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Version: 3.1

Action approvals using kubectl

Prerequisites

  • Autopilot 1.3.0 and above

Overview

The general workflow of using an AutopilotRule with approvals enabled consists of the following:

  1. Create AutopilotRule with approvals enabled
  2. Approve or Decline the action by using the ActionApproval CRD

The general workflow expands to the following steps. The Example section later will cover a detailed working example.

  1. Create an AutopilotRule with enforcement: approvalRequired in the spec
  2. Wait until the objects meet the conditions specified in the rule. For example, if the rule is to expand a volume when its usage is greater than 50%, wait for this condition.
  3. Once the conditions are met, list of the action approvals in the namespace. Identity the item in the list for the concerned object.
  4. Update the approvalState field in the ActionApproval object spec to approved or declined.
  5. Based on whether you approved or declined in the previous step, the action will either proceed or get declined respectively.

Example

The example below demonstrates an AutopilotRule that expands Postgres PVCs whose usage increases more than 50%. The rule will require approvals before any action to expand the PVC can take place.

Create specs

Application and PVC specs

Create the storage and application spec files:

  1. Create namespace.yaml and place the following content inside it:

    apiVersion: v1
    kind: Namespace
    metadata:
      name: pg1
      labels:
        type: db

  2. Create postgres-sc.yaml and place the following content inside it:

    ##### Portworx storage class
    apiVersion: storage.k8s.io/v1
    kind: StorageClass
    metadata:
      name: postgres-pgbench-sc
    provisioner: kubernetes.io/portworx-volume
    parameters:
      repl: "2"
    allowVolumeExpansion: true

  3. Create postgres-vol.yaml and place the following content inside it:

    kind: PersistentVolumeClaim
    apiVersion: v1
    metadata:
      name: pgbench-data
      labels:
        app: postgres
    spec:
      storageClassName: postgres-pgbench-sc
      accessModes:
        - ReadWriteOnce
      resources:
        requests:
          storage: 10Gi
    ---
    kind: PersistentVolumeClaim
    apiVersion: v1
    metadata:
      name: pgbench-state
    spec:
      storageClassName: postgres-pgbench-sc
      accessModes:
        - ReadWriteOnce
      resources:
        requests:
          storage: 1Gi

  4. Createpostgres-app.yaml and place the following content inside it. Note the following:

    • The application in this example is a PostgreSQL database with a pgbench sidecar.

    • The SIZE environment variable in this spec instructs pgbench to write 8GiB of data to the volume. Since the PVC is only 10GiB in size, Autopilot will resize the PVC when needed.

      apiVersion: apps/v1
      kind: Deployment
      metadata:
        name: pgbench
        labels:
          app: pgbench
      spec:
        selector:
          matchLabels:
            app: pgbench
        strategy:
          rollingUpdate:
            maxSurge: 1
            maxUnavailable: 1
          type: RollingUpdate
        replicas: 1
        template:
          metadata:
            labels:
              app: pgbench
          spec:
            schedulerName: stork
            containers:
              - image: postgres:9.5
                name: postgres
                ports:
                - containerPort: 5432
                env:
                - name: POSTGRES_USER
                  value: pgbench
                - name: POSTGRES_PASSWORD
                  value: superpostgres
                - name: PGBENCH_PASSWORD
                  value: superpostgres
                - name: PGDATA
                  value: /var/lib/postgresql/data/pgdata
                volumeMounts:
                - mountPath: /var/lib/postgresql/data
                  name: pgbenchdb
              - name: pgbench
                image: portworx/torpedo-pgbench:latest
                imagePullPolicy: "Always"
                env:
                  - name: PG_HOST
                    value: 127.0.0.1
                  - name: PG_USER
                    value: pgbench
                  - name: SIZE
                    value: "8"
                volumeMounts:
                - mountPath: /var/lib/postgresql/data
                  name: pgbenchdb
                - mountPath: /pgbench
                  name: pgbenchstate
            volumes:
            - name: pgbenchdb
              persistentVolumeClaim:
                claimName: pgbench-data
            - name: pgbenchstate
              persistentVolumeClaim:
                claimName: pgbench-state

AutopilotRule spec

Once you've created your storage and application specs, you can create an AutopilotRule that controls them.

