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Adding Operators to a cluster - Administrator tasks | Operators | OpenShift Dedicated
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Using Operator Lifecycle Manager (OLM), administrators with the dedicated-admin role can install OLM-based Operators to an OpenShift Dedicated cluster.

For information on how OLM handles updates for installed Operators colocated in the same namespace, as well as an alternative method for installing Operators with custom global Operator groups, see Multitenancy and Operator colocation.

About Operator installation with OperatorHub

OperatorHub is a user interface for discovering Operators; it works in conjunction with Operator Lifecycle Manager (OLM), which installs and manages Operators on a cluster.

As a dedicated-admin, you can install an Operator from OperatorHub by using the OpenShift Dedicated web console or CLI. Subscribing an Operator to one or more namespaces makes the Operator available to developers on your cluster.

During installation, you must determine the following initial settings for the Operator:

Installation Mode

Choose All namespaces on the cluster (default) to have the Operator installed on all namespaces or choose individual namespaces, if available, to only install the Operator on selected namespaces. This example chooses All namespaces…​ to make the Operator available to all users and projects.

Update Channel

If an Operator is available through multiple channels, you can choose which channel you want to subscribe to. For example, to deploy from the stable channel, if available, select it from the list.

Approval Strategy

You can choose automatic or manual updates.

If you choose automatic updates for an installed Operator, when a new version of that Operator is available in the selected channel, Operator Lifecycle Manager (OLM) automatically upgrades the running instance of your Operator without human intervention.

If you select manual updates, when a newer version of an Operator is available, OLM creates an update request. As a dedicated-admin, you must then manually approve that update request to have the Operator updated to the new version.

Additional resources

Installing from OperatorHub by using the web console

You can install and subscribe to an Operator from OperatorHub by using the OpenShift Dedicated web console.

Prerequisites
  • Access to an OpenShift Dedicated cluster using an account with the dedicated-admin role.

Procedure
  1. Navigate in the web console to the Operators → OperatorHub page.

  2. Scroll or type a keyword into the Filter by keyword box to find the Operator you want. For example, type advanced to find the Advanced Cluster Management for Kubernetes Operator.

    You can also filter options by Infrastructure Features. For example, select Disconnected if you want to see Operators that work in disconnected environments, also known as restricted network environments.

  3. Select the Operator to display additional information.

    Choosing a Community Operator warns that Red Hat does not certify Community Operators; you must acknowledge the warning before continuing.

  4. Read the information about the Operator and click Install.

  5. On the Install Operator page, configure your Operator installation:

    1. If you want to install a specific version of an Operator, select an Update channel and Version from the lists. You can browse the various versions of an Operator across any channels it might have, view the metadata for that channel and version, and select the exact version you want to install.

      The version selection defaults to the latest version for the channel selected. If the latest version for the channel is selected, the Automatic approval strategy is enabled by default. Otherwise, Manual approval is required when not installing the latest version for the selected channel.

      Installing an Operator with Manual approval causes all Operators installed within the namespace to function with the Manual approval strategy and all Operators are updated together. If you want to update Operators independently, install Operators into separate namespaces.

    2. Confirm the installation mode for the Operator:

      • All namespaces on the cluster (default) installs the Operator in the default openshift-operators namespace to watch and be made available to all namespaces in the cluster. This option is not always available.

      • A specific namespace on the cluster allows you to choose a specific, single namespace in which to install the Operator. The Operator will only watch and be made available for use in this single namespace.

    3. For clusters on cloud providers with token authentication enabled:

      • If the cluster uses AWS Security Token Service (STS Mode in the web console), enter the Amazon Resource Name (ARN) of the AWS IAM role of your service account in the role ARN field. To create the role’s ARN, follow the procedure described in Preparing AWS account.

      • If the cluster uses Microsoft Entra Workload ID (Workload Identity / Federated Identity Mode in the web console), add the client ID, tenant ID, and subscription ID in the appropriate fields.

      • If the cluster uses Google Cloud Platform Workload Identity (GCP Workload Identity / Federated Identity Mode in the web console), add the project number, pool ID, provider ID, and service account email in the appropriate fields.

    4. For Update approval, select either the Automatic or Manual approval strategy.

      If the web console shows that the cluster uses AWS STS, Microsoft Entra Workload ID, or GCP Workload Identity, you must set Update approval to Manual.

      Subscriptions with automatic approvals for updates are not recommended because there might be permission changes to make before updating. Subscriptions with manual approvals for updates ensure that administrators have the opportunity to verify the permissions of the later version, take any necessary steps, and then update.

