\101\371\335\104\066\141\317\342\167\106 -\310\175\366\364\222\201\066\375\333\064\361\162\176\363\014\026 -\275\264\025\002\003\001\000\001\243\102\060\100\060\035\006\003 -\125\035\016\004\026\004\024\007\037\322\347\234\332\302\156\242 -\100\264\260\172\120\020\120\164\304\310\275\060\017\006\003\125 -\035\023\001\001\377\004\005\060\003\001\001\377\060\016\006\003 -\125\035\017\001\001\377\004\004\003\002\001\006\060\015\006\011 -\052\206\110\206\367\015\001\001\005\005\000\003\202\001\001\000 -\211\127\262\026\172\250\302\375\326\331\233\233\064\302\234\264 -\062\024\115\247\244\337\354\276\247\276\370\103\333\221\067\316 -\264\062\056\120\125\032\065\116\166\103\161\040\357\223\167\116 -\025\160\056\207\303\301\035\155\334\313\265\047\324\054\126\321 -\122\123\072\104\322\163\310\304\033\005\145\132\142\222\234\356 -\101\215\061\333\347\064\352\131\041\325\001\172\327\144\270\144 -\071\315\311\355\257\355\113\003\110\247\240\231\001\200\334\145 -\243\066\256\145\131\110\117\202\113\310\145\361\127\035\345\131 -\056\012\077\154\330\321\365\345\011\264\154\124\000\012\340\025 -\115\207\165\155\267\130\226\132\335\155\322\000\240\364\233\110 -\276\303\067\244\272\066\340\174\207\205\227\032\025\242\336\056 -\242\133\275\257\030\371\220\120\315\160\131\370\047\147\107\313 -\307\240\007\072\175\321\054\135\154\031\072\146\265\175\375\221 -\157\202\261\276\010\223\333\024\107\361\242\067\307\105\236\074 -\307\167\257\144\250\223\337\366\151\203\202\140\362\111\102\064 -\355\132\000\124\205\034\026\066\222\014\134\372\246\255\277\333 -END -CKA_NSS_MOZILLA_CA_POLICY CK_BBOOL CK_TRUE -# For Server Distrust After: Sat Nov 30 23:59:59 2024 -CKA_NSS_SERVER_DISTRUST_AFTER MULTILINE_OCTAL -\062\064\061\061\063\060\062\063\065\071\065\071\132 -END -CKA_NSS_EMAIL_DISTRUST_AFTER CK_BBOOL CK_FALSE - -# Trust for "AffirmTrust Networking" -# Issuer: CN=AffirmTrust Networking,O=AffirmTrust,C=US -# Serial Number:7c:4f:04:39:1c:d4:99:2d -# Subject: CN=AffirmTrust Networking,O=AffirmTrust,C=US -# Not Valid Before: Fri Jan 29 14:08:24 2010 -# Not Valid After : Tue Dec 31 14:08:24 2030 -# Fingerprint (SHA-256): 0A:81:EC:5A:92:97:77:F1:45:90:4A:F3:8D:5D:50:9F:66:B5:E2:C5:8F:CD:B5:31:05:8B:0E:17:F3:F0:B4:1B -# Fingerprint (SHA1): 29:36:21:02:8B:20:ED:02:F5:66:C5:32:D1:D6:ED:90:9F:45:00:2F -CKA_CLASS CK_OBJECT_CLASS CKO_NSS_TRUST -CKA_TOKEN CK_BBOOL CK_TRUE -CKA_PRIVATE CK_BBOOL CK_FALSE -CKA_MODIFIABLE CK_BBOOL CK_FALSE -CKA_LABEL UTF8 "AffirmTrust Networking" -CKA_CERT_SHA1_HASH MULTILINE_OCTAL -\051\066\041\002\213\040\355\002\365\146\305\062\321\326\355\220 -\237\105\000\057 -END -CKA_CERT_MD5_HASH MULTILINE_OCTAL -\102\145\312\276\001\232\232\114\251\214\101\111\315\300\325\177 -END -CKA_ISSUER MULTILINE_OCTAL -\060\104\061\013\060\011\006\003\125\004\006\023\002\125\123\061 -\024\060\022\006\003\125\004\012\014\013\101\146\146\151\162\155 -\124\162\165\163\164\061\037\060\035\006\003\125\004\003\014\026 -\101\146\146\151\162\155\124\162\165\163\164\040\116\145\164\167 -\157\162\153\151\156\147 -END -CKA_SERIAL_NUMBER MULTILINE_OCTAL -\002\010\174\117\004\071\034\324\231\055 -END -CKA_TRUST_SERVER_AUTH CK_TRUST CKT_NSS_TRUSTED_DELEGATOR -CKA_TRUST_EMAIL_PROTECTION CK_TRUST CKT_NSS_MUST_VERIFY_TRUST -CKA_TRUST_CODE_SIGNING CK_TRUST CKT_NSS_MUST_VERIFY_TRUST -CKA_TRUST_STEP_UP_APPROVED CK_BBOOL CK_FALSE - -# -# Certificate "AffirmTrust Premium" -# -# Issuer: CN=AffirmTrust Premium,O=AffirmTrust,C=US -# Serial Number:6d:8c:14:46:b1:a6:0a:ee -# Subject: CN=AffirmTrust Premium,O=AffirmTrust,C=US -# Not Valid Before: Fri Jan 29 14:10:36 2010 -# Not Valid After : Mon Dec 31 14:10:36 2040 -# Fingerprint (SHA-256): 70:A7:3F:7F:37:6B:60:07:42:48:90:45:34:B1:14:82:D5:BF:0E:69:8E:CC:49:8D:F5:25:77:EB:F2:E9:3B:9A -# Fingerprint (SHA1): D8:A6:33:2C:E0:03:6F:B1:85:F6:63:4F:7D:6A:06:65:26:32:28:27 -CKA_CLASS CK_OBJECT_CLASS CKO_CERTIFICATE -CKA_TOKEN CK_BBOOL CK_TRUE -CKA_PRIVATE CK_BBOOL CK_FALSE -CKA_MODIFIABLE CK_BBOOL CK_FALSE -CKA_LABEL UTF8 "AffirmTrust Premium" -CKA_CERTIFICATE_TYPE CK_CERTIFICATE_TYPE CKC_X_509 -CKA_SUBJECT MULTILINE_OCTAL -\060\101\061\013\060\011\006\003\125\004\006\023\002\125\123\061 -\024\060\022\006\003\125\004\012\014\013\101\146\146\151\162\155 -\124\162\165\163\164\061\034\060\032\006\003\125\004\003\014\023 -\101\146\146\151\162\155\124\162\165\163\164\040\120\162\145\155 -\151\165\155 -END -CKA_ID UTF8 "0" -CKA_ISSUER MULTILINE_OCTAL -\060\101\061\013\060\011\006\003\125\004\006\023\002\125\123\061 -\024\060\022\006\003\125\004\012\014\013\101\146\146\151\162\155 -\124\162\165\163\164\061\034\060\032\006\003\125\004\003\014\023 -\101\146\146\151\162\155\124\162\165\163\164\040\120\162\145\155 -\151\165\155 -END -CKA_SERIAL_NUMBER MULTILINE_OCTAL -\002\010\155\214\024\106\261\246\012\356 -END -CKA_VALUE MULTILINE_OCTAL -\060\202\005\106\060\202\003\056\240\003\002\001\002\002\010\155 -\214\024\106\261\246\012\356\060\015\006\011\052\206\110\206\367 -\015\001\001\014\005\000\060\101\061\013\060\011\006\003\125\004 -\006\023\002\125\123\061\024\060\022\006\003\125\004\012\014\013 -\101\146\146\151\162\155\124\162\165\163\164\061\034\060\032\006 -\003\125\004\003\014\023\101\146\146\151\162\155\124\162\165\163 -\164\040\120\162\145\155\151\165\155\060\036\027\015\061\060\060 -\061\062\071\061\064\061\060\063\066\132\027\015\064\060\061\062 -\063\061\061\064\061\060\063\066\132\060\101\061\013\060\011\006 -\003\125\004\006\023\002\125\123\061\024\060\022\006\003\125\004 -\012\014\013\101\146\146\151\162\155\124\162\165\163\164\061\034 -\060\032\006\003\125\004\003\014\023\101\146\146\151\162\155\124 -\162\165\163\164\040\120\162\145\155\151\165\155\060\202\002\042 -\060\015\006\011\052\206\110\206\367\015\001\001\001\005\000\003 -\202\002\017\000\060\202\002\012\002\202\002\001\000\304\022\337 -\251\137\376\101\335\335\365\237\212\343\366\254\341\074\170\232 -\274\330\360\177\172\240\063\052\334\215\040\133\256\055\157\347 -\223\331\066\160\152\150\317\216\121\243\205\133\147\004\240\020 -\044\157\135\050\202\301\227\127\330\110\051\023\266\341\276\221 -\115\337\205\014\123\030\232\036\044\242\117\217\360\242\205\013 -\313\364\051\177\322\244\130\356\046\115\311\252\250\173\232\331 -\372\070\336\104\127\025\345\370\214\310\331\110\342\015\026\047 -\035\036\310\203\205\045\267\272\252\125\101\314\003\042\113\055 -\221\215\213\346\211\257\146\307\351\377\053\351\074\254\332\322 -\263\303\341\150\234\211\370\172\000\126\336\364\125\225\154\373 -\272\144\335\142\213\337\013\167\062\353\142\314\046\232\233\273 -\252\142\203\114\264\006\172\060\310\051\277\355\006\115\227\271 -\034\304\061\053\325\137\274\123\022\027\234\231\127\051\146\167 -\141\041\061\007\056\045\111\235\030\362\356\363\053\161\214\265 -\272\071\007\111\167\374\357\056\222\220\005\215\055\057\167\173 -\357\103\277\065\273\232\330\371\163\247\054\362\320\127\356\050 -\116\046\137\217\220\150\011\057\270\370\334\006\351\056\232\076 -\121\247\321\042\304\012\247\070\110\154\263\371\377\175\253\206 -\127\343\272\326\205\170\167\272\103\352\110\177\366\330\276\043 -\155\036\277\321\066\154\130\134\361\356\244\031\124\032\365\003 -\322\166\346\341\214\275\074\263\323\110\113\342\310\370\177\222 -\250\166\106\234\102\145\076\244\036\301\007\003\132\106\055\270 -\227\363\267\325\262\125\041\357\272\334\114\000\227\373\024\225 -\047\063\277\350\103\107\106\322\010\231\026\140\073\232\176\322 -\346\355\070\352\354\001\036\074\110\126\111\011\307\114\067\000 -\236\210\016\300\163\341\157\146\351\162\107\060\076\020\345\013 -\003\311\232\102\000\154\305\224\176\141\304\212\337\177\202\032 -\013\131\304\131\062\167\263\274\140\151\126\071\375\264\006\173 -\054\326\144\066\331\275\110\355\204\037\176\245\042\217\052\270 -\102\364\202\267\324\123\220\170\116\055\032\375\201\157\104\327 -\073\001\164\226\102\340\000\342\056\153\352\305\356\162\254\273 -\277\376\352\252\250\370\334\366\262\171\212\266\147\002\003\001 -\000\001\243\102\060\100\060\035\006\003\125\035\016\004\026\004 -\024\235\300\147\246\014\042\331\046\365\105\253\246\145\122\021 -\047\330\105\254\143\060\017\006\003\125\035\023\001\001\377\004 -\005\060\003\001\001\377\060\016\006\003\125\035\017\001\001\377 -\004\004\003\002\001\006\060\015\006\011\052\206\110\206\367\015 -\001\001\014\005\000\003\202\002\001\000\263\127\115\020\142\116 -\072\344\254\352\270\034\257\062\043\310\263\111\132\121\234\166 -\050\215\171\252\127\106\027\325\365\122\366\267\104\350\010\104 -\277\030\204\322\013\200\315\305\022\375\000\125\005\141\207\101 -\334\265\044\236\074\304\330\310\373\160\236\057\170\226\203\040 -\066\336\174\017\151\023\210\245\165\066\230\010\246\306\337\254 -\316\343\130\326\267\076\336\272\363\353\064\100\330\242\201\365 -\170\077\057\325\245\374\331\242\324\136\004\016\027\255\376\101 -\360\345\262\162\372\104\202\063\102\350\055\130\367\126\214\142 -\077\272\102\260\234\014\134\176\056\145\046\134\123\117\000\262 -\170\176\241\015\231\055\215\270\035\216\242\304\260\375\140\320 -\060\244\216\310\004\142\251\304\355\065\336\172\227\355\016\070 -\136\222\057\223\160\245\251\234\157\247\175\023\035\176\306\010 -\110\261\136\147\353\121\010\045\351\346\045\153\122\051\221\234 -\322\071\163\010\127\336\231\006\264\133\235\020\006\341\302\000 -\250\270\034\112\002\012\024\320\301\101\312\373\214\065\041\175 -\202\070\362\251\124\221\031\065\223\224\155\152\072\305\262\320 -\273\211\206\223\350\233\311\017\072\247\172\270\241\360\170\106 -\372\374\067\057\345\212\204\363\337\376\004\331\241\150\240\057 -\044\342\011\225\006\325\225\312\341\044\226\353\174\366\223\005 -\273\355\163\351\055\321\165\071\327\347\044\333\330\116\137\103 -\217\236\320\024\071\277\125\160\110\231\127\061\264\234\356\112 -\230\003\226\060\037\140\006\356\033\043\376\201\140\043\032\107 -\142\205\245\314\031\064\200\157\263\254\032\343\237\360\173\110 -\255\325\001\331\147\266\251\162\223\352\055\146\265\262\270\344 -\075\074\262\357\114\214\352\353\007\277\253\065\232\125\206\274 -\030\246\265\250\136\264\203\154\153\151\100\323\237\334\361\303 -\151\153\271\341\155\011\364\361\252\120\166\012\172\175\172\027 -\241\125\226\102\231\061\011\335\140\021\215\005\060\176\346\216 -\106\321\235\024\332\307\027\344\005\226\214\304\044\265\033\317 -\024\007\262\100\370\243\236\101\206\274\004\320\153\226\310\052 -\200\064\375\277\357\006\243\335\130\305\205\075\076\217\376\236 -\051\340\266\270\011\150\031\034\030\103 -END -CKA_NSS_MOZILLA_CA_POLICY CK_BBOOL CK_TRUE -# For Server Distrust After: Sat Nov 30 23:59:59 2024 -CKA_NSS_SERVER_DISTRUST_AFTER MULTILINE_OCTAL -\062\064\061\061\063\060\062\063\065\071\065\071\132 -END -CKA_NSS_EMAIL_DISTRUST_AFTER CK_BBOOL CK_FALSE - -# Trust for "AffirmTrust Premium" -# Issuer: CN=AffirmTrust Premium,O=AffirmTrust,C=US -# Serial Number:6d:8c:14:46:b1:a6:0a:ee -# Subject: CN=AffirmTrust Premium,O=AffirmTrust,C=US -# Not Valid Before: Fri Jan 29 14:10:36 2010 -# Not Valid After : Mon Dec 31 14:10:36 2040 -# Fingerprint (SHA-256): 70:A7:3F:7F:37:6B:60:07:42:48:90:45:34:B1:14:82:D5:BF:0E:69:8E:CC:49:8D:F5:25:77:EB:F2:E9:3B:9A -# Fingerprint (SHA1): D8:A6:33:2C:E0:03:6F:B1:85:F6:63:4F:7D:6A:06:65:26:32:28:27 -CKA_CLASS CK_OBJECT_CLASS CKO_NSS_TRUST -CKA_TOKEN CK_BBOOL CK_TRUE -CKA_PRIVATE CK_BBOOL CK_FALSE -CKA_MODIFIABLE CK_BBOOL CK_FALSE -CKA_LABEL UTF8 "AffirmTrust Premium" -CKA_CERT_SHA1_HASH MULTILINE_OCTAL -\330\246\063\054\340\003\157\261\205\366\143\117\175\152\006\145 -\046\062\050\047 -END -CKA_CERT_MD5_HASH MULTILINE_OCTAL -\304\135\016\110\266\254\050\060\116\012\274\371\070\026\207\127 -END -CKA_ISSUER MULTILINE_OCTAL -\060\101\061\013\060\011\006\003\125\004\006\023\002\125\123\061 -\024\060\022\006\003\125\004\012\014\013\101\146\146\151\162\155 -\124\162\165\163\164\061\034\060\032\006\003\125\004\003\014\023 -\101\146\146\151\162\155\124\162\165\163\164\040\120\162\145\155 -\151\165\155 -END -CKA_SERIAL_NUMBER MULTILINE_OCTAL -\002\010\155\214\024\106\261\246\012\356 -END -CKA_TRUST_SERVER_AUTH CK_TRUST CKT_NSS_TRUSTED_DELEGATOR -CKA_TRUST_EMAIL_PROTECTION CK_TRUST CKT_NSS_MUST_VERIFY_TRUST -CKA_TRUST_CODE_SIGNING CK_TRUST CKT_NSS_MUST_VERIFY_TRUST -CKA_TRUST_STEP_UP_APPROVED CK_BBOOL CK_FALSE - -# -# Certificate "AffirmTrust Premium ECC" -# -# Issuer: CN=AffirmTrust Premium ECC,O=AffirmTrust,C=US -# Serial Number:74:97:25:8a:c7:3f:7a:54 -# Subject: CN=AffirmTrust Premium ECC,O=AffirmTrust,C=US -# Not Valid Before: Fri Jan 29 14:20:24 2010 -# Not Valid After : Mon Dec 31 14:20:24 2040 -# Fingerprint (SHA-256): BD:71:FD:F6:DA:97:E4:CF:62:D1:64:7A:DD:25:81:B0:7D:79:AD:F8:39:7E:B4:EC:BA:9C:5E:84:88:82:14:23 -# Fingerprint (SHA1): B8:23:6B:00:2F:1D:16:86:53:01:55:6C:11:A4:37:CA:EB:FF:C3:BB -CKA_CLASS CK_OBJECT_CLASS CKO_CERTIFICATE -CKA_TOKEN CK_BBOOL CK_TRUE -CKA_PRIVATE CK_BBOOL CK_FALSE -CKA_MODIFIABLE CK_BBOOL CK_FALSE -CKA_LABEL UTF8 "AffirmTrust Premium ECC" -CKA_CERTIFICATE_TYPE CK_CERTIFICATE_TYPE CKC_X_509 -CKA_SUBJECT MULTILINE_OCTAL -\060\105\061\013\060\011\006\003\125\004\006\023\002\125\123\061 -\024\060\022\006\003\125\004\012\014\013\101\146\146\151\162\155 -\124\162\165\163\164\061\040\060\036\006\003\125\004\003\014\027 -\101\146\146\151\162\155\124\162\165\163\164\040\120\162\145\155 -\151\165\155\040\105\103\103 -END -CKA_ID UTF8 "0" -CKA_ISSUER MULTILINE_OCTAL -\060\105\061\013\060\011\006\003\125\004\006\023\002\125\123\061 -\024\060\022\006\003\125\004\012\014\013\101\146\146\151\162\155 -\124\162\165\163\164\061\040\060\036\006\003\125\004\003\014\027 -\101\146\146\151\162\155\124\162\165\163\164\040\120\162\145\155 -\151\165\155\040\105\103\103 -END -CKA_SERIAL_NUMBER MULTILINE_OCTAL -\002\010\164\227\045\212\307\077\172\124 -END -CKA_VALUE MULTILINE_OCTAL -\060\202\001\376\060\202\001\205\240\003\002\001\002\002\010\164 -\227\045\212\307\077\172\124\060\012\006\010\052\206\110\316\075 -\004\003\003\060\105\061\013\060\011\006\003\125\004\006\023\002 -\125\123\061\024\060\022\006\003\125\004\012\014\013\101\146\146 -\151\162\155\124\162\165\163\164\061\040\060\036\006\003\125\004 -\003\014\027\101\146\146\151\162\155\124\162\165\163\164\040\120 -\162\145\155\151\165\155\040\105\103\103\060\036\027\015\061\060 -\060\061\062\071\061\064\062\060\062\064\132\027\015\064\060\061 -\062\063\061\061\064\062\060\062\064\132\060\105\061\013\060\011 -\006\003\125\004\006\023\002\125\123\061\024\060\022\006\003\125 -\004\012\014\013\101\146\146\151\162\155\124\162\165\163\164\061 -\040\060\036\006\003\125\004\003\014\027\101\146\146\151\162\155 -\124\162\165\163\164\040\120\162\145\155\151\165\155\040\105\103 -\103\060\166\060\020\006\007\052\206\110\316\075\002\001\006\005 -\053\201\004\000\042\003\142\000\004\015\060\136\033\025\235\003 -\320\241\171\065\267\072\074\222\172\312\025\034\315\142\363\234 -\046\134\007\075\345\124\372\243\326\314\022\352\364\024\137\350 -\216\031\253\057\056\110\346\254\030\103\170\254\320\067\303\275 -\262\315\054\346\107\342\032\346\143\270\075\056\057\170\304\117 -\333\364\017\244\150\114\125\162\153\225\035\116\030\102\225\170 -\314\067\074\221\342\233\145\053\051\243\102\060\100\060\035\006 -\003\125\035\016\004\026\004\024\232\257\051\172\300\021\065\065 -\046\121\060\000\303\152\376\100\325\256\326\074\060\017\006\003 -\125\035\023\001\001\377\004\005\060\003\001\001\377\060\016\006 -\003\125\035\017\001\001\377\004\004\003\002\001\006\060\012\006 -\010\052\206\110\316\075\004\003\003\003\147\000\060\144\002\060 -\027\011\363\207\210\120\132\257\310\300\102\277\107\137\365\154 -\152\206\340\304\047\164\344\070\123\327\005\177\033\064\343\306 -\057\263\312\011\074\067\235\327\347\270\106\361\375\241\342\161 -\002\060\102\131\207\103\324\121\337\272\323\011\062\132\316\210 -\176\127\075\234\137\102\153\365\007\055\265\360\202\223\371\131 -\157\256\144\372\130\345\213\036\343\143\276\265\201\315\157\002 -\214\171 -END -CKA_NSS_MOZILLA_CA_POLICY CK_BBOOL CK_TRUE -# For Server Distrust After: Sat Nov 30 23:59:59 2024 -CKA_NSS_SERVER_DISTRUST_AFTER MULTILINE_OCTAL -\062\064\061\061\063\060\062\063\065\071\065\071\132 -END -CKA_NSS_EMAIL_DISTRUST_AFTER CK_BBOOL CK_FALSE - -# Trust for "AffirmTrust Premium ECC" -# Issuer: CN=AffirmTrust Premium ECC,O=AffirmTrust,C=US -# Serial Number:74:97:25:8a:c7:3f:7a:54 -# Subject: CN=AffirmTrust Premium ECC,O=AffirmTrust,C=US -# Not Valid Before: Fri Jan 29 14:20:24 2010 -# Not Valid After : Mon Dec 31 14:20:24 2040 -# Fingerprint (SHA-256): BD:71:FD:F6:DA:97:E4:CF:62:D1:64:7A:DD:25:81:B0:7D:79:AD:F8:39:7E:B4:EC:BA:9C:5E:84:88:82:14:23 -# Fingerprint (SHA1): B8:23:6B:00:2F:1D:16:86:53:01:55:6C:11:A4:37:CA:EB:FF:C3:BB -CKA_CLASS CK_OBJECT_CLASS CKO_NSS_TRUST -CKA_TOKEN CK_BBOOL CK_TRUE -CKA_PRIVATE CK_BBOOL CK_FALSE -CKA_MODIFIABLE CK_BBOOL CK_FALSE -CKA_LABEL UTF8 "AffirmTrust Premium ECC" -CKA_CERT_SHA1_HASH MULTILINE_OCTAL -\270\043\153\000\057\035\026\206\123\001\125\154\021\244\067\312 -\353\377\303\273 -END -CKA_CERT_MD5_HASH MULTILINE_OCTAL -\144\260\011\125\317\261\325\231\342\276\023\253\246\135\352\115 -END -CKA_ISSUER MULTILINE_OCTAL -\060\105\061\013\060\011\006\003\125\004\006\023\002\125\123\061 -\024\060\022\006\003\125\004\012\014\013\101\146\146\151\162\155 -\124\162\165\163\164\061\040\060\036\006\003\125\004\003\014\027 -\101\146\146\151\162\155\124\162\165\163\164\040\120\162\145\155 -\151\165\155\040\105\103\103 -END -CKA_SERIAL_NUMBER MULTILINE_OCTAL -\002\010\164\227\045\212\307\077\172\124 -END -CKA_TRUST_SERVER_AUTH CK_TRUST CKT_NSS_TRUSTED_DELEGATOR -CKA_TRUST_EMAIL_PROTECTION CK_TRUST CKT_NSS_MUST_VERIFY_TRUST -CKA_TRUST_CODE_SIGNING CK_TRUST CKT_NSS_MUST_VERIFY_TRUST -CKA_TRUST_STEP_UP_APPROVED CK_BBOOL CK_FALSE - # # Certificate "Certum Trusted Network CA" # @@ -6801,192 +5714,34 @@ CKA_NSS_EMAIL_DISTRUST_AFTER CK_BBOOL CK_FALSE # Trust for "TWCA Global Root CA" # Issuer: CN=TWCA Global Root CA,OU=Root CA,O=TAIWAN-CA,C=TW -# Serial Number: 3262 (0xcbe) -# Subject: CN=TWCA Global Root CA,OU=Root CA,O=TAIWAN-CA,C=TW -# Not Valid Before: Wed Jun 27 06:28:33 2012 -# Not Valid After : Tue Dec 31 15:59:59 2030 -# Fingerprint (SHA-256): 59:76:90:07:F7:68:5D:0F:CD:50:87:2F:9F:95:D5:75:5A:5B:2B:45:7D:81:F3:69:2B:61:0A:98:67:2F:0E:1B -# Fingerprint (SHA1): 9C:BB:48:53:F6:A4:F6:D3:52:A4:E8:32:52:55:60:13:F5:AD:AF:65 -CKA_CLASS CK_OBJECT_CLASS CKO_NSS_TRUST -CKA_TOKEN CK_BBOOL CK_TRUE -CKA_PRIVATE CK_BBOOL CK_FALSE -CKA_MODIFIABLE CK_BBOOL CK_FALSE -CKA_LABEL UTF8 "TWCA Global Root CA" -CKA_CERT_SHA1_HASH MULTILINE_OCTAL -\234\273\110\123\366\244\366\323\122\244\350\062\122\125\140\023 -\365\255\257\145 -END -CKA_CERT_MD5_HASH MULTILINE_OCTAL -\371\003\176\317\346\236\074\163\172\052\220\007\151\377\053\226 -END -CKA_ISSUER MULTILINE_OCTAL -\060\121\061\013\060\011\006\003\125\004\006\023\002\124\127\061 -\022\060\020\006\003\125\004\012\023\011\124\101\111\127\101\116 -\055\103\101\061\020\060\016\006\003\125\004\013\023\007\122\157 -\157\164\040\103\101\061\034\060\032\006\003\125\004\003\023\023 -\124\127\103\101\040\107\154\157\142\141\154\040\122\157\157\164 -\040\103\101 -END -CKA_SERIAL_NUMBER MULTILINE_OCTAL -\002\002\014\276 -END -CKA_TRUST_SERVER_AUTH CK_TRUST CKT_NSS_TRUSTED_DELEGATOR -CKA_TRUST_EMAIL_PROTECTION CK_TRUST CKT_NSS_TRUSTED_DELEGATOR -CKA_TRUST_CODE_SIGNING CK_TRUST CKT_NSS_MUST_VERIFY_TRUST -CKA_TRUST_STEP_UP_APPROVED CK_BBOOL CK_FALSE - -# -# Certificate "TeliaSonera Root CA v1" -# -# Issuer: CN=TeliaSonera Root CA v1,O=TeliaSonera -# Serial Number:00:95:be:16:a0:f7:2e:46:f1:7b:39:82:72:fa:8b:cd:96 -# Subject: CN=TeliaSonera Root CA v1,O=TeliaSonera -# Not Valid Before: Thu Oct 18 12:00:50 2007 -# Not Valid After : Mon Oct 18 12:00:50 2032 -# Fingerprint (SHA-256): DD:69:36:FE:21:F8:F0:77:C1:23:A1:A5:21:C1:22:24:F7:22:55:B7:3E:03:A7:26:06:93:E8:A2:4B:0F:A3:89 -# Fingerprint (SHA1): 43:13:BB:96:F1:D5:86:9B:C1:4E:6A:92:F6:CF:F6:34:69:87:82:37 -CKA_CLASS CK_OBJECT_CLASS CKO_CERTIFICATE -CKA_TOKEN CK_BBOOL CK_TRUE -CKA_PRIVATE CK_BBOOL CK_FALSE -CKA_MODIFIABLE CK_BBOOL CK_FALSE -CKA_LABEL UTF8 "TeliaSonera Root CA v1" -CKA_CERTIFICATE_TYPE CK_CERTIFICATE_TYPE CKC_X_509 -CKA_SUBJECT MULTILINE_OCTAL -\060\067\061\024\060\022\006\003\125\004\012\014\013\124\145\154 -\151\141\123\157\156\145\162\141\061\037\060\035\006\003\125\004 -\003\014\026\124\145\154\151\141\123\157\156\145\162\141\040\122 -\157\157\164\040\103\101\040\166\061 -END -CKA_ID UTF8 "0" -CKA_ISSUER MULTILINE_OCTAL -\060\067\061\024\060\022\006\003\125\004\012\014\013\124\145\154 -\151\141\123\157\156\145\162\141\061\037\060\035\006\003\125\004 -\003\014\026\124\145\154\151\141\123\157\156\145\162\141\040\122 -\157\157\164\040\103\101\040\166\061 -END -CKA_SERIAL_NUMBER MULTILINE_OCTAL -\002\021\000\225\276\026\240\367\056\106\361\173\071\202\162\372 -\213\315\226 -END -CKA_VALUE MULTILINE_OCTAL -\060\202\005\070\060\202\003\040\240\003\002\001\002\002\021\000 -\225\276\026\240\367\056\106\361\173\071\202\162\372\213\315\226 -\060\015\006\011\052\206\110\206\367\015\001\001\005\005\000\060 -\067\061\024\060\022\006\003\125\004\012\014\013\124\145\154\151 -\141\123\157\156\145\162\141\061\037\060\035\006\003\125\004\003 -\014\026\124\145\154\151\141\123\157\156\145\162\141\040\122\157 -\157\164\040\103\101\040\166\061\060\036\027\015\060\067\061\060 -\061\070\061\062\060\060\065\060\132\027\015\063\062\061\060\061 -\070\061\062\060\060\065\060\132\060\067\061\024\060\022\006\003 -\125\004\012\014\013\124\145\154\151\141\123\157\156\145\162\141 -\061\037\060\035\006\003\125\004\003\014\026\124\145\154\151\141 -\123\157\156\145\162\141\040\122\157\157\164\040\103\101\040\166 -\061\060\202\002\042\060\015\006\011\052\206\110\206\367\015\001 -\001\001\005\000\003\202\002\017\000\060\202\002\012\002\202\002 -\001\000\302\276\353\047\360\041\243\363\151\046\125\176\235\305 -\125\026\221\134\375\357\041\277\123\200\172\055\322\221\214\143 -\061\360\354\044\360\303\245\322\162\174\020\155\364\067\267\345 -\346\174\171\352\214\265\202\213\256\110\266\254\000\334\145\165 -\354\052\115\137\301\207\365\040\145\053\201\250\107\076\211\043 -\225\060\026\220\177\350\127\007\110\347\031\256\277\105\147\261 -\067\033\006\052\376\336\371\254\175\203\373\136\272\344\217\227 -\147\276\113\216\215\144\007\127\070\125\151\064\066\075\023\110 -\357\117\342\323\146\036\244\317\032\267\136\066\063\324\264\006 -\275\030\001\375\167\204\120\000\105\365\214\135\350\043\274\176 -\376\065\341\355\120\173\251\060\215\031\323\011\216\150\147\135 -\277\074\227\030\123\273\051\142\305\312\136\162\301\307\226\324 -\333\055\240\264\037\151\003\354\352\342\120\361\014\074\360\254 -\363\123\055\360\034\365\355\154\071\071\163\200\026\310\122\260 -\043\315\340\076\334\335\074\107\240\273\065\212\342\230\150\213 -\276\345\277\162\356\322\372\245\355\022\355\374\230\030\251\046 -\166\334\050\113\020\040\034\323\177\026\167\055\355\157\200\367 -\111\273\123\005\273\135\150\307\324\310\165\026\077\211\132\213 -\367\027\107\324\114\361\322\211\171\076\115\075\230\250\141\336 -\072\036\322\370\136\003\340\301\311\034\214\323\215\115\323\225 -\066\263\067\137\143\143\233\063\024\360\055\046\153\123\174\211 -\214\062\302\156\354\075\041\000\071\311\241\150\342\120\203\056 -\260\072\053\363\066\240\254\057\344\157\141\302\121\011\071\076 -\213\123\271\273\147\332\334\123\271\166\131\066\235\103\345\040 -\340\075\062\140\205\042\121\267\307\063\273\335\025\057\244\170 -\246\007\173\201\106\066\004\206\335\171\065\307\225\054\073\260 -\243\027\065\345\163\037\264\134\131\357\332\352\020\145\173\172 -\320\177\237\263\264\052\067\073\160\213\233\133\271\053\267\354 -\262\121\022\227\123\051\132\324\360\022\020\334\117\002\273\022 -\222\057\142\324\077\151\103\174\015\326\374\130\165\001\210\235 -\130\026\113\336\272\220\377\107\001\211\006\152\366\137\262\220 -\152\263\002\246\002\210\277\263\107\176\052\331\325\372\150\170 -\065\115\002\003\001\000\001\243\077\060\075\060\017\006\003\125 -\035\023\001\001\377\004\005\060\003\001\001\377\060\013\006\003 -\125\035\017\004\004\003\002\001\006\060\035\006\003\125\035\016 -\004\026\004\024\360\217\131\070\000\263\365\217\232\226\014\325 -\353\372\173\252\027\350\023\022\060\015\006\011\052\206\110\206 -\367\015\001\001\005\005\000\003\202\002\001\000\276\344\134\142 -\116\044\364\014\010\377\360\323\014\150\344\223\111\042\077\104 -\047\157\273\155\336\203\146\316\250\314\015\374\365\232\006\345 -\167\024\221\353\235\101\173\231\052\204\345\377\374\041\301\135 -\360\344\037\127\267\165\251\241\137\002\046\377\327\307\367\116 -\336\117\370\367\034\106\300\172\117\100\054\042\065\360\031\261 -\320\153\147\054\260\250\340\300\100\067\065\366\204\134\134\343 -\257\102\170\376\247\311\015\120\352\015\204\166\366\121\357\203 -\123\306\172\377\016\126\111\056\217\172\326\014\346\047\124\343 -\115\012\140\162\142\315\221\007\326\245\277\310\231\153\355\304 -\031\346\253\114\021\070\305\157\061\342\156\111\310\077\166\200 -\046\003\046\051\340\066\366\366\040\123\343\027\160\064\027\235 -\143\150\036\153\354\303\115\206\270\023\060\057\135\106\015\107 -\103\325\033\252\131\016\271\134\215\006\110\255\164\207\137\307 -\374\061\124\101\023\342\307\041\016\236\340\036\015\341\300\173 -\103\205\220\305\212\130\306\145\012\170\127\362\306\043\017\001 -\331\040\113\336\017\373\222\205\165\052\134\163\215\155\173\045 -\221\312\356\105\256\006\113\000\314\323\261\131\120\332\072\210 -\073\051\103\106\136\227\053\124\316\123\157\215\112\347\226\372 -\277\161\016\102\213\174\375\050\240\320\110\312\332\304\201\114 -\273\242\163\223\046\310\353\014\326\046\210\266\300\044\317\273 -\275\133\353\165\175\351\010\216\206\063\054\171\167\011\151\245 -\211\374\263\160\220\207\166\217\323\042\273\102\316\275\163\013 -\040\046\052\320\233\075\160\036\044\154\315\207\166\251\027\226 -\267\317\015\222\373\216\030\251\230\111\321\236\376\140\104\162 -\041\271\031\355\302\365\061\361\071\110\210\220\044\165\124\026 -\255\316\364\370\151\024\144\071\373\243\270\272\160\100\307\047 -\034\277\304\126\123\372\143\145\320\363\034\016\026\365\153\206 -\130\115\030\324\344\015\216\245\235\133\221\334\166\044\120\077 -\306\052\373\331\267\234\265\326\346\320\331\350\031\213\025\161 -\110\255\267\352\330\131\210\324\220\277\026\263\331\351\254\131 -\141\124\310\034\272\312\301\312\341\271\040\114\217\072\223\211 -\245\240\314\277\323\366\165\244\165\226\155\126 -END -CKA_NSS_MOZILLA_CA_POLICY CK_BBOOL CK_TRUE -CKA_NSS_SERVER_DISTRUST_AFTER CK_BBOOL CK_FALSE -CKA_NSS_EMAIL_DISTRUST_AFTER CK_BBOOL CK_FALSE - -# Trust for "TeliaSonera Root CA v1" -# Issuer: CN=TeliaSonera Root CA v1,O=TeliaSonera -# Serial Number:00:95:be:16:a0:f7:2e:46:f1:7b:39:82:72:fa:8b:cd:96 -# Subject: CN=TeliaSonera Root CA v1,O=TeliaSonera -# Not Valid Before: Thu Oct 18 12:00:50 2007 -# Not Valid After : Mon Oct 18 12:00:50 2032 -# Fingerprint (SHA-256): DD:69:36:FE:21:F8:F0:77:C1:23:A1:A5:21:C1:22:24:F7:22:55:B7:3E:03:A7:26:06:93:E8:A2:4B:0F:A3:89 -# Fingerprint (SHA1): 43:13:BB:96:F1:D5:86:9B:C1:4E:6A:92:F6:CF:F6:34:69:87:82:37 +# Serial Number: 3262 (0xcbe) +# Subject: CN=TWCA Global Root CA,OU=Root CA,O=TAIWAN-CA,C=TW +# Not Valid Before: Wed Jun 27 06:28:33 2012 +# Not Valid After : Tue Dec 31 15:59:59 2030 +# Fingerprint (SHA-256): 59:76:90:07:F7:68:5D:0F:CD:50:87:2F:9F:95:D5:75:5A:5B:2B:45:7D:81:F3:69:2B:61:0A:98:67:2F:0E:1B +# Fingerprint (SHA1): 9C:BB:48:53:F6:A4:F6:D3:52:A4:E8:32:52:55:60:13:F5:AD:AF:65 CKA_CLASS CK_OBJECT_CLASS CKO_NSS_TRUST CKA_TOKEN CK_BBOOL CK_TRUE CKA_PRIVATE CK_BBOOL CK_FALSE CKA_MODIFIABLE CK_BBOOL CK_FALSE -CKA_LABEL UTF8 "TeliaSonera Root CA v1" +CKA_LABEL UTF8 "TWCA Global Root CA" CKA_CERT_SHA1_HASH MULTILINE_OCTAL -\103\023\273\226\361\325\206\233\301\116\152\222\366\317\366\064 -\151\207\202\067 +\234\273\110\123\366\244\366\323\122\244\350\062\122\125\140\023 +\365\255\257\145 END CKA_CERT_MD5_HASH MULTILINE_OCTAL -\067\101\111\033\030\126\232\046\365\255\302\146\373\100\245\114 +\371\003\176\317\346\236\074\163\172\052\220\007\151\377\053\226 END CKA_ISSUER MULTILINE_OCTAL -\060\067\061\024\060\022\006\003\125\004\012\014\013\124\145\154 -\151\141\123\157\156\145\162\141\061\037\060\035\006\003\125\004 -\003\014\026\124\145\154\151\141\123\157\156\145\162\141\040\122 -\157\157\164\040\103\101\040\166\061 +\060\121\061\013\060\011\006\003\125\004\006\023\002\124\127\061 +\022\060\020\006\003\125\004\012\023\011\124\101\111\127\101\116 +\055\103\101\061\020\060\016\006\003\125\004\013\023\007\122\157 +\157\164\040\103\101\061\034\060\032\006\003\125\004\003\023\023 +\124\127\103\101\040\107\154\157\142\141\154\040\122\157\157\164 +\040\103\101 END CKA_SERIAL_NUMBER MULTILINE_OCTAL -\002\021\000\225\276\026\240\367\056\106\361\173\071\202\162\372 -\213\315\226 +\002\002\014\276 END CKA_TRUST_SERVER_AUTH CK_TRUST CKT_NSS_TRUSTED_DELEGATOR CKA_TRUST_EMAIL_PROTECTION CK_TRUST CKT_NSS_TRUSTED_DELEGATOR @@ -9729,7 +8484,7 @@ END CKA_SERIAL_NUMBER