Skip to content

guy9050/hyperconverged-cluster-operator

 
 

Repository files navigation

Build Status Go Report Card Coverage Status

Hyperconverged Cluster Operator

A unified operator combining the following projects:

This operator doesn't replace or interfere with Operator Lifecycle Manager (OLM).
It only creates operator CustomResources (CRs), which is a user functionality.

Installing HCO Community Operator (OpenShift Only)

The Hyperconverged Cluster Operator is published as a Community Operator in Operatorhub.io. In the UI, you can search for it under the "OperatorHub" tab or deploy from the commandline:

$ curl https://raw.githubusercontent.com/kubevirt/hyperconverged-cluster-operator/master/deploy/hco.yaml | kubectl create -f -

Installing Unreleased Bundles Using Marketplace

The hyperconverged cluster operator will publish the lastest bundles to quay/kubevirt-hyperconvered/hco-operatohub before publishing to operatorhub.io.

Make the unreleased bundles available in Marketplace by adding the app registry:

# Remove the hco-bundle from the community-operators sources
$ kubectl get operatorsource -n openshift-marketplace community-operators -o yaml | sed "s/hco-operatorhub,//" | kubectl apply -f -
$ kubectl get catalogsourceconfig -n openshift-marketplace community-operators  -o yaml | sed "s/hco-operatorhub,//" | sed "s/hco-operatorhub\:*,//" | kubectl apply -f -

# Add the unreleases bundle source
$ curl https://raw.githubusercontent.com/kubevirt/hyperconverged-cluster-operator/master/tools/quay-registry.sh | bash -s $QUAY_USERNAME $QUAY_PASSWORD

Using the HCO without OLM or Marketplace

Run the following script to apply the HCO operator:

$ curl https://raw.githubusercontent.com/kubevirt/hyperconverged-cluster-operator/master/deploy/deploy.sh | bash

Developer Workflow

If you want to make changes to the HCO, here's how you can test your changes through OLM.

Build the HCO container using the Makefile recipes make container-build and make container-push with vars IMAGE_REGISTRY, OPERATOR_IMAGE, and IMAGE_TAG to direct it's location.

To use the HCO's container, we'll use a registry image to serve metadata to OLM. Build and push the HCO's registry image.

export REGISTRY_NAMESPACE=<container_org>
export TAG=example
make bundleRegistry

Create the namespace for the HCO.

kubectl create ns kubevirt-hyperconverged

Create an OperatorGroup.

cat <<EOF | kubectl create -f -
apiVersion: operators.coreos.com/v1
kind: OperatorGroup
metadata:
  name: hco-operatorgroup
  namespace: kubevirt-hyperconverged
EOF

Create a Catalog Source.

cat <<EOF | kubectl create -f -
apiVersion: operators.coreos.com/v1alpha1
kind: CatalogSource
metadata:
  name: hco-catalogsource
  namespace: openshift-marketplace
spec:
  sourceType: grpc
  image: docker.io/$REGISTRY_NAMESPACE/hco-registry:$TAG
  displayName: KubeVirt HyperConverged
  publisher: Red Hat
EOF

Create a subscription.

cat <<EOF | kubectl create -f -
apiVersion: operators.coreos.com/v1alpha1
kind: Subscription
metadata:
  name: hco-subscription
  namespace: kubevirt-hyperconverged
spec:
  channel: "1.0.0"
  name: kubevirt-hyperconverged
  source: hco-catalogsource
  sourceNamespace: openshift-marketplace
EOF

Create an HCO CustomResource, which creates the KubeVirt CR, launching KubeVirt, CDI, Network-addons, and SSP.

kubectl create -f deploy/hco.cr.yaml -n kubevirt-hyperconverged

Create a Cluster & Launch the HCO

  1. Choose the provider
#For k8s cluster:  
$ export KUBEVIRT_PROVIDER="k8s-1.15.1"
#For okd cluster:
$ export KUBEVIRT_PROVIDER="okd-4.1"
  1. Navigate to the project's directory
$ cd <path>/hyperconverged-cluster-operator
  1. Remove an old cluster
$ make cluster-down
  1. Create a new cluster
$ make cluster-up
  1. Clean previous HCO deployment and re-deploy HCO
    (When making a change, execute only this command - no need to repeat steps 1-3)
$ make cluster-sync

Command-Line Tool

Use ./cluster-up/kubectl.sh as the command-line tool.
For example:

$ ./cluster-up/kubectl.sh get pods --all-namespaces

About

Operator pattern for managing multi-operator products

Resources

License

Stars

Watchers

Forks

Packages

No packages published

Languages

  • Go 64.6%
  • Shell 32.4%
  • Dockerfile 1.5%
  • Other 1.5%