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New to KubeDB? Please start here.
Elasticsearch QuickStart
This tutorial will show you how to use KubeDB to run an Elasticsearch database.
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.
Now, install the KubeDB operator in your cluster following the steps here.
To keep things isolated, this tutorial uses a separate namespace called demo
throughout this tutorial.
$ kubectl create namespace demo
namespace/demo created
$ kubectl get namespace
NAME STATUS AGE
demo Active 9s
Note: YAML files used in this tutorial are stored in guides/elasticsearch/quickstart/overview/yamls folder in GitHub repository kubedb/docs.
We have designed this tutorial to demonstrate a production setup of KubeDB managed Elasticsearch. If you just want to try out KubeDB, you can bypass some of the safety features following the tips here.
Find Available StorageClass
We will have to provide StorageClass
in Elasticsearch CRD specification. Check available StorageClass
in your cluster using the following command,
$ kubectl get storageclass
NAME PROVISIONER RECLAIMPOLICY VOLUMEBINDINGMODE ALLOWVOLUMEEXPANSION AGE
standard (default) rancher.io/local-path Delete WaitForFirstConsumer false 14h
Here, we have standard
StorageClass in our cluster from Local Path Provisioner.
Find Available ElasticsearchVersion
When you install the KubeDB operator, it registers a CRD named ElasticsearchVersion. The installation process comes with a set of tested ElasticsearchVersion objects. Let’s check available ElasticsearchVersions by,
$ kubectl get elasticsearchversions
NAME VERSION DB_IMAGE AUTH_PLUGIN DEPRECATED AGE
opendistro-1.0.2 7.0.1 kubedb/elasticsearch:1.0.2-opendistro OpenDistro 5m17s
opendistro-1.0.2-v1 7.0.1 kubedb/elasticsearch:1.0.2-opendistro OpenDistro 5m17s
opendistro-1.1.0 7.1.1 kubedb/elasticsearch:1.1.0-opendistro OpenDistro 5m17s
opendistro-1.1.0-v1 7.1.1 kubedb/elasticsearch:1.1.0-opendistro OpenDistro 5m17s
opendistro-1.10.1 7.9.1 kubedb/elasticsearch:1.10.1-opendistro OpenDistro 5m17s
opendistro-1.11.0 7.9.1 kubedb/elasticsearch:1.11.0-opendistro OpenDistro 5m17s
opendistro-1.12.0 7.10.0 kubedb/elasticsearch:1.12.0-opendistro OpenDistro 5m17s
opendistro-1.2.1 7.2.1 kubedb/elasticsearch:1.2.1-opendistro OpenDistro 5m17s
opendistro-1.2.1-v1 7.2.1 kubedb/elasticsearch:1.2.1-opendistro OpenDistro 5m17s
opendistro-1.3.0 7.3.2 kubedb/elasticsearch:1.3.0-opendistro OpenDistro 5m17s
opendistro-1.3.0-v1 7.3.2 kubedb/elasticsearch:1.3.0-opendistro OpenDistro 5m17s
opendistro-1.4.0 7.4.2 kubedb/elasticsearch:1.4.0-opendistro OpenDistro 5m17s
opendistro-1.4.0-v1 7.4.2 kubedb/elasticsearch:1.4.0-opendistro OpenDistro 5m17s
opendistro-1.6.0 7.6.1 kubedb/elasticsearch:1.6.0-opendistro OpenDistro 5m17s
opendistro-1.6.0-v1 7.6.1 kubedb/elasticsearch:1.6.0-opendistro OpenDistro 5m17s
opendistro-1.7.0 7.6.1 kubedb/elasticsearch:1.7.0-opendistro OpenDistro 5m17s
