Azure
Creating a Cluster via the CLI
In this guide we will create an HA Kubernetes cluster with 1 worker node. We assume existing Blob Storage, and some familiarity with Azure. If you need more information on Azure specifics, please see the official Azure documentation.
Environment Setup
We’ll make use of the following environment variables throughout the setup. Edit the variables below with your correct information.
# Storage account to use
export STORAGE_ACCOUNT="StorageAccountName"
# Storage container to upload to
export STORAGE_CONTAINER="StorageContainerName"
# Resource group name
export GROUP="ResourceGroupName"
# Location
export LOCATION="centralus"
# Get storage account connection string based on info above
export CONNECTION=$(az storage account show-connection-string \
-n $STORAGE_ACCOUNT \
-g $GROUP \
-o tsv)
Choose an Image
There are two methods of deployment in this tutorial.
If you would like to use the official Talos image uploaded to Azure Community Galleries by SideroLabs, you may skip ahead to setting up your network infrastructure.
Otherwise, if you would like to upload your own image to Azure and use it to deploy Talos, continue to Creating an Image.
Create the Image
First, download the Azure image from Image Factory.
Once downloaded, untar with tar -xvf /path/to/azure-amd64.tar.gz
Upload the VHD
Once you have pulled down the image, you can upload it to blob storage with:
az storage blob upload \
--connection-string $CONNECTION \
--container-name $STORAGE_CONTAINER \
-f /path/to/extracted/talos-azure.vhd \
-n talos-azure.vhd
Register the Image
Now that the image is present in our blob storage, we’ll register it.
az image create \
--name talos \
--source https://$STORAGE_ACCOUNT.blob.core.windows.net/$STORAGE_CONTAINER/talos-azure.vhd \
--os-type linux \
-g $GROUP
Network Infrastructure
Virtual Networks and Security Groups
Once the image is prepared, we’ll want to work through setting up the network. Issue the following to create a network security group and add rules to it.
# Create vnet
az network vnet create \
--resource-group $GROUP \
--location $LOCATION \
--name talos-vnet \
--subnet-name talos-subnet
# Create network security group
az network nsg create -g $GROUP -n talos-sg
# Client -> apid
az network nsg rule create \
-g $GROUP \
--nsg-name talos-sg \
-n apid \
--priority 1001 \
--destination-port-ranges 50000 \
--direction inbound
# Trustd
az network nsg rule create \
-g $GROUP \
--nsg-name talos-sg \
-n trustd \
--priority 1002 \
--destination-port-ranges 50001 \
--direction inbound
# etcd
az network nsg rule create \
-g $GROUP \
--nsg-name talos-sg \
-n etcd \
--priority 1003 \
--destination-port-ranges 2379-2380 \
--direction inbound
# Kubernetes API Server
az network nsg rule create \
-g $GROUP \
--nsg-name talos-sg \
-n kube \
--priority 1004 \
--destination-port-ranges 6443 \
--direction inbound
Load Balancer
We will create a public ip, load balancer, and a health check that we will use for our control plane.
# Create public ip
az network public-ip create \
--resource-group $GROUP \
--name talos-public-ip \
--allocation-method static
# Create lb
az network lb create \
--resource-group $GROUP \
--name talos-lb \
--public-ip-address talos-public-ip \
--frontend-ip-name talos-fe \
--backend-pool-name talos-be-pool
# Create health check
az network lb probe create \
--resource-group $GROUP \
--lb-name talos-lb \
--name talos-lb-health \
--protocol tcp \
--port 6443
# Create lb rule for 6443
az network lb rule create \
--resource-group $GROUP \
--lb-name talos-lb \
--name talos-6443 \
--protocol tcp \
--frontend-ip-name talos-fe \
--frontend-port 6443 \
--backend-pool-name talos-be-pool \
--backend-port 6443 \
--probe-name talos-lb-health
Network Interfaces
In Azure, we have to pre-create the NICs for our control plane so that they can be associated with our load balancer.
for i in $( seq 0 1 2 ); do
# Create public IP for each nic
az network public-ip create \
--resource-group $GROUP \
--name talos-controlplane-public-ip-$i \
--allocation-method static
# Create nic
az network nic create \
--resource-group $GROUP \
--name talos-controlplane-nic-$i \
--vnet-name talos-vnet \
--subnet talos-subnet \
--network-security-group talos-sg \
--public-ip-address talos-controlplane-public-ip-$i\
--lb-name talos-lb \
--lb-address-pools talos-be-pool
done
# NOTES:
# Talos can detect PublicIPs automatically if PublicIP SKU is Basic.
# Use `--sku Basic` to set SKU to Basic.
Cluster Configuration
With our networking bits setup, we’ll fetch the IP for our load balancer and create our configuration files.
