This demo will guide you through setting up KubeVirt on
This demo assumes that minikube
or minishift
is configured and running as described
below and that kubectl
available on your system. If not, then
please take a look at the guide below.
The first step is to start minikube
:
$ minikube config set vm-driver kvm2
$ minikube start --memory 4096
😄 minikube v1.0.1 on linux (amd64)
💿 Downloading Minikube ISO ...
142.88 MB / 142.88 MB [============================================] 100.00% 0s
🤹 Downloading Kubernetes v1.14.1 images in the background ...
🔥 Creating kvm2 VM (CPUs=2, Memory=2048MB, Disk=20000MB) ...
📶 "minikube" IP address is 192.168.39.47
🐳 Configuring Docker as the container runtime ...
🐳 Version of container runtime is 18.06.3-ce
⌛ Waiting for image downloads to complete ...
✨ Preparing Kubernetes environment ...
💾 Downloading kubelet v1.14.1
💾 Downloading kubeadm v1.14.1
🚜 Pulling images required by Kubernetes v1.14.1 ...
🚀 Launching Kubernetes v1.14.1 using kubeadm ...
⌛ Waiting for pods: apiserver proxy etcd scheduler controller dns
🔑 Configuring cluster permissions ...
🤔 Verifying component health .....
💗 kubectl is now configured to use "minikube"
🏄 Done! Thank you for using minikube!
Before we can deploy KubeVirt we create a small config, to adjust KubeVirt to your environment. Specifically enabling software emulation for your VMs in case that no hardware virtualization support is present.
$ kubectl create namespace kubevirt
# Either nesting as described [below](#setting-up-minikube) will be used, or we configure emulation if
# no nesting is available:
$ minikube ssh -- test -e /dev/kvm \
|| kubectl create configmap -n kubevirt kubevirt-config --from-literal debug.useEmulation=true
Now you are finally ready to deploy KubeVirt using our operator (comparable to an installer):
$ kubectl apply -f https://github.com/kubevirt/kubevirt/releases/download/v0.34.2/kubevirt-operator.yaml
…
deployment.apps/virt-operator created
$ kubectl apply -f https://github.com/kubevirt/kubevirt/releases/download/v0.34.2/kubevirt-cr.yaml
kubevirt.kubevirt.io/kubevirt created
The initial deployment can take a long time, because a number of pods have to be pulled from the internet. We'll watch the operator status to determine when the deployment is completed:
$ kubectl wait --timeout=180s --for=condition=Available -n kubevirt kv/kubevirt
kubevirt.kubevirt.io/kubevirt condition met
Congratulations, KubeVirt was successfully deployed.
An additional binary is provided to get quick access to the serial and graphical ports of a VM, and handle start/stop operations.
The tool is called virtctl
and can be retrieved from the release page of KubeVirt:
$ curl -L -o virtctl https://github.com/kubevirt/kubevirt/releases/download/v0.34.2/virtctl-v0.34.2-linux-amd64
$ chmod +x virtctl
If you installed krew, you can install virtctl as a kubectl plugin:
$ kubectl krew install virt
Once you deployed KubeVirt you are ready to launch a VM:
if virtctl
is installed via krew, please use kubectl virt ...
instead of ./virtctl ...
# Creating a virtual machine
$ kubectl apply -f https://raw.githubusercontent.com/kubevirt/demo/master/manifests/vm.yaml
# After deployment you can manage VMs using the usual verbs:
$ kubectl describe vm testvm
# To start a VM you can use, this will create a VM instance (VMI)
$ ./virtctl start testvm
# The interested reader can now optionally inspect the instance
$ kubectl describe vmi testvm
# To shut the VM down again:
$ ./virtctl stop testvm
# To delete
$ kubectl delete vm testvm
# To create your own
$ kubectl apply -f $YOUR_VM_SPEC
if virtctl
is installed via krew, please use kubectl virt ...
instead of ./virtctl ...
# Connect to the serial console
$ ./virtctl console testvm
# Connect to the graphical display
# This requires remote-viewer from the virt-viewer package and a graphical desktop from where you run virtctl
$ ./virtctl vnc testvm
Now that KubeVirt is up an running, you can take a look at the user guide to understand how you can create and manage your own virtual machines.
-
(Optional) Minikube has support for nested virtualization, it can be enabled as described here.
-
If not installed, install minikube as described here:
- Install the kvm2 driver
- Download the
minikube
binary
-
Launch minikube with the desired memory
$ minikube start --vm-driver kvm2 --memory 4096
- Install
kubectl
via a package manager or download it
-
If not installed, install kind as described here
-
Launch kind
$ tee cluster.yaml <<EOC
kind: Cluster
apiVersion: kind.sigs.k8s.io/v1alpha3
nodes:
- role: control-plane
- role: worker
- role: worker
EOC
$ kind create cluster --config cluster.yaml
CRC is just another Kubernetes distribution, and you can also use kubectl
to interact with such a cluster.
However, the oc
tool is part of OKD and provides additional commands for managing your cluster.
-
Get the
crc
tool -
Follow the steps at https://github.com/code-ready/crc/releases to get and install CRC