This guide provides an overview of the concepts that drive Operator Lifecycle Manager (OLM) in OpenShift Container Platform.
Operator Lifecycle Manager (OLM) helps users install, update, and manage the lifecycle of Kubernetes native applications (Operators) and their associated services running across their OpenShift Container Platform clusters. It is part of the Operator Framework, an open source toolkit designed to manage Operators in an effective, automated, and scalable way.
OLM runs by default in OpenShift Container Platform 4.9, which aids cluster administrators in installing, upgrading, and granting access to Operators running on their cluster. The OpenShift Container Platform web console provides management screens for cluster administrators to install Operators, as well as grant specific projects access to use the catalog of Operators available on the cluster.
For developers, a self-service experience allows provisioning and configuring instances of databases, monitoring, and big data services without having to be subject matter experts, because the Operator has that knowledge baked into it.
The following custom resource definitions (CRDs) are defined and managed by Operator Lifecycle Manager (OLM):
Resource | Short name | Description |
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Application metadata. For example: name, version, icon, required resources. |
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A repository of CSVs, CRDs, and packages that define an application. |
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Keeps CSVs up to date by tracking a channel in a package. |
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Calculated list of resources to be created to automatically install or upgrade a CSV. |
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Configures all Operators deployed in the same namespace as the |
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Creates a communication channel between OLM and an Operator it manages. Operators can write to the |
A cluster service version (CSV) represents a specific version of a running Operator on an OpenShift Container Platform cluster. It is a YAML manifest created from Operator metadata that assists Operator Lifecycle Manager (OLM) in running the Operator in the cluster.
OLM requires this metadata about an Operator to ensure that it can be kept running safely on a cluster, and to provide information about how updates should be applied as new versions of the Operator are published. This is similar to packaging software for a traditional operating system; think of the packaging step for OLM as the stage at which you make your rpm
, deb
, or apk
bundle.
A CSV includes the metadata that accompanies an Operator container image, used to populate user interfaces with information such as its name, version, description, labels, repository link, and logo.
A CSV is also a source of technical information required to run the Operator, such as which custom resources (CRs) it manages or depends on, RBAC rules, cluster requirements, and install strategies. This information tells OLM how to create required resources and set up the Operator as a deployment.
A catalog source represents a store of metadata, typically by referencing an index image stored in a container registry. Operator Lifecycle Manager (OLM) queries catalog sources to discover and install Operators and their dependencies. OperatorHub in the OpenShift Container Platform web console also displays the Operators provided by catalog sources.
Cluster administrators can view the full list of Operators provided by an enabled catalog source on a cluster by using the Administration → Cluster Settings → Configuration → OperatorHub page in the web console. |
The spec
of a CatalogSource
object indicates how to construct a pod or how to communicate with a service that serves the Operator Registry gRPC API.
CatalogSource
objectapiVersion: operators.coreos.com/v1alpha1
kind: CatalogSource
metadata:
generation: 1
name: example-catalog (1)
namespace: openshift-marketplace (2)
annotations:
olm.catalogImageTemplate: (3)
"quay.io/example-org/example-catalog:v{kube_major_version}.{kube_minor_version}.{kube_patch_version}"
spec:
displayName: Example Catalog (4)
image: quay.io/example-org/example-catalog:v1 (5)
priority: -400 (6)
publisher: Example Org
sourceType: grpc (7)
updateStrategy:
registryPoll: (8)
interval: 30m0s
status:
connectionState:
address: example-catalog.openshift-marketplace.svc:50051
lastConnect: 2021-08-26T18:14:31Z
lastObservedState: READY (9)
latestImageRegistryPoll: 2021-08-26T18:46:25Z (10)
registryService: (11)
createdAt: 2021-08-26T16:16:37Z
port: 50051
protocol: grpc
serviceName: example-catalog
serviceNamespace: openshift-marketplace
1 | Name for the CatalogSource object. This value is also used as part of the name for the related pod that is created in the requested namespace. |
2 | Namespace to create the catalog in. To make the catalog available cluster-wide in all namespaces, set this value to openshift-marketplace . The default Red Hat-provided catalog sources also use the openshift-marketplace namespace. Otherwise, set the value to a specific namespace to make the Operator only available in that namespace. |
3 | Optional: To avoid cluster upgrades potentially leaving Operator installations in an unsupported state or without a continued update path, you can enable automatically changing your Operator catalog’s index image version as part of cluster upgrades.
