GitHub Action: Setup Alpine Linux

A GitHub Action to easily set up and use a chroot-based ^[1] Alpine Linux environment in your workflows and emulate any supported CPU architecture (using QEMU).

runs-on: ubuntu-latest
steps:
  - uses: jirutka/setup-alpine@v1
    with:
      branch: v3.15

  - run: cat /etc/alpine-release
    shell: alpine.sh {0}

See more examples…

Highlights

• Easy to use and flexible

  • Add one step uses: jirutka/setup-alpine@v1 to set up the Alpine environment, for the next steps that should run in this environment, specify shell: alpine.sh {0}. See Usage examples for more.

  • You can switch between one, or even more, Alpine environments and the host system (Ubuntu) within a single job (i.e. each step can run in a different environment). This is ideal, for example, for cross-compilations.

• Emulation of non-x86 architectures

  • This couldn’t be easier; just specify input parameter arch. The action sets up QEMU user space emulator and installs Alpine Linux environment for the specified architecture. You can then build and run binaries for/from this architecture, just like on real hardware, but (significantly) slower (it’s a software emulation after all).

• No hassle with Docker images

  • You don’t have to write any Dockerfiles, for example, to cross-compile Rust crates with C dependencies.^[2]

  • No, you really don’t need any so-called “official” Docker image for gcc, nodejs, python or whatever you need… just install it using apk from Alpine packages. It is fast, really fast!

• Always up to date environment

  • The whole environment, all packages, are always installed directly from the Alpine Linux’s official repositories using apk-tools (Alpine’s package manager). There’s no intermediate layer that tends to lang behind with security fixes (such as Docker images). — You might be thinking, isn’t that slow? No, it’s faster than pulling a Docker image!

  • No, you really don’t need any Docker image to get a stable build environment. Alpine Linux provides stable releases (branches); these get just (security) fixes, no breaking changes.

• It’s simple and lightweight

  • You don’t have to worry about that on a hosted CI service, but still… This action is written in ~220 LoC and uses only basic Unix tools (chroot, mount, wget, Bash, …) and apk-tools (Alpine’s package manager). That’s it.

Parameters

Inputs

apk-tools-url

URL of the apk-tools static binary to use. It must end with #!sha256! followed by a SHA-256 hash of the file. This should normally be left at the default value.

Default: see action.yml

arch

CPU architecture to emulate using QEMU user space emulator. Allowed values are: x86_64 (native), x86 (native), aarch64, armhf ^[3], armv7, ppc64le, riscv64 ^[4], and s390x.

Default: x86_64

branch

Alpine branch (aka release) to install: vMAJOR.MINOR, latest-stable, or edge.

Example: v3.15
Default: latest-stable

extra-keys

A list of paths of additional trusted keys (for installing packages from the extra-repositories) to copy into /etc/apk/keys/. The paths should be relative to the workspace directory (the default location of your repository when using the checkout action).

Example: .keys/[email protected]

extra-repositories

A list of additional Alpine repositories to add into /etc/apk/repositories (Alpine’s official main and community repositories are always added).

Example: http://dl-cdn.alpinelinux.org/alpine/edge/testing

mirror-url

URL of an Alpine Linux mirror to fetch packages from.

Default: http://dl-cdn.alpinelinux.org/alpine

packages

A list of Alpine packages to install.

Example: build-base openssh-client
Default: no extra packages

shell-name

Name of the script to run sh in the Alpine chroot that will be added to GITHUB_PATH. This name should be used in jobs.<job_id>.steps[*].shell (e.g. shell: alpine.sh {0}) to run the step’s script in the chroot.

Default: alpine.sh

volumes

A list of directories on the host system to mount bind into the chroot. You can specify the source and destination path: <src-dir>:<dest-dir>. The <src-dir> is an absolute path of existing directory on the host system, <dest-dir> is an absolute path in the chroot (it will be created if doesn’t exist). You can omit the latter if they’re the same.

Please note that /home/runner/work (where’s your workspace located) is always mounted, don’t specify it here.

Example: ${{ steps.alpine-aarch64.outputs.root-path }}:/mnt/alpine-aarch64

Outputs

root-path

Path to the created Alpine root directory.

