The CockroachDB Kubernetes Operator deploys CockroachDB on a Kubernetes cluster. You can use the Operator to manage the configuration of a running CockroachDB cluster, including:
- Authenticating certificates
- Configuring resource requests and limits
- Scaling the cluster
- Performing a rolling upgrade
- The Operator currently runs on GKE. VMware Tanzu, EKS, and AKS have not been tested.
- The Operator does not yet support multiple Kubernetes clusters for multi-region deployments.
- Migrating from a deployment using the Helm Chart to the Operator has not been defined or tested.
- The Operator does not yet automatically create an ingress object.
- The Operator has not been tested with Istio.
- Kubernetes 1.15 or higher (1.18 is recommended)
- kubectl
- A GKE cluster (
n2-standard-4
is the minimum requirement for testing)
Apply the custom resource definition (CRD) for the Operator:
kubectl apply -f https://raw.githubusercontent.com/cockroachdb/cockroach-operator/master/config/crd/bases/crdb.cockroachlabs.com_crdbclusters.yaml
Apply the Operator manifest. By default, the Operator is configured to install in the default
namespace. To use the Operator in a custom namespace, download the Operator manifest and edit all instances of namespace: default
to specify your custom namespace. Then apply this version of the manifest to the cluster with kubectl apply -f {local-file-path}
instead of using the command below.
kubectl apply -f https://raw.githubusercontent.com/cockroachdb/cockroach-operator/master/manifests/operator.yaml
Note: The Operator can only install CockroachDB into its own namespace.
Validate that the Operator is running:
kubectl get pods
NAME READY STATUS RESTARTS AGE
cockroach-operator-6f7b86ffc4-9ppkv 1/1 Running 0 54s
Download the example.yaml
custom resource.
Note: The latest stable CockroachDB release is specified by default in
image.name
.
By default, the Operator allocates 2 CPUs and 8Gi memory to CockroachDB in the Kubernetes pods. These resources are appropriate for n2-standard-4
(GCP) and m5.xlarge
(AWS) machines.
On a production deployment, you should modify the resources.requests
object in the custom resource with values appropriate for your workload. For details, see the CockroachDB documentation.
The Operator generates and approves 1 root and 1 node certificate for the cluster.
Apply example.yaml
:
kubectl create -f example.yaml
Check that the pods were created:
kubectl get pods
NAME READY STATUS RESTARTS AGE
cockroach-operator-6f7b86ffc4-9t9zb 1/1 Running 0 3m22s
cockroachdb-0 1/1 Running 0 2m31s
cockroachdb-1 1/1 Running 0 102s
cockroachdb-2 1/1 Running 0 46s
Each pod should have READY
status soon after being created.
To use the CockroachDB SQL client, first launch a secure pod running the cockroach
binary.
kubectl create -f https://raw.githubusercontent.com/cockroachdb/cockroach-operator/master/examples/client-secure-operator.yaml
Get a shell into the client pod:
kubectl exec -it cockroachdb-client-secure -- ./cockroach sql --certs-dir=/cockroach/cockroach-certs --host=cockroachdb-public
If you want to access the DB Console, create a SQL user with a password while you're here:
CREATE USER roach WITH PASSWORD 'Q7gc8rEdS';
Then assign roach
to the admin
role to enable access to secure DB Console pages:
GRANT admin TO roach;
\q
To access the cluster's DB Console, port-forward from your local machine to the cockroachdb-public
service:
kubectl port-forward service/cockroachdb-public 8080
Access the DB Console at https://localhost:8080
.
Note: Due to a known issue, automatic pruning of PVCs is currently disabled by default. This means that after decommissioning and removing a node, the Operator will not remove the persistent volume that was mounted to its pod. If you plan to eventually scale up the cluster after scaling down, you will need to manually delete any PVCs that were orphaned by node removal before scaling up. For more information, see the documentation.
To scale the cluster up and down, modify nodes
in the custom resource. For details, see the CockroachDB documentation.
Do not scale down to fewer than 3 nodes. This is considered an anti-pattern on CockroachDB and will cause errors.
Note: You must scale by updating the
nodes
value in the Operator configuration. Usingkubectl scale statefulset <cluster-name> --replicas=4
will result in new pods immediately being terminated.
Perform a rolling upgrade by changing image.name
in the custom resource. For details, see the CockroachDB documentation.
Delete the custom resource:
kubectl delete -f example.yaml
Remove the Operator:
kubectl delete -f https://raw.githubusercontent.com/cockroachdb/cockroach-operator/master/manifests/operator.yaml
Note: If you want to delete the persistent volumes and free up the storage used by CockroachDB, be sure you have a backup copy of your data. Data cannot be recovered once the persistent volumes are deleted. For more information, see the Kubernetes documentation.
We have a few phases to our releases. The first involves creating a new branch, updating the version, and then getting a PR merged into master with all of the generated files.
Subsequent steps will need to be carried out in TeamCity and RedHat Connect.
From a clean, up-to-date master (seriously...check), run the following where <version>
is the desired new version
(e.g. 2.2.0
or 2.2.1-beta.1
).
$ make release/new VERSION=<version>
...
...
$ git push origin release-$(cat version.txt)
This will do the following for you:
- Create a new branch named
release-<version>
- Update version.txt
- Generate the manifest, bundles, etc.
- Commit the changes with the message
Bump version to <version>
. - Push to a new branch on origin (that wasn't automated)
After the PR is merged run the following to create the tag (you'll need to be a member of CRL to do this).
git tag v$(cat version.txt)
git push upstream v$(cat version.txt)
From here, the rest of the release process is done with TeamCity. A CRL team member will need to perform some manual steps in RedHat Connect as well. Ping one of us in Slack for info.