MULTILINE_OCTAL \002\004\112\123\214\050 END -CKA_TRUST_SERVER_AUTH CK_TRUST CKT_NSS_TRUSTED_DELEGATOR +CKA_TRUST_SERVER_AUTH CK_TRUST CKT_NSS_MUST_VERIFY_TRUST CKA_TRUST_EMAIL_PROTECTION CK_TRUST CKT_NSS_TRUSTED_DELEGATOR CKA_TRUST_CODE_SIGNING CK_TRUST CKT_NSS_MUST_VERIFY_TRUST CKA_TRUST_STEP_UP_APPROVED CK_BBOOL CK_FALSE @@ -9879,7 +8634,7 @@ END CKA_SERIAL_NUMBER MULTILINE_OCTAL \002\015\000\246\213\171\051\000\000\000\000\120\320\221\371 END -CKA_TRUST_SERVER_AUTH CK_TRUST CKT_NSS_TRUSTED_DELEGATOR +CKA_TRUST_SERVER_AUTH CK_TRUST CKT_NSS_MUST_VERIFY_TRUST CKA_TRUST_EMAIL_PROTECTION CK_TRUST CKT_NSS_TRUSTED_DELEGATOR CKA_TRUST_CODE_SIGNING CK_TRUST CKT_NSS_MUST_VERIFY_TRUST CKA_TRUST_STEP_UP_APPROVED CK_BBOOL CK_FALSE @@ -11295,7 +10050,7 @@ CKA_SERIAL_NUMBER MULTILINE_OCTAL \346\226\066\133\312 END CKA_TRUST_SERVER_AUTH CK_TRUST CKT_NSS_TRUSTED_DELEGATOR -CKA_TRUST_EMAIL_PROTECTION CK_TRUST CKT_NSS_TRUSTED_DELEGATOR +CKA_TRUST_EMAIL_PROTECTION CK_TRUST CKT_NSS_MUST_VERIFY_TRUST CKA_TRUST_CODE_SIGNING CK_TRUST CKT_NSS_MUST_VERIFY_TRUST CKA_TRUST_STEP_UP_APPROVED CK_BBOOL CK_FALSE @@ -11454,7 +10209,7 @@ CKA_SERIAL_NUMBER MULTILINE_OCTAL \133\046\273\212\067 END CKA_TRUST_SERVER_AUTH CK_TRUST CKT_NSS_TRUSTED_DELEGATOR -CKA_TRUST_EMAIL_PROTECTION CK_TRUST CKT_NSS_TRUSTED_DELEGATOR +CKA_TRUST_EMAIL_PROTECTION CK_TRUST CKT_NSS_MUST_VERIFY_TRUST CKA_TRUST_CODE_SIGNING CK_TRUST CKT_NSS_MUST_VERIFY_TRUST CKA_TRUST_STEP_UP_APPROVED CK_BBOOL CK_FALSE @@ -11556,7 +10311,7 @@ CKA_SERIAL_NUMBER MULTILINE_OCTAL \236\166\003\362\112 END CKA_TRUST_SERVER_AUTH CK_TRUST CKT_NSS_TRUSTED_DELEGATOR -CKA_TRUST_EMAIL_PROTECTION CK_TRUST CKT_NSS_TRUSTED_DELEGATOR +CKA_TRUST_EMAIL_PROTECTION CK_TRUST CKT_NSS_MUST_VERIFY_TRUST CKA_TRUST_CODE_SIGNING CK_TRUST CKT_NSS_MUST_VERIFY_TRUST CKA_TRUST_STEP_UP_APPROVED CK_BBOOL CK_FALSE @@ -11662,7 +10417,7 @@ CKA_SERIAL_NUMBER MULTILINE_OCTAL \054\310\032\301\016 END CKA_TRUST_SERVER_AUTH CK_TRUST CKT_NSS_TRUSTED_DELEGATOR -CKA_TRUST_EMAIL_PROTECTION CK_TRUST CKT_NSS_TRUSTED_DELEGATOR +CKA_TRUST_EMAIL_PROTECTION CK_TRUST CKT_NSS_MUST_VERIFY_TRUST CKA_TRUST_CODE_SIGNING CK_TRUST CKT_NSS_MUST_VERIFY_TRUST CKA_TRUST_STEP_UP_APPROVED CK_BBOOL CK_FALSE @@ -15017,449 +13772,6 @@ CKA_TRUST_EMAIL_PROTECTION CK_TRUST CKT_NSS_MUST_VERIFY_TRUST CKA_TRUST_CODE_SIGNING CK_TRUST CKT_NSS_MUST_VERIFY_TRUST CKA_TRUST_STEP_UP_APPROVED CK_BBOOL CK_FALSE -# -# Certificate "Trustwave Global Certification Authority" -# -# Issuer: CN=Trustwave Global Certification Authority,O="Trustwave Holdings, Inc.",L=Chicago,ST=Illinois,C=US -# Serial Number:05:f7:0e:86:da:49:f3:46:35:2e:ba:b2 -# Subject: CN=Trustwave Global Certification Authority,O="Trustwave Holdings, Inc.",L=Chicago,ST=Illinois,C=US -# Not Valid Before: Wed Aug 23 19:34:12 2017 -# Not Valid After : Sat Aug 23 19:34:12 2042 -# Fingerprint (SHA-256): 97:55:20:15:F5:DD:FC:3C:87:88:C0:06:94:45:55:40:88:94:45:00:84:F1:00:86:70:86:BC:1A:2B:B5:8D:C8 -# Fingerprint (SHA1): 2F:8F:36:4F:E1:58:97:44:21:59:87:A5:2A:9A:D0:69:95:26:7F:B5 -CKA_CLASS CK_OBJECT_CLASS CKO_CERTIFICATE -CKA_TOKEN CK_BBOOL CK_TRUE -CKA_PRIVATE CK_BBOOL CK_FALSE -CKA_MODIFIABLE CK_BBOOL CK_FALSE -CKA_LABEL UTF8 "Trustwave Global Certification Authority" -CKA_CERTIFICATE_TYPE CK_CERTIFICATE_TYPE CKC_X_509 -CKA_SUBJECT MULTILINE_OCTAL -\060\201\210\061\013\060\011\006\003\125\004\006\023\002\125\123 -\061\021\060\017\006\003\125\004\010\014\010\111\154\154\151\156 -\157\151\163\061\020\060\016\006\003\125\004\007\014\007\103\150 -\151\143\141\147\157\061\041\060\037\006\003\125\004\012\014\030 -\124\162\165\163\164\167\141\166\145\040\110\157\154\144\151\156 -\147\163\054\040\111\156\143\056\061\061\060\057\006\003\125\004 -\003\014\050\124\162\165\163\164\167\141\166\145\040\107\154\157 -\142\141\154\040\103\145\162\164\151\146\151\143\141\164\151\157 -\156\040\101\165\164\150\157\162\151\164\171 -END -CKA_ID UTF8 "0" -CKA_ISSUER MULTILINE_OCTAL -\060\201\210\061\013\060\011\006\003\125\004\006\023\002\125\123 -\061\021\060\017\006\003\125\004\010\014\010\111\154\154\151\156 -\157\151\163\061\020\060\016\006\003\125\004\007\014\007\103\150 -\151\143\141\147\157\061\041\060\037\006\003\125\004\012\014\030 -\124\162\165\163\164\167\141\166\145\040\110\157\154\144\151\156 -\147\163\054\040\111\156\143\056\061\061\060\057\006\003\125\004 -\003\014\050\124\162\165\163\164\167\141\166\145\040\107\154\157 -\142\141\154\040\103\145\162\164\151\146\151\143\141\164\151\157 -\156\040\101\165\164\150\157\162\151\164\171 -END -CKA_SERIAL_NUMBER MULTILINE_OCTAL -\002\014\005\367\016\206\332\111\363\106\065\056\272\262 -END -CKA_VALUE MULTILINE_OCTAL -\060\202\005\332\060\202\003\302\240\003\002\001\002\002\014\005 -\367\016\206\332\111\363\106\065\056\272\262\060\015\006\011\052 -\206\110\206\367\015\001\001\013\005\000\060\201\210\061\013\060 -\011\006\003\125\004\006\023\002\125\123\061\021\060\017\006\003 -\125\004\010\014\010\111\154\154\151\156\157\151\163\061\020\060 -\016\006\003\125\004\007\014\007\103\150\151\143\141\147\157\061 -\041\060\037\006\003\125\004\012\014\030\124\162\165\163\164\167 -\141\166\145\040\110\157\154\144\151\156\147\163\054\040\111\156 -\143\056\061\061\060\057\006\003\125\004\003\014\050\124\162\165 -\163\164\167\141\166\145\040\107\154\157\142\141\154\040\103\145 -\162\164\151\146\151\143\141\164\151\157\156\040\101\165\164\150 -\157\162\151\164\171\060\036\027\015\061\067\060\070\062\063\061 -\071\063\064\061\062\132\027\015\064\062\060\070\062\063\061\071 -\063\064\061\062\132\060\201\210\061\013\060\011\006\003\125\004 -\006\023\002\125\123\061\021\060\017\006\003\125\004\010\014\010 -\111\154\154\151\156\157\151\163\061\020\060\016\006\003\125\004 -\007\014\007\103\150\151\143\141\147\157\061\041\060\037\006\003 -\125\004\012\014\030\124\162\165\163\164\167\141\166\145\040\110 -\157\154\144\151\156\147\163\054\040\111\156\143\056\061\061\060 -\057\006\003\125\004\003\014\050\124\162\165\163\164\167\141\166 -\145\040\107\154\157\142\141\154\040\103\145\162\164\151\146\151 -\143\141\164\151\157\156\040\101\165\164\150\157\162\151\164\171 -\060\202\002\042\060\015\006\011\052\206\110\206\367\015\001\001 -\001\005\000\003\202\002\017\000\060\202\002\012\002\202\002\001 -\000\271\135\121\050\113\074\067\222\321\202\316\275\035\275\315 -\335\270\253\317\012\076\341\135\345\334\252\011\271\127\002\076 -\346\143\141\337\362\017\202\143\256\243\367\254\163\321\174\347 -\263\013\257\010\000\011\131\177\315\051\052\210\223\207\027\030 -\200\355\210\262\264\266\020\037\055\326\137\125\242\023\135\321 -\306\353\006\126\211\210\376\254\062\235\375\134\303\005\307\156 -\356\206\211\272\210\003\235\162\041\206\220\256\217\003\245\334 -\237\210\050\313\243\222\111\017\354\320\017\342\155\104\117\200 -\152\262\324\347\240\012\123\001\272\216\227\221\166\156\274\374 -\325\153\066\346\100\210\326\173\057\137\005\350\054\155\021\363 -\347\262\276\222\104\114\322\227\244\376\322\162\201\103\007\234 -\351\021\076\365\213\032\131\175\037\150\130\335\004\000\054\226 -\363\103\263\176\230\031\164\331\234\163\331\030\276\101\307\064 -\171\331\364\142\302\103\271\263\047\260\042\313\371\075\122\307 -\060\107\263\311\076\270\152\342\347\350\201\160\136\102\213\117 -\046\245\376\072\302\040\156\273\370\026\216\315\014\251\264\033 -\154\166\020\341\130\171\106\076\124\316\200\250\127\011\067\051 -\033\231\023\217\014\310\326\054\034\373\005\350\010\225\075\145 -\106\334\356\315\151\342\115\217\207\050\116\064\013\076\317\024 -\331\273\335\266\120\232\255\167\324\031\326\332\032\210\310\116 -\033\047\165\330\262\010\361\256\203\060\271\021\016\315\207\360 -\204\215\025\162\174\241\357\314\362\210\141\272\364\151\273\014 -\214\013\165\127\004\270\116\052\024\056\075\017\034\036\062\246 -\142\066\356\146\342\042\270\005\100\143\020\042\363\063\035\164 -\162\212\054\365\071\051\240\323\347\033\200\204\055\305\075\343 -\115\261\375\032\157\272\145\007\073\130\354\102\105\046\373\330 -\332\045\162\304\366\000\261\042\171\275\343\174\131\142\112\234 -\005\157\075\316\346\326\107\143\231\306\044\157\162\022\310\254 -\177\220\264\013\221\160\350\267\346\026\020\161\027\316\336\006 -\117\110\101\175\065\112\243\211\362\311\113\173\101\021\155\147 -\267\010\230\114\345\021\031\256\102\200\334\373\220\005\324\370 -\120\312\276\344\255\307\302\224\327\026\235\346\027\217\257\066 -\373\002\003\001\000\001\243\102\060\100\060\017\006\003\125\035 -\023\001\001\377\004\005\060\003\001\001\377\060\035\006\003\125 -\035\016\004\026\004\024\231\340\031\147\015\142\333\166\263\332 -\075\270\133\350\375\102\322\061\016\207\060\016\006\003\125\035 -\017\001\001\377\004\004\003\002\001\006\060\015\006\011\052\206 -\110\206\367\015\001\001\013\005\000\003\202\002\001\000\230\163 -\160\342\260\323\355\071\354\114\140\331\251\022\206\027\036\226 -\320\350\124\050\073\144\055\041\246\370\235\126\023\152\110\075 -\117\307\076\051\333\155\130\203\124\075\207\175\043\005\324\344 -\034\334\350\070\145\206\305\165\247\132\333\065\005\275\167\336 -\273\051\067\100\005\007\303\224\122\237\312\144\335\361\033\053 -\334\106\012\020\002\061\375\112\150\015\007\144\220\346\036\365 -\052\241\250\273\074\135\371\243\010\013\021\014\361\077\055\020 -\224\157\376\342\064\207\203\326\317\345\033\065\155\322\003\341 -\260\015\250\240\252\106\047\202\066\247\025\266\010\246\102\124 -\127\266\231\132\342\013\171\220\327\127\022\121\065\031\210\101 -\150\045\324\067\027\204\025\373\001\162\334\225\336\122\046\040 -\230\046\342\166\365\047\157\372\000\073\112\141\331\015\313\121 -\223\052\375\026\006\226\247\043\232\043\110\376\121\275\266\304 -\260\261\124\316\336\154\101\255\026\147\176\333\375\070\315\271 -\070\116\262\301\140\313\235\027\337\130\236\172\142\262\046\217 -\164\225\233\344\133\035\322\017\335\230\034\233\131\271\043\323 -\061\240\246\377\070\335\317\040\117\351\130\126\072\147\303\321 -\366\231\231\235\272\066\266\200\057\210\107\117\206\277\104\072 -\200\344\067\034\246\272\352\227\230\021\320\204\142\107\144\036 -\252\356\100\277\064\261\234\217\116\341\362\222\117\037\216\363 -\236\227\336\363\246\171\152\211\161\117\113\047\027\110\376\354 -\364\120\017\117\111\175\314\105\343\275\172\100\305\101\334\141 -\126\047\006\151\345\162\101\201\323\266\001\211\240\057\072\162 -\171\376\072\060\277\101\354\307\142\076\221\113\307\331\061\166 -\102\371\367\074\143\354\046\214\163\014\175\032\035\352\250\174 -\207\250\302\047\174\341\063\101\017\317\317\374\000\240\042\200 -\236\112\247\157\000\260\101\105\267\042\312\150\110\305\102\242 -\256\335\035\362\340\156\116\005\130\261\300\220\026\052\244\075 -\020\100\276\217\142\143\203\251\234\202\175\055\002\351\203\060 -\174\313\047\311\375\036\146\000\260\056\323\041\057\216\063\026 -\154\230\355\020\250\007\326\314\223\317\333\321\151\034\344\312 -\311\340\266\234\351\316\161\161\336\154\077\026\244\171 -END -CKA_NSS_MOZILLA_CA_POLICY CK_BBOOL CK_TRUE -CKA_NSS_SERVER_DISTRUST_AFTER CK_BBOOL CK_FALSE -CKA_NSS_EMAIL_DISTRUST_AFTER CK_BBOOL CK_FALSE - -# Trust for "Trustwave Global Certification Authority" -# Issuer: CN=Trustwave Global Certification Authority,O="Trustwave Holdings, Inc.",L=Chicago,ST=Illinois,C=US -# Serial Number:05:f7:0e:86:da:49:f3:46:35:2e:ba:b2 -# Subject: CN=Trustwave Global Certification Authority,O="Trustwave Holdings, Inc.",L=Chicago,ST=Illinois,C=US -# Not Valid Before: Wed Aug 23 19:34:12 2017 -# Not Valid After : Sat Aug 23 19:34:12 2042 -# Fingerprint (SHA-256): 97:55:20:15:F5:DD:FC:3C:87:88:C0:06:94:45:55:40:88:94:45:00:84:F1:00:86:70:86:BC:1A:2B:B5:8D:C8 -# Fingerprint (SHA1): 2F:8F:36:4F:E1:58:97:44:21:59:87:A5:2A:9A:D0:69:95:26:7F:B5 -CKA_CLASS CK_OBJECT_CLASS CKO_NSS_TRUST -CKA_TOKEN CK_BBOOL CK_TRUE -CKA_PRIVATE CK_BBOOL CK_FALSE -CKA_MODIFIABLE CK_BBOOL CK_FALSE -CKA_LABEL UTF8 "Trustwave Global Certification Authority" -CKA_CERT_SHA1_HASH MULTILINE_OCTAL -\057\217\066\117\341\130\227\104\041\131\207\245\052\232\320\151 -\225\046\177\265 -END -CKA_CERT_MD5_HASH MULTILINE_OCTAL -\370\034\030\055\057\272\137\155\241\154\274\307\253\221\307\016 -END -CKA_ISSUER MULTILINE_OCTAL -\060\201\210\061\013\060\011\006\003\125\004\006\023\002\125\123 -\061\021\060\017\006\003\125\004\010\014\010\111\154\154\151\156 -\157\151\163\061\020\060\016\006\003\125\004\007\014\007\103\150 -\151\143\141\147\157\061\041\060\037\006\003\125\004\012\014\030 -\124\162\165\163\164\167\141\166\145\040\110\157\154\144\151\156 -\147\163\054\040\111\156\143\056\061\061\060\057\006\003\125\004 -\003\014\050\124\162\165\163\164\167\141\166\145\040\107\154\157 -\142\141\154\040\103\145\162\164\151\146\151\143\141\164\151\157 -\156\040\101\165\164\150\157\162\151\164\171 -END -CKA_SERIAL_NUMBER MULTILINE_OCTAL -\002\014\005\367\016\206\332\111\363\106\065\056\272\262 -END -CKA_TRUST_SERVER_AUTH CK_TRUST CKT_NSS_TRUSTED_DELEGATOR -CKA_TRUST_EMAIL_PROTECTION CK_TRUST CKT_NSS_TRUSTED_DELEGATOR -CKA_TRUST_CODE_SIGNING CK_TRUST CKT_NSS_MUST_VERIFY_TRUST -CKA_TRUST_STEP_UP_APPROVED CK_BBOOL CK_FALSE - -# -# Certificate "Trustwave Global ECC P256 Certification Authority" -# -# Issuer: CN=Trustwave Global ECC P256 Certification Authority,O="Trustwave Holdings, Inc.",L=Chicago,ST=Illinois,C=US -# Serial Number:0d:6a:5f:08:3f:28:5c:3e:51:95:df:5d -# Subject: CN=Trustwave Global ECC P256 Certification Authority,O="Trustwave Holdings, Inc.",L=Chicago,ST=Illinois,C=US -# Not Valid Before: Wed Aug 23 19:35:10 2017 -# Not Valid After : Sat Aug 23 19:35:10 2042 -# Fingerprint (SHA-256): 94:5B:BC:82:5E:A5:54:F4:89:D1:FD:51:A7:3D:DF:2E:A6:24:AC:70:19:A0:52:05:22:5C:22:A7:8C:CF:A8:B4 -# Fingerprint (SHA1): B4:90:82:DD:45:0C:BE:8B:5B:B1:66:D3:E2:A4:08:26:CD:ED:42:CF -CKA_CLASS CK_OBJECT_CLASS CKO_CERTIFICATE -CKA_TOKEN CK_BBOOL CK_TRUE -CKA_PRIVATE CK_BBOOL CK_FALSE -CKA_MODIFIABLE CK_BBOOL CK_FALSE -CKA_LABEL UTF8 "Trustwave Global ECC P256 Certification Authority" -CKA_CERTIFICATE_TYPE CK_CERTIFICATE_TYPE CKC_X_509 -CKA_SUBJECT MULTILINE_OCTAL -\060\201\221\061\013\060\011\006\003\125\004\006\023\002\125\123 -\061\021\060\017\006\003\125\004\010\023\010\111\154\154\151\156 -\157\151\163\061\020\060\016\006\003\125\004\007\023\007\103\150 -\151\143\141\147\157\061\041\060\037\006\003\125\004\012\023\030 -\124\162\165\163\164\167\141\166\145\040\110\157\154\144\151\156 -\147\163\054\040\111\156\143\056\061\072\060\070\006\003\125\004 -\003\023\061\124\162\165\163\164\167\141\166\145\040\107\154\157 -\142\141\154\040\105\103\103\040\120\062\065\066\040\103\145\162 -\164\151\146\151\143\141\164\151\157\156\040\101\165\164\150\157 -\162\151\164\171 -END -CKA_ID UTF8 "0" -CKA_ISSUER MULTILINE_OCTAL -\060\201\221\061\013\060\011\006\003\125\004\006\023\002\125\123 -\061\021\060\017\006\003\125\004\010\023\010\111\154\154\151\156 -\157\151\163\061\020\060\016\006\003\125\004\007\023\007\103\150 -\151\143\141\147\157\061\041\060\037\006\003\125\004\012\023\030 -\124\162\165\163\164\167\141\166\145\040\110\157\154\144\151\156 -\147\163\054\040\111\156\143\056\061\072\060\070\006\003\125\004 -\003\023\061\124\162\165\163\164\167\141\166\145\040\107\154\157 -\142\141\154\040\105\103\103\040\120\062\065\066\040\103\145\162 -\164\151\146\151\143\141\164\151\157\156\040\101\165\164\150\157 -\162\151\164\171 -END -CKA_SERIAL_NUMBER MULTILINE_OCTAL -\002\014\015\152\137\010\077\050\134\076\121\225\337\135 -END -CKA_VALUE MULTILINE_OCTAL -\060\202\002\140\060\202\002\007\240\003\002\001\002\002\014\015 -\152\137\010\077\050\134\076\121\225\337\135\060\012\006\010\052 -\206\110\316\075\004\003\002\060\201\221\061\013\060\011\006\003 -\125\004\006\023\002\125\123\061\021\060\017\006\003\125\004\010 -\023\010\111\154\154\151\156\157\151\163\061\020\060\016\006\003 -\125\004\007\023\007\103\150\151\143\141\147\157\061\041\060\037 -\006\003\125\004\012\023\030\124\162\165\163\164\167\141\166\145 -\040\110\157\154\144\151\156\147\163\054\040\111\156\143\056\061 -\072\060\070\006\003\125\004\003\023\061\124\162\165\163\164\167 -\141\166\145\040\107\154\157\142\141\154\040\105\103\103\040\120 -\062\065\066\040\103\145\162\164\151\146\151\143\141\164\151\157 -\156\040\101\165\164\150\157\162\151\164\171\060\036\027\015\061 -\067\060\070\062\063\061\071\063\065\061\060\132\027\015\064\062 -\060\070\062\063\061\071\063\065\061\060\132\060\201\221\061\013 -\060\011\006\003\125\004\006\023\002\125\123\061\021\060\017\006 -\003\125\004\010\023\010\111\154\154\151\156\157\151\163\061\020 -\060\016\006\003\125\004\007\023\007\103\150\151\143\141\147\157 -\061\041\060\037\006\003\125\004\012\023\030\124\162\165\163\164 -\167\141\166\145\040\110\157\154\144\151\156\147\163\054\040\111 -\156\143\056\061\072\060\070\006\003\125\004\003\023\061\124\162 -\165\163\164\167\141\166\145\040\107\154\157\142\141\154\040\105 -\103\103\040\120\062\065\066\040\103\145\162\164\151\146\151\143 -\141\164\151\157\156\040\101\165\164\150\157\162\151\164\171\060 -\131\060\023\006\007\052\206\110\316\075\002\001\006\010\052\206 -\110\316\075\003\001\007\003\102\000\004\176\373\154\346\043\343 -\163\062\010\312\140\346\123\234\272\164\215\030\260\170\220\122 -\200\335\070\300\112\035\321\250\314\223\244\227\006\070\312\015 -\025\142\306\216\001\052\145\235\252\337\064\221\056\201\301\344 -\063\222\061\304\375\011\072\246\077\255\243\103\060\101\060\017 -\006\003\125\035\023\001\001\377\004\005\060\003\001\001\377\060 -\017\006\003\125\035\017\001\001\377\004\005\003\003\007\006\000 -\060\035\006\003\125\035\016\004\026\004\024\243\101\006\254\220 -\155\321\112\353\165\245\112\020\231\263\261\241\213\112\367\060 -\012\006\010\052\206\110\316\075\004\003\002\003\107\000\060\104 -\002\040\007\346\124\332\016\240\132\262\256\021\237\207\305\266 -\377\151\336\045\276\370\240\267\010\363\104\316\052\337\010\041 -\014\067\002\040\055\046\003\240\005\275\153\321\366\134\370\145 -\314\206\155\263\234\064\110\143\204\011\305\215\167\032\342\314 -\234\341\164\173 -END -CKA_NSS_MOZILLA_CA_POLICY CK_BBOOL CK_TRUE -CKA_NSS_SERVER_DISTRUST_AFTER CK_BBOOL CK_FALSE -CKA_NSS_EMAIL_DISTRUST_AFTER CK_BBOOL CK_FALSE - -# Trust for "Trustwave Global ECC P256 Certification Authority" -# Issuer: CN=Trustwave Global ECC P256 Certification Authority,O="Trustwave Holdings, Inc.",L=Chicago,ST=Illinois,C=US -# Serial Number:0d:6a:5f:08:3f:28:5c:3e:51:95:df:5d -# Subject: CN=Trustwave Global ECC P256 Certification Authority,O="Trustwave Holdings, Inc.",L=Chicago,ST=Illinois,C=US -# Not Valid Before: Wed Aug 23 19:35:10 2017 -# Not Valid After : Sat Aug 23 19:35:10 2042 -# Fingerprint (SHA-256): 94:5B:BC:82:5E:A5:54:F4:89:D1:FD:51:A7:3D:DF:2E:A6:24:AC:70:19:A0:52:05:22:5C:22:A7:8C:CF:A8:B4 -# Fingerprint (SHA1): B4:90:82:DD:45:0C:BE:8B:5B:B1:66:D3:E2:A4:08:26:CD:ED:42:CF -CKA_CLASS CK_OBJECT_CLASS CKO_NSS_TRUST -CKA_TOKEN CK_BBOOL CK_TRUE -CKA_PRIVATE CK_BBOOL CK_FALSE -CKA_MODIFIABLE CK_BBOOL CK_FALSE -CKA_LABEL UTF8 "Trustwave Global ECC P256 Certification Authority" -CKA_CERT_SHA1_HASH MULTILINE_OCTAL -\264\220\202\335\105\014\276\213\133\261\146\323\342\244\010\046 -\315\355\102\317 -END -CKA_CERT_MD5_HASH MULTILINE_OCTAL -\133\104\343\215\135\066\206\046\350\015\005\322\131\247\203\124 -END -CKA_ISSUER MULTILINE_OCTAL -\060\201\221\061\013\060\011\006\003\125\004\006\023\002\125\123 -\061\021\060\017\006\003\125\004\010\023\010\111\154\154\151\156 -\157\151\163\061\020\060\016\006\003\125\004\007\023\007\103\150 -\151\143\141\147\157\061\041\060\037\006\003\125\004\012\023\030 -\124\162\165\163\164\167\141\166\145\040\110\157\154\144\151\156 -\147\163\054\040\111\156\143\056\061\072\060\070\006\003\125\004 -\003\023\061\124\162\165\163\164\167\141\166\145\040\107\154\157 -\142\141\154\040\105\103\103\040\120\062\065\066\040\103\145\162 -\164\151\146\151\143\141\164\151\157\156\040\101\165\164\150\157 -\162\151\164\171 -END -CKA_SERIAL_NUMBER MULTILINE_OCTAL -\002\014\015\152\137\010\077\050\134\076\121\225\337\135 -END -CKA_TRUST_SERVER_AUTH CK_TRUST CKT_NSS_TRUSTED_DELEGATOR -CKA_TRUST_EMAIL_PROTECTION CK_TRUST CKT_NSS_TRUSTED_DELEGATOR -CKA_TRUST_CODE_SIGNING CK_TRUST CKT_NSS_MUST_VERIFY_TRUST -CKA_TRUST_STEP_UP_APPROVED CK_BBOOL CK_FALSE - -# -# Certificate "Trustwave Global ECC P384 Certification Authority" -# -# Issuer: CN=Trustwave Global ECC P384 Certification Authority,O="Trustwave Holdings, Inc.",L=Chicago,ST=Illinois,C=US -# Serial Number:08:bd:85:97:6c:99:27:a4:80:68:47:3b -# Subject: CN=Trustwave Global ECC P384 Certification Authority,O="Trustwave Holdings, Inc.",L=Chicago,ST=Illinois,C=US -# Not Valid Before: Wed Aug 23 19:36:43 2017 -# Not Valid After : Sat Aug 23 19:36:43 2042 -# Fingerprint (SHA-256): 55:90:38:59:C8:C0:C3:EB:B8:75:9E:CE:4E:25:57:22:5F:F5:75:8B:BD:38:EB:D4:82:76:60:1E:1B:D5:80:97 -# Fingerprint (SHA1): E7:F3:A3:C8:CF:6F:C3:04:2E:6D:0E:67:32:C5:9E:68:95:0D:5E:D2 -CKA_CLASS CK_OBJECT_CLASS CKO_CERTIFICATE -CKA_TOKEN CK_BBOOL CK_TRUE -CKA_PRIVATE CK_BBOOL CK_FALSE -CKA_MODIFIABLE CK_BBOOL CK_FALSE -CKA_LABEL UTF8 "Trustwave Global ECC P384 Certification Authority" -CKA_CERTIFICATE_TYPE CK_CERTIFICATE_TYPE CKC_X_509 -CKA_SUBJECT MULTILINE_OCTAL -\060\201\221\061\013\060\011\006\003\125\004\006\023\002\125\123 -\061\021\060\017\006\003\125\004\010\023\010\111\154\154\151\156 -\157\151\163\061\020\060\016\006\003\125\004\007\023\007\103\150 -\151\143\141\147\157\061\041\060\037\006\003\125\004\012\023\030 -\124\162\165\163\164\167\141\166\145\040\110\157\154\144\151\156 -\147\163\054\040\111\156\143\056\061\072\060\070\006\003\125\004 -\003\023\061\124\162\165\163\164\167\141\166\145\040\107\154\157 -\142\141\154\040\105\103\103\040\120\063\070\064\040\103\145\162 -\164\151\146\151\143\141\164\151\157\156\040\101\165\164\150\157 -\162\151\164\171 -END -CKA_ID UTF8 "0" -CKA_ISSUER MULTILINE_OCTAL -\060\201\221\061\013\060\011\006\003\125\004\006\023\002\125\123 -\061\021\060\017\006\003\125\004\010\023\010\111\154\154\151\156 -\157\151\163\061\020\060\016\006\003\125\004\007\023\007\103\150 -\151\143\141\147\157\061\041\060\037\006\003\125\004\012\023\030 -\124\162\165\163\164\167\141\166\145\040\110\157\154\144\151\156 -\147\163\054\040\111\156\143\056\061\072\060\070\006\003\125\004 -\003\023\061\124\162\165\163\164\167\141\166\145\040\107\154\157 -\142\141\154\040\105\103\103\040\120\063\070\064\040\103\145\162 -\164\151\146\151\143\141\164\151\157\156\040\101\165\164\150\157 -\162\151\164\171 -END -CKA_SERIAL_NUMBER MULTILINE_OCTAL -\002\014\010\275\205\227\154\231\047\244\200\150\107\073 -END -CKA_VALUE MULTILINE_OCTAL -\060\202\002\235\060\202\002\044\240\003\002\001\002\002\014\010 -\275\205\227\154\231\047\244\200\150\107\073\060\012\006\010\052 -\206\110\316\075\004\003\003\060\201\221\061\013\060\011\006\003 -\125\004\006\023\002\125\123\061\021\060\017\006\003\125\004\010 -\023\010\111\154\154\151\156\157\151\163\061\020\060\016\006\003 -\125\004\007\023\007\103\150\151\143\141\147\157\061\041\060\037 -\006\003\125\004\012\023\030\124\162\165\163\164\167\141\166\145 -\040\110\157\154\144\151\156\147\163\054\040\111\156\143\056\061 -\072\060\070\006\003\125\004\003\023\061\124\162\165\163\164\167 -\141\166\145\040\107\154\157\142\141\154\040\105\103\103\040\120 -\063\070\064\040\103\145\162\164\151\146\151\143\141\164\151\157 -\156\040\101\165\164\150\157\162\151\164\171\060\036\027\015\061 -\067\060\070\062\063\061\071\063\066\064\063\132\027\015\064\062 -\060\070\062\063\061\071\063\066\064\063\132\060\201\221\061\013 -\060\011\006\003\125\004\006\023\002\125\123\061\021\060\017\006 -\003\125\004\010\023\010\111\154\154\151\156\157\151\163\061\020 -\060\016\006\003\125\004\007\023\007\103\150\151\143\141\147\157 -\061\041\060\037\006\003\125\004\012\023\030\124\162\165\163\164 -\167\141\166\145\040\110\157\154\144\151\156\147\163\054\040\111 -\156\143\056\061\072\060\070\006\003\125\004\003\023\061\124\162 -\165\163\164\167\141\166\145\040\107\154\157\142\141\154\040\105 -\103\103\040\120\063\070\064\040\103\145\162\164\151\146\151\143 -\141\164\151\157\156\040\101\165\164\150\157\162\151\164\171\060 -\166\060\020\006\007\052\206\110\316\075\002\001\006\005\053\201 -\004\000\042\003\142\000\004\153\332\015\165\065\010\061\107\005 -\256\105\231\125\361\021\023\056\112\370\020\061\043\243\176\203 -\323\177\050\010\072\046\032\072\317\227\202\037\200\267\047\011 -\217\321\216\060\304\012\233\016\254\130\004\253\367\066\175\224 -\043\244\233\012\212\213\253\353\375\071\045\146\361\136\376\214 -\256\215\101\171\235\011\140\316\050\251\323\212\155\363\326\105 -\324\362\230\204\070\145\240\243\103\060\101\060\017\006\003\125 -\035\023\001\001\377\004\005\060\003\001\001\377\060\017\006\003 -\125\035\017\001\001\377\004\005\003\003\007\006\000\060\035\006 -\003\125\035\016\004\026\004\024\125\251\204\211\322\301\062\275 -\030\313\154\246\007\116\310\347\235\276\202\220\060\012\006\010 -\052\206\110\316\075\004\003\003\003\147\000\060\144\002\060\067 -\001\222\227\105\022\176\240\363\076\255\031\072\162\335\364\120 -\223\003\022\276\104\322\117\101\244\214\234\235\037\243\366\302 -\222\347\110\024\376\116\233\245\221\127\256\306\067\162\273\002 -\060\147\045\012\261\014\136\356\251\143\222\157\345\220\013\376 -\146\042\312\107\375\212\061\367\203\376\172\277\020\276\030\053 -\036\217\366\051\036\224\131\357\216\041\067\313\121\230\245\156 -\113 -END -CKA_NSS_MOZILLA_CA_POLICY CK_BBOOL CK_TRUE -CKA_NSS_SERVER_DISTRUST_AFTER CK_BBOOL CK_FALSE -CKA_NSS_EMAIL_DISTRUST_AFTER CK_BBOOL CK_FALSE - -# Trust for "Trustwave Global ECC P384 Certification Authority" -# Issuer: CN=Trustwave Global ECC P384 Certification Authority,O="Trustwave Holdings, Inc.",L=Chicago,ST=Illinois,C=US -# Serial Number:08:bd:85:97:6c:99:27:a4:80:68:47:3b -# Subject: CN=Trustwave Global ECC P384 Certification Authority,O="Trustwave Holdings, Inc.",L=Chicago,ST=Illinois,C=US -# Not Valid Before: Wed Aug 23 19:36:43 2017 -# Not Valid After : Sat Aug 23 19:36:43 2042 -# Fingerprint (SHA-256): 55:90:38:59:C8:C0:C3:EB:B8:75:9E:CE:4E:25:57:22:5F:F5:75:8B:BD:38:EB:D4:82:76:60:1E:1B:D5:80:97 -# Fingerprint (SHA1): E7:F3:A3:C8:CF:6F:C3:04:2E:6D:0E:67:32:C5:9E:68:95:0D:5E:D2 -CKA_CLASS CK_OBJECT_CLASS CKO_NSS_TRUST -CKA_TOKEN CK_BBOOL CK_TRUE -CKA_PRIVATE CK_BBOOL CK_FALSE -CKA_MODIFIABLE CK_BBOOL CK_FALSE -CKA_LABEL UTF8 "Trustwave Global ECC P384 Certification Authority" -CKA_CERT_SHA1_HASH MULTILINE_OCTAL -\347\363\243\310\317\157\303\004\056\155\016\147\062\305\236\150 -\225\015\136\322 -END -CKA_CERT_MD5_HASH MULTILINE_OCTAL -\352\317\140\304\073\271\025\051\100\241\227\355\170\047\223\326 -END -CKA_ISSUER MULTILINE_OCTAL -\060\201\221\061\013\060\011\006\003\125\004\006\023\002\125\123 -\061\021\060\017\006\003\125\004\010\023\010\111\154\154\151\156 -\157\151\163\061\020\060\016\006\003\125\004\007\023\007\103\150 -\151\143\141\147\157\061\041\060\037\006\003\125\004\012\023\030 -\124\162\165\163\164\167\141\166\145\040\110\157\154\144\151\156 -\147\163\054\040\111\156\143\056\061\072\060\070\006\003\125\004 -\003\023\061\124\162\165\163\164\167\141\166\145\040\107\154\157 -\142\141\154\040\105\103\103\040\120\063\070\064\040\103\145\162 -\164\151\146\151\143\141\164\151\157\156\040\101\165\164\150\157 -\162\151\164\171 -END -CKA_SERIAL_NUMBER MULTILINE_OCTAL -\002\014\010\275\205\227\154\231\047\244\200\150\107\073 -END -CKA_TRUST_SERVER_AUTH CK_TRUST CKT_NSS_TRUSTED_DELEGATOR -CKA_TRUST_EMAIL_PROTECTION CK_TRUST CKT_NSS_TRUSTED_DELEGATOR -CKA_TRUST_CODE_SIGNING CK_TRUST CKT_NSS_MUST_VERIFY_TRUST -CKA_TRUST_STEP_UP_APPROVED CK_BBOOL CK_FALSE - # # Certificate "NAVER Global Root Certification Authority" # @@ -16316,176 +14628,6 @@ CKA_TRUST_EMAIL_PROTECTION CK_TRUST CKT_NSS_MUST_VERIFY_TRUST CKA_TRUST_CODE_SIGNING CK_TRUST CKT_NSS_MUST_VERIFY_TRUST CKA_TRUST_STEP_UP_APPROVED CK_BBOOL CK_FALSE -# -# Certificate "GLOBALTRUST 2020" -# -# Issuer: CN=GLOBALTRUST 2020,O=e-commerce monitoring GmbH,C=AT -# Serial Number:5a:4b:bd:5a:fb:4f:8a:5b:fa:65:e5 -# Subject: CN=GLOBALTRUST 2020,O=e-commerce monitoring GmbH,C=AT -# Not Valid Before: Mon Feb 10 00:00:00 2020 -# Not Valid After : Sun Jun 10 00:00:00 2040 -# Fingerprint (SHA-256): 9A:29:6A:51:82:D1:D4:51:A2:E3:7F:43:9B:74:DA:AF:A2:67:52:33:29:F9:0F:9A:0D:20:07:C3:34:E2:3C:9A -# Fingerprint (SHA1): D0:67:C1:13:51:01:0C:AA:D0:C7:6A:65:37:31:16:26:4F:53:71:A2 -CKA_CLASS CK_OBJECT_CLASS CKO_CERTIFICATE -CKA_TOKEN CK_BBOOL CK_TRUE -CKA_PRIVATE CK_BBOOL CK_FALSE -CKA_MODIFIABLE CK_BBOOL CK_FALSE -CKA_LABEL UTF8 "GLOBALTRUST 2020" -CKA_CERTIFICATE_TYPE CK_CERTIFICATE_TYPE CKC_X_509 -CKA_SUBJECT MULTILINE_OCTAL -\060\115\061\013\060\011\006\003\125\004\006\023\002\101\124\061 -\043\060\041\006\003\125\004\012\023\032\145\055\143\157\155\155 -\145\162\143\145\040\155\157\156\151\164\157\162\151\156\147\040 -\107\155\142\110\061\031\060\027\006\003\125\004\003\023\020\107 -\114\117\102\101\114\124\122\125\123\124\040\062\060\062\060 -END -CKA_ID UTF8 "0" -CKA_ISSUER MULTILINE_OCTAL -\060\115\061\013\060\011\006\003\125\004\006\023\002\101\124\061 -\043\060\041\006\003\125\004\012\023\032\145\055\143\157\155\155 -\145\162\143\145\040\155\157\156\151\164\157\162\151\156\147\040 -\107\155\142\110\061\031\060\027\006\003\125\004\003\023\020\107 -\114\117\102\101\114\124\122\125\123\124\040\062\060\062\060 -END -CKA_SERIAL_NUMBER MULTILINE_OCTAL -\002\013\132\113\275\132\373\117\212\133\372\145\345 -END -CKA_VALUE MULTILINE_OCTAL -\060\202\005\202\060\202\003\152\240\003\002\001\002\002\013\132 -\113\275\132\373\117\212\133\372\145\345\060\015\006\011\052\206 -\110\206\367\015\001\001\013\005\000\060\115\061\013\060\011\006 -\003\125\004\006\023\002\101\124\061\043\060\041\006\003\125\004 -\012\023\032\145\055\143\157\155\155\145\162\143\145\040\155\157 -\156\151\164\157\162\151\156\147\040\107\155\142\110\061\031\060 -\027\006\003\125\004\003\023\020\107\114\117\102\101\114\124\122 -\125\123\124\040\062\060\062\060\060\036\027\015\062\060\060\062 -\061\060\060\060\060\060\060\060\132\027\015\064\060\060\066\061 -\060\060\060\060\060\060\060\132\060\115\061\013\060\011\006\003 -\125\004\006\023\002\101\124\061\043\060\041\006\003\125\004\012 -\023\032\145\055\143\157\155\155\145\162\143\145\040\155\157\156 -\151\164\157\162\151\156\147\040\107\155\142\110\061\031\060\027 -\006\003\125\004\003\023\020\107\114\117\102\101\114\124\122\125 -\123\124\040\062\060\062\060\060\202\002\042\060\015\006\011\052 -\206\110\206\367\015\001\001\001\005\000\003\202\002\017\000\060 -\202\002\012\002\202\002\001\000\256\056\126\255\033\034\357\366 -\225\217\240\167\033\053\323\143\217\204\115\105\242\017\237\133 -\105\253\131\173\121\064\371\354\213\212\170\305\335\153\257\275 -\304\337\223\105\036\277\221\070\013\256\016\026\347\101\163\370 -\333\273\321\270\121\340\313\203\073\163\070\156\167\212\017\131 -\143\046\315\247\052\316\124\373\270\342\300\174\107\316\140\174 -\077\262\163\362\300\031\266\212\222\207\065\015\220\050\242\344 -\025\004\143\076\272\257\356\174\136\314\246\213\120\262\070\367 -\101\143\312\316\377\151\217\150\016\225\066\345\314\271\214\011 -\312\113\335\061\220\226\310\314\037\375\126\226\064\333\216\034 -\352\054\276\205\056\143\335\252\251\225\323\375\051\225\023\360 -\310\230\223\331\055\026\107\220\021\203\242\072\042\242\050\127 -\242\353\376\300\214\050\240\246\175\347\052\102\073\202\200\143 -\245\143\037\031\314\174\262\146\250\302\323\155\067\157\342\176 -\006\121\331\105\204\037\022\316\044\122\144\205\013\110\200\116 -\207\261\042\042\060\252\353\256\276\340\002\340\100\350\260\102 -\200\003\121\252\264\176\252\104\327\103\141\363\242\153\026\211 -\111\244\243\244\053\212\002\304\170\364\150\212\301\344\172\066 -\261\157\033\226\033\167\111\215\324\311\006\162\217\317\123\343 -\334\027\205\040\112\334\230\047\323\221\046\053\107\036\151\007 -\257\336\242\344\344\324\153\013\263\136\174\324\044\200\107\051 -\151\073\156\350\254\375\100\353\330\355\161\161\053\362\350\130 -\035\353\101\227\042\305\037\324\071\320\047\217\207\343\030\364 -\340\251\106\015\365\164\072\202\056\320\156\054\221\243\061\134 -\073\106\352\173\004\020\126\136\200\035\365\245\145\350\202\374 -\342\007\214\142\105\365\040\336\106\160\206\241\274\223\323\036 -\164\246\154\260\054\367\003\014\210\014\313\324\162\123\206\274 -\140\106\363\230\152\302\361\277\103\371\160\040\167\312\067\101 -\171\125\122\143\215\133\022\237\305\150\304\210\235\254\362\060 -\253\267\243\061\227\147\255\217\027\017\154\307\163\355\044\224 -\153\310\203\232\320\232\067\111\004\253\261\026\310\154\111\111 -\055\253\241\320\214\222\362\101\112\171\041\045\333\143\327\266 -\234\247\176\102\151\373\072\143\002\003\001\000\001\243\143\060 -\141\060\017\006\003\125\035\023\001\001\377\004\005\060\003\001 -\001\377\060\016\006\003\125\035\017\001\001\377\004\004\003\002 -\001\006\060\035\006\003\125\035\016\004\026\004\024\334\056\037 -\321\141\067\171\344\253\325\325\263\022\161\150\075\152\150\234 -\042\060\037\006\003\125\035\043\004\030\060\026\200\024\334\056 -\037\321\141\067\171\344\253\325\325\263\022\161\150\075\152\150 -\234\042\060\015\006\011\052\206\110\206\367\015\001\001\013\005 -\000\003\202\002\001\000\221\360\102\002\150\100\356\303\150\300 -\124\057\337\354\142\303\303\236\212\240\061\050\252\203\216\244 -\126\226\022\020\206\126\272\227\162\322\124\060\174\255\031\325 -\035\150\157\373\024\102\330\215\016\363\265\321\245\343\002\102 -\136\334\350\106\130\007\065\002\060\340\274\164\112\301\103\052 -\377\333\032\320\260\257\154\303\375\313\263\365\177\155\003\056 -\131\126\235\055\055\065\214\262\326\103\027\054\222\012\313\135 -\350\214\017\113\160\103\320\202\377\250\314\277\244\224\300\276 -\207\275\212\343\223\173\306\217\233\026\235\047\145\274\172\305 -\102\202\154\134\007\320\251\301\210\140\104\351\230\205\026\137 -\370\217\312\001\020\316\045\303\371\140\033\240\305\227\303\323 -\054\210\061\242\275\060\354\320\320\300\022\361\301\071\343\345 -\365\370\326\112\335\064\315\373\157\301\117\343\000\213\126\342 -\222\367\050\262\102\167\162\043\147\307\077\021\025\262\304\003 -\005\276\273\021\173\012\277\250\156\347\377\130\103\317\233\147 -\240\200\007\266\035\312\255\155\352\101\021\176\055\164\223\373 -\302\274\276\121\104\305\357\150\045\047\200\343\310\240\324\022 -\354\331\245\067\035\067\174\264\221\312\332\324\261\226\201\357 -\150\134\166\020\111\257\176\245\067\200\261\034\122\275\063\201 -\114\217\371\335\145\331\024\315\212\045\130\364\342\305\203\245 -\011\220\324\154\024\143\265\100\337\353\300\374\304\130\176\015 -\024\026\207\124\047\156\126\344\160\204\270\154\062\022\176\202 -\061\103\276\327\335\174\241\255\256\326\253\040\022\357\012\303 -\020\214\111\226\065\334\013\165\136\261\117\325\117\064\016\021 -\040\007\165\103\105\351\243\021\332\254\243\231\302\266\171\047 -\342\271\357\310\342\366\065\051\172\164\372\305\177\202\005\142 -\246\012\352\150\262\171\107\006\156\362\127\250\025\063\306\367 -\170\112\075\102\173\153\176\376\367\106\352\321\353\216\357\210 -\150\133\350\301\331\161\176\375\144\357\377\147\107\210\130\045 -\057\076\206\007\275\373\250\345\202\250\254\245\323\151\103\315 -\061\210\111\204\123\222\300\261\071\033\071\203\001\060\304\362 -\251\372\320\003\275\162\067\140\126\037\066\174\275\071\221\365 -\155\015\277\173\327\222 -END -CKA_NSS_MOZILLA_CA_POLICY CK_BBOOL CK_TRUE -# For Server Distrust After: Sun Jun 30 00:00:00 2024 -CKA_NSS_SERVER_DISTRUST_AFTER MULTILINE_OCTAL -\062\064\060\066\063\060\060\060\060\060\060\060\132 -END -# For Email Distrust After: Sun Jun 30 00:00:00 2024 -CKA_NSS_EMAIL_DISTRUST_AFTER MULTILINE_OCTAL -\062\064\060\066\063\060\060\060\060\060\060\060\132 -END - -# Trust for "GLOBALTRUST 2020" -# Issuer: CN=GLOBALTRUST 2020,O=e-commerce monitoring GmbH,C=AT -# Serial Number:5a:4b:bd:5a:fb:4f:8a:5b:fa:65:e5 -# Subject: CN=GLOBALTRUST 2020,O=e-commerce monitoring GmbH,C=AT -# Not Valid Before: Mon Feb 10 00:00:00 2020 -# Not Valid After : Sun Jun 10 00:00:00 2040 -# Fingerprint (SHA-256): 9A:29:6A:51:82:D1:D4:51:A2:E3:7F:43:9B:74:DA:AF:A2:67:52:33:29:F9:0F:9A:0D:20:07:C3:34:E2:3C:9A -# Fingerprint (SHA1): D0:67:C1:13:51:01:0C:AA:D0:C7:6A:65:37:31:16:26:4F:53:71:A2 -CKA_CLASS CK_OBJECT_CLASS CKO_NSS_TRUST -CKA_TOKEN CK_BBOOL CK_TRUE -CKA_PRIVATE CK_BBOOL CK_FALSE -CKA_MODIFIABLE CK_BBOOL CK_FALSE -CKA_LABEL UTF8 "GLOBALTRUST 2020" -CKA_CERT_SHA1_HASH MULTILINE_OCTAL -\320\147\301\023\121\001\014\252\320\307\152\145\067\061\026\046 -\117\123\161\242 -END -CKA_CERT_MD5_HASH MULTILINE_OCTAL -\212\307\157\313\155\343\314\242\361\174\203\372\016\170\327\350 -END -CKA_ISSUER MULTILINE_OCTAL -\060\115\061\013\060\011\006\003\125\004\006\023\002\101\124\061 -\043\060\041\006\003\125\004\012\023\032\145\055\143\157\155\155 -\145\162\143\145\040\155\157\156\151\164\157\162\151\156\147\040 -\107\155\142\110\061\031\060\027\006\003\125\004\003\023\020\107 -\114\117\102\101\114\124\122\125\123\124\040\062\060\062\060 -END -CKA_SERIAL_NUMBER MULTILINE_OCTAL -\002\013\132\113\275\132\373\117\212\133\372\145\345 -END -CKA_TRUST_SERVER_AUTH CK_TRUST CKT_NSS_TRUSTED_DELEGATOR -CKA_TRUST_EMAIL_PROTECTION CK_TRUST CKT_NSS_TRUSTED_DELEGATOR -CKA_TRUST_CODE_SIGNING CK_TRUST CKT_NSS_MUST_VERIFY_TRUST -CKA_TRUST_STEP_UP_APPROVED CK_BBOOL CK_FALSE - # # Certificate "ANF Secure Server Root CA" # @@ -18579,7 +16721,7 @@ CKA_SERIAL_NUMBER MULTILINE_OCTAL \002\015\002\003\345\176\365\077\223\375\245\011\041\262\246 END CKA_TRUST_SERVER_AUTH CK_TRUST CKT_NSS_TRUSTED_DELEGATOR -CKA_TRUST_EMAIL_PROTECTION CK_TRUST CKT_NSS_TRUSTED_DELEGATOR +CKA_TRUST_EMAIL_PROTECTION CK_TRUST CKT_NSS_MUST_VERIFY_TRUST CKA_TRUST_CODE_SIGNING CK_TRUST CKT_NSS_MUST_VERIFY_TRUST CKA_TRUST_STEP_UP_APPROVED CK_BBOOL CK_FALSE @@ -18740,7 +16882,7 @@ CKA_SERIAL_NUMBER MULTILINE_OCTAL \002\015\002\003\345\223\157\061\260\023\111\210\153\242\027 END CKA_TRUST_SERVER_AUTH CK_TRUST CKT_NSS_TRUSTED_DELEGATOR -CKA_TRUST_EMAIL_PROTECTION CK_TRUST CKT_NSS_TRUSTED_DELEGATOR +CKA_TRUST_EMAIL_PROTECTION CK_TRUST CKT_NSS_MUST_VERIFY_TRUST CKA_TRUST_CODE_SIGNING CK_TRUST CKT_NSS_MUST_VERIFY_TRUST CKA_TRUST_STEP_UP_APPROVED CK_BBOOL CK_FALSE @@ -18900,7 +17042,7 @@ END CKA_SERIAL_NUMBER MULTILINE_OCTAL \002\015\002\003\345\256\305\215\004\045\032\253\021\045\252 END -CKA_TRUST_SERVER_AUTH CK_TRUST CKT_NSS_TRUSTED_DELEGATOR +CKA_TRUST_SERVER_AUTH CK_TRUST CKT_NSS_MUST_VERIFY_TRUST CKA_TRUST_EMAIL_PROTECTION CK_TRUST CKT_NSS_TRUSTED_DELEGATOR CKA_TRUST_CODE_SIGNING CK_TRUST CKT_NSS_MUST_VERIFY_TRUST CKA_TRUST_STEP_UP_APPROVED CK_BBOOL CK_FALSE @@ -19009,7 +17151,7 @@ CKA_SERIAL_NUMBER MULTILINE_OCTAL \002\015\002\003\345\270\202\353\040\370\045\047\155\075\146 END CKA_TRUST_SERVER_AUTH CK_TRUST CKT_NSS_TRUSTED_DELEGATOR -CKA_TRUST_EMAIL_PROTECTION CK_TRUST CKT_NSS_TRUSTED_DELEGATOR +CKA_TRUST_EMAIL_PROTECTION CK_TRUST CKT_NSS_MUST_VERIFY_TRUST CKA_TRUST_CODE_SIGNING CK_TRUST CKT_NSS_MUST_VERIFY_TRUST CKA_TRUST_STEP_UP_APPROVED CK_BBOOL CK_FALSE @@ -19117,7 +17259,7 @@ CKA_SERIAL_NUMBER MULTILINE_OCTAL \002\015\002\003\345\300\150\357\143\032\234\162\220\120\122 END CKA_TRUST_SERVER_AUTH CK_TRUST CKT_NSS_TRUSTED_DELEGATOR -CKA_TRUST_EMAIL_PROTECTION CK_TRUST CKT_NSS_TRUSTED_DELEGATOR +CKA_TRUST_EMAIL_PROTECTION CK_TRUST CKT_NSS_MUST_VERIFY_TRUST CKA_TRUST_CODE_SIGNING CK_TRUST CKT_NSS_MUST_VERIFY_TRUST CKA_TRUST_STEP_UP_APPROVED CK_BBOOL CK_FALSE @@ -24070,129 +22212,6 @@ CKA_TRUST_EMAIL_PROTECTION CK_TRUST CKT_NSS_MUST_VERIFY_TRUST CKA_TRUST_CODE_SIGNING CK_TRUST CKT_NSS_MUST_VERIFY_TRUST CKA_TRUST_STEP_UP_APPROVED CK_BBOOL CK_FALSE -# -# Certificate "FIRMAPROFESIONAL CA ROOT-A WEB" -# -# Issuer: CN=FIRMAPROFESIONAL CA ROOT-A WEB,OID.2.5.4.97=VATES-A62634068,O=Firmaprofesional SA,C=ES -# Serial Number:31:97:21:ed:af:89:42:7f:35:41:87:a1:67:56:4c:6d -# Subject: CN=FIRMAPROFESIONAL CA ROOT-A WEB,OID.2.5.4.97=VATES-A62634068,O=Firmaprofesional SA,C=ES -# Not Valid Before: Wed Apr 06 09:01:36 2022 -# Not Valid After : Sun Mar 31 09:01:36 2047 -# Fingerprint (SHA-256): BE:F2:56:DA:F2:6E:9C:69:BD:EC:16:02:35:97:98:F3:CA:F7:18:21:A0:3E:01:82:57:C5:3C:65:61:7F:3D:4A -# Fingerprint (SHA1): A8:31:11:74:A6:14:15:0D:CA:77:DD:0E:E4:0C:5D:58:FC:A0:72:A5 -CKA_CLASS CK_OBJECT_CLASS CKO_CERTIFICATE -CKA_TOKEN CK_BBOOL CK_TRUE -CKA_PRIVATE CK_BBOOL CK_FALSE -CKA_MODIFIABLE CK_BBOOL CK_FALSE -CKA_LABEL UTF8 "FIRMAPROFESIONAL CA ROOT-A WEB" -CKA_CERTIFICATE_TYPE CK_CERTIFICATE_TYPE CKC_X_509 -CKA_SUBJECT MULTILINE_OCTAL -\060\156\061\013\060\011\006\003\125\004\006\023\002\105\123\061 -\034\060\032\006\003\125\004\012\014\023\106\151\162\155\141\160 -\162\157\146\145\163\151\157\156\141\154\040\123\101\061\030\060 -\026\006\003\125\004\141\014\017\126\101\124\105\123\055\101\066 -\062\066\063\064\060\066\070\061\047\060\045\006\003\125\004\003 -\014\036\106\111\122\115\101\120\122\117\106\105\123\111\117\116 -\101\114\040\103\101\040\122\117\117\124\055\101\040\127\105\102 -END -CKA_ID UTF8 "0" -CKA_ISSUER MULTILINE_OCTAL -\060\156\061\013\060\011\006\003\125\004\006\023\002\105\123\061 -\034\060\032\006\003\125\004\012\014\023\106\151\162\155\141\160 -\162\157\146\145\163\151\157\156\141\154\040\123\101\061\030\060 -\026\006\003\125\004\141\014\017\126\101\124\105\123\055\101\066 -\062\066\063\064\060\066\070\061\047\060\045\006\003\125\004\003 -\014\036\106\111\122\115\101\120\122\117\106\105\123\111\117\116 -\101\114\040\103\101\040\122\117\117\124\055\101\040\127\105\102 -END -CKA_SERIAL_NUMBER MULTILINE_OCTAL -\002\020\061\227\041\355\257\211\102\177\065\101\207\241\147\126 -\114\155 -END -CKA_VALUE MULTILINE_OCTAL -\060\202\002\172\060\202\002\000\240\003\002\001\002\002\020\061 -\227\041\355\257\211\102\177\065\101\207\241\147\126\114\155\060 -\012\006\010\052\206\110\316\075\004\003\003\060\156\061\013\060 -\011\006\003\125\004\006\023\002\105\123\061\034\060\032\006\003 -\125\004\012\014\023\106\151\162\155\141\160\162\157\146\145\163 -\151\157\156\141\154\040\123\101\061\030\060\026\006\003\125\004 -\141\014\017\126\101\124\105\123\055\101\066\062\066\063\064\060 -\066\070\061\047\060\045\006\003\125\004\003\014\036\106\111\122 -\115\101\120\122\117\106\105\123\111\117\116\101\114\040\103\101 -\040\122\117\117\124\055\101\040\127\105\102\060\036\027\015\062 -\062\060\064\060\066\060\071\060\061\063\066\132\027\015\064\067 -\060\063\063\061\060\071\060\061\063\066\132\060\156\061\013\060 -\011\006\003\125\004\006\023\002\105\123\061\034\060\032\006\003 -\125\004\012\014\023\106\151\162\155\141\160\162\157\146\145\163 -\151\157\156\141\154\040\123\101\061\030\060\026\006\003\125\004 -\141\014\017\126\101\124\105\123\055\101\066\062\066\063\064\060 -\066\070\061\047\060\045\006\003\125\004\003\014\036\106\111\122 -\115\101\120\122\117\106\105\123\111\117\116\101\114\040\103\101 -\040\122\117\117\124\055\101\040\127\105\102\060\166\060\020\006 -\007\052\206\110\316\075\002\001\006\005\053\201\004\000\042\003 -\142\000\004\107\123\352\054\021\244\167\307\052\352\363\326\137 -\173\323\004\221\134\372\210\306\042\271\203\020\142\167\204\063 -\055\351\003\210\324\340\063\367\355\167\054\112\140\352\344\157 -\255\155\264\370\114\212\244\344\037\312\352\117\070\112\056\202 -\163\053\307\146\233\012\214\100\234\174\212\366\362\071\140\262 -\336\313\354\270\344\157\352\233\135\267\123\220\030\062\125\305 -\040\267\224\243\143\060\141\060\017\006\003\125\035\023\001\001 -\377\004\005\060\003\001\001\377\060\037\006\003\125\035\043\004 -\030\060\026\200\024\223\341\103\143\134\074\235\326\047\363\122 -\354\027\262\251\257\054\367\166\370\060\035\006\003\125\035\016 -\004\026\004\024\223\341\103\143\134\074\235\326\047\363\122\354 -\027\262\251\257\054\367\166\370\060\016\006\003\125\035\017\001 -\001\377\004\004\003\002\001\006\060\012\006\010\052\206\110\316 -\075\004\003\003\003\150\000\060\145\002\060\035\174\244\173\303 -\211\165\063\341\073\251\105\277\106\351\351\241\335\311\042\026 -\267\107\021\013\330\232\272\361\310\013\160\120\123\002\221\160 -\205\131\251\036\244\346\352\043\061\240\000\002\061\000\375\342 -\370\263\257\026\271\036\163\304\226\343\301\060\031\330\176\346 -\303\227\336\034\117\270\211\057\063\353\110\017\031\367\207\106 -\135\046\220\245\205\305\271\172\224\076\207\250\275\000 -END -CKA_NSS_MOZILLA_CA_POLICY CK_BBOOL CK_TRUE -CKA_NSS_SERVER_DISTRUST_AFTER CK_BBOOL CK_FALSE -CKA_NSS_EMAIL_DISTRUST_AFTER CK_BBOOL CK_FALSE - -# Trust for "FIRMAPROFESIONAL CA ROOT-A WEB" -# Issuer: CN=FIRMAPROFESIONAL CA ROOT-A WEB,OID.2.5.4.97=VATES-A62634068,O=Firmaprofesional SA,C=ES -# Serial Number:31:97:21:ed:af:89:42:7f:35:41:87:a1:67:56:4c:6d -# Subject: CN=FIRMAPROFESIONAL CA ROOT-A WEB,OID.2.5.4.97=VATES-A62634068,O=Firmaprofesional SA,C=ES -# Not Valid Before: Wed Apr 06 09:01:36 2022 -# Not Valid After : Sun Mar 31 09:01:36 2047 -# Fingerprint (SHA-256): BE:F2:56:DA:F2:6E:9C:69:BD:EC:16:02:35:97:98:F3:CA:F7:18:21:A0:3E:01:82:57:C5:3C:65:61:7F:3D:4A -# Fingerprint (SHA1): A8:31:11:74:A6:14:15:0D:CA:77:DD:0E:E4:0C:5D:58:FC:A0:72:A5 -CKA_CLASS CK_OBJECT_CLASS CKO_NSS_TRUST -CKA_TOKEN CK_BBOOL CK_TRUE -CKA_PRIVATE CK_BBOOL CK_FALSE -CKA_MODIFIABLE CK_BBOOL CK_FALSE -CKA_LABEL UTF8 "FIRMAPROFESIONAL CA ROOT-A WEB" -CKA_CERT_SHA1_HASH MULTILINE_OCTAL -\250\061\021\164\246\024\025\015\312\167\335\016\344\014\135\130 -\374\240\162\245 -END -CKA_CERT_MD5_HASH MULTILINE_OCTAL -\202\262\255\105\000\202\260\146\143\370\137\303\147\116\316\243 -END -CKA_ISSUER MULTILINE_OCTAL -\060\156\061\013\060\011\006\003\125\004\006\023\002\105\123\061 -\034\060\032\006\003\125\004\012\014\023\106\151\162\155\141\160 -\162\157\146\145\163\151\157\156\141\154\040\123\101\061\030\060 -\026\006\003\125\004\141\014\017\126\101\124\105\123\055\101\066 -\062\066\063\064\060\066\070\061\047\060\045\006\003\125\004\003 -\014\036\106\111\122\115\101\120\122\117\106\105\123\111\117\116 -\101\114\040\103\101\040\122\117\117\124\055\101\040\127\105\102 -END -CKA_SERIAL_NUMBER MULTILINE_OCTAL -\002\020\061\227\041\355\257\211\102\177\065\101\207\241\147\126 -\114\155 -END -CKA_TRUST_SERVER_AUTH CK_TRUST CKT_NSS_TRUSTED_DELEGATOR -CKA_TRUST_EMAIL_PROTECTION CK_TRUST CKT_NSS_MUST_VERIFY_TRUST -CKA_TRUST_CODE_SIGNING CK_TRUST CKT_NSS_MUST_VERIFY_TRUST -CKA_TRUST_STEP_UP_APPROVED CK_BBOOL CK_FALSE - # # Certificate "TWCA CYBER Root CA" # diff --git a/tools/clang-format/package-lock.json b/tools/clang-format/package-lock.json index 3f5dab7088f3d8..5d03eb31fde171 100644 --- a/tools/clang-format/package-lock.json +++ b/tools/clang-format/package-lock.json @@ -23,10 +23,9 @@ "integrity": "sha512-3oSeUO0TMV67hN1AmbXsK4yaqU7tjiHlbxRDZOpH0KW9+CeX4bRAaX0Anxt0tx2MrpRpWwQaPwIlISEJhYU5Pw==" }, "node_modules/brace-expansion": { - "version": "1.1.12", - "resolved": "https://registry.npmjs.org/brace-expansion/-/brace-expansion-1.1.12.tgz", - "integrity": "sha512-9T9UjW3r0UW5c1Q7GTwllptXwhvYmEzFhzMfZ9H7FQWt+uZePjZPjBP/W1ZEyZ1twGWom5/56TF4lPcqjnDHcg==", - "license": "MIT", + "version": "1.1.13", + "resolved": "https://registry.npmjs.org/brace-expansion/-/brace-expansion-1.1.13.tgz", + "integrity": "sha512-9ZLprWS6EENmhEOpjCYW2c8VkmOvckIJZfkr7rBW6dObmfgJ/L1GpSYW5Hpo9lDz4D1+n0Ckz8rU7FwHDQiG/w==", "dependencies": { "balanced-match": "^1.0.0", "concat-map": "0.0.1" @@ -118,9 +117,9 @@ } }, "node_modules/minimatch": { - "version": "3.1.2", - "resolved": "https://registry.npmjs.org/minimatch/-/minimatch-3.1.2.tgz", - "integrity": "sha512-J7p63hRiAjw1NDEww1W7i37+ByIrOWO5XQQAzZ3VOcL0PNybwpfmV/N05zFAzwQ9USyEcX6t3UO+K5aqBQOIHw==", + "version": "3.1.5", + "resolved": "https://registry.npmjs.org/minimatch/-/minimatch-3.1.5.tgz", + "integrity": "sha512-VgjWUsnnT6n+NUk6eZq77zeFdpW2LWDzP6zFGrCbHXiYNul5Dzqk2HHQ5uFH2DNW5Xbp8+jVzaeNt94ssEEl4w==", "dependencies": { "brace-expansion": "^1.1.7" }, @@ -194,9 +193,9 @@ "integrity": "sha512-3oSeUO0TMV67hN1AmbXsK4yaqU7tjiHlbxRDZOpH0KW9+CeX4bRAaX0Anxt0tx2MrpRpWwQaPwIlISEJhYU5Pw==" }, "brace-expansion": { - "version": "1.1.12", - "resolved": "https://registry.npmjs.org/brace-expansion/-/brace-expansion-1.1.12.tgz", - "integrity": "sha512-9T9UjW3r0UW5c1Q7GTwllptXwhvYmEzFhzMfZ9H7FQWt+uZePjZPjBP/W1ZEyZ1twGWom5/56TF4lPcqjnDHcg==", + "version": "1.1.13", + "resolved": "https://registry.npmjs.org/brace-expansion/-/brace-expansion-1.1.13.tgz", + "integrity": "sha512-9ZLprWS6EENmhEOpjCYW2c8VkmOvckIJZfkr7rBW6dObmfgJ/L1GpSYW5Hpo9lDz4D1+n0Ckz8rU7FwHDQiG/w==", "requires": { "balanced-match": "^1.0.0", "concat-map": "0.0.1" @@ -271,9 +270,9 @@ } }, "minimatch": { - "version": "3.1.2", - "resolved": "https://registry.npmjs.org/minimatch/-/minimatch-3.1.2.tgz", - "integrity": "sha512-J7p63hRiAjw1NDEww1W7i37+ByIrOWO5XQQAzZ3VOcL0PNybwpfmV/N05zFAzwQ9USyEcX6t3UO+K5aqBQOIHw==", + "version": "3.1.5", + "resolved": "https://registry.npmjs.org/minimatch/-/minimatch-3.1.5.tgz", + "integrity": "sha512-VgjWUsnnT6n+NUk6eZq77zeFdpW2LWDzP6zFGrCbHXiYNul5Dzqk2HHQ5uFH2DNW5Xbp8+jVzaeNt94ssEEl4w==", "requires": { "brace-expansion": "^1.1.7" } diff --git a/tools/dep_updaters/update-inspector-protocol.sh b/tools/dep_updaters/update-inspector-protocol.sh new file mode 100755 index 00000000000000..8637647b23fcb1 --- /dev/null +++ b/tools/dep_updaters/update-inspector-protocol.sh @@ -0,0 +1,45 @@ +#!/bin/sh +set -e +# Shell script to update inspector_protocol in the source tree to the version same with V8's. + +BASE_DIR=$(cd "$(dirname "$0")/../.." && pwd) +DEPS_DIR="$BASE_DIR/deps" + +# shellcheck disable=SC1091 +. "$BASE_DIR/tools/dep_updaters/utils.sh" + +echo "Making temporary workspace..." + +WORKSPACE=$(mktemp -d 2> /dev/null || mktemp -d -t 'tmp') + +cd "$WORKSPACE" + +git clone https://chromium.googlesource.com/deps/inspector_protocol.git + +INSPECTOR_PROTOCOL_DIR="$WORKSPACE/inspector_protocol" + +echo "Comparing latest upstream with current revision" + +set +e +python "$BASE_DIR/tools/inspector_protocol/roll.py" \ + --ip_src_upstream "$INSPECTOR_PROTOCOL_DIR" \ + --node_src_downstream "$BASE_DIR" +STATUS="$?" +set -e + +if [ "$STATUS" = "0" ]; then + echo "Skipped because inspector_protocol is on the latest version." + exit 0 +fi + +python "$BASE_DIR/tools/inspector_protocol/roll.py" \ + --ip_src_upstream "$INSPECTOR_PROTOCOL_DIR" \ + --node_src_downstream "$BASE_DIR" \ + --force + +NEW_VERSION=$(grep "Revision:" "$DEPS_DIR/inspector_protocol/README.node" | sed -n 's/^Revision: \([[:xdigit:]]\{36\}\).*$/\1/p') + +# Update the version number on maintaining-dependencies.md +# and print the new version as the last line of the script as we need +# to add it to $GITHUB_ENV variable +finalize_version_update "inspector_protocol" "$NEW_VERSION" diff --git a/tools/dep_updaters/update-test426-fixtures.sh b/tools/dep_updaters/update-test426-fixtures.sh new file mode 100755 index 00000000000000..e9cca0dfac815e --- /dev/null +++ b/tools/dep_updaters/update-test426-fixtures.sh @@ -0,0 +1,36 @@ +#!/bin/sh + +set -ex + +BASE_DIR=$(cd "$(dirname "$0")/../.." && pwd) + +TARGET_DIR="$BASE_DIR/test/fixtures/test426" +README="$BASE_DIR/test/test426/README.md" + +CURRENT_SHA=$(sed -n 's#^.*https://github.com/tc39/source-map-tests/commit/\([0-9a-f]*\).*$#\1#p' "$README") + +if [ -z "$CURRENT_SHA" ]; then + echo "Could not find source-map-tests commit marker in $README" >&2 + exit 1 +fi + +TARBALL_URL=$(curl -fsIo /dev/null -w '%header{Location}' https://github.com/tc39/source-map-tests/archive/HEAD.tar.gz) +SHA=$(basename "$TARBALL_URL") + +# shellcheck disable=SC1091 +. "$BASE_DIR/tools/dep_updaters/utils.sh" + +compare_dependency_version "test426-fixtures" "$CURRENT_SHA" "$SHA" + +rm -rf "$TARGET_DIR" +mkdir "$TARGET_DIR" +curl -f "$TARBALL_URL" | tar -xz --strip-components 1 -C "$TARGET_DIR" + +TMP_FILE=$(mktemp) +sed "s/$CURRENT_SHA/$SHA/" "$README" > "$TMP_FILE" +mv "$TMP_FILE" "$README" + +# The last line of the script should always print the new version, +# as we need to add it to $GITHUB_ENV variable. +NEW_VERSION=$(echo "$SHA" | head -c 39) +echo "NEW_VERSION=$NEW_VERSION" diff --git a/tools/update-timezone.mjs b/tools/dep_updaters/update-timezone.mjs similarity index 96% rename from tools/update-timezone.mjs rename to tools/dep_updaters/update-timezone.mjs index bf3a706bdb0684..5462c1e2172f37 100755 --- a/tools/update-timezone.mjs +++ b/tools/dep_updaters/update-timezone.mjs @@ -1,5 +1,5 @@ #!/usr/bin/env node -// Usage: tools/update-timezone.mjs + import { execSync } from 'node:child_process'; import { renameSync, readdirSync, rmSync } from 'node:fs'; diff --git a/tools/dep_updaters/update-undici.sh b/tools/dep_updaters/update-undici.sh index 00d82499c649b7..1946308f813cb1 100755 --- a/tools/dep_updaters/update-undici.sh +++ b/tools/dep_updaters/update-undici.sh @@ -5,7 +5,7 @@ # This script must be in the tools directory when it runs because it uses the # script source file path to determine directories to work in. -set -e +set -ex ROOT=$(cd "$(dirname "$0")/../.." && pwd) DEPS_DIR="$ROOT/deps" @@ -36,29 +36,24 @@ compare_dependency_version "undici" "$NEW_VERSION" "$CURRENT_VERSION" rm -rf deps/undici/src rm -f deps/undici/undici.js -WORKSPACE=$(mktemp -d 2> /dev/null || mktemp -d -t 'tmp') -echo "$WORKSPACE" +TARBALL=$(mktemp 2> /dev/null || mktemp -t 'tmp') + cleanup () { EXIT_CODE=$? - [ -d "$WORKSPACE" ] && rm -rf "$WORKSPACE" + [ -e "$TARBALL" ] && rm "$TARBALL" exit $EXIT_CODE } trap cleanup INT TERM EXIT -UNDICI_ZIP="undici-$NEW_VERSION" -cd "$WORKSPACE" - echo "Fetching UNDICI source archive..." -curl -sL -o "$UNDICI_ZIP.zip" "https://github.com/nodejs/undici/archive/refs/tags/v$NEW_VERSION.zip" +curl -fsSLo "$TARBALL" "https://github.com/nodejs/undici/archive/refs/tags/v$NEW_VERSION.tar.gz" -log_and_verify_sha256sum "undici" "$UNDICI_ZIP.zip" +log_and_verify_sha256sum "undici" "$TARBALL" echo "Unzipping..." -unzip "$UNDICI_ZIP.zip" -d "src" -mv "src/$UNDICI_ZIP" "$DEPS_DIR/undici/src" -rm "$UNDICI_ZIP.zip" -cd "$ROOT" +tar -xzf "$TARBALL" -C "$DEPS_DIR/undici" +mv "$DEPS_DIR/undici"/undici-* "$DEPS_DIR/undici/src" ( cd "$DEPS_DIR/undici/src" @@ -92,8 +87,8 @@ cat > "$ROOT/src/undici_version.h" < + node.parent?.type === 'CallExpression' && + node.parent.callee.type === 'MemberExpression' && + node.parent.callee.object.type === 'Identifier' && node.parent.callee.object.name === 'Promise' && + node.parent.callee.property.type === 'Identifier' && node.parent.callee.property.name === 'all' && + node.parent.arguments.length === 1 && node.parent.arguments[0] === node; + function findEnclosingFunction(node) { while (true) { node = node.parent; @@ -20,10 +27,20 @@ function findEnclosingFunction(node) { if ( node.parent.callee.type === 'MemberExpression' && (node.parent.callee.object.type === 'ArrayExpression' || node.parent.callee.object.type === 'Identifier') && - node.parent.callee.property.name === 'forEach' + ( + node.parent.callee.property.name === 'forEach' || + (node.parent.callee.property.name === 'map' && isPromiseAllCallArg(node.parent)) + ) ) continue; // `[].forEach()` call } else if (node.parent?.type === 'NewExpression') { if (node.parent.callee.type === 'Identifier' && node.parent.callee.name === 'Promise') continue; + } else if (node.parent?.type === 'Property') { + const ancestor = node.parent.parent?.parent; + if (ancestor?.type === 'CallExpression' && + ancestor.callee.type === 'Identifier' && + /^spawnSyncAnd(Exit(WithoutError)?|Assert)$/.test(ancestor.callee.name)) { + continue; + } } break; } @@ -31,7 +48,7 @@ function findEnclosingFunction(node) { } function isMustCallOrMustCallAtLeast(str) { - return str === 'mustCall' || str === 'mustCallAtLeast'; + return str === 'mustCall' || str === 'mustCallAtLeast' || str === 'mustSucceed'; } function isMustCallOrTest(str) { @@ -68,6 +85,7 @@ module.exports = { parent.arguments[0].type === 'Literal' && parent.arguments[0].value === 'exit' ), + t: (name) => name === 'test', // t.test }[parent.callee.object.name]?.(parent.callee.property.name) ) { return; diff --git a/tools/eslint/package-lock.json b/tools/eslint/package-lock.json index 93feeda6bba270..5e2c32ffcd3f6a 100644 --- a/tools/eslint/package-lock.json +++ b/tools/eslint/package-lock.json @@ -1284,9 +1284,9 @@ } }, "node_modules/flatted": { - "version": "3.3.3", - "resolved": "https://registry.npmjs.org/flatted/-/flatted-3.3.3.tgz", - "integrity": "sha512-GX+ysw4PBCz0PzosHDepZGANEuFCMLrnRTiEy9McGjmkCQYwRq4A/X786G/fjM/+OjsWSU1ZrY5qyARZmO/uwg==", + "version": "3.4.1", + "resolved": "https://registry.npmjs.org/flatted/-/flatted-3.4.1.tgz", + "integrity": "sha512-IxfVbRFVlV8V/yRaGzk0UVIcsKKHMSfYw66T/u4nTwlWteQePsxe//LjudR1AMX4tZW3WFCh3Zqa/sjlqpbURQ==", "license": "ISC" }, "node_modules/gensync": { @@ -1603,9 +1603,9 @@ } }, "node_modules/minimatch": { - "version": "3.1.2", - "resolved": "https://registry.npmjs.org/minimatch/-/minimatch-3.1.2.tgz", - "integrity": "sha512-J7p63hRiAjw1NDEww1W7i37+ByIrOWO5XQQAzZ3VOcL0PNybwpfmV/N05zFAzwQ9USyEcX6t3UO+K5aqBQOIHw==", + "version": "3.1.3", + "resolved": "https://registry.npmjs.org/minimatch/-/minimatch-3.1.3.tgz", + "integrity": "sha512-M2GCs7Vk83NxkUyQV1bkABc4yxgz9kILhHImZiBPAZ9ybuvCb0/H7lEl5XvIg3g+9d4eNotkZA5IWwYl0tibaA==", "license": "ISC", "dependencies": { "brace-expansion": "^1.1.7" diff --git a/tools/generate_config_gypi.py b/tools/generate_config_gypi.py index abd11e1dbda8d4..436767e633e1f4 100755 --- a/tools/generate_config_gypi.py +++ b/tools/generate_config_gypi.py @@ -58,7 +58,7 @@ def translate_config(out_dir, config, v8_config): 'llvm_version': 13, 'napi_build_version': config['napi_build_version'], 'node_builtin_shareable_builtins': - eval(config['node_builtin_shareable_builtins']), + json.loads(config['node_builtin_shareable_builtins']), 'node_module_version': int(config['node_module_version']), 'node_use_openssl': config['node_use_openssl'], 'node_use_amaro': config['node_use_amaro'], @@ -102,7 +102,8 @@ def main(): # Write output. with open(args.target, 'w') as f: - f.write(repr(translate_config(args.out_dir, config, v8_config))) + f.write(json.dumps(translate_config(args.out_dir, config, v8_config), + sort_keys=True)) # Write depfile. Force regenerating config.gypi when GN configs change. if args.dep_file: diff --git a/tools/gyp/.gitignore b/tools/gyp/.gitignore index 5f71dbd435dbf4..dcf3cb43ea7ab5 100644 --- a/tools/gyp/.gitignore +++ b/tools/gyp/.gitignore @@ -144,3 +144,7 @@ static test/fixtures/out *.actual +*.sln +*.vcproj +!test/fixtures/expected-win32/**/*.sln +!test/fixtures/expected-win32/**/*.vcproj diff --git a/tools/gyp/CHANGELOG.md b/tools/gyp/CHANGELOG.md index 9a1468544752c1..c6686c4784a757 100644 --- a/tools/gyp/CHANGELOG.md +++ b/tools/gyp/CHANGELOG.md @@ -1,5 +1,31 @@ # Changelog +## [0.22.2](https://github.com/nodejs/gyp-next/compare/v0.22.1...v0.22.2) (2026-04-22) + + +### Bug Fixes + +* **build:** Use SPDX license expression ([#310](https://github.com/nodejs/gyp-next/issues/310)) ([ce0da4a](https://github.com/nodejs/gyp-next/commit/ce0da4a6dc1068b73e55e6a58a236bf69f2fed4d)) + +## [0.22.1](https://github.com/nodejs/gyp-next/compare/v0.22.0...v0.22.1) (2026-04-21) + + +### Bug Fixes + +* use floor division when escaping command-line arguments ([#338](https://github.com/nodejs/gyp-next/issues/338)) ([cadca24](https://github.com/nodejs/gyp-next/commit/cadca2416dc13e117e035ad6dd2b471a86d0430f)) + +## [0.22.0](https://github.com/nodejs/gyp-next/compare/v0.21.1...v0.22.0) (2026-04-02) + + +### Features + +* Windows ARM64 target architecture support ([#331](https://github.com/nodejs/gyp-next/issues/331)) ([652a346](https://github.com/nodejs/gyp-next/commit/652a346bbd3b077a4b08a3c37d48100ce200758a)) + + +### Bug Fixes + +* drop deprecated Python module pkg_resources ([#333](https://github.com/nodejs/gyp-next/issues/333)) ([5b180d5](https://github.com/nodejs/gyp-next/commit/5b180d52d03aff062bdea1ad0209b82271c7eb4a)) + ## [0.21.1](https://github.com/nodejs/gyp-next/compare/v0.21.0...v0.21.1) (2026-01-24) diff --git a/tools/gyp/pylib/gyp/MSVSVersion.py b/tools/gyp/pylib/gyp/MSVSVersion.py index 2d8e4ceab9a94c..02e6e7ed9209cf 100644 --- a/tools/gyp/pylib/gyp/MSVSVersion.py +++ b/tools/gyp/pylib/gyp/MSVSVersion.py @@ -87,7 +87,7 @@ def DefaultToolset(self): def _SetupScriptInternal(self, target_arch): """Returns a command (with arguments) to be used to set up the environment.""" - assert target_arch in ("x86", "x64"), "target_arch not supported" + assert target_arch in ("x86", "x64", "arm64"), "target_arch not supported" # If WindowsSDKDir is set and SetEnv.Cmd exists then we are using the # depot_tools build tools and should run SetEnv.Cmd to set up the # environment. The check for WindowsSDKDir alone is not sufficient because @@ -109,8 +109,16 @@ def _SetupScriptInternal(self, target_arch): ) # Always use a native executable, cross-compiling if necessary. - host_arch = "amd64" if is_host_arch_x64 else "x86" - msvc_target_arch = "amd64" if target_arch == "x64" else "x86" + host_arch = ( + "amd64" + if is_host_arch_x64 + else ( + "arm64" + if os.environ.get("PROCESSOR_ARCHITECTURE") == "ARM64" + else "x86" + ) + ) + msvc_target_arch = {"x64": "amd64"}.get(target_arch, target_arch) arg = host_arch if host_arch != msvc_target_arch: arg += "_" + msvc_target_arch diff --git a/tools/gyp/pylib/gyp/__init__.py b/tools/gyp/pylib/gyp/__init__.py index 3a70cf076c8b47..c0a2637e94770f 100755 --- a/tools/gyp/pylib/gyp/__init__.py +++ b/tools/gyp/pylib/gyp/__init__.py @@ -13,6 +13,7 @@ import shlex import sys import traceback +from importlib.metadata import version import gyp.input from gyp.common import GypError @@ -491,9 +492,7 @@ def gyp_main(args): options, build_files_arg = parser.parse_args(args) if options.version: - import pkg_resources # noqa: PLC0415 - - print(f"v{pkg_resources.get_distribution('gyp-next').version}") + print(f"v{version('gyp-next')}") return 0 build_files = build_files_arg diff --git a/tools/gyp/pylib/gyp/generator/msvs.py b/tools/gyp/pylib/gyp/generator/msvs.py index 0f14c055049add..42bee33d9b63d8 100644 --- a/tools/gyp/pylib/gyp/generator/msvs.py +++ b/tools/gyp/pylib/gyp/generator/msvs.py @@ -857,7 +857,7 @@ def _EscapeCommandLineArgumentForMSBuild(s): """Escapes a Windows command-line argument for use by MSBuild.""" def _Replace(match): - return (len(match.group(1)) / 2 * 4) * "\\" + '\\"' + return (len(match.group(1)) // 2 * 4) * "\\" + '\\"' # Escape all quotes so that they are interpreted literally. s = quote_replacer_regex2.sub(_Replace, s) diff --git a/tools/gyp/pylib/gyp/generator/ninja.py b/tools/gyp/pylib/gyp/generator/ninja.py index 4eac6cdb2707d7..3ceaf470cec203 100644 --- a/tools/gyp/pylib/gyp/generator/ninja.py +++ b/tools/gyp/pylib/gyp/generator/ninja.py @@ -246,7 +246,7 @@ def __init__( if flavor == "win": # See docstring of msvs_emulation.GenerateEnvironmentFiles(). self.win_env = {} - for arch in ("x86", "x64"): + for arch in ("x86", "x64", "arm64"): self.win_env[arch] = "environment." + arch # Relative path from build output dir to base dir. @@ -2339,6 +2339,7 @@ def GenerateOutputForConfig(target_list, target_dicts, data, params, config_name master_ninja.variable("rc", "rc.exe") master_ninja.variable("ml_x86", "ml.exe") master_ninja.variable("ml_x64", "ml64.exe") + master_ninja.variable("ml_arm64", "armasm64.exe") master_ninja.variable("mt", "mt.exe") else: master_ninja.variable("ld", CommandWithWrapper("LINK", wrappers, ld)) diff --git a/tools/gyp/pylib/gyp/generator/ninja_test.py b/tools/gyp/pylib/gyp/generator/ninja_test.py index 616bc7aaf015a2..8b590af8eb3861 100644 --- a/tools/gyp/pylib/gyp/generator/ninja_test.py +++ b/tools/gyp/pylib/gyp/generator/ninja_test.py @@ -11,26 +11,36 @@ from pathlib import Path from gyp.generator import ninja +from gyp.MSVSVersion import SelectVisualStudioVersion + + +def _has_visual_studio(): + """Check if Visual Studio can be detected by gyp's registry-based detection.""" + if not sys.platform.startswith("win"): + return False + try: + SelectVisualStudioVersion("auto", allow_fallback=False) + return True + except ValueError: + return False class TestPrefixesAndSuffixes(unittest.TestCase): + @unittest.skipUnless( + _has_visual_studio(), + "requires Windows with a Visual Studio installation detected via the registry", + ) def test_BinaryNamesWindows(self): - # These cannot run on non-Windows as they require a VS installation to - # correctly handle variable expansion. - if sys.platform.startswith("win"): - writer = ninja.NinjaWriter( - "foo", "wee", ".", ".", "build.ninja", ".", "build.ninja", "win" - ) - spec = {"target_name": "wee"} - self.assertTrue( - writer.ComputeOutputFileName(spec, "executable").endswith(".exe") - ) - self.assertTrue( - writer.ComputeOutputFileName(spec, "shared_library").endswith(".dll") - ) - self.assertTrue( - writer.ComputeOutputFileName(spec, "static_library").endswith(".lib") - ) + writer = ninja.NinjaWriter( + "foo", "wee", ".", ".", "build.ninja", ".", "build.ninja", "win" + ) + spec = {"target_name": "wee"} + for key, ext in { + "executable": ".exe", + "shared_library": ".dll", + "static_library": ".lib", + }.items(): + self.assertTrue(writer.ComputeOutputFileName(spec, key).endswith(ext)) def test_BinaryNamesLinux(self): writer = ninja.NinjaWriter( diff --git a/tools/gyp/pylib/gyp/mac_tool.py b/tools/gyp/pylib/gyp/mac_tool.py index 3710178e110ae5..4c38f0586c4c28 100755 --- a/tools/gyp/pylib/gyp/mac_tool.py +++ b/tools/gyp/pylib/gyp/mac_tool.py @@ -545,7 +545,7 @@ def _FindProvisioningProfile(self, profile, bundle_identifier): # If the user has multiple provisioning profiles installed that can be # used for ${bundle_identifier}, pick the most specific one (ie. the # provisioning profile whose pattern is the longest). - selected_key = max(valid_provisioning_profiles, key=lambda v: len(v)) + selected_key = max(valid_provisioning_profiles, key=len) return valid_provisioning_profiles[selected_key] def _LoadProvisioningProfile(self, profile_path): diff --git a/tools/gyp/pylib/gyp/msvs_emulation.py b/tools/gyp/pylib/gyp/msvs_emulation.py index 7c461a8fdf72d8..f1c1581981e3dd 100644 --- a/tools/gyp/pylib/gyp/msvs_emulation.py +++ b/tools/gyp/pylib/gyp/msvs_emulation.py @@ -1174,7 +1174,7 @@ def GenerateEnvironmentFiles( meet your requirement (e.g. for custom toolchains), you can pass "-G ninja_use_custom_environment_files" to the gyp to suppress file generation and use custom environment files prepared by yourself.""" - archs = ("x86", "x64") + archs = ("x86", "x64", "arm64") if generator_flags.get("ninja_use_custom_environment_files", 0): cl_paths = {} for arch in archs: diff --git a/tools/gyp/pylib/gyp/simple_copy.py b/tools/gyp/pylib/gyp/simple_copy.py index 8b026642fc5ef0..2b9100f3e1ba80 100644 --- a/tools/gyp/pylib/gyp/simple_copy.py +++ b/tools/gyp/pylib/gyp/simple_copy.py @@ -24,8 +24,8 @@ def deepcopy(x): return _deepcopy_dispatch[type(x)](x) except KeyError: raise Error( - "Unsupported type %s for deepcopy. Use copy.deepcopy " - + "or expand simple_copy support." % type(x) + f"Unsupported type {type(x)} for deepcopy. Use copy.deepcopy " + + "or expand simple_copy support." ) diff --git a/tools/gyp/pylib/packaging/metadata.py b/tools/gyp/pylib/packaging/metadata.py index 43f5c5b30df979..38fa645b4c950b 100644 --- a/tools/gyp/pylib/packaging/metadata.py +++ b/tools/gyp/pylib/packaging/metadata.py @@ -21,27 +21,10 @@ from . import requirements, specifiers, utils, version as version_module T = typing.TypeVar("T") -if sys.version_info[:2] >= (3, 8): # pragma: no cover - from typing import Literal, TypedDict -else: # pragma: no cover - if typing.TYPE_CHECKING: - from typing_extensions import Literal, TypedDict - else: - try: - from typing_extensions import Literal, TypedDict - except ImportError: - - class Literal: - def __init_subclass__(*_args, **_kwargs): - pass - - class TypedDict: - def __init_subclass__(*_args, **_kwargs): - pass - +from typing import Literal, TypedDict try: - ExceptionGroup + ExceptionGroup # Added in Python 3.11+ except NameError: # pragma: no cover class ExceptionGroup(Exception): # noqa: N818 @@ -504,7 +487,7 @@ def __set_name__(self, _owner: "Metadata", name: str) -> None: self.raw_name = _RAW_TO_EMAIL_MAPPING[name] def __get__(self, instance: "Metadata", _owner: Type["Metadata"]) -> T: - # With Python 3.8, the caching can be replaced with functools.cached_property(). + # With Python 3.8+, the caching can be replaced with functools.cached_property(). # No need to check the cache as attribute lookup will resolve into the # instance's __dict__ before __get__ is called. cache = instance.__dict__ diff --git a/tools/gyp/pylib/packaging/tags.py b/tools/gyp/pylib/packaging/tags.py index 37f33b1ef849ed..f1da2b96d39c1c 100644 --- a/tools/gyp/pylib/packaging/tags.py +++ b/tools/gyp/pylib/packaging/tags.py @@ -127,10 +127,8 @@ def _normalize_string(string: str) -> str: def _abi3_applies(python_version: PythonVersion) -> bool: """ Determine if the Python version supports abi3. - - PEP 384 was first implemented in Python 3.2. """ - return len(python_version) > 1 and tuple(python_version) >= (3, 2) + return len(python_version) > 1 def _cpython_abis(py_version: PythonVersion, warn: bool = False) -> List[str]: @@ -146,17 +144,7 @@ def _cpython_abis(py_version: PythonVersion, warn: bool = False) -> List[str]: has_ext = "_d.pyd" in EXTENSION_SUFFIXES if with_debug or (with_debug is None and (has_refcount or has_ext)): debug = "d" - if py_version < (3, 8): - with_pymalloc = _get_config_var("WITH_PYMALLOC", warn) - if with_pymalloc or with_pymalloc is None: - pymalloc = "m" - if py_version < (3, 3): - unicode_size = _get_config_var("Py_UNICODE_SIZE", warn) - if unicode_size == 4 or ( - unicode_size is None and sys.maxunicode == 0x10FFFF - ): - ucs4 = "u" - elif debug: + if debug: # Debug builds can also load "normal" extension modules. # We can also assume no UCS-4 or pymalloc requirement. abis.append(f"cp{version}") diff --git a/tools/gyp/pyproject.toml b/tools/gyp/pyproject.toml index fa30c8cf96da6f..487cb75002d2e4 100644 --- a/tools/gyp/pyproject.toml +++ b/tools/gyp/pyproject.toml @@ -4,27 +4,29 @@ build-backend = "setuptools.build_meta" [project] name = "gyp-next" -version = "0.21.1" +version = "0.22.2" authors = [ { name="Node.js contributors", email="ryzokuken@disroot.org" }, ] description = "A fork of the GYP build system for use in the Node.js projects" readme = "README.md" -license = { file="LICENSE" } -requires-python = ">=3.8" -dependencies = ["packaging>=24.0", "setuptools>=69.5.1"] +license = "BSD-3-Clause" +license-files = ["LICENSE"] +requires-python = ">=3.9" +dependencies = ["packaging>=24.0", "setuptools>=77.0.3"] classifiers = [ "Development Status :: 3 - Alpha", "Environment :: Console", "Intended Audience :: Developers", - "License :: OSI Approved :: BSD License", "Natural Language :: English", "Programming Language :: Python", "Programming Language :: Python :: 3", - "Programming Language :: Python :: 3.8", "Programming Language :: Python :: 3.9", "Programming Language :: Python :: 3.10", "Programming Language :: Python :: 3.11", + "Programming Language :: Python :: 3.12", + "Programming Language :: Python :: 3.13", + "Programming Language :: Python :: 3.14", ] [project.optional-dependencies] diff --git a/tools/gyp/test/fixtures/expected-win32/msvs/integration.sln b/tools/gyp/test/fixtures/expected-win32/msvs/integration.sln new file mode 100644 index 00000000000000..276e0693118e33 --- /dev/null +++ b/tools/gyp/test/fixtures/expected-win32/msvs/integration.sln @@ -0,0 +1,16 @@ +Microsoft Visual Studio Solution File, Format Version 9.00 +# Visual Studio 2005 +Project("{*}") = "test", "test.vcproj", "{*}" +EndProject +Global + GlobalSection(SolutionConfigurationPlatforms) = preSolution + Default|Win32 = Default|Win32 + EndGlobalSection + GlobalSection(ProjectConfigurationPlatforms) = postSolution + {*}.Default|Win32.ActiveCfg = Default|Win32 + {*}.Default|Win32.Build.0 = Default|Win32 + EndGlobalSection + GlobalSection(SolutionProperties) = preSolution + HideSolutionNode = FALSE + EndGlobalSection +EndGlobal diff --git a/tools/gyp/test/fixtures/expected-win32/msvs/test.vcproj b/tools/gyp/test/fixtures/expected-win32/msvs/test.vcproj new file mode 100644 index 00000000000000..981a106ce4770d --- /dev/null +++ b/tools/gyp/test/fixtures/expected-win32/msvs/test.vcproj @@ -0,0 +1 @@ + diff --git a/tools/gyp/test/integration_test.py b/tools/gyp/test/integration_test.py index b45a62ff6c74c9..26d78763078549 100644 --- a/tools/gyp/test/integration_test.py +++ b/tools/gyp/test/integration_test.py @@ -5,6 +5,7 @@ import os import re import shutil +import sys import unittest import gyp @@ -12,40 +13,48 @@ fixture_dir = os.path.join(os.path.dirname(__file__), "fixtures") gyp_file = os.path.join(os.path.dirname(__file__), "fixtures/integration.gyp") -supported_sysnames = {"darwin", "linux"} -sysname = os.uname().sysname.lower() +if sys.platform == "win32": + sysname = sys.platform +else: + sysname = os.uname().sysname.lower() expected_dir = os.path.join(fixture_dir, f"expected-{sysname}") -class TestGyp(unittest.TestCase): - def setUp(self) -> None: - if sysname not in supported_sysnames: - self.skipTest(f"Unsupported system: {sysname}") - shutil.rmtree(os.path.join(fixture_dir, "out"), ignore_errors=True) +def assert_file(test, actual, expected) -> None: + actual_filepath = os.path.join(fixture_dir, actual) + expected_filepath = os.path.join(expected_dir, expected) + + with open(expected_filepath) as in_file: + in_bytes = in_file.read() + in_bytes = in_bytes.strip() + expected_bytes = re.escape(in_bytes) + expected_bytes = expected_bytes.replace("\\*", ".