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Chapter 2. Configuring external PostgreSQL databases
As an administrator, you can configure and use external PostgreSQL databases in Red Hat Developer Hub. You can use a PostgreSQL certificate file to configure an external PostgreSQL instance using the Operator or Helm Chart.
Developer Hub supports the configuration of external PostgreSQL databases. You can perform maintenance activities, such as backing up your data or configuring high availability (HA) for the external PostgreSQL databases.
By default, the Red Hat Developer Hub operator or Helm Chart creates a local PostgreSQL database. However, this configuration is not suitable for the production environments. For production deployments, disable the creation of local database and configure Developer Hub to connect to an external PostgreSQL instance instead.
2.1. Configuring an external PostgreSQL instance using the Operator
You can configure an external PostgreSQL instance using the Red Hat Developer Hub Operator. By default, the Operator creates and manages a local instance of PostgreSQL in the same namespace where you have deployed the RHDH instance. However, you can change this default setting to configure an external PostgreSQL database server, for example, Amazon Web Services (AWS) Relational Database Service (RDS) or Azure database.
Prerequisites
- You are using a supported version of PostgreSQL. For more information, see the Product life cycle page.
You have the following details:
-
db-host
: Denotes your PostgreSQL instance Domain Name System (DNS) or IP address -
db-port
: Denotes your PostgreSQL instance port number, such as5432
-
username
: Denotes the user name to connect to your PostgreSQL instance -
password
: Denotes the password to connect to your PostgreSQL instance
-
- You have installed the Red Hat Developer Hub Operator.
- Optional: You have a CA certificate, Transport Layer Security (TLS) private key, and TLS certificate so that you can secure your database connection by using the TLS protocol. For more information, refer to your PostgreSQL vendor documentation.
By default, Developer Hub uses a database for each plugin and automatically creates it if none is found. You might need the Create Database
privilege in addition to PSQL Database
privileges for configuring an external PostgreSQL instance.
Procedure
Optional: Create a certificate secret to configure your PostgreSQL instance with a TLS connection:
cat <<EOF | oc -n my-rhdh-project create -f - apiVersion: v1 kind: Secret metadata: name: my-rhdh-database-certificates-secrets 1 type: Opaque stringData: postgres-ca.pem: |- -----BEGIN CERTIFICATE----- <ca-certificate-key> 2 postgres-key.key: |- -----BEGIN CERTIFICATE----- <tls-private-key> 3 postgres-crt.pem: |- -----BEGIN CERTIFICATE----- <tls-certificate-key> 4 # ... EOF
Create a credential secret to connect with the PostgreSQL instance:
cat <<EOF | oc -n my-rhdh-project create -f - apiVersion: v1 kind: Secret metadata: name: my-rhdh-database-secrets 1 type: Opaque stringData: 2 POSTGRES_PASSWORD: <password> POSTGRES_PORT: "<db-port>" POSTGRES_USER: <username> POSTGRES_HOST: <db-host> PGSSLMODE: <ssl-mode> # for TLS connection 3 NODE_EXTRA_CA_CERTS: <abs-path-to-pem-file> # for TLS connection, e.g. /opt/app-root/src/postgres-crt.pem 4 EOF
- 1
- Provide the name of the credential secret.
- 2
- Provide credential data to connect with your PostgreSQL instance.
- 3
- Optional: Provide the value based on the required Secure Sockets Layer (SSL) mode.
- 4
- Optional: Provide the value only if you need a TLS connection for your PostgreSQL instance.
Create a
Backstage
custom resource (CR):cat <<EOF | oc -n my-rhdh-project create -f - apiVersion: rhdh.redhat.com/v1alpha3 kind: Backstage metadata: name: <backstage-instance-name> spec: database: enableLocalDb: false 1 application: extraFiles: mountPath: <path> # e g /opt/app-root/src secrets: - name: my-rhdh-database-certificates-secrets 2 key: postgres-crt.pem, postgres-ca.pem, postgres-key.key # key name as in my-rhdh-database-certificates-secrets Secret extraEnvs: secrets: - name: my-rhdh-database-secrets 3 # ...
NoteThe environment variables listed in the
Backstage
CR work with the Operator default configuration. If you have changed the Operator default configuration, you must reconfigure theBackstage
CR accordingly.-
Apply the
Backstage
CR to the namespace where you have deployed the Developer Hub instance.
2.2. Configuring an external PostgreSQL instance using the Helm Chart
You can configure an external PostgreSQL instance by using the Helm Chart. By default, the Helm Chart creates and manages a local instance of PostgreSQL in the same namespace where you have deployed the RHDH instance. However, you can change this default setting to configure an external PostgreSQL database server, for example, Amazon Web Services (AWS) Relational Database Service (RDS) or Azure database.
