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Using Multiple Host Networks

This page is about using multiple host networks with Charmed Kubernetes. For information on using multiple container networks, please refer to the Multus page instead.

Using network spaces and bindings in Juju, it's possible to deploy Charmed Kubernetes in an environment with multiple networks and assign traffic to different networks explicitly.

Currently, multiple networks are only supported in Juju on MAAS.

The rest of this document assumes you're familiar with the basics of MAAS and Juju. If you're not, you can familiarise yourself with them by reading the MAAS documentation and Juju documentation.

Configure MAAS

Preconditions:

  • You have MAAS nodes that are attached to multiple logical networks (separate physical networks or VLANs).
  • You have commissioned the nodes in MAAS.

Create spaces in MAAS

In the 'Subnets' tab of the MAAS GUI, click Add -> Space to create spaces as needed. To add subnets to a space, enter the subnet's VLAN configuration page (click in the 'VLAN' column on the main Subnets page) and assign it to the space.

Enable network interfaces on nodes

By default, only the first network interface is enabled on each node. You need to manually enable the rest.

Go to the 'Nodes' tab, click on a node, and click the 'Interfaces' tab. Set each interface's IP mode to Auto assign.

Configure Juju

If you've already bootstrapped a Juju controller, use juju reload-spaces to pick up the changes from MAAS. Otherwise, bootstrap a new Juju controller and the new controller should pick up the spaces automatically.

Run juju spaces and make sure you see the network spaces and subnet assignments that you're expecting to see.

Use bindings to direct network traffic

Using bindings, you can direct specific kinds of network traffic in your Charmed Kubernetes cluster to go through specific networks.

The easiest way to do this is by using an overlay file when you deploy Charmed Kubernetes. The following is an example overlay that defaults all bindings to send traffic through a network space named control, with the exception of the flannel cni binding, which will send its traffic through a network space named workload instead:

applications:
  easyrsa:
    bindings:
      "": control
  etcd:
    bindings:
      "": control
  kubeapi-load-balancer:
    bindings:
      "": control
  kubernetes-control-plane:
    bindings:
      "": control
  kubernetes-worker:
    bindings:
      "": control
  containerd:
    bindings:
      "": control
  flannel:
    bindings:
      "": control
      cni: workload

Once you have an overlay file created, use it to deploy Charmed Kubernetes with your bindings:

juju deploy charmed-kubernetes --overlay my-overlay.yaml

The following endpoints are available for use in bindings:

Charm Endpoint Description of traffic
etcd cluster ETCD internal (peer)
etcd db ETCD external (client)
flannel cni Flannel traffic (pod to pod communication)
canal cni Flannel traffic (pod to pod communication)
calico cni Calico traffic (pod to pod communication)
kubernetes-control-plane kube-api-endpoint Main traffic to kube-apiserver, from kubeapi-load-balancer
kubernetes-control-plane kube-control Secondary traffic to kube-apiserver, from pods
kubeapi-load-balancer website Traffic to kubeapi-load-balancer, from kubectl, kubelet and kube-proxy
kubernetes-worker kube-control Traffic to kubelet, from kube-apiserver (health checks)

You can read more about bindings in the Juju documentation here: Binding endpoints within a bundle

We appreciate your feedback on the documentation. You can edit this page or file a bug here.

See the guide to contributing or discuss these docs in our public Mattermost channel.