Using the Barman Cloud Plugin
After installing the plugin in the same namespace as the CloudNativePG operator, enabling your PostgreSQL cluster to use the Barman Cloud Plugin involves just a few steps:
- Defining the object store containing your WAL archive and base backups, using your preferred provider
- Instructing the Postgres cluster to use the Barman Cloud Plugin
From that moment, you’ll be able to issue on-demand backups or define a backup schedule, as well as rely on the object store for recovery operations.
The rest of this page details each step, using MinIO as object store provider.
Defining the ObjectStore
An ObjectStore resource must be created for each object store used in your
PostgreSQL architecture. Here's an example configuration using MinIO:
apiVersion: barmancloud.cnpg.io/v1
kind: ObjectStore
metadata:
name: minio-store
spec:
configuration:
destinationPath: s3://backups/
endpointURL: http://minio:9000
s3Credentials:
accessKeyId:
name: minio
key: ACCESS_KEY_ID
secretAccessKey:
name: minio
key: ACCESS_SECRET_KEY
wal:
compression: gzip
The .spec.configuration schema follows the same format as the
in-tree barman-cloud support.
Refer to the CloudNativePG documentation
for additional details.
The serverName parameter in the ObjectStore resource is retained solely for
API compatibility with the in-tree barmanObjectStore and must always be left empty.
When needed, use the serverName plugin parameter in the Cluster configuration instead.
Configuring WAL Archiving
Once the ObjectStore is defined, you can configure your PostgreSQL cluster
to archive WALs by referencing the store in the .spec.plugins section:
apiVersion: postgresql.cnpg.io/v1
kind: Cluster
metadata:
name: cluster-example
spec:
instances: 3
imagePullPolicy: Always
plugins:
- name: barman-cloud.cloudnative-pg.io
isWALArchiver: true
parameters:
barmanObjectName: minio-store
storage:
size: 1Gi
This configuration enables both WAL archiving and data directory backups.
Performing a Base Backup
Once WAL archiving is enabled, the cluster is ready for backups. To issue an on-demand backup, use the following configuration with the plugin method:
apiVersion: postgresql.cnpg.io/v1
kind: Backup
metadata:
name: backup-example
spec:
cluster:
name: cluster-example
method: plugin
pluginConfiguration:
name: barman-cloud.cloudnative-pg.io
You can apply the same concept to the ScheduledBackup resource.
Restoring a Cluster
To restore a cluster from an object store, create a new Cluster resource that
references the store containing the backup. Below is an example configuration:
apiVersion: postgresql.cnpg.io/v1
kind: Cluster
metadata:
name: cluster-restore
spec:
instances: 3
imagePullPolicy: IfNotPresent
bootstrap:
recovery:
source: source
externalClusters:
- name: source
plugin:
name: barman-cloud.cloudnative-pg.io
parameters:
barmanObjectName: minio-store
serverName: cluster-example
storage:
size: 1Gi
The above configuration does not enable WAL archiving for the restored cluster.
To enable WAL archiving for the restored cluster, include the .spec.plugins
section alongside the externalClusters.plugin section, as shown below:
apiVersion: postgresql.cnpg.io/v1
kind: Cluster
metadata:
name: cluster-restore
spec:
instances: 3
imagePullPolicy: IfNotPresent
bootstrap:
recovery:
source: source
plugins:
- name: barman-cloud.cloudnative-pg.io
isWALArchiver: true
parameters:
# Backup Object Store (push, read-write)
barmanObjectName: minio-store-bis
externalClusters:
- name: source
plugin:
name: barman-cloud.cloudnative-pg.io
parameters:
# Recovery Object Store (pull, read-only)
barmanObjectName: minio-store
serverName: cluster-example
storage:
size: 1Gi
The same object store may be used for both transaction log archiving and restoring a cluster, or you can configure separate stores for these purposes.
Configuring Replica Clusters
You can set up a distributed topology by combining the previously defined
configurations with the .spec.replica section. Below is an example of how to
define a replica cluster:
apiVersion: postgresql.cnpg.io/v1
kind: Cluster
metadata:
name: cluster-dc-a
spec:
instances: 3
primaryUpdateStrategy: unsupervised
storage:
storageClass: csi-hostpath-sc
size: 1Gi
plugins:
- name: barman-cloud.cloudnative-pg.io
isWALArchiver: true
parameters:
barmanObjectName: minio-store-a
replica:
self: cluster-dc-a
primary: cluster-dc-a
source: cluster-dc-b
externalClusters:
- name: cluster-dc-a
plugin:
name: barman-cloud.cloudnative-pg.io
parameters:
barmanObjectName: minio-store-a
- name: cluster-dc-b
plugin:
name: barman-cloud.cloudnative-pg.io
parameters:
barmanObjectName: minio-store-b
Configuring the plugin instance sidecar
The Barman Cloud Plugin runs as a sidecar container next to each PostgreSQL instance pod. It manages backup, WAL archiving, and restore processes.
Configuration comes from multiple ObjectStore resources:
- The one referenced in the
.spec.pluginssection of theCluster. This is the object store used for WAL archiving and base backups. - The one referenced in the external cluster
used in the
.spec.replica.sourcesection of theCluster. This is used by the log-shipping designated primary to get the WAL files. - The one referenced in the
.spec.bootstrap.recovery.sourcesection of theCluster. Used by the initial recovery job to create the cluster from an existing backup.
You can fine-tune sidecar behavior in the .spec.instanceSidecarConfiguration
of your ObjectStore. These settings apply to all PostgreSQL instances that use
this object store. Any updates take effect at the next Cluster reconciliation,
and could generate a rollout of the Cluster.
apiVersion: barmancloud.cnpg.io/v1
kind: ObjectStore
metadata:
name: minio-store
spec:
configuration:
# [...]
instanceSidecarConfiguration:
retentionPolicyIntervalSeconds: 1800
resources:
requests:
memory: "XXX"
cpu: "YYY"
limits:
memory: "XXX"
cpu: "YYY"
If more than one ObjectStore applies, the instanceSidecarConfiguration of
the one set in .spec.plugins has priority.