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Initializing with Snapshot

This guide will show you how to create database and initialize snapshot with MongoDB Schema Manager using Schema Manager Operator.

Before You Begin

  • At first, 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 kind.

  • Install KubeDB in your cluster following the steps here.

  • Install KubeVault in your cluster following the steps here.

  • You should be familiar with the following concepts:

Note: YAML files used in this tutorial are stored in docs/guides/mongodb/schema-manager/initializing-with-snapshot/yamls directory of kubedb/doc repository.

Create Namespace

We are going to create two different namespaces, in db namespace we will deploy MongoDB and Vault Server and in demo namespacae we will deploy Schema Manager. Let’s create those namespace using the following yaml,

apiVersion: v1
kind: Namespace
metadata:
  name: db
  labels:
    kubernetes.io/metadata.name: db
---
apiVersion: v1
kind: Namespace
metadata:
  name: demo
  labels:
    kubernetes.io/metadata.name: demo

Let’s save this yaml configuration into namespace.yaml Then create those above namespaces.

$ kubectl apply -f namespace.yaml
namespace/db created
namespace/demo created

Deploy MongoDB Server and Vault Server

Here, we are going to deploy a MongoDB Server by using KubeDB operator. Also, we are deploying a Vault Server using KubeVault Operator.

Deploy MongoDB Server

In this section, we are going to deploy a MongoDB Server. Let’s deploy it using this following yaml,

apiVersion: kubedb.com/v1alpha2
kind: MongoDB
metadata:
  name: mongodb
  namespace: db
spec:
  allowedSchemas:
    namespaces:
      from: All
  version: "4.4.26"
  replicaSet:
    name: "replicaset"
  podTemplate:
    spec:
      resources:
        requests:
          cpu: "100m"
          memory: "100Mi"
  replicas: 3
  storageType: Durable
  storage:
    storageClassName: "standard"
    accessModes:
      - ReadWriteOnce
    resources:
      requests:
        storage: 100Mi
  terminationPolicy: WipeOut

Here,

  • spec.version is the name of the MongoDBVersion CR. Here, we are using MongoDB version 4.4.26.
  • spec.storageType specifies the type of storage that will be used for MongoDB. It can be Durable or Ephemeral. The default value of this field is Durable. If Ephemeral is used then KubeDB will create the MongoDB using EmptyDir volume.
  • spec.storage specifies 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.
  • spec.allowedSchemas specifies the namespace and selectors of allowed Schema Manager.
  • spec.terminationPolicy specifies what KubeDB should do when a user try to delete the operation of MongoDB CR. Wipeout means that the database will be deleted without restrictions. It can also be “Halt”, “Delete” and “DoNotTerminate”. Learn More about these HERE.

Let’s save this yaml configuration into mongodb.yaml Then create the above MongoDB CR

$ kubectl apply -f mongodb.yaml 
mongodb.kubedb.com/mongodb created

Deploy Vault Server

In this section, we are going to deploy a Vault Server. Let’s deploy it using this following yaml,

apiVersion: kubevault.com/v1alpha1
kind: VaultServer
metadata:
  name: vault
  namespace: demo
spec:
  version: 1.8.2
  replicas: 3
  allowedSecretEngines:
    namespaces:
      from: All
    secretEngines:
      - mongodb
  unsealer:
    secretShares: 5
    secretThreshold: 3
    mode:
      kubernetesSecret:
        secretName: vault-keys
  backend:
    raft:
      path: "/vault/data"
      storage:
        storageClassName: "standard"
        resources:
          requests:
            storage: 1Gi
  authMethods:
    - type: kubernetes
      path: kubernetes
  terminationPolicy: WipeOut

Here,

  • spec.version is a required field that specifies the original version of Vault that has been used to build the docker image specified in spec.vault.image field.
  • spec.replicas specifies the number of Vault nodes to deploy. It has to be a positive number.
  • spec.allowedSecretEngines defines the types of Secret Engines & the Allowed namespaces from where a SecretEngine can be attached to the VaultServer.
  • spec.unsealer is an optional field that specifies Unsealer configuration. Unsealer handles automatic initializing and unsealing of Vault.
  • spec.backend is a required field that specifies the Vault backend storage configuration. KubeVault operator generates storage configuration according to this spec.backend.
  • spec.authMethods is an optional field that specifies the list of auth methods to enable in Vault.
  • spec.terminationPolicy is an optional field that gives flexibility whether to nullify(reject) the delete operation of VaultServer crd or which resources KubeVault operator should keep or delete when you delete VaultServer crd.

Let’s save this yaml configuration into vault.yaml Then create the above VaultServer CR

$ kubectl apply -f vault.yaml
vaultserver.kubevault.com/vault created

Create Repository Secret

Here, we are using local backend for storing data snapshots. It can be a cloud storage like GCS bucket, AWS S3, Azure Blob Storage, NFS etc. or a Kubernetes native resources like HostPath, PersistentVolumeClaim etc. For more information check HERE

Let’s, create a Secret for our Repository,

$ echo -n 'changeit' > RESTIC_PASSWORD
$ kubectl create secret generic -n demo repo-secret --from-file=./RESTIC_PASSWORD
secret/repo-secret created

Let’s save this yaml configuration into repo-secret.yaml Then create the secret,

$ kubectl apply -f repo-secret.yaml 
secret/repo-secret created

Create Repository

apiVersion: stash.appscode.com/v1alpha1
kind: Repository
metadata:
  name: repo
  namespace: demo
spec:
  backend:
    local:
      mountPath: /hello
      persistentVolumeClaim:
        claimName: snapshot-pvc
    storageSecretName: repo-secret
  usagePolicy:
    allowedNamespaces:
      from: All

This repository CRO specifies the repo-secret that we’ve created before and specifies the name and path to the local storage PVC.

