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Sample Java project with runnable workflows demonstrating the cicirello/jacoco-badge-generator GitHub Action

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Runnable Workflows Demonstrating the cicirello/jacoco-badge-generator GitHub Action

The purpose of this repository includes:

  • providing a simple example of configuring the jacoco-maven-plugin,
  • providing a simple example of running jacoco in GitHub Actions as part of a build, and
  • providing runnable example workflows using the cicirello/jacoco-badge-generator GitHub Action.

Why is this Repository a Template?

I made this repository a template to make it easy for someone to use it to get started on a new project. To use this to start a new project, click the "Use this Template" button. Depending on which starter workflow you want to use, you might want to select the option to include all branches. If you are not sure, then for now include all branches. You can always delete unneeded branches afterwards.

You are also free to fork this repository if you want (e.g., if you want to contribute to it with a pull request or for some other reason, such as just trying out the workflows). Keep in mind, however, that GitHub by default disables workflows in forks. So if you fork the repository for the purpose of experimenting with the action and the provided sample workflows, then you will need to enable GitHub Actions via the actions tab of your fork.

Before You Modify Anything

All of the sample workflows are configured to run on pushes and pull requests. So if you change anything, all of the sample workflows will run. A couple of them write the same files, so if you change any of the Java files in a way that would change the coverage percentages or if you delete the badges so you can fully watch the action work, then when the workflows attempt to push you will probably end up with conflicts. If you don't change the Java files, no conflicts will occur because the existing badges won't change, so the workflows won't attempt to push anything.

Recommendation: If you want to explore the effects of modifying anything, start by commenting out the push and pull request events that trigger all of the workflows except whichever one is closest to your desired use-case).

The Maven pom.xml

The pom.xml in this repository builds a very simple program, a weird variation of Hello World, with convoluted logic to artificially create a test coverage example. If you are new to using the jacoco-maven-plugin then take a look at how it is configured. It will generate all of the variations of the JaCoCo coverage report ("html", "csv", and "xml"). It is configured to run during the test phase.

Building Locally

To build and test locally, run either of the following command at the root of the repository:

mvn clean test

or

mvn clean package

The latter will generate a jar, while the former will not. The tests and test coverage reports run in both cases. Since we are really focused on test coverage here, we don't really need the jar.

Where are the Test Coverage Reports?

Assuming you ran the build locally (see above), the build would have created a target directory (Maven's default). The target directory is in the .gitignore to ensure we don't commit any of that to the repository. You will find the JaCoCo reports at the following path: target/site/jacoco. Double-click the index.html file you see there to inspect the html version of the coverage report, which is most useful for a human viewer. It is the jacoco.csv file, however, that the cicirello/jacoco-badge-generator GitHub Action uses, which is far simpler to parse.

Summary of What the Workflows Do

The .github/workflows directory contains several example workflows that use the cicirello/jacoco-badge-generator GitHub Action. If you are new to GitHub workflows, they must be in that directory in order to run. Each workflow also contains comments explaining all of the steps of each. Here is a brief summary of each.

This is the basic use-case, which generates both the coverage and branches coverage badges storing them in the default directory, .github/badges. The workflow runs on pushes, pull requests, and can be run manually (the workflow_dispatch event). Here are the badges it produces:

coverage branches coverage

The above was inserted into this README with the following markdown:

![coverage](.github/badges/jacoco.svg)
![branches coverage](.github/badges/branches.svg)

If your main branch is protected and includes either required checks or required reviews, then the push step will fail. To get around this, one option is to see GitHub's documentation on using a personal access token (PAT) with the actions/checkout step. This is not at all an issue if your branch is protected, but doesn't have required checks or reviews. In that case, the default GITHUB_TOKEN is sufficient for the push, and a PAT is not needed.

We personally do not like the use of a PAT for circumventing required checks or reviews. After all, if you have put those in place, you have done so for a reason. And once you have the PAT in place in the repository, anyone with write access to the repository can then use it in additional workflows to bypass those protections. Therefore, some of the other sample workflows demonstrate alternatives that do not require additional access.

Pull Request to Update Badges: .github/workflows/build-pr.yml

This example is nearly identical to the basic case above. The only difference is that instead of committing and pushing the badges, it uses another action to generate a pull request to update the badges.

Why? Well, this is the simplest approach to dealing with a protected branch that has required checks and/or required reviews. The drawback is that you must then approve and merge the pull request, so this variation introduces a manual step. However, it is more secure than introducing a PAT.

If you use this approach, and use the default directory for the badges, and the default badge filenames, then you insert the badges into your README with the same markdown as the previous example:

![coverage](.github/badges/jacoco.svg)
![branches coverage](.github/badges/branches.svg)

In the previous example, using a PR to updated badges is less than ideal since it introduced an extra manual step. An alternative that eliminates that extra step, and which also works with protected branches without the need for extra access permissions, is to use a dedicated branch to store the badges. In this example, we do just that, and that branch has been named badges. This workflow pushes the badges to the badges branch. If you are using this approach in an existing project, you'll need to start by creating the badges branch. This repository already has it. Once you create the badges branch you can delete everything from it. In fact, it is preferable that you delete everything from the badges branch.

This workflow assumes that the only purpose of the badges branch is to store the coverage badges, so we'll store them at the root of that branch. The badges branch can be protected if you want. Just don't add any required checks or reviews to the badges branch. The default GITHUB_TOKEN can push to protected branches as long as there are no required checks or required reviews.

The important thing to notice in this workflow is the pair of checkout steps at the beginning. The first is the usual checkout step. The second checks out the badges branch, nesting it within the other in the path badges. In this way, locally within the remainder of the workflow run, we can access the content of the badges branch via the local badges directory.

