Overview
KubeDB is the Kubernetes Native Database Management Solution which simplifies and automates routine database tasks such as Provisioning, Monitoring, Upgrading, Patching, Scaling, Volume Expansion, Backup, Recovery, Failure detection, and Repair for various popular databases on private and public clouds. The databases that KubeDB supports are Elasticsearch, Kafka, MySQL, MongoDB, MariaDB, Redis, PostgreSQL, ProxySQL, Percona XtraDB, Memcached and PgBouncer. You can find the guides to all the supported databases in KubeDB . KubeDB provides support not only for the official Elasticsearch by Elastic and OpenSearch by AWS, but also other open source distributions like SearchGuard and OpenDistro . KubeDB provides all of these distribution’s support under the Elasticsearch CR of KubeDB. In this tutorial we will Deploy OpenSearch with OpenSearch-Dashboards in Google Kubernetes Engine (GKE). We will cover the following steps:
- Install KubeDB
- Deploy OpenSearch Topology Cluster
- Deploy OpenSearch-Dashboard
- Read/Write Data through Dashboard
Get Cluster ID
We need the cluster ID to get the KubeDB License. To get cluster ID, we can run the following command:
$ kubectl get ns kube-system -o jsonpath='{.metadata.uid}'
8e336615-0dbb-4ae8-b72f-2e7ec34c399d
Get License
Go to Appscode License Server to get the license.txt file. For this tutorial we will use KubeDB Enterprise Edition.
Install KubeDB
We will use helm to install KubeDB. Please install helm here
if it is not already installed.
Now, let’s install KubeDB
.
$ helm repo add appscode https://charts.appscode.com/stable/
$ helm repo update
$ helm search repo appscode/kubedb
NAME CHART VERSION APP VERSION DESCRIPTION
appscode/kubedb v2023.06.19 v2023.06.19 KubeDB by AppsCode - Production ready databases...
appscode/kubedb-autoscaler v0.19.0 v0.19.0 KubeDB Autoscaler by AppsCode - Autoscale KubeD...
appscode/kubedb-catalog v2023.06.19 v2023.06.19 KubeDB Catalog by AppsCode - Catalog for databa...
appscode/kubedb-community v0.24.2 v0.24.2 KubeDB Community by AppsCode - Community featur...
appscode/kubedb-crds v2023.06.19 v2023.06.19 KubeDB Custom Resource Definitions
appscode/kubedb-dashboard v0.10.0 v0.10.0 KubeDB Dashboard by AppsCode
appscode/kubedb-enterprise v0.11.2 v0.11.2 KubeDB Enterprise by AppsCode - Enterprise feat...
appscode/kubedb-grafana-dashboards v2023.06.19 v2023.06.19 A Helm chart for kubedb-grafana-dashboards by A...
appscode/kubedb-metrics v2023.06.19 v2023.06.19 KubeDB State Metrics
appscode/kubedb-one v2023.06.19 v2023.06.19 KubeDB and Stash by AppsCode - Production ready...
appscode/kubedb-ops-manager v0.21.0 v0.21.3 KubeDB Ops Manager by AppsCode - Enterprise fea...
appscode/kubedb-opscenter v2023.06.19 v2023.06.19 KubeDB Opscenter by AppsCode
appscode/kubedb-provisioner v0.34.0 v0.34.1 KubeDB Provisioner by AppsCode - Community feat...
