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During installation, you can configure the Cloud Credential Operator (CCO) to operate in manual mode and use the CCO utility (ccoctl) to implement short-term security credentials for individual components that are created and managed outside the OKD cluster.

This credentials strategy is supported for Amazon Web Services (AWS), Google Cloud Platform (GCP), and global Microsoft Azure only. The strategy must be configured during installation of a new OKD cluster. You cannot configure an existing cluster that uses a different credentials strategy to use this feature.

Cloud providers use different terms for their implementation of this authentication method.

Table 1. Short-term credentials provider terminology
Cloud provider Provider nomenclature

Amazon Web Services (AWS)

AWS Security Token Service (STS)

Google Cloud Platform (GCP)

GCP Workload Identity

Global Microsoft Azure

Microsoft Entra Workload ID

AWS Security Token Service

In manual mode with Security Token Service (STS), the individual OKD cluster components use the AWS STS to assign components IAM roles that provide short-term, limited-privilege security credentials. These credentials are associated with IAM roles that are specific to each component that makes AWS API calls.

AWS Security Token Service authentication process

The AWS Security Token Service (STS) and the AssumeRole API action allow pods to retrieve access keys that are defined by an IAM role policy.

The OKD cluster includes a Kubernetes service account signing service. This service uses a private key to sign service account JSON web tokens (JWT). A pod that requires a service account token requests one through the pod specification. When the pod is created and assigned to a node, the node retrieves a signed service account from the service account signing service and mounts it onto the pod.

Clusters that use STS contain an IAM role ID in their Kubernetes configuration secrets. Workloads assume the identity of this IAM role ID. The signed service account token issued to the workload aligns with the configuration in AWS, which allows AWS STS to grant access keys for the specified IAM role to the workload.

AWS STS grants access keys only for requests that include service account tokens that meet the following conditions:

  • The token name and namespace match the service account name and namespace.

  • The token is signed by a key that matches the public key.

The public key pair for the service account signing key used by the cluster is stored in an AWS S3 bucket. AWS STS federation validates that the service account token signature aligns with the public key stored in the S3 bucket.

Authentication flow for AWS STS

The following diagram illustrates the authentication flow between AWS and the OKD cluster when using AWS STS.

  • Token signing is the Kubernetes service account signing service on the OKD cluster.

  • The Kubernetes service account in the pod is the signed service account token.

Detailed authentication flow between AWS and the cluster when using AWS STS
Figure 1. AWS Security Token Service authentication flow

Requests for new and refreshed credentials are automated by using an appropriately configured AWS IAM OpenID Connect (OIDC) identity provider combined with AWS IAM roles. Service account tokens that are trusted by AWS IAM are signed by OKD and can be projected into a pod and used for authentication.

Token refreshing for AWS STS

The signed service account token that a pod uses expires after a period of time. For clusters that use AWS STS, this time period is 3600 seconds, or one hour.

The kubelet on the node that the pod is assigned to ensures that the token is refreshed. The kubelet attempts to rotate a token when it is older than 80 percent of its time to live.

OpenID Connect requirements for AWS STS

You can store the public portion of the encryption keys for your OIDC configuration in a public or private S3 bucket.

The OIDC spec requires the use of HTTPS. AWS services require a public endpoint to expose the OIDC documents in the form of JSON web key set (JWKS) public keys. This allows AWS services to validate the bound tokens signed by Kubernetes and determine whether to trust certificates. As a result, both S3 bucket options require a public HTTPS endpoint and private endpoints are not supported.

To use AWS STS, the public AWS backbone for the AWS STS service must be able to communicate with a public S3 bucket or a private S3 bucket with a public CloudFront endpoint. You can choose which type of bucket to use when you process CredentialsRequest objects during installation:

  • By default, the CCO utility (ccoctl) stores the OIDC configuration files in a public S3 bucket and uses the S3 URL as the public OIDC endpoint.

  • As an alternative, you can have the ccoctl utility store the OIDC configuration in a private S3 bucket that is accessed by the IAM identity provider through a public CloudFront distribution URL.

AWS component secret formats

Using manual mode with the AWS Security Token Service (STS) changes the content of the AWS credentials that are provided to individual OKD components. Compare the following secret formats:

AWS secret format using long-term credentials
apiVersion: v1
kind: Secret
metadata:
  namespace: <target_namespace> (1)
  name: <target_secret_name> (2)
data:
  aws_access_key_id: <base64_encoded_access_key_id>
  aws_secret_access_key: <base64_encoded_secret_access_key>
1 The namespace for the component.
2 The name of the component secret.
AWS secret format using AWS STS
apiVersion: v1
kind: Secret
metadata:
  namespace: <target_namespace> (1)
  name: <target_secret_name> (2)
stringData:
  credentials: |-
    [default]
    sts_regional_endpoints = regional
    role_name: <operator_role_name> (3)
    web_identity_token_file: <path_to_token> (4)
1 The namespace for the component.
2 The name of the component secret.
3 The IAM role for the component.
4 The path to the service account token inside the pod. By convention, this is /var/run/secrets/openshift/serviceaccount/token for OKD components.

AWS component secret permissions requirements

OKD components require the following permissions. These values are in the CredentialsRequest custom resource (CR) for each component.

These permissions apply to all resources. Unless specified, there are no request conditions on these permissions.

Component Custom resource Required permissions for services

Cluster CAPI Operator

openshift-cluster-api-aws

EC2

  • ec2:CreateTags

  • ec2:DescribeAvailabilityZones

  • ec2:DescribeDhcpOptions

  • ec2:DescribeImages

  • ec2:DescribeInstances

  • ec2:DescribeInternetGateways

  • ec2:DescribeSecurityGroups

  • ec2:DescribeSubnets

  • ec2:DescribeVpcs

  • ec2:DescribeNetworkInterfaces

  • ec2:DescribeNetworkInterfaceAttribute

  • ec2:ModifyNetworkInterfaceAttribute

  • ec2:RunInstances

  • ec2:TerminateInstances

Elastic load balancing

  • elasticloadbalancing:DescribeLoadBalancers

  • elasticloadbalancing:DescribeTargetGroups

  • elasticloadbalancing:DescribeTargetHealth

  • elasticloadbalancing:RegisterInstancesWithLoadBalancer

  • elasticloadbalancing:RegisterTargets

  • elasticloadbalancing:DeregisterTargets

Identity and Access Management (IAM)

  • iam:PassRole

  • iam:CreateServiceLinkedRole

Key Management Service (KMS)

  • kms:Decrypt

  • kms:Encrypt

  • kms:GenerateDataKey

  • kms:GenerateDataKeyWithoutPlainText

  • kms:DescribeKey

  • kms:RevokeGrant[1]

  • kms:CreateGrant [1]

  • kms:ListGrants [1]

Machine API Operator

openshift-machine-api-aws

EC2

  • ec2:CreateTags

  • ec2:DescribeAvailabilityZones

  • ec2:DescribeDhcpOptions

  • ec2:DescribeImages

  • ec2:DescribeInstances

  • ec2:DescribeInstanceTypes

  • ec2:DescribeInternetGateways

  • ec2:DescribeSecurityGroups

  • ec2:DescribeRegions

  • ec2:DescribeSubnets

  • ec2:DescribeVpcs

  • ec2:RunInstances

  • ec2:TerminateInstances

Elastic load balancing

  • elasticloadbalancing:DescribeLoadBalancers

  • elasticloadbalancing:DescribeTargetGroups

  • elasticloadbalancing:DescribeTargetHealth

  • elasticloadbalancing:RegisterInstancesWithLoadBalancer

  • elasticloadbalancing:RegisterTargets

  • elasticloadbalancing:DeregisterTargets

Identity and Access Management (IAM)

  • iam:PassRole

  • iam:CreateServiceLinkedRole

Key Management Service (KMS)

  • kms:Decrypt

  • kms:Encrypt

  • kms:GenerateDataKey

  • kms:GenerateDataKeyWithoutPlainText

  • kms:DescribeKey

  • kms:RevokeGrant[1]

  • kms:CreateGrant [1]

  • kms:ListGrants [1]

Cloud Credential Operator

cloud-credential-operator-iam-ro

Identity and Access Management (IAM)

  • iam:GetUser

  • iam:GetUserPolicy

  • iam:ListAccessKeys

Cluster Image Registry Operator

openshift-image-registry

S3

  • s3:CreateBucket

  • s3:DeleteBucket

  • s3:PutBucketTagging

  • s3:GetBucketTagging

  • s3:PutBucketPublicAccessBlock

  • s3:GetBucketPublicAccessBlock

  • s3:PutEncryptionConfiguration

  • s3:GetEncryptionConfiguration

  • s3:PutLifecycleConfiguration

  • s3:GetLifecycleConfiguration

  • s3:GetBucketLocation

  • s3:ListBucket

  • s3:GetObject

  • s3:PutObject

  • s3:DeleteObject

  • s3:ListBucketMultipartUploads

  • s3:AbortMultipartUpload

  • s3:ListMultipartUploadParts

Ingress Operator

openshift-ingress

Elastic load balancing

  • elasticloadbalancing:DescribeLoadBalancers

Route 53

  • route53:ListHostedZones

  • route53:ListTagsForResources

  • route53:ChangeResourceRecordSets

Tag

  • tag:GetResources

Security Token Service (STS)

  • sts:AssumeRole

Cluster Network Operator

openshift-cloud-network-config-controller-aws

EC2

  • ec2:DescribeInstances

  • ec2:DescribeInstanceStatus

  • ec2:DescribeInstanceTypes

  • ec2:UnassignPrivateIpAddresses

  • ec2:AssignPrivateIpAddresses

  • ec2:UnassignIpv6Addresses

  • ec2:AssignIpv6Addresses

  • ec2:DescribeSubnets

  • ec2:DescribeNetworkInterfaces

AWS Elastic Block Store CSI Driver Operator

aws-ebs-csi-driver-operator

EC2

  • ec2:AttachVolume

  • ec2:CreateSnapshot

  • ec2:CreateTags

  • ec2:CreateVolume

  • ec2:DeleteSnapshot

  • ec2:DeleteTags

  • ec2:DeleteVolume

  • ec2:DescribeInstances

  • ec2:DescribeSnapshots

  • ec2:DescribeTags

  • ec2:DescribeVolumes

  • ec2:DescribeVolumesModifications

  • ec2:DetachVolume

  • ec2:ModifyVolume

  • ec2:DescribeAvailabilityZones

  • ec2:EnableFastSnapshotRestores

Key Management Service (KMS)

  • kms:ReEncrypt*

  • kms:Decrypt

  • kms:Encrypt

  • kms:GenerateDataKey

  • kms:GenerateDataKeyWithoutPlainText

  • kms:DescribeKey

  • kms:RevokeGrant[1]

  • kms:CreateGrant [1]

  • kms:ListGrants [1]

  1. Request condition: kms:GrantIsForAWSResource: true

OLM-managed Operator support for authentication with AWS STS

Certain Operators managed by the Operator Lifecycle Manager (OLM) on AWS clusters can use manual mode with STS. These Operators authenticate with limited-privilege, short-term credentials that are managed outside the cluster. To determine if an Operator supports authentication with AWS STS, see the Operator description in OperatorHub.

GCP Workload Identity

In manual mode with GCP Workload Identity, the individual OKD cluster components use the GCP workload identity provider to allow components to impersonate GCP service accounts using short-term, limited-privilege credentials.

GCP Workload Identity authentication process

Requests for new and refreshed credentials are automated by using an appropriately configured OpenID Connect (OIDC) identity provider combined with IAM service accounts. Service account tokens that are trusted by GCP are signed by OKD and can be projected into a pod and used for authentication. Tokens are refreshed after one hour.

The following diagram details the authentication flow between GCP and the OKD cluster when using GCP Workload Identity.

Detailed authentication flow between GCP and the cluster when using GCP Workload Identity
Figure 2. GCP Workload Identity authentication flow

GCP component secret formats

Using manual mode with GCP Workload Identity changes the content of the GCP credentials that are provided to individual OKD components. Compare the following secret content:

GCP secret format
apiVersion: v1
kind: Secret
metadata:
  namespace: <target_namespace> (1)
  name: <target_secret_name> (2)
data:
  service_account.json: <service_account> (3)
1 The namespace for the component.
2 The name of the component secret.
3 The Base64 encoded service account.
Content of the Base64 encoded service_account.json file using long-term credentials
{
   "type": "service_account", (1)
   "project_id": "<project_id>",
   "private_key_id": "<private_key_id>",
   "private_key": "<private_key>", (2)
   "client_email": "<client_email_address>",
   "client_id": "<client_id>",
   "auth_uri": "https://accounts.google.com/o/oauth2/auth",
   "token_uri": "https://oauth2.googleapis.com/token",
   "auth_provider_x509_cert_url": "https://www.googleapis.com/oauth2/v1/certs",
   "client_x509_cert_url": "https://www.googleapis.com/robot/v1/metadata/x509/<client_email_address>"
}
1 The credential type is service_account.
2 The private RSA key that is used to authenticate to GCP. This key must be kept secure and is not rotated.
Content of the Base64 encoded service_account.json file using GCP Workload Identity
{
   "type": "external_account", (1)
   "audience": "//iam.googleapis.com/projects/123456789/locations/global/workloadIdentityPools/test-pool/providers/test-provider", (2)
   "subject_token_type": "urn:ietf:params:oauth:token-type:jwt",
   "token_url": "https://sts.googleapis.com/v1/token",
   "service_account_impersonation_url": "https://iamcredentials.googleapis.com/v1/projects/-/serviceAccounts/<client_email_address>:generateAccessToken", (3)
   "credential_source": {
      "file": "<path_to_token>", (4)
      "format": {
         "type": "text"
      }
   }
}
1 The credential type is external_account.
2 The target audience is the GCP Workload Identity provider.
3 The resource URL of the service account that can be impersonated with these credentials.
4 The path to the service account token inside the pod. By convention, this is /var/run/secrets/openshift/serviceaccount/token for OKD components.

OLM-managed Operator support for authentication with GCP Workload Identity

Certain Operators managed by the Operator Lifecycle Manager (OLM) on GCP clusters can use manual mode with GCP Workload Identity. These Operators authenticate with limited-privilege, short-term credentials that are managed outside the cluster. To determine if an Operator supports authentication with GCP Workload Identity, see the Operator description in OperatorHub.

Microsoft Entra Workload ID

In manual mode with Microsoft Entra Workload ID, the individual OKD cluster components use the Workload ID provider to assign components short-term security credentials.

Microsoft Entra Workload ID authentication process

The following diagram details the authentication flow between Azure and the OKD cluster when using Microsoft Entra Workload ID.

Detailed authentication flow between Azure and the cluster when using Workload ID
Figure 3. Workload ID authentication flow

Azure component secret formats

Using manual mode with Microsoft Entra Workload ID changes the content of the Azure credentials that are provided to individual OKD components. Compare the following secret formats:

Azure secret format using long-term credentials
apiVersion: v1
kind: Secret
metadata:
  namespace: <target_namespace> (1)
  name: <target_secret_name> (2)
data:
  azure_client_id: <client_id> (3)
  azure_client_secret: <client_secret> (4)
  azure_region: <region>
  azure_resource_prefix: <resource_group_prefix> (5)
  azure_resourcegroup: <resource_group_prefix>-rg (6)
  azure_subscription_id: <subscription_id>
  azure_tenant_id: <tenant_id>
type: Opaque
1 The namespace for the component.
2 The name of the component secret.
3 The client ID of the Microsoft Entra ID identity that the component uses to authenticate.
4 The component secret that is used to authenticate with Microsoft Entra ID for the <client_id> identity.
5 The resource group prefix.
6 The resource group. This value is formed by the <resource_group_prefix> and the suffix -rg.
Azure secret format using Microsoft Entra Workload ID
apiVersion: v1
kind: Secret
metadata:
  namespace: <target_namespace> (1)
  name: <target_secret_name> (2)
data:
  azure_client_id: <client_id> (3)
  azure_federated_token_file: <path_to_token_file> (4)
  azure_region: <region>
  azure_subscription_id: <subscription_id>
  azure_tenant_id: <tenant_id>
type: Opaque
1 The namespace for the component.
2 The name of the component secret.
3 The client ID of the user-assigned managed identity that the component uses to authenticate.
4 The path to the mounted service account token file.

Azure component secret permissions requirements

OKD components require the following permissions. These values are in the CredentialsRequest custom resource (CR) for each component.

Component Custom resource Required permissions for services

Cloud Controller Manager Operator

openshift-azure-cloud-controller-manager

  • Microsoft.Compute/virtualMachines/read

  • Microsoft.Network/loadBalancers/read

  • Microsoft.Network/loadBalancers/write

  • Microsoft.Network/networkInterfaces/read

  • Microsoft.Network/networkSecurityGroups/read

  • Microsoft.Network/networkSecurityGroups/write

  • Microsoft.Network/publicIPAddresses/join/action

  • Microsoft.Network/publicIPAddresses/read

  • Microsoft.Network/publicIPAddresses/write

Cluster CAPI Operator

openshift-cluster-api-azure

role: Contributor [1]

Machine API Operator

openshift-machine-api-azure

  • Microsoft.Compute/availabilitySets/delete

  • Microsoft.Compute/availabilitySets/read

  • Microsoft.Compute/availabilitySets/write

  • Microsoft.Compute/diskEncryptionSets/read

  • Microsoft.Compute/disks/delete

  • Microsoft.Compute/galleries/images/versions/read

  • Microsoft.Compute/skus/read

  • Microsoft.Compute/virtualMachines/delete

  • Microsoft.Compute/virtualMachines/extensions/delete

  • Microsoft.Compute/virtualMachines/extensions/read

  • Microsoft.Compute/virtualMachines/extensions/write

  • Microsoft.Compute/virtualMachines/read

  • Microsoft.Compute/virtualMachines/write

  • Microsoft.ManagedIdentity/userAssignedIdentities/assign/action

  • Microsoft.Network/applicationSecurityGroups/read

  • Microsoft.Network/loadBalancers/backendAddressPools/join/action

  • Microsoft.Network/loadBalancers/read

  • Microsoft.Network/loadBalancers/write

  • Microsoft.Network/networkInterfaces/delete

  • Microsoft.Network/networkInterfaces/join/action

  • Microsoft.Network/networkInterfaces/loadBalancers/read

  • Microsoft.Network/networkInterfaces/read

  • Microsoft.Network/networkInterfaces/write

  • Microsoft.Network/networkSecurityGroups/read

  • Microsoft.Network/networkSecurityGroups/write

  • Microsoft.Network/publicIPAddresses/delete

  • Microsoft.Network/publicIPAddresses/join/action

  • Microsoft.Network/publicIPAddresses/read

  • Microsoft.Network/publicIPAddresses/write

  • Microsoft.Network/routeTables/read

  • Microsoft.Network/virtualNetworks/delete

  • Microsoft.Network/virtualNetworks/read

  • Microsoft.Network/virtualNetworks/subnets/join/action

  • Microsoft.Network/virtualNetworks/subnets/read

  • Microsoft.Resources/subscriptions/resourceGroups/read

Cluster Image Registry Operator

openshift-image-registry-azure

Data permissions

  • Microsoft.Storage/storageAccounts/blobServices/containers/blobs/delete

  • Microsoft.Storage/storageAccounts/blobServices/containers/blobs/write

  • Microsoft.Storage/storageAccounts/blobServices/containers/blobs/read

  • Microsoft.Storage/storageAccounts/blobServices/containers/blobs/add/action

  • Microsoft.Storage/storageAccounts/blobServices/containers/blobs/move/action

General permissions

  • Microsoft.Storage/storageAccounts/blobServices/read

  • Microsoft.Storage/storageAccounts/blobServices/containers/read

  • Microsoft.Storage/storageAccounts/blobServices/containers/write

  • Microsoft.Storage/storageAccounts/blobServices/generateUserDelegationKey/action

  • Microsoft.Storage/storageAccounts/read

  • Microsoft.Storage/storageAccounts/write

  • Microsoft.Storage/storageAccounts/delete

  • Microsoft.Storage/storageAccounts/listKeys/action

  • Microsoft.Resources/tags/write

Ingress Operator

openshift-ingress-azure

  • Microsoft.Network/dnsZones/A/delete

  • Microsoft.Network/dnsZones/A/write

  • Microsoft.Network/privateDnsZones/A/delete

  • Microsoft.Network/privateDnsZones/A/write

Cluster Network Operator

openshift-cloud-network-config-controller-azure

  • Microsoft.Network/networkInterfaces/read

  • Microsoft.Network/networkInterfaces/write

  • Microsoft.Compute/virtualMachines/read

  • Microsoft.Network/virtualNetworks/read

  • Microsoft.Network/virtualNetworks/subnets/join/action

  • Microsoft.Network/loadBalancers/backendAddressPools/join/action

Azure File CSI Driver Operator

azure-file-csi-driver-operator

  • Microsoft.Network/networkSecurityGroups/join/action

  • Microsoft.Network/virtualNetworks/subnets/read

  • Microsoft.Network/virtualNetworks/subnets/write

  • Microsoft.Storage/storageAccounts/delete

  • Microsoft.Storage/storageAccounts/fileServices/read

  • Microsoft.Storage/storageAccounts/fileServices/shares/delete

  • Microsoft.Storage/storageAccounts/fileServices/shares/read

  • Microsoft.Storage/storageAccounts/fileServices/shares/write

  • Microsoft.Storage/storageAccounts/listKeys/action

  • Microsoft.Storage/storageAccounts/read

  • Microsoft.Storage/storageAccounts/write

Azure Disk CSI Driver Operator

azure-disk-csi-driver-operator

  • Microsoft.Compute/disks/*

  • Microsoft.Compute/snapshots/*

  • Microsoft.Compute/virtualMachineScaleSets/*/read

  • Microsoft.Compute/virtualMachineScaleSets/read

  • Microsoft.Compute/virtualMachineScaleSets/virtualMachines/write

  • Microsoft.Compute/virtualMachines/*/read

  • Microsoft.Compute/virtualMachines/write

  • Microsoft.Resources/subscriptions/resourceGroups/read

  1. This component requires a role rather than a set of permissions.

OLM-managed Operator support for authentication with Microsoft Entra Workload ID

Certain Operators managed by the Operator Lifecycle Manager (OLM) on Azure clusters can use manual mode with Microsoft Entra Workload ID. These Operators authenticate with short-term credentials that are managed outside the cluster. To determine if an Operator supports authentication with Workload ID, see the Operator description in OperatorHub.