GitHub Action
Run on architecture
A GitHub Action that executes commands on non-x86 CPU architecture (armv6, armv7, aarch64, s390x, ppc64le) via QEMU.
This action requires three input parameters:
arch
: CPU architecture:armv6
,armv7
,aarch64
,riscv64
,s390x
, orppc64le
. See Supported Platforms for the full matrix.distro
: Linux distribution name:ubuntu16.04
,ubuntu18.04
,ubuntu20.04
,bullseye
,buster
,stretch
,jessie
,fedora_latest
,alpine_latest
orarcharm_latest
. See Supported Platforms for the full matrix.run
: Shell commands to execute in the container.
The action also accepts some optional input parameters:
githubToken
: Your GitHub token, used for caching Docker images in your project's public package registry. Usually this would just be${{ github.token }}
. This speeds up subsequent builds and is highly recommended.env
: Environment variables to propagate to the container. YAML, but must begin with a|
character. These variables will be available in both run and setup.shell
: The shell to run commands with in the container. Default:/bin/sh
on Alpine,/bin/bash
for other distros.dockerRunArgs
: Additional arguments to pass todocker run
, such as volume mappings. Seedocker run
documentation.setup
: Shell commands to execute on the host before running the container, such as creating directories for volume mappings.install
: Shell commands to execute in the container as part ofdocker build
, such as installing dependencies. This speeds up subsequent builds ifgithubToken
is also used, but note that the image layer will be publicly available in your projects GitHub Package Registry, so make sure the resulting image does not have any secrets cached in logs or state.
A basic example that sets an output variable for use in subsequent steps:
on: [push, pull_request]
jobs:
armv7_job:
# The host should always be Linux
runs-on: ubuntu-18.04
name: Build on ubuntu-18.04 armv7
steps:
- uses: actions/checkout@v3
- uses: uraimo/run-on-arch-action@v2
name: Run commands
id: runcmd
with:
arch: armv7
distro: ubuntu18.04
# Not required, but speeds up builds by storing container images in
# a GitHub package registry.
githubToken: ${{ github.token }}
# Set an output parameter `uname` for use in subsequent steps
run: |
uname -a
echo ::set-output name=uname::$(uname -a)
- name: Get the output
# Echo the `uname` output parameter from the `runcmd` step
run: |
echo "The uname output was ${{ steps.runcmd.outputs.uname }}"
This shows how to use a matrix to produce platform-specific artifacts, and includes example values for the optional input parameters setup
, shell
, env
, and dockerRunArgs
.
on: [push, pull_request]
jobs:
build_job:
# The host should always be linux
runs-on: ubuntu-18.04
name: Build on ${{ matrix.distro }} ${{ matrix.arch }}
# Run steps on a matrix of 3 arch/distro combinations
strategy:
matrix:
include:
- arch: aarch64
distro: ubuntu18.04
- arch: ppc64le
distro: alpine_latest
- arch: s390x
distro: fedora_latest
steps:
- uses: actions/checkout@v3
- uses: uraimo/run-on-arch-action@v2
name: Build artifact
id: build
with:
arch: ${{ matrix.arch }}
distro: ${{ matrix.distro }}
# Not required, but speeds up builds
githubToken: ${{ github.token }}
# Create an artifacts directory
setup: |
mkdir -p "${PWD}/artifacts"
# Mount the artifacts directory as /artifacts in the container
dockerRunArgs: |
--volume "${PWD}/artifacts:/artifacts"
# Pass some environment variables to the container
env: | # YAML, but pipe character is necessary
artifact_name: git-${{ matrix.distro }}_${{ matrix.arch }}
# The shell to run commands with in the container
shell: /bin/sh
# Install some dependencies in the container. This speeds up builds if
# you are also using githubToken. Any dependencies installed here will
# be part of the container image that gets cached, so subsequent
# builds don't have to re-install them. The image layer is cached
# publicly in your project's package repository, so it is vital that
# no secrets are present in the container state or logs.
install: |
case "${{ matrix.distro }}" in
ubuntu*|jessie|stretch|buster|bullseye)
apt-get update -q -y
apt-get install -q -y git
;;
fedora*)
dnf -y update
dnf -y install git which
;;
alpine*)
apk update
apk add git
;;
esac
# Produce a binary artifact and place it in the mounted volume
run: |
cp $(which git) "/artifacts/${artifact_name}"
echo "Produced artifact at /artifacts/${artifact_name}"
- name: Show the artifact
# Items placed in /artifacts in the container will be in
# ${PWD}/artifacts on the host.
run: |
ls -al "${PWD}/artifacts"
This table details the valid arch
/distro
combinations:
arch | distro |
---|---|
armv6 | jessie, stretch, buster, bullseye, alpine_latest |
armv7 | jessie, stretch, buster, bullseye, ubuntu16.04, ubuntu18.04, ubuntu20.04, ubuntu22.04, ubuntu_latest, ubuntu_rolling, ubuntu_devel, fedora_latest, alpine_latest, archarm_latest |
aarch64 | stretch, buster, bullseye, ubuntu16.04, ubuntu18.04, ubuntu20.04, ubuntu22.04, ubuntu_latest, ubuntu_rolling, ubuntu_devel, fedora_latest, alpine_latest, archarm_latest |
riscv64 | ubuntu20.04, ubuntu22.04, ubuntu_latest, ubuntu_rolling, ubuntu_devel, alpine_edge |
s390x | jessie, stretch, buster, bullseye, ubuntu16.04, ubuntu18.04, ubuntu20.04, ubuntu22.04, ubuntu_latest, ubuntu_rolling, ubuntu_devel, fedora_latest, alpine_latest |
ppc64le | jessie, stretch, buster, bullseye, ubuntu16.04, ubuntu18.04,ubuntu20.04, ubuntu22.04, ubuntu_latest, ubuntu_rolling, ubuntu_devel, fedora_latest, alpine_latest |
Using an invalid arch
/distro
combination will fail.
This project makes use of an additional QEMU container to be able to emulate via software architectures like ARM, s390x, ppc64le, etc... that are not natively supported by GitHub. You should keep this into consideration when reasoning about the expected running time of your jobs, there will be a visible impact on performance when compared to a job executed on a vanilla runner.
New distros and archs can be added simply by creating a Dockerfile named Dockerfile.{arch}.{distro}
(that targets an image for the desired combination) in the Dockerfiles directory. Pull requests welcome!
And many other contributors.
This project is licensed under the BSD 3-Clause License.