appscode/kubedb-schema-manager v0.10.0 v0.10.0 KubeDB Schema Manager by AppsCode
appscode/kubedb-ui v2023.03.23 0.3.33-rc.2 A Helm chart for Kubernetes
appscode/kubedb-ui-server v2021.12.21 v2021.12.21 A Helm chart for kubedb-ui-server by AppsCode
appscode/kubedb-webhook-server v0.10.0 v0.10.0 KubeDB Webhook Server by AppsCode
# Install KubeDB Enterprise operator chart
$ helm install kubedb appscode/kubedb \
--version v2023.06.19 \
--namespace kubedb --create-namespace \
--set kubedb-provisioner.enabled=true \
--set kubedb-ops-manager.enabled=true \
--set kubedb-autoscaler.enabled=true \
--set kubedb-dashboard.enabled=true \
--set kubedb-schema-manager.enabled=true \
--set-file global.license=/path/to/the/license.txt
Let’s verify the installation:
$ kubectl get pods --all-namespaces -l "app.kubernetes.io/instance=kubedb"
NAMESPACE NAME READY STATUS RESTARTS AGE
kubedb kubedb-kubedb-autoscaler-7d6d794847-z5gdt 1/1 Running 0 2m26s
kubedb kubedb-kubedb-dashboard-6f866749cf-fmg8n 1/1 Running 0 2m26s
kubedb kubedb-kubedb-ops-manager-b679d5df7-zqx57 1/1 Running 1 2m26s
kubedb kubedb-kubedb-provisioner-bc8d7d45c-sv2lx 1/1 Running 0 2m26s
kubedb kubedb-kubedb-schema-manager-8579f67b58-5s2ld 1/1 Running 0 2m25s
kubedb kubedb-kubedb-webhook-server-7b6957848b-7cbl6 1/1 Running 0 2m26s
We can list the CRD Groups that have been registered by the operator by running the following command:
$ kubectl get crd -l app.kubernetes.io/name=kubedb
NAME CREATED AT
elasticsearchautoscalers.autoscaling.kubedb.com 2023-07-27T05:55:58Z
elasticsearchdashboards.dashboard.kubedb.com 2023-07-27T05:55:56Z
elasticsearches.kubedb.com 2023-07-27T05:55:57Z
elasticsearchopsrequests.ops.kubedb.com 2023-07-27T05:56:15Z
elasticsearchversions.catalog.kubedb.com 2023-07-27T05:53:20Z
etcds.kubedb.com 2023-07-27T05:56:10Z
etcdversions.catalog.kubedb.com 2023-07-27T05:53:20Z
kafkas.kubedb.com 2023-07-27T05:56:33Z
kafkaversions.catalog.kubedb.com 2023-07-27T05:53:21Z
mariadbautoscalers.autoscaling.kubedb.com 2023-07-27T05:55:58Z
mariadbdatabases.schema.kubedb.com 2023-07-27T05:56:15Z
mariadbopsrequests.ops.kubedb.com 2023-07-27T05:56:46Z
mariadbs.kubedb.com 2023-07-27T05:56:15Z
mariadbversions.catalog.kubedb.com 2023-07-27T05:53:21Z
memcacheds.kubedb.com 2023-07-27T05:56:15Z
memcachedversions.catalog.kubedb.com 2023-07-27T05:53:21Z
mongodbautoscalers.autoscaling.kubedb.com 2023-07-27T05:55:58Z
mongodbdatabases.schema.kubedb.com 2023-07-27T05:56:02Z
mongodbopsrequests.ops.kubedb.com 2023-07-27T05:56:20Z
mongodbs.kubedb.com 2023-07-27T05:56:04Z
mongodbversions.catalog.kubedb.com 2023-07-27T05:53:22Z
mysqlautoscalers.autoscaling.kubedb.com 2023-07-27T05:55:59Z
mysqldatabases.schema.kubedb.com 2023-07-27T05:55:58Z
mysqlopsrequests.ops.kubedb.com 2023-07-27T05:56:42Z
mysqls.kubedb.com 2023-07-27T05:55:59Z
mysqlversions.catalog.kubedb.com 2023-07-27T05:53:22Z
perconaxtradbautoscalers.autoscaling.kubedb.com 2023-07-27T05:55:59Z
perconaxtradbopsrequests.ops.kubedb.com 2023-07-27T05:57:01Z
perconaxtradbs.kubedb.com 2023-07-27T05:56:29Z
perconaxtradbversions.catalog.kubedb.com 2023-07-27T05:53:23Z
pgbouncers.kubedb.com 2023-07-27T05:56:29Z
pgbouncerversions.catalog.kubedb.com 2023-07-27T05:53:23Z
postgresautoscalers.autoscaling.kubedb.com 2023-07-27T05:56:00Z
postgresdatabases.schema.kubedb.com 2023-07-27T05:56:09Z
postgreses.kubedb.com 2023-07-27T05:56:15Z
postgresopsrequests.ops.kubedb.com 2023-07-27T05:56:54Z
postgresversions.catalog.kubedb.com 2023-07-27T05:53:23Z
proxysqlautoscalers.autoscaling.kubedb.com 2023-07-27T05:56:00Z
proxysqlopsrequests.ops.kubedb.com 2023-07-27T05:56:57Z
proxysqls.kubedb.com 2023-07-27T05:56:31Z
proxysqlversions.catalog.kubedb.com 2023-07-27T05:53:23Z
publishers.postgres.kubedb.com 2023-07-27T05:57:13Z
redisautoscalers.autoscaling.kubedb.com 2023-07-27T05:56:01Z
redises.kubedb.com 2023-07-27T05:56:32Z
redisopsrequests.ops.kubedb.com 2023-07-27T05:56:49Z
redissentinelautoscalers.autoscaling.kubedb.com 2023-07-27T05:56:02Z
redissentinelopsrequests.ops.kubedb.com 2023-07-27T05:57:04Z
redissentinels.kubedb.com 2023-07-27T05:56:32Z
redisversions.catalog.kubedb.com 2023-07-27T05:53:24Z
subscribers.postgres.kubedb.com 2023-07-27T05:57:16Z
Deploy OpenSearch Topology Cluster
We are going to use the KubeDB-provided Custom Resource object OpenSearch for deployment. The object will be deployed in demo namespace. So, let’s create the namespace first.
