Execute your Gradle build and trigger dependency submission
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.github/workflows Reduce the number of automated comments left on PR 2021-12-17 10:49:41 -07:00
__tests__ Extract cache-reporting into separate file 2021-12-08 15:09:26 -07:00
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patches Update all outdated dependencies 2021-12-02 14:35:52 -07:00
src Allow action to be used without Gradle invocation 2021-12-17 10:29:58 -07:00
.eslintignore Add various js build configs 2020-06-13 12:46:29 +02:00
.eslintrc.json Update all outdated dependencies 2021-12-02 14:35:52 -07:00
.gitignore Ignore .tool-versions directory 2021-07-20 11:20:21 -06:00
.prettierignore Add various js build configs 2020-06-13 12:46:29 +02:00
.prettierrc.json Allow source files to contain lines up to 120 characters 2021-10-29 07:50:06 -06:00
action.yml Cache wrapper zips and generated jars individually 2021-12-08 14:05:13 -07:00
CODE_OF_CONDUCT.md add code of conduct 2019-09-21 20:57:04 +02:00
jest.config.js Add various js build configs 2020-06-13 12:46:29 +02:00
jest.setup.js Add various js build configs 2020-06-13 12:46:29 +02:00
LICENSE Initial commit 2019-09-20 23:06:59 +02:00
package-lock.json Update all outdated dependencies 2021-12-02 14:35:52 -07:00
package.json Update all outdated dependencies 2021-12-02 14:35:52 -07:00
README.md Update README for use without Gradle execution 2021-12-17 10:29:59 -07:00
tsconfig.json Split action, step 1 2020-06-13 13:30:20 +02:00

Execute Gradle builds in GitHub Actions workflows

This GitHub Action can be used to configure Gradle and optionally execute a Gradle build on any platform supported by GitHub Actions.

Usage

The following workflow will run ./gradlew build on ubuntu, macos and windows. The only prerequisite is to have Java installed: you define the version of Java you need to run the build using the actions/setup-java action.

# .github/workflows/gradle-build-pr.yml
name: Run Gradle on PRs
on: pull_request
jobs:
  gradle:
    strategy:
      matrix:
        os: [ubuntu-latest, macos-latest, windows-latest]
    runs-on: ${{ matrix.os }}
    steps:
    - uses: actions/checkout@v2
    - uses: actions/setup-java@v1
      with:
        java-version: 11
    - uses: gradle/gradle-build-action@v2
      with:
        arguments: build

The gradle-build-action can also be used for caching Gradle state without owning the actual Gradle execution. The following workflow is effectively the same as the one above, but supports full scripting of the Gradle invocation.

# .github/workflows/gradle-build-pr.yml
name: Run Gradle on PRs
on: pull_request
jobs:
  gradle:
    strategy:
      matrix:
        os: [ubuntu-latest, macos-latest, windows-latest]
    runs-on: ${{ matrix.os }}
    steps:
    - uses: actions/checkout@v2
    - uses: actions/setup-java@v1
      with:
        java-version: 11
    - uses: gradle/gradle-build-action@v2
    - run: ./gradlew build

It is possible to configure multiple Gradle executions to run sequentially in the same job. Each invocation will start its run with the filesystem state remaining from the previous execution.

- uses: gradle/gradle-build-action@v2
  with:
    arguments: assemble
- uses: gradle/gradle-build-action@v2
  with:
    arguments: check

The same can be achieved with a single gradle-build-action step and multiple run steps.

- uses: gradle/gradle-build-action@v2
- run: ./gradlew assemble
- run: ./gradlew check

Why is this better than running Gradle directly?

It is possible to directly invoke Gradle in your workflow, and the setup-java action provides a simple way to cache Gradle dependencies.

However, the gradle-build-action offers a number of advantages over this approach:

The gradle-build-action is designed to provide these benefits with minimal configuration. These features work both when Gradle is executed via the gradle-build-action and for any Gradle execution in subsequent steps.