LB_PUBLIC_IP=$(az network public-ip show \
--resource-group $GROUP \
--name talos-public-ip \
--query "ipAddress" \
--output tsv)
talosctl gen config talos-k8s-azure-tutorial https://${LB_PUBLIC_IP}:6443
Compute Creation
We are now ready to create our azure nodes.
Azure allows you to pass Talos machine configuration to the virtual machine at bootstrap time via
user-data
or custom-data
methods.
Talos supports only custom-data
method, machine configuration is available to the VM only on the first boot.
Use the steps below depending on whether you have manually uploaded a Talos image or if you are using the Community Gallery image.
Manual Image Upload
# Create availability set
az vm availability-set create \
--name talos-controlplane-av-set \
-g $GROUP
# Create the controlplane nodes
for i in $( seq 0 1 2 ); do
az vm create \
--name talos-controlplane-$i \
--image talos \
--custom-data ./controlplane.yaml \
-g $GROUP \
--admin-username talos \
--generate-ssh-keys \
--verbose \
--boot-diagnostics-storage $STORAGE_ACCOUNT \
--os-disk-size-gb 20 \
--nics talos-controlplane-nic-$i \
--availability-set talos-controlplane-av-set \
--no-wait
done
# Create worker node
az vm create \
--name talos-worker-0 \
--image talos \
--vnet-name talos-vnet \
--subnet talos-subnet \
--custom-data ./worker.yaml \
-g $GROUP \
--admin-username talos \
--generate-ssh-keys \
--verbose \
--boot-diagnostics-storage $STORAGE_ACCOUNT \
--nsg talos-sg \
--os-disk-size-gb 20 \
--no-wait
# NOTES:
# `--admin-username` and `--generate-ssh-keys` are required by the az cli,
# but are not actually used by talos
# `--os-disk-size-gb` is the backing disk for Kubernetes and any workload containers
# `--boot-diagnostics-storage` is to enable console output which may be necessary
# for troubleshooting
Azure Community Gallery Image
Talos is updated in Azure’s Community Galleries (Preview) on every release.
To use the Talos image for the current release create the following environment variables.
Edit the variables below if you would like to use a different architecture
or version
.
# The architecture you would like to use. Options are "talos-x64" or "talos-arm64"
ARCHITECTURE="talos-x64"
# This will use the latest version of Talos. The version must be "latest" or in the format Major(int).Minor(int).Patch(int), e.g. 1.5.0
VERSION="latest"
Create the Virtual Machines.
# Create availability set
az vm availability-set create \
--name talos-controlplane-av-set \
-g $GROUP
# Create the controlplane nodes
for i in $( seq 0 1 2 ); do
az vm create \
--name talos-controlplane-$i \
--image /CommunityGalleries/siderolabs-c4d707c0-343e-42de-b597-276e4f7a5b0b/Images/${ARCHITECTURE}/Versions/${VERSION} \
--custom-data ./controlplane.yaml \
-g $GROUP \
--admin-username talos \
--generate-ssh-keys \
--verbose \
--boot-diagnostics-storage $STORAGE_ACCOUNT \
--os-disk-size-gb 20 \
--nics talos-controlplane-nic-$i \
--availability-set talos-controlplane-av-set \
--no-wait
done
# Create worker node
az vm create \
--name talos-worker-0 \
--image /CommunityGalleries/siderolabs-c4d707c0-343e-42de-b597-276e4f7a5b0b/Images/${ARCHITECTURE}/Versions/${VERSION} \
--vnet-name talos-vnet \
--subnet talos-subnet \
--custom-data ./worker.yaml \
-g $GROUP \
--admin-username talos \
--generate-ssh-keys \
--verbose \
--boot-diagnostics-storage $STORAGE_ACCOUNT \
--nsg talos-sg \
--os-disk-size-gb 20 \
--no-wait
# NOTES:
# `--admin-username` and `--generate-ssh-keys` are required by the az cli,
# but are not actually used by talos
# `--os-disk-size-gb` is the backing disk for Kubernetes and any workload containers
# `--boot-diagnostics-storage` is to enable console output which may be necessary
# for troubleshooting
Bootstrap Etcd
You should now be able to interact with your cluster with talosctl
.
We will need to discover the public IP for our first control plane node first.
CONTROL_PLANE_0_IP=$(az network public-ip show \
--resource-group $GROUP \
--name talos-controlplane-public-ip-0 \
--query "ipAddress" \
--output tsv)
Set the endpoints
and nodes
:
talosctl --talosconfig talosconfig config endpoint $CONTROL_PLANE_0_IP
talosctl --talosconfig talosconfig config node $CONTROL_PLANE_0_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 .