constellation-node-operator
The constellation node operator manages the lifecycle of constellation nodes after cluster initialization.
In particular, it is responsible for updating the OS images of nodes by replacing nodes running old images with new nodes.
High level goals
- Admin or
constellation apply
can create custom resources for node related components
- The operator will manage nodes in the cluster by trying to ensure every node has the specified image
- If a node uses an outdated image, it will be replaced by a new node
- Admin can update the specified image at any point in time which will trigger a rolling upgrade through the cluster
- Nodes are replaced safely (cordon, drain, preservation of node labels)
Description
The operator has multiple controllers with corresponding custom resource definitions (CRDs) that are responsible for the following high level tasks:
NodeVersion
NodeVersion
is the only user controlled CRD. The spec allows an administrator to update the desired image and trigger a rolling update.
Example for GCP:
apiVersion: update.edgeless.systems/v1alpha1
kind: NodeVersion
metadata:
name: constellation-version
spec:
image: "projects/constellation-images/global/images/<image-name>"
Example for Azure:
apiVersion: update.edgeless.systems/v1alpha1
kind: NodeVersion
metadata:
name: constellation-version
spec:
image: "/subscriptions/<subscription-id>/resourceGroups/CONSTELLATION-IMAGES/providers/Microsoft.Compute/galleries/Constellation/images/<image-definition-name>/versions/<image-version>"
AutoscalingStrategy
AutoscalingStrategy
is used and modified by the NodeVersion
controller to pause the cluster-autoscaler
while an image update is in progress.
Example:
apiVersion: update.edgeless.systems/v1alpha1
kind: AutoscalingStrategy
metadata:
name: autoscalingstrategy
spec:
enabled: true
deploymentName: "cluster-autoscaler"
deploymentNamespace: "kube-system"
ScalingGroup
ScalingGroup
represents one scaling group at the CSP. Constellation uses one scaling group for worker nodes and one for control-plane nodes.
The scaling group controller will automatically set the image used for newly created nodes to be the image set in the NodeVersion
Spec. On cluster creation, one instance of the ScalingGroup
resource per scaling group at the CSP is created. It does not need to be updated manually.
Example for GCP:
apiVersion: update.edgeless.systems/v1alpha1
kind: ScalingGroup
metadata:
name: scalinggroup-worker
spec:
nodeImage: "constellation-version"
groupId: "projects/<project-id>/zones/<zone>/instanceGroupManagers/<instance-group-name>"
autoscaling: true
Example for Azure:
apiVersion: update.edgeless.systems/v1alpha1
kind: ScalingGroup
metadata:
name: scalinggroup-worker
spec:
nodeImage: "constellation-version"
groupId: "/subscriptions/<subscription-id>/resourceGroups/<resource-group>/providers/Microsoft.Compute/virtualMachineScaleSets/<scale-set-name>"
autoscaling: true
PendingNode
PendingNode
represents a node that is either joining or leaving the cluster. These are nodes that are not part of the cluster (they do not have a corresponding node object). Instead, they are used to track the creation and deletion of nodes.
This resource is automatically managed by the operator.
For joining nodes, the deadline is used to delete the pending node if it fails to join before the deadline ends.
Example for GCP:
apiVersion: update.edgeless.systems/v1alpha1
kind: PendingNode
metadata:
name: pendingnode-sample
spec:
providerID: "gce://<project-id>/<zone>/<instance-name>"
groupID: "projects/<project-id>/zones/<zone>/instanceGroupManagers/<instance-group-name>"
nodeName: "<kubernetes-node-name>"
goal: Join
deadline: "2022-07-04T08:33:18+00:00"
Example for Azure:
apiVersion: update.edgeless.systems/v1alpha1
kind: PendingNode
metadata:
name: pendingnode-sample
spec:
providerID: "azure:///subscriptions/<subscription-id>/resourceGroups/<resource-group>/providers/Microsoft.Compute/virtualMachineScaleSets/<scale-set-name>/virtualMachines/<instance-id>"
groupID: "/subscriptions/<subscription-id>/resourceGroups/<resource-group>/providers/Microsoft.Compute/virtualMachineScaleSets/<scale-set-name>"
nodeName: "<kubernetes-node-name>"
goal: Join
deadline: "2022-07-04T08:33:18+00:00"
Getting Started
You’ll need a Kubernetes cluster to run against. You can use KIND to get a local cluster for testing, or run against a remote cluster.
Note: Your controller will automatically use the current context in your kubeconfig file (i.e. whatever cluster kubectl cluster-info
shows).
Running on the cluster
- Install Instances of Custom Resources:
kubectl apply -f config/samples/
- Build and push your image to the location specified by
IMG
:
make docker-build docker-push IMG=<some-registry>/constellation/node-operator:tag
- Deploy the controller to the cluster with the image specified by
IMG
:
make deploy IMG=<some-registry>/constellation/node-operator:tag
Uninstall CRDs
To delete the CRDs from the cluster:
make uninstall
Undeploy controller
UnDeploy the controller to the cluster:
make undeploy
How it works
This project aims to follow the Kubernetes Operator pattern
It uses Controllers
which provides a reconcile function responsible for synchronizing resources until the desired state is reached on the cluster
Test It Out
- Install the CRDs into the cluster:
make install
- Run your controller (this will run in the foreground, so switch to a new terminal if you want to leave it running):
make run
NOTE: You can also run this in one step by running: make install run
Modifying the API definitions
If you are editing the API definitions, generate the manifests such as CRs or CRDs using:
make manifests
NOTE: Run make --help
for more information on all potential make
targets
More information can be found via the Kubebuilder Documentation
Production deployment
The operator is deployed automatically during constellation-init
.
Prerequisite for this is that cert-manager is installed.
cert-manager is also installed during constellation-init
.
To deploy you can use the Helm chart at /internal/constellation/helm/charts/edgeless/operators/constellation-operator
.