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Guides - Secure a Cluster with User Permissions and RBAC

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Securing Kubernetes Users

In Linux administration, the application of Users, Groups, and Permissions is a tried and tested method for improving a security posture for a number of use cases. Kubernetes administration similarly applies the same concepts using RBAC (Role Based Access Control), Service Accounts, and more. For example, when interacting with a standard Kubernetes installation, the default behavior is for a singular kubeconfig file to provide unlimited access to the relevant cluster. With RBAC and Service accounts, kubeconfig files can be created for specific individuals in an organization, giving them access only to the parts of the cluster that they need.

In This Guide

While the Linode Kubernetes Engine(LKE) is a managed Platform as a Service solution providing a base level of security, it does not by default handle the creation of roles and service accounts for any users that are configured on LKE. This guide will serve as a tutorial for creating a role and role binding for an example user in the example user’s own namespace, so that users can export a custom Kubeconfig file for users to authenticate with for limited permissions. This way, all users in a specific cluster will not be required to have full administrator permissions.

Before You Begin

This guide assumes you have a working Kubernetes cluster that was deployed using the Linode Kubernetes Engine (LKE). You can deploy a Kubernetes cluster using LKE in the following ways:

Create a new User

The following steps will provide a secure method for limiting user access to a cluster. An SSL certificate will be created for a user, approved by an administrator, and then applied to a limited kubeconfig for the user to use to gain access instead of the primary administrator kubeconfig file.

Create Certificates and approve CSRs for a new user

In order for a user to securely authenticate to the Kubernetes server, an x.509 certificate will be used, similar to how SSL/TLS is applied on a web browser. A Certificate Signing Request or CSR, allows the .x.509 certificate to be approved and signed for use with Kubernetes. To apply a certificate and create a CSR, the following steps can be followed:

  1. Create a new directory labeled auth to store any new user certificates that will be created. Navigate to this new directory following it’s creation.:

    mkdir auth
cd auth

  2. Generate a new certificate for your user:

    openssl genrsa -out exampleuser.key 2048
    Note
    The text user can be replaced with a username of your choice.

  3. Generate a new certificate signing request file:

    openssl req -new -key exampleuser.key -out exampleuser.csr -subj "/CN=exampleuser"

  4. Copy the key to the directory where kubectl is installed. This is usually the parent folder:

    cp exampleuser.key ..

  5. Navigate back to the directory where kubectl is installed. From here, a generate a BASE64 string using the .csr file:

    cd ..
less auth/exampleuser.csr | base64 | tr -d '\n'

    A base64 string will be outputted. Copy the output to be used in the next step.

  6. Using a text editor of your choice, create a new CSR YAML file:

    sudo nano exampleusercsr.yaml

    The CSR YAML should reflect the following. Replace the string in the request field with the base64 string that was generated for your own csr file:

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    apiVersion: certificates.k8s.io/v1
kind: CertificateSigningRequest
metadata:
  name: exampleuser-csr
spec:
  groups:
    - system:authenticated
  request: OGY4d1pQRGlqT21NV2VXCjM4dFdjRmJrQXRyTXJ6YWZnWGRZS1VYb2Z2ZDhLalVPeUJEaFdoWTFJbjZ6NGpEZ2RTbm94K21SdlJxQTFOUEwKN2k0QVd4OFlKcEdVS0Uvb1VKREZDcHVYcE9SZVdUMnY3enhFTzE5QUpRSURBUUFCb0FBd0RRWUpLb1pJaHZjTgpBUUVMQlFBRGdnRUJBRDg5T3JlUC
  signerName: kubernetes.io/kube-apiserver-client
  usages:
    - digital signature
    - key encipherment
    - client auth

  7. Create the certificate signing request:

    kubectl create -f exampleusercsr.yaml

    You should see output resembling the following:

    certificatesigningrequest.certificates.k8s.io/user1-csr created
    Note

    If at any point the status of a CSR needs to be checked, the following command can be entered:

    kubectl get csr

    Additionally, although CSR’s will be automatically deleted after enough time has passed, they can be manually deleted so that a new CSR can be attempted at any time using the following syntax:

    kubectl delete csr user1-csr

  8. Through kubectl, approve the certificate for use with your Kubernetes cluster:

    kubectl certificate approve user1-csr

  9. Export the .crt file from the Kubernetes API to receive a copy of your signed certificate, and save it to the /auth/ directory:

    kubectl get csr user1-csr -o jsonpath='{.status.certificate}' | base64 --decode > ~/auth/exampleuser.crt

Create a Limited Kubeconfig File

In order for a new limited user to interact with Kubernetes, they will need their own Kubeconfig file that does not include administrative permissions. The following steps will describe how to create this file.

