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Chapter 1. OpenShift image registry overview
Red Hat OpenShift Service on AWS can build images from your source code, deploy them, and manage their lifecycle. It provides an internal, integrated container image registry that can be deployed in your Red Hat OpenShift Service on AWS environment to locally manage images. This overview contains reference information and links for registries commonly used with Red Hat OpenShift Service on AWS, with a focus on the OpenShift image registry.
1.1. Glossary of common terms for OpenShift image registry
This glossary defines the common terms that are used in the registry content.
- container
- Lightweight and executable images that consist of software and all its dependencies. Because containers virtualize the operating system, you can run containers in a data center, a public or private cloud, or your local host.
- Image Registry Operator
-
The Image Registry Operator runs in the
openshift-image-registry
namespace, and manages the registry instance in that location. - image repository
- An image repository is a collection of related container images and tags identifying images.
- mirror registry
- The mirror registry is a registry that holds the mirror of Red Hat OpenShift Service on AWS images.
- namespace
- A namespace isolates groups of resources within a single cluster.
- pod
- The pod is the smallest logical unit in Kubernetes. A pod is comprised of one or more containers to run in a worker node.
- private registry
- A registry is a server that implements the container image registry API. A private registry is a registry that requires authentication to allow users access its contents.
- public registry
- A registry is a server that implements the container image registry API. A public registry is a registry that serves its contently publicly.
- Quay.io
- A public Red Hat Quay Container Registry instance provided and maintained by Red Hat, which serves most of the container images and Operators to Red Hat OpenShift Service on AWS clusters.
- OpenShift image registry
- OpenShift image registry is the registry provided by Red Hat OpenShift Service on AWS to manage images.
- registry authentication
- To push and pull images to and from private image repositories, the registry needs to authenticate its users with credentials.
- route
- Exposes a service to allow for network access to pods from users and applications outside the Red Hat OpenShift Service on AWS instance.
- scale down
- To decrease the number of replicas.
- scale up
- To increase the number of replicas.
- service
- A service exposes a running application on a set of pods.
1.2. Integrated OpenShift image registry
Red Hat OpenShift Service on AWS provides a built-in container image registry that runs as a standard workload on the cluster. The registry is configured and managed by an infrastructure Operator. It provides an out-of-the-box solution for users to manage the images that run their workloads, and runs on top of the existing cluster infrastructure. This registry can be scaled up or down like any other cluster workload and does not require specific infrastructure provisioning. In addition, it is integrated into the cluster user authentication and authorization system, which means that access to create and retrieve images is controlled by defining user permissions on the image resources.
The registry is typically used as a publication target for images built on the cluster, as well as being a source of images for workloads running on the cluster. When a new image is pushed to the registry, the cluster is notified of the new image and other components can react to and consume the updated image.
Image data is stored in two locations. The actual image data is stored in a configurable storage location, such as cloud storage or a filesystem volume. The image metadata, which is exposed by the standard cluster APIs and is used to perform access control, is stored as standard API resources, specifically images and image streams.
Additional resources
1.3. Third-party registries
Red Hat OpenShift Service on AWS can create containers using images from third-party registries, but it is unlikely that these registries offer the same image notification support as the integrated OpenShift image registry. In this situation, Red Hat OpenShift Service on AWS will fetch tags from the remote registry upon image stream creation. To refresh the fetched tags, run oc import-image <stream>
. When new images are detected, the previously described build and deployment reactions occur.
1.3.1. Authentication
Red Hat OpenShift Service on AWS can communicate with registries to access private image repositories using credentials supplied by the user. This allows Red Hat OpenShift Service on AWS to push and pull images to and from private repositories.
1.3.1.1. Registry authentication with Podman
Some container image registries require access authorization. Podman is an open source tool for managing containers and container images and interacting with image registries. You can use Podman to authenticate your credentials, pull the registry image, and store local images in a local file system. The following is a generic example of authenticating the registry with Podman.
Procedure
- Use the Red Hat Ecosystem Catalog to search for specific container images from the Red Hat Repository and select the required image.
- Click Get this image to find the command for your container image.
Log in by running the following command and entering your username and password to authenticate:
$ podman login registry.redhat.io Username:<your_registry_account_username> Password:<your_registry_account_password>
Download the image and save it locally by running the following command:
$ podman pull registry.redhat.io/<repository_name>
1.4. Red Hat Quay registries
If you need an enterprise-quality container image registry, Red Hat Quay is available both as a hosted service and as software you can install in your own data center or cloud environment. Advanced features in Red Hat Quay include geo-replication, image scanning, and the ability to roll back images.
Visit the Quay.io site to set up your own hosted Quay registry account. After that, follow the Quay Tutorial to log in to the Quay registry and start managing your images.
You can access your Red Hat Quay registry from Red Hat OpenShift Service on AWS like any remote container image registry.
Additional resources
1.5. Authentication enabled Red Hat registry
All container images available through the Container images section of the Red Hat Ecosystem Catalog are hosted on an image registry, registry.redhat.io
.
The registry, registry.redhat.io
, requires authentication for access to images and hosted content on Red Hat OpenShift Service on AWS. Following the move to the new registry, the existing registry will be available for a period of time.
Red Hat OpenShift Service on AWS pulls images from registry.redhat.io
, so you must configure your cluster to use it.
The new registry uses standard OAuth mechanisms for authentication, with the following methods:
- Authentication token. Tokens, which are generated by administrators, are service accounts that give systems the ability to authenticate against the container image registry. Service accounts are not affected by changes in user accounts, so the token authentication method is reliable and resilient. This is the only supported authentication option for production clusters.
-
Web username and password. This is the standard set of credentials you use to log in to resources such as
access.redhat.com
. While it is possible to use this authentication method with Red Hat OpenShift Service on AWS, it is not supported for production deployments. Restrict this authentication method to stand-alone projects outside Red Hat OpenShift Service on AWS.
You can use podman login
with your credentials, either username and password or authentication token, to access content on the new registry.
All image streams point to the new registry, which uses the installation pull secret to authenticate.
You must place your credentials in either of the following places:
-
openshift
namespace. Your credentials must exist in theopenshift
namespace so that the image streams in theopenshift
namespace can import. - Your host. Your credentials must exist on your host because Kubernetes uses the credentials from your host when it goes to pull images.
Additional resources