Matchbox
Creating a Cluster
In this guide we will create an HA Kubernetes cluster with 3 worker nodes. We assume an existing load balancer, matchbox deployment, and some familiarity with iPXE.
We leave it up to the user to decide if they would like to use static networking, or DHCP. The setup and configuration of DHCP will not be covered.
Create the Machine Configuration Files
Generating Base Configurations
Using the DNS name of the load balancer, generate the base configuration files for the Talos machines:
$ talosctl gen config talos-k8s-metal-tutorial https://<load balancer IP or DNS>:<port>
created controlplane.yaml
created worker.yaml
created talosconfig
At this point, you can modify the generated configs to your liking.
Optionally, you can specify --config-patch
with RFC6902 jsonpatch which will be applied during the config generation.
Validate the Configuration Files
$ talosctl validate --config controlplane.yaml --mode metal
controlplane.yaml is valid for metal mode
$ talosctl validate --config worker.yaml --mode metal
worker.yaml is valid for metal mode
Publishing the Machine Configuration Files
In bare-metal setups it is up to the user to provide the configuration files over HTTP(S).
A special kernel parameter (talos.config
) must be used to inform Talos about where it should retrieve its configuration file.
To keep things simple we will place controlplane.yaml
, and worker.yaml
into Matchbox’s assets
directory.
This directory is automatically served by Matchbox.
Create the Matchbox Configuration Files
The profiles we will create will reference vmlinuz
, and initramfs.xz
.
Download these files from the release of your choice, and place them in /var/lib/matchbox/assets
.
Profiles
Control Plane Nodes
{
"id": "control-plane",
"name": "control-plane",
"boot": {
"kernel": "/assets/vmlinuz",
"initrd": ["/assets/initramfs.xz"],
"args": [
"initrd=initramfs.xz",
"init_on_alloc=1",
"slab_nomerge",
"pti=on",
"console=tty0",
"printk.devkmsg=on",
"talos.platform=metal",
"talos.config=http://matchbox.talos.dev/assets/controlplane.yaml"
]
}
}
Note: Be sure to change
http://matchbox.talos.dev
to the endpoint of your matchbox server.
Worker Nodes
{
"id": "default",
"name": "default",
"boot": {
"kernel": "/assets/vmlinuz",
"initrd": ["/assets/initramfs.xz"],
"args": [
"initrd=initramfs.xz",
"init_on_alloc=1",
"slab_nomerge",
"pti=on",
"console=tty0",
"printk.devkmsg=on",
"talos.platform=metal",
"talos.config=http://matchbox.talos.dev/assets/worker.yaml"
]
}
}
Groups
Now, create the following groups, and ensure that the selector
s are accurate for your specific setup.
{
"id": "control-plane-1",
"name": "control-plane-1",
"profile": "control-plane",
"selector": {
...
}
}
{
"id": "control-plane-2",
"name": "control-plane-2",
"profile": "control-plane",
"selector": {
...
}
}
{
"id": "control-plane-3",
"name": "control-plane-3",
"profile": "control-plane",
"selector": {
...
}
}
{
"id": "default",
"name": "default",
"profile": "default"
}
Boot the Machines
Now that we have our configuration files in place, boot all the machines. Talos will come up on each machine, grab its configuration file, and bootstrap itself.
Bootstrap Etcd
Set the endpoints
and nodes
:
talosctl --talosconfig talosconfig config endpoint <control plane 1 IP>
talosctl --talosconfig talosconfig config node <control plane 1 IP>
Bootstrap etcd
:
talosctl --talosconfig talosconfig bootstrap
Retrieve the kubeconfig
At this point we can retrieve the admin kubeconfig
by running:
talosctl --talosconfig talosconfig kubeconfig .