  6. Click Install to make the Operator available to the selected namespaces on this OpenShift Dedicated cluster:

    1. If you selected a Manual approval strategy, the upgrade status of the subscription remains Upgrading until you review and approve the install plan.

      After approving on the Install Plan page, the subscription upgrade status moves to Up to date.

    2. If you selected an Automatic approval strategy, the upgrade status should resolve to Up to date without intervention.

Verification
  • After the upgrade status of the subscription is Up to date, select OperatorsInstalled Operators to verify that the cluster service version (CSV) of the installed Operator eventually shows up. The Status should eventually resolve to Succeeded in the relevant namespace.

    For the All namespaces…​ installation mode, the status resolves to Succeeded in the openshift-operators namespace, but the status is Copied if you check in other namespaces.

    If it does not:

    • Check the logs in any pods in the openshift-operators project (or other relevant namespace if A specific namespace…​ installation mode was selected) on the WorkloadsPods page that are reporting issues to troubleshoot further.

  • When the Operator is installed, the metadata indicates which channel and version are installed.

    The Channel and Version dropdown menus are still available for viewing other version metadata in this catalog context.

Installing from OperatorHub by using the CLI

Instead of using the OpenShift Dedicated web console, you can install an Operator from OperatorHub by using the CLI. Use the oc command to create or update a Subscription object.

For SingleNamespace install mode, you must also ensure an appropriate Operator group exists in the related namespace. An Operator group, defined by an OperatorGroup object, selects target namespaces in which to generate required RBAC access for all Operators in the same namespace as the Operator group.

In most cases, the web console method of this procedure is preferred because it automates tasks in the background, such as handling the creation of OperatorGroup and Subscription objects automatically when choosing SingleNamespace mode.

Prerequisites
  • Access to an OpenShift Dedicated cluster using an account with the dedicated-admin role.

  • You have installed the OpenShift CLI (oc).

Procedure
  1. View the list of Operators available to the cluster from OperatorHub:

    $ oc get packagemanifests -n openshift-marketplace
    Example output
    NAME                               CATALOG               AGE
    3scale-operator                    Red Hat Operators     91m
    advanced-cluster-management        Red Hat Operators     91m
    amq7-cert-manager                  Red Hat Operators     91m
    # ...
    couchbase-enterprise-certified     Certified Operators   91m
    crunchy-postgres-operator          Certified Operators   91m
    mongodb-enterprise                 Certified Operators   91m
    # ...
    etcd                               Community Operators   91m
    jaeger                             Community Operators   91m
    kubefed                            Community Operators   91m
    # ...

    Note the catalog for your desired Operator.

  2. Inspect your desired Operator to verify its supported install modes and available channels:

    $ oc describe packagemanifests <operator_name> -n openshift-marketplace
    Example output
    # ...
    Kind:         PackageManifest
    # ...
          Install Modes: (1)
            Supported:  true
            Type:       OwnNamespace
            Supported:  true
            Type:       SingleNamespace
            Supported:  false
            Type:       MultiNamespace
            Supported:  true
            Type:       AllNamespaces
    # ...
        Entries:
          Name:       example-operator.v3.7.11
          Version:    3.7.11
          Name:       example-operator.v3.7.10
          Version:    3.7.10
        Name:         stable-3.7 (2)
    # ...
       Entries:
          Name:         example-operator.v3.8.5
          Version:      3.8.5
          Name:         example-operator.v3.8.4
          Version:      3.8.4
        Name:           stable-3.8 (2)
      Default Channel:  stable-3.8 (3)
    
    1 Indicates which install modes are supported.
    2 Example channel names.
    3 The channel selected by default if one is not specified.

    You can print an Operator’s version and channel information in YAML format by running the following command:

    $ oc get packagemanifests <operator_name> -n <catalog_namespace> -o yaml
    • If more than one catalog is installed in a namespace, run the following command to look up the available versions and channels of an Operator from a specific catalog:

      $ oc get packagemanifest \
         --selector=catalog=<catalogsource_name> \
         --field-selector metadata.name=<operator_name> \
         -n <catalog_namespace> -o yaml

      If you do not specify the Operator’s catalog, running the oc get packagemanifest and oc describe packagemanifest commands might return a package from an unexpected catalog if the following conditions are met:

      • Multiple catalogs are installed in the same namespace.

      • The catalogs contain the same Operators or Operators with the same name.