opendistro-1.7.0-v1 7.6.1 kubedb/elasticsearch:1.7.0-opendistro OpenDistro 5m17s
opendistro-1.8.0 7.7.0 kubedb/elasticsearch:1.8.0-opendistro OpenDistro 5m17s
opendistro-1.8.0-v1 7.7.0 kubedb/elasticsearch:1.8.0-opendistro OpenDistro 5m17s
opendistro-1.9.0 7.8.0 kubedb/elasticsearch:1.9.0-opendistro OpenDistro 5m17s
opendistro-1.9.0-v1 7.8.0 kubedb/elasticsearch:1.9.0-opendistro OpenDistro 5m17s
searchguard-6.8.1 6.8.1 kubedb/elasticsearch:6.8.1-searchguard SearchGuard 5m17s
searchguard-6.8.1-v1 6.8.1 kubedb/elasticsearch:6.8.1-searchguard SearchGuard 5m17s
searchguard-7.0.1 7.0.1 kubedb/elasticsearch:7.0.1-searchguard SearchGuard 5m17s
searchguard-7.0.1-v1 7.0.1 kubedb/elasticsearch:7.0.1-searchguard SearchGuard 5m17s
searchguard-7.1.1 7.1.1 kubedb/elasticsearch:7.1.1-searchguard SearchGuard 5m17s
searchguard-7.1.1-v1 7.1.1 kubedb/elasticsearch:7.1.1-searchguard SearchGuard 5m17s
searchguard-7.3.2 7.3.2 kubedb/elasticsearch:7.3.2-searchguard SearchGuard 5m17s
searchguard-7.5.2 7.5.2 kubedb/elasticsearch:7.5.2-searchguard SearchGuard 5m17s
searchguard-7.5.2-v1 7.5.2 kubedb/elasticsearch:7.5.2-searchguard SearchGuard 5m17s
searchguard-7.8.1 7.8.1 kubedb/elasticsearch:7.8.1-searchguard SearchGuard 5m17s
searchguard-7.9.3 7.9.3 kubedb/elasticsearch:7.9.3-searchguard SearchGuard 5m17s
xpack-6.8.10 6.8.10 kubedb/elasticsearch:6.8.10-xpack X-Pack 5m17s
xpack-6.8.10-v1 6.8.10 kubedb/elasticsearch:6.8.10-xpack X-Pack 5m17s
xpack-7.0.1 7.0.1 kubedb/elasticsearch:7.0.1-xpack X-Pack 5m17s
xpack-7.0.1-v1 7.0.1 kubedb/elasticsearch:7.0.1-xpack X-Pack 5m17s
xpack-7.1.1 7.1.1 kubedb/elasticsearch:7.1.1-xpack X-Pack 5m17s
xpack-7.1.1-v1 7.1.1 kubedb/elasticsearch:7.1.1-xpack X-Pack 5m17s
xpack-7.2.1 7.2.1 kubedb/elasticsearch:7.2.1-xpack X-Pack 5m17s
xpack-7.2.1-v1 7.2.1 kubedb/elasticsearch:7.2.1-xpack X-Pack 5m17s
xpack-7.3.2 7.3.2 kubedb/elasticsearch:7.3.2-xpack X-Pack 5m17s
xpack-7.3.2-v1 7.3.2 kubedb/elasticsearch:7.3.2-xpack X-Pack 5m17s
xpack-7.4.2 7.4.2 kubedb/elasticsearch:7.4.2-xpack X-Pack 5m17s
xpack-7.4.2-v1 7.4.2 kubedb/elasticsearch:7.4.2-xpack X-Pack 5m17s
xpack-7.5.2 7.5.2 kubedb/elasticsearch:7.5.2-xpack X-Pack 5m17s
xpack-7.5.2-v1 7.5.2 kubedb/elasticsearch:7.5.2-xpack X-Pack 5m17s
xpack-7.6.2 7.6.2 kubedb/elasticsearch:7.6.2-xpack X-Pack 5m17s
xpack-7.6.2-v1 7.6.2 kubedb/elasticsearch:7.6.2-xpack X-Pack 5m17s
xpack-7.7.1 7.7.1 kubedb/elasticsearch:7.7.1-xpack X-Pack 5m17s
xpack-7.7.1-v1 7.7.1 kubedb/elasticsearch:7.7.1-xpack X-Pack 5m17s
xpack-7.8.0 7.8.0 kubedb/elasticsearch:7.8.0-xpack X-Pack 5m17s
xpack-7.8.0-v1 7.8.0 kubedb/elasticsearch:7.8.0-xpack X-Pack 5m17s
xpack-7.9.1 7.9.1 kubedb/elasticsearch:7.9.1-xpack X-Pack 5m17s
xpack-7.9.1-v1 7.9.1 kubedb/elasticsearch:7.9.1-xpack X-Pack 5m17s
Notice the DEPRECATED
column. Here, true
means that this ElasticsearchVersion is deprecated for the current KubeDB version. KubeDB will not work for deprecated ElasticsearchVersion.
