This is a cache of https://docs.okd.io/4.15/hosted_control_planes/hcp-authentication-authorization.html. It is a snapshot of the page at 2024-11-23T20:59:20.951+0000.
Authentication and authorization for hosted control planes | Hosted control planes | OKD 4.15
×

The OKD control plane includes a built-in OAuth server. You can obtain OAuth access tokens to authenticate to the OKD API. After you create your hosted cluster, you can configure OAuth by specifying an identity provider.

Configuring the OAuth server for a hosted cluster by using the CLI

You can configure the internal OAuth server for your hosted cluster by using an OpenID Connect identity provider (oidc).

You can configure OAuth for the following supported identity providers:

  • oidc

  • htpasswd

  • keystone

  • ldap

  • basic-authentication

  • request-header

  • github

  • gitlab

  • google

Adding any identity provider in the OAuth configuration removes the default kubeadmin user provider.

When you configure identity providers, you must configure at least one NodePool replica in your hosted cluster in advance. Traffic for DNS resolution is sent through the worker nodes. You do not need to configure the NodePool replicas in advance for the htpasswd and request-header identity providers.

Prerequisites
  • You created your hosted cluster.

Procedure
  1. Edit the HostedCluster custom resource (CR) on the hosting cluster by running the following command:

    $ oc edit <hosted_cluster_name> -n <hosted_cluster_namespace>
  2. Add the OAuth configuration in the HostedCluster CR by using the following example:

    apiVersion: hypershift.openshift.io/v1alpha1
    kind: HostedCluster
    metadata:
      name: <hosted_cluster_name> (1)
      namespace: <hosted_cluster_namespace> (2)
    spec:
      configuration:
        oauth:
          identityProviders:
          - openID: (3)
              claims:
                email: (4)
                  - <email_address>
                name: (5)
                  - <display_name>
                preferredUsername: (6)
                  - <preferred_username>
              clientID: <client_id> (7)
              clientsecret:
                name: <client_id_secret_name> (8)
              issuer: https://example.com/identity (9)
            mappingMethod: lookup (10)
            name: IAM
            type: OpenID
    1 Specifies your hosted cluster name.
    2 Specifies your hosted cluster namespace.
    3 This provider name is prefixed to the value of the identity claim to form an identity name. The provider name is also used to build the redirect URL.
    4 Defines a list of attributes to use as the email address.
    5 Defines a list of attributes to use as a display name.
    6 Defines a list of attributes to use as a preferred user name.
    7 Defines the ID of a client registered with the OpenID provider. You must allow the client to redirect to the https://oauth-openshift.apps.<cluster_name>.<cluster_domain>/oauth2callback/<idp_provider_name> URL.
    8 Defines a secret of a client registered with the OpenID provider.
    9 The Issuer Identifier described in the OpenID spec. You must use https without query or fragment component.
    10 Defines a mapping method that controls how mappings are established between identities of this provider and User objects.
  3. Save the file to apply the changes.

Configuring the OAuth server for a hosted cluster by using the web console

You can configure the internal OAuth server for your hosted cluster by using the OKD web console.

You can configure OAuth for the following supported identity providers:

  • oidc

  • htpasswd

  • keystone

  • ldap

  • basic-authentication

  • request-header

  • github

  • gitlab

  • google

Adding any identity provider in the OAuth configuration removes the default kubeadmin user provider.

When you configure identity providers, you must configure at least one NodePool replica in your hosted cluster in advance. Traffic for DNS resolution is sent through the worker nodes. You do not need to configure the NodePool replicas in advance for the htpasswd and request-header identity providers.

Prerequisites
  • You logged in as a user with cluster-admin privileges.

  • You created your hosted cluster.

Procedure
  1. Navigate to HomeAPI Explorer.

  2. Use the Filter by kind box to search for your HostedCluster resource.

  3. Click the HostedCluster resource that you want to edit.

  4. Click the Instances tab.

  5. Click the Options menu kebab next to your hosted cluster name entry and click Edit HostedCluster.

  6. Add the OAuth configuration in the YAML file:

    spec:
      configuration:
        oauth:
          identityProviders:
          - openID: (1)
              claims:
                email: (2)
                  - <email_address>
                name: (3)
                  - <display_name>
                preferredUsername: (4)
                  - <preferred_username>
              clientID: <client_id> (5)
              clientsecret:
                name: <client_id_secret_name> (6)
              issuer: https://example.com/identity (7)
            mappingMethod: lookup (8)
            name: IAM
            type: OpenID
    1 This provider name is prefixed to the value of the identity claim to form an identity name. The provider name is also used to build the redirect URL.
    2 Defines a list of attributes to use as the email address.
    3 Defines a list of attributes to use as a display name.
    4 Defines a list of attributes to use as a preferred user name.
    5 Defines the ID of a client registered with the OpenID provider. You must allow the client to redirect to the https://oauth-openshift.apps.<cluster_name>.<cluster_domain>/oauth2callback/<idp_provider_name> URL.
    6 Defines a secret of a client registered with the OpenID provider.
    7 The Issuer Identifier described in the OpenID spec. You must use https without query or fragment component.
    8 Defines a mapping method that controls how mappings are established between identities of this provider and User objects.
  7. Click Save.

Additional resources

Assigning components IAM roles by using the CCO in a hosted cluster on AWS

You can assign components IAM roles that provide short-term, limited-privilege security credentials by using the Cloud Credential Operator (CCO) in hosted clusters on Amazon Web Services (AWS). By default, the CCO runs in a hosted control plane.

The CCO supports a manual mode only for hosted clusters on AWS. By default, hosted clusters are configured in a manual mode. The management cluster might use modes other than manual.

Verifying the CCO installation in a hosted cluster on AWS

You can verify that the Cloud Credential Operator (CCO) is running correctly in your hosted control plane.

Prerequisites
  • You configured the hosted cluster on Amazon Web Services (AWS).

Procedure
  1. Verify that the CCO is configured in a manual mode in your hosted cluster by running the following command:

    $ oc get cloudcredentials <hosted_cluster_name> -n <hosted_cluster_namespace> -o=jsonpath={.spec.credentialsMode}
    Expected output
    Manual
  2. Verify that the value for the serviceAccountIssuer resource is not empty by running the following command:

    $ oc get authentication cluster --kubeconfig <hosted_cluster_name>.kubeconfig -o jsonpath --template '{.spec.serviceAccountIssuer }'
    Example output
    https://aos-hypershift-ci-oidc-29999.s3.us-east-2.amazonaws.com/hypershift-ci-29999

Enabling Operators to support CCO-based workflows with AWS STS

As an Operator author designing your project to run on Operator Lifecycle Manager (OLM), you can enable your Operator to authenticate against AWS on STS-enabled OKD clusters by customizing your project to support the Cloud Credential Operator (CCO).

With this method, the Operator is responsible for creating the CredentialsRequest object, which means the Operator requires RBAC permission to create these objects. Then, the Operator must be able to read the resulting secret object.

By default, pods related to the Operator deployment mount a serviceAccountToken volume so that the service account token can be referenced in the resulting secret object.

Prerequisities
  • OKD 4.14 or later

  • Cluster in STS mode

  • OLM-based Operator project

Procedure
  1. Update your Operator project’s ClusterServiceVersion (CSV) object:

    1. Ensure your Operator has RBAC permission to create CredentialsRequests objects:

      Example clusterPermissions list
      # ...
      install:
        spec:
          clusterPermissions:
          - rules:
            - apiGroups:
              - "cloudcredential.openshift.io"
              resources:
              - credentialsrequests
              verbs:
              - create
              - delete
              - get
              - list
              - patch
              - update
              - watch
    2. Add the following annotation to claim support for this method of CCO-based workflow with AWS STS:

      # ...
      metadata:
       annotations:
         features.operators.openshift.io/token-auth-aws: "true"
  2. Update your Operator project code:

    1. Get the role ARN from the environment variable set on the pod by the Subscription object. For example:

      // Get ENV var
      roleARN := os.Getenv("ROLEARN")
      setupLog.Info("getting role ARN", "role ARN = ", roleARN)
      webIdentityTokenPath := "/var/run/secrets/openshift/serviceaccount/token"
    2. Ensure you have a CredentialsRequest object ready to be patched and applied. For example:

      Example CredentialsRequest object creation
      import (
         minterv1 "github.com/openshift/cloud-credential-operator/pkg/apis/cloudcredential/v1"
         corev1 "k8s.io/api/core/v1"
         metav1 "k8s.io/apimachinery/pkg/apis/meta/v1"
      )
      
      var in = minterv1.AWSProviderSpec{
         StatementEntries: []minterv1.StatementEntry{
            {
               Action: []string{
                  "s3:*",
               },
               Effect:   "Allow",
               Resource: "arn:aws:s3:*:*:*",
            },
         },
      	STSIAMRoleARN: "<role_arn>",
      }
      
      var codec = minterv1.Codec
      var ProviderSpec, _ = codec.EncodeProviderSpec(in.DeepCopyObject())
      
      const (
         name      = "<credential_request_name>"
         namespace = "<namespace_name>"
      )
      
      var CredentialsRequestTemplate = &minterv1.CredentialsRequest{
         ObjectMeta: metav1.ObjectMeta{
             Name:      name,
             Namespace: "openshift-cloud-credential-operator",
         },
         Spec: minterv1.CredentialsRequestSpec{
            ProviderSpec: ProviderSpec,
            secretRef: corev1.ObjectReference{
               Name:      "<secret_name>",
               Namespace: namespace,
            },
            ServiceAccountNames: []string{
               "<service_account_name>",
            },
            CloudTokenPath:   "",
         },
      }

      Alternatively, if you are starting from a CredentialsRequest object in YAML form (for example, as part of your Operator project code), you can handle it differently:

      Example CredentialsRequest object creation in YAML form
      // CredentialsRequest is a struct that represents a request for credentials
      type CredentialsRequest struct {
        APIVersion string `yaml:"apiVersion"`
        Kind       string `yaml:"kind"`
        Metadata   struct {
           Name      string `yaml:"name"`
           Namespace string `yaml:"namespace"`
        } `yaml:"metadata"`
        Spec struct {
           secretRef struct {
              Name      string `yaml:"name"`
              Namespace string `yaml:"namespace"`
           } `yaml:"secretRef"`
           ProviderSpec struct {
              APIVersion     string `yaml:"apiVersion"`
              Kind           string `yaml:"kind"`
              StatementEntries []struct {
                 Effect   string   `yaml:"effect"`
                 Action   []string `yaml:"action"`
                 Resource string   `yaml:"resource"`
              } `yaml:"statementEntries"`
              STSIAMRoleARN   string `yaml:"stsIAMRoleARN"`
           } `yaml:"providerSpec"`
      
           // added new field
            CloudTokenPath   string `yaml:"cloudTokenPath"`
        } `yaml:"spec"`
      }
      
      // ConsumeCredsRequestAddingTokenInfo is a function that takes a YAML filename and two strings as arguments
      // It unmarshals the YAML file to a CredentialsRequest object and adds the token information.
      func ConsumeCredsRequestAddingTokenInfo(fileName, tokenString, tokenPath string) (*CredentialsRequest, error) {
        // open a file containing YAML form of a CredentialsRequest
        file, err := os.Open(fileName)
        if err != nil {
           return nil, err
        }
        defer file.Close()
      
        // create a new CredentialsRequest object
        cr := &CredentialsRequest{}
      
        // decode the yaml file to the object
        decoder := yaml.NewDecoder(file)
        err = decoder.Decode(cr)
        if err != nil {
           return nil, err
        }
      
        // assign the string to the existing field in the object
        cr.Spec.CloudTokenPath = tokenPath
      
        // return the modified object
        return cr, nil
      }

      Adding a CredentialsRequest object to the Operator bundle is not currently supported.

    3. Add the role ARN and web identity token path to the credentials request and apply it during Operator initialization:

      Example applying CredentialsRequest object during Operator initialization
      // apply credentialsRequest on install
      credReq := credreq.CredentialsRequestTemplate
      credReq.Spec.CloudTokenPath = webIdentityTokenPath
      
      c := mgr.GetClient()
      if err := c.Create(context.TODO(), credReq); err != nil {
         if !errors.IsAlreadyExists(err) {
            setupLog.Error(err, "unable to create CredRequest")
            os.Exit(1)
         }
      }
    4. Ensure your Operator can wait for a secret object to show up from the CCO, as shown in the following example, which is called along with the other items you are reconciling in your Operator:

      Example wait for secret object
      // WaitForsecret is a function that takes a Kubernetes client, a namespace, and a v1 "k8s.io/api/core/v1" name as arguments
      // It waits until the secret object with the given name exists in the given namespace
      // It returns the secret object or an error if the timeout is exceeded
      func WaitForsecret(client kubernetes.Interface, namespace, name string) (*v1.secret, error) {
        // set a timeout of 10 minutes
        timeout := time.After(10 * time.Minute) (1)
      
        // set a polling interval of 10 seconds
        ticker := time.NewTicker(10 * time.Second)
      
        // loop until the timeout or the secret is found
        for {
           select {
           case <-timeout:
              // timeout is exceeded, return an error
              return nil, fmt.Errorf("timed out waiting for secret %s in namespace %s", name, namespace)
                 // add to this error with a pointer to instructions for following a manual path to a secret that will work on STS
           case <-ticker.C:
              // polling interval is reached, try to get the secret
              secret, err := client.CoreV1().secrets(namespace).Get(context.Background(), name, metav1.GetOptions{})
              if err != nil {
                 if errors.IsNotFound(err) {
                    // secret does not exist yet, continue waiting
                    continue
                 } else {
                    // some other error occurred, return it
                    return nil, err
                 }
              } else {
                 // secret is found, return it
                 return secret, nil
              }
           }
        }
      }
      1 The timeout value is based on an estimate of how fast the CCO might detect an added CredentialsRequest object and generate a secret object. You might consider lowering the time or creating custom feedback for cluster administrators that could be wondering why the Operator is not yet accessing the cloud resources.
    5. Set up the AWS configuration by reading the secret created by the CCO from the credentials request and creating the AWS config file containing the data from that secret:

      Example AWS configuration creation
      func SharedCredentialsFileFromsecret(secret *corev1.secret) (string, error) {
         var data []byte
         switch {
         case len(secret.Data["credentials"]) > 0:
             data = secret.Data["credentials"]
         default:
             return "", errors.New("invalid secret for aws credentials")
         }
      
      
         f, err := ioutil.TempFile("", "aws-shared-credentials")
         if err != nil {
             return "", errors.Wrap(err, "failed to create file for shared credentials")
         }
         defer f.Close()
         if _, err := f.Write(data); err != nil {
             return "", errors.Wrapf(err, "failed to write credentials to %s", f.Name())
         }
         return f.Name(), nil
      }

      The secret is assumed to exist, but your Operator code should wait and retry when using this secret to give time to the CCO to create the secret.

      Additionally, the wait period should eventually time out and warn users that the OKD cluster version, and therefore the CCO, might be an earlier version that does not support the CredentialsRequest object workflow with STS detection. In such cases, instruct users that they must add a secret by using another method.

    6. Configure the AWS SDK session, for example:

      Example AWS SDK session configuration
      sharedCredentialsFile, err := SharedCredentialsFileFromsecret(secret)
      if err != nil {
         // handle error
      }
      options := session.Options{
         SharedConfigState: session.SharedConfigEnable,
         SharedConfigFiles: []string{sharedCredentialsFile},
      }