# github-builder-experimental **Repository Path**: mirrors_docker/github-builder-experimental ## Basic Information - **Project Name**: github-builder-experimental - **Description**: Official Docker-maintained reusable GitHub Actions workflows - **Primary Language**: Unknown - **License**: Apache-2.0 - **Default Branch**: main - **Homepage**: None - **GVP Project**: No ## Statistics - **Stars**: 0 - **Forks**: 0 - **Created**: 2025-11-15 - **Last Updated**: 2025-12-27 ## Categories & Tags **Categories**: Uncategorized **Tags**: None ## README [![Test build workflow](https://img.shields.io/github/actions/workflow/status/docker/github-builder-experimental/.test-build.yml?label=test%20build&logo=github&style=flat-square)](https://github.com/docker/github-builder-experimental/actions?workflow=.test-build) [![Test bake workflow](https://img.shields.io/github/actions/workflow/status/docker/github-builder-experimental/.test-bake.yml?label=test%20bake&logo=github&style=flat-square)](https://github.com/docker/github-builder-experimental/actions?workflow=.test-bake) > [!CAUTION] > Do not use it for your production workflows yet! ## :test_tube: Experimental This repository is considered **EXPERIMENTAL** and under active development until further notice. It is subject to non-backward compatible changes or removal in any future version. ___ * [Overview](#overview) * [Key Advantages](#key-advantages) * [Performance](#performance) * [Security](#security) * [Isolation & Reliability](#isolation--reliability) * [Usage](#usage) * [Build reusable workflow](#build-reusable-workflow) * [Inputs](#inputs) * [Secrets](#secrets) * [Bake reusable workflow](#bake-reusable-workflow) * [Inputs](#inputs) * [Secrets](#secrets) ## Overview This repository provides official Docker-maintained [reusable GitHub Actions workflows](https://docs.github.com/en/actions/how-tos/reuse-automations/reuse-workflows) to securely build container images and artifacts using Docker best practices. The reusable workflows incorporate functionality from our GitHub Actions like [`docker/build-push-action`](https://github.com/docker/build-push-action/), [`docker/metadata-action`](https://github.com/docker/metadata-action/), etc., into a single workflow: ```yaml name: ci permissions: contents: read on: push: branches: - 'main' tags: - 'v*' pull_request: build: uses: docker/github-builder-experimental/.github/workflows/build.yml@main permissions: contents: read # to fetch the repository content id-token: write # for signing attestation(s) with GitHub OIDC Token with: output: image push: ${{ github.event_name != 'pull_request' }} meta-images: name/app secrets: registry-auths: | - registry: docker.io username: ${{ vars.DOCKERHUB_USERNAME }} password: ${{ secrets.DOCKERHUB_TOKEN }} ``` This workflow provides a trusted BuildKit instance and generates signed SLSA-compliant provenance attestations, guaranteeing the build happened from the source commit and all build steps ran in isolated sandboxed environments from immutable sources. This enables GitHub projects to follow a seamless path toward higher levels of security and trust. ## Key Advantages ### Performance * **Native parallelization for multi-platform builds.** Workflows can automatically distribute builds across runners based on target platform to be built, improving throughput for other architectures without requiring emulation or [custom CI logic](https://docs.docker.com/build/ci/github-actions/multi-platform/#distribute-build-across-multiple-runners) or self-managed runners. * **Centralized build configuration.** Repositories no longer need to configure buildx drivers, tune storage, or adjust resource limits. The reusable workflows encapsulate the recommended configuration, providing fast, consistent builds across any project that opts in. ### Security * **Trusted workflows in the Docker organization.** Builds are executed by reusable workflows defined in the [**@docker**](https://github.com/docker) organization, not by arbitrary user-defined workflow steps. Consumers can rely on GitHub's trust model and repository protections on the Docker side (branch protection, code review, signing, etc.) to reason about who controls the build logic. * **Verifiable, immutable sources.** The workflows use the GitHub OIDC token and the exact commit SHA to obtain source and to bind it into SLSA provenance. This ensures that the build is tied to the repository contents as checked in—no additional CI step can silently swap out what is being built. * **Signed SLSA provenance for every build.