  3. If the Operator you intend to install supports the AllNamespaces install mode, and you choose to use this mode, skip this step, because the openshift-operators namespace already has an appropriate Operator group in place by default, called global-operators.

    If the Operator you intend to install supports the SingleNamespace install mode, and you choose to use this mode, you must ensure an appropriate Operator group exists in the related namespace. If one does not exist, you can create create one by following these steps:

    You can only have one Operator group per namespace. For more information, see "Operator groups".

    1. Create an OperatorGroup object YAML file, for example operatorgroup.yaml, for SingleNamespace install mode:

      Example OperatorGroup object for SingleNamespace install mode
      apiVersion: operators.coreos.com/v1
      kind: OperatorGroup
      metadata:
        name: <operatorgroup_name>
        namespace: <namespace> (1)
      spec:
        targetNamespaces:
        - <namespace> (1)
      1 For SingleNamespace install mode, use the same <namespace> value for both the metadata.namespace and spec.targetNamespaces fields.
    2. Create the OperatorGroup object:

      $ oc apply -f operatorgroup.yaml
  4. Create a Subscription object to subscribe a namespace to an Operator:

    1. Create a YAML file for the Subscription object, for example subscription.yaml:

      If you want to subscribe to a specific version of an Operator, set the startingCSV field to the desired version and set the installPlanApproval field to Manual to prevent the Operator from automatically upgrading if a later version exists in the catalog. For details, see the following "Example Subscription object with a specific starting Operator version".

      Example Subscription object
      apiVersion: operators.coreos.com/v1alpha1
      kind: Subscription
      metadata:
        name: <subscription_name>
        namespace: <namespace_per_install_mode> (1)
      spec:
        channel: <channel_name> (2)
        name: <operator_name> (3)
        source: <catalog_name> (4)
        sourceNamespace: <catalog_source_namespace> (5)
        config:
          env: (6)
          - name: ARGS
            value: "-v=10"
          envFrom: (7)
          - secretRef:
              name: license-secret
          volumes: (8)
          - name: <volume_name>
            configmap:
              name: <configmap_name>
          volumeMounts: (9)
          - mountPath: <directory_name>
            name: <volume_name>
          tolerations: (10)
          - operator: "Exists"
          resources: (11)
            requests:
              memory: "64Mi"
              cpu: "250m"
            limits:
              memory: "128Mi"
              cpu: "500m"
          nodeSelector: (12)
            foo: bar
      1 For default AllNamespaces install mode usage, specify the openshift-operators namespace. Alternatively, you can specify a custom global namespace, if you have created one. For SingleNamespace install mode usage, specify the relevant single namespace.
      2 Name of the channel to subscribe to.
      3 Name of the Operator to subscribe to.
      4 Name of the catalog source that provides the Operator.
      5 Namespace of the catalog source. Use openshift-marketplace for the default OperatorHub catalog sources.
      6 The env parameter defines a list of environment variables that must exist in all containers in the pod created by OLM.
      7 The envFrom parameter defines a list of sources to populate environment variables in the container.
      8 The volumes parameter defines a list of volumes that must exist on the pod created by OLM.
      9 The volumeMounts parameter defines a list of volume mounts that must exist in all containers in the pod created by OLM. If a volumeMount references a volume that does not exist, OLM fails to deploy the Operator.
      10 The tolerations parameter defines a list of tolerations for the pod created by OLM.
      11 The resources parameter defines resource constraints for all the containers in the pod created by OLM.
      12 The nodeSelector parameter defines a NodeSelector for the pod created by OLM.
      Example Subscription object with a specific starting Operator version
      apiVersion: operators.coreos.com/v1alpha1
      kind: Subscription
      metadata:
        name: example-operator
        namespace: example-operator
      spec:
        channel: stable-3.7
        installPlanApproval: Manual (1)
        name: example-operator
        source: custom-operators
        sourceNamespace: openshift-marketplace
        startingCSV: example-operator.v3.7.10 (2)
      1 Set the approval strategy to Manual in case your specified version is superseded by a later version in the catalog. This plan prevents an automatic upgrade to a later version and requires manual approval before the starting CSV can complete the installation.
      2 Set a specific version of an Operator CSV.
    2. For clusters on cloud providers with token authentication enabled, such as Amazon Web Services (AWS) Security Token Service (STS), Microsoft Entra Workload ID, or Google Cloud Platform Workload Identity, configure your Subscription object by following these steps:

