Chapter 8. Operators
8.1. Using Operators with MicroShift
You can use Operators with MicroShift to create applications that monitor the running services in your cluster. Operators can manage applications and their resources, such as deploying a database or message bus. As customized software running inside your cluster, Operators can be used to implement and automate common operations.
Operators offer a more localized configuration experience and integrate with Kubernetes APIs and CLI tools such as kubectl
and oc
. Operators are designed specifically for your applications. Operators enable you to configure components instead of modifying a global configuration file.
MicroShift applications are generally expected to be deployed in static environments. However, Operators are available if helpful in your use case. To determine the compatibility of an Operator with MicroShift, check the Operator documentation.
8.1.1. How to use Operators with MicroShift clusters
There are two ways to use Operators for your MicroShift clusters:
8.1.1.1. Manifests for Operators
Operators can be installed and managed directly by using manifests. You can use the kustomize
configuration management tool with MicroShift to deploy an application. Use the same steps to install Operators with manifests.
- See Using Kustomize manifests to deploy applications and Using manifests example for details.
8.1.1.2. Operator Lifecycle Manager for Operators
You can also install add-on Operators to a MicroShift cluster using Operator Lifecycle Manager (OLM). OLM can be used to manage both custom Operators and Operators that are widely available. Building catalogs is required to use OLM with MicroShift.
- For details, see Using Operator Lifecycle Manager with MicroShift.
8.2. Using Operator Lifecycle Manager with MicroShift
The Operator Lifecycle Manager (OLM) package manager is used in MicroShift for installing and running optional add-on Operators.
8.2.1. Considerations for using OLM with MicroShift
- Cluster Operators as applied in OpenShift Container Platform are not used in MicroShift.
You must create your own catalogs for the add-on Operators you want to use with your applications. Catalogs are not provided by default.
-
Each catalog must have an accessible
CatalogSource
added to a cluster, so that the OLM catalog Operator can use the catalog for content.
-
Each catalog must have an accessible
You must use the CLI to conduct OLM activities with MicroShift. The console and OperatorHub GUIs are not available.
-
Use the Operator Package Manager
opm
CLI with network-connected clusters, or for building catalogs for custom Operators that use an internal registry. - To mirror your catalogs and Operators for disconnected or offline clusters, install the oc-mirror OpenShift CLI plugin.
-
Use the Operator Package Manager
Before using an Operator, verify with the provider that the Operator is supported on MicroShift.
8.2.2. Determining your OLM installation type
You can install the OLM package manager for use with MicroShift 4.15 or newer versions. There are different ways to install OLM for MicroShift clusters, depending on your use case.
-
You can install the
microshift-olm
RPM at the same time you install the MicroShift RPM on Red Hat Enterprise Linux (RHEL). -
You can install the
microshift-olm
on an existing MicroShift 4.17. Restart the MicroShift service after installing OLM for the changes to apply. See Installing the Operator Lifecycle Manager (OLM) from an RPM package. - You can embed OLM in a Red Hat Enterprise Linux for Edge (RHEL for Edge) image. See Adding the Operator Lifecycle Manager (OLM) service to a blueprint.
8.2.3. Namespace use in MicroShift
The microshift-olm
RPM creates the three default namespaces: one for running OLM, and two for catalog and Operator installation. You can create additional namespaces as needed for your use case.
8.2.3.1. Default namespaces
The following table lists the default namespaces and a brief description of how each namespace works.
Default Namespace | Details |
| The OLM package manager runs in this namespace. |
|
The global namespace. Empty by default. To make the catalog source to be available globally to users in all namespaces, set the |
|
The default namespace where Operators run in MicroShift. Operators that reference catalogs in the |
8.2.3.2. Custom namespaces
If you want to use a catalog and Operator together in a single namespace, then you must create a custom namespace. After you create the namespace, you must create the catalog in that namespace. All Operators running in the custom namespace must have the same single-namespace watch scope.
8.2.4. About building Operator catalogs
To use Operator Lifecycle Manager (OLM) with MicroShift, you must build custom Operator catalogs that you can then manage with OLM. The standard catalogs that are included with OpenShift Container Platform are not included with MicroShift.
8.2.4.1. File-based Operator catalogs
You can create catalogs for your custom Operators or filter catalogs of widely available Operators. You can combine both methods to create the catalogs needed for your specific use case. To run MicroShift with your own Operators and OLM, make a catalog by using the file-based catalog structure.
- For details, see Managing custom catalogs and Example catalog.
-
See also
opm
CLI reference.
-
When adding a catalog source to a cluster, set the
securityContextConfig
value torestricted
in thecatalogSource.yaml
file. Ensure that your catalog can run withrestricted
permissions.
Additional resources
-
opm
CLI reference - About Operator catalogs
-
To create file-based catalogs by using the
opm
CLI, see Managing custom catalogs
8.2.5. How to deploy Operators using OLM
After you create and deploy your custom catalog, you must create a Subscription custom resource (CR) that can access the catalog and install the Operators you choose. Where Operators run depends on the namespace in which you create the Subscription CR.
Operators in OLM have a watch scope. For example, some Operators only support watching their own namespace, while others support watching every namespace in the cluster. All Operators installed in a given namespace must have the same watch scope.
8.2.5.1. Connectivity and OLM Operator deployment
Operators can be deployed anywhere a catalog is running.
- For clusters that are connected to the internet, mirroring images is not required. Images can be pulled over the network.
- For restricted networks in which MicroShift has access to an internal network only, images must be mirrored to an internal registry.
-
For use cases in which MicroShift clusters are completely offline, all images must be embedded into an
osbuild
blueprint.
Additional resources
8.2.5.2. Adding OLM-based Operators to a networked cluster using the global namespace
To deploy different operators to different namespaces, use this procedure. For MicroShift clusters that have network connectivity, Operator Lifecycle Manager (OLM) can access sources hosted on remote registries. The following procedure lists the basic steps of using configuration files to install an Operator that uses the global namespace.
To use an Operator installed in a different namespace, or in more than one namespace, make sure that the catalog source and the Subscription CR that references the Operator are running in the openshift-marketplace
namespace.
Prerequisites
-
The OpenShift CLI (
oc
) is installed. - Operator Lifecycle Manager (OLM) is installed.
- You have created a custom catalog in the global namespace.
Procedure
Confirm that OLM is running by using the following command:
$ oc -n openshift-operator-lifecycle-manager get pod -l app=olm-operator
Example output
NAME READY STATUS RESTARTS AGE olm-operator-85b5c6786-n6kbc 1/1 Running 0 2m24s
Confirm that the OLM catalog Operator is running by using the following command:
$ oc -n openshift-operator-lifecycle-manager get pod -l app=catalog-operator
Example output
NAME READY STATUS RESTARTS AGE catalog-operator-5fc7f857b6-tj8cf 1/1 Running 0 2m33s
The following steps assume you are using the global namespace, openshift-marketplace
. The catalog must run in the same namespace as the Operator. The Operator must support the AllNamespaces mode.
Create the
CatalogSource
object by using the following example YAML:Example catalog source YAML
apiVersion: operators.coreos.com/v1alpha1 kind: CatalogSource metadata: name: operatorhubio-catalog namespace: openshift-marketplace 1 spec: sourceType: grpc image: quay.io/operatorhubio/catalog:latest displayName: Community Operators 2 publisher: OperatorHub.io grpcPodConfig: securityContextConfig: restricted 3 updateStrategy: registryPoll: interval: 60m
- 1
- The global namespace. Setting the
metadata.namespace
toopenshift-marketplace
enables the catalog to run in all namespaces. Subscriptions in any namespace can reference catalogs created in theopenshift-marketplace
namespace. - 2
- Community Operators are not installed by default with OLM for MicroShift. Listed here for example only.
- 3
- The value of
securityContextConfig
must be set torestricted
for MicroShift.
Apply the
CatalogSource
configuration by running the following command:$ oc apply -f <catalog_source.yaml> 1
- 1
- Replace
<catalog-source.yaml>
with your catalog source configuration file name. In this example,catalogsource.yaml
is used.
Example output
catalogsource.operators.coreos.com/operatorhubio-catalog created
To verify that the catalog source is applied, check for the
READY
state by using the following command:$ oc describe catalogsources.operators.coreos.com -n openshift-marketplace operatorhubio-catalog
Example output
Name: operatorhubio-catalog Namespace: openshift-marketplace Labels: <none> Annotations: <none> API Version: operators.coreos.com/v1alpha1 Kind: CatalogSource Metadata: Creation Timestamp: 2024-01-31T09:55:31Z Generation: 1 Resource Version: 1212 UID: 4edc1a96-83cd-4de9-ac8c-c269ca895f3e Spec: Display Name: Community Operators Grpc Pod Config: Security Context Config: restricted Image: quay.io/operatorhubio/catalog:latest Publisher: OperatorHub.io Source Type: grpc Update Strategy: Registry Poll: Interval: 60m Status: Connection State: Address: operatorhubio-catalog.openshift-marketplace.svc:50051 Last Connect: 2024-01-31T09:55:57Z Last Observed State: READY 1 Registry Service: Created At: 2024-01-31T09:55:31Z Port: 50051 Protocol: grpc Service Name: operatorhubio-catalog Service Namespace: openshift-marketplace Events: <none>
- 1
- The status is reported as
READY
.
Confirm that the catalog source is running by using the following command:
$ oc get pods -n openshift-marketplace -l olm.catalogSource=operatorhubio-catalog
Example output
NAME READY STATUS RESTARTS AGE operatorhubio-catalog-x24nh 1/1 Running 0 59s
Create a Subscription CR configuration file by using the following example YAML:
Example Subscription custom resource YAML
apiVersion: operators.coreos.com/v1alpha1 kind: Subscription metadata: name: my-cert-manager namespace: openshift-operators spec: channel: stable name: cert-manager source: operatorhubio-catalog sourceNamespace: openshift-marketplace 1
- 1
- The global namespace. Setting the
sourceNamespace
value toopenshift-marketplace
enables Operators to run in multiple namespaces if the catalog also runs in theopenshift-marketplace
namespace.
Apply the Subscription CR configuration by running the following command:
$ oc apply -f <subscription_cr.yaml> 1
- 1
- Replace
<subscription_cr.yaml>
with your Subscription CR filename.
Example output
subscription.operators.coreos.com/my-cert-manager created
- You can create a configuration file for the specific Operand you want to use and apply it now.
Verification
Verify that your Operator is running by using the following command:
$ oc get pods -n openshift-operators 1
- 1
- The namespace from the Subscription CR is used.
NoteAllow a minute or two for the Operator start.
Example output
NAME READY STATUS RESTARTS AGE cert-manager-7df8994ddb-4vrkr 1/1 Running 0 19s cert-manager-cainjector-5746db8fd7-69442 1/1 Running 0 18s cert-manager-webhook-f858bf58b-748nt 1/1 Running 0 18s
8.2.5.3. Adding OLM-based Operators to a networked cluster in a specific namespace
Use this procedure if you want to specify a namespace for an Operator, for example, olm-microshift
. In this example, the catalog is scoped and available in the global openshift-marketplace
namespace. The Operator uses content from the global namespace, but runs only in the olm-microshift
namespace. For MicroShift clusters that have network connectivity, Operator Lifecycle Manager (OLM) can access sources hosted on remote registries.
All of the Operators installed in a specific namespace must have the same watch scope. In this case, the watch scope is OwnNamespace.