** BuildKit generates [SLSA-compliant provenance attestation](https://docs.docker.com/build/metadata/attestations/slsa-provenance/) artifacts that are signed with an identity bound to the GitHub workflow. Downstream consumers can verify: - which builder commit produced the image - which source code commit produced the image - which workflow and job executed the build - what inputs and build parameters were used * **Protection from user workflow tampering.** The build steps are pre-defined and optimized in the reusable workflow, and cannot be altered by user configuration. This protects against tampering: preventing untrusted workflow steps from modifying build logic, injecting unexpected flags, or producing misleading provenance. ### Isolation & Reliability * **Separation between user CI logic and build logic.** The user's workflow orchestrates *when* to build but not *how* to build. The actual build steps live in the Docker-maintained reusable workflows, which cannot be modified from the consuming repository. * **Immutable, reproducible build pipeline.** Builds are driven by declarative inputs (repository commit, build configuration, workflow version). This leads to: - reproducibility (same workflow + same inputs → same outputs) - auditability (inputs and workflow identity recorded in provenance) - reliability (less dependence on ad-hoc per-repo CI scripting) * **Reduced CI variability and config drift.** By reusing the same workflows, projects avoid maintaining custom build logic per repository. Caching, provenance, SBOM generation, and build settings behave uniformly across all adopters. * **Higher assurance for downstream consumers.** Because artifacts are produced by a workflow in the [**@docker**](https://github.com/docker) organization, with SLSA provenance attached, consumers can verify both the *source commit* and the *builder identity* before trusting or promoting an image, an essential part of supply-chain hardening. ## Usage ### Build reusable workflow The [`build.yml` reusable workflow](.github/workflows/build.yml) lets you build container images and artifacts from a Dockerfile with a user experience similar to [`docker/build-push-action`](https://github.com/docker/build-push-action/). It provides a Docker-maintained, opinionated build pipeline that applies best practices for security, performance, and reliability by default, including isolated execution and signed SLSA provenance while keeping per-repository configuration minimal. ```yaml name: ci permissions: contents: read on: push: branches: - 'main' tags: - 'v*' pull_request: build: uses: docker/github-builder-experimental/.github/workflows/build.yml@main permissions: contents: read # to fetch the repository content id-token: write # for signing attestation(s) with GitHub OIDC Token with: output: image push: ${{ github.event_name != 'pull_request' }} platforms: linux/amd64,linux/arm64 meta-images: name/app meta-tags: | type=ref,event=branch type=ref,event=pr type=semver,pattern={{version}} secrets: registry-auths: | - registry: docker.io username: ${{ vars.DOCKERHUB_USERNAME }} password: ${{ secrets.DOCKERHUB_TOKEN }} # Optional job to verify the pushed images' signatures. This is already done # in the `build` job and can be omitted. It's provided here as an example of # how to use the `verify.yml` reusable workflow. build-verify: uses: docker/github-builder-experimental/.github/workflows/verify.yml@main if: ${{ github.event_name != 'pull_request' }} needs: - build with: builder-outputs: ${{ toJSON(needs.build.outputs) }} secrets: registry-auths: | - registry: docker.io username: ${{ vars.DOCKERHUB_USERNAME }} password: ${{ secrets.DOCKERHUB_TOKEN }} ``` #### Inputs > [!NOTE] > `List` type is a newline-delimited string > ```yaml > cache-from: | > user/app:cache > type=local,src=path/to/dir > ``` > > `CSV` type is a comma-delimited string > ```yaml > tags: name/app:latest,name/app:1.0.0 > ``` | Name | Type | Default | Description | |------------------------|----------|--------------------------------|---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------| | `runner` | String | `auto` | [Ubuntu GitHub Hosted Runner](https://github.com/actions/runner-images?tab=readme-ov-file#available-images) to build on (one of `auto`, `amd64`, `arm64`). The `auto` runner selects the best-matching runner based on target `platforms`. You can set it to `amd64` if your build doesn't require emulation (e.g. cross-compilation) | | `setup-qemu` | Bool | `false` | Runs the `setup-qemu-action` step to install QEMU static binaries | | `artifact-name` | String | `docker-github-builder-assets` | Name of the uploaded GitHub artifact (for `local` output) | | `artifact-upload` | Bool | `false` | Upload build output GitHub artifact (for `local` output) | | `annotations` | List | | List of annotations to set to the image (for `image` output) | | `build-args` | List | `auto` | List of [build-time variables](https://docs.docker.com/engine/reference/commandline/buildx_build/#build-arg). If you want to set a build-arg through an environment variable, use the `envs` input | | `context` | String | `.` | Context to build from in the Git working tree | | `file` | String | `{context}/Dockerfile` | Path to the Dockerfile | | `labels` | List | | List of labels for an image (for `image` output) | | `output` | String | | Build output destination (one of [`image`](https://docs.docker.com/build/exporters/image-registry/) or [`local`](https://docs.docker.com/build/exporters/local-tar/)). Unlike the `build-push-action`, it only accepts `image` or `local`. The reusable workflow takes care of setting the `outputs` attribute | | `platforms` | List/CSV | | List of [target platforms](https://docs.docker.com/engine/reference/commandline/buildx_build/#platform) to build | | `push` | Bool | `false` | [Push](https://docs.docker.com/engine/reference/commandline/buildx_build/#push) image to the registry (for `image` output) | | `sbom` | Bool | `false` | Generate [SBOM](https://docs.docker.com/build/attestations/sbom/) attestation for the build | | `shm-size` | String | | Size of [`/dev/shm`](https://docs.docker.com/engine/reference/commandline/buildx_build/#shm-size) (e.g., `2g`) | | `sign` | String | `auto` | Sign attestation manifest for `image` output or artifacts for `local` output, can be one of `auto`, `true` or `false`. The `auto` mode will enable signing if `push` is enabled for pushing the `image` or if `artifact-upload` is enabled for uploading the `local` build output as GitHub Artifact | | `target` | String | | Sets the target stage to build | | `ulimit` | List | | [Ulimit](https://docs.docker.com/engine/reference/commandline/buildx_build/#ulimit) options (e.g., `nofile=1024:1024`) | | `set-meta-annotations` | Bool | `false` | Append OCI Image Format Specification annotations generated by `docker/metadata-action` | | `set-meta-labels` | Bool | `false` | Append OCI Image Format Specification labels generated by `docker/metadata-action` | | `meta-images` | List | | [List of images](https://github.com/docker/metadata-action?tab=readme-ov-file#images-input) to use as base name for tags (required for image output) | | `meta-tags` | List | | [List of tags](https://github.com/docker/metadata-action?tab=readme-ov-file#tags-input) as key-value pair attributes | | `meta-flavor` | List | | [Flavor](https://github.com/docker/metadata-action?tab=readme-ov-file#flavor-input) defines a global behavior for `meta-tags` | #### Secrets | Name | Default | Description | |------------------|-----------------------|--------------------------------------------------------------------------------| | `registry-auths` | | Raw authentication to registries, defined as YAML objects (for `image` output) | | `github-token` | `${{ github.token }}` | GitHub Token used to authenticate against the repository for Git context | ### Bake reusable workflow The [`bake.yml` reusable workflow](.github/workflows/build.yml) lets you build container images and artifacts from a [Bake definition](https://docs.docker.com/build/bake/) with a user experience similar to [`docker/bake-action`](https://github.com/docker/bake-action/). It provides a Docker-maintained, opinionated build pipeline that applies best practices for security, performance, and reliability by default, including isolated execution and signed SLSA provenance while keeping per-repository configuration minimal. ```yaml name: ci permissions: contents: read on: push: branches: - 'main' tags: - 'v*' pull_request: bake: uses: docker/github-builder-experimental/.github/workflows/bake.yml@main permissions: contents: read # to fetch the repository content id-token: write # for signing attestation(s) with GitHub OIDC Token with: output: image push: ${{ github.event_name != 'pull_request' }} meta-images: name/app meta-tags: | type=ref,event=branch type=ref,event=pr type=semver,pattern={{version}} secrets: registry-auths: | - registry: docker.io username: ${{ vars.DOCKERHUB_USERNAME }} password: ${{ secrets.DOCKERHUB_TOKEN }} # Optional job to verify the pushed images' signatures. This is already done # in the `bake` job and can be omitted. It's provided here as an example of # how to use the `verify.yml` reusable workflow. bake-verify: uses: docker/github-builder-experimental/.github/workflows/verify.yml@main if: ${{ github.event_name != 'pull_request' }} needs: - bake with: builder-outputs: ${{ toJSON(needs.bake.outputs) }} secrets: registry-auths: | - registry: docker.io username: ${{ vars.DOCKERHUB_USERNAME }} password: ${{ secrets.DOCKERHUB_TOKEN }} ``` #### Inputs > `List` type is a newline-delimited string > ```yaml > set: target.args.mybuildarg=value > ``` > ```yaml > set: | > target.args.mybuildarg=value > foo*.args.mybuildarg=value > ``` | Name | Type | Default | Description | |------------------------|--------|--------------------------------|---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------| | `runner` | String | `auto` | [Ubuntu GitHub Hosted Runner](https://github.com/actions/runner-images?tab=readme-ov-file#available-images) to build on (one of `auto`, `amd64`, `arm64`). The `auto` runner selects the best-matching runner based on target `platforms`. You can set it to `amd64` if your build doesn't require emulation (e.g. cross-compilation) | | `setup-qemu` | Bool | `false` | Runs the `setup-qemu-action` step to install QEMU static binaries | | `artifact-name` | String | `docker-github-builder-assets` | Name of the uploaded GitHub artifact (for `local` output) | | `artifact-upload` | Bool | `false` | Upload build output GitHub artifact (for `local` output) | | `context` | String | `.` | Context to build from in the Git working tree | | `files` | List | `{context}/docker-bake.hcl` | List of bake definition files | | `output` | String | | Build output destination (one of [`image`](https://docs.docker.com/build/exporters/image-registry/) or [`local`](https://docs.docker.com/build/exporters/local-tar/)). | | `push` | Bool | `false` | Push image to the registry (for `image` output) | | `sbom` | Bool | `false` | Generate [SBOM](https://docs.docker.com/build/attestations/sbom/) attestation for the build | | `set` | List | | List of [target values to override](https://docs.docker.com/engine/reference/commandline/buildx_bake/#set) (e.g., `targetpattern.key=value`) | | `sign` | String | `auto` | Sign attestation manifest for `image` output or artifacts for `local` output, can be one of `auto`, `true` or `false`. The `auto` mode will enable signing if `push` is enabled for pushing the `image` or if `artifact-upload` is enabled for uploading the `local` build output as GitHub Artifact | | `target` | String | `default` | Bake target to build | | `set-meta-annotations` | Bool | `false` | Append OCI Image Format Specification annotations generated by `docker/metadata-action` | | `set-meta-labels` | Bool | `false` | Append OCI Image Format Specification labels generated by `docker/metadata-action` | | `meta-images` | List | | [List of images](https://github.com/docker/metadata-action?tab=readme-ov-file#images-input) to use as base name for tags (required for image output) | | `meta-tags` | List | | [List of tags](https://github.com/docker/metadata-action?tab=readme-ov-file#tags-input) as key-value pair attributes | | `meta-labels` | List | | [List of custom labels](https://github.com/docker/metadata-action?tab=readme-ov-file#overwrite-labels-and-annotations) | | `meta-annotations` | List | | [List of custom annotations](https://github.com/docker/metadata-action?tab=readme-ov-file#overwrite-labels-and-annotations) | | `meta-flavor` | List | | [Flavor](https://github.com/docker/metadata-action?tab=readme-ov-file#flavor-input) defines a global behavior for `meta-tags` | #### Secrets | Name | Default | Description | |------------------|-----------------------|--------------------------------------------------------------------------------| | `registry-auths` | | Raw authentication to registries, defined as YAML objects (for `image` output) | | `github-token` | `${{ github.token }}` | GitHub Token used to authenticate against the repository for Git context |