Here are the badges that result from this workflow:

coverage branches coverage

The above badges were inserted with the following markdown:

![coverage](../badges/jacoco.svg)
![branches coverage](../badges/branches.svg)

The reason for the weird ../badges in the above links is so that we can use relative links, but GitHub automatically assumes the currently viewed branch of the README with relative links so we can go up one level to back out of the current branch and then go into the badges branch.

Do we really need the two checkout steps? Can't we just use one of the other available GitHub Actions that have the ability to push to a different branch than the one currently checkout out? Well, the answer depends upon whether you are using the optional feature of the cicirello/jacoco-badge-generator GitHub Action that enables you to use the action as a PR check, and to specify whether or not to fail the workflow run if coverage has decreased. If you are not using that feature, then you can choose to either do it this way anyway, or to use another approach to pushing to the badges branch. If you are using that feature, however, then you will need to check out both branches in this way. This is because that feature relies on the prior badges to determine if coverage has decreased (e.g., it parses those badges for the prior coverage and branches coverage).

JSON Endpoints Instead of SVG: .github/workflows/build-json.yml

This example is a variation of the basic use-case, but instead of directly generating the SVGs, it instead generates JSON endpoints in the format expected by Shields custom badge endpoint. Just like the basic use-case, it uses the default directory .github/badges.

Inserting the badges into your project's README becomes a bit more complex in this case. You must pass the URL of the JSON file to Shields as a URL query parameter. In particular, you must pass the URL of the JSON file on GitHub's raw server.

Here are the badges as generated by Shields from the JSON endpoints:

coverage branches coverage

The above badges were inserted with the following markdown:

![coverage](https://img.shields.io/endpoint?url=https://raw.githubusercontent.com/cicirello/examples-jacoco-badge-generator/main/.github/badges/jacoco.json)
![branches coverage](https://img.shields.io/endpoint?url=https://raw.githubusercontent.com/cicirello/examples-jacoco-badge-generator/main/.github/badges/branches.json)

The general format of the markdown required is as follows:

![coverage](https://img.shields.io/endpoint?url=https://raw.githubusercontent.com/USERNAME/REPOSITORY/BRANCHNAME/.github/badges/jacoco.json)
![branches coverage](https://img.shields.io/endpoint?url=https://raw.githubusercontent.com/USERNAME/REPOSITORY/BRANCHNAME/.github/badges/branches.json)

You unfortunately can't use relative paths since you need to pass the full URL to Shields. And thus, if you have created a repository from this template or forked the template repository, the example badges in this section are actually still derived from the endpoints in the original template repository.

In most cases, you will probably prefer to use the default behavior that directly generates the badges since serving the badges in that case only requires one http request per badge, while the alternative that involves passing endpoints to Shields involves two requests per badge (one to Shields, and then a second initiated by Shields to your endpoint). But one advantage of using the endpoint approach is that it gains you access to all of Shields's built-in customizations. For example, if you wanted to use one of their alternate styles, you can select that as an additional URL parameter.

Here is an example that directs Shields to use the Shields style "for-the-badge", rather than the default "flat" style:

coverage branches coverage

The markdown that was used for the above badges is as follows:

![coverage](https://img.shields.io/endpoint?url=https://raw.githubusercontent.com/cicirello/examples-jacoco-badge-generator/main/.github/badges/jacoco.json&style=for-the-badge)
![branches coverage](https://img.shields.io/endpoint?url=https://raw.githubusercontent.com/cicirello/examples-jacoco-badge-generator/main/.github/badges/branches.json&style=for-the-badge)

If your main branch has required checks or required reviews, then this workflow will fail during the push step. You can easily adapt either of the previous approaches to dealing with that to the endpoint case (e.g., either having the workflow generate a pull request, or pushing the endpoints to a different branch). In the latter case, you will need to adjust the markdown to pass the appropriate URL to Shields.

JSON Endpoints from a GitHub Pages Project Site

We do not have a specific sample workflow for this case. We don't have GitHub Pages active on this repository. However, it is a straightforward combination of the previous two examples.

First, you will take the approach from the example of the "Dedicated Badges Branch", but name the branch gh-pages. Second, go into settings for the repository and follow GitHub's directions for enabling GitHub Pages, specifically to serve from that branch. You might then include other content about your project in this branch such as API documentation, etc.

Next, modify the "Dedicated Badges Branch" workflow to generate the JSON endpoints instead of directly generating the badges, as was done in the previous example "JSON Endpoints Instead of SVG", as well as to change the badges-directory to whatever path you used on the checkout of the dedicated gh-pages branch.

Assuming you didn't enable a custom domain on your project site, the URL to the root of this project site will be of the form:

https://USERNAME.github.io/REPOSITORY

If you stored the JSON files in the root of the gh-pages branch, then the URLs to these files will be:

https://USERNAME.github.io/REPOSITORY/jacoco.json
https://USERNAME.github.io/REPOSITORY/branches.json

Note that it is very important that you don't use the default badges directory of your gh-pages branch because directories and files that start with . are not accessible from GitHub Pages.

By using GitHub Pages in combination with the JSON endpoints, we can slightly simplify the markdown needed to have Shields generate the badges, to the following:

![coverage](https://img.shields.io/endpoint?url=https://USERNAME.github.io/REPOSITORY/jacoco.json)
![branches coverage](https://img.shields.io/endpoint?url=https://USERNAME.github.io/REPOSITORY/branches.json)

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Sample Java project with runnable workflows demonstrating the cicirello/jacoco-badge-generator GitHub Action

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