$ kubectl create namespace demo
namespace/demo created
Here is the yaml of OpenSearch we are going to use:
apiVersion: kubedb.com/v1alpha2
kind: Elasticsearch
metadata:
name: os-cluster
namespace: demo
spec:
enableSSL: true
version: opensearch-2.8.0
storageType: Durable
topology:
master:
replicas: 2
resources:
storage:
storageClassName: "standard"
accessModes:
- ReadWriteOnce
resources:
requests:
storage: 1Gi
data:
replicas: 2
resources:
storage:
storageClassName: "standard"
accessModes:
- ReadWriteOnce
resources:
requests:
storage: 1Gi
ingest:
replicas: 2
resources:
storage:
storageClassName: "standard"
accessModes:
- ReadWriteOnce
resources:
requests:
storage: 1Gi
terminationPolicy: WipeOut
Here,
spec.version
- is the name of the ElasticsearchVersion CR. Here, we are using OpenSearch versionopensearch-2.8.0
of OpenSearch distribution.spec.enableSSL
- specifies whether the HTTP layer is secured with certificates or not.spec.storageType
- specifies the type of storage that will be used for OpenSearch database. It can beDurable
orEphemeral
. The default value of this field isDurable
. IfEphemeral
is used then KubeDB will create the OpenSearch database usingEmptyDir
volume. In this case, you don’t have to specifyspec.storage
field. This is useful for testing purposes.spec.topology
- specifies the node-specific properties for the OpenSearch cluster.spec.terminationPolicy
field is Wipeout means that the database will be deleted without restrictions. It can also be “Halt”, “Delete” and “DoNotTerminate”. Learn More about these checkout Termination Policy .
Let’s deploy the above yaml by the following command:
$ kubectl apply -f os-cluster.yaml
elasticsearch.kubedb.com/os-cluster created
However, KubeDB also provides dedicated node support for other node roles like data_hot
, data_warm
, data_cold
, data_frozen
, transform
, coordinating
, data_content
and ml
for Topology clustering
.
Once these are handled correctly and the OpenSearch object is deployed, you will see that the following resources are created:
$ kubectl get all -n demo
NAME READY STATUS RESTARTS AGE
pod/os-cluster-data-0 1/1 Running 0 2m
pod/os-cluster-data-1 1/1 Running 0 2m
pod/os-cluster-ingest-0 1/1 Running 0 2m
pod/os-cluster-ingest-1 1/1 Running 0 2m
pod/os-cluster-master-0 1/1 Running 0 2m
pod/os-cluster-master-1 1/1 Running 0 2m
NAME TYPE CLUSTER-IP EXTERNAL-IP PORT(S) AGE
service/os-cluster ClusterIP 10.8.12.24 <none> 9200/TCP 2m
service/os-cluster-master ClusterIP None <none> 9300/TCP 2m
service/os-cluster-pods ClusterIP None <none> 9200/TCP 2m
NAME READY AGE
statefulset.apps/os-cluster-data 2/2 2m
statefulset.apps/os-cluster-ingest 2/2 2m
statefulset.apps/os-cluster-master 2/2 2m
NAME TYPE VERSION AGE
appbinding.appcatalog.appscode.com/os-cluster kubedb.com/elasticsearch 2.8.0 2m
NAME VERSION STATUS AGE
elasticsearch.kubedb.com/os-cluster opensearch-2.8.0 Ready 2m
We have successfully deployed OpenSearch cluster in GKE.
Deploy ElasticsearchDashboard
apiVersion: dashboard.kubedb.com/v1alpha1
kind: ElasticsearchDashboard
metadata:
name: os-cluster-dashboard
namespace: demo
spec:
enableSSL: true
databaseRef:
name: os-cluster
terminationPolicy: WipeOut
Note: OpenSearch Database and OpenSearch dashboard should have to be deployed in the same namespace. In this tutorial, we use
demo
namespace for both cases.
spec.enableSSL
specifies whether the HTTP layer is secured with certificates or not.spec.databaseRef.name
refers to the OpenSearch database name.spec.terminationPolicy
refers to the strategy to follow during dashboard deletion.Wipeout
means that the database will be deleted without restrictions. It can also beDoNotTerminate
which will cause a restriction to delete the dashboard. Learn More about these Termination Policy .