      1. Ensure the Subscription object is set to manual update approvals:

        Example Subscription object with manual update approvals
        kind: Subscription
        # ...
        spec:
          installPlanApproval: Manual (1)
        1 Subscriptions with automatic approvals for updates are not recommended because there might be permission changes to make before updating. Subscriptions with manual approvals for updates ensure that administrators have the opportunity to verify the permissions of the later version, take any necessary steps, and then update.
      2. Include the relevant cloud provider-specific fields in the Subscription object’s config section:

        • If the cluster is in AWS STS mode, include the following fields:

          Example Subscription object with AWS STS variables
          kind: Subscription
          # ...
          spec:
            config:
              env:
              - name: ROLEARN
                value: "<role_arn>" (1)
          1 Include the role ARN details.
        • If the cluster is in Workload ID mode, include the following fields:

          Example Subscription object with Workload ID variables
          kind: Subscription
          # ...
          spec:
           config:
             env:
             - name: CLIENTID
               value: "<client_id>" (1)
             - name: TENANTID
               value: "<tenant_id>" (2)
             - name: SUBSCRIPTIONID
               value: "<subscription_id>" (3)
          1 Include the client ID.
          2 Include the tenant ID.
          3 Include the subscription ID.
        • If the cluster is in GCP Workload Identity mode, include the following fields:

          Example Subscription object with GCP Workload Identity variables
          kind: Subscription
          # ...
          spec:
           config:
             env:
             - name: AUDIENCE
               value: "<audience_url>" (1)
             - name: SERVICE_ACCOUNT_EMAIL
               value: "<service_account_email>" (2)

          where:

          <audience>

          Created in GCP by the administrator when they set up GCP Workload Identity, the AUDIENCE value must be a preformatted URL in the following format:

          //iam.googleapis.com/projects/<project_number>/locations/global/workloadIdentityPools/<pool_id>/providers/<provider_id>
          <service_account_email>

          The SERVICE_ACCOUNT_EMAIL value is a GCP service account email that is impersonated during Operator operation, for example:

          <service_account_name>@<project_id>.iam.gserviceaccount.com
    3. Create the Subscription object by running the following command:

      $ oc apply -f subscription.yaml
  5. If you set the installPlanApproval field to Manual, manually approve the pending install plan to complete the Operator installation. For more information, see "Manually approving a pending Operator update".

At this point, OLM is now aware of the selected Operator. A cluster service version (CSV) for the Operator should appear in the target namespace, and APIs provided by the Operator should be available for creation.

Verification
  1. Check the status of the Subscription object for your installed Operator by running the following command:

    $ oc describe subscription <subscription_name> -n <namespace>
  2. If you created an Operator group for SingleNamespace install mode, check the status of the OperatorGroup object by running the following command:

    $ oc describe operatorgroup <operatorgroup_name> -n <namespace>

Preparing for multiple instances of an Operator for multitenant clusters

As an administrator with the dedicated-admin role, you can add multiple instances of an Operator for use in multitenant clusters. This is an alternative solution to either using the standard All namespaces install mode, which can be considered to violate the principle of least privilege, or the Multinamespace mode, which is not widely adopted. For more information, see "Operators in multitenant clusters".

In the following procedure, the tenant is a user or group of users that share common access and privileges for a set of deployed workloads. The tenant Operator is the instance of an Operator that is intended for use by only that tenant.

Prerequisites
  • You have access to the cluster as a user with the dedicated-admin role.

  • All instances of the Operator you want to install must be the same version across a given cluster.

    For more information on this and other limitations, see "Operators in multitenant clusters".

Procedure
  1. Before installing the Operator, create a namespace for the tenant Operator that is separate from the tenant’s namespace. You can do this by creating a project. For example, if the tenant’s namespace is team1, you might create a team1-operator project:

    $ oc new-project team1-operator
  2. Create an Operator group for the tenant Operator scoped to the tenant’s namespace, with only that one namespace entry in the spec.targetNamespaces list:

    1. Define an OperatorGroup resource and save the YAML file, for example, team1-operatorgroup.yaml:

      apiVersion: operators.coreos.com/v1
      kind: OperatorGroup
      metadata:
        name: team1-operatorgroup
        namespace: team1-operator
      spec:
        targetNamespaces:
        - team1 (1)
      1 Define only the tenant’s namespace in the spec.targetNamespaces list.
    2. Create the Operator group by running the following command:

      $ oc create -f team1-operatorgroup.yaml
Next steps
  • Install the Operator in the tenant Operator namespace. This task is more easily performed by using the OperatorHub in the web console instead of the CLI; for a detailed procedure, see Installing from OperatorHub using the web console.