  1. To ensure that the original kubeconfig file is not overwritten without a backup, create a backup now:

    cp kubeconfig.yaml kubeconfigbackup.yaml

  2. Add the new user to the kubeconfig.yaml file:

    kubectl config set-credentials exampleuser --client-certificate=/home/user/auth/exampleuser.crt --client-key=/home/user/auth/exampleuser.key

    Your Kubeconfig file should now reflect the following:

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    apiVersion: v1
clusters:
- cluster:
    certificate-authority-data: oaiedjaoiu9833ed98whfc9h
    server: https://def4624b-5fbb-4ac6-ae70-77f28eb131fe.us-east-1.linodelke.net:443
  name: lke1111
contexts:
- context:
    cluster: lke1111
    namespace: default
    user: lke1111-admin
  name: lke1111-ctx
current-context: lke1111-ctx
kind: Config
preferences: {}
users:
- name: exampleuser
  user:
    client-certificate: exampleuser.crt
    client-key: exampleuser.key
- name: lke1111-admin
  user:
    token: OIAWHF09W08R08w4f0hs0efch8q088080HEHSC

  3. To ensure that only a second limited user can access the cluster with limited permissions, an additional kubeconfig file must be created without administrative control:

    cp kubeconfig.yaml exampleuser_kubeconfig.yaml

  4. The new kubeconfig file should only include configuration options for the limited user. Delete all administrative user lines of the new kubeconfig file, until the exampleuser_kubeconfig.yaml file reflects the following:

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    apiVersion: v1
clusters:
- cluster:
    certificate-authority-data: iuawhefIDWIDHI23EW98HICUH
    server: https://def4624b-5fbb-4ac6-ae70-77f28eb131fe.us-east-1.linodelke.net:443
  name: lke1111
contexts:
- context:
    cluster: lke1111
    user: exampleuser
  name: lke1111-ctx
current-context: lke1111-ctx
kind: Config
preferences: {}
users:
- name: exampleuser
  user:
    client-certificate: /home/user/auth/exampleuser.crt
    client-key: /home/user/auth/exampleuser.key

  5. To test, switch the current context to the new kubeconfig file:

    export KUBECONFIG=exampleuser_kubeconfig.yaml

    Once exported, attempt to list all nodes in the cluster:

    kubectl get nodes

    If the configuration worked, the new user’s kubeconfig should make the request fail with the following error:

Error from server (Forbidden): nodes is forbidden: User "exampleuser" cannot list resource "nodes" in API group "" at the cluster scope

The failure is expected, since the user currently does not have any roles or permissions defined. By default, new Kubernetes users will be unable to access any resources.

Setting Permissions with RBAC

Permissions can be applied to a new user by creating a role.yaml and rolebinding.yaml file. In Kubernetes, a Role defines the permissions that are given to a specific group of users, and the Rolebinding applies the roles to specific users. For example, if you wanted to a give the exampleuser user created previously the ability to interact with pods in the examplenamespace namespace, a good configuration would be as follows:

  1. Create a role.yaml file with the following contents:

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    apiVersion: rbac.authorization.k8s.io/v1
kind: Role
metadata:
name: example-role
namespace: examplenamespace
rules:
- apiGroups: [""]
  resources: ["pods"]
  verbs: ["get", "watch", "list"]

    The above example would allow any user with the assigned role to get, watch, and list resources in the examplenamespace namespace. The name example-role is a unique identifier which can be called when applying the rolebinding in the next step.

  2. Once the role is created, create a rolebinding.yaml file to bind the role to your user:

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    apiVersion: rbac.authorization.k8s.io/v1
kind: RoleBinding
metadata:
name: example-role-binding
namespace: default
subjects:
- apiGroup: rbac.authorization.k8s.io
  kind: User
  name: exampleuser
roleRef:
apiGroup: rbac.authorization.k8s.io
kind: Role
name: example-role

  3. Apply both the role.yaml and the rolebinding.yaml to grant permission to the new user:

    kubectl apply -f role.yaml
kubectl apply -f rolebinding.yaml

  4. To test, switch the active kubeconfig and namespace to the ones created for the limited example user:

    export KUBECONFIG=exampleuser_kubeconfig.yaml
kubectl config set-context --current --namespace=examplenamespace

  5. If the configuration works, you should not see any errors when requesting information on active pods in the namespace:

    kubectl get pods

    However, if the user attempts to get information on nodes, or any other request that has not been explicitly configured, the request will fail with an error similar to the following:

    Error from server (Forbidden): nodes is forbidden: User "exampleuser" cannot list resource "nodes" in API group "" at the cluster scope

Next Steps

Now that the user has been successfully installed, the user’s kubeconfig file may be exported for other users to use from their own kubectl clients, and the user can access the cluster with the limited permissions set by the administrator in their own namespace. Additionally security controls may still be applied, however will vary depending on your use case. Admission Controllers for example, are a great way to implement additional controls on authenticated and authorized requests. Applications on an LKE cluster can additionally be put behind a NodeBalancer and ingress with TLS enabled. For more information, the following resources may be helpful:

More Information

You may wish to consult the following resources for additional information on this topic. While these are provided in the hope that they will be useful, please note that we cannot vouch for the accuracy or timeliness of externally hosted materials.

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