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バージョン: 3.11

Set Up ScalarDB Cluster on Kubernetes by Using a Helm Chart

This document provides instructions on how to set up a ScalarDB Cluster by using a Helm Chart on a Kubernetes cluster, specifically designed for a test environment.

Prerequisites

  • Kubernetes cluster (such as MiniKube or Kind)
  • kubectl
  • Helm
警告

You need to have a license key (trial license or commercial license) to use ScalarDB Cluster. If you don't have a license key, please contact us.

What you will create

You will be deploying the following components on a Kubernetes cluster as depicted below:

+---------------------------------------------------------------------------------------------------------------------------------------+
| [Kubernetes Cluster] |
| |
| [Pod] [Pod] [Pod] |
| |
| +-------+ |
| +---> | Envoy | ---+ |
| | +-------+ | |
| | | |
| +---------+ | +-------+ | +--------------------+ |
| | Service | ---+---> | Envoy | ---+---------> | Service | ---+ |
| | (Envoy) | | +-------+ | | (ScalarDB Cluster) | | |
| +---------+ | | +--------------------+ | +-----------------------+ |
| | +-------+ | | +---> | ScalarDB Cluster Node | ---+ |
| +---> | Envoy | ---+ | | +-----------------------+ | |
| +-------+ | | | |
| | | +-----------------------+ | +------------+ |
| +---+---> | ScalarDB Cluster Node | ---+---> | PostgreSQL | |
| | | +-----------------------+ | +------------+ |
| | | | |
| | | +-----------------------+ | |
| | +---> | ScalarDB Cluster Node | ---+ |
| | +-----------------------+ |
| +----------------------------+ | |
| | Service | ---+ |
| | (ScalarDB Cluster GraphQL) | |
| +----------------------------+ |
| |
+---------------------------------------------------------------------------------------------------------------------------------------+

Step 1. Start a PostgreSQL container

ScalarDB Cluster must use some kind of database system as its backend database. The database that is used in this document is PostgreSQL.

You can deploy PostgreSQL on the Kubernetes cluster as follows:

  1. Add the Bitnami helm repository:

    helm repo add bitnami https://charts.bitnami.com/bitnami
  2. Deploy PostgreSQL:

    helm install postgresql-scalardb-cluster bitnami/postgresql \
    --set auth.postgresPassword=postgres \
    --set primary.persistence.enabled=false
  3. Check if the PostgreSQL container is running:

    kubectl get pod

    Command execution result:

    NAME                            READY   STATUS    RESTARTS   AGE
    postgresql-scalardb-cluster-0 1/1 Running 0 17s

Step 2. Deploy ScalarDB Cluster on the Kubernetes cluster by using a Helm Chart

  1. Add the Scalar helm repository:

    helm repo add scalar-labs https://scalar-labs.github.io/helm-charts
  2. Set your license key and certificate as environment variables. If you don't have a license key, please contact us. For details about the value for <CERT_PEM_FOR_YOUR_LICENSE_KEY>, see How to Configure a Product License Key.

    SCALAR_DB_CLUSTER_LICENSE_KEY='<YOUR_LICENSE_KEY>'
    SCALAR_DB_CLUSTER_LICENSE_CHECK_CERT_PEM='<CERT_PEM_FOR_YOUR_LICENSE_KEY>'
  3. Create a custom values file for ScalarDB Cluster (scalardb-cluster-custom-values.yaml):

    cat << 'EOF' > scalardb-cluster-custom-values.yaml
    envoy:
    enabled: true
    service:
    type: "LoadBalancer"

    scalardbCluster:

    image:
    repository: "ghcr.io/scalar-labs/scalardb-cluster-node-byol-premium"

    scalardbClusterNodeProperties: |
    # ScalarDB Cluster configurations
    scalar.db.cluster.membership.type=KUBERNETES
    scalar.db.cluster.membership.kubernetes.endpoint.namespace_name=${env:SCALAR_DB_CLUSTER_MEMBERSHIP_KUBERNETES_ENDPOINT_NAMESPACE_NAME}
    scalar.db.cluster.membership.kubernetes.endpoint.name=${env:SCALAR_DB_CLUSTER_MEMBERSHIP_KUBERNETES_ENDPOINT_NAME}

    # Storage configurations
    scalar.db.storage=jdbc
    scalar.db.contact_points=jdbc:postgresql://postgresql-scalardb-cluster.default.svc.cluster.local:5432/postgres
    scalar.db.username=${env:SCALAR_DB_CLUSTER_POSTGRES_USERNAME}
    scalar.db.password=${env:SCALAR_DB_CLUSTER_POSTGRES_PASSWORD}

    # For ScalarDB Cluster GraphQL tutorial.
    scalar.db.graphql.enabled=true
    scalar.db.graphql.namespaces=emoney

    # For ScalarDB Cluster SQL tutorial.
    scalar.db.sql.enabled=true

    ### License key configurations
    scalar.db.cluster.node.licensing.license_key=${env:SCALAR_DB_CLUSTER_LICENSE_KEY}
    scalar.db.cluster.node.licensing.license_check_cert_pem=${env:SCALAR_DB_CLUSTER_LICENSE_CHECK_CERT_PEM}
    graphql:
    enabled: true
    service:
    type: "LoadBalancer"

    secretName: "scalardb-credentials-secret"
    EOF

    For the tutorials, the service type for ScalarDB Cluster GraphQL and Envoy is set to LoadBalancer.