Usage examples

Basic usage

runs-on: ubuntu-latest
steps:
  - uses: actions/checkout@v2

  - name: Setup latest Alpine Linux
    uses: jirutka/setup-alpine@v1

  - name: Run script inside Alpine chroot as root
    run: |
      cat /etc/alpine-release
      apk add nodejs npm
    shell: alpine.sh --root {0}

  - name: Run script inside Alpine chroot as the default user (unprivileged)
    run: |
      ls -la  # as you would expect, you're in your workspace directory
      npm build
    shell: alpine.sh {0}

  - name: Run script on the host system (Ubuntu)
    run: |
      cat /etc/os-release
    shell: bash

Set up Alpine with specified packages

- uses: jirutka/setup-alpine@v1
  with:
    branch: v3.15
    packages: >
      build-base
      libgit2-dev
      meson

Set up and use Alpine for a different CPU architecture

runs-on: ubuntu-latest
steps:
  - name: Setup Alpine Linux v3.15 for aarch64
    uses: jirutka/setup-alpine@v1
    with:
      arch: aarch64
      branch: v3.15

  - name: Run script inside Alpine chroot with aarch64 emulation
    run: uname -m
    shell: alpine.sh {0}

Set up Alpine with packages from the testing repository

- uses: jirutka/setup-alpine@v1
  with:
    extra-repositories: |
      http://dl-cdn.alpinelinux.org/alpine/edge/testing
    packages: some-pkg-from-testing

Set up and use multiple Alpine environments in a single job

runs-on: ubuntu-latest
steps:
  - name: Setup latest Alpine Linux for x86_64
    uses: jirutka/setup-alpine@v1
    with:
      shell-name: alpine-x86_64.sh

  - name: Setup latest Alpine Linux for aarch64
    uses: jirutka/setup-alpine@v1
    with:
      arch: aarch64
      shell-name: alpine-aarch64.sh

  - name: Run script inside Alpine chroot
    run: uname -m
    shell: alpine-x86_64.sh {0}

  - name: Run script inside Alpine chroot with aarch64 emulation
    run: uname -m
    shell: alpine-aarch64.sh {0}

  - name: Run script on the host system (Ubuntu)
    run: cat /etc/os-release
    shell: bash

Cross-compile Rust application with system libraries

runs-on: ubuntu-latest
strategy:
  matrix:
    include:
      - rust-target: aarch64-unknown-linux-musl
        os-arch: aarch64
env:
  CROSS_SYSROOT: /mnt/alpine-${{ matrix.os-arch }}
steps:
  - uses: actions/checkout@v1

  - name: Set up Alpine Linux for ${{ matrix.os-arch }} (target arch)
    id: alpine-target
    uses: jirutka/setup-alpine@v1
    with:
      arch: ${{ matrix.os-arch }}
      branch: edge
      packages: >
        dbus-dev
        dbus-static
      shell-name: alpine-target.sh

  - name: Set up Alpine Linux for x86_64 (build arch)
    uses: jirutka/setup-alpine@v1
    with:
      arch: x86_64
      packages: >
        build-base
        pkgconf
        lld
        rustup
      volumes: ${{ steps.alpine-target.outputs.root-path }}:${{ env.CROSS_SYSROOT }}
      shell-name: alpine.sh

  - name: Install Rust stable toolchain via rustup
    run: rustup-init --target ${{ matrix.rust-target }} --default-toolchain stable --profile minimal -y
    shell: alpine.sh {0}

  - name: Build statically linked binary
    env:
      CARGO_BUILD_TARGET: ${{ matrix.rust-target }}
      CARGO_PROFILE_RELEASE_STRIP: symbols
      PKG_CONFIG_ALL_STATIC: '1'
      PKG_CONFIG_LIBDIR: ${{ env.CROSS_SYSROOT }}/usr/lib/pkgconfig
      RUSTFLAGS: -C linker=/usr/bin/ld.lld
      SYSROOT: /dummy  # workaround for https://github.com/rust-lang/pkg-config-rs/issues/102
    run: |
      # Workaround for https://github.com/rust-lang/pkg-config-rs/issues/102.
      echo -e '#!/bin/sh\nPKG_CONFIG_SYSROOT_DIR=${{ env.CROSS_SYSROOT }} exec pkgconf "$@"' \
          | install -m755 /dev/stdin pkg-config
      export PKG_CONFIG="$(pwd)/pkg-config"
      cargo build --release --locked --verbose
    shell: alpine.sh {0}

  - name: Try to run the binary
    run: ./myapp --version
    working-directory: target/${{ matrix.rust-target }}/release
    shell: alpine-target.sh {0}

History

This action is an evolution of the alpine-chroot-install script I originally wrote for Travis CI in 2016. The implementation is principally the same, but tailored to GitHub Actions. It’s so simple and fast thanks to how awesome apk-tools is!

License

This project is licensed under MIT License. For the full text of the license, see the LICENSE file.

---

1. If you don’t know what chroot is, think of it as a very simple container. It’s one of the cornerstones of containers and the only one that is actually needed for this use case.

2. The popular cross tool used by actions-rs/cargo action doesn’t allow you to easily install additional packages or whatever needed for building your crate without creating, build and maintaining custom Docker images (cross-rs/cross#281). This just impose unnecessary complexity and boilerplate.

3. armhf is armv6 with hard-float.

4. riscv64 is available since v3.20.