Prerequisites
-
The OpenShift CLI (
oc
) is installed. - Operator Lifecycle Manager (OLM) is installed.
- You have created a custom catalog that is running in the global namespace.
Procedure
Confirm that OLM is running by using the following command:
$ oc -n openshift-operator-lifecycle-manager get pod -l app=olm-operator
Example output
NAME READY STATUS RESTARTS AGE olm-operator-85b5c6786-n6kbc 1/1 Running 0 16m
Confirm that the OLM catalog Operator is running by using the following command:
$ oc -n openshift-operator-lifecycle-manager get pod -l app=catalog-operator
Example output
NAME READY STATUS RESTARTS AGE catalog-operator-5fc7f857b6-tj8cf 1/1 Running 0 16m
Create a namespace by using the following example YAML:
Example namespace YAML
apiVersion: v1 kind: Namespace metadata: name: olm-microshift
Apply the namespace configuration using the following command:
$ oc apply -f <ns.yaml> 1
- 1
- Replace
<ns.yaml>
with the name of your namespace configuration file. In this example,olm-microshift
is used.
Example output
namespace/olm-microshift created
Create the Operator group YAML by using the following example YAML:
Example Operator group YAML
kind: OperatorGroup apiVersion: operators.coreos.com/v1 metadata: name: og namespace: olm-microshift spec: 1 targetNamespaces: - olm-microshift
- 1
- For Operators using the global namespace, omit the
spec.targetNamespaces
field and values.
Apply the Operator group configuration by running the following command:
$ oc apply -f <og.yaml> 1
- 1
- Replace
<og.yaml>
with the name of your operator group configuration file.
Example output
operatorgroup.operators.coreos.com/og created
Create the
CatalogSource
object by using the following example YAML:Example catalog source YAML
apiVersion: operators.coreos.com/v1alpha1 kind: CatalogSource metadata: name: operatorhubio-catalog namespace: openshift-marketplace 1 spec: sourceType: grpc image: quay.io/operatorhubio/catalog:latest displayName: Community Operators 2 publisher: OperatorHub.io grpcPodConfig: securityContextConfig: restricted 3 updateStrategy: registryPoll: interval: 60m
- 1
- The global namespace. Setting the
metadata.namespace
toopenshift-marketplace
enables the catalog to run in all namespaces. Subscriptions CRs in any namespace can reference catalogs created in theopenshift-marketplace
namespace. - 2
- Community Operators are not installed by default with OLM for MicroShift. Listed here for example only.
- 3
- The value of
securityContextConfig
must be set torestricted
for MicroShift.
Apply the
CatalogSource
configuration by running the following command:$ oc apply -f <catalog_source.yaml> 1
- 1
- Replace
<catalog_source.yaml>
with your catalog source configuration file name.
To verify that the catalog source is applied, check for the
READY
state by using the following command:$ oc describe catalogsources.operators.coreos.com -n openshift-marketplace operatorhubio-catalog
Example output
Name: operatorhubio-catalog Namespace: openshift-marketplace Labels: <none> Annotations: <none> API Version: operators.coreos.com/v1alpha1 Kind: CatalogSource Metadata: Creation Timestamp: 2024-01-31T10:09:46Z Generation: 1 Resource Version: 2811 UID: 60ce4a36-86d3-4921-b9fc-84d67c28df48 Spec: Display Name: Community Operators Grpc Pod Config: Security Context Config: restricted Image: quay.io/operatorhubio/catalog:latest Publisher: OperatorHub.io Source Type: grpc Update Strategy: Registry Poll: Interval: 60m Status: Connection State: Address: operatorhubio-catalog.openshift-marketplace.svc:50051 Last Connect: 2024-01-31T10:10:04Z Last Observed State: READY 1 Registry Service: Created At: 2024-01-31T10:09:46Z Port: 50051 Protocol: grpc Service Name: operatorhubio-catalog Service Namespace: openshift-marketplace Events: <none>
- 1
- The status is reported as
READY
.
Confirm that the catalog source is running by using the following command:
$ oc get pods -n openshift-marketplace -l olm.catalogSource=operatorhubio-catalog
Example output
NAME READY STATUS RESTARTS AGE operatorhubio-catalog-j7sc8 1/1 Running 0 43s
Create a Subscription CR configuration file by using the following example YAML:
Example Subscription custom resource YAML
apiVersion: operators.coreos.com/v1alpha1 kind: Subscription metadata: name: my-gitlab-operator-kubernetes namespace: olm-microshift 1 spec: channel: stable name: gitlab-operator-kubernetes source: operatorhubio-catalog sourceNamespace: openshift-marketplace 2
Apply the Subscription CR configuration by running the following command:
$ oc apply -f <subscription_cr.yaml> 1
- 1
- Replace
<subscription_cr.yaml>
with the name of the Subscription CR configuration file.
Example output
subscription.operators.coreos.com/my-gitlab-operator-kubernetes
- You can create a configuration file for the specific Operand you want to use and apply it now.
Verification
Verify that your Operator is running by using the following command:
$ oc get pods -n olm-microshift 1
- 1
- The namespace from the Subscription CR is used.
NoteAllow a minute or two for the Operator start.
Example output
NAME READY STATUS RESTARTS AGE gitlab-controller-manager-69bb6df7d6-g7ntx 2/2 Running 0 3m24s
Additional resources
8.3. Creating custom catalogs using the oc-mirror plugin
You can create custom catalogs with widely available Operators and mirror them by using the oc-mirror OpenShift CLI (oc) plugin.
8.3.1. Using Red Hat-provided Operator catalogs and mirror registries
You can filter and prune catalogs to get specific Operators and mirror them by using the oc-mirror OpenShift CLI (oc) plugin. You can also use Operators in disconnected settings or embedded in Red Hat Enterprise Linux for Edge (RHEL for Edge) images. To read more details about how to configure your systems for mirroring, use the links in the following "Additional resources" section. If you are ready to deploy Operators from Red Hat-provided Operator catalogs, mirror them, or to embed them in RHEL for Edge images, start with the following section, "Inspecting catalog contents by using the oc-mirror plugin."
