In the previous post, I deployed AKS, Nginx, External DNS, Helm Operator and Flux with a YAML pipeline in Azure DevOps. Flux got linked to a git repo that contains a bunch of yaml files that deploy applications to the cluster but also configures Azure Monitor. Flux essentially synchronizes your cluster with the configuration in the git repository.
In production, it is not a good idea to simply drop in some yaml and let Flux do its job. Similar to traditional software development, you want to run some tests before you deploy. For Kubernetes yaml files, kubeval is a tool that can run those tests.
I refactored the git repository to have all yaml files in a config folder. To check all yaml files in that folder, the following command can be used:
kubeval -d config --strict --ignore-missing-schemas
With -d you specify the folder (and all its subfolders) where kubeval should look for yaml files. The –strict option checks for properties in your yaml file that are not part of the official schema. If you know you need those, you can leave out –strict. With –ignore-missing-schemas, kubeval will ignore yaml files that use custom schemas not in the Kubernetes OpenAPI spec. In my case for instance, the yaml file that deploys a Helm chart (of kind HelmRelease) is such a file. You can also instruct kubeval to ignore specific “kinds” with –skip-kinds. Here’s the result of running the command:
Using a GitHub action
To automate the testing of your files, you can use any CI system like Azure DevOps, CircleCI, etc… In my case, I decided to use a GitHub action. See the getting started for more information about the basics of GitHub Actions. The action I created is easy (hey, it’s my first time using Actions 😊):
An action is defined in yaml 😉 and consists of jobs and steps, similarly to Azure DevOps and the likes. The action is run on Ubuntu (hosted by GitHub) and uses an action from the marketplace called Kubernetes toolset. You can easily search for actions in the editor:
The first step uses an action to checkout your code. Indeed, you need to do that explicitly. Then we use the Kubernetes Toolset to give us access to all kinds of Kubernetes related tools such as kubectl and kubeval. The toolset is just a container which you’ll see getting pulled at runtime. After that, we simple run kubeval in the container which will have mounted the working directory which also contains your checked out code.
In the repository settings, I added a branch protection rule that requires a pull request review before merging plus a status check that must pass (the action):
The pull request below shows a check that did not pass, a violation of the –strict setting in error.yaml:
There are many other tools and techniques that can be used to validate your configuration but this should get you started with some simple checks on yaml files.
As a last note, know that kubeval generates schemas from the Kubernetes OpenAPI specs. You can set the version of Kubernetes with the -v option.