The MYSQL Operator for Kubernetes is an Operator for Kubernetes managing MySQL InnoDB Cluster setups inside a Kubernetes Cluster.
The MySQL Operator manages the full lifecycle with setup and maintenance including automation of upgrades and backup.
The MySQL Operator for Kubernetes currently is in a preview state. DO NOT USE IN PRODUCTION.
Copyright (c) 2020, 2021, Oracle and/or its affiliates.
This is a release of MySQL Operator, a Kubernetes Operator for MySQL InnoDB Cluster
License information can be found in the LICENSE file. This distribution may include materials developed by third parties. For license and attribution notices for these materials, please refer to the LICENSE file.
For more information on MySQL Operator visit https://dev.mysql.com/doc/mysql-shell/8.0/en/ For additional downloads and the source of MySQL Operator visit http://dev.mysql.com/downloads and https://github.com/mysql
MySQL Operator is brought to you by the MySQL team at Oracle.
The MYSQL Operator can be installed using kubectl
:
kubectl apply -f https://raw.githubusercontent.com/mysql/mysql-operator/trunk/deploy/deploy-crds.yaml
kubectl apply -f https://raw.githubusercontent.com/mysql/mysql-operator/trunk/deploy/deploy-operator.yaml
Note: The propagation of the CRDs can take a few seconds depending on the size of your Kubernetes cluster. Best is to wait a second or two between those commands. If the second command fails due to missing CRD apply it a second time.
To verify the operator is running check the deployment managing the
operator, inside the mysql-operator
namespace.
kubectl get deployment -n mysql-operator mysql-operator
Once the Operator is ready the putput should be like
NAME READY UP-TO-DATE AVAILABLE AGE
mysql-operator 1/1 1 1 1h
For creating an InnoDB Cluster you first have to create a secret containing credentials for a MySQL root user which is to be created:
kubectl create secret generic mypwds \
--from-literal=rootUser=root \
--from-literal=rootHost=% \
--from-literal=rootPassword="your secret password, REPLACE ME"
With that the sample cluster can be created:
kubectl apply -f https://raw.githubusercontent.com/mysql/mysql-operator/trunk/samples/sample-cluster.yaml
This sample will create an InnoDB Cluster with three MySQL server instances and one MySQL Router instance. The process can be observed using
kubectl get innodbcluster --watch
NAME STATUS ONLINE INSTANCES ROUTERS AGE
mycluster PENDING 0 3 1 10s
For connecting to the InnoDB Cluster a Service
is created inside the
Kubernetes cluster.
kubectl get service mycluster
NAME TYPE CLUSTER-IP EXTERNAL-IP PORT(S) AGE
mycluster ClusterIP 10.43.203.248 <none> 6446/TCP,6448/TCP,6447/TCP,6449/TCP 1h
The exported ports represent Read-write and read-only ports for the
MySQL Protocol and the X Protocol. Using describe
more information can be seen
kubectl describe service mycluster
Name: mycluster
Namespace: default
Labels: mysql.oracle.com/cluster=mycluster
tier=mysql
Annotations: <none>
Selector: component=mysqlrouter,mysql.oracle.com/cluster=mycluster,tier=mysql
Type: ClusterIP
IP Families: <none>
IP: 10.43.203.248
IPs: <none>
Port: mysql 6446/TCP
TargetPort: 6446/TCP
Endpoints: <none>
Port: mysqlx 6448/TCP
TargetPort: 6448/TCP
Endpoints: <none>
Port: mysql-ro 6447/TCP
TargetPort: 6447/TCP
Endpoints: <none>
Port: mysqlx-ro 6449/TCP
TargetPort: 6449/TCP
Endpoints: <none>
Session Affinity: None
Events: <none>
Using Kubernetes port forwarding you can create a redirection from your local machine, so that you can use any MySQL Client, like MySQL Shell or MySQL Workbench to inspect or using the server.
For a read-write connection to the primary using MYSQL protocol:
kubectl port-forward service/mycluster mysql
And then in a second terminal:
mysqlsh -h127.0.0.1 -P6446 -uroot -p
When promted enter the password used, when creating the Secret above.