# Copyright 2022 Google LLC # # Use of this source code is governed by a BSD-style # license that can be found in the LICENSE file or at # https://developers.google.com/open-source/licenses/bsd # A reusable workflow to build and test Packager on every supported OS and # architecture. name: Build # Runs when called from another workflow. on: workflow_call: inputs: ref: required: true type: string # If true, start a debug SSH server on failures. debug: required: false type: boolean default: false # If true, enable self-hosted runners in the build matrix. self_hosted: required: false type: boolean default: false # By default, run all commands in a bash shell. On Windows, the default would # otherwise be powershell. defaults: run: shell: bash jobs: # Configure the build matrix based on inputs. The list of objects in the # build matrix contents can't be changed by conditionals, but it can be # computed by another job and deserialized. This uses inputs.self_hosted to # determine the build matrix, based on the metadata in build-matrix.json. build_matrix_config: name: Matrix configuration runs-on: ubuntu-latest outputs: INCLUDE: ${{ steps.configure.outputs.INCLUDE }} OS: ${{ steps.configure.outputs.OS }} steps: - uses: actions/checkout@v3 with: ref: ${{ inputs.ref }} - name: Configure Build Matrix id: configure shell: node {0} run: | const enableSelfHosted = ${{ inputs.self_hosted }}; // Use enableSelfHosted to decide what the build matrix below should // include. const {hosted, selfHosted} = require("${{ github.workspace }}/.github/workflows/build-matrix.json"); const include = enableSelfHosted ? hosted.concat(selfHosted) : hosted; const os = include.map((config) => config.os); // Output JSON objects consumed by the build matrix below. const fs = require('fs'); fs.writeFileSync(process.env.GITHUB_OUTPUT, [ `INCLUDE=${ JSON.stringify(include) }`, `OS=${ JSON.stringify(os) }`, ].join('\n'), {flag: 'a'}); // Log the outputs, for the sake of debugging this script. console.log({enableSelfHosted, include, os}); build: needs: build_matrix_config strategy: fail-fast: false matrix: include: ${{ fromJSON(needs.build_matrix_config.outputs.INCLUDE) }} os: ${{ fromJSON(needs.build_matrix_config.outputs.OS) }} build_type: ["Debug", "Release"] lib_type: ["static", "shared"] name: ${{ matrix.os_name }} ${{ matrix.target_arch }} ${{ matrix.build_type }} ${{ matrix.lib_type }} runs-on: ${{ matrix.os }} steps: - name: Configure git to preserve line endings # Otherwise, tests fail on Windows because "golden" test outputs will not # have the correct line endings. run: git config --global core.autocrlf false - name: Checkout code uses: actions/checkout@v3 with: ref: ${{ inputs.ref }} submodules: recursive - name: Install Linux deps if: runner.os == 'Linux' # NOTE: CMake is already installed in GitHub Actions VMs, but not # necessarily in a self-hosted runner. We also need a minimum version # that may be greater than what is available in Ubuntu, so we set up # the official CMake PPA first. run: | kitware_key_url="https://apt.kitware.com/keys/kitware-archive-latest.asc" kitware_key_path="/usr/share/keyrings/kitware-archive-keyring.gpg" kitware_sources_path="/etc/apt/sources.list.d/kitware.list" curl -sL "$kitware_key_url" | gpg --dearmor - \ | sudo tee "$kitware_key_path" >/dev/null . /etc/lsb-release # Defines $DISTRIB_CODENAME (jammy, focal, etc) echo "deb [signed-by=$kitware_key_path] https://apt.kitware.com/ubuntu/ $DISTRIB_CODENAME main" \ | sudo tee "$kitware_sources_path" >/dev/null sudo apt update sudo apt install -y \ cmake \ ninja-build - name: Install Mac deps if: runner.os == 'macOS' # NOTE: GitHub Actions VMs on Mac do not install ninja by default. run: | brew install ninja - name: Generate build files run: | mkdir -p build/ if [[ "${{ matrix.lib_type }}" == "shared" ]]; then BUILD_SHARED_LIBS="ON" else BUILD_SHARED_LIBS="OFF" fi # If set, override the default generator for the platform. # Not every entry in the build matrix config defines this. # If this is blank, CMake will choose the default generator. export CMAKE_GENERATOR="${{ matrix.generator }}" # If set, configure the build to restrict parallel operations. # This helps us avoid the compiler failing due to a lack of RAM # on our arm64 build devices (4GB RAM shared among 6 CPUs). if [[ "${{ matrix.low_mem }}" != "" ]]; then export PACKAGER_LOW_MEMORY_BUILD=yes fi # Do fully static release builds on Linux. BUILD_CONFIG="${{ matrix.build_type }}-${{ matrix.lib_type }}" if [[ "${{ runner.os }}" == "Linux" && \ "$BUILD_CONFIG" == "Release-static" ]]; then # Enable build settings for fully-static. FULLY_STATIC="ON" # Use a musl toolchain, since glibc static executables are not # portable. if [[ "${{matrix.target_arch}}" == "arm64" ]]; then MUSL_ARCH="aarch64" else MUSL_ARCH="x86_64" fi curl -LO https://musl.cc/"$MUSL_ARCH"-linux-musl-native.tgz tar xf "$MUSL_ARCH"-linux-musl-native.tgz export CC=`pwd`/"$MUSL_ARCH"-linux-musl-native/bin/"$MUSL_ARCH"-linux-musl-gcc export CXX=`pwd`/"$MUSL_ARCH"-linux-musl-native/bin/"$MUSL_ARCH"-linux-musl-g++ else FULLY_STATIC="OFF" fi cmake \ -DCMAKE_BUILD_TYPE="${{ matrix.build_type }}" \ -DBUILD_SHARED_LIBS="$BUILD_SHARED_LIBS" \ -DFULLY_STATIC="$FULLY_STATIC" \ -S . \ -B build/ - name: Build # This is a universal build command, which will call make on Linux and # Visual Studio on Windows. Note that the VS generator is what cmake # calls a "multi-configuration" generator, and so the desired build # type must be specified for Windows. run: cmake --build build/ --config "${{ matrix.build_type }}" --parallel - name: Test run: ctest -C "${{ matrix.build_type }}" -V --test-dir build/ - name: Publish Test Report uses: mikepenz/action-junit-report@150e2f992e4fad1379da2056d1d1c279f520e058 if: ${{ always() }} with: report_paths: 'junit-reports/TEST-*.xml' - name: Prepare artifacts (static release only) run: | BUILD_CONFIG="${{ matrix.build_type }}-${{ matrix.lib_type }}" if [[ "$BUILD_CONFIG" != "Release-static" ]]; then echo "Skipping artifacts for $BUILD_CONFIG." exit 0 fi # Check static executables if [[ "${{ runner.os }}" == "Linux" ]]; then echo "::group::Check static executables" for exe in build/packager/{packager,mpd_generator}; do # Capture information about the executables, but also let it be # logged to stdout. ldd "$exe" | tee static.log # The phrase "statically linked" means we got it right. Fail if # we don't find it. if ! cat static.log | grep -q statically; then exit 1 fi done echo "::endgroup::" fi echo "::group::Prepare artifacts folder" mkdir artifacts ARTIFACTS="$GITHUB_WORKSPACE/artifacts" if [[ "${{ runner.os }}" == "Windows" ]]; then cd build/packager/Release else cd build/packager fi echo "::endgroup::" echo "::group::Strip executables" strip packager${{ matrix.exe_ext }} strip mpd_generator${{ matrix.exe_ext }} echo "::endgroup::" SUFFIX="-${{ matrix.os_name }}-${{ matrix.target_arch }}" EXE_SUFFIX="$SUFFIX${{ matrix.exe_ext}}" echo "::group::Copy packager" cp packager${{ matrix.exe_ext }} $ARTIFACTS/packager$EXE_SUFFIX echo "::endgroup::" echo "::group::Copy mpd_generator" cp mpd_generator${{ matrix.exe_ext }} $ARTIFACTS/mpd_generator$EXE_SUFFIX echo "::endgroup::" # The pssh-box bundle is OS and architecture independent. So only do # it on this one OS and architecture, and give it a more generic # filename. if [[ '${{ matrix.os_name }}' == 'linux' && '${{ matrix.target_arch }}' == 'x64' ]]; then echo "::group::Tar pssh-box" tar -czf $ARTIFACTS/pssh-box.py.tar.gz pssh-box.py pssh-box-protos echo "::endgroup::" fi - name: Upload static release build artifacts uses: actions/upload-artifact@v3 if: matrix.build_type == 'Release' && matrix.lib_type == 'static' with: name: artifacts-${{ matrix.os_name }}-${{ matrix.target_arch }} path: artifacts/* if-no-files-found: error retention-days: 5 - name: Debug uses: mxschmitt/action-tmate@v3.6 with: limit-access-to-actor: true if: failure() && inputs.debug