8.3.2. About the oc-mirror plugin for creating a mirror registry
You can use the oc-mirror OpenShift CLI (oc) plugin with MicroShift to filter and prune Operator catalogs. You can then mirror the filtered catalog contents to a mirror registry or use the container images in disconnected or offline deployments with RHEL for Edge.
MicroShift uses the generally available version (1) of the oc-mirror plugin. Do not use the following procedures with the Technical Preview version (2) of oc-mirror plugin.
You can mirror the container images required by the desired Operators locally or to a container mirror registry that supports Docker v2-2, such as Red Hat Quay. The procedure to mirror content from Red Hat-hosted registries connected to the internet to a disconnected image registry is the same, independent of the registry you choose. After you mirror the contents of your catalog, configure each cluster to retrieve this content from your mirror registry.
8.3.2.1. Connectivity considerations when populating a mirror registry
When you populate your registry, you can use one of following connectivity scenarios:
- Connected mirroring
- If you have a host that can access both the internet and your mirror registry, but not your cluster node, you can directly mirror the content from that machine.
- Disconnected mirroring
If you do not have a host that can access both the internet and your mirror registry, you must mirror the images to a file system and then bring that host or removable media into your disconnected environment.
ImportantA container registry must be reachable by every machine in the clusters that you provision. Installing, updating, and other operations, such as relocating workloads, might fail if the registry is unreachable.
To avoid problems caused by an unreachable registry, use the following standard practices:
- Run mirror registries in a highly available way.
- Ensure that the mirror registry at least matches the production availability of your clusters.
Additional resources
8.3.2.2. Inspecting catalog contents by using the oc-mirror plugin
Use the following example procedure to select a catalog and list Operators from available OpenShift Container Platform content to add to your oc-mirror plugin image set configuration file.
If you use your own catalogs and Operators, you can push the images directly to your internal registry.
Prerequisites
-
The OpenShift CLI (
oc
) is installed. - Operator Lifecycle Manager (OLM) is installed.
- The oc-mirror OpenShift CLI (oc) plugin is installed.
Procedure
Get a list of available Red Hat-provided Operator catalogs to filter by running the following command:
$ oc mirror list operators --version 4.17 --catalogs
Get a list of Operators in the Red Hat Operators catalog by running the following command:
$ oc mirror list operators <--catalog=<catalog_source>> 1
- 1
- Specifies your catalog source, such as
registry.redhat.io/redhat/redhat-operator-index:v4.17
orquay.io/operatorhubio/catalog:latest
.
-
Select an Operator. For this example,
amq-broker-rhel8
is selected. Optional: To inspect the channels and versions of the Operator you want to filter, enter the following commands:
Get a list of channels by running the following command:
$ oc mirror list operators --catalog=registry.redhat.io/redhat/redhat-operator-index:v4.17 --package=amq-broker-rhel8
Get a list of versions within a channel by running the following command:
$ oc mirror list operators --catalog=registry.redhat.io/redhat/redhat-operator-index:v4.17 --package=amq-broker-rhel8 --channel=7.11.x
Next steps
- Create and edit an image set configuration file using the information gathered in this procedure.
- Mirror the images from the transformed image set configuration file to a mirror registry or disk.
8.3.2.3. Creating an image set configuration file
You must create an image set configuration file to mirror catalog contents with the oc-mirror plugin. The image set configuration file defines which Operators to mirror along with other configuration settings for the oc-mirror plugin. After generating a default image set file, you must edit the contents so that remaining entries are compatible with both MicroShift and the Operator you plan to use.
You must specify a storage backend in the image set configuration file. This storage backend can be a local directory or a registry that supports Docker v2-2. The oc-mirror plugin stores metadata in this storage backend during image set creation.
Do not delete or modify the metadata that is generated by the oc-mirror plugin. You must use the same storage backend every time you run the oc-mirror plugin for the same mirror registry.
Prerequisites
- You have created a container image registry credentials file. See Configuring credentials that allow images to be mirrored.
Procedure
Use the
oc mirror init
command to create a template for the image set configuration and save it to a file calledimageset-config.yaml
:$ oc mirror init <--registry <storage_backend> > imageset-config.yaml 1
- 1
- Specifies the location of your storage backend, such as
example.com/mirror/oc-mirror-metadata
.
Example default image set configuration file
kind: ImageSetConfiguration apiVersion: mirror.openshift.io/v1alpha2 storageConfig: registry: imageURL: registry.example.com/oc-mirror skipTLS: false mirror: platform: 1 channels: - name: stable-4.17 type: ocp operators: - catalog: registry.redhat.io/redhat/redhat-operator-index:v4.17 packages: - name: serverless-operator channels: - name: stable additionalImages: 2 - name: registry.redhat.io/ubi8/ubi:latest helm: {} 3
Edit the values of your image set configuration file to meet the requirements of both MicroShift and the Operator you want to mirror, like the following example:
Example edited MicroShift image set configuration file
kind: ImageSetConfiguration apiVersion: mirror.openshift.io/v1alpha2 storageConfig: 1 registry: imageURL: <storage_backend> 2 skipTLS: false mirror: operators: - catalog: registry.redhat.io/redhat/redhat-operator-index:v4.17 3 packages: - name: amq-broker-rhel8 4 channels: - name: 7.11.x 5
- 1
- Set the backend location where the image set metadata is saved. This location can be a registry or local directory. It is required to specify
storageConfig
values. - 2
- Set the registry URL for the storage backend, such as
<example.com/mirror/oc-mirror-metadata
. - 3
- Set the Operator catalog to retrieve images from.