Create a YAML spec for the autopilot rule named autopilotrule-approval-example.yaml and place the following content inside it:

apiVersion: autopilot.libopenstorage.org/v1alpha1
kind: AutopilotRule
metadata:
  name: volume-resize
spec:
  #### enforcement indicates that actions from this rule need approval
  enforcement: approvalRequired
  ##### selector filters the objects affected by this rule given labels
  selector:
    matchLabels:
      app: postgres
  ##### namespaceSelector selects the namespaces of the objects affected by this rule
  namespaceSelector:
    matchLabels:
      type: db
  ##### conditions are the symptoms to evaluate. All conditions are AND'ed
  conditions:
    # volume usage should be less than 50%
    expressions:
    - key: "100 * (px_volume_usage_bytes / px_volume_capacity_bytes)"
      operator: Gt
      values:
        - "50"
  ##### action to perform when condition is true
  actions:
  - name: openstorage.io.action.volume/resize
    params:
      # resize volume by scalepercentage of current size
      scalepercentage: "100"
      # volume capacity should not exceed 400GiB
      maxsize: "400Gi"

Apply specs

Once you've designed your specs, deploy them:

kubectl apply -f autopilotrule-approval-example.yaml
kubectl apply -f namespace.yaml
kubectl apply -f postgres-sc.yaml
kubectl apply -f postgres-vol.yaml -n pg1
kubectl apply -f postgres-app.yaml -n pg1

Approve or decline the action

Wait until conditions are triggered

After you apply the specs above, Postgres will start populating data to the PVC. Once Autopilot detects that the volume usage is greater than 50%, it will create an ActionApproval object in the pg1 namespace.

List the Kubernetes events for this rule and wait until your rule is in the ActionAwaitingApproval state.

kubectl get events --field-selector involvedObject.kind=AutopilotRule,involvedObject.name=volume-resize -n default -w
LAST SEEN   TYPE     REASON       OBJECT                        MESSAGE
10m         Normal   Transition   autopilotrule/volume-resize   rule: volume-resize:pvc-3906b3ed-5a3c-4c69-a737-9ddd748cfe8e transition from Initializing => Normal
67s         Normal   Transition   autopilotrule/volume-resize   rule: volume-resize:pvc-3906b3ed-5a3c-4c69-a737-9ddd748cfe8e transition from Normal => Triggered
34s         Normal   Transition   autopilotrule/volume-resize   rule: volume-resize:pvc-3906b3ed-5a3c-4c69-a737-9ddd748cfe8e transition from Triggered => ActionAwaitingApproval

If you only see Initializing => Normal as the event, this means postgres is still writing data to your volume and usage has not crossed 50%.

Approve the action

  1. List the actionapproval for this object:

    kubectl get actionapproval -n pg1
    NAME                                                     APPROVAL-STATE
    volume-resize-pvc-3906b3ed-5a3c-4c69-a737-9ddd748cfe8e   pending

  2. Patch and approve the actionapproval:

    kubectl patch actionapproval -n pg1 volume-resize-pvc-3906b3ed-5a3c-4c69-a737-9ddd748cfe8e --type=merge -p '{"spec":{"approvalState":"approved"}}' 
    actionapproval.autopilot.libopenstorage.org/volume-resize-pvc-3906b3ed-5a3c-4c69-a737-9ddd748cfe8e patched

  3. Once approved, you will see that the actions will progress. List the events again:

    kubectl get events --field-selector involvedObject.kind=AutopilotRule,involvedObject.name=volume-resize -n default -w
    LAST SEEN   TYPE     REASON       OBJECT                        MESSAGE
    19m         Normal   Transition   autopilotrule/volume-resize   rule: volume-resize:pvc-3906b3ed-5a3c-4c69-a737-9ddd748cfe8e transition from Initializing => Normal
    10m         Normal   Transition   autopilotrule/volume-resize   rule: volume-resize:pvc-3906b3ed-5a3c-4c69-a737-9ddd748cfe8e transition from Normal => Triggered
    9m47s       Normal   Transition   autopilotrule/volume-resize   rule: volume-resize:pvc-3906b3ed-5a3c-4c69-a737-9ddd748cfe8e transition from Triggered => ActionAwaitingApproval
    8m52s       Normal   Transition   autopilotrule/volume-resize   rule: volume-resize:pvc-3906b3ed-5a3c-4c69-a737-9ddd748cfe8e transition from ActionAwaitingApproval => ActiveActionsPending
    7m51s       Normal   Transition   autopilotrule/volume-resize   rule: volume-resize:pvc-3906b3ed-5a3c-4c69-a737-9ddd748cfe8e transition from ActiveActionsPending => ActiveActionsInProgress
    7m20s       Normal   Transition   autopilotrule/volume-resize   rule: volume-resize:pvc-3906b3ed-5a3c-4c69-a737-9ddd748cfe8e transition from ActiveActionsInProgress => ActiveActionsTaken

Decline the action

To decline, you should use declined instead of approved in the patch command.

Actions for the object will continue to stay in declined state until the actionapproval object is present and has approval state as declined. When you want Autopilot to resume monitoring this object, delete the actionapproval object.

For e.g for the above case,

kubectl delete actionapproval -n pg1 volume-resize-pvc-3906b3ed-5a3c-4c69-a737-9ddd748cfe8e
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