# Installing Kata Containers in Minikube ## Introduction [Minikube](https://kubernetes.io/docs/setup/minikube/) is an easy way to try out a Kubernetes (k8s) cluster locally. It creates a single node Kubernetes stack in a local VM. [Kata Containers](https://github.com/kata-containers) can be installed into a Minikube cluster using [`kata-deploy`](../../tools/packaging/kata-deploy). This document details the pre-requisites, installation steps, and how to check the installation has been successful. ## Prerequisites This installation guide has only been verified under a Minikube Linux installation, using the [`kvm2`](https://minikube.sigs.k8s.io/docs/drivers/kvm2/) driver. > **Notes:** > - This installation guide may not work for macOS installations of Minikube, due to the lack of nested virtualization support on that platform. > - This installation guide has not been tested on a Windows installation. > - Kata under Minikube does not currently support Kata Firecracker (`kata-fc`). > Although the `kata-fc` binary will be installed as part of these instructions, > via `kata-deploy`, pods cannot be launched with `kata-fc`, and will fail to start. Before commencing installation, it is strongly recommended you read the [Minikube installation guide](https://kubernetes.io/docs/tasks/tools/install-minikube/). ## Checking for nested virtualization For Kata Containers to work under a Minikube VM, your host system must support nested virtualization. If you are using a Linux system utilizing Intel VT-x and the `kvm_intel` driver, you can perform the following check: ```sh $ cat /sys/module/kvm_intel/parameters/nested ``` If your system does not report `Y` from the `nested` parameter, then details on how to enable nested virtualization can be found on the [KVM Nested Guests page](https://www.linux-kvm.org/page/Nested_Guests) Alternatively, and for other architectures, the Kata Containers built in [`check`](../../src/runtime/README.md#hardware-requirements) command can be used *inside Minikube* once Kata has been installed, to check for compatibility. ## Setting up Minikube To enable Kata Containers under Minikube, you need to add a few configuration options to the default Minikube setup. You can easily accomplish this as Minikube supports them on the setup commandline. Minikube can be set up to use either CRI-O or containerd. Here are the features to set up a CRI-O based Minikube, and why you need them: | what | why | | ---- | --- | | `--bootstrapper=kubeadm` | As recommended for [minikube CRI-O](https://minikube.sigs.k8s.io/docs/handbook/config/#runtime-configuration) | | `--container-runtime=cri-o` | Using CRI-O for Kata | | `--enable-default-cni` | As recommended for [minikube CRI-O](https://minikube.sigs.k8s.io/docs/handbook/config/#runtime-configuration) | | `--memory 6144` | Allocate sufficient memory, as Kata Containers default to 1 or 2Gb | | `--network-plugin=cni` | As recommended for [minikube CRI-O](https://minikube.sigs.k8s.io/docs/handbook/config/#runtime-configuration) | | `--vm-driver kvm2` | The host VM driver | To use containerd, modify the `--container-runtime` argument: | what | why | | ---- | --- | | `--container-runtime=containerd` | Using containerd for Kata | > **Notes:** > - Adjust the `--memory 6144` line to suit your environment and requirements. Kata Containers default to > requesting 2048MB per container. We recommended you supply more than that to the Minikube node. The full command is therefore: ```sh $ minikube start --vm-driver kvm2 --memory 6144 --network-plugin=cni --enable-default-cni --container-runtime=cri-o --bootstrapper=kubeadm ``` > **Note:** For Kata Containers later than v1.6.1, the now default `tcfilter` networking of Kata Containers > does not work for Minikube versions less than v1.1.1. Please ensure you use Minikube version v1.1.1 > or above. ## Check Minikube is running Before you install Kata Containers, check that your Minikube is operating. On your guest: ```sh $ kubectl get nodes ``` You should see your `control-plane` node listed as being `Ready`. Check you have virtualization enabled inside your Minikube. The following should return a number larger than `0` if you have either of the `vmx` or `svm` nested virtualization features available: ```sh $ minikube ssh "grep -c -E 'vmx|svm' /proc/cpuinfo" ``` ## Installing Kata Containers You can now install the Kata Containers runtime components. You will need a local copy of some Kata Containers components to help with this, and then use `kubectl` on the host (that Minikube has already configured for you) to deploy them: ```sh $ git clone https://github.com/kata-containers/kata-containers.git $ cd kata-containers/tools/packaging/kata-deploy $ kubectl apply -f kata-rbac/base/kata-rbac.yaml $ kubectl apply -f kata-deploy/base/kata-deploy.yaml ``` This installs the Kata Containers components into `/opt/kata` inside the Minikube node. It can take a few minutes for the operation to complete. You can check the installation has worked by checking the status of the `kata-deploy` pod, which will be executing [this script](../../tools/packaging/kata-deploy/scripts/kata-deploy.sh), and will be executing a `sleep infinity` once it has successfully completed its work. You can accomplish this by running the following: ```sh $ podname=$(kubectl -n kube-system get pods -o=name | grep -F kata-deploy | sed 's?pod/??') $ kubectl -n kube-system exec ${podname} -- ps -ef | grep -F infinity ``` > *NOTE:* This check only works for single node clusters, which is the default for Minikube. > For multi-node clusters, the check would need to be adapted to check `kata-deploy` had > completed on all nodes. ## Enabling Kata Containers Now you have installed the Kata Containers components in the Minikube node. Next, you need to configure Kubernetes `RuntimeClass` to know when to use Kata Containers to run a pod. ### Register the runtime Now register the `kata qemu` runtime with that class. This should result in no errors: ```sh $ cd kata-containers/tools/packaging/kata-deploy/runtimeclasses $ kubectl apply -f kata-runtimeClasses.yaml ``` The Kata Containers installation process should be complete and enabled in the Minikube cluster. ## Testing Kata Containers Launch a container that has been defined to run on Kata Containers. The enabling is configured by the following lines in the YAML file. See the Kubernetes [Runtime Class Documentation](https://kubernetes.io/docs/concepts/containers/runtime-class/#usage) for more details. ```yaml spec: runtimeClassName: kata-qemu ``` Perform the following action to launch a Kata Containers based Apache PHP pod: ```sh $ cd kata-containers/tools/packaging/kata-deploy/examples $ kubectl apply -f test-deploy-kata-qemu.yaml ``` This may take a few moments if the container image needs to be pulled down into the cluster. Check progress using: ```sh $ kubectl rollout status deployment php-apache-kata-qemu ``` There are a couple of ways to verify it is running with Kata Containers. In theory, you should not be able to tell your pod is running as a Kata Containers container. Careful examination can verify your pod is in fact a Kata Containers pod. First, look on the node for a `qemu` running. You should see a QEMU command line output here, indicating that your pod is running inside a Kata Containers VM: ```sh $ minikube ssh -- pgrep -a qemu ``` Another way to verify Kata Containers is running is to look in the container itself and check which kernel is running there. For a normal software container you will be running the same kernel as the node. For a Kata Container you will be running a Kata Containers kernel inside the Kata Containers VM. First, examine which kernel is running inside the Minikube node itself: ```sh $ minikube ssh -- uname -a ``` And then compare that against the kernel that is running inside the container: ```sh $ podname=$(kubectl get pods -o=name | grep -F php-apache-kata-qemu | sed 's?pod/??') $ kubectl exec ${podname} -- uname -a ``` You should see the node and pod are running different kernel versions. ## Wrapping up This guide has shown an easy way to setup Minikube with Kata Containers. Be aware, this is only a small single node Kubernetes cluster running under a nested virtualization setup. As such, it has limitations, but as a first introduction to Kata Containers, and how to install it under Kubernetes, it should suffice for initial learning and experimentation.