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KubeDB - MongoDB ReplicaSet
This tutorial will show you how to use KubeDB to run a MongoDB ReplicaSet.
Before You Begin
Before proceeding:
Read mongodb replication concept to learn about MongoDB Replica Set clustering.
You need to have a Kubernetes cluster, and the kubectl command-line tool must be configured to communicate with your cluster. If you do not already have a cluster, you can create one by using Minikube.
Now, install KubeDB cli on your workstation and KubeDB operator in your cluster following the steps here.
To keep things isolated, this tutorial uses a separate namespace called
demothroughout this tutorial. Run the following command to prepare your cluster for this tutorial:$ kubectl create ns demo namespace/demo created
Note: The yaml files used in this tutorial are stored in docs/examples/mongodb folder in GitHub repository kubedb/cli.
Deploy MongoDB ReplicaSet
To deploy a MongoDB ReplicaSet, user have to specify spec.replicaSet option in Mongodb CRD.
The following is an example of a Mongodb object which creates MongoDB ReplicaSet of three members.
apiVersion: kubedb.com/v1alpha1
kind: MongoDB
metadata:
name: mgo-replicaset
namespace: demo
spec:
version: "3.6-v2"
replicas: 3
replicaSet:
name: rs0
storage:
storageClassName: "standard"
accessModes:
- ReadWriteOnce
resources:
requests:
storage: 1Gi
$ kubedb create -f https://raw.githubusercontent.com/kubedb/cli/0.10.0/docs/examples/mongodb/clustering/demo-1.yaml
mongodb.kubedb.com/mgo-replicaset created
Here,
spec.replicaSetrepresents the configuration for replicaset.namedenotes the name of mongodb replicaset.KeyFileSecret(optional) is a secret name that contains keyfile (a random string)againstkey.txtkey. Each mongod instances in the replica set uses the contents of the keyfile as the shared password for authenticating other members in the deployment. Only mongod instances with the correct keyfile can join the replica set. User can provide theKeyFileSecretby creating a secret with keykey.txt. See here to create the string forKeyFileSecret. IfKeyFileSecretis not given, KubeDB operator will generate aKeyFileSecretitself.
spec.replicasdenotes the number of members inrs0mongodb replicaset.spec.storagespecifies the StorageClass of PVC dynamically allocated to store data for this database. This storage spec will be passed to the StatefulSet created by KubeDB operator to run database pods. So, each members will have a pod of this storage configuration. You can specify any StorageClass available in your cluster with appropriate resource requests.
KubeDB operator watches for MongoDB objects using Kubernetes api. When a MongoDB object is created, KubeDB operator will create a new StatefulSet and a ClusterIP Service with the matching MongoDB object name. KubeDB operator will also create a governing service for StatefulSets with the name <mongodb-name>-gvr. No MongoDB specific RBAC permission is required in RBAC enabled clusters.
$ kubedb describe mg -n demo mgo-replicaset
Name: mgo-replicaset
Namespace: demo
CreationTimestamp: Wed, 06 Feb 2019 16:08:15 +0600
Labels: <none>
Annotations: <none>
Replicas: 3 total
Status: Running
StorageType: Durable
Volume:
StorageClass: standard
Capacity: 1Gi
Access Modes: RWO
StatefulSet:
Name: mgo-replicaset
CreationTimestamp: Wed, 06 Feb 2019 16:08:15 +0600
Labels: kubedb.com/kind=MongoDB
kubedb.com/name=mgo-replicaset
Annotations: <none>
Replicas: 824637261744 desired | 3 total
Pods Status: 3 Running / 0 Waiting / 0 Succeeded / 0 Failed
Service:
Name: mgo-replicaset
Labels: kubedb.com/kind=MongoDB
kubedb.com/name=mgo-replicaset
Annotations: <none>
Type: ClusterIP
IP: 10.97.174.220
Port: db 27017/TCP
TargetPort: db/TCP
Endpoints: 172.17.0.7:27017,172.17.0.8:27017,172.17.0.9:27017
Service:
Name: mgo-replicaset-gvr
Labels: kubedb.com/kind=MongoDB
kubedb.com/name=mgo-replicaset
Annotations: service.alpha.kubernetes.io/tolerate-unready-endpoints=true
Type: ClusterIP
IP: None
Port: db 27017/TCP
TargetPort: 27017/TCP
Endpoints: 172.17.0.7:27017,172.17.0.8:27017,172.17.0.9:27017
Database Secret:
Name: mgo-replicaset-auth
Labels: kubedb.com/kind=MongoDB
kubedb.com/name=mgo-replicaset
Annotations: <none>
Type: Opaque
Data
====
password: 16 bytes
username: 4 bytes
No Snapshots.