    After completing the Operator installation, the Operator resides in the tenant Operator namespace and watches the tenant namespace, but neither the Operator’s pod nor its service account are visible or usable by the tenant.

Additional resources

Installing global Operators in custom namespaces

When installing Operators with the OpenShift Dedicated web console, the default behavior installs Operators that support the All namespaces install mode into the default openshift-operators global namespace. This can cause issues related to shared install plans and update policies between all Operators in the namespace. For more details on these limitations, see "Multitenancy and Operator colocation".

As an administrator with the dedicated-admin role, you can bypass this default behavior manually by creating a custom global namespace and using that namespace to install your individual or scoped set of Operators and their dependencies.

Prerequisites
  • You have access to the cluster as a user with the dedicated-admin role.

Procedure
  1. Before installing the Operator, create a namespace for the installation of your desired Operator. You can do this by creating a project. The namespace for this project will become the custom global namespace:

    $ oc new-project global-operators
  2. Create a custom global Operator group, which is an Operator group that watches all namespaces:

    1. Define an OperatorGroup resource and save the YAML file, for example, global-operatorgroup.yaml. Omit both the spec.selector and spec.targetNamespaces fields to make it a global Operator group, which selects all namespaces:

      apiVersion: operators.coreos.com/v1
      kind: OperatorGroup
      metadata:
        name: global-operatorgroup
        namespace: global-operators

      The status.namespaces of a created global Operator group contains the empty string (""), which signals to a consuming Operator that it should watch all namespaces.

    2. Create the Operator group by running the following command:

      $ oc create -f global-operatorgroup.yaml
Next steps
  • Install the desired Operator in your custom global namespace. Because the web console does not populate the Installed Namespace menu during Operator installation with custom global namespaces, this task can only be performed with the OpenShift CLI (oc). For a detailed procedure, see Installing from OperatorHub using the CLI.

    When you initiate the Operator installation, if the Operator has dependencies, the dependencies are also automatically installed in the custom global namespace. As a result, it is then valid for the dependency Operators to have the same update policy and shared install plans.

Pod placement of Operator workloads

By default, Operator Lifecycle Manager (OLM) places pods on arbitrary worker nodes when installing an Operator or deploying Operand workloads. As an administrator, you can use projects with a combination of node selectors, taints, and tolerations to control the placement of Operators and Operands to specific nodes.

Controlling pod placement of Operator and Operand workloads has the following prerequisites:

  1. Determine a node or set of nodes to target for the pods per your requirements. If available, note an existing label, such as node-role.kubernetes.io/app, that identifies the node or nodes. Otherwise, add a label, such as myoperator, by using a compute machine set or editing the node directly. You will use this label in a later step as the node selector on your project.

  2. If you want to ensure that only pods with a certain label are allowed to run on the nodes, while steering unrelated workloads to other nodes, add a taint to the node or nodes by using a compute machine set or editing the node directly. Use an effect that ensures that new pods that do not match the taint cannot be scheduled on the nodes. For example, a myoperator:NoSchedule taint ensures that new pods that do not match the taint are not scheduled onto that node, but existing pods on the node are allowed to remain.

  3. Create a project that is configured with a default node selector and, if you added a taint, a matching toleration.

At this point, the project you created can be used to steer pods towards the specified nodes in the following scenarios:

For Operator pods

Administrators can create a Subscription object in the project as described in the following section. As a result, the Operator pods are placed on the specified nodes.

For Operand pods

Using an installed Operator, users can create an application in the project, which places the custom resource (CR) owned by the Operator in the project. As a result, the Operand pods are placed on the specified nodes, unless the Operator is deploying cluster-wide objects or resources in other namespaces, in which case this customized pod placement does not apply.

Controlling where an Operator is installed

By default, when you install an Operator, OpenShift Dedicated installs the Operator pod to one of your worker nodes randomly. However, there might be situations where you want that pod scheduled on a specific node or set of nodes.

The following examples describe situations where you might want to schedule an Operator pod to a specific node or set of nodes:

  • If you want Operators that work together scheduled on the same host or on hosts located on the same rack

  • If you want Operators dispersed throughout the infrastructure to avoid downtime due to network or hardware issues

You can control where an Operator pod is installed by adding node affinity, pod affinity, or pod anti-affinity constraints to the Operator’s Subscription object. Node affinity is a set of rules used by the scheduler to determine where a pod can be placed. Pod affinity enables you to ensure that related pods are scheduled to the same node. Pod anti-affinity allows you to prevent a pod from being scheduled on a node.