  4. Create a secret resource named scalardb-credentials-secret that includes credentials and license keys.

    kubectl create secret generic scalardb-credentials-secret \
    --from-literal=SCALAR_DB_CLUSTER_POSTGRES_USERNAME=postgres \
    --from-literal=SCALAR_DB_CLUSTER_POSTGRES_PASSWORD=postgres \
    --from-literal=SCALAR_DB_CLUSTER_LICENSE_KEY="${SCALAR_DB_CLUSTER_LICENSE_KEY}" \
    --from-file=SCALAR_DB_CLUSTER_LICENSE_CHECK_CERT_PEM=<(echo ${SCALAR_DB_CLUSTER_LICENSE_CHECK_CERT_PEM} | sed 's/\\n/\
    /g') \
    -n default
  5. Set the chart version of ScalarDB Cluster.

    SCALAR_DB_CLUSTER_VERSION=3.12.4
    SCALAR_DB_CLUSTER_CHART_VERSION=$(helm search repo scalar-labs/scalardb-cluster -l | grep -F "${SCALAR_DB_CLUSTER_VERSION}" | awk '{print $2}' | sort --version-sort -r | head -n 1)
  6. Deploy ScalarDB Cluster.

    helm install scalardb-cluster scalar-labs/scalardb-cluster -f scalardb-cluster-custom-values.yaml --version ${SCALAR_DB_CLUSTER_CHART_VERSION} -n default
  7. Check if the ScalarDB Cluster pods are deployed:

    kubectl get pod

    Command execution result:

    NAME                                      READY   STATUS    RESTARTS   AGE
    postgresql-scalardb-cluster-0 1/1 Running 0 84s
    scalardb-cluster-envoy-59899dc588-477tg 1/1 Running 0 35s
    scalardb-cluster-envoy-59899dc588-dpvhx 1/1 Running 0 35s
    scalardb-cluster-envoy-59899dc588-lv9hx 1/1 Running 0 35s
    scalardb-cluster-node-866c756c79-5v2tk 1/1 Running 0 35s
    scalardb-cluster-node-866c756c79-9zhq5 1/1 Running 0 35s
    scalardb-cluster-node-866c756c79-t6v86 1/1 Running 0 35s

    If the ScalarDB Cluster Node Pods and the Envoy Pods are deployed properly, the STATUS for each pod will be Running.

  8. Check if the service resources of the ScalarDB Cluster are deployed:

    kubectl get svc

    Command execution result:

    NAME                             TYPE           CLUSTER-IP       EXTERNAL-IP   PORT(S)           AGE
    kubernetes ClusterIP 10.96.0.1 <none> 443/TCP 260d
    postgresql-scalardb-cluster ClusterIP 10.110.97.40 <none> 5432/TCP 86s
    postgresql-scalardb-cluster-hl ClusterIP None <none> 5432/TCP 86s
    scalardb-cluster-envoy LoadBalancer 10.105.121.51 localhost 60053:30641/TCP 49s
    scalardb-cluster-envoy-metrics ClusterIP 10.111.131.189 <none> 9001/TCP 49s
    scalardb-cluster-graphql LoadBalancer 10.105.74.214 localhost 8080:30514/TCP 49s
    scalardb-cluster-headless ClusterIP None <none> 60053/TCP 49s
    scalardb-cluster-metrics ClusterIP 10.110.132.22 <none> 9080/TCP 49s

    If the service resources of ScalarDB Cluster and Envoy are deployed properly, the private IP addresses in the CLUSTER-IP column will be displayed. (Note: scalardb-cluster-headless has no CLUSTER-IP address.) You can also see EXTERNAL-IP addresses assigned to the service resource of ScalarDB Cluster GraphQL (scalardb-cluster-graphql) and the service resource of Envoy (scalardb-cluster-envoy) as TYPE is set to LoadBalancer.

    In addition, the access method to the LoadBalancer service from your environment depends on each Kubernetes distribution. For example:

    For details on how to access the LoadBalancer service, see the official documents of the Kubernetes distribution that you use.

Delete all resources

You can delete all resources created in this document by running the following command:

helm uninstall scalardb-cluster postgresql-scalardb-cluster

Next steps

To get familiar with other use cases for ScalarDB Cluster, try the following tutorials: