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Chapter 5. Managing images
5.1. Managing images overview
With Red Hat OpenShift Service on AWS you can interact with images and set up image streams, depending on where the registries of the images are located, any authentication requirements around those registries, and how you want your builds and deployments to behave.
5.1.1. Images overview
An image stream comprises any number of container images identified by tags. It presents a single virtual view of related images, similar to a container image repository.
By watching an image stream, builds and deployments can receive notifications when new images are added or modified and react by performing a build or deployment, respectively.
5.2. Tagging images
The following sections provide an overview and instructions for using image tags in the context of container images for working with Red Hat OpenShift Service on AWS image streams and their tags.
5.2.1. Image tags
An image tag is a label applied to a container image in a repository that distinguishes a specific image from other images in an image stream. Typically, the tag represents a version number of some sort. For example, here :v3.11.59-2
is the tag:
registry.access.redhat.com/openshift3/jenkins-2-rhel7:v3.11.59-2
You can add additional tags to an image. For example, an image might be assigned the tags :v3.11.59-2
and :latest
.
Red Hat OpenShift Service on AWS provides the oc tag
command, which is similar to the docker tag
command, but operates on image streams instead of directly on images.
5.2.2. Image tag conventions
Images evolve over time and their tags reflect this. Generally, an image tag always points to the latest image built.
If there is too much information embedded in a tag name, like v2.0.1-may-2019
, the tag points to just one revision of an image and is never updated. Using default image pruning options, such an image is never removed.
If the tag is named v2.0
, image revisions are more likely. This results in longer tag history and, therefore, the image pruner is more likely to remove old and unused images.
Although tag naming convention is up to you, here are a few examples in the format <image_name>:<image_tag>
:
Description | Example |
---|---|
Revision |
|
Architecture |
|
Base image |
|
Latest (potentially unstable) |
|
Latest stable |
|
If you require dates in tag names, periodically inspect old and unsupported images and istags
and remove them. Otherwise, you can experience increasing resource usage caused by retaining old images.
5.2.3. Adding tags to image streams
An image stream in Red Hat OpenShift Service on AWS comprises zero or more container images identified by tags.
There are different types of tags available. The default behavior uses a permanent
tag, which points to a specific image in time. If the permanent
tag is in use and the source changes, the tag does not change for the destination.
A tracking
tag means the destination tag’s metadata is updated during the import of the source tag.
Procedure
You can add tags to an image stream using the
oc tag
command:$ oc tag <source> <destination>
For example, to configure the
ruby
image streamstatic-2.0
tag to always refer to the current image for theruby
image stream2.0
tag:$ oc tag ruby:2.0 ruby:static-2.0
This creates a new image stream tag named
static-2.0
in theruby
image stream. The new tag directly references the image id that theruby:2.0
image stream tag pointed to at the timeoc tag
was run, and the image it points to never changes.To ensure the destination tag is updated when the source tag changes, use the
--alias=true
flag:$ oc tag --alias=true <source> <destination>
Use a tracking tag for creating permanent aliases, for example, latest
or stable
. The tag only works correctly within a single image stream. Trying to create a cross-image stream alias produces an error.
-
You can also add the
--scheduled=true
flag to have the destination tag be refreshed, or re-imported, periodically. The period is configured globally at the system level. The
--reference
flag creates an image stream tag that is not imported. The tag points to the source location, permanently.If you want to instruct Red Hat OpenShift Service on AWS to always fetch the tagged image from the integrated registry, use
--reference-policy=local
. The registry uses the pull-through feature to serve the image to the client. By default, the image blobs are mirrored locally by the registry. As a result, they can be pulled more quickly the next time they are needed. The flag also allows for pulling from insecure registries without a need to supply--insecure-registry
to the container runtime as long as the image stream has an insecure annotation or the tag has an insecure import policy.
5.2.4. Removing tags from image streams
You can remove tags from an image stream.
Procedure
To remove a tag completely from an image stream run:
$ oc delete istag/ruby:latest
or:
$ oc tag -d ruby:latest
5.2.5. Referencing images in imagestreams
You can use tags to reference images in image streams using the following reference types.
Reference type | Description |
---|---|
|
An |
|
An |
|
A |
When viewing example image stream definitions you may notice they contain definitions of ImageStreamTag
and references to DockerImage
, but nothing related to ImageStreamImage
.
This is because the ImageStreamImage
objects are automatically created in Red Hat OpenShift Service on AWS when you import or tag an image into the image stream. You should never have to explicitly define an ImageStreamImage
object in any image stream definition that you use to create image streams.
Procedure
To reference an image for a given image stream and tag, use
ImageStreamTag
:<image_stream_name>:<tag>
To reference an image for a given image stream and image
sha
ID, useImageStreamImage
:<image_stream_name>@<id>
The
<id>
is an immutable identifier for a specific image, also called a digest.To reference or retrieve an image for a given external registry, use
DockerImage
:openshift/ruby-20-centos7:2.0
NoteWhen no tag is specified, it is assumed the
latest
tag is used.You can also reference a third-party registry:
registry.redhat.io/rhel7:latest
Or an image with a digest:
centos/ruby-22-centos7@sha256:3a335d7d8a452970c5b4054ad7118ff134b3a6b50a2bb6d0c07c746e8986b28e
5.3. Image pull policy
Each container in a pod has a container image. After you have created an image and pushed it to a registry, you can then refer to it in the pod.
5.3.1. Image pull policy overview
When Red Hat OpenShift Service on AWS creates containers, it uses the container imagePullPolicy
to determine if the image should be pulled prior to starting the container. There are three possible values for imagePullPolicy
:
Value | Description |
---|---|
| Always pull the image. |
| Only pull the image if it does not already exist on the node. |
| Never pull the image. |
If a container imagePullPolicy
parameter is not specified, Red Hat OpenShift Service on AWS sets it based on the image tag:
-
If the tag is
latest
, Red Hat OpenShift Service on AWS defaultsimagePullPolicy
toAlways
. -
Otherwise, Red Hat OpenShift Service on AWS defaults
imagePullPolicy
toIfNotPresent
.
5.4. Using image pull secrets
If you are using the OpenShift image registry and are pulling from image streams located in the same project, then your pod service account should already have the correct permissions and no additional action should be required.
However, for other scenarios, such as referencing images across Red Hat OpenShift Service on AWS projects or from secured registries, additional configuration steps are required.
You can obtain the image pull secret from Red Hat OpenShift Cluster Manager. This pull secret is called pullSecret
.
You use this pull secret to authenticate with the services that are provided by the included authorities, Quay.io and registry.redhat.io, which serve the container images for Red Hat OpenShift Service on AWS components.
5.4.1. Allowing pods to reference images across projects
When using the OpenShift image registry, to allow pods in project-a
to reference images in project-b
, a service account in project-a
must be bound to the system:image-puller
role in project-b
.
When you create a pod service account or a namespace, wait until the service account is provisioned with a docker pull secret; if you create a pod before its service account is fully provisioned, the pod fails to access the OpenShift image registry.
Procedure
To allow pods in
project-a
to reference images inproject-b
, bind a service account inproject-a
to thesystem:image-puller
role inproject-b
:$ oc policy add-role-to-user \ system:image-puller system:serviceaccount:project-a:default \ --namespace=project-b
After adding that role, the pods in
project-a
that reference the default service account are able to pull images fromproject-b
.To allow access for any service account in
project-a
, use the group:$ oc policy add-role-to-group \ system:image-puller system:serviceaccounts:project-a \ --namespace=project-b
5.4.2. Allowing pods to reference images from other secured registries
To pull a secured container from other private or secured registries, you must create a pull secret from your container client credentials, such as Docker or Podman, and add it to your service account.
Both Docker and Podman use a configuration file to store authentication details to log in to secured or insecure registry:
-
Docker: By default, Docker uses
$HOME/.docker/config.json
. -
Podman: By default, Podman uses
$HOME/.config/containers/auth.json
.
These files store your authentication information if you have previously logged in to a secured or insecure registry.
Both Docker and Podman credential files and the associated pull secret can contain multiple references to the same registry if they have unique paths, for example, quay.io
and quay.io/<example_repository>
. However, neither Docker nor Podman support multiple entries for the exact same registry path.
Example config.json
file
{ "auths":{ "cloud.openshift.com":{ "auth":"b3Blb=", "email":"you@example.com" }, "quay.io":{ "auth":"b3Blb=", "email":"you@example.com" }, "quay.io/repository-main":{ "auth":"b3Blb=", "email":"you@example.com" } } }
Example pull secret
apiVersion: v1 data: .dockerconfigjson: ewogICAiYXV0aHMiOnsKICAgICAgIm0iOnsKICAgICAgIsKICAgICAgICAgImF1dGgiOiJiM0JsYj0iLAogICAgICAgICAiZW1haWwiOiJ5b3VAZXhhbXBsZS5jb20iCiAgICAgIH0KICAgfQp9Cg== kind: Secret metadata: creationTimestamp: "2021-09-09T19:10:11Z" name: pull-secret namespace: default resourceVersion: "37676" uid: e2851531-01bc-48ba-878c-de96cfe31020 type: Opaque
Procedure
Create a secret from an existing authentication file:
For Docker clients using
.docker/config.json
, enter the following command:$ oc create secret generic <pull_secret_name> \ --from-file=.dockerconfigjson=<path/to/.docker/config.json> \ --type=kubernetes.io/dockerconfigjson
For Podman clients using
.config/containers/auth.json
, enter the following command:$ oc create secret generic <pull_secret_name> \ --from-file=<path/to/.config/containers/auth.json> \ --type=kubernetes.io/podmanconfigjson
If you do not already have a Docker credentials file for the secured registry, you can create a secret by running:
$ oc create secret docker-registry <pull_secret_name> \ --docker-server=<registry_server> \ --docker-username=<user_name> \ --docker-password=<password> \ --docker-email=<email>
To use a secret for pulling images for pods, you must add the secret to your service account. The name of the service account in this example should match the name of the service account the pod uses. The default service account is
default
:$ oc secrets link default <pull_secret_name> --for=pull
5.4.2.1. Pulling from private registries with delegated authentication
A private registry can delegate authentication to a separate service. In these cases, image pull secrets must be defined for both the authentication and registry endpoints.
Procedure
Create a secret for the delegated authentication server:
$ oc create secret docker-registry \ --docker-server=sso.redhat.com \ --docker-username=developer@example.com \ --docker-password=******** \ --docker-email=unused \ redhat-connect-sso secret/redhat-connect-sso
Create a secret for the private registry:
$ oc create secret docker-registry \ --docker-server=privateregistry.example.com \ --docker-username=developer@example.com \ --docker-password=******** \ --docker-email=unused \ private-registry secret/private-registry