-
<namespace_route>
refers to the namespace route. This is found by running the following command:$ oc get route oauth-openshift -n openshift-authentication -o json | jq .spec.host
For users to interact with Red Hat OpenShift service on AWS, they must first authenticate to the cluster. The authentication layer identifies the user associated with requests to the Red Hat OpenShift service on AWS API. The authorization layer then uses information about the requesting user to determine if the request is allowed.
A user in Red Hat OpenShift service on AWS is an entity that can make requests to the
Red Hat OpenShift service on AWS API. An Red Hat OpenShift service on AWS User
object represents an actor which
can be granted permissions in the system by adding roles to them or to their
groups. Typically, this represents the account of a developer or
administrator that is interacting with Red Hat OpenShift service on AWS.
Several types of users can exist:
User type | Description |
---|---|
|
This is the way most interactive Red Hat OpenShift service on AWS users are
represented. Regular users are created automatically in the system upon
first login or can be created via the API. Regular users are represented
with the |
|
Many of these are created automatically when the infrastructure
is defined, mainly for the purpose of enabling the infrastructure to
interact with the API securely. They include a cluster administrator
(with access to everything), a per-node user, users for use by routers
and registries, and various others. Finally, there is an |
|
These are special system users associated with projects; some are created automatically when
the project is first created, while project administrators can create more
for the purpose of defining access to the contents of each project.
service accounts are represented with the |
Each user must authenticate in
some way to access Red Hat OpenShift service on AWS. API requests with no authentication
or invalid authentication are authenticated as requests by the anonymous
system user. After authentication, policy determines what the user is
authorized to do.
A user can be assigned to one or more groups, each of which represent a certain set of users. Groups are useful when managing authorization policies to grant permissions to multiple users at once, for example allowing access to objects within a project, versus granting them to users individually.
In addition to explicitly defined groups, there are also system groups, or virtual groups, that are automatically provisioned by the cluster.
The following default virtual groups are most important:
Virtual group | Description |
---|---|
|
Automatically associated with all authenticated users. |
|
Automatically associated with all users authenticated with an OAuth access token. |
|
Automatically associated with all unauthenticated users. |
Requests to the Red Hat OpenShift service on AWS API are authenticated using the following methods:
Obtained from the Red Hat OpenShift service on AWS OAuth server using the
<namespace_route>/oauth/authorize
and <namespace_route>/oauth/token
endpoints.
Sent as an Authorization: Bearer…
header.
Sent as a websocket subprotocol header in the form
base64url.bearer.authorization.k8s.io.<base64url-encoded-token>
for websocket
requests.
Requires an HTTPS connection to the API server.
Verified by the API server against a trusted certificate authority bundle.
The API server creates and distributes certificates to controllers to authenticate themselves.
Any request with an invalid access token or an invalid certificate is rejected
by the authentication layer with a 401
error.
If no access token or certificate is presented, the authentication layer assigns
the system:anonymous
virtual user and the system:unauthenticated
virtual
group to the request. This allows the authorization layer to determine which
requests, if any, an anonymous user is allowed to make.
The Red Hat OpenShift service on AWS master includes a built-in OAuth server. Users obtain OAuth access tokens to authenticate themselves to the API.
When a person requests a new OAuth token, the OAuth server uses the configured identity provider to determine the identity of the person making the request.
It then determines what user that identity maps to, creates an access token for that user, and returns the token for use.
Every request for an OAuth token must specify the OAuth client that will receive and use the token. The following OAuth clients are automatically created when starting the Red Hat OpenShift service on AWS API:
OAuth client | Usage |
---|---|
|
Requests tokens at |
|
Requests tokens with a user-agent that can handle |
<namespace_route>
refers to the namespace route. This is found by
running the following command:
$ oc get route oauth-openshift -n openshift-authentication -o json | jq .spec.host
All requests for OAuth tokens involve a request to
<namespace_route>/oauth/authorize
. Most authentication integrations place an
authenticating proxy in front of this endpoint, or configure
Red Hat OpenShift service on AWS to validate credentials against a backing identity provider.
Requests to <namespace_route>/oauth/authorize
can come from user-agents that
cannot display interactive login pages, such as the CLI. Therefore,
Red Hat OpenShift service on AWS supports authenticating using a WWW-Authenticate
challenge in addition to interactive login flows.
If an authenticating proxy is placed in front of the
<namespace_route>/oauth/authorize
endpoint, it sends unauthenticated,
non-browser user-agents WWW-Authenticate
challenges rather than
displaying an interactive login page or redirecting to an interactive
login flow.
To prevent cross-site request forgery (CSRF) attacks against browser
clients, only send Basic authentication challenges with if a
If the authenticating proxy cannot support |