- 4
- Specify the Operator packages to include in the image set. Remove this field to retrieve all packages in the catalog.
- 5
- Specify only certain channels of the Operator packages to include in the image set. You must always include the default channel for the Operator package even if you do not use the bundles in that channel. You can find the default channel by running the following command:
oc mirror list operators --catalog=<catalog_name> --package=<package_name>
.
- Save the updated file.
Next steps
- Use the oc-mirror plugin to mirror an image set directly to a target mirror registry.
- Configure CRI-O.
- Apply the catalog sources to your clusters.
8.3.2.3.1. Image set configuration parameters
The oc-mirror plugin requires an image set configuration file that defines what images to mirror. The following table lists the available parameters for the ImageSetConfiguration
resource.
Parameter | Description | Values |
---|---|---|
|
The API version for the |
String. For example: |
| The configuration of the image set. | Object |
| The additional images configuration of the image set. | Array of objects. For example: additionalImages: - name: registry.redhat.io/ubi8/ubi:latest |
| The tag or digest of the image to mirror. |
String. For example: |
| The full tag, digest, or pattern of images to block from mirroring. |
Array of strings. For example: |
| The Operators configuration of the image set. | Array of objects. For example: operators: - catalog: registry.redhat.io/redhat/redhat-operator-index:v4.17 packages: - name: elasticsearch-operator minVersion: '2.4.0' |
| The Operator catalog to include in the image set. |
String. For example: |
|
When |
Boolean. The default value is |
| The Operator packages configuration. | Array of objects. For example: operators: - catalog: registry.redhat.io/redhat/redhat-operator-index:v4.17 packages: - name: elasticsearch-operator minVersion: '5.2.3-31' |
| The Operator package name to include in the image set |
String. For example: |
| The Operator package channel configuration. | Object |
| The Operator channel name, unique within a package, to include in the image set. |
String. For example: |
| The highest version of the Operator mirror across all channels in which it exists. See the following note for further information. |
String. For example: |
| The name of the minimum bundle to include, plus all bundles in the update graph to the channel head. Set this field only if the named bundle has no semantic version metadata. |
String. For example: |
| The lowest version of the Operator to mirror across all channels in which it exists. See the following note for further information. |
String. For example: |
| The highest version of the Operator to mirror across all channels in which it exists. See the following note for further information. |
String. For example: |
| The lowest version of the Operator to mirror across all channels in which it exists. See the following note for further information. |
String. For example: |
|
If |
Boolean. The default value is |
| An alternative name and optional namespace hierarchy to mirror the referenced catalog as. |
String. For example: |
| An alternative name to mirror the referenced catalog as.
The |
String. For example: |
|
An alternative tag to append to the |
String. For example: |
| The back-end configuration of the image set. | Object |
| The local back-end configuration of the image set. | Object |
| The path of the directory to contain the image set metadata. |
String. For example: |
| The registry back-end configuration of the image set. | Object |
| The back-end registry URI. Can optionally include a namespace reference in the URI. |
String. For example: |
| Optionally skip TLS verification of the referenced back-end registry. |
Boolean. The default value is |
Using the minVersion
and maxVersion
properties to filter for a specific Operator version range can result in a multiple channel heads error. The error message states that there are multiple channel heads
. This is because when the filter is applied, the update graph of the Operator is truncated.
Operator Lifecycle Manager requires that every Operator channel contains versions that form an update graph with exactly one end point, that is, the latest version of the Operator. When the filter range is applied, that graph can turn into two or more separate graphs or a graph that has more than one end point.
To avoid this error, do not filter out the latest version of an Operator. If you still run into the error, depending on the Operator, either the maxVersion
property must be increased or the minVersion
property must be decreased. Because every Operator graph can be different, you might need to adjust these values until the error resolves.
Additional resources
8.3.2.4. Mirroring from mirror to mirror
You can use the oc-mirror plugin to mirror an image set directly to a target mirror registry that is accessible during image set creation.
You are required to specify a storage backend in the image set configuration file. This storage backend can be a local directory or a Docker v2 registry. The oc-mirror plugin stores metadata in this storage backend during image set creation.
Do not delete or modify the metadata that is generated by the oc-mirror plugin. You must use the same storage backend every time you run the oc-mirror plugin for the same mirror registry.
Prerequisites
- You have access to the internet to get the necessary container images.
-
You have installed the OpenShift CLI (
oc
). -
You have installed the
oc-mirror
CLI plugin. - You have created the image set configuration file.
Procedure
Run the
oc mirror
command to mirror the images from the specified image set configuration to a specified registry:$ oc mirror --config=./<imageset-config.yaml> \1 docker://registry.example:5000 2
- 1
- Specify the image set configuration file that you created. For example,
imageset-config.yaml
. - 2
- Specify the registry to mirror the image set file to. The registry must start with
docker://
. If you specify a top-level namespace for the mirror registry, you must also use this same namespace on subsequent executions.
Example output
Rendering catalog image "registry.example.com/redhat/redhat-operator-index:v{ocp-version}" with file-based catalog
Verification
-
Navigate into the
oc-mirror-workspace/
directory that was generated. -
Navigate into the results directory, for example,
results-1639608409/
. -
Verify that YAML files are present for the
ImageContentSourcePolicy
andCatalogSource
resources.
The ImageContentSourcePolicy
YAML file is used as reference content for manual configuration of CRI-O in MicroShift. You cannot apply the resource directly into a MicroShift cluster.
Next steps
-
Convert the
ImageContentSourcePolicy
YAML content for use in manually configuring CRI-O. - If required, mirror the images from mirror to disk for disconnected or offline use.
- Configure your cluster to use the resources generated by oc-mirror.