Let’s deploy the above yaml by the following command:
$ kubectl apply -f os-cluster-dashboard.yaml
elasticsearchdashboard.dashboard.kubedb.com/os-cluster-dashboard created
KubeDB will create the necessary resources to deploy the OpenSearch dashboard according to the above specification. Let’s wait until the dashboard to be ready to use,
$ watch kubectl get elasticsearchdashboard -n demo
NAME TYPE DATABASE STATUS AGE
os-cluster-dashboard dashboard.kubedb.com/v1alpha1 os-cluster Ready 2m50s
Here, OpenSearch Dashboard is in Ready
state.
Connect with OpenSearch Dashboard
We will use port forwarding
to connect with our OpenSearch database. Then we will use curl
to send HTTP
requests to check cluster health to verify that our OpenSearch database is working well.
Port-forward the Service
KubeDB will create few Services to connect with the database. Let’s check the Services by following command,
$ kubectl get service -n demo
NAME TYPE CLUSTER-IP EXTERNAL-IP PORT(S) AGE
os-cluster ClusterIP 10.8.12.24 <none> 9200/TCP 7m
os-cluster-dashboard ClusterIP 10.8.9.220 <none> 5601/TCP 3m23s
os-cluster-master ClusterIP None <none> 9300/TCP 7m
os-cluster-pods ClusterIP None <none> 9200/TCP 7m
Here, we are going to use os-cluster-dashboard
Service to connect with the database. Now, let’s port-forward the os-cluster
Service to the port 5601
to local machine:
$ kubectl port-forward -n demo service/os-cluster-dashboard 5601
Forwarding from 127.0.0.1:5601 -> 5601
Forwarding from [::1]:5601 -> 5601
Now, our OpenSearch cluster dashboard is accessible at https://localhost:5601
.
Export the Credentials
KubeDB also create some Secrets for the database. Let’s check which Secrets have been created by KubeDB for our os-cluster
.
$ kubectl get secret -n demo | grep os-cluster
os-cluster-admin-cert kubernetes.io/tls 3 9m
os-cluster-admin-cred kubernetes.io/basic-auth 2 9m
os-cluster-ca-cert kubernetes.io/tls 2 9m
os-cluster-client-cert kubernetes.io/tls 3 9m
os-cluster-config Opaque 3 9m
os-cluster-dashboard-ca-cert kubernetes.io/tls 2 5m43s
os-cluster-dashboard-config Opaque 2 5m43s
os-cluster-dashboard-server-cert kubernetes.io/tls 3 5m43s
os-cluster-http-cert kubernetes.io/tls 3 9m
os-cluster-kibanaro-cred kubernetes.io/basic-auth 2 9m
os-cluster-kibanaserver-cred kubernetes.io/basic-auth 2 9m
os-cluster-logstash-cred kubernetes.io/basic-auth 2 9m
os-cluster-readall-cred kubernetes.io/basic-auth 2 9m
os-cluster-snapshotrestore-cred kubernetes.io/basic-auth 2 9m
os-cluster-transport-cert kubernetes.io/tls 3 9m
Now, we can connect to the database with os-cluster-admin-cred
which contains the admin credentials to connect with the database.
Accessing Database Through Dashboard
To access the database through Dashboard, we have to get the credentials. We can do that by following command,
$ kubectl get secret -n demo os-cluster-admin-cred -o jsonpath='{.data.username}' | base64 -d
admin
$ kubectl get secret -n demo os-cluster-admin-cred -o jsonpath='{.data.password}' | base64 -d
RwEOgPwu.n3T~WWS
Now, let’s go to https://localhost:5601
from our browser and login by using those credentials.
After login successfully, we will see OpenSearch Dashboard UI. Now, We are going to Dev tools
for running some queries into our OpenSearch database.
Here, in Dev tools
we will use Console
section for running some queries. Let’s run GET /
query to check node informations.
GET /
Now, we are going to insert some sample data to our OpenSearch cluster index music/_doc/1
by using PUT
query.
PUT music/_doc/1
{
"Playlist": {
"Song": "Take Me Home Country Roads",
"Artist": "John Denver",
"Album": "Poems, Prayers & Promises"
}
}
Let’s check that sample data in the index music/_doc/1
by using GET
query.
GET music/_doc/1
Now, we are going to update sample data in the index music/_doc/1
by using POST
query.
POST music/_doc/1
{
"Playlist": {
"Song": "Take Me Home Country Roads",
"Artist": "John Denver",
"Album": "Poems, Prayers & Promises",
"Released": "April 6, 1971"
}
}
Let’s verify the index music/_doc/1
again to see whether the data is updated or not.
GET music/_doc/1
We have made an in depth tutorial on OpenSearch OpsRequests - Day 2 Lifecycle Management for OpenSearch Cluster Using KubeDB. You can have a look into the video below:
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More about OpenSearch in Kubernetes
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