# Developer Instructions This document covers basic needs to work with Kyverno codebase. It contains instructions to build, run, and test Kyverno. - [Tools](#tools) - [Building local binaries](#building-local-binaries) - [Building kyvernopre locally](#building-kyvernopre-locally) - [Building kyverno locally](#building-kyverno-locally) - [Building cli locally](#building-cli-locally) - [Building local images](#building-local-images) - [Building local images with ko](#building-local-images-with-ko) - [Pushing images](#pushing-images) - [Pushing images with ko](#pushing-images-with-ko) - [Deploying a local build](#deploying-a-local-build) - [Create a local cluster](#create-a-local-cluster) - [Build and load local images](#build-and-load-local-images) - [Deploy with helm](#deploy-with-helm) - [Code generation](#code-generation) - [Generating kubernetes API client](#generating-kubernetes-api-client) - [Generating API deep copy functions](#generating-api-deep-copy-functions) - [Generating CRD definitions](#generating-crd-definitions) - [Generating API docs](#generating-api-docs) - [Generating helm charts CRDs](#generating-helm-charts-crds) - [Generating helm charts docs](#generating-helm-charts-docs) - [Debugging local code](#debugging-local-code) ## Tools Building and/or testing Kyverno requires additional tooling. We use `make` to simplify installing the tools we use. Tools will be installed in the `.tools` folder when possible, this allows keeping installed tools local to the Kyverno repository. The `.tools` folder is ignored by `git` and binaries should not be committed. > **Note**: If you don't install tools, they will be downloaded/installed as necessary when running `make` targets. You can manually install tools by running: ```console make install-tools ``` To remove installed tools, run: ```console make clean-tools ``` ## Building local binaries The Kyverno repository contains code for three different binaries: - [`kyvernopre`](#building-kyvernopre-locally): Binary to update/cleanup existing resources in clusters. This is typically run as an init container before Kyverno controller starts. - [`kyverno`](#building-kyverno-locally): The Kyverno controller binary. - [`cli`](#building-cli-locally): The Kyverno command line interface. > **Note**: You can build all binaries at once by running `make build-all`. ### Building kyvernopre locally To build `kyvernopre` binary on your local system, run: ```console make build-kyvernopre ``` The binary should be created at `./cmd/initContainer/kyvernopre`. ### Building kyverno locally To build `kyverno` binary on your local system, run: ```console make build-kyverno ``` The binary should be created at `./cmd/kyverno/kyverno`. ### Building cli locally To build `cli` binary on your local system, run: ```console make build-cli ``` The binary should be created at `./cmd/cli/kubectl-kyverno/kubectl-kyverno`. ## Building local images In the same spirit as [building local binaries](#building-local-binaries), you can build local docker images instead of local binaries. `ko` is used to build images, please refer to [Building local images with ko](#building-local-images-with-ko). ### Image tags Building images uses repository tags. To fetch repository tags into your fork run the following commands: ```sh git remote add upstream https://github.com/kyverno/kyverno git fetch upstream --tags ``` ### Building local images with ko When building local images with ko you can't specify the registry used to create the image names. It will always be `ko.local`. > **Note**: You can build all local images at once by running `make ko-build-all`. #### Building kyvernopre image locally To build `kyvernopre` image on your local system, run: ```console make ko-build-kyvernopre ``` The resulting image should be available locally, named `ko.local/github.com/kyverno/kyverno/cmd/initcontainer`. #### Building kyverno image locally To build `kyverno` image on your local system, run: ```console make ko-build-kyverno ``` The resulting image should be available locally, named `ko.local/github.com/kyverno/kyverno/cmd/kyverno`. #### Building cli image locally To build `cli` image on your local system, run: ```console make ko-build-cli ``` The resulting image should be available locally, named `ko.local/github.com/kyverno/kyverno/cmd/cli/kubectl-kyverno`. ## Pushing images Pushing images is very similar to [building local images](#building-local-images), except that built images will be published on a remote image registry. `ko` is used to build and publish images, please refer to [Pushing images with ko](#pushing-images-with-ko). When pushing images you can specify the registry you want to publish images to by setting the `REGISTRY` environment variable (default value is `ghcr.io`). ### Pushing images with ko Authenticating to the remote registry is done automatically in the `Makefile` with `ko login`. To allow authentication you will need to set `REGISTRY_USERNAME` and `REGISTRY_PASSWORD` environment variables before invoking targets responsible for pushing images. > **Note**: You can push all images at once by running `make ko-publish-all` or `make ko-publish-all-dev`. #### Pushing kyvernopre image To push `kyvernopre` image on a remote registry, run: ```console # push stable image make ko-publish-kyvernopre ``` or ```console # push dev image make ko-publish-kyvernopre-dev ``` The resulting image should be available remotely, named `ghcr.io/kyverno/kyvernopre` (by default, if `REGISTRY` environment variable was not set). #### Pushing kyverno image To push `kyverno` image on a remote registry, run: ```console # push stable image make ko-publish-kyverno ``` or ```console # push dev image make ko-publish-kyverno-dev ``` The resulting image should be available remotely, named `ghcr.io/kyverno/kyverno` (by default, if `REGISTRY` environment variable was not set). #### Pushing cli image To push `cli` image on a remote registry, run: ```console # push stable image make ko-publish-cli ``` or ```console # push dev image make ko-publish-cli-dev ``` The resulting image should be available remotely, named `ghcr.io/kyverno/kyverno-cli` (by default, if `REGISTRY` environment variable was not set). ## Deploying a