name: Release (Linux) on: workflow_call: inputs: survey_key: required: false type: string default: "" jobs: linux: name: Linux (Generic) runs-on: ubuntu-20.04 container: # manylinux2014 is based on CentOS 7, but already has a lot of things # installed and preconfigured. It makes it easier to build OpenTTD. image: quay.io/pypa/manylinux2014_x86_64 steps: - name: Download source uses: actions/download-artifact@v3 with: name: internal-source - name: Unpack source run: | tar -xf source.tar.gz --strip-components=1 - name: Enable vcpkg cache uses: actions/cache@v3 with: path: /vcpkg/installed key: ubuntu-20.04-vcpkg-release-1 # Increase the number whenever dependencies are modified restore-keys: | ubuntu-20.04-vcpkg-release - name: Install dependencies run: | echo "::group::Install system dependencies" # perl-IPC-Cmd, wget, and zip are needed to run vcpkg. # autoconf-archive is needed to build ICU. yum install -y \ autoconf-archive \ perl-IPC-Cmd \ wget \ zip \ # EOF # aclocal looks first in /usr/local/share/aclocal, and if that doesn't # exist only looks in /usr/share/aclocal. We have files in both that # are important. So copy the latter to the first, and we are good to # go. cp /usr/share/aclocal/* /usr/local/share/aclocal/ echo "::endgroup::" # The yum variant of fluidsynth depends on all possible audio drivers, # like jack, ALSA, pulseaudio, etc. This is not really useful for us, # as we route the output of fluidsynth back via our sound driver, and # as such do not use these audio driver outputs at all. # The vcpkg variant of fluidsynth depends on ALSA. Similar issue here. # So instead, we compile fluidsynth ourselves, with as few # dependencies as possible. We do it before anything else is installed, # to make sure it doesn't pick up on any of the drivers. echo "::group::Install fluidsynth" wget https://github.com/FluidSynth/fluidsynth/archive/v2.3.3.tar.gz tar xf v2.3.3.tar.gz ( cd fluidsynth-2.3.3 mkdir build cd build cmake .. -DCMAKE_BUILD_TYPE=RelWithDebInfo -DCMAKE_INSTALL_PREFIX=/usr cmake --build . -j $(nproc) cmake --install . ) echo "::endgroup::" echo "::group::Install audio drivers" # These audio libs are to make sure the SDL version of vcpkg adds # sound-support; these libraries are not added to the resulting # binary, but the headers are used to enable them in SDL. yum install -y \ alsa-lib-devel \ jack-audio-connection-kit-devel \ pulseaudio-libs-devel \ # EOF echo "::endgroup::" # We use vcpkg for our dependencies, to get more up-to-date version. echo "::group::Install vcpkg and dependencies" # We do a little dance to make sure we copy the cached install folder # into our new clone. git clone --depth=1 https://github.com/microsoft/vcpkg /vcpkg-clone if [ -e /vcpkg/installed ]; then mv /vcpkg/installed /vcpkg-clone/ rm -rf /vcpkg fi mv /vcpkg-clone /vcpkg ( cd /vcpkg ./bootstrap-vcpkg.sh -disableMetrics # Make Python3 available for other packages. ./vcpkg install python3 ln -sf $(pwd)/installed/x64-linux/tools/python3/python3.[0-9][0-9] /usr/bin/python3 ./vcpkg install \ breakpad \ curl[http2] \ fontconfig \ freetype \ harfbuzz \ icu \ liblzma \ libpng \ lzo \ nlohmann-json \ sdl2 \ zlib \ # EOF ) echo "::endgroup::" - name: Install GCC problem matcher uses: ammaraskar/gcc-problem-matcher@master - name: Build run: | mkdir -p build cd build echo "::group::CMake" cmake ${GITHUB_WORKSPACE} \ -DCMAKE_TOOLCHAIN_FILE=/vcpkg/scripts/buildsystems/vcpkg.cmake \ -DCMAKE_BUILD_TYPE=RelWithDebInfo \ -DOPTION_SURVEY_KEY=${{ inputs.survey_key }} \ -DOPTION_PACKAGE_DEPENDENCIES=ON \ # EOF echo "::endgroup::" echo "::group::Build" echo "Running on $(nproc) cores" cmake --build . -j $(nproc) --target openttd echo "::endgroup::" - name: Create bundles run: | cd ${GITHUB_WORKSPACE}/build echo "::group::Run CPack" cpack echo "::endgroup::" echo "::group::Cleanup" # Remove the sha256 files CPack generates; we will do this ourself at # the end of this workflow. rm -f bundles/*.sha256 echo "::endgroup::" - name: Store bundles uses: actions/upload-artifact@v3 with: name: openttd-linux-generic path: build/bundles retention-days: 5