Events:
Type Reason Age From Message
---- ------ ---- ---- -------
Normal Successful 1m KubeDB operator Successfully created Service
Normal Successful 26s KubeDB operator Successfully created StatefulSet
Normal Successful 26s KubeDB operator Successfully created MongoDB
Normal Successful 26s KubeDB operator Successfully created appbinding
Normal Successful 26s KubeDB operator Successfully patched StatefulSet
Normal Successful 26s KubeDB operator Successfully patched MongoDB
$ kubectl get statefulset -n demo
NAME READY AGE
mgo-replicaset 3/3 105s
$ kubectl get pvc -n demo
NAME STATUS VOLUME CAPACITY ACCESS MODES STORAGECLASS AGE
datadir-mgo-replicaset-0 Bound pvc-597784c9-c093-11e8-b4a9-0800272618ed 1Gi RWO standard 1h
datadir-mgo-replicaset-1 Bound pvc-8ca7a9d9-c093-11e8-b4a9-0800272618ed 1Gi RWO standard 1h
datadir-mgo-replicaset-2 Bound pvc-b7d8a624-c093-11e8-b4a9-0800272618ed 1Gi RWO standard 1h
$ kubectl get pv -n demo
NAME CAPACITY ACCESS MODES RECLAIM POLICY STATUS CLAIM STORAGECLASS REASON AGE
pvc-597784c9-c093-11e8-b4a9-0800272618ed 1Gi RWO Delete Bound demo/datadir-mgo-replicaset-0 standard 1h
pvc-8ca7a9d9-c093-11e8-b4a9-0800272618ed 1Gi RWO Delete Bound demo/datadir-mgo-replicaset-1 standard 1h
pvc-b7d8a624-c093-11e8-b4a9-0800272618ed 1Gi RWO Delete Bound demo/datadir-mgo-replicaset-2 standard 1h
$ kubectl get service -n demo
NAME TYPE CLUSTER-IP EXTERNAL-IP PORT(S) AGE
mgo-replicaset ClusterIP 10.97.174.220 <none> 27017/TCP 119s
mgo-replicaset-gvr ClusterIP None <none> 27017/TCP 119s
KubeDB operator sets the status.phase to Running once the database is successfully created. Run the following command to see the modified MongoDB object:
$ kubedb get mg -n demo mgo-replicaset -o yaml
apiVersion: kubedb.com/v1alpha1
kind: MongoDB
metadata:
creationTimestamp: "2019-02-06T10:08:15Z"
finalizers:
- kubedb.com
generation: 3
name: mgo-replicaset
namespace: demo
resourceVersion: "92643"
selfLink: /apis/kubedb.com/v1alpha1/namespaces/demo/mongodbs/mgo-replicaset
uid: 1e8cd706-29f7-11e9-aebf-080027875192
spec:
databaseSecret:
secretName: mgo-replicaset-auth
podTemplate:
controller: {}
metadata: {}
spec:
livenessProbe:
exec:
command:
- mongo
- --eval
- db.adminCommand('ping')
failureThreshold: 3
periodSeconds: 10
successThreshold: 1
timeoutSeconds: 5
readinessProbe:
exec:
command:
- mongo
- --eval
- db.adminCommand('ping')
failureThreshold: 3
periodSeconds: 10
successThreshold: 1
timeoutSeconds: 1
resources: {}
replicaSet:
keyFile:
secretName: mgo-replicaset-keyfile
name: rs0
replicas: 3
serviceTemplate:
metadata: {}
spec: {}
storage:
accessModes:
- ReadWriteOnce
dataSource: null
resources:
requests:
storage: 1Gi
storageClassName: standard
storageType: Durable
terminationPolicy: Pause
updateStrategy:
type: RollingUpdate
version: 3.6-v2
status:
observedGeneration: 3$4212299729528774793
phase: Running
Please note that KubeDB operator has created a new Secret called mgo-replicaset-auth (format: {mongodb-object-name}-auth) for storing the password for mongodb superuser. This secret contains a username key which contains the username for MongoDB superuser and a password key which contains the password for MongoDB superuser.