In this tutorial, we will use xpack-7.9.1-v1
ElasticsearchVersion CR to create an Elasticsearch cluster.
Note: An image with a higher modification tag will have more features and fixes than an image with a lower modification tag. Hence, it is recommended to use ElasticsearchVersion CRD with the highest modification tag to take advantage of the latest features. For example, we are using
xpack-7.9.1-v1
over7.9.1-xpack
.
Create an Elasticsearch Cluster
The KubeDB operator implements an Elasticsearch CRD to define the specification of an Elasticsearch database.
The Elasticsearch instance used for this tutorial:
apiVersion: kubedb.com/v1alpha2
kind: Elasticsearch
metadata:
name: es-quickstart
namespace: demo
spec:
version: xpack-7.9.1-v1
enableSSL: true
replicas: 3
storageType: Durable
storage:
storageClassName: "standard"
accessModes:
- ReadWriteOnce
resources:
requests:
storage: 1Gi
terminationPolicy: DoNotTerminate
Here,
spec.version
- is the name of the ElasticsearchVersion CR. Here, an Elasticsearch of version7.9.1
will be created withx-pack
security plugin.spec.enableSSL
- specifies whether the HTTP layer is secured with certificates or not.spec.replicas
- specifies the number of Elasticsearch nodes.spec.storageType
- specifies the type of storage that will be used for Elasticsearch database. It can beDurable
orEphemeral
. The default value of this field isDurable
. IfEphemeral
is used then KubeDB will create the Elasticsearch database usingEmptyDir
volume. In this case, you don’t have to specifyspec.storage
field. This is useful for testing purposes.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 the KubeDB operator to run database pods. You can specify any StorageClass available in your cluster with appropriate resource requests. If you don’t specifyspec.storageType: Ephemeral
, then this field is required.spec.terminationPolicy
specifies what KubeDB should do when a user try to delete Elasticsearch CR. Termination policyDoNotTerminate
prevents a user from deleting this object if the admission webhook is enabled.
Note:
spec.storage
section is used to create PVC for database pod. It will create PVC with storage size specified in thestorage.resources.requests
field. Don’t specifylimits
here. PVC does not get resized automatically.
Let’s create the Elasticsearch CR that is shown above:
$ kubectl apply -f https://github.com/kubedb/docs/raw/v2021.11.24/docs/guides/elasticsearch/quickstart/overview/yamls/elasticsearch.yaml
elasticsearch.kubedb.com/es-quickstart created
The Elasticsearch’s STATUS
will go from Provisioning
to Ready
state within few minutes. Once the STATUS
is Ready
, you are ready to use the database.
$ kubectl get elasticsearch -n demo -w
NAME VERSION STATUS AGE
es-quickstart xpack-7.9.1-v1 Provisioning 1m34s
... ...
es-quickstart xpack-7.9.1-v1 Ready 2m6s
Describe the Elasticsearch object to observe the progress if something goes wrong or the status is not changing for a long period of time:
$ kubectl describe elasticsearch -n demo es-quickstart
Name: es-quickstart
Namespace: demo
Labels: <none>
Annotations: <none>
API Version: kubedb.com/v1alpha2
Kind: Elasticsearch
Metadata:
Creation Timestamp: 2021-02-26T05:29:30Z
Finalizers:
kubedb.com
Generation: 2
Resource Version: 13279
UID: 04715366-cda8-4e44-b63b-8e722b986bbd
Spec:
Auth Secret:
Name: es-quickstart-elastic-cred
Enable SSL: true
Kernel Settings:
Privileged: true
Sysctls:
Name: vm.max_map_count
Value: 262144
Pod Template:
Controller:
Metadata:
Spec:
Affinity:
Pod Anti Affinity:
Preferred During Scheduling Ignored During Execution:
Pod Affinity Term:
Label Selector:
Match Labels:
app.kubernetes.io/instance: es-quickstart
app.kubernetes.io/managed-by: kubedb.com
app.kubernetes.io/name: elasticsearches.kubedb.com
Namespaces:
demo
Topology Key: kubernetes.io/hostname
Weight: 100
Pod Affinity Term:
Label Selector:
Match Labels:
app.kubernetes.io/instance: es-quickstart
app.kubernetes.io/managed-by: kubedb.com
app.kubernetes.io/name: elasticsearches.kubedb.com
Namespaces:
demo
Topology Key: failure-domain.beta.kubernetes.io/zone
Weight: 50
Resources:
Limits:
Cpu: 500m
Memory: 1Gi
Requests:
Cpu: 500m
Memory: 1Gi
Service Account Name: es-quickstart
Replicas: 3
Storage:
Access Modes:
ReadWriteOnce
Resources:
Requests:
Storage: 1Gi
Storage Class Name: standard
Storage Type: Durable
Termination Policy: DoNotTerminate
Tls:
Certificates:
Alias: ca
Private Key:
Encoding: PKCS8
Secret Name: es-quickstart-ca-cert
Subject:
Organizations:
kubedb
Alias: transport
Private Key:
Encoding: PKCS8
Secret Name: es-quickstart-transport-cert
Subject:
Organizations:
kubedb
Alias: http
Private Key:
Encoding: PKCS8
Secret Name: es-quickstart-http-cert
Subject:
Organizations:
kubedb
Alias: archiver
Private Key:
Encoding: PKCS8
Secret Name: es-quickstart-archiver-cert
Subject:
Organizations:
kubedb
Version: xpack-7.9.1-v1
Status:
Conditions:
Last Transition Time: 2021-02-26T05:29:30Z
Message: The KubeDB operator has started the provisioning of Elasticsearch: demo/es-quickstart
Reason: DatabaseProvisioningStartedSuccessfully
Status: True
Type: ProvisioningStarted
Last Transition Time: 2021-02-26T05:32:44Z
Message: All desired replicas are ready.
Reason: AllReplicasReady
Status: True
Type: ReplicaReady
Last Transition Time: 2021-02-26T05:34:35Z
Message: The Elasticsearch: demo/es-quickstart is accepting client requests.
Observed Generation: 2
Reason: DatabaseAcceptingConnectionRequest
Status: True
Type: AcceptingConnection
Last Transition Time: 2021-02-26T05:34:36Z
Message: The Elasticsearch: demo/es-quickstart is ready.
Observed Generation: 2
Reason: ReadinessCheckSucceeded
Status: True
Type: Ready
Last Transition Time: 2021-02-26T05:34:36Z
Message: The Elasticsearch: demo/es-quickstart is successfully provisioned.