The following examples show how to use node affinity or pod anti-affinity to install an instance of the Custom Metrics Autoscaler Operator to a specific node in the cluster:

Node affinity example that places the Operator pod on a specific node
apiVersion: operators.coreos.com/v1alpha1
kind: Subscription
metadata:
  name: openshift-custom-metrics-autoscaler-operator
  namespace: openshift-keda
spec:
  name: my-package
  source: my-operators
  sourceNamespace: operator-registries
  config:
    affinity:
      nodeAffinity: (1)
        requiredDuringSchedulingIgnoredDuringExecution:
          nodeSelectorTerms:
          - matchExpressions:
            - key: kubernetes.io/hostname
              operator: In
              values:
              - ip-10-0-163-94.us-west-2.compute.internal
#...
1 A node affinity that requires the Operator’s pod to be scheduled on a node named ip-10-0-163-94.us-west-2.compute.internal.
Node affinity example that places the Operator pod on a node with a specific platform
apiVersion: operators.coreos.com/v1alpha1
kind: Subscription
metadata:
  name: openshift-custom-metrics-autoscaler-operator
  namespace: openshift-keda
spec:
  name: my-package
  source: my-operators
  sourceNamespace: operator-registries
  config:
    affinity:
      nodeAffinity: (1)
        requiredDuringSchedulingIgnoredDuringExecution:
          nodeSelectorTerms:
          - matchExpressions:
            - key: kubernetes.io/arch
              operator: In
              values:
              - arm64
            - key: kubernetes.io/os
              operator: In
              values:
              - linux
#...
1 A node affinity that requires the Operator’s pod to be scheduled on a node with the kubernetes.io/arch=arm64 and kubernetes.io/os=linux labels.
Pod affinity example that places the Operator pod on one or more specific nodes
apiVersion: operators.coreos.com/v1alpha1
kind: Subscription
metadata:
  name: openshift-custom-metrics-autoscaler-operator
  namespace: openshift-keda
spec:
  name: my-package
  source: my-operators
  sourceNamespace: operator-registries
  config:
    affinity:
      podAffinity: (1)
        requiredDuringSchedulingIgnoredDuringExecution:
        - labelSelector:
            matchExpressions:
            - key: app
              operator: In
              values:
              - test
          topologyKey: kubernetes.io/hostname
#...
1 A pod affinity that places the Operator’s pod on a node that has pods with the app=test label.
Pod anti-affinity example that prevents the Operator pod from one or more specific nodes
apiVersion: operators.coreos.com/v1alpha1
kind: Subscription
metadata:
  name: openshift-custom-metrics-autoscaler-operator
  namespace: openshift-keda
spec:
  name: my-package
  source: my-operators
  sourceNamespace: operator-registries
  config:
    affinity:
      podAntiAffinity: (1)
        requiredDuringSchedulingIgnoredDuringExecution:
        - labelSelector:
            matchExpressions:
            - key: cpu
              operator: In
              values:
              - high
          topologyKey: kubernetes.io/hostname
#...
1 A pod anti-affinity that prevents the Operator’s pod from being scheduled on a node that has pods with the cpu=high label.
Procedure

To control the placement of an Operator pod, complete the following steps:

  1. Install the Operator as usual.

  2. If needed, ensure that your nodes are labeled to properly respond to the affinity.

  3. Edit the Operator Subscription object to add an affinity:

    apiVersion: operators.coreos.com/v1alpha1
    kind: Subscription
    metadata:
      name: openshift-custom-metrics-autoscaler-operator
      namespace: openshift-keda
    spec:
      name: my-package
      source: my-operators
      sourceNamespace: operator-registries
      config:
        affinity: (1)
          nodeAffinity:
            requiredDuringSchedulingIgnoredDuringExecution:
              nodeSelectorTerms:
              - matchExpressions:
                - key: kubernetes.io/hostname
                  operator: In
                  values:
                  - ip-10-0-185-229.ec2.internal
    #...
    1 Add a nodeAffinity, podAffinity, or podAntiAffinity. See the Additional resources section that follows for information about creating the affinity.
Verification
  • To ensure that the pod is deployed on the specific node, run the following command:

    $ oc get pods -o wide
    Example output
    NAME                                                  READY   STATUS    RESTARTS   AGE   IP            NODE                           NOMINATED NODE   READINESS GATES
    custom-metrics-autoscaler-operator-5dcc45d656-bhshg   1/1     Running   0          50s   10.131.0.20   ip-10-0-185-229.ec2.internal   <none>           <none>