*") + expected_re = re.compile(expected_bytes) - def assert_file(self, actual, expected) -> None: - actual_filepath = os.path.join(fixture_dir, actual) - expected_filepath = os.path.join(expected_dir, expected) + with open(actual_filepath) as in_file: + actual_bytes = in_file.read() + actual_bytes = actual_bytes.strip() - with open(expected_filepath) as in_file: - expected_bytes = re.escape(in_file.read()) - expected_bytes = expected_bytes.replace("\\*", ".*") - expected_re = re.compile(expected_bytes) + try: + test.assertRegex(actual_bytes, expected_re) + except Exception: + shutil.copyfile(actual_filepath, f"{expected_filepath}.actual") + raise - with open(actual_filepath) as in_file: - actual_bytes = in_file.read() - try: - self.assertRegex(actual_bytes, expected_re) - except Exception: - shutil.copyfile(actual_filepath, f"{expected_filepath}.actual") - raise +class TestGypUnix(unittest.TestCase): + supported_sysnames = {"darwin", "linux"} + + def setUp(self) -> None: + if sysname not in TestGypUnix.supported_sysnames: + self.skipTest(f"Unsupported system: {sysname}") + shutil.rmtree(os.path.join(fixture_dir, "out"), ignore_errors=True) def test_ninja(self) -> None: rc = gyp.main(["-f", "ninja", "--depth", fixture_dir, gyp_file]) assert rc == 0 - self.assert_file("out/Default/obj/test.ninja", "ninja/test.ninja") + assert_file(self, "out/Default/obj/test.ninja", "ninja/test.ninja") def test_make(self) -> None: rc = gyp.main( @@ -61,10 +70,24 @@ def test_make(self) -> None: ) assert rc == 0 - self.assert_file("out/test.target.mk", "make/test.target.mk") + assert_file(self, "out/test.target.mk", "make/test.target.mk") def test_cmake(self) -> None: rc = gyp.main(["-f", "cmake", "--depth", fixture_dir, gyp_file]) assert rc == 0 - self.assert_file("out/Default/CMakeLists.txt", "cmake/CMakeLists.txt") + assert_file(self, "out/Default/CMakeLists.txt", "cmake/CMakeLists.txt") + + +class TestGypWindows(unittest.TestCase): + def setUp(self) -> None: + if sys.platform != "win32": + self.skipTest("Windows-only test") + shutil.rmtree(os.path.join(fixture_dir, "out"), ignore_errors=True) + + def test_msvs(self) -> None: + rc = gyp.main(["-f", "msvs", "--depth", fixture_dir, gyp_file]) + assert rc == 0 + + assert_file(self, "test.vcproj", "msvs/test.vcproj") + assert_file(self, "integration.sln", "msvs/integration.sln") diff --git a/tools/icu/current_ver.dep b/tools/icu/current_ver.dep index e3f6a6100a73bb..3d923fec865aa2 100644 --- a/tools/icu/current_ver.dep +++ b/tools/icu/current_ver.dep @@ -1,6 +1,6 @@ [ { - "url": "https://github.com/unicode-org/icu/releases/download/release-78.2/icu4c-78.2-sources.tgz", - "md5": "2bf8db43ccdc837e402ac773f17c7cf8" + "url": "https://github.com/unicode-org/icu/releases/download/release-78.3/icu4c-78.3-sources.tgz", + "md5": "a7b736b570ef0e180c96a31715a00c78" } ] diff --git a/tools/inspector_protocol/roll.py b/tools/inspector_protocol/roll.py index 474d163c30a123..92a68d4aa093e4 100644 --- a/tools/inspector_protocol/roll.py +++ b/tools/inspector_protocol/roll.py @@ -38,22 +38,13 @@ def RunCmd(cmd): return stdoutdata.decode('utf-8') -def CheckRepoIsClean(path, suffix): +def CheckRepoIsClean(path): os.chdir(path) # As a side effect this also checks for existence of the dir. # If path isn't a git repo, this will throw and exception. # And if it is a git repo and 'git status' has anything interesting to say, # then it's not clean (uncommitted files etc.) if len(RunCmd(['git', 'status', '--porcelain'])) != 0: raise Exception('%s is not a clean git repo (run git status)' % path) - if not path.endswith(suffix): - raise Exception('%s does not end with /%s' % (path, suffix)) - - -def CheckRepoIsNotAtMainBranch(path): - os.chdir(path) - stdout = RunCmd(['git', 'rev-parse', '--abbrev-ref', 'HEAD']).strip() - if stdout == 'main': - raise Exception('%s is at main branch - refusing to copy there.' % path) def CheckRepoIsInspectorProtocolCheckout(path): @@ -85,6 +76,16 @@ def ReadV8IPRevision(node_src_path): return line[len(REVISION_LINE_PREFIX):] raise Exception('No V8 inspector protocol revision found') + +def ReadNodeIPRevision(node_src_path): + lines = open(os.path.join(node_src_path, 'deps/inspector_protocol/README.node')).readlines() + for line in lines: + line = line.strip() + if line.startswith(REVISION_LINE_PREFIX): + return line[len(REVISION_LINE_PREFIX):] + raise Exception('No Node inspector protocol revision found') + + def CheckoutRevision(path, revision): os.chdir(path) return RunCmd(['git', 'checkout', revision]) @@ -114,16 +115,15 @@ def main(argv): upstream = os.path.normpath(os.path.expanduser(args.ip_src_upstream)) downstream = os.path.normpath(os.path.expanduser( args.node_src_downstream)) - CheckRepoIsClean(upstream, '/src') - CheckRepoIsClean(downstream, '/node') + CheckRepoIsClean(upstream) CheckRepoIsInspectorProtocolCheckout(upstream) - # Check that the destination Git repo isn't at the main branch - it's - # generally a bad idea to check into the main branch, so we catch this - # common pilot error here early. - CheckRepoIsNotAtMainBranch(downstream) # Read V8's inspector_protocol revision v8_ip_revision = ReadV8IPRevision(downstream) + node_ip_revision = ReadNodeIPRevision(downstream) + if v8_ip_revision == node_ip_revision: + print('Node is already at V8\'s inspector_protocol revision %s - nothing to do.' % v8_ip_revision) + sys.exit(0) print('Checking out %s into %s ...' % (upstream, v8_ip_revision)) CheckoutRevision(upstream, v8_ip_revision) diff --git a/tools/license-builder.sh b/tools/license-builder.sh index 4db1d4e8bdd86a..8e408bce82f12d 100755 --- a/tools/license-builder.sh +++ b/tools/license-builder.sh @@ -65,6 +65,8 @@ fi licenseText="$(cat "${rootdir}/deps/uv/LICENSE" "${rootdir}/deps/uv/LICENSE-extra")" addlicense "libuv" "deps/uv" "$licenseText" +licenseText="$(cat "${rootdir}/deps/LIEF/LICENSE")" +addlicense "LIEF" "deps/LIEF" "$licenseText" licenseText="$(cat deps/llhttp/LICENSE-MIT)" addlicense "llhttp" "deps/llhttp" "$licenseText" licenseText="$(cat "${rootdir}/deps/corepack/LICENSE.md")" diff --git a/tools/v8_gypfiles/v8.gyp b/tools/v8_gypfiles/v8.gyp index cb82d4f15bc87d..39caceb5d0c1a7 100644 --- a/tools/v8_gypfiles/v8.gyp +++ b/tools/v8_gypfiles/v8.gyp @@ -46,17 +46,32 @@ } }, 'conditions': [ + # Build with -fvisibility=hidden and -fvisibility-inlines-hidden to avoid + # including unnecessary internal symbols, which may lead to run-time fixups. + # This is not done on AIX where symbols are exported by tools/create_expfile.sh + # see https://github.com/nodejs/node/pull/56290#issuecomment-2582703109 + ['OS!="aix" and OS!="os400"', { + 'defines': [ + 'BUILDING_V8_SHARED', # Make V8_EXPORT visible. + 'BUILDING_V8_PLATFORM_SHARED', # Make V8_PLATFORM_EXPORT visible. + ] + }], + ['node_shared=="true"', { + 'defines': [ + 'V8_TLS_USED_IN_LIBRARY', # Enable V8_TLS_LIBRARY_MODE. + ], + }], ['OS=="mac"', { - # Hide symbols that are not explicitly exported with V8_EXPORT. - # TODO(joyeecheung): enable it on other platforms. Currently gcc times out - # or run out of memory with -fvisibility=hidden on some machines in the CI. 'xcode_settings': { 'GCC_SYMBOLS_PRIVATE_EXTERN': 'YES', # -fvisibility=hidden + 'GCC_INLINES_ARE_PRIVATE_EXTERN': 'YES' # -fvisibility-inlines-hidden }, - 'defines': [ - 'BUILDING_V8_SHARED', # Make V8_EXPORT visible. + }, '(OS!="aix" and OS!="os400") and (OS!="win" or clang==1)', { + 'cflags': [ + '-fvisibility=hidden', + '-fvisibility-inlines-hidden' ], - }], + }], # MSVC hides the non-public symbols by default so no need to configure it. ], }, 'targets': [ @@ -1307,6 +1322,7 @@ ['component=="shared_library"', { 'defines': [ 'BUILDING_V8_SHARED', + 'BUILDING_V8_PLATFORM_SHARED', ], }], ['v8_enable_i18n_support==1', { @@ -1384,6 +1400,7 @@ 'defines!': [ '_HAS_EXCEPTIONS=0', 'BUILDING_V8_SHARED=1', + 'BUILDING_V8_PLATFORM_SHARED=1', ], 'cflags_cc!': ['-fno-exceptions'], 'cflags_cc': ['-fexceptions'], @@ -1396,6 +1413,15 @@ 'ExceptionHandling': 1, }, }, + # Reduce optimisation of one file on AIX - it causes torque + # to segfault if you build node with "--shared" + 'conditions': [ + ['OS=="aix" and node_shared=="true"', { + 'cflags': ['-O1'], + 'cflags!': ['-O3'], + 'sources': ['<(V8_ROOT)/src/torque/implementation-visitor.cc'], + }], + ], }, # torque_base { 'target_name': 'torque_ls_base', @@ -1410,6 +1436,7 @@ 'defines!': [ '_HAS_EXCEPTIONS=0', 'BUILDING_V8_SHARED=1', + 'BUILDING_V8_PLATFORM_SHARED=1', ], 'cflags_cc!': ['-fno-exceptions'], 'cflags_cc': ['-fexceptions'], @@ -1780,6 +1807,7 @@ ], 'defines!': [ 'BUILDING_V8_SHARED=1', + 'BUILDING_V8_PLATFORM_SHARED=1', ], 'dependencies': [ "v8_libbase", @@ -1841,6 +1869,7 @@ 'defines!': [ '_HAS_EXCEPTIONS=0', 'BUILDING_V8_SHARED=1', + 'BUILDING_V8_PLATFORM_SHARED=1', ], 'cflags_cc!': ['-fno-exceptions'], 'cflags_cc': ['-fexceptions'], @@ -1884,6 +1913,7 @@ 'defines!': [ '_HAS_EXCEPTIONS=0', 'BUILDING_V8_SHARED=1', + 'BUILDING_V8_PLATFORM_SHARED=1', ], 'msvs_settings': { 'VCCLCompilerTool': { @@ -2116,10 +2146,12 @@ ], 'defines': [ 'BUILDING_V8_SHARED', + 'BUILDING_V8_PLATFORM_SHARED', ], 'direct_dependent_settings': { 'defines': [ 'USING_V8_SHARED', + 'USING_V8_PLATFORM_SHARED', ], }, 'conditions': [ diff --git a/typings/globals.d.ts b/typings/globals.d.ts index f1550714231544..60831bccfbda9f 100644 --- a/typings/globals.d.ts +++ b/typings/globals.d.ts @@ -81,6 +81,20 @@ declare global { | BigUint64Array | BigInt64Array; + type TypedArrayConstructor = + | typeof Uint8Array + | typeof Uint8ClampedArray + | typeof Uint16Array + | typeof Uint32Array + | typeof Int8Array + | typeof Int16Array + | typeof Int32Array + | typeof Float16Array + | typeof Float32Array + | typeof Float64Array + | typeof BigUint64Array + | typeof BigInt64Array; + namespace NodeJS { interface Global { internalBinding(binding: T): InternalBindingMap[T] diff --git a/typings/primordials.d.ts b/typings/primordials.d.ts index 30c0115443d4d5..8e1b5c6e672394 100644 --- a/typings/primordials.d.ts +++ b/typings/primordials.d.ts @@ -19,7 +19,7 @@ type UncurryGetter = type UncurrySetter = O[K] extends infer V ? (self: T, value: V) => void : never; -type TypedArrayContentType = T extends { [k: number]: infer V } ? V : never; +type TypedArrayContentType = InstanceType[number]; /** * Primordials are a way to safely use globals without fear of global mutation @@ -469,14 +469,12 @@ declare namespace primordials { export const SyntaxErrorPrototype: typeof SyntaxError.prototype export import TypeError = globalThis.TypeError; export const TypeErrorPrototype: typeof TypeError.prototype - export function TypedArrayFrom( - constructor: new (length: number) => T, - source: - | Iterable> - | ArrayLike>, - ): T; - export function TypedArrayFrom( - constructor: new (length: number) => T, + export function TypedArrayFrom( + constructor: T, + source: Iterable> | ArrayLike>, + ): InstanceType + export function TypedArrayFrom( + constructor: T, source: Iterable | ArrayLike, mapfn: ( this: THIS_ARG, @@ -484,28 +482,17 @@ declare namespace primordials { index: number, ) => TypedArrayContentType, thisArg?: THIS_ARG, - ): T; - export function TypedArrayOf( - constructor: new (length: number) => T, - ...items: readonly TypedArrayContentType[] - ): T; - export function TypedArrayOfApply( - constructor: new (length: number) => T, + ): InstanceType; + export function TypedArrayOf( + constructor: T, + ...items: TypedArrayContentType[], + ): InstanceType; + export function TypedArrayOfApply( + constructor: T, items: readonly TypedArrayContentType[], - ): T; - export const TypedArray: TypedArray; - export const TypedArrayPrototype: - | typeof Uint8Array.prototype - | typeof Int8Array.prototype - | typeof Uint16Array.prototype - | typeof Int16Array.prototype - | typeof Uint32Array.prototype - | typeof Int32Array.prototype - | typeof Float32Array.prototype - | typeof Float64Array.prototype - | typeof BigInt64Array.prototype - | typeof BigUint64Array.prototype - | typeof Uint8ClampedArray.prototype; + ): InstanceType; + export const TypedArray: TypedArrayConstructor; + export const TypedArrayPrototype: TypedArrayConstructor["prototype"]; export const TypedArrayPrototypeGetBuffer: UncurryGetter; export const TypedArrayPrototypeGetByteLength: UncurryGetter; export const TypedArrayPrototypeGetByteOffset: UncurryGetter; @@ -516,19 +503,7 @@ declare namespace primordials { export function TypedArrayPrototypeSet(self: T, ...args: Parameters): ReturnType; export function TypedArrayPrototypeSubarray(self: T, ...args: Parameters): ReturnType; export function TypedArrayPrototypeSlice(self: T, ...args: Parameters): ReturnType; - export function TypedArrayPrototypeGetSymbolToStringTag(self: unknown): - | 'Int8Array' - | 'Int16Array' - | 'Int32Array' - | 'Uint8Array' - | 'Uint16Array' - | 'Uint32Array' - | 'Uint8ClampedArray' - | 'BigInt64Array' - | 'BigUint64Array' - | 'Float32Array' - | 'Float64Array' - | undefined; + export function TypedArrayPrototypeGetSymbolToStringTag(self: unknown): TypedArray[typeof Symbol.toStringTag] | undefined; export import URIError = globalThis.URIError; export const URIErrorPrototype: typeof URIError.prototype export import Uint16Array = globalThis.Uint16Array;