If you want to use custom or existing secret please specify that when creating the MongoDB object using spec.databaseSecret.secretName. While creating this secret manually, make sure the secret contains these two keys containing data username and password. For more details, please see here.
Redundancy and Data Availability
Now, you can connect to this database through mongo-shell. In this tutorial, we will insert document on primary member, and we will see if the data becomes available on secondary members.
At first, insert data inside primary member rs0:PRIMARY.
$ kubectl get secrets -n demo mgo-replicaset-auth -o jsonpath='{.data.\username}' | base64 -d
root
$ kubectl get secrets -n demo mgo-replicaset-auth -o jsonpath='{.data.\password}' | base64 -d
5O4R2ze2bWXcWsdP
$ kubectl exec -it mgo-replicaset-0 -n demo bash
mongodb@mgo-replicaset-0:/$ mongo admin -u root -p 5O4R2ze2bWXcWsdP
MongoDB shell version v3.6.6
connecting to: mongodb://127.0.0.1:27017/admin
MongoDB server version: 3.6.6
Welcome to the MongoDB shell.
rs0:PRIMARY> > rs.isMaster().primary
mgo-replicaset-0.mgo-replicaset-gvr.demo.svc.cluster.local:27017
rs0:PRIMARY> show dbs
admin 0.000GB
config 0.000GB
local 0.000GB
rs0:PRIMARY> show users
{
"_id" : "admin.root",
"user" : "root",
"db" : "admin",
"roles" : [
{
"role" : "root",
"db" : "admin"
}
]
}
rs0:PRIMARY> use newdb
switched to db newdb
rs0:PRIMARY> db.movie.insert({"name":"batman"});
WriteResult({ "nInserted" : 1 })
rs0:PRIMARY> db.movie.find().pretty()
{ "_id" : ObjectId("5b5efeea9d097ca0600694a3"), "name" : "batman" }
rs0:PRIMARY> exit
bye
Now, check the redundancy and data availability in secondary members.
We will exec in mgo-replicaset-1(which is secondary member right now) to check the data availability.
$ kubectl exec -it mgo-replicaset-1 -n demo bash
mongodb@mgo-replicaset-1:/$ mongo admin -u root -p 5O4R2ze2bWXcWsdP
MongoDB shell version v3.6.6
connecting to: mongodb://127.0.0.1:27017/admin
MongoDB server version: 3.6.6
Welcome to the MongoDB shell.
rs0:SECONDARY> rs.slaveOk()
rs0:SECONDARY> > show dbs
admin 0.000GB
config 0.000GB
local 0.000GB
newdb 0.000GB
rs0:SECONDARY> show users
{
"_id" : "admin.root",
"user" : "root",
"db" : "admin",
"roles" : [
{
"role" : "root",
"db" : "admin"
}
]
}
rs0:SECONDARY> use newdb
switched to db newdb
rs0:SECONDARY> db.movie.find().pretty()
{ "_id" : ObjectId("5b5efeea9d097ca0600694a3"), "name" : "batman" }
rs0:SECONDARY> exit
bye
Automatic Failover
To test automatic failover, we will force the primary member to restart. As the primary member (pod) becomes unavailable, the rest of the members will elect a primary member by election.
$ kubectl get pods -n demo
NAME READY STATUS RESTARTS AGE
mgo-replicaset-0 1/1 Running 0 1h
mgo-replicaset-1 1/1 Running 0 1h
mgo-replicaset-2 1/1 Running 0 1h
$ kubectl delete pod -n demo mgo-replicaset-0
pod "mgo-replicaset-0" deleted
$ kubectl get pods -n demo
NAME READY STATUS RESTARTS AGE
mgo-replicaset-0 1/1 Terminating 0 1h
mgo-replicaset-1 1/1 Running 0 1h
mgo-replicaset-2 1/1 Running 0 1h
Now verify the automatic failover, Let’s exec in mgo-replicaset-1 pod,
$ kubectl exec -it mgo-replicaset-1 -n demo bash
mongodb@mgo-replicaset-1:/$ mongo admin -u root -p 5O4R2ze2bWXcWsdP
MongoDB shell version v3.6.6
connecting to: mongodb://127.0.0.1:27017/admin
MongoDB server version: 3.6.6
Welcome to the MongoDB shell.
rs0:SECONDARY> rs.isMaster().primary
mgo-replicaset-2.mgo-replicaset-gvr.demo.svc.cluster.local:27017
# Also verify, data persistency
rs0:SECONDARY> rs.slaveOk()
rs0:SECONDARY> > show dbs
admin 0.000GB
config 0.000GB
local 0.000GB
newdb 0.000GB
rs0:SECONDARY> show users
{
"_id" : "admin.root",
"user" : "root",
"db" : "admin",
"roles" : [
{
"role" : "root",
"db" : "admin"
}
]
}
rs0:SECONDARY> use newdb
switched to db newdb
rs0:SECONDARY> db.movie.find().pretty()
{ "_id" : ObjectId("5b5efeea9d097ca0600694a3"), "name" : "batman" }
Pause Database
When, terminationPolicy is DoNotTerminate, KubeDB takes advantage of ValidationWebhook feature in Kubernetes 1.9.0 or later clusters to implement DoNotTerminate feature. If admission webhook is enabled, It prevents users from deleting the database as long as the spec.terminationPolicy is set to DoNotTerminate.
Since the MongoDB object created in this tutorial has spec.terminationPolicy set to Pause (default), if you delete the MongoDB object, KubeDB operator will create a dormant database while deleting the StatefulSet and its pods but leaves the PVCs unchanged.
$ kubedb delete mg mgo-replicaset -n demo
mongodb.kubedb.com "mgo-replicaset" deleted
$ kubedb get drmn -n demo mgo-replicaset
NAME STATUS AGE
mgo-replicaset Pausing 25s
$ kubedb get drmn -n demo mgo-replicaset
NAME STATUS AGE
mgo-replicaset Paused 1m
$ kubedb get drmn -n demo mgo-replicaset -o yaml
apiVersion: kubedb.com/v1alpha1
kind: DormantDatabase
metadata:
creationTimestamp: "2019-02-06T10:20:21Z"
finalizers:
- kubedb.com
generation: 1
labels:
kubedb.com/kind: MongoDB
name: mgo-replicaset
namespace: demo
resourceVersion: "93530"
selfLink: /apis/kubedb.com/v1alpha1/namespaces/demo/dormantdatabases/mgo-replicaset
uid: cf0829ce-29f8-11e9-aebf-080027875192
spec:
origin:
metadata:
creationTimestamp: "2019-02-06T10:08:15Z"
name: mgo-replicaset
namespace: demo
spec:
mongodb:
databaseSecret:
secretName: mgo-replicaset-auth
podTemplate:
controller: {}
metadata: {}
spec:
livenessProbe:
exec:
command:
- mongo
- --eval
- db.adminCommand('ping')
failureThreshold: 3
periodSeconds: 10
successThreshold: 1
timeoutSeconds: 5
readinessProbe:
exec:
command:
- mongo
- --eval
- db.adminCommand('ping')
failureThreshold: 3
periodSeconds: 10
successThreshold: 1
timeoutSeconds: 1
resources: {}
replicaSet:
keyFile:
secretName: mgo-replicaset-keyfile
name: rs0
replicas: 3
serviceTemplate:
metadata: {}
spec: {}
storage:
accessModes:
- ReadWriteOnce
dataSource: null
resources:
requests:
storage: 1Gi
storageClassName: standard
storageType: Durable
terminationPolicy: Pause
updateStrategy:
type: RollingUpdate
version: 3.6-v2
status:
observedGeneration: 1$16440556888999634490
pausingTime: "2019-02-06T10:20:27Z"
phase: Paused
Here,
spec.originis the spec of the original spec of the original MongoDB object.status.phasepoints to the current database statePaused.
Resume Dormant Database
To resume the database from the dormant state, create same MongoDB object with same Spec.
In this tutorial, the dormant database can be resumed by creating original MongoDB object.
The below command will resume the DormantDatabase mgo-replicaset.
$ kubedb create -f https://raw.githubusercontent.com/kubedb/cli/0.10.0/docs/examples/mongodb/clustering/demo-1.yaml
mongodb.kubedb.com/mgo-replicaset created
Now, If you again exec into pod and look for previous data, you will see that, all the data persists.
WipeOut DormantDatabase
You can wipe out a DormantDatabase while deleting the object by setting spec.wipeOut to true. KubeDB operator will delete any relevant resources of this MongoDB database (i.e, PVCs, Secrets, Snapshots). It will also delete snapshot data stored in the Cloud Storage buckets.
$ kubedb edit drmn -n demo mgo-replicaset
apiVersion: kubedb.com/v1alpha1
kind: DormantDatabase
metadata:
name: mgo-replicaset
namespace: demo
...
spec:
wipeOut: true
...
status:
phase: Paused
...
If spec.wipeOut is not set to true while deleting the dormantdatabase object, then only this object will be deleted and kubedb-operator won’t delete related Secrets, PVCs, and Snapshots. So, users still can access the stored data in the cloud storage buckets as well as PVCs.
Delete DormantDatabase
As it is already discussed above, DormantDatabase can be deleted with or without wiping out the resources. To delete the dormantdatabase,
$ kubectl delete drmn mgo-replicaset -n demo
dormantdatabase "mgo-replicaset" deleted
Cleaning up
To cleanup the Kubernetes resources created by this tutorial, run:
kubectl patch -n demo mg/mgo-replicaset -p '{"spec":{"terminationPolicy":"WipeOut"}}' --type="merge"
kubectl delete -n demo mg/mgo-replicaset
kubectl patch -n demo drmn/mgo-replicaset -p '{"spec":{"wipeOut":true}}' --type="merge"
kubectl delete -n demo drmn/mgo-replicaset
kubectl delete ns demo
Next Steps
- Snapshot and Restore process of MongoDB databases using KubeDB.
- Take Scheduled Snapshot of MongoDB databases using KubeDB.
- Initialize MongoDB with Script.
- Initialize MongoDB with Snapshot.
- Monitor your MongoDB database with KubeDB using out-of-the-box CoreOS Prometheus Operator.
- Monitor your MongoDB database with KubeDB using out-of-the-box builtin-Prometheus.
- Use private Docker registry to deploy MongoDB with KubeDB.
- Detail concepts of MongoDB object.
- Detail concepts of MongoDBVersion object.
- Want to hack on KubeDB? Check our contribution guidelines.