This is a fully batteries-included development environment for Windows on Kubernetes, including:
- Vagrant file for launching a two-node cluster
- the latest Containerd
- Support for two CNIs: antrea, or calico on containerd: configure your CNI option in variables.yml
- calico 3.19 on containerd runs containers out of the box
- antrea 0.13.2 runs but requires running with a patch for antrea-io/antrea#2344 which was recently made available
- NetworkPolicy support for Windows and Linux provided by Antrea and Calico
- Windows binaries for kube-proxy.exe and kubelet.exe that are fully built from source (K8s main branch)
- kubeadm installation that can put the bleeding-edge Linux control plane in place, so you can test new features like privileged containers
- clone this repo (obviously!)
- install vagrant & virtualbox (the base tools for this project)
vagrant plugin install vagrant-reload winrm winrm-elevated, vagrant-reload needed to easily reboot windows VMs during setup of containers features.make all, this will create the entire cluster for you and compile windows binaries from source- if the above failed, run
vagrant provision winw1, just in case you have a flake during windows installation. vagrant ssh controlplaneand runkubectl get nodesto see your running dual-os linux+windows k8s cluster.
Our goal is to make Windows ridiculously easy to contribute to, play with, and learn about for anyone interested in using or contributing to the ongoing Kubernetes-on-Windows story. Windows is rapidly becoming an increasingly viable alternative to Linux thanks to the recent introduction of Windows HostProcess containers and Windows support for NetworkPolicies + Containerd integration.
- Vagrant
- Vagrant reload, winrm and winrm-elevated plugins
- some Vagrant provider (we only have VirtualBox automated here, but these recipes have been used with others, like HyperV and Fusion).
Ok let's get started...
For the happy path, just:
- Start Docker so that you can build K8s from source as needed.
- Install Vagrant, and then vagrant-reload
vagrant plugin install vagrant-reload winrm winrm-elevated
- Modify CPU/memory in the variables.yml file. We recommend four cores 8G+ for your Windows node if you can spare it, and two cores 8G for your Linux node as well.
There are two use cases for these Windows K8s dev environments: Quick testing, and testing K8s from source.
To test from source, run vagrant destroy --force ; make all. This will
- destroy your existing dev environment
- clone down K8s from GitHub. If you have the k/k repo locally, you can
make path=path_to_k/k all - compile the K8s proxy and kubelet
- inject them into the Vagrant Windows environment at the C:/k/bin/ location
- start up the Linux and Windows VMs
- ... TODO ~ build Linux components from source as well ...
# 1) First run this, bc Vagrant needs to do some reload of machines
vagrant plugin install vagrant-reload
# 2) Bring up your entire Windows cluster!
vagrant up
AND THAT'S IT! Your machines should come up in a few minutes...
Do not log into the VMs until the provisioning is done. That is especially true for Windows because it will prevent the reboots.
If you still have an old instance of these VMs running for the same dir:
vagrant destroy -f && vagrant up
after everything is done (can take 10 min+), ssh' into the Linux VM:
vagrant ssh controlplane
and get an overview of the nodes:
kubectl get nodes
The Windows node might stay 'NotReady' for a while, because it takes some time to download the Flannel image.
vagrant@controlplane:~$ kubectl get nodes
NAME STATUS ROLES AGE VERSION
controlplane Ready control-plane,controlplane 8m4s v1.20.4
winw1 NotReady <none> 64s v1.20.4
...
NAME STATUS ROLES AGE VERSION
controlplane Ready control-plane,controlplane 16m v1.20.4
winw1 Ready <none> 9m11s v1.20.4
You'll obviously want to run commands on the Windows box. The easiest way is to SSH into the Windows machine and use powershell from there:
vagrant ssh winw1
C:\ > powershell
Optionally, you can do this by noting the IP address during vagrant provision and running any RDP client (vagrant/vagrant for username/password, works for SSH).
To run a command on the Windows boxes without actually using the UI, you can use winrm, which is integrated into Vagrant. For example, you can run:
vagrant winrm winw1 --shell=powershell --command="ls"
- This guide is based on this very nice Vagrantfile
- this very good guide on how to install Kubernetes on Ubuntu Focal (20.04).
- The Windows part is informed by this guide on how to install Docker on Win Server 2019, this guide on adding Windows nodes, and this guide on how to install Kubernetes on Win Server 2019.
- We've also borrowed ideas from cluster api, kubeadm, and the antrea project too bootstrap how we manage CNI and containerd support.
Working on Windows Kubernetes is a great way to learn about Kubernetes internals and how Kubernetes works in a multi-OS environment.
So, even if you aren't a Windows user, we encourage Kubernetes users of all types to try to get involved and contribute!
We are a new project and we need help with...
- contributing / testing recipes on different Vagrant providers
- docs of existing workflows
- ideas about how we can make this repository easier to use
- test automation (Sonobuoy, E2E Framework, and so on)
- new CNIs like Calico or Cillium
- CSI support and testing
- privileged container support
- recipes with active directory
- any other ideas!
If nothing else, filing an issue with your bugs or experiences will be helpful long-term. If interested in pairing with us to do your first contribution, just reach out in #sig-windows (https://slack.k8s.io/). We understand that developing on Kubernetes with Windows is new to many folks, and we're here to help you get started.