229 lines
10 KiB
Markdown
229 lines
10 KiB
Markdown
## Create ConfigMap
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ConfigMap is used to store the configuration of the operator
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```bash
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$ kubectl create -f manifests/configmap.yaml
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```
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## Deploying the operator
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First you need to install the service account definition in your Minikube cluster.
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```bash
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$ kubectl create -f manifests/operator-service-account-rbac.yaml
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```
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Next deploy the postgres-operator from the docker image Zalando is using:
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```bash
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$ kubectl create -f manifests/postgres-operator.yaml
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```
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If you prefer to build the image yourself follow up down below.
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## Check if CustomResourceDefinition has been registered
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```bash
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$ kubectl get crd
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NAME KIND
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postgresqls.acid.zalan.do CustomResourceDefinition.v1beta1.apiextensions.k8s.io
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```
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# How to configure PostgreSQL operator
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## Select the namespace to deploy to
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The operator can run in a namespace other than `default`. For example, to use
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the `test` namespace, run the following before deploying the operator's
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manifests:
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```bash
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$ kubectl create namespace test
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$ kubectl config set-context $(kubectl config current-context) --namespace=test
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```
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All subsequent `kubectl` commands will work with the `test` namespace. The
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operator will run in this namespace and look up needed resources - such as its
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config map - there. Please note that the namespace for service accounts and cluster role bindings in [operator RBAC rules](manifests/operator-service-account-rbac.yaml) needs to be adjusted to the non-default value.
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## Specify the namespace to watch
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Watching a namespace for an operator means tracking requests to change
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Postgresql clusters in the namespace such as "increase the number of Postgresql
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replicas to 5" and reacting to the requests, in this example by actually
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scaling up.
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By default, the operator watches the namespace it is deployed to. You can
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change this by altering the `WATCHED_NAMESPACE` env var in the operator
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deployment manifest or the `watched_namespace` field in the operator configmap.
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In the case both are set, the env var takes the precedence. To make the
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operator listen to all namespaces, explicitly set the field/env var to "`*`".
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Note that for an operator to manage pods in the watched namespace, the
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operator's service account (as specified in the operator deployment manifest)
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has to have appropriate privileges to access the watched namespace. The
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operator may not be able to function in the case it watches all namespaces but
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lacks access rights to any of them (except Kubernetes system namespaces like
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`kube-system`). The reason is that for multiple namespaces operations such as
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'list pods' execute at the cluster scope and fail at the first violation of
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access rights.
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The watched namespace also needs to have a (possibly different) service account
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in the case database pods need to talk to the Kubernetes API (e.g. when using
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Kubernetes-native configuration of Patroni). The operator checks that the
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`pod_service_account_name` exists in the target namespace, and, if not, deploys
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there the `pod_service_account_definition` from the operator
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[`Config`](pkg/util/config/config.go) with the default value of:
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```yaml
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apiVersion: v1
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kind: ServiceAccount
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metadata:
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name: operator
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```
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In this definition, the operator overwrites the account's name to match
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`pod_service_account_name` and the `default` namespace to match the target
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namespace. The operator performs **no** further syncing of this account.
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## Role-based access control for the operator
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The `manifests/operator-service-account-rbac.yaml` defines cluster roles and bindings needed
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for the operator to function under access control restrictions. To deploy the
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operator with this RBAC policy use:
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```bash
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$ kubectl create -f manifests/configmap.yaml
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$ kubectl create -f manifests/operator-service-account-rbac.yaml
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$ kubectl create -f manifests/postgres-operator.yaml
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$ kubectl create -f manifests/minimal-postgres-manifest.yaml
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```
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Note that the service account in `operator-rbac.yaml` is named
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`zalando-postgres-operator`. You may have to change the `service_account_name`
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in the operator configmap and `serviceAccountName` in the postgres-operator
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deployment appropriately.
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This is done intentionally, as to avoid breaking those setups that already work
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with the default `operator` account. In the future the operator should ideally
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be run under the `zalando-postgres-operator` service account.
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The service account defined in `operator-rbac.yaml` acquires some privileges
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not really used by the operator (i.e. we only need list and watch on
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configmaps), this is also done intentionally to avoid breaking things if
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someone decides to configure the same service account in the operator's
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configmap to run postgres clusters.
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### Use taints and tolerations for dedicated PostgreSQL nodes
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To ensure Postgres pods are running on nodes without any other application
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pods, you can use
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[taints and tolerations](https://kubernetes.io/docs/concepts/configuration/taint-and-toleration/)
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and configure the required toleration in the operator ConfigMap.
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As an example you can set following node taint:
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```bash
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$ kubectl taint nodes <nodeName> postgres=:NoSchedule
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```
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And configure the toleration for the PostgreSQL pods by adding following line
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to the ConfigMap:
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```yaml
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apiVersion: v1
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kind: ConfigMap
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metadata:
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name: postgres-operator
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data:
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toleration: "key:postgres,operator:Exists,effect:NoSchedule"
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...
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```
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## Custom Pod Environment Variables
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It is possible to configure a config map which is used by the Postgres pods as
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an additional provider for environment variables.
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One use case is to customize the Spilo image and configure it with environment
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variables. The config map with the additional settings is configured in the
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operator's main config map:
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**postgres-operator ConfigMap**
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```yaml
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apiVersion: v1
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kind: ConfigMap
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metadata:
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name: postgres-operator
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data:
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# referencing config map with custom settings
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pod_environment_configmap: postgres-pod-config
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...
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```
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**referenced ConfigMap `postgres-pod-config`**
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```yaml
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apiVersion: v1
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kind: ConfigMap
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metadata:
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name: postgres-pod-config
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namespace: default
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data:
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MY_CUSTOM_VAR: value
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```
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This ConfigMap is then added as a source of environment variables to the
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Postgres StatefulSet/pods.
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## Limiting the number of instances in clusters with `min_instances` and `max_instances`
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As a preventive measure, one can restrict the minimum and the maximum number of
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instances permitted by each Postgres cluster managed by the operator. If either
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`min_instances` or `max_instances` is set to a non-zero value, the operator may
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adjust the number of instances specified in the cluster manifest to match
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either the min or the max boundary. For instance, of a cluster manifest has 1
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instance and the min_instances is set to 3, the cluster will be created with 3
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instances. By default, both parameters are set to -1.
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## Load balancers
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For any Postgresql/Spilo cluster, the operator creates two separate k8s
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services: one for the master pod and one for replica pods. To expose these
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services to an outer network, one can attach load balancers to them by setting
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`enableMasterLoadBalancer` and/or `enableReplicaLoadBalancer` to `true` in the
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cluster manifest. In the case any of these variables are omitted from the
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manifest, the operator configmap's settings `enable_master_load_balancer` and
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`enable_replica_load_balancer` apply. Note that the operator settings affect
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all Postgresql services running in all namespaces watched by the operator.
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To limit the range of IP adresses that can reach a load balancer, specify desired ranges in the `allowedSourceRanges` field (applies to both master and replica LBs). To prevent exposing LBs to the entire Internet, this field is set at cluster creation time to `127.0.0.1/32` unless overwritten explicitly. If you want to revoke all IP ranges from an existing cluster, please set the `allowedSourceRanges` field to `127.0.0.1/32` or to the empty sequence `[]`. Setting the field to `null` or omitting entirely may lead to k8s removing this field from the manifest due to [the k8s handling of null fields](https://kubernetes.io/docs/concepts/overview/object-management-kubectl/declarative-config/#how-apply-calculates-differences-and-merges-changes). Then the resultant manifest will not have the necessary change, and the operator will respectively do noting with the existing source ranges.
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## Running periodic 'autorepair' scans of Kubernetes objects
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The Postgres operator periodically scans all Kubernetes objects belonging to
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each cluster and repairs all discrepancies between them and the definitions
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generated from the current cluster manifest. There are two types of scans: a
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`sync scan`, running every `resync_period` seconds for every cluster, and the
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`repair scan`, coming every `repair_period` only for those clusters that didn't
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report success as a result of the last operation applied to them.
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## Postgres roles supported by the operator
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The operator is capable of maintaining roles of multiple kinds within a Postgres database cluster:
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1. **System roles** are roles necessary for the proper work of Postgres itself such as a replication role or the initial superuser role. The operator delegates creating such roles to Patroni and only establishes relevant secrets.
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2. **Infrastructure roles** are roles for processes originating from external systems, e.g. monitoring robots. The operator creates such roles in all PG clusters it manages assuming k8s secrets with the relevant credentials exist beforehand.
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3. **Per-cluster robot users** are also roles for processes originating from external systems but defined for an individual Postgres cluster in its manifest. A typical example is a role for connections from an application that uses the database.
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4. **Human users** originate from the Teams API that returns list of the team members given a team id. Operator differentiates between (a) product teams that own a particular Postgres cluster and are granted admin rights to maintain it, and (b) Postgres superuser teams that get the superuser access to all PG databases running in a k8s cluster for the purposes of maintaining and troubleshooting.
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## Understanding rolling update of Spilo pods
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The operator logs reasons for a rolling update with the `info` level and a diff between the old and new StatefulSet specs with the `debug` level. To benefit from numerous escape characters in the latter log entry, view it in CLI with `echo -e`. Note that the resultant message will contain some noise because the `PodTemplate` used by the operator is yet to be updated with the default values used internally in Kubernetes.
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