$ oc get machinesets -n openshift-machine-api
OpenShift Serverless is not tested or supported for installation in a restricted network environment. |
The cluster must be sized appropriately to ensure that OpenShift Serverless can run correctly. You can use the MachineSet API to manually scale your cluster up to the desired size.
An OpenShift cluster with 10 CPUs and 40 GB memory is the minimum requirement for getting started with your first serverless application. This usually means you must scale up one of the default MachineSets by two additional machines.
For this configuration, the requirements depend on the deployed applications. By default, each pod requests ~400m of CPU and recommendations are based on this value. In the given recommendation, an application can scale up to 10 replicas. Lowering the actual CPU request of the application further pushes the boundary. |
The numbers given only relate to the pool of worker machines of the OpenShift cluster. Master nodes are not used for general scheduling and are omitted. |
For more advanced use-cases, such as using OpenShift logging, monitoring, metering, and tracing, you must deploy more resources. Recommended requirements for such use-cases are 24 vCPUs and 96GB of memory.
For more information on using the MachineSet API, see Creating MachineSets.
If you must add or remove an instance of a machine in a MachineSet, you can manually scale the MachineSet.
Install an OpenShift Container Platform cluster and the oc
command line.
Log in to oc
as a user with cluster-admin
permission.
View the MachineSets that are in the cluster:
$ oc get machinesets -n openshift-machine-api
The MachineSets are listed in the form of <clusterid>-worker-<aws-region-az>
.
Scale the MachineSet:
$ oc scale --replicas=2 machineset <machineset> -n openshift-machine-api
Or:
$ oc edit machineset <machineset> -n openshift-machine-api
You can scale the MachineSet up or down. It takes several minutes for the new machines to be available.
By default, the OpenShift Container Platform router pods are deployed on workers. Because the router is required to access some cluster resources, including the web console, do not scale the worker MachineSet to |
An installed version of service Mesh is required for the installation of OpenShift Serverless. For details, see the OpenShift Container Platform documentation on Installing service Mesh.
Use the service Mesh documentation for Operator installation only. Once you install the Operators, use the documentation below to install the service Mesh Control Plane and Member Roll. |
service Mesh is comprised of a data plane and a control plane. After you install the serviceMesh operator, you can install the control plane. The control plane manages and configures the sidecar proxies to enforce policies and collect telemetry. The following procedure installs a version of the serviceMesh control plane that acts as an ingress to your applications.
You must install the control plane into the |
apiVersion: maistra.io/v1
kind: serviceMeshControlPlane
metadata:
name: basic-install
namespace: istio-system
spec:
istio:
global:
multitenant: true
proxy:
autoInject: disabled
omitSidecarInjectorConfigMap: true
disablePolicyChecks: false
defaultPodDisruptionBudget:
enabled: false
istio_cni:
enabled: true
gateways:
istio-ingressgateway:
autoscaleEnabled: false
type: LoadBalancer
istio-egressgateway:
enabled: false
cluster-local-gateway:
autoscaleEnabled: false
enabled: true
labels:
app: cluster-local-gateway
istio: cluster-local-gateway
ports:
- name: status-port
port: 15020
- name: http2
port: 80
targetPort: 8080
- name: https
port: 443
mixer:
enabled: false
policy:
enabled: false
telemetry:
enabled: false
pilot:
autoscaleEnabled: false
sidecar: false
kiali:
enabled: false
tracing:
enabled: false
prometheus:
enabled: false
grafana:
enabled: false
sidecarInjectorWebhook:
enabled: false
Autoscaling is disabled in this version. This release is not intended for production use. |
Running serviceMesh with a sidecar injection enabled with OpenShift Serverless is currently not recommended. |
An account with cluster administrator access.
The serviceMesh operator must be installed.
Log in to your OpenShift Container Platform installation as a cluster administrator.
Run the following command to create the istio-system
namespace:
$ oc new-project istio-system
Copy the sample YAML file into a smcp.yaml
file.
Apply the YAML file using the command:
$ oc apply -f smcp.yaml
Run this command to watch the progress of the pods during the installation process:
$ oc get pods -n istio-system -w
You must have a service Mesh Member Roll for the control plane namespace, if the service Mesh is configured for multi-tenancy. For applications to use the deployed control plane and ingress, their namespaces must be part of a member roll.
A multi-tenant control plane installation only affects namespaces configured as part of the service Mesh. You must specify the namespaces associated with the service Mesh in a serviceMeshMemberRoll
resource located in the same namespace as the serviceMeshControlPlane
resource and name it default
.
apiVersion: maistra.io/v1 kind: serviceMeshMemberRoll metadata: name: default namespace: istio-system spec: members: - knative-serving - mynamespace
Installed service Mesh Operator.
A custom resource file that defines the parameters of your Red Hat OpenShift service Mesh control plane.
Create a YAML file that replicates the serviceMeshMemberRoll Custom Resource sample.
Configure the YAML file to include relevant namespaces.
Add all namespaces to which you want to deploy serverless applications. Ensure you retain the |
Copy the configured YAML into a file smmr.yaml
and apply it using:
$ oc apply -f smmr.yaml
The OpenShift Serverless Operator can be installed using the OpenShift Container Platform instructions for installing Operators.
You can install the OpenShift Serverless Operator in the host cluster by following the OpenShift Container Platform instructions on installing an Operator.
The OpenShift Serverless Operator only works for OpenShift Container Platform versions 4.1.13 and later. |
For details, see the OpenShift Container Platform documentation on adding Operators to a cluster.
You must create a KnativeServing
object to install Knative Serving using the OpenShift Serverless Operator.
You must create the |
serving.yaml
apiVersion: v1
kind: Namespace
metadata:
name: knative-serving
---
apiVersion: serving.knative.dev/v1alpha1
kind: KnativeServing
metadata:
name: knative-serving
namespace: knative-serving
An account with cluster administrator access.
Installed OpenShift Serverless Operator.
Copy the sample YAML file into serving.yaml
and apply it using:
$ oc apply -f serving.yaml
Verify the installation is complete by using the command:
$ oc get knativeserving/knative-serving -n knative-serving --template='{{range .status.conditions}}{{printf "%s=%s\n" .type .status}}{{end}}'
Results should be similar to:
DeploymentsAvailable=True InstallSucceeded=True Ready=True
To uninstall Knative Serving, you must remove its custom resource and delete the knative-serving
namespace.
Installed Knative Serving
To remove Knative Serving, use the following command:
$ oc delete knativeserving knative-serving -n knative-serving
After the command has completed and all pods have been removed from the knative-serving
namespace, delete the namespace by using the command:
$ oc delete namespace knative-serving
You can remove the OpenShift Serverless Operator from the host cluster by following the OpenShift Container Platform instructions on deleting an Operator.
For details, see the OpenShift Container Platform documentation on deleting Operators from a cluster.
After uninstalling the OpenShift Serverless Operator, the Operator CRDs and API services remain on the cluster. Use this procedure to completely uninstall the remaining components.
You have uninstalled Knative Serving and removed the OpenShift Serverless Operator using the previous procedure.
Run the following command to delete the remaining Knative Serving CRDs:
$ oc delete crd knativeservings.serving.knative.dev