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Chapter 15. High availability configuration for Knative Serving


15.1. High availability for Knative services

High availability (HA) is a standard feature of Kubernetes APIs that helps to ensure that APIs stay operational if a disruption occurs. In an HA deployment, if an active controller crashes or is deleted, another controller is readily available. This controller takes over processing of the APIs that were being serviced by the controller that is now unavailable.

HA in OpenShift Serverless is available through leader election, which is enabled by default after the Knative Serving or Eventing control plane is installed. When using a leader election HA pattern, instances of controllers are already scheduled and running inside the cluster before they are required. These controller instances compete to use a shared resource, known as the leader election lock. The instance of the controller that has access to the leader election lock resource at any given time is called the leader.

15.2. High availability for Knative deployments

High availability (HA) is available by default for the Knative Serving activator, autoscaler, autoscaler-hpa, controller, webhook, domain-mapping, domainmapping-webhook, kourier-control, and kourier-gateway components, which are configured to have two replicas each. You can change the number of replicas for these components by modifying the spec.high-availability.replicas value in the KnativeServing custom resource (CR).

15.2.1. Configuring high availability replicas for Knative Serving

To specify three minimum replicas for the eligible deployment resources, set the value of the field spec.high-availability.replicas in the custom resource to 3.

Prerequisites

  • You have cluster administrator permissions on OpenShift Container Platform, or you have cluster or dedicated administrator permissions on Red Hat OpenShift Service on AWS or OpenShift Dedicated.
  • The OpenShift Serverless Operator and Knative Serving are installed on your cluster.

Procedure

  1. In the OpenShift Container Platform web console Administrator perspective, navigate to OperatorHub Installed Operators.
  2. Select the knative-serving namespace.
  3. Click Knative Serving in the list of Provided APIs for the OpenShift Serverless Operator to go to the Knative Serving tab.
  4. Click knative-serving, then go to the YAML tab in the knative-serving page.

    Knative Serving YAML
  5. Modify the number of replicas in the KnativeServing CR:

    Example YAML

    apiVersion: operator.knative.dev/v1beta1
    kind: KnativeServing
    metadata:
      name: knative-serving
      namespace: knative-serving
    spec:
      high-availability:
        replicas: 3

  6. You can also specify the number of replicas for a specific workload.

    Note

    Workload-specific configuration overrides the global setting for Knative Serving.

    Example YAML

    apiVersion: operator.knative.dev/v1beta1
    kind: KnativeServing
    metadata:
      name: knative-serving
      namespace: knative-serving
    spec:
      high-availability:
        replicas: 3
      workloads:
      - name: webhook
        replicas: 4

  7. Verify that the high availability limits are respected:

    Example command

    $ oc get hpa -n knative-serving

    Example output

    NAME        REFERENCE              TARGETS   MINPODS   MAXPODS   REPLICAS   AGE
    activator   Deployment/activator   0%/100%   3         22        3          2m24s
    webhook     Deployment/webhook     2%/100%   4         8         4          2m23s

15.2.2. Overriding disruption budgets

A Pod Disruption Budget (PDB) is a standard feature of Kubernetes APIs that helps limit the disruption to an application when its pods need to be rescheduled for maintenance reasons.

Procedure

  • Override the default PDB for a specific resource by modifying the minAvailable configuration value in the KnativeServing custom resource (CR).

Example PDB with a minAvailable seting of 70%

apiVersion: operator.knative.dev/v1beta1
kind: KnativeServing
metadata:
 name: knative-serving
 namespace: knative-serving
spec:
 podDisruptionBudgets:
 - name: activator-pdb
   minAvailable: 70%

Note

If you disable high-availability, for example, by changing the high-availability.replicas value to 1, make sure you also update the corresponding PDB minAvailable value to 0. Otherwise, the pod disruption budget prevents automatic cluster or Operator updates.

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