Observed Generation: 2
Reason: DatabaseSuccessfullyProvisioned
Status: True
Type: Provisioned
Observed Generation: 2
Phase: Ready
Events:
Type Reason Age From Message
---- ------ ---- ---- -------
Normal Successful 54m Elasticsearch operator Successfully governing service
Normal Successful 54m Elasticsearch operator Successfully patched Elasticsearch
KubeDB Operator Generated Resources
On deployment of an Elasticsearch CR, the operator creates the following resources:
$ kubectl get all,secret -n demo -l 'app.kubernetes.io/instance=es-quickstart'
NAME READY STATUS RESTARTS AGE
pod/es-quickstart-0 1/1 Running 0 3h42m
pod/es-quickstart-1 1/1 Running 0 3h39m
pod/es-quickstart-2 1/1 Running 0 3h39m
NAME TYPE CLUSTER-IP EXTERNAL-IP PORT(S) AGE
service/es-quickstart ClusterIP 10.96.239.14 <none> 9200/TCP 3h42m
service/es-quickstart-master ClusterIP None <none> 9300/TCP 3h42m
service/es-quickstart-pods ClusterIP None <none> 9200/TCP 3h42m
NAME READY AGE
statefulset.apps/es-quickstart 3/3 3h42m
NAME TYPE VERSION AGE
appbinding.appcatalog.appscode.com/es-quickstart kubedb.com/elasticsearch 7.9.1 3h42m
NAME TYPE DATA AGE
secret/es-quickstart-archiver-cert kubernetes.io/tls 3 3h42m
secret/es-quickstart-ca-cert kubernetes.io/tls 2 3h42m
secret/es-quickstart-config Opaque 1 3h42m
secret/es-quickstart-elastic-cred kubernetes.io/basic-auth 2 3h42m
secret/es-quickstart-http-cert kubernetes.io/tls 3 3h42m
secret/es-quickstart-transport-cert kubernetes.io/tls 3 3h42m
StatefulSet
- a StatefulSet named after the Elasticsearch instance. In topology mode, the operator creates 3 statefulSets with name{Elasticsearch-Name}-{Sufix}
.Services
- 3 services are generated for each Elasticsearch database.{Elasticsearch-Name}
- the client service which is used to connect to the database. It points to theingest
nodes.{Elasticsearch-Name}-master
- the master service which is used to connect to the master nodes. It is a headless service.{Elasticsearch-Name}-pods
- the node discovery service which is used by the Elasticsearch nodes to communicate each other. It is a headless service.
AppBinding
- an AppBinding which hold the connect information for the database. It is also named after the ElasticsSecrets
- 3 types of secrets are generated for each Elasticsearch database.{Elasticsearch-Name}-{username}-cred
- the auth secrets which hold theusername
andpassword
for the Elasticsearch users.{Elasticsearch-Name}-{alias}-cert
- the certificate secrets which holdtls.crt
,tls.key
, andca.crt
for configuring the Elasticsearch database.{Elasticsearch-Name}-config
- the default configuration secret created by the operator.
Connect with Elasticsearch Database
We will use port forwarding to connect with our Elasticsearch database. Then we will use curl
to send HTTP
requests to check cluster health to verify that our Elasticsearch database is working well.
Let’s port-forward the port 9200
to local machine:
$ kubectl port-forward -n demo svc/es-quickstart 9200
Forwarding from 127.0.0.1:9200 -> 9200
Forwarding from [::1]:9200 -> 9200
Now, our Elasticsearch cluster is accessible at localhost:9200
.
Connection information:
Address:
localhost:9200
Username:
$ kubectl get secret -n demo es-quickstart-elastic-cred -o jsonpath='{.data.username}' | base64 -d elastic
Password:
$ kubectl get secret -n demo es-quickstart-elastic-cred -o jsonpath='{.data.password}' | base64 -d q6XreFWkWi$;BsQy
Now let’s check the health of our Elasticsearch database.
$ curl -XGET -k -u 'elastic:q6XreFWkWi$;BsQy' "https://localhost:9200/_cluster/health?pretty"
{
"cluster_name" : "es-quickstart",
"status" : "green",
"timed_out" : false,
"number_of_nodes" : 3,
"number_of_data_nodes" : 3,
"active_primary_shards" : 0,
"active_shards" : 0,
"relocating_shards" : 0,
"initializing_shards" : 0,
"unassigned_shards" : 0,
"delayed_unassigned_shards" : 0,
"number_of_pending_tasks" : 0,
"number_of_in_flight_fetch" : 0,
"task_max_waiting_in_queue_millis" : 0,
"active_shards_percent_as_number" : 100.0
}
From the health information above, we can see that our Elasticsearch cluster’s status is green
which means the cluster is healthy.
Halt Elasticsearch
KubeDB takes advantage of ValidationWebhook
feature in Kubernetes 1.9.0 or later clusters to implement DoNotTerminate
termination policy. If admission webhook is enabled, it prevents the user from deleting the database as long as the spec.terminationPolicy
is set DoNotTerminate
.