Set the |
4 | Display name for the catalog in the web console and CLI. |
5 | Index image for the catalog. Optionally, can be omitted when using the olm.catalogImageTemplate annotation, which sets the pull spec at run time. |
6 | Weight for the catalog source. OLM uses the weight for prioritization during dependency resolution. A higher weight indicates the catalog is preferred over lower-weighted catalogs. |
7 | Source types include the following:
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8 | Automatically check for new versions at a given interval to stay up-to-date. |
9 | Last observed state of the catalog connection. For example:
See States of Connectivity in the gRPC documentation for more details. |
10 | Latest time the container registry storing the catalog image was polled to ensure the image is up-to-date. |
11 | Status information for the catalog’s Operator Registry service. |
Referencing the name
of a CatalogSource
object in a subscription instructs OLM where to search to find a requested Operator:
Subscription
object referencing a catalog sourceapiVersion: operators.coreos.com/v1alpha1
kind: Subscription
metadata:
name: example-operator
namespace: example-namespace
spec:
channel: stable
name: example-operator
source: example-catalog
sourceNamespace: openshift-marketplace
Operator compatibility with the underlying cluster can be expressed by a catalog source in various ways. One way, which is used for the default Red Hat-provided catalog sources, is to identify image tags for index images that are specifically created for a particular platform release, for example OpenShift Container Platform 4.9.
During a cluster upgrade, the index image tag for the default Red Hat-provided catalog sources are updated automatically by the Cluster Version Operator (CVO) so that Operator Lifecycle Manager (OLM) pulls the updated version of the catalog. For example during an upgrade from OpenShift Container Platform 4.8 to 4.9, the spec.image
field in the CatalogSource
object for the redhat-operators
catalog is updated from:
registry.redhat.io/redhat/redhat-operator-index:v4.8
to:
registry.redhat.io/redhat/redhat-operator-index:v4.9
However, the CVO does not automatically update image tags for custom catalogs. To ensure users are left with a compatible and supported Operator installation after a cluster upgrade, custom catalogs should also be kept updated to reference an updated index image.
Starting in OpenShift Container Platform 4.9, cluster administrators can add the olm.catalogImageTemplate
annotation in the CatalogSource
object for custom catalogs to an image reference that includes a template. The following Kubernetes version variables are supported for use in the template:
kube_major_version
kube_minor_version
kube_patch_version
You must specify the Kubernetes cluster version and not an OpenShift Container Platform cluster version, as the latter is not currently available for templating. |
Provided that you have created and pushed an index image with a tag specifying the updated Kubernetes version, setting this annotation enables the index image versions in custom catalogs to be automatically changed after a cluster upgrade. The annotation value is used to set or update the image reference in the spec.image
field of the CatalogSource
object. This helps avoid cluster upgrades leaving Operator installations in unsupported states or without a continued update path.
You must ensure that the index image with the updated tag, in whichever registry it is stored in, is accessible by the cluster at the time of the cluster upgrade. |
apiVersion: operators.coreos.com/v1alpha1
kind: CatalogSource
metadata:
generation: 1
name: example-catalog
namespace: openshift-marketplace
annotations:
olm.catalogImageTemplate:
"quay.io/example-org/example-catalog:v{kube_major_version}.{kube_minor_version}"
spec:
displayName: Example Catalog
image: quay.io/example-org/example-catalog:v1.22
priority: -400
publisher: Example Org
If the If the |
For an OpenShift Container Platform 4.9 cluster, which uses Kubernetes 1.22, the olm.catalogImageTemplate
annotation in the preceding example resolves to the following image reference:
quay.io/example-org/example-catalog:v1.22
For future releases of OpenShift Container Platform, you can create updated index images for your custom catalogs that target the later Kubernetes version that is used by the later OpenShift Container Platform version. With the olm.catalogImageTemplate
annotation set before the upgrade, upgrading the cluster to the later OpenShift Container Platform version would then automatically update the catalog’s index image as well.
A subscription, defined by a Subscription
object, represents an intention to install an Operator. It is the custom resource that relates an Operator to a catalog source.
Subscriptions describe which channel of an Operator package to subscribe to, and whether to perform updates automatically or manually. If set to automatic, the subscription ensures Operator Lifecycle Manager (OLM) manages and upgrades the Operator to ensure that the latest version is always running in the cluster.
Subscription
objectapiVersion: operators.coreos.com/v1alpha1
kind: Subscription
metadata:
name: example-operator
namespace: example-namespace
spec:
channel: stable
name: example-operator
source: example-catalog
sourceNamespace: openshift-marketplace
This Subscription
object defines the name and namespace of the Operator, as well as the catalog from which the Operator data can be found. The channel, such as alpha
, beta
, or stable
, helps determine which Operator stream should be installed from the catalog source.