Prerequisites
- You are using a supported version of PostgreSQL. For more information, see the Product life cycle page.
You have the following details:
-
db-host
: Denotes your PostgreSQL instance Domain Name System (DNS) or IP address -
db-port
: Denotes your PostgreSQL instance port number, such as5432
-
username
: Denotes the user name to connect to your PostgreSQL instance -
password
: Denotes the password to connect to your PostgreSQL instance
-
- You have installed the RHDH application by using the Helm Chart.
- Optional: You have a CA certificate, Transport Layer Security (TLS) private key, and TLS certificate so that you can secure your database connection by using the TLS protocol. For more information, refer to your PostgreSQL vendor documentation.
By default, Developer Hub uses a database for each plugin and automatically creates it if none is found. You might need the Create Database
privilege in addition to PSQL Database
privileges for configuring an external PostgreSQL instance.
Procedure
Optional: Create a certificate secret to configure your PostgreSQL instance with a TLS connection:
cat <<EOF | oc -n <your-namespace> create -f - apiVersion: v1 kind: Secret metadata: name: {my-product-database-certificates-secrets} 1 type: Opaque stringData: postgres-ca.pem: |- -----BEGIN CERTIFICATE----- <ca-certificate-key> 2 postgres-key.key: |- -----BEGIN CERTIFICATE----- <tls-private-key> 3 postgres-crt.pem: |- -----BEGIN CERTIFICATE----- <tls-certificate-key> 4 # ... EOF
Create a credential secret to connect with the PostgreSQL instance:
cat <<EOF | oc -n <your-namespace> create -f - apiVersion: v1 kind: Secret metadata: name: {my-product-database-secrets} 1 type: Opaque stringData: 2 POSTGRES_PASSWORD: <password> POSTGRES_PORT: "<db-port>" POSTGRES_USER: <username> POSTGRES_HOST: <db-host> PGSSLMODE: <ssl-mode> # for TLS connection 3 NODE_EXTRA_CA_CERTS: <abs-path-to-pem-file> # for TLS connection, e.g. /opt/app-root/src/postgres-crt.pem 4 EOF
- 1
- Provide the name of the credential secret.
- 2
- Provide credential data to connect with your PostgreSQL instance.
- 3
- Optional: Provide the value based on the required Secure Sockets Layer (SSL) mode.
- 4
- Optional: Provide the value only if you need a TLS connection for your PostgreSQL instance.
Configure your PostgreSQL instance in the Helm configuration file named
values.yaml
:# ... upstream: postgresql: enabled: false # disable PostgreSQL instance creation 1 auth: existingSecret: {my-product-database-secrets} # inject credentials secret to Backstage 2 backstage: appConfig: backend: database: connection: # configure Backstage DB connection parameters host: ${POSTGRES_HOST} port: ${POSTGRES_PORT} user: ${POSTGRES_USER} password: ${POSTGRES_PASSWORD} ssl: rejectUnauthorized: true, ca: $file: /opt/app-root/src/postgres-ca.pem key: $file: /opt/app-root/src/postgres-key.key cert: $file: /opt/app-root/src/postgres-crt.pem extraEnvVarsSecrets: - {my-product-database-secrets} # inject credentials secret to Backstage 3 extraEnvVars: - name: BACKEND_SECRET valueFrom: secretKeyRef: key: backend-secret name: '{{ include "janus-idp.backend-secret-name" $ }}' extraVolumeMounts: - mountPath: /opt/app-root/src/dynamic-plugins-root name: dynamic-plugins-root - mountPath: /opt/app-root/src/postgres-crt.pem name: postgres-crt # inject TLS certificate to Backstage cont. 4 subPath: postgres-crt.pem - mountPath: /opt/app-root/src/postgres-ca.pem name: postgres-ca # inject CA certificate to Backstage cont. 5 subPath: postgres-ca.pem - mountPath: /opt/app-root/src/postgres-key.key name: postgres-key # inject TLS private key to Backstage cont. 6 subPath: postgres-key.key extraVolumes: - ephemeral: volumeClaimTemplate: spec: accessModes: - ReadWriteOnce resources: requests: storage: 1Gi name: dynamic-plugins-root - configMap: defaultMode: 420 name: dynamic-plugins optional: true name: dynamic-plugins - name: dynamic-plugins-npmrc secret: defaultMode: 420 optional: true secretName: dynamic-plugins-npmrc - name: postgres-crt secret: secretName: {my-product-database-certificates-secrets} 7 # ...
- 1
- Set the value of the
upstream.postgresql.enabled
parameter tofalse
to disable creating local PostgreSQL instances. - 2
- Provide the name of the credential secret.
- 3
- Provide the name of the credential secret.
- 4
- Optional: Provide the name of the TLS certificate only for a TLS connection.
- 5
- Optional: Provide the name of the CA certificate only for a TLS connection.
