Understanding identity provider configuration

The OKD control plane includes a built-in OAuth server. Developers and administrators obtain OAuth access tokens to authenticate themselves to the API.

As an administrator, you can configure OAuth to specify an identity provider after you install your cluster.

About identity providers in OKD

By default, only a kubeadmin user exists on your cluster. To specify an identity provider, you must create a custom resource (CR) that describes that identity provider and add it to the cluster.

OKD user names containing /, :, and % are not supported.

Supported identity providers

You can configure the following types of identity providers:

Identity provider Description

Configure the htpasswd identity provider to validate user names and passwords against a flat file generated using htpasswd.

Configure the keystone identity provider to integrate your OKD cluster with Keystone to enable shared authentication with an OpenStack Keystone v3 server configured to store users in an internal database.

Configure the ldap identity provider to validate user names and passwords against an LDAPv3 server, using simple bind authentication.

Configure a basic-authentication identity provider for users to log in to OKD with credentials validated against a remote identity provider. Basic authentication is a generic backend integration mechanism.

Configure a request-header identity provider to identify users from request header values, such as X-Remote-User. It is typically used in combination with an authenticating proxy, which sets the request header value.

Configure a github identity provider to validate user names and passwords against GitHub or GitHub Enterprise’s OAuth authentication server.

Configure a gitlab identity provider to use GitLab.com or any other GitLab instance as an identity provider.

Configure a google identity provider using Google’s OpenID Connect integration.

Configure an oidc identity provider to integrate with an OpenID Connect identity provider using an Authorization Code Flow.

After you define an identity provider, you can use RBAC to define and apply permissions.

Identity provider parameters

The following parameters are common to all identity providers:

Parameter Description


The provider name is prefixed to provider user names to form an identity name.


Defines how new identities are mapped to users when they log in. Enter one of the following values:


The default value. Provisions a user with the identity’s preferred user name. Fails if a user with that user name is already mapped to another identity.


Looks up an existing identity, user identity mapping, and user, but does not automatically provision users or identities. This allows cluster administrators to set up identities and users manually, or using an external process. Using this method requires you to manually provision users.


Provisions a user with the identity’s preferred user name. If a user with the preferred user name is already mapped to an existing identity, a unique user name is generated. For example, myuser2. This method should not be used in combination with external processes that require exact matches between OKD user names and identity provider user names, such as LDAP group sync.


Provisions a user with the identity’s preferred user name. If a user with that user name already exists, the identity is mapped to the existing user, adding to any existing identity mappings for the user. Required when multiple identity providers are configured that identify the same set of users and map to the same user names.

When adding or changing identity providers, you can map identities from the new provider to existing users by setting the mappingMethod parameter to add.

Sample identity provider CR

The following custom resource (CR) shows the parameters and default values that you use to configure an identity provider. This example uses the htpasswd identity provider.

Sample identity provider CR
apiVersion: config.openshift.io/v1
kind: OAuth
  name: cluster
  - name: my_identity_provider (1)
    mappingMethod: claim (2)
    type: HTPasswd
        name: htpass-secret (3)
1 This provider name is prefixed to provider user names to form an identity name.
2 Controls how mappings are established between this provider’s identities and User objects.
3 An existing secret containing a file generated using htpasswd.

Using RBAC to define and apply permissions

Understand and apply role-based access control.

RBAC overview

Role-based access control (RBAC) objects determine whether a user is allowed to perform a given action within a project.

Cluster administrators can use the cluster roles and bindings to control who has various access levels to the OKD platform itself and all projects.

Developers can use local roles and bindings to control who has access to their projects. Note that authorization is a separate step from authentication, which is more about determining the identity of who is taking the action.

Authorization is managed using:

Authorization object Description


Sets of permitted verbs on a set of objects. For example, whether a user or service account can create pods.


Collections of rules. You can associate, or bind, users and groups to multiple roles.


Associations between users and/or groups with a role.

There are two levels of RBAC roles and bindings that control authorization:

RBAC level Description

Cluster RBAC

Roles and bindings that are applicable across all projects. Cluster roles exist cluster-wide, and cluster role bindings can reference only cluster roles.

Local RBAC

Roles and bindings that are scoped to a given project. While local roles exist only in a single project, local role bindings can reference both cluster and local roles.

A cluster role binding is a binding that exists at the cluster level. A role binding exists at the project level. The cluster role view must be bound to a user using a local role binding for that user to view the project. Create local roles only if a cluster role does not provide the set of permissions needed for a particular situation.

This two-level hierarchy allows reuse across multiple projects through the cluster roles while allowing customization inside of individual projects through local roles.

During evaluation, both the cluster role bindings and the local role bindings are used. For example:

  1. Cluster-wide "allow" rules are checked.

  2. Locally-bound "allow" rules are checked.

  3. Deny by default.

Default cluster roles

OKD includes a set of default cluster roles that you can bind to users and groups cluster-wide or locally.

It is not recommended to manually modify the default cluster roles. Modifications to these system roles can prevent a cluster from functioning properly.

Default cluster role Description


A project manager. If used in a local binding, an admin has rights to view any resource in the project and modify any resource in the project except for quota.


A user that can get basic information about projects and users.


A super-user that can perform any action in any project. When bound to a user with a local binding, they have full control over quota and every action on every resource in the project.


A user that can get basic cluster status information.


A user that can get or view most of the objects but cannot modify them.


A user that can modify most objects in a project but does not have the power to view or modify roles or bindings.


A user that can create their own projects.


A user who cannot make any modifications, but can see most objects in a project. They cannot view or modify roles or bindings.

Be mindful of the difference between local and cluster bindings. For example, if you bind the cluster-admin role to a user by using a local role binding, it might appear that this user has the privileges of a cluster administrator. This is not the case. Binding the cluster-admin to a user in a project grants super administrator privileges for only that project to the user. That user has the permissions of the cluster role admin, plus a few additional permissions like the ability to edit rate limits, for that project. This binding can be confusing via the web console UI, which does not list cluster role bindings that are bound to true cluster administrators. However, it does list local role bindings that you can use to locally bind cluster-admin.

The relationships between cluster roles, local roles, cluster role bindings, local role bindings, users, groups and service accounts are illustrated below.