The names of channels in a subscription can differ between Operators, but the naming scheme should follow a common convention within a given Operator. For example, channel names might follow a minor release update stream for the application provided by the Operator (1.2
, 1.3
) or a release frequency (stable
, fast
).
In addition to being easily visible from the OpenShift Container Platform web console, it is possible to identify when there is a newer version of an Operator available by inspecting the status of the related subscription. The value associated with the currentCSV
field is the newest version that is known to OLM, and installedCSV
is the version that is installed on the cluster.
An install plan, defined by an InstallPlan
object, describes a set of resources that Operator Lifecycle Manager (OLM) creates to install or upgrade to a specific version of an Operator. The version is defined by a cluster service version (CSV).
To install an Operator, a cluster administrator, or a user who has been granted Operator installation permissions, must first create a Subscription
object. A subscription represents the intent to subscribe to a stream of available versions of an Operator from a catalog source. The subscription then creates an InstallPlan
object to facilitate the installation of the resources for the Operator.
The install plan must then be approved according to one of the following approval strategies:
If the subscription’s spec.installPlanApproval
field is set to Automatic
, the install plan is approved automatically.
If the subscription’s spec.installPlanApproval
field is set to Manual
, the install plan must be manually approved by a cluster administrator or user with proper permissions.
After the install plan is approved, OLM creates the specified resources and installs the Operator in the namespace that is specified by the subscription.
InstallPlan
objectapiVersion: operators.coreos.com/v1alpha1
kind: InstallPlan
metadata:
name: install-abcde
namespace: operators
spec:
approval: Automatic
approved: true
clusterServiceVersionNames:
- my-operator.v1.0.1
generation: 1
status:
...
catalogSources: []
conditions:
- lastTransitionTime: '2021-01-01T20:17:27Z'
lastUpdateTime: '2021-01-01T20:17:27Z'
status: 'True'
type: Installed
phase: Complete
plan:
- resolving: my-operator.v1.0.1
resource:
group: operators.coreos.com
kind: ClusterServiceVersion
manifest: >-
...
name: my-operator.v1.0.1
sourceName: redhat-operators
sourceNamespace: openshift-marketplace
version: v1alpha1
status: Created
- resolving: my-operator.v1.0.1
resource:
group: apiextensions.k8s.io
kind: CustomResourceDefinition
manifest: >-
...
name: webservers.web.servers.org
sourceName: redhat-operators
sourceNamespace: openshift-marketplace
version: v1beta1
status: Created
- resolving: my-operator.v1.0.1
resource:
group: ''
kind: ServiceAccount
manifest: >-
...
name: my-operator
sourceName: redhat-operators
sourceNamespace: openshift-marketplace
version: v1
status: Created
- resolving: my-operator.v1.0.1
resource:
group: rbac.authorization.k8s.io
kind: Role
manifest: >-
...
name: my-operator.v1.0.1-my-operator-6d7cbc6f57
sourceName: redhat-operators
sourceNamespace: openshift-marketplace
version: v1
status: Created
- resolving: my-operator.v1.0.1
resource:
group: rbac.authorization.k8s.io
kind: RoleBinding
manifest: >-
...
name: my-operator.v1.0.1-my-operator-6d7cbc6f57
sourceName: redhat-operators
sourceNamespace: openshift-marketplace
version: v1
status: Created
...
An Operator group, defined by the OperatorGroup
resource, provides multitenant configuration to OLM-installed Operators. An Operator group selects target namespaces in which to generate required RBAC access for its member Operators.
The set of target namespaces is provided by a comma-delimited string stored in the olm.targetNamespaces
annotation of a cluster service version (CSV). This annotation is applied to the CSV instances of member Operators and is projected into their deployments.
As part of its role in managing the lifecycle of an Operator, Operator Lifecycle Manager (OLM) infers the state of an Operator from the state of Kubernetes resources that define the Operator. While this approach provides some level of assurance that an Operator is in a given state, there are many instances where an Operator might need to communicate information to OLM that could not be inferred otherwise. This information can then be used by OLM to better manage the lifecycle of the Operator.
OLM provides a custom resource definition (CRD) called OperatorCondition
that allows Operators to communicate conditions to OLM. There are a set of supported conditions that influence management of the Operator by OLM when present in the Spec.Conditions
array of an OperatorCondition
resource.
By default, the |