Troubleshooting
8.3.2.5. Configuring CRI-O for using a registry mirror for Operators
You must transform the imageContentSourcePolicy.yaml
file created with the oc-mirror plugin into a format that is compatible with the CRI-O container runtime configuration used by MicroShift.
Prerequisites
-
The OpenShift CLI (
oc
) is installed. - Operator Lifecycle Manager (OLM) is installed.
- The oc-mirror OpenShift CLI (oc) plugin is installed.
-
The
yq
binary is installed. -
ImageContentSourcePolicy
andCatalogSource
YAML files are available in theoc-mirror-workspace/results-*
directory.
Procedure
Confirm the contents of the
imageContentSourcePolicy.yaml
file by running the following command:$ cat oc-mirror-workspace/<results-directory>/imageContentSourcePolicy.yaml 1
- 1
- Specify the
results
directory name, such as<results-1707148826>
.
Example output
apiVersion: operator.openshift.io/v1alpha1 kind: ImageContentSourcePolicy metadata: labels: operators.openshift.org/catalog: "true" name: operator-0 spec: repositoryDigestMirrors: - mirrors: - registry.<example.com>/amq7 source: registry.redhat.io/amq7
Transform the
imageContentSourcePolicy.yaml
into a format ready for CRI-O configuration by running the following command:yq '.spec.repositoryDigestMirrors[] as $item ireduce([]; . + [{"mirror": $item.mirrors[], "source": ($item | .source)}]) | .[] | "[[registry]] prefix = \"" + .source + "\" location = \"" + .mirror + "\" mirror-by-digest-only = true insecure = true "' ./icsp.yaml
Example output
[[registry]] prefix = "registry.redhat.io/amq7" location = "registry.example.com/amq7" mirror-by-digest-only = true insecure = true
Add the output to the CRI-O configuration file in the
/etc/containers/registries.conf.d/
directory:Example
crio-config.yaml
mirror configuration file[[registry]] prefix = "registry.redhat.io/amq7" location = "registry.example.com/amq7" mirror-by-digest-only = true insecure = true [[registry]] prefix = "" location = "quay.io" mirror-by-digest-only = true [[registry.mirror]] location = "<registry_host>:<port>" 1 insecure = false
- 1
- Specify the host name and port of your mirror registry server, for example
microshift-quay:8443
.
Apply the CRI-O configuration changes by restarting MicroShift with the following command:
$ sudo systemctl restart crio
8.3.2.6. Installing a custom catalog created with the oc-mirror plugin
After you mirror your image set to the mirror registry, you must apply the generated CatalogSource
custom resource (CR) into the cluster. The CatalogSource
CR is used by Operator Lifecycle Manager (OLM) to retrieve information about the available Operators in the mirror registry. You must then create and apply a subscription CR to subscribe to your custom catalog.
Prerequisites
- You mirrored the image set to your registry mirror.
- You added image reference information to the CRI-O container runtime configuration.
Procedure
Apply the catalog source configuration file from the results directory to create the catalog source object by running the following command:
$ oc apply -f ./oc-mirror-workspace/results-1708508014/catalogSource-cs-redhat-operator-index.yaml
Example catalog source configuration file
apiVersion: operators.coreos.com/v1alpha1 kind: CatalogSource metadata: name: redhat-catalog namespace: openshift-marketplace 1 spec: sourceType: grpc image: registry.example.com/redhat/redhat-operator-index:v4.17 updateStrategy: registryPoll: interval: 60m
- 1
- Specifies the global namespace. Setting the
metadata.namespace
toopenshift-marketplace
enables the catalog to reference catalogs in all namespaces. Subscriptions in any namespace can reference catalogs created in theopenshift-marketplace
namespace.
Example output
catalogsource.operators.coreos.com/cs-redhat-operator-index created
Verify that the
CatalogSource
resources were successfully installed by running the following command:$ oc get catalogsource --all-namespaces
Verify that the catalog source is running by using the following command:
$ oc get pods -n openshift-marketplace
Example output
NAME READY STATUS RESTARTS AGE cs-redhat-operator-index-4227b 2/2 Running 0 2m5s
Create a
Subscription
CR, similar to the following example:Example
Subscription
CRapiVersion: operators.coreos.com/v1alpha1 kind: Subscription metadata: name: amq-broker namespace: openshift-operators spec: channel: 7.11.x name: amq-broker-rhel8 source: cs-redhat-operator-index sourceNamespace: openshift-marketplace
Apply the Subscription CR configuration by running the following command:
$ oc apply -f ./<my-subscription-cr.yaml> 1
- 1
- Specify the name of your subscription, such as
my-subscription-cr.yaml
.
Example output
subscription.operators.coreos.com/amq-broker created
8.4. Adding OLM-based Operators to a disconnected cluster
You can use OLM-based Operators in disconnected situations by embedding them in a Red Hat Enterprise Linux for Edge (RHEL for Edge) image.
8.4.1. About adding OLM-based Operators to a disconnected cluster
For Operators that are installed on disconnected clusters, Operator Lifecycle Manager (OLM) by default cannot access sources hosted on remote registries because those remote sources require full internet connectivity. Therefore, you must mirror the remote registries to a highly available container registry.
The following steps are required to use OLM-based Operators in disconnected situations:
- Include OLM in the container image list for your mirror registry.
-
Configure the system to use your mirror registry by updating your CRI-O configuration directly.
ImageContentSourcePolicy
is not supported in MicroShift. -
Add a
CatalogSource
object to the cluster so that the OLM catalog Operator can use the local catalog on the mirror registry. - Ensure that MicroShift is installed to run in a disconnected capacity.
- Ensure that the network settings are configured to run in disconnected mode.
After enabling OLM in a disconnected cluster, you can continue to use your internet-connected workstation to keep your local catalog sources updated as newer versions of Operators are released.
Additional resources
8.4.1.1. Performing a dry run
You can use oc-mirror to perform a dry run, without actually mirroring any images. This allows you to review the list of images that would be mirrored, as well as any images that would be pruned from the mirror registry. A dry run also allows you to catch any errors with your image set configuration early or use the generated list of images with other tools to carry out the mirroring operation.
Prerequisites
- You have access to the internet to obtain the necessary container images.
-
You have installed the OpenShift CLI (
oc
). -
You have installed the
oc-mirror
CLI plugin. - You have created the image set configuration file.
Procedure
Run the
oc mirror
command with the--dry-run
flag to perform a dry run:$ oc mirror --config=./imageset-config.yaml \1 docker://registry.example:5000 \2 --dry-run 3
- 1
- Pass in the image set configuration file that was created. This procedure assumes that it is named
imageset-config.yaml
. - 2
- Specify the mirror registry. Nothing is mirrored to this registry as long as you use the
--dry-run
flag. - 3
- Use the
--dry-run
flag to generate the dry run artifacts and not an actual image set file.
Example output
Checking push permissions for registry.example:5000 Creating directory: oc-mirror-workspace/src/publish Creating directory: oc-mirror-workspace/src/v2 Creating directory: oc-mirror-workspace/src/charts Creating directory: oc-mirror-workspace/src/release-signatures No metadata detected, creating new workspace wrote mirroring manifests to oc-mirror-workspace/operators.1658342351/manifests-redhat-operator-index ... info: Planning completed in 31.48s info: Dry run complete Writing image mapping to oc-mirror-workspace/mapping.txt
Navigate into the workspace directory that was generated:
$ cd oc-mirror-workspace/
Review the
mapping.txt
file that was generated.This file contains a list of all images that would be mirrored.
Review the
pruning-plan.json
file that was generated.This file contains a list of all images that would be pruned from the mirror registry when the image set is published.
NoteThe
pruning-plan.json
file is only generated if your oc-mirror command points to your mirror registry and there are images to be pruned.
8.4.1.2. Getting catalogs and Operator container image references to use with RHEL for Edge in disconnected environments
After performing a dry run with the oc-mirror plugin to review the list of images that you want to mirror, you must get all of the container image references, then format the output for adding to an Image Builder blueprint.
For catalogs made for proprietary Operators, you can format image references for the Image Builder blueprint without using the following procedure.
Prerequisites
- You have a catalog index for the Operators you want to use.
-
You have installed the
jq
CLI tool. - You are familiar with Image Builder blueprint files.
- You have an Image Builder blueprint TOML file.
Procedure
Parse the catalog
index.json
file to get the image references that you need to include in the Image Builder blueprint. You can use either the unfiltered catalog or you can filter out images that cannot be mirrored:Parse the unfiltered catalog
index.json
file to get the image references by running the following command:jq -r --slurp '.[] | select(.relatedImages != null) | "[[containers]]\nsource = \"" + .relatedImages[].image + "\"\n"' ./oc-mirror-workspace/src/catalogs/registry.redhat.io/redhat/redhat-operator-index/v4.17/index/index.json
If you want to filter out images that cannot be mirrored, filter and parse the catalog
index.json
file by running the following command:$ jq -r --slurp '.[] | select(.relatedImages != null) | .relatedImages[] | select(.name | contains("ppc") or contains("s390x") | not) | "[[containers]]\\nsource = \\"" + .image + "\\"\\n"' ./oc-mirror-workspace/src/catalogs/registry.redhat.io/redhat/redhat-operator-index/v4.17/index/index.json
NoteThis step uses the AMQ Broker Operator as an example. You can add other criteria to the
jq
command for further filtering as required by your use case.Example image-reference output
[[containers]] source = "registry.redhat.io/amq7/amq-broker-init-rhel8@sha256:0b2126cfb6054fdf428c1f43b69e36e93a09a49ce15350e9273c98cc08c6598b" [[containers]] source = "registry.redhat.io/amq7/amq-broker-init-rhel8@sha256:0dde839c2dce7cb684094bf26523c8e16677de03149a0fff468b8c3f106e1f4f" ... ... [[containers]] source = "registry.redhat.io/amq7/amq-broker-rhel8@sha256:e8fa2a00e576ecb95561ffbdbf87b1c82d479c8791ab2c6ce741dd0d0b496d15" [[containers]] source = "registry.redhat.io/amq7/amq-broker-rhel8@sha256:ff6fefad518a6c997d4c5a6e475ba89640260167f0bc27715daf3cc30116fad1" … EOF
ImportantFor mirrored and disconnected use cases, ensure that all of the sources filtered from your catalog
index.json
file are digests. If any of the sources use tags instead of digests, the Operator installation fails. Tags require an internet connection.
View the
imageset-config.yaml
to get the catalog image reference for theCatalogSource
custom resource (CR) by running the following command:$ cat imageset-config.yaml
Example output
kind: ImageSetConfiguration apiVersion: mirror.openshift.io/v1alpha2 storageConfig: registry: imageURL: registry.example.com/microshift-mirror mirror: operators: - catalog: registry.redhat.io/redhat/redhat-operator-index:v4.17 1 packages: - name: amq-broker-rhel8 channels: - name: 7.11.x
- 1
- Use the value in the
mirror.catalog
catalog image reference for the follwingjq
command to get the image digest. In this example, <registry.redhat.io/redhat/redhat-operator-index:v4.17>.
Get the SHA of the catalog index image by running the following command:
$ skopeo inspect docker://<registry.redhat.io/redhat/redhat-operator-index:v4.17> | jq `.Digest` 1
- 1
- Use the value in the
mirror.catalog
catalog image reference for thejq
command to get the image digest. In this example, <registry.redhat.io/redhat/redhat-operator-index:v4.17>.
Example output
"sha256:7a76c0880a839035eb6e896d54ebd63668bb37b82040692141ba39ab4c539bc6"
To get ready to add the image references to your Image Builder blueprint file, format the catalog image reference by using the following example:
[[containers]] source = "registry.redhat.io/redhat/redhat-operator-index@sha256:7a76c0880a839035eb6e896d54ebd63668bb37b82040692141ba39ab4c539bc6"
Add the image references from all the previous steps to the Image Builder blueprint.
Generated Image Builder blueprint example snippet
name = "microshift_blueprint" description = "MicroShift 4.17.1 on x86_64 platform" version = "0.0.1" modules = [] groups = [] [[packages]] 1 name = "microshift" version = "4.17.1" ... ... [customizations.services] 2 enabled = ["microshift"] [customizations.firewall] ports = ["22:tcp", "80:tcp", "443:tcp", "5353:udp", "6443:tcp", "30000-32767:tcp", "30000-32767:udp"] ... ... [[containers]] 3 source = "quay.io/openshift-release-dev/ocp-v4.0-art-dev@sha256:f41e79c17e8b41f1b0a5a32c3e2dd7cd15b8274554d3f1ba12b2598a347475f4" [[containers]] source = "quay.io/openshift-release-dev/ocp-v4.0-art-dev@sha256:dbc65f1fba7d92b36cf7514cd130fe83a9bd211005ddb23a8dc479e0eea645fd" ... ... [[containers]] 4 source = "registry.redhat.io/redhat/redhat-operator-index@sha256:7a76c0880a839035eb6e896d54ebd63668bb37b82040692141ba39ab4c539bc6" ... ... [[containers]] source = "registry.redhat.io/amq7/amq-broker-init-rhel8@sha256:0dde839c2dce7cb684094bf26523c8e16677de03149a0fff468b8c3f106e1f4f" ... ... [[containers]] source = "registry.redhat.io/amq7/amq-broker-rhel8@sha256:e8fa2a00e576ecb95561ffbdbf87b1c82d479c8791ab2c6ce741dd0d0b496d15" [[containers]] source = "registry.redhat.io/amq7/amq-broker-rhel8@sha256:ff6fefad518a6c997d4c5a6e475ba89640260167f0bc27715daf3cc30116fad1" … EOF
- 1
- References for all non-optional MicroShift RPM packages using the same version compatible with the
microshift-release-info
RPM. - 2
- References for automatically enabling MicroShift on system startup and applying default networking settings.
- 3
- References for all non-optional MicroShift container images necessary for a disconnected deployment.
- 4
- References for the catalog index.
8.4.1.3. Applying catalogs and Operators in a disconnected-deployment RHEL for Edge image
After you have created a RHEL for Edge image for a disconnected environment and configured MicroShift networking settings for disconnected use, you can configure the namespace and create catalog and Operator custom resources (CR) for running your Operators.
Prerequisites
- You have a RHEL for Edge image.
- Networking is configured for disconnected use.
- You completed the oc-mirror plugin dry run procedure.
Procedure
Create a
CatalogSource
custom resource (CR), similar to the following example:Example
my-catalog-source-cr.yaml
fileapiVersion: operators.coreos.com/v1alpha1 kind: CatalogSource metadata: name: cs-redhat-operator-index namespace: openshift-marketplace 1 spec: image: registry.example.com/redhat/redhat-operator-index:v4.17 sourceType: grpc displayName: publisher: updateStrategy: registryPoll: interval: 60m
- 1
- The global namespace. Setting the
metadata.namespace
toopenshift-marketplace
enables the catalog to run in all namespaces. Subscriptions in any namespace can reference catalogs created in theopenshift-marketplace
namespace.
NoteThe default pod security admission definition for
openshift-marketplace
isbaseline
, therefore a catalog source custom resource (CR) created in that namespace does not require aspec.grpcPodConfig.securityContextConfig
value to be set. You can set alegacy
orrestricted
value if required for the namespace and Operators you want to use.Add the SHA of the catalog index commit to the Catalog Source (CR), similar to the following example:
Example namespace
spec.image
configurationapiVersion: operators.coreos.com/v1alpha1 kind: CatalogSource metadata: name: cs-redhat-operator-index namespace: openshift-marketplace spec: image: registry.example.com/redhat/redhat-operator-index@sha256:7a76c0880a839035eb6e896d54ebd63668bb37b82040692141ba39ab4c539bc6 1 sourceType: grpc displayName: publisher: updateStrategy: registryPoll: interval: 60m
- 1
- The SHA of the image commit. Use the same SHA you added to the image builder blueprint.
ImportantYou must use the SHA instead of a tag in your catalog CR or the pod fails to start.
Apply the YAML file from the oc-mirror plugin dry run results directory to the cluster by running the following command:
$ oc apply -f ./oc-mirror-workspace/results-1708508014/catalogSource-cs-redhat-operator-index.yaml
Example output
catalogsource.operators.coreos.com/cs-redhat-operator-index created
Verify that the
CatalogSource
resources were successfully installed by running the following command:$ oc get catalogsource --all-namespaces
Verify that the catalog source is running by using the following command:
$ oc get pods -n openshift-marketplace
Example output
NAME READY STATUS RESTARTS AGE cs-redhat-operator-index-4227b 2/2 Running 0 2m5s
Create a
Subscription
CR, similar to the following example:Example
my-subscription-cr.yaml
fileapiVersion: operators.coreos.com/v1alpha1 kind: Subscription metadata: name: amq-broker namespace: openshift-operators spec: channel: 7.11.x name: amq-broker-rhel8 source: cs-redhat-operator-index sourceNamespace: openshift-marketplace
Apply the
Subscription
CR by running the following command:$ oc apply -f ./<my-subscription-cr.yaml> 1
- 1
- Specify the name of your
Subscription
CR, such asmy-subscription-cr.yaml
.
Example output
subscription.operators.coreos.com/amq-broker created