local build After [building local images](#building-local-images), it is often useful to deploy those images in a local cluster. We use [KinD](https://kind.sigs.k8s.io/) to create local clusters easily, and have targets to: - [Create a local cluster](#create-a-local-cluster) - [Build and load local images](#build-and-load-local-images) - [Deploy with helm](#deploy-with-helm) ### Create a local cluster If you already have a local KinD cluster running, you can skip this step. To create a local KinD cluster, run: ```console make kind-create-cluster ``` You can override the k8s version by setting the `KIND_IMAGE` environment variable (default value is `kindest/node:v1.24.0`). You can also override the KinD cluster name by setting the `KIND_NAME` environment variable (default value is `kind`). ### Build and load local images To build local images and load them on a local KinD cluster, run: ```console # build kyvernopre image and load it in KinD cluster make kind-load-kyvernopre ``` or ```console # build kyverno image and load it in KinD cluster make kind-load-kyverno ``` or ```console # build kyvernopre and kyverno images and load them in KinD cluster make kind-load-all ``` You can override the KinD cluster name by setting the `KIND_NAME` environment variable (default value is `kind`). ### Deploy with helm To build local images, load them on a local KinD cluster, and deploy helm charts, run: ```console # build images, load them in KinD cluster and deploy kyverno helm chart make kind-deploy-kyverno ``` or ```console # deploy kyverno-policies helm chart make kind-deploy-kyverno-policies ``` or ```console # build images, load them in KinD cluster and deploy helm charts make kind-deploy-all ``` This will build local images, load built images in every node of the KinD cluster, and deploy `kyverno` and/or `kyverno-policies` helm charts in the cluster (overriding image repositories and tags). You can override the KinD cluster name by setting the `KIND_NAME` environment variable (default value is `kind`). ## Code generation We are using code generation tools to create the following portions of code: - [Generating kubernetes API client](#generating-kubernetes-api-client) - [Generating API deep copy functions](#generating-api-deep-copy-functions) - [Generating CRD definitions](#generating-crd-definitions) - [Generating API docs](#generating-api-docs) > **Note**: You can run `make codegen-all` to build all generated code at once. ### Generating kubernetes API client Based on the [APIs golang code definitions](./api), you can generate the corresponding Kubernetes client by running: ```console # generate clientset, listers and informers make codegen-client-all ``` or ```console # generate clientset make codegen-client-clientset ``` or ```console # generate listers make codegen-client-listers ``` or ```console # generate informers make codegen-client-informers ``` This will output generated files in the [/pkg/client](./pkg/client) package. ### Generating API deep copy functions Based on the [APIs golang code definitions](./api), you can generate the corresponding deep copy functions by running: ```console # generate all deep copy functions make codegen-deepcopy-all ``` or ```console # generate kyverno deep copy functions make codegen-deepcopy-kyverno ``` or ```console # generate policy reports deep copy functions make codegen-deepcopy-report ``` This will output files named `zz_generated.deepcopy.go` in every API package. ### Generating CRD definitions Based on the [APIs golang code definitions](./api), you can generate the corresponding CRDs manifests by running: ```console # generate all CRDs make codegen-crds-all ``` or ```console # generate Kyverno CRDs make codegen-crds-kyverno ``` or ```console # generate policy reports CRDs make codegen-crds-report ``` This will output CRDs manifests [/config/crds](./config/crds). ### Generating API docs Based on the [APIs golang code definitions](./api), you can generate the corresponding API reference docs by running: ```console # generate API docs make codegen-api-docs ``` This will output API docs in [/docs/crd](./docs/crd). ### Generating helm charts CRDs Based on the [APIs golang code definitions](./api), you can generate the corresponding CRD definitions for helm charts by running: ```console # generate helm CRDs make codegen-helm-crds ``` This will output CRDs templates in [/charts/kyverno/templates/crds.yaml](./charts/kyverno/templates/crds.yaml). > **Note**: You can run `make codegen-helm-all` to generate CRDs and docs at once. ### Generating helm charts docs Based on the helm charts default values: - [kyverno](./charts/kyverno/values.yaml) - [kyverno-policies](./charts/kyverno-policies/values.yaml) You can generate the corresponding helm chart docs by running: ```console # generate helm docs make codegen-helm-docs ``` This will output docs in helm charts respective `README.md`: - [kyverno](./charts/kyverno/README.md) - [kyverno-policies](./charts/kyverno-policies/README.md) > **Note**: You can run `make codegen-helm-all` to generate CRDs and docs at once. ## Debugging local code Running Kyverno on a local machine without deploying it in a remote cluster can be useful, especially for debugging purpose. You can run Kyverno locally or in your IDE of choice with a few steps: 1. Create a local cluster - You can create a simple cluster with [KinD](https://kind.sigs.k8s.io/) with `make kind-create-cluster` 1. Deploy Kyverno manifests except the Kyverno `Deployment` - Kyverno is going to run on your local machine so it should not run in cluster at the same time - You can deploy the manifests by running `make debug-deploy` 1. To run Kyverno locally against the remote cluster you will need to provide `--kubeconfig` and `--serverIP` arguments: - `--kubeconfig` must point to your kubeconfig file (usually `~/.kube/config`) - `--serverIP` must be set to `:9443` (`` is the private ip adress of your local machine) Once you are ready with the steps above, Kyverno can be started locally with: ```console go run ./cmd/kyverno/ --kubeconfig ~/.kube/config --serverIP=:9443 ``` You will need to adapt those steps to run debug sessions in your IDE of choice, but the general idea remains the same.