Note: Here, we are using local storage PVC. My PVC name is snapshot-pvc. Don’t forget to change backend.local.persistentVolumeClaim.claimName to your PVC name.

Let’s save this yaml configuration into repo.yaml Lets create the repository,

$ kubectl apply -f repo.yaml 
repository.stash.appscode.com/repo created

After creating the repository we’ve backed up one of our MongoDB database with some sample data via Stash. So, now our repository contains some sample data inside it.

Configure Snapshot Restore

Now, We are going to create a ServiceAccount, ClusterRole and ClusterRoleBinding. Stash does not grant necessary RBAC permissions to the restore job for taking restore from a different namespace. In this case, we have to provide the RBAC permissions manually. This helps to prevent unauthorized namespaces from getting access to a database via Stash. You can configure this process through this Documentation

Deploy Schema Manager Initialize with Snapshot

Here, we are going to deploy Schema Manager with the demo namespace that we have created above. Let’s deploy it using the following yaml,

apiVersion: schema.kubedb.com/v1alpha1
kind: MongoDBDatabase
metadata:
  name: schema-restore
  namespace: demo
spec:
  database:
    serverRef:
      name: mongodb
      namespace: db
    config:
      name: products
  vaultRef:
    name: vault
    namespace: demo
  accessPolicy:
    subjects:
      - name: "saname"
        namespace: db
        kind: "ServiceAccount"
        apiGroup: ""
    defaultTTL: "5m"
    maxTTL: "200h"
  init:
    initialized: false
    snapshot:
      repository:
        name: repo
        namespace: demo
  deletionPolicy: Delete

Here,

  • spec.database is a required field specifying the database server reference and the desired database configuration.
  • spec.vaultRef is a required field that specifies which KubeVault server to use for user management.
  • spec.accessPolicy is a required field that specifies the access permissions like which service account or cluster user have the access and also for how long they can access through it.
  • spec.init is an optional field, containing the information of a script or a snapshot using which the database should be initialized during creation.
  • spec.deletionPolicy is an optional field that gives flexibility whether to nullify (reject) the delete operation.

Let’s save this yaml configuration into schema-restore.yaml and apply it,

$ kubectl apply -f schema-restore.yaml 
mongodbdatabase.schema.kubedb.com/schema-restore created

Let’s check the STATUS of Schema Manager,

$ kubectl get mongodbdatabase -A
NAMESPACE   NAME              DB_SERVER   DB_NAME    STATUS    AGE
demo        schema-restore    mongodb     products   Current   56s

Here,

In STATUS section, Current means that the current Secret of Schema Manager is vaild, and it will automatically Expired after it reaches the limit of defaultTTL that we’ve defined in the above yaml.

Also, check the STATUS of restoresession

$ kubectl get restoresession -n demo
NAME                      REPOSITORY   PHASE       DURATION   AGE
schema-restore-mongo-rs   repo         Succeeded   5s         21s

Now, let’s get the secret name from schema-manager, and the login credentials for connecting to the database,

$ kubectl get mongodbdatabase schema-restore -n demo -o=jsonpath='{.status.authSecret.name}'
schema-restore-mongo-req-98k0ch

$ kubectl view-secret -n demo schema-restore-mongo-req-98k0ch -a
password=6ykdBljJ7D8agXeoSp-f
username=v-kubernetes-demo-k8s-f7695915-1e-2zXmduPS89LfvW6tr5Bw-1662639843

Verify Initialization

Here, we are going to connect to the database with the login credentials and verify the database initialization,

$ kubectl exec -it -n demo mongodb-0 -c mongodb -- bash
root@mongodb-0:/# mongo --authenticationDatabase=products --username='v-kubernetes-demo-k8s-f7695915-1e-2zXmduPS89LfvW6tr5Bw-1662639843' --password='6ykdBljJ7D8agXeoSp-f' products
MongoDB shell version v4.4.26
...

replicaset:PRIMARY> show dbs
products       0.000GB

replicaset:PRIMARY> show collections
products

replicaset:PRIMARY> db.products.find()
{ "_id" : ObjectId("631b3139187d1588626fb80b"), "name" : "kubedb" }

replicaset:PRIMARY> exit
bye

Now, Let’s check the STATUS of Schema Manager again,

$ kubectl get mongodbdatabase -A
NAMESPACE   NAME              DB_SERVER   DB_NAME    STATUS    AGE
demo        schema-restore    mongodb     products   Expired   7m

Here, we can see that the STATUS of the schema-manager is Expired because it’s exceeded defaultTTL: "5m", which means the current Secret of Schema Manager isn’t vaild anymore. Now, if we try to connect and login with the credentials that we have acquired before from schema-manager, it won’t work.

$ kubectl exec -it -n demo mongodb-0 -c mongodb -- bash
root@mongodb-0:/# mongo --authenticationDatabase=products --username='v-kubernetes-demo-k8s-f7695915-1e-2zXmduPS89LfvW6tr5Bw-1662639843' --password='6ykdBljJ7D8agXeoSp-f' products
MongoDB shell version v4.4.26
connecting to: mongodb://127.0.0.1:27017/initdb?authSource=initdb&compressors=disabled&gssapiServiceName=mongodb
Error: Authentication failed. :
connect@src/mongo/shell/mongo.js:374:17
@(connect):2:6
exception: connect failed
exiting with code 1
root@mongodb-0:/# exit
exit

We can’t connect to the database with the login credentials, which is Expired. We will not be able to access the database even though we’re in the middle of a connected session.

Cleaning Up

To clean up the Kubernetes resources created by this tutorial, run:

$ kubectl delete ns db
$ kubectl delete ns demo

Next Steps