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Configure Access to Multiple Clusters

This page shows how to configure access to multiple clusters by using configuration files. After your clusters, users, and contexts are defined in one or more configuration files, you can quickly switch between clusters by using the kubectl config use-context command.

Before you begin

You need to have a Kubernetes cluster, and the kubectl command-line tool must be configured to communicate with your cluster. It is recommended to run this tutorial on a cluster with at least two nodes that are not acting as control plane hosts. If you do not already have a cluster, you can create one by using minikube or you can use one of these Kubernetes playgrounds:

To check that kubectl is installed, run kubectl version --client. The kubectl version should be within one minor version of your cluster's API server.

Define clusters, users, and contexts

Suppose you have two clusters, one for development work and one for test work. In the development cluster, your frontend developers work in a namespace called frontend, and your storage developers work in a namespace called storage. In your test cluster, developers work in the default namespace, or they create auxiliary namespaces as they see fit. Access to the development cluster requires authentication by certificate. Access to the test cluster requires authentication by username and password.

Create a directory named config-exercise. In your config-exercise directory, create a file named config-demo with this content:

apiVersion: v1
kind: Config
preferences: {}

clusters:
- cluster:
  name: development
- cluster:
  name: test

users:
- name: developer
- name: experimenter

contexts:
- context:
  name: dev-frontend
- context:
  name: dev-storage
- context:
  name: exp-test

A configuration file describes clusters, users, and contexts. Your config-demo file has the framework to describe two clusters, two users, and three contexts.

Go to your config-exercise directory. Enter these commands to add cluster details to your configuration file:

kubectl config --kubeconfig=config-demo set-cluster development --server=https://1.2.3.4 --certificate-authority=fake-ca-file
kubectl config --kubeconfig=config-demo set-cluster test --server=https://5.6.7.8 --insecure-skip-tls-verify

Add user details to your configuration file:

kubectl config --kubeconfig=config-demo set-credentials developer --client-certificate=fake-cert-file --client-key=fake-key-seefile
kubectl config --kubeconfig=config-demo set-credentials experimenter --username=exp --password=some-password

Add context details to your configuration file:

kubectl config --kubeconfig=config-demo set-context dev-frontend --cluster=development --namespace=frontend --user=developer
kubectl config --kubeconfig=config-demo set-context dev-storage --cluster=development --namespace=storage --user=developer
kubectl config --kubeconfig=config-demo set-context exp-test --cluster=test --namespace=default --user=experimenter

Open your config-demo file to see the added details. As an alternative to opening the config-demo file, you can use the config view command.

kubectl config --kubeconfig=config-demo view

The output shows the two clusters, two users, and three contexts:

apiVersion: v1
clusters:
- cluster:
    certificate-authority: fake-ca-file
    server: https://1.2.3.4
  name: development
- cluster:
    insecure-skip-tls-verify: true
    server: https://5.6.7.8
  name: test
contexts:
- context:
    cluster: development
    namespace: frontend
    user: developer
  name: dev-frontend
- context:
    cluster: development
    namespace: storage
    user: developer
  name: dev-storage
- context:
    cluster: test
    namespace: default
    user: experimenter
  name: exp-test
current-context: ""
kind: Config
preferences: {}
users:
- name: developer
  user:
    client-certificate: fake-cert-file
    client-key: fake-key-file
- name: experimenter
  user:
    # Documentation note (this comment is NOT part of the command output).
    # Storing passwords in Kubernetes client config is risky.
    # A better alternative would be to use a credential plugin
    # and store the credentials separately.
    # See https://kubernetes.io/docs/reference/access-authn-authz/authentication/#client-go-credential-plugins
    password: some-password
    username: exp

The fake-ca-file, fake-cert-file and fake-key-file above are the placeholders for the pathnames of the certificate files. You need to change these to the actual pathnames of certificate files in your environment.

Sometimes you may want to use Base64-encoded data embedded here instead of separate certificate files; in that case you need to add the suffix -data to the keys, for example, certificate-authority-data, client-certificate-data, client-key-data.

Each context is a triple (cluster, user, namespace). For example, the dev-frontend context says, "Use the credentials of the developer user to access the frontend namespace of the development cluster".

Set the current context:

kubectl config --kubeconfig=config-demo use-context dev-frontend

Now whenever you enter a kubectl command, the action will apply to the cluster, and namespace listed in the dev-frontend context. And the command will use the credentials of the user listed in the dev-frontend context.

To see only the configuration information associated with the current context, use the --minify flag.

kubectl config --kubeconfig=config-demo view --minify

The output shows configuration information associated with the dev-frontend context:

apiVersion: v1
clusters:
- cluster:
    certificate-authority: fake-ca-file
    server: https://1.2.3.4
  name: development
contexts:
- context:
    cluster: development
    namespace: frontend
    user: developer
  name: dev-frontend
current-context: dev-frontend
kind: Config
preferences: {}
users:
- name: developer
  user:
    client-certificate: fake-cert-file
    client-key: fake-key-file

Now suppose you want to work for a while in the test cluster.

Change the current context to exp-test:

kubectl config --kubeconfig=config-demo use-context exp-test

Now any kubectl command you give will apply to the default namespace of the test cluster. And the command will use the credentials of the user listed in the exp-test context.

View configuration associated with the new current context, exp-test.

kubectl config --kubeconfig=config-demo view --minify

Finally, suppose you want to work for a while in the storage namespace of the development cluster.

Change the current context to dev-storage:

kubectl config --kubeconfig=config-demo use-context dev-storage

View configuration associated with the new current context, dev-storage.

kubectl config --kubeconfig=config-demo view --minify

Create a second configuration file

In your config-exercise directory, create a file named config-demo-2 with this content:

apiVersion: v1
kind: Config
preferences: {}

contexts:
- context:
    cluster: development
    namespace: ramp
    user: developer
  name: dev-ramp-up

The preceding configuration file defines a new context named dev-ramp-up.

Set the KUBECONFIG environment variable

See whether you have an environment variable named KUBECONFIG. If so, save the current value of your KUBECONFIG environment variable, so you can restore it later. For example:

Linux

export KUBECONFIG_SAVED="$KUBECONFIG"

Windows PowerShell

$Env:KUBECONFIG_SAVED=$ENV:KUBECONFIG

The KUBECONFIG environment variable is a list of paths to configuration files. The list is colon-delimited for Linux and Mac, and semicolon-delimited for Windows. If you have a KUBECONFIG environment variable, familiarize yourself with the configuration files in the list.

Temporarily append two paths to your KUBECONFIG environment variable. For example:

Linux

export KUBECONFIG="${KUBECONFIG}:config-demo:config-demo-2"

Windows PowerShell

$Env:KUBECONFIG=("config-demo;config-demo-2")

In your config-exercise directory, enter this command:

kubectl config view

The output shows merged information from all the files listed in your KUBECONFIG environment variable. In particular, notice that the merged information has the dev-ramp-up context from the config-demo-2 file and the three contexts from the config-demo file:

contexts:
- context:
    cluster: development
    namespace: frontend
    user: developer
  name: dev-frontend
- context:
    cluster: development
    namespace: ramp
    user: developer
  name: dev-ramp-up
- context:
    cluster: development
    namespace: storage
    user: developer
  name: dev-storage
- context:
    cluster: test
    namespace: default
    user: experimenter
  name: exp-test

For more information about how kubeconfig files are merged, see Organizing Cluster Access Using kubeconfig Files

Explore the $HOME/.kube directory

If you already have a cluster, and you can use kubectl to interact with the cluster, then you probably have a file named config in the $HOME/.kube directory.

Go to $HOME/.kube, and see what files are there. Typically, there is a file named config. There might also be other configuration files in this directory. Briefly familiarize yourself with the contents of these files.

Append $HOME/.kube/config to your KUBECONFIG environment variable

If you have a $HOME/.kube/config file, and it's not already listed in your KUBECONFIG environment variable, append it to your KUBECONFIG environment variable now. For example:

Linux

export KUBECONFIG="${KUBECONFIG}:${HOME}/.kube/config"

Windows Powershell

$Env:KUBECONFIG="$Env:KUBECONFIG;$HOME\.kube\config"

View configuration information merged from all the files that are now listed in your KUBECONFIG environment variable. In your config-exercise directory, enter:

kubectl config view

Clean up

Return your KUBECONFIG environment variable to its original value. For example:

Linux

export KUBECONFIG="$KUBECONFIG_SAVED"

Windows PowerShell

$Env:KUBECONFIG=$ENV:KUBECONFIG_SAVED

Check the subject represented by the kubeconfig

It is not always obvious what attributes (username, groups) you will get after authenticating to the cluster. It can be even more challenging if you are managing more than one cluster at the same time.

There is a kubectl subcommand to check subject attributes, such as username, for your selected Kubernetes client context: kubectl auth whoami.

Read API access to authentication information for a client to learn about this in more detail.

What's next

Last modified July 12, 2023 at 1:25 AM PST: Revise docs home page (9520b96a61)