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GitHub Action to Cross Compile Rust Projects

This action lets you easily cross-compile Rust projects using cross.

Here's a simplified example from the test and release workflow for my tool ubi:

jobs:
  release:
    name: Release - ${{ matrix.platform.os-name }}
    strategy:
      matrix:
        platform:
          - os-name: FreeBSD-x86_64
            runs-on: ubuntu-20.04
            target: x86_64-unknown-freebsd
            skip_tests: true

          - os-name: Linux-x86_64
            runs-on: ubuntu-20.04
            target: x86_64-unknown-linux-musl

          - os-name: Linux-aarch64
            runs-on: ubuntu-20.04
            target: aarch64-unknown-linux-musl

          - os-name: Linux-riscv64
            runs-on: ubuntu-20.04
            target: riscv64gc-unknown-linux-gnu

          - os-name: Windows-x86_64
            runs-on: windows-latest
            target: x86_64-pc-windows-msvc

          - os-name: macOS-x86_64
            runs-on: macOS-latest
            target: x86_64-apple-darwin

          # more targets here ...

    runs-on: ${{ matrix.platform.runs-on }}
    steps:
      - name: Checkout
        uses: actions/checkout@v3
      - name: Build binary
        uses: houseabsolute/actions-rust-cross@v0
        with:
          command: ${{ matrix.platform.command }}
          target: ${{ matrix.platform.target }}
          args: "--locked --release"
          strip: true
      - name: Publish artifacts and release
        uses: houseabsolute/actions-rust-release@v0
        with:
          executable-name: ubi
          target: ${{ matrix.platform.target }}

Note that for Linux or BSD targets, you should always set the runs-on key to an x86-64 architecture runner. If you want to do native ARM compilation, for example using ubuntu-latest-arm, then there's no point in using this action. This action is only tested on Ubuntu x86-64, Windows, and macOS runners.

Input Parameters

This action takes the following parameters:

Key Type Required? Description
command string (one of build, test, or both) no The command(s) to run. The default is build. Running the test command will fail with *BSD targets and non-x86 Windows.
target string yes The target triple to compile for. This should be one of the targets found by running rustup target list.
working-directory string no The working directory in which to run the cargo or cross commands. Defaults to the current directory (.).
toolchain string (one of stable, beta, or nightly) no The Rust toolchain version to install. The default is stable.
GITHUB_TOKEN string no Defaults to the value of ${{ github.token }}.
args string no A string-separated list of arguments to be passed to cross build, like --release --locked.
strip boolean (true or false) no If this is true, then the resulting binaries will be stripped if possible. This is only possible for binaries which weren't cross-compiled.
cross-version string no This can be used to set the version of cross to use. If specified, it should be a specific cross release tag (like v0.2.3) or a git ref (commit hash, HEAD, etc.). If this is not set then the latest released version will always be used. If this is set to a git ref then the version corresponding to that ref will be installed.

How it Works

Under the hood, this action will compile your binaries with either cargo or cross, depending on the host machine and target. For Linux builds, it will always use cross except for builds targeting an x86 architecture like x86_64 or i686.

On Windows and macOS, it's possible to compile for all supported targets out of the box, so cross will not be used on those platforms.

If it needs to install cross, it will install the latest version by downloading a release using my tool ubi. This is much faster than using cargo to build cross.

When compiling on Windows, it will do so in a Powershell environment, which can matter in some corner cases, like compiling the openssl crate with the vendored feature.

Finally, it will run strip to strip the binaries if the strip parameter is true. This is only possible for builds that are not done via cross. In addition, Windows builds for aarch64 cannot be stripped either.

Caching Rust Compilation Output

You can use the Swatinem/rust-cache action with this one seamlessly, whether or not a specific build target needs cross. There is no special configuration that you need for this. It just works.