- Prerequisites
- Take your application offline
- Backup
- Retain persistent volumes
- Install new PostgreSQL
- Restore
- Reinstate your application
Upgrading PostgreSQL for Auto DevOps
Auto DevOps provides an in-cluster PostgreSQL database for your application.
The version of the chart used to provision PostgreSQL:
- Is 0.7.1 in GitLab 12.8 and earlier.
- Can be set to from 0.7.1 to 8.2.1 in GitLab 12.9 and later.
GitLab encourages users to migrate their database to the newer PostgreSQL chart.
This guide provides instructions on how to migrate your PostgreSQL database, which involves:
- Taking a database dump of your data.
- Installing a new PostgreSQL database using the newer version 8.2.1 of the chart and removing the old PostgreSQL installation.
- Restoring the database dump into the new PostgreSQL.
Prerequisites
- Install
kubectl
. - Ensure that you can access your Kubernetes cluster using
kubectl
. This varies based on Kubernetes providers. - Prepare for downtime. The steps below include taking the application offline so that the in-cluster database does not get modified after the database dump is created.
- Ensure you have not set
POSTGRES_ENABLED
tofalse
, as this setting deletes any existing channel 1 database. For more information, see Detected an existing PostgreSQL database.
Take your application offline
If required, take your application offline to prevent the database from being modified after the database dump is created.
-
Get the Kubernetes namespace for the environment. It typically looks like
<project-name>-<project-id>-<environment>
. In our example, the namespace is calledminimal-ruby-app-4349298-production
.$ kubectl get ns NAME STATUS AGE minimal-ruby-app-4349298-production Active 7d14h
-
For ease of use, export the namespace name:
export APP_NAMESPACE=minimal-ruby-app-4349298-production
-
Get the deployment name for your application with the following command. In our example, the deployment name is
production
.$ kubectl get deployment --namespace "$APP_NAMESPACE" NAME READY UP-TO-DATE AVAILABLE AGE production 2/2 2 2 7d21h production-postgres 1/1 1 1 7d21h
-
To prevent the database from being modified, set replicas to 0 for the deployment with the following command. We use the deployment name from the previous step (
deployments/<DEPLOYMENT_NAME>
).$ kubectl scale --replicas=0 deployments/production --namespace "$APP_NAMESPACE" deployment.extensions/production scaled
-
You must also set replicas to zero for workers if you have any.
Backup
-
Get the service name for PostgreSQL. The name of the service should end with
-postgres
. In our example the service name isproduction-postgres
.$ kubectl get svc --namespace "$APP_NAMESPACE" NAME TYPE CLUSTER-IP EXTERNAL-IP PORT(S) AGE production-auto-deploy ClusterIP 10.30.13.90 <none> 5000/TCP 7d14h production-postgres ClusterIP 10.30.4.57 <none> 5432/TCP 7d14h
-
Get the pod name for PostgreSQL with the following command. In our example, the pod name is
production-postgres-5db86568d7-qxlxv
.$ kubectl get pod --namespace "$APP_NAMESPACE" -l app=production-postgres NAME READY STATUS RESTARTS AGE production-postgres-5db86568d7-qxlxv 1/1 Running 0 7d14h
-
Connect to the pod with:
kubectl exec -it production-postgres-5db86568d7-qxlxv --namespace "$APP_NAMESPACE" -- bash
-
Once, connected, create a dump file with the following command.
-
SERVICE_NAME
is the service name obtained in a previous step. -
USERNAME
is the username you have configured for PostgreSQL. The default isuser
. -
DATABASE_NAME
is usually the environment name. - When prompted for the database password, the default is
testing-password
.
## Format is: # pg_dump -h SERVICE_NAME -U USERNAME DATABASE_NAME > /tmp/backup.sql pg_dump -h production-postgres -U user production > /tmp/backup.sql
-
-
Once the backup dump is complete, exit the Kubernetes exec process with
Control-D
orexit
. -
Download the dump file with the following command:
kubectl cp --namespace "$APP_NAMESPACE" production-postgres-5db86568d7-qxlxv:/tmp/backup.sql backup.sql
Retain persistent volumes
By default the persistent volumes
used to store the underlying data for PostgreSQL is marked as Delete
when the pods and pod claims that use the volume is deleted.
This is significant as, when you opt into the newer 8.2.1 PostgreSQL, the older 0.7.1 PostgreSQL is deleted causing the persistent volumes to be deleted as well.
You can verify this by using the following command:
$ kubectl get pv
NAME CAPACITY ACCESS MODES RECLAIM POLICY STATUS CLAIM STORAGECLASS REASON AGE
pvc-0da80c08-5239-11ea-9c8d-42010a8e0096 8Gi RWO Delete Bound minimal-ruby-app-4349298-staging/staging-postgres standard 7d22h
pvc-9085e3d3-5239-11ea-9c8d-42010a8e0096 8Gi RWO Delete Bound minimal-ruby-app-4349298-production/production-postgres standard 7d22h
To retain the persistent volume, even when the older 0.7.1 PostgreSQL is
deleted, we can change the retention policy to Retain
. In this example, we find
the persistent volume names by looking at the claims names. As we are
interested in keeping the volumes for the staging and production of the
minimal-ruby-app-4349298
application, the volume names here are
pvc-0da80c08-5239-11ea-9c8d-42010a8e0096
and pvc-9085e3d3-5239-11ea-9c8d-42010a8e0096
:
$ kubectl patch pv pvc-0da80c08-5239-11ea-9c8d-42010a8e0096 -p '{"spec":{"persistentVolumeReclaimPolicy":"Retain"}}'
persistentvolume/pvc-0da80c08-5239-11ea-9c8d-42010a8e0096 patched
$ kubectl patch pv pvc-9085e3d3-5239-11ea-9c8d-42010a8e0096 -p '{"spec":{"persistentVolumeReclaimPolicy":"Retain"}}'
persistentvolume/pvc-9085e3d3-5239-11ea-9c8d-42010a8e0096 patched
$ kubectl get pv
NAME CAPACITY ACCESS MODES RECLAIM POLICY STATUS CLAIM STORAGECLASS REASON AGE
pvc-0da80c08-5239-11ea-9c8d-42010a8e0096 8Gi RWO Retain Bound minimal-ruby-app-4349298-staging/staging-postgres standard 7d22h
pvc-9085e3d3-5239-11ea-9c8d-42010a8e0096 8Gi RWO Retain Bound minimal-ruby-app-4349298-production/production-postgres standard 7d22h
Install new PostgreSQL
AUTO_DEVOPS_POSTGRES_CHANNEL
, AUTO_DEVOPS_POSTGRES_DELETE_V1
and
POSTGRES_VERSION
variables to specific environments, for example, staging
.- Set
AUTO_DEVOPS_POSTGRES_CHANNEL
to2
. This opts into using the newer 8.2.1-based PostgreSQL, and removes the older 0.7.1-based PostgreSQL. - Set
AUTO_DEVOPS_POSTGRES_DELETE_V1
to a non-empty value. This flag is a safeguard to prevent accidental deletion of databases. - If you have a
POSTGRES_VERSION
set, make sure it is set to9.6.16
or higher. This is the minimum PostgreSQL version supported by Auto DevOps. See also the list of tags available. - Set
PRODUCTION_REPLICAS
to0
. For other environments, useREPLICAS
with an environment scope. - If you have set the
DB_INITIALIZE
orDB_MIGRATE
variables, either remove the variables, or rename the variables temporarily toXDB_INITIALIZE
or theXDB_MIGRATE
to effectively disable them. - Run a new CI pipeline for the branch. In this case, we run a new CI
pipeline for
main
. - After the pipeline is successful, your application is upgraded with the new PostgreSQL installed. Zero replicas exist at this time, so no traffic is served for your application (to prevent new data from coming in).
Restore
-
Get the pod name for the new PostgreSQL, in our example, the pod name is
production-postgresql-0
:$ kubectl get pod --namespace "$APP_NAMESPACE" -l app=postgresql NAME READY STATUS RESTARTS AGE production-postgresql-0 1/1 Running 0 19m
-
Copy the dump file from the backup steps to the pod:
kubectl cp --namespace "$APP_NAMESPACE" backup.sql production-postgresql-0:/tmp/backup.sql
-
Connect to the pod:
kubectl exec -it production-postgresql-0 --namespace "$APP_NAMESPACE" -- bash
-
Once connected to the pod, run the following command to restore the database.
- When asked for the database password, the default is
testing-password
. -
USERNAME
is the username you have configured for PostgreSQL. The default isuser
. -
DATABASE_NAME
is usually the environment name.
## Format is: # psql -U USERNAME -d DATABASE_NAME < /tmp/backup.sql psql -U user -d production < /tmp/backup.sql
- When asked for the database password, the default is
-
You can now check that your data restored correctly after the restore is complete. You can perform spot checks of your data by using the
psql
.
Reinstate your application
Once you are satisfied the database has been restored, run the following steps to reinstate your application:
- Restore the
DB_INITIALIZE
andDB_MIGRATE
variables, if previously removed or disabled. - Restore the
PRODUCTION_REPLICAS
orREPLICAS
variable to its original value. - Run a new CI pipeline for the branch. In this case, we run a new CI
pipeline for
main
. After the pipeline is successful, your application should be serving traffic as before.