In this tutorial, Elasticsearch es-quickstart
is created with spec.terminationPolicy: DoNotTerminate
. So if you try to delete this Elasticsearch object, the admission webhook will nullify the delete operation.
$ kubectl delete elasticsearch -n demo es-quickstart
Error from server (BadRequest): admission webhook "elasticsearch.validators.kubedb.com" denied the request: elasticsearch "demo/es-quickstart" can't be terminated. To delete, change spec.terminationPolicy
To halt the database, we have to set spec.terminationPolicy:
to Halt
by updating it,
$ kubectl edit elasticsearch -n demo es-quickstart
>> spec:
>> terminationPolicy: Halt
Now, if you delete the Elasticsearch object, the KubeDB operator will delete every resource created for this Elasticsearch CR, but leaves the auth secrets, and PVCs.
$ kubectl delete elasticsearch -n demo es-quickstart
elasticsearch.kubedb.com "es-quickstart" deleted
Check resources:
$ kubectl get all,secret,pvc -n demo -l 'app.kubernetes.io/instance=es-quickstart'
NAME TYPE DATA AGE
secret/es-quickstart-elastic-cred kubernetes.io/basic-auth 2 6h48m
NAME STATUS VOLUME CAPACITY ACCESS MODES STORAGECLASS AGE
persistentvolumeclaim/data-es-quickstart-0 Bound pvc-9208f770-7308-45b3-a23e-233590087f45 1Gi RWO standard 6h48m
persistentvolumeclaim/data-es-quickstart-1 Bound pvc-0f12a74e-ba80-4e67-bece-3a00c3fcd28f 1Gi RWO standard 6h45m
persistentvolumeclaim/data-es-quickstart-2 Bound pvc-6609582b-8988-4efb-8a4b-5b2757fd6066 1Gi RWO standard 6h45m
Resume Elasticsearch
Say, the Elasticsearch CR was deleted with spec.terminationPolicy
to Halt
and you want to re-create the Elasticsearch cluster using the existing auth secrets and the PVCs.
You can do it by simpily re-deploying the original Elasticsearch object:
$ kubectl apply -f https://github.com/kubedb/docs/raw/v2021.11.24/docs/guides/elasticsearch/quickstart/overview/yamls/elasticsearch.yaml
elasticsearch.kubedb.com/es-quickstart created
Cleaning up
To cleanup the Kubernetes resources created by this tutorial, run:
$ kubectl patch -n demo elasticsearch es-quickstart -p '{"spec":{"terminationPolicy":"WipeOut"}}' --type="merge"
elasticsearch.kubedb.com/es-quickstart patched
$ kubectl delete -n demo es/quick-elasticsearch
elasticsearch.kubedb.com "es-quickstart" deleted
$ kubectl delete namespace demo
namespace "demo" deleted
Tips for Testing
If you are just testing some basic functionalities, you might want to avoid additional hassles due to some safety features that are great for the production environment. You can follow these tips to avoid them.
- Use
storageType: Ephemeral
. Databases are precious. You might not want to lose your data in your production environment if the database pod fails. So, we recommend to usespec.storageType: Durable
and provide storage spec inspec.storage
section. For testing purposes, you can just usespec.storageType: Ephemeral
. KubeDB will use emptyDir for storage. You will not require to providespec.storage
section. - Use
terminationPolicy: WipeOut
. It is nice to be able to resume the database from the previous one. So, we preserve all yourPVCs
and authSecrets
. If you don’t want to resume the database, you can just usespec.terminationPolicy: WipeOut
. It will clean up every resouce that was created with the Elasticsearch CR. For more details, please visit here.
Next Steps
- Learn about backup & restore Elasticsearch database using Stash.
- Learn how to configure Elasticsearch Topology.
- Monitor your Elasticsearch database with KubeDB using
out-of-the-box
builtin-Prometheus. - Monitor your Elasticsearch database with KubeDB using
out-of-the-box
Prometheus operator. - Detail concepts of Elasticsearch object.
- Use private Docker registry to deploy Elasticsearch with KubeDB.
- Want to hack on KubeDB? Check our contribution guidelines.