- 6
- Optional: Provide the name of the TLS private key only if your TLS connection requires a private key.
- 7
- Provide the name of the certificate secret if you have configured a TLS connection.
Apply the configuration changes in your Helm configuration file named
values.yaml
:helm upgrade -n <your-namespace> <your-deploy-name> openshift-helm-charts/redhat-developer-hub -f values.yaml --version 1.4.0
2.3. Migrating local databases to an external database server using the Operator
By default, Red Hat Developer Hub hosts the data for each plugin in a PostgreSQL database. When you fetch the list of databases, you might see multiple databases based on the number of plugins configured in Developer Hub. You can migrate the data from an RHDH instance hosted on a local PostgreSQL server to an external PostgreSQL service, such as AWS RDS, Azure database, or Crunchy database. To migrate the data from each RHDH instance, you can use PostgreSQL utilities, such as pg_dump
with psql
or pgAdmin
.
The following procedure uses a database copy script to do a quick migration.
Prerequisites
Procedure
Configure port forwarding for the local PostgreSQL database pod by running the following command on a terminal:
oc port-forward -n <your-namespace> <pgsql-pod-name> <forward-to-port>:<forward-from-port>
Where:
-
The
<pgsql-pod-name>
variable denotes the name of a PostgreSQL pod with the formatbackstage-psql-<deployment-name>-<_index>
. -
The
<forward-to-port>
variable denotes the port of your choice to forward PostgreSQL data to. The
<forward-from-port>
variable denotes the local PostgreSQL instance port, such as5432
.Example: Configuring port forwarding
oc port-forward -n developer-hub backstage-psql-developer-hub-0 15432:5432
-
The
Make a copy of the following
db_copy.sh
script and edit the details based on your configuration:#!/bin/bash to_host=<db-service-host> 1 to_port=5432 2 to_user=postgres 3 from_host=127.0.0.1 4 from_port=15432 5 from_user=postgres 6 allDB=("backstage_plugin_app" "backstage_plugin_auth" "backstage_plugin_catalog" "backstage_plugin_permission" "backstage_plugin_scaffolder" "backstage_plugin_search") 7 for db in ${!allDB[@]}; do db=${allDB[$db]} echo Copying database: $db PGPASSWORD=$TO_PSW psql -h $to_host -p $to_port -U $to_user -c "create database $db;" pg_dump -h $from_host -p $from_port -U $from_user -d $db | PGPASSWORD=$TO_PSW psql -h $to_host -p $to_port -U $to_user -d $db done
- 1
- The destination host name, for example,
<db-instance-name>.rds.amazonaws.com
. - 2
- The destination port, such as
5432
. - 3
- The destination server username, for example,
postgres
. - 4
- The source host name, such as
127.0.0.1
. - 5
- The source port number, such as the
<forward-to-port>
variable. - 6
- The source server username, for example,
postgres
. - 7
- The name of databases to import in double quotes separated by spaces, for example,
("backstage_plugin_app" "backstage_plugin_auth" "backstage_plugin_catalog" "backstage_plugin_permission" "backstage_plugin_scaffolder" "backstage_plugin_search")
.
Create a destination database for copying the data:
/bin/bash TO_PSW=<destination-db-password> /path/to/db_copy.sh 1
- 1
- The
<destination-db-password>
variable denotes the password to connect to the destination database.
NoteYou can stop port forwarding when the copying of the data is complete. For more information about handling large databases and using the compression tools, see the Handling Large Databases section on the PostgreSQL website.
-
Reconfigure your
Backstage
custom resource (CR). For more information, see Configuring an external PostgreSQL instance using the Operator. Check that the following code is present at the end of your
Backstage
CR after reconfiguration:# ... spec: database: enableLocalDb: false application: # ... extraFiles: secrets: - name: {my-product-database-certificates-secrets} key: postgres-crt.pem # key name as in {my-product-database-certificates-secrets} Secret extraEnvs: secrets: - name: {my-product-database-secrets} # ...
NoteReconfiguring the
Backstage
CR deletes the correspondingStatefulSet
andPod
objects, but does not delete thePersistenceVolumeClaim
object. Use the following command to delete the localPersistenceVolumeClaim
object:oc -n developer-hub delete pvc <local-psql-pvc-name>
where, the
<local-psql-pvc-name>
variable is in thedata-<psql-pod-name>
format.- Apply the configuration changes.
Verification
Verify that your RHDH instance is running with the migrated data and does not contain the local PostgreSQL database by running the following command:
oc get pods -n <your-namespace>
Check the output for the following details:
-
The
backstage-developer-hub-xxx
pod is in running state. The
backstage-psql-developer-hub-0
pod is not available.You can also verify these details using the Topology view in the OpenShift Container Platform web console.
-
The