# Reusable: smoke test every binary (standard + UI, all platforms) name: Smoke on: workflow_call: inputs: broad_platforms: description: 'Smoke the shipped binaries on the broad platform matrix (extra OS versions) instead of the core set' type: boolean default: false permissions: contents: read jobs: # Emit the platform matrices as JSON. The CORE set is the default (fast, # unchanged); the BROAD set adds extra free runners (additional OS versions) # that download the SAME shipped artifact for their goos/goarch and verify it # runs on a wider range of OS versions. No new artifacts are built — broad # legs reuse the exact binaries produced by _build.yml. setup-matrix: runs-on: ubuntu-latest timeout-minutes: 5 outputs: unix: ${{ steps.set.outputs.unix }} windows: ${{ steps.set.outputs.windows }} portable: ${{ steps.set.outputs.portable }} steps: - name: Compute matrices id: set env: BROAD: ${{ inputs.broad_platforms }} run: | CORE_UNIX='[ {"os":"ubuntu-latest","goos":"linux","goarch":"amd64"}, {"os":"ubuntu-24.04-arm","goos":"linux","goarch":"arm64"}, {"os":"macos-14","goos":"darwin","goarch":"arm64"}, {"os":"macos-15-intel","goos":"darwin","goarch":"amd64"} ]' # Broad legs reuse existing goos/goarch artifacts on additional OS # versions to widen the run-anywhere signal without building new targets. # Broad legs are REQUIRED gates (no optional / continue-on-error): # every smoke leg must pass. No `optional` flags anywhere. # # NOTE: the *dynamic* linux binary links glibc 2.38+ and cannot run on # older distros by design — older-glibc coverage is the -portable (static) # binary's job, exercised green by the smoke-linux-portable broad legs # (ubuntu-22.04 / 22.04-arm). So the dynamic broad legs stay on # forward-compatible OSes only (macOS); running the dynamic binary on # ubuntu-22.04 would fail Phase 1 (glibc too old), not a real regression. BROAD_UNIX='[ {"os":"macos-15","goos":"darwin","goarch":"arm64"} ]' CORE_WIN='[{"os":"windows-latest","arch":"amd64"}]' # windows-11-arm now runs the NATIVE arm64 binary (build-windows-arm64), # not the x86_64 binary under emulation — we smoke the artifact we ship. BROAD_WIN='[{"os":"windows-2025","arch":"amd64"},{"os":"windows-11-arm","arch":"arm64"}]' CORE_PORTABLE='[ {"arch":"amd64","runner":"ubuntu-latest"}, {"arch":"arm64","runner":"ubuntu-24.04-arm"} ]' BROAD_PORTABLE='[ {"arch":"amd64","runner":"ubuntu-22.04"}, {"arch":"arm64","runner":"ubuntu-22.04-arm"} ]' if [ "$BROAD" = "true" ]; then UNIX=$(jq -cn --argjson a "$CORE_UNIX" --argjson b "$BROAD_UNIX" '$a + $b') WIN=$(jq -cn --argjson a "$CORE_WIN" --argjson b "$BROAD_WIN" '$a + $b') PORTABLE=$(jq -cn --argjson a "$CORE_PORTABLE" --argjson b "$BROAD_PORTABLE" '$a + $b') else UNIX=$(jq -cn --argjson a "$CORE_UNIX" '$a') WIN=$(jq -cn --argjson a "$CORE_WIN" '$a') PORTABLE=$(jq -cn --argjson a "$CORE_PORTABLE" '$a') fi # Expand each OS entry over both variants into a FLAT include list so # every {os,variant} runs as its own job. A {variant:[...],include:$LIST} # matrix collapses under GitHub's include-merge (later os entries # overwrite the variant combos last-wins), which silently dropped every # OS except the last — e.g. only windows-11-arm ran, never windows-latest. # Building the cartesian explicitly avoids that. VARIANTS='["standard","ui"]' UNIX_M=$(jq -cn --argjson a "$UNIX" --argjson v "$VARIANTS" '{include:[$a[] as $o | $v[] as $t | ($o + {variant:$t})]}') WIN_M=$(jq -cn --argjson a "$WIN" --argjson v "$VARIANTS" '{include:[$a[] as $o | $v[] as $t | ($o + {variant:$t})]}') PORTABLE_M=$(jq -cn --argjson a "$PORTABLE" --argjson v "$VARIANTS" '{include:[$a[] as $o | $v[] as $t | ($o + {variant:$t})]}') echo "unix=$UNIX_M" >> "$GITHUB_OUTPUT" echo "windows=$WIN_M" >> "$GITHUB_OUTPUT" echo "portable=$PORTABLE_M" >> "$GITHUB_OUTPUT" smoke-unix: needs: setup-matrix strategy: fail-fast: false matrix: ${{ fromJSON(needs.setup-matrix.outputs.unix) }} runs-on: ${{ matrix.os }} timeout-minutes: 15 steps: - uses: actions/checkout@9c091bb21b7c1c1d1991bb908d89e4e9dddfe3e0 # v7.0.0 - uses: actions/download-artifact@3e5f45b2cfb9172054b4087a40e8e0b5a5461e7c # v8.0.1 with: name: binaries-${{ matrix.goos }}-${{ matrix.goarch }} - name: Extract binary run: | SUFFIX=${{ matrix.variant == 'ui' && '-ui' || '' }} tar -xzf codebase-memory-mcp${SUFFIX}-${{ matrix.goos }}-${{ matrix.goarch }}.tar.gz chmod +x codebase-memory-mcp - name: Start artifact server run: | mkdir -p /tmp/smoke-server cp codebase-memory-mcp /tmp/smoke-server/ OS=${{ matrix.goos }}; ARCH=${{ matrix.goarch }} SUFFIX=${{ matrix.variant == 'ui' && '-ui' || '' }} tar -czf "/tmp/smoke-server/codebase-memory-mcp${SUFFIX}-${OS}-${ARCH}.tar.gz" \ -C /tmp/smoke-server codebase-memory-mcp if [ -n "$SUFFIX" ]; then cp "/tmp/smoke-server/codebase-memory-mcp${SUFFIX}-${OS}-${ARCH}.tar.gz" \ "/tmp/smoke-server/codebase-memory-mcp-${OS}-${ARCH}.tar.gz" fi # The linux binary self-updates from the fully-static "-portable" asset # (build_update_url in src/cli/cli.c appends -portable on linux; _build.yml's # build-linux-portable job ships it), so the smoke server must serve that name # too -- otherwise `update` 404s and Phase 14 fails. Mirror the tarball(s) under # the -portable name on linux only. if [ "$OS" = "linux" ]; then cp "/tmp/smoke-server/codebase-memory-mcp${SUFFIX}-${OS}-${ARCH}.tar.gz" \ "/tmp/smoke-server/codebase-memory-mcp${SUFFIX}-${OS}-${ARCH}-portable.tar.gz" if [ -n "$SUFFIX" ]; then cp "/tmp/smoke-server/codebase-memory-mcp${SUFFIX}-${OS}-${ARCH}-portable.tar.gz" \ "/tmp/smoke-server/codebase-memory-mcp-${OS}-${ARCH}-portable.tar.gz" fi fi cd /tmp/smoke-server sha256sum *.tar.gz > checksums.txt 2>/dev/null || shasum -a 256 *.tar.gz > checksums.txt python3 -m http.server 18080 -d /tmp/smoke-server & - name: Smoke test run: scripts/smoke-test.sh ./codebase-memory-mcp env: SMOKE_DOWNLOAD_URL: http://localhost:18080 - name: Security audits run: | scripts/security-strings.sh ./codebase-memory-mcp scripts/security-install.sh ./codebase-memory-mcp scripts/security-network.sh ./codebase-memory-mcp - name: MCP robustness test (linux-amd64 standard only) if: matrix.variant == 'standard' && matrix.goos == 'linux' && matrix.goarch == 'amd64' run: | scripts/security-fuzz.sh ./codebase-memory-mcp scripts/security-fuzz-random.sh ./codebase-memory-mcp 60 - name: ClamAV scan (Linux) if: startsWith(matrix.os, 'ubuntu') run: | sudo apt-get update -qq && sudo apt-get install -y -qq clamav > /dev/null 2>&1 # apt auto-starts the clamav-freshclam daemon, which holds a lock on # freshclam's log/db; stop it so the manual freshclam below can run # (else: "Failed to lock the log file ... Resource temporarily unavailable"). sudo systemctl stop clamav-freshclam 2>/dev/null || true sudo sed -i 's/^Example/#Example/' /etc/clamav/freshclam.conf 2>/dev/null || true grep -q "DatabaseMirror" /etc/clamav/freshclam.conf 2>/dev/null || \ echo "DatabaseMirror database.clamav.net" | sudo tee -a /etc/clamav/freshclam.conf > /dev/null sudo freshclam --quiet clamscan --no-summary ./codebase-memory-mcp - name: ClamAV scan (macOS) if: startsWith(matrix.os, 'macos') run: | brew install clamav > /dev/null 2>&1 CLAMAV_ETC=$(brew --prefix)/etc/clamav if [ ! -f "$CLAMAV_ETC/freshclam.conf" ]; then cp "$CLAMAV_ETC/freshclam.conf.sample" "$CLAMAV_ETC/freshclam.conf" 2>/dev/null || true sed -i '' 's/^Example/#Example/' "$CLAMAV_ETC/freshclam.conf" 2>/dev/null || true echo "DatabaseMirror database.clamav.net" >> "$CLAMAV_ETC/freshclam.conf" fi freshclam --quiet --no-warnings 2>/dev/null || freshclam --quiet 2>/dev/null || echo "WARNING: freshclam update failed" clamscan --no-summary ./codebase-memory-mcp smoke-windows: needs: setup-matrix strategy: fail-fast: false matrix: ${{ fromJSON(needs.setup-matrix.outputs.windows) }} runs-on: ${{ matrix.os }} timeout-minutes: 15 steps: - uses: actions/checkout@9c091bb21b7c1c1d1991bb908d89e4e9dddfe3e0 # v7.0.0 - uses: msys2/setup-msys2@66cd2cce69caa17b53920067426061ca1de3a884 # v2 with: msystem: ${{ matrix.arch == 'arm64' && 'CLANGARM64' || 'CLANG64' }} path-type: inherit install: >- mingw-w64-clang-${{ matrix.arch == 'arm64' && 'aarch64' || 'x86_64' }}-python3 mingw-w64-clang-${{ matrix.arch == 'arm64' && 'aarch64' || 'x86_64' }}-curl unzip zip coreutils - uses: actions/download-artifact@3e5f45b2cfb9172054b4087a40e8e0b5a5461e7c # v8.0.1 with: name: binaries-windows-${{ matrix.arch }} - name: Extract binary shell: msys2 {0} run: | SUFFIX=${{ matrix.variant == 'ui' && '-ui' || '' }} ARCH=${{ matrix.arch }} unzip -o "codebase-memory-mcp${SUFFIX}-windows-${ARCH}.zip" [ -n "$SUFFIX" ] && cp "codebase-memory-mcp${SUFFIX}.exe" codebase-memory-mcp.exe || true - name: Start artifact server shell: msys2 {0} run: | mkdir -p /tmp/smoke-server cp codebase-memory-mcp.exe /tmp/smoke-server/ SUFFIX=${{ matrix.variant == 'ui' && '-ui' || '' }} ARCH=${{ matrix.arch }} cd /tmp/smoke-server zip -q "codebase-memory-mcp${SUFFIX}-windows-${ARCH}.zip" codebase-memory-mcp.exe if [ -n "$SUFFIX" ]; then cp "codebase-memory-mcp${SUFFIX}-windows-${ARCH}.zip" "codebase-memory-mcp-windows-${ARCH}.zip" fi sha256sum *.zip > checksums.txt # Pin to explicit IPv4: on windows-11-arm, `localhost` resolves to ::1 (IPv6) # for msys2 curl while python's http.server is IPv4-only -> instant connect # failure in smoke Phase 12a. --bind 127.0.0.1 + a 127.0.0.1 URL pin both ends. python3 -m http.server 18080 --bind 127.0.0.1 -d /tmp/smoke-server & - name: Smoke test shell: msys2 {0} run: scripts/smoke-test.sh ./codebase-memory-mcp.exe env: SMOKE_DOWNLOAD_URL: http://127.0.0.1:18080 SMOKE_ARCH: ${{ matrix.arch }} - name: Security audits shell: msys2 {0} run: | scripts/security-strings.sh ./codebase-memory-mcp.exe scripts/security-install.sh ./codebase-memory-mcp.exe - name: Windows Defender scan shell: pwsh run: | & "C:\Program Files\Windows Defender\MpCmdRun.exe" -SignatureUpdate 2>$null $result = & "C:\Program Files\Windows Defender\MpCmdRun.exe" -Scan -ScanType 3 -File "$PWD\codebase-memory-mcp.exe" -DisableRemediation $code = $LASTEXITCODE Write-Host $result # MpCmdRun -Scan exit codes: 0 = clean, 2 = threat found. Any OTHER non-zero # means the scan engine could not run at all (e.g. hr=0x800106ba: the Defender # antimalware service is unavailable on the runner) — that is NOT a detection. # Fail soft on an engine failure so a transient runner-side AV outage can't # false-fail a release; only a real detection (exit 2) hard-blocks. if ($code -eq 2) { Write-Host "BLOCKED: Windows Defender flagged binary!"; exit 1 } elseif ($code -ne 0) { Write-Host "::warning::Windows Defender scan could not run (exit $code) - skipping AV gate on this runner" } else { Write-Host "=== Windows Defender: clean ===" } smoke-linux-portable: needs: setup-matrix strategy: fail-fast: false matrix: ${{ fromJSON(needs.setup-matrix.outputs.portable) }} runs-on: ${{ matrix.runner }} timeout-minutes: 15 steps: - uses: actions/checkout@9c091bb21b7c1c1d1991bb908d89e4e9dddfe3e0 # v7.0.0 - uses: actions/download-artifact@3e5f45b2cfb9172054b4087a40e8e0b5a5461e7c # v8.0.1 with: name: binaries-linux-${{ matrix.arch }}-portable - name: Extract and smoke test run: | SUFFIX=${{ matrix.variant == 'ui' && '-ui' || '' }} tar -xzf codebase-memory-mcp${SUFFIX}-linux-${{ matrix.arch }}-portable.tar.gz chmod +x codebase-memory-mcp scripts/smoke-test.sh ./codebase-memory-mcp # The -portable binary is what all linux install/update paths now deliver; # it MUST start on old glibc (Debian 11 / RHEL 8 / Ubuntu 20.04). Runs it # in debian:bullseye (glibc 2.31) — the standard dynamic binary would fail # here with `GLIBC_2.38 not found`. - name: Old-glibc compatibility run: scripts/ci/check-glibc-compat.sh ./codebase-memory-mcp - name: Security audits run: | scripts/security-strings.sh ./codebase-memory-mcp scripts/security-install.sh ./codebase-memory-mcp scripts/security-network.sh ./codebase-memory-mcp # ── Packaging check (non-gating) ────────────────────────────────── # Builds pkg/glama/Dockerfile — the image Glama builds to score the # server — and runs an MCP initialize + tools/list handshake to confirm the # containerized stdio server still starts and introspects. Guards the Glama # listing integration against drift (Dockerfile breakage, release-asset # renames, introspection regressions). # # Also tests the brew tap/install flow. # # continue-on-error: a broken *directory* image must never block a release — # the shipped product binaries are unaffected. The red X is the signal to fix # the integration, not a release gate. smoke-packages: runs-on: ubuntu-latest timeout-minutes: 10 continue-on-error: true steps: - uses: actions/checkout@9c091bb21b7c1c1d1991bb908d89e4e9dddfe3e0 # v7.0.0 - name: Build Glama image and verify MCP introspection run: bash pkg/glama/verify.sh - name: Test homebrew installation env: HOMEBREW_NO_AUTO_UPDATE: 1 run: | eval "$(/home/linuxbrew/.linuxbrew/bin/brew shellenv)" brew tap deusdata/codebase-memory-mcp "$GITHUB_WORKSPACE" brew trust deusdata/codebase-memory-mcp brew install codebase-memory-mcp codebase-memory-mcp --version