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content/en/blog/_posts/2021-12-16-StatefulSet-PVC-Auto-Deletion.md
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| layout: blog | ||
| title: 'Kubernetes 1.23: StatefulSet PVC Auto-Deletion (alpha)' | ||
| date: 2021-12-16 | ||
| slug: kubernetes-1-23-statefulset-pvc-auto-deletion | ||
| --- | ||
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| **Author:** Matthew Cary (Google) | ||
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| Kubernetes v1.23 introduced a new, alpha-level policy for | ||
| [StatefulSets](docs/concepts/workloads/controllers/statefulset/) that controls the lifetime of | ||
| [PersistentVolumeClaims](docs/concepts/storage/persistent-volumes/) (PVCs) generated from the | ||
| StatefulSet spec template for cases when they should be deleted automatically when the StatefulSet | ||
| is deleted or pods in the StatefulSet are scaled down. | ||
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| ## What problem does this solve? | ||
| A StatefulSet spec can include Pod and PVC templates. When a replica is first created, the | ||
| Kubernetes control plane creates a PVC for that replica if one does not already exist. The behavior | ||
| before Kubernetes v1.23 was that the control plane never cleaned up the PVCs created for | ||
| StatefulSets - this was left up to the cluster administrator, or to some add-on automation that | ||
| you’d have to find, check suitability, and deploy. The common pattern for managing PVCs, either | ||
| manually or through tools such as Helm, is that the PVCs are tracked by the tool that manages them, | ||
| with explicit lifecycle. Workflows that use StatefulSets must determine on their own what PVCs are | ||
| created by a StatefulSet and what their lifecycle should be. | ||
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| Before this new feature, when a StatefulSet-managed replica disappears, either because the | ||
| StatefulSet is reducing its replica count, or because its StatefulSet is deleted, the PVC and its | ||
| backing volume remains and must be manually deleted. While this behavior is appropriate when the | ||
| data is critical, in many cases the persistent data in these PVCs is either temporary, or can be | ||
| reconstructed from another source. In those cases, PVCs and their backing volumes remaining after | ||
| their StatefulSet or replicas have been deleted are not necessary, incur cost, and require manual | ||
| cleanup. | ||
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| ## The new StatefulSet PVC retention policy | ||
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| If you enable the alpha feature, a StatefulSet spec includes a PersistentVolumeClaim retention | ||
| policy. This is used to control if and when PVCs created from a StatefulSet’s `volumeClaimTemplate` | ||
| are deleted. This first iteration of the retention policy contains two situations where PVCs may be | ||
| deleted. | ||
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| The first situation is when the StatefulSet resource is deleted (which implies that all replicas are | ||
| also deleted). This is controlled by the `whenDeleted` policy. The second situation, controlled by | ||
| `whenScaled` is when the StatefulSet is scaled down, which removes some but not all of the replicas | ||
| in a StatefulSet. In both cases the policy can either be `Retain`, where the corresponding PVCs are | ||
| not touched, or `Delete`, which means that PVCs are deleted. The deletion is done with a normal | ||
| [object deletion](/docs/concepts/architecture/garbage-collection/), so that, for example, all | ||
| retention policies for the underlying PV are respected. | ||
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| This policy forms a matrix with four cases. I’ll walk through and give an example for each one. | ||
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| * **`whenDeleted` and `whenScaled` are both `Retain`.** This matches the existing behavior for | ||
| StatefulSets, where no PVCs are deleted. This is also the default retention policy. It’s | ||
| appropriate to use when data on StatefulSet volumes may be irreplaceable and should only be | ||
| deleted manually. | ||
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| * **`whenDeleted` is `Delete` and `whenScaled` is `Retain`.** In this case, PVCs are deleted only when | ||
| the entire StatefulSet is deleted. If the StatefulSet is scaled down, PVCs are not touched, | ||
| meaning they are available to be reattached if a scale-up occurs with any data from the previous | ||
| replica. This might be used for a temporary StatefulSet, such as in a CI instance or ETL | ||
| pipeline, where the data on the StatefulSet is needed only during the lifetime of the | ||
| StatefulSet lifetime, but while the task is running the data is not easily reconstructible. Any | ||
| retained state is needed for any replicas that scale down and then up. | ||
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| * **`whenDeleted` and `whenScaled` are both `Delete`.** PVCs are deleted immediately when their | ||
| replica is no longer needed. Note this does not include when a Pod is deleted and a new version | ||
| rescheduled, for example when a node is drained and Pods need to migrate elsewhere. The PVC is | ||
| deleted only when the replica is no longer needed as signified by a scale-down or StatefulSet | ||
| deletion. This use case is for when data does not need to live beyond the life of its | ||
| replica. Perhaps the data is easily reconstructable and the cost savings of deleting unused PVCs | ||
| is more important than quick scale-up, or perhaps that when a new replica is created, any data | ||
| from a previous replica is not usable and must be reconstructed anyway. | ||
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| * **`whenDeleted` is `Retain` and `whenScaled` is `Delete`.** This is similar to the previous case, | ||
| when there is little benefit to keeping PVCs for fast reuse during scale-up. An example of a | ||
| situation where you might use this is an Elasticsearch cluster. Typically you would scale that | ||
| workload up and down to match demand, whilst ensuring a minimum number of replicas (for example: | ||
| 3). When scaling down, data is migrated away from removed replicas and there is no benefit to | ||
| retaining those PVCs. However, it can be useful to bring the entire Elasticsearch cluster down | ||
| temporarily for maintenance. If you need to take the Elasticsearch system offline, you can do | ||
| this by temporarily deleting the StatefulSet, and then bringing the Elasticsearch cluster back | ||
| by recreating the StatefulSet. The PVCs holding the Elasticsearch data will still exist and the | ||
| new replicas will automatically use them. | ||
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| Visit the | ||
| [documentation](docs/concepts/workloads/controllers/statefulset/#persistentvolumeclaim-policies) to | ||
| see all the details. | ||
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| ## What’s next? | ||
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| Enable the feature and try it out! Enable the `StatefulSetAutoDeletePVC` feature gate on a cluster, | ||
| then create a StatefulSet using the new policy. Test it