Gradle Installation

The gradle-build-action will download and install a specified Gradle version, adding this installed version to the PATH. Downloaded Gradle versions are stored in the GitHub Actions cache, to avoid requiring downloading again later.

 - uses: gradle/gradle-build-action@v2
   with:
     gradle-version: 6.5

The gradle-version parameter can be set to any valid Gradle version.

Moreover, you can use the following aliases:

Alias Selects
wrapper The Gradle wrapper's version (default, useful for matrix builds)
current The current stable release
release-candidate The current release candidate if any, otherwise fallback to current
nightly The latest nightly, fails if none.
release-nightly The latest release nightly, fails if none.

This can be handy to automatically verify your build works with the latest release candidate of Gradle:

# .github/workflows/test-gradle-rc.yml
name: Test latest Gradle RC
on:
  schedule:
    - cron: 0 0 * * * # daily
jobs:
  gradle-rc:
    runs-on: ubuntu-latest
    steps:
    - uses: actions/checkout@v2
    - uses: actions/setup-java@v1
      with:
        java-version: 11
    - uses: gradle/gradle-build-action@v2
      with:
        gradle-version: release-candidate
    - run: gradle build --dry-run # just test build configuration

Gradle Execution

If the action is configured with an arguments input, then Gradle will execute a Gradle build with the arguments provided.

If no arguments are provided, the action will not execute Gradle, but will still cache Gradle state and configure build-scan capture for all subsequent Gradle executions.

Gradle command-line arguments

The arguments input can used to pass arbitrary arguments to the gradle command line. Arguments can be supplied in a single line, or as a multi-line input.

Here are some valid examples:

arguments: build
arguments: check --scan
arguments: some arbitrary tasks
arguments: build -PgradleProperty=foo
arguments: |
    build
    --scan
    -PgradleProperty=foo
    -DsystemProperty=bar    

If you need to pass environment variables, use the GitHub Actions workflow syntax:

- uses: gradle/gradle-build-action@v2
  env:
    CI: true
  with:
    arguments: build

Gradle build located in a subdirectory

By default, the action will execute Gradle in the root directory of your project. Use the build-root-directory input to target a Gradle build in a subdirectory.

- uses: gradle/gradle-build-action@v2
  with:
    arguments: build
    build-root-directory: some/subdirectory

Using a specific Gradle executable

The action will first look for a Gradle wrapper script in the root directory of your project. If not found, gradle will be executed from the PATH. Use the gradle-executable input to execute using a specific Gradle installation.

 - uses: gradle/gradle-build-action@v2
   with:
     arguments: build
     gradle-executable: /path/to/installed/gradle

This mechanism can also be used to target a Gradle wrapper script that is located in a non-default location.

Caching

By default, this action aims to cache any and all reusable state that may be speed up a subsequent build invocation.

The state that is cached includes:

  • Any distributions downloaded to satisfy a gradle-version parameter ;
  • A subset of the Gradle User Home directory, including downloaded dependencies, wrapper distributions, and the local build cache ;
  • Any configuration-cache data stored in the project .gradle directory.

To reduce the space required for caching, this action makes a best effort to reduce duplication in cache entries.

Caching is enabled by default. You can disable caching for the action as follows:

cache-disabled: true

Cache keys

For distributions downloaded to satisfy a gradle-version parametere are stored outside of Gradle User Home and cached separately. The cache key is unique to the downloaded distribution and will not change over time.

The state of the Gradle User Home and configuration-cache are highly dependent on the Gradle execution, so the cache key is composed of the current commit hash and the GitHub actions job id. As such, the cache key is likely to change on each subsequent run of GitHub actions. This allows the most recent state to always be available in the GitHub actions cache.

To reduce duplication between cache entries, certain artifacts are cached independently based on their identity. Artifacts that are cached independently include downloaded dependencies, downloaded wrapper distributions and generated Gradle API jars. For example, this means that all jobs executing a particular version of the Gradle wrapper will share common entries for wrapper distributions and for generated Gradle API jars.

