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Use Azure role-based access control for Kubernetes Authorization

This article covers how to use Azure RBAC for Kubernetes Authorization, which allows for the unified management and access control across Azure resources, AKS, and Kubernetes resources. For more information, see Azure RBAC for Kubernetes Authorization.

Note

When using integrated authentication between Microsoft Entra ID and AKS, you can use Microsoft Entra users, groups, or service principals as subjects in Kubernetes role-based access control (Kubernetes RBAC). With this feature, you don't need to separately manage user identities and credentials for Kubernetes. However, you still need to set up and manage Azure RBAC and Kubernetes RBAC separately.

Before you begin

  • You need the Azure CLI version 2.24.0 or later installed and configured. Run az --version to find the version. If you need to install or upgrade, see Install Azure CLI.
  • You need kubectl, with a minimum version of 1.18.3.
  • You need managed Microsoft Entra integration enabled on your cluster before you can add Azure RBAC for Kubernetes authorization. If you need to enable managed Microsoft Entra integration, see Use Microsoft Entra ID in AKS.
  • If you have CRDs and are making custom role definitions, the only way to cover CRDs today is to use Microsoft.ContainerService/managedClusters/*/read. For the remaining objects, you can use the specific API groups, such as Microsoft.ContainerService/apps/deployments/read.
  • New role assignments can take up to five minutes to propagate and be updated by the authorization server.
  • Azure RBAC for Kubernetes Authorization requires that the Microsoft Entra tenant configured for authentication is same as the tenant for the subscription that holds your AKS cluster.

Create a new AKS cluster with managed Microsoft Entra integration and Azure RBAC for Kubernetes Authorization

  1. Create an Azure resource group using the az group create command.

    export RESOURCE_GROUP=<resource-group-name>
    export LOCATION=<azure-region>
    
    az group create --name $RESOURCE_GROUP --location $LOCATION
    
  2. Create an AKS cluster with managed Microsoft Entra integration and Azure RBAC for Kubernetes Authorization using the az aks create command.

    export CLUSTER_NAME=<cluster-name>
    
    az aks create \
        --resource-group $RESOURCE_GROUP \
        --name $CLUSTER_NAME \
        --enable-aad \
        --enable-azure-rbac \
        --generate-ssh-keys
    

    Your output should look similar to the following example output:

    "AADProfile": {
        "adminGroupObjectIds": null,
        "clientAppId": null,
        "enableAzureRbac": true,
        "managed": true,
        "serverAppId": null,
        "serverAppSecret": null,
        "tenantId": "****-****-****-****-****"
    }
    

Enable Azure RBAC on an existing AKS cluster

  • Enable Azure RBAC for Kubernetes Authorization on an existing AKS cluster using the az aks update command with the --enable-azure-rbac flag.

    az aks update --resource-group $RESOURCE_GROUP --name $CLUSTER_NAME --enable-azure-rbac
    

Disable Azure RBAC for Kubernetes Authorization from an AKS cluster

  • Remove Azure RBAC for Kubernetes Authorization from an existing AKS cluster using the az aks update command with the --disable-azure-rbac flag.

    az aks update --resource-group $RESOURCE_GROUP --name $CLUSTER_NAME --disable-azure-rbac
    

AKS built-in roles

AKS provides the following built-in roles:

Role Description
Azure Kubernetes Service RBAC Reader Allows read-only access to see most objects in a namespace. It doesn't allow viewing roles or role bindings. This role doesn't allow viewing Secrets, since reading the contents of Secrets enables access to ServiceAccount credentials in the namespace, which would allow API access as any ServiceAccount in the namespace (a form of privilege escalation).
Azure Kubernetes Service RBAC Writer Allows read/write access to most objects in a namespace. This role doesn't allow viewing or modifying roles or role bindings. However, this role allows accessing Secrets and running Pods as any ServiceAccount in the namespace, so it can be used to gain the API access levels of any ServiceAccount in the namespace.
Azure Kubernetes Service RBAC Admin Allows admin access, intended to be granted within a namespace. Allows read/write access to most resources in a namespace (or cluster scope), including the ability to create roles and role bindings within the namespace. This role doesn't allow write access to resource quota or to the namespace itself.
Azure Kubernetes Service RBAC Cluster Admin Allows super-user access to perform any action on any resource. It gives full control over every resource in the cluster and in all namespaces.

Create role assignments for cluster access

  1. Get your AKS resource ID using the az aks show command.

    AKS_ID=$(az aks show --resource-group $RESOURCE_GROUP --name $CLUSTER_NAME --query id --output tsv)
    
  2. Create a role assignment using the az role assignment create command. <AAD-ENTITY-ID> can be a username or the client ID of a service principal. The following example creates a role assignment for the Azure Kubernetes Service RBAC Admin role.

    az role assignment create --role "Azure Kubernetes Service RBAC Admin" --assignee <AAD-ENTITY-ID> --scope $AKS_ID
    

    Note

    You can create the Azure Kubernetes Service RBAC Reader and Azure Kubernetes Service RBAC Writer role assignments scoped to a specific namespace within the cluster using the az role assignment create command and setting the scope to the desired namespace.

    az role assignment create --role "Azure Kubernetes Service RBAC Reader" --assignee <AAD-ENTITY-ID> --scope $AKS_ID/namespaces/<namespace-name>
    

Create custom roles definitions

The following example custom role definition allows a user to only read deployments and nothing else. For the full list of possible actions, see Microsoft.ContainerService operations.

  1. To create your own custom role definitions, copy the following file, replacing <YOUR SUBSCRIPTION ID> with your own subscription ID, and then save it as deploy-view.json.

    {
        "Name": "AKS Deployment Reader",
        "Description": "Lets you view all deployments in cluster/namespace.",
        "Actions": [],
        "NotActions": [],
        "DataActions": [
            "Microsoft.ContainerService/managedClusters/apps/deployments/read"
        ],
        "NotDataActions": [],
        "assignableScopes": [
            "/subscriptions/<YOUR SUBSCRIPTION ID>"
        ]
    }
    
  2. Create the role definition using the az role definition create command, setting the --role-definition to the deploy-view.json file you created in the previous step.

    az role definition create --role-definition @deploy-view.json 
    
  3. Assign the role definition to a user or other identity using the az role assignment create command.

    az role assignment create --role "AKS Deployment Reader" --assignee <AAD-ENTITY-ID> --scope $AKS_ID
    

Use Azure RBAC for Kubernetes Authorization with kubectl

  1. Make sure you have the Azure Kubernetes Service Cluster User built-in role, and then get the kubeconfig of your AKS cluster using the az aks get-credentials command.

    az aks get-credentials --resource-group $RESOURCE_GROUP --name $CLUSTER_NAME
    
  2. You can now use kubectl to manage your cluster. For example, you can list the nodes in your cluster using kubectl get nodes.

    kubectl get nodes
    

    Example output:

    NAME                                STATUS   ROLES   AGE    VERSION
    aks-nodepool1-93451573-vmss000000   Ready    agent   3h6m   v1.15.11
    aks-nodepool1-93451573-vmss000001   Ready    agent   3h6m   v1.15.11
    aks-nodepool1-93451573-vmss000002   Ready    agent   3h6m   v1.15.11
    

Use Azure RBAC for Kubernetes Authorization with kubelogin

AKS created the kubelogin plugin to help unblock scenarios such as non-interactive logins, older kubectl versions, or leveraging SSO across multiple clusters without the need to sign in to a new cluster.

  1. Use the kubelogin plugin by running the following command:

    export KUBECONFIG=/path/to/kubeconfig
    kubelogin convert-kubeconfig
    
  2. You can now use kubectl to manage your cluster. For example, you can list the nodes in your cluster using kubectl get nodes.

    kubectl get nodes
    

    Example output:

    NAME                                STATUS   ROLES   AGE    VERSION
    aks-nodepool1-93451573-vmss000000   Ready    agent   3h6m   v1.15.11
    aks-nodepool1-93451573-vmss000001   Ready    agent   3h6m   v1.15.11
    aks-nodepool1-93451573-vmss000002   Ready    agent   3h6m   v1.15.11
    

Clean up resources

Delete role assignment

  1. List role assignments using the az role assignment list command.

    az role assignment list --scope $AKS_ID --query [].id --output tsv
    
  2. Delete role assignments using the az role assignment delete command.

    az role assignment delete --ids <LIST OF ASSIGNMENT IDS>
    

Delete role definition

  • Delete the custom role definition using the az role definition delete command.

    az role definition delete --name "AKS Deployment Reader"
    

Delete resource group and AKS cluster

  • Delete the resource group and AKS cluster using the az group delete command.

    az group delete --name $RESOURCE_GROUP --yes --no-wait
    

Next steps

To learn more about AKS authentication, authorization, Kubernetes RBAC, and Azure RBAC, see: