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Continuous Archiving to MinIO
MinIO is an open source object storage server compatible with Amazon S3 APIs. WAL-G is used to continuously archive PostgreSQL WAL files to MinIO. Please refer to continuous archiving in KubeDB to learn more.
Before You Begin
At first, you need to have a Kubernetes cluster, and the kubectl command-line tool must be configured to communicate with your cluster. If you do not already have a cluster, you can create one by using kind.
Now, install KubeDB cli on your workstation and KubeDB operator in your cluster following the steps here.
Note: YAML files used in this tutorial are stored in docs/examples/postgres folder in GitHub repository kubedb/docs.
To keep things isolated, this tutorial uses a separate namespace called demo throughout this tutorial.
$ kubectl create ns demo
namespace/demo created
Create PostgreSQL with Continuous Archiving
For archiving, a running instance of MinIO server is required. If you don’t have one, see here to get a MinIO server configured, and running in your cluster. We will use this storage backend’s information to execute connect, archive, and restore operations. Below is a Postgres object created with Continuous Archiving support that backs up WAL files to a MinIO server.
apiVersion: kubedb.com/v1alpha2
kind: Postgres
metadata:
name: wal-postgres-minio
namespace: demo
spec:
version: "10.2-v5"
replicas: 2
storage:
storageClassName: "standard"
accessModes:
- ReadWriteOnce
resources:
requests:
storage: 1Gi
archiver:
storage:
storageSecretName: s3-secret
s3:
bucket: kubedb
endpoint: https://minio-service.demo.svc:443/
Here,
spec.archiver.storagespecifies storage information that will be used byWAL-Gstorage.storageSecretNamepoints to the Secret containing the credentials for cloud storage destination.storage.s3points to s3 api based storage configuration.storage.s3.bucketpoints to the bucket name used to store continuous archiving data.storage.s3.endpointpoints to the storage location where the bucket can be found.
Archiver Storage Secret
Storage Secret should contain credentials that will be used to access storage destination.
Storage Secret for WAL-G is needed with the following 2 keys:
| Key | Description |
|---|---|
AWS_ACCESS_KEY_ID | Required. MinIO access key ID |
AWS_SECRET_ACCESS_KEY | Required. MinIO secret access key |
CA_CERT_DATA | Optional. MinIO certificate data |
for MinIO server secured with custom CA,
necessary certificates have to provided in the storage secret as CA_CERT_DATA to establish secure connection.
$ echo -n '<your-aws-access-key-id-here>' > AWS_ACCESS_KEY_ID
$ echo -n '<your-aws-secret-access-key-here>' > AWS_SECRET_ACCESS_KEY
$ kubectl create secret -n demo generic s3-secret \
--from-file=./AWS_ACCESS_KEY_ID \
--from-file=./AWS_SECRET_ACCESS_KEY
secret "s3-secret" created
$ kubectl get secret -n demo s3-secret -o yaml
apiVersion: v1
data:
AWS_ACCESS_KEY_ID: PHlvdXItYXdzLWFjY2Vzcy1rZXktaWQtaGVyZT4=
AWS_SECRET_ACCESS_KEY: PHlvdXItYXdzLXNlY3JldC1hY2Nlc3Mta2V5LWhlcmU+
kind: Secret
metadata:
creationTimestamp: 2018-02-06T09:12:37Z
name: s3-secret
namespace: demo
resourceVersion: "59225"
selfLink: /api/v1/namespaces/demo/secrets/s3-secret
uid: dfbe6b06-0b1d-11e8-9fb9-42010a800064
type: Opaque
To create secret using custom CA:
$ echo -n '<your-aws-access-key-id-here>' > AWS_ACCESS_KEY_ID
$ echo -n '<your-aws-secret-access-key-here>' > AWS_SECRET_ACCESS_KEY
$ kubectl create secret -n demo generic s3-secret \
--from-file=./AWS_ACCESS_KEY_ID \
--from-file=./AWS_SECRET_ACCESS_KEY
--from-file=./CA_CERT_DATA
secret "s3-secret" created
$ kubectl get secret -n demo s3-secret -o yaml
apiVersion: v1
data:
AWS_ACCESS_KEY_ID: M0o4Q0FJVjVWU1VWRkUzTTlKWlM=
AWS_SECRET_ACCESS_KEY: eHlFZ3I0aDVIRXJxYmdReG5RV055Y1RJRTVvK2x3MnZPQ1BPM2Z1Zw==
CA_CERT_DATA: 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
kind: Secret
metadata:
creationTimestamp: 2019-04-24T12:08:47Z
name: s3-secret
namespace: storage
resourceVersion: "27413"
selfLink: /api/v1/namespaces/storage/secrets/s3-secret
uid: b6a58c8e-6689-11e9-9a61-0800275cdf2b
type: Opaque
Archiver Storage Backend
To configure s3 backend, following parameters are available:
| Parameter | Description |
|---|---|
spec.archiver.storage.s3.endpoint | Required. The URL to your MinIO server |
spec.archiver.storage.s3.bucket | Required. Name of your Bucket |
spec.archiver.storage.s3.prefix | Optional. Path prefix into bucket where WAL files will be stored |
Now create this Postgres object with continuous archiving support.
$ kubectl create -f https://github.com/kubedb/docs/raw/v2020.10.27-rc.1/docs/examples/postgres/backup/wal-postgres-minio.yaml
postgres.kubedb.com/wal-postgres created
When database is ready, WAL-G takes a base backup and uploads it to the cloud storage defined by storage backend.
Archived data is stored in a folder called {bucket}/{prefix}/kubedb/{namespace}/{postgres-name}/archive/.
Termination Policy
If termination policy of this wal-postgres is set to WipeOut or, If Spec.WipeOut of dormant database is set to true, then the data in cloud backend will be deleted.
The data will be intact in other scenarios.
Cleaning up
To cleanup the Kubernetes resources created by this tutorial, run:
kubectl patch -n demo pg/wal-postgres -p '{"spec":{"terminationPolicy":"WipeOut"}}' --type="merge"
kubectl delete -n demo pg/wal-postgres
kubectl delete ns demo
Next Steps
- Learn about initializing PostgreSQL from WAL files stored in backup servers.