Using the caches read-only

In some circumstances, it makes sense for a Gradle invocation to read any existing cache entries but not to write changes back. For example, you may want to write cache entries for builds on your main branch, but not for any PR build invocations.

You can enable read-only caching for any of the caches as follows:

# Only write to the cache for builds on the 'main' branch.
# Builds on other branches will only read existing entries from the cache.
cache-read-only: ${{ github.ref != 'refs/heads/main' }}

Gradle User Home cache tuning

As well as any wrapper distributions, the action will attempt to save and restore the caches and notifications directories from Gradle User Home.

The contents to be cached can be fine tuned by including and excluding certain paths with Gradle User Home.

# Cache downloaded JDKs in addition to the default directories.
gradle-home-cache-includes: |
    caches
    notifications
    jdks    
# Exclude the local build-cache from the directories cached.
gradle-home-cache-excludes: |
    caches/build-cache-1    

You can specify any number of fixed paths or patterns to include or exclude. File pattern support is documented at https://docs.github.com/en/actions/learn-github-actions/workflow-syntax-for-github-actions#patterns-to-match-file-paths.

Cache debugging and analysis

Gradle User Home state will be restored from the cache during the first gradle-build-action step for any workflow job. This state will be saved back to the cache at the end of the job, after all Gradle executions have completed. A report of all cache entries restored and saved is printed to the action log when saving the cache entries. This report can provide valuable insignt into how much cache space is being used.

It is possible to enable additional debug logging for cache operations. You do via the GRADLE_BUILD_ACTION_CACHE_DEBUG_ENABLED environment variable:

env:
  GRADLE_BUILD_ACTION_CACHE_DEBUG_ENABLED: true

Note that this setting will also prevent certain cache operations from running in parallel, further assisting with debugging.

Optimizing cache effectiveness

Cache storage space for GitHub actions is limited, and writing new cache entries can trigger the deletion of exising entries. Eviction of shared cache entries can reduce cache effectiveness, slowing down your gradle-build-action steps.

There are a number of actions you can take if your cache use is less effective due to entry eviction.

Only write to the cache from the default branch

GitHub cache entries are not shared between builds on different branches. This means that identical cache entries will be stored separately for different branches. The exception to the is cache entries for the default (master/main) branch can be read by actions invoked for other branches.

An easy way to reduce cache usage when you run builds on many different branches is to only permit your default branch to write to the cache, with all other branch builds using cache-read-only. See Using the caches read-only for more details.

Similarly, you could use cache-read-only for certain jobs in the workflow, and instead have these jobs reuse the cache content from upstream jobs.

Exclude content from Gradle User Home cache

Each build is different, and some builds produce more Gradle User Home content than others. Cache debugging can provide insight into which cache entries are the largest, and you can selectively exclude content using gradle-home-cache-exclude.

Build scans

If your build publishes a build scan the gradle-build-action action will:

  • Add a notice with the link to the GitHub Actions user interface
  • For each step that executes Gradle, adds the link to the published build scan as a Step output named build-scan-url.

You can then use that link in subsequent actions of your workflow. For example:

# .github/workflows/gradle-build-pr.yml
name: Run Gradle on PRs
on: pull_request
jobs:
  gradle:
    runs-on: ubuntu-latest
    steps:
    - uses: actions/checkout@v2
    - uses: actions/setup-java@v1
      with:
        java-version: 11
    - uses: gradle/gradle-build-action@v2
    - id: gradle
      run: ./gradlew build
    - name: "Comment build scan url"
      uses: actions/github-script@v3
      if: github.event_name == 'pull_request' && failure()
      with:
        github-token: ${{secrets.GITHUB_TOKEN}}
        script: |
          github.issues.createComment({
            issue_number: context.issue.number,
            owner: context.repo.owner,
            repo: context.repo.repo,
            body: '❌ ${{ github.workflow }} failed: ${{ steps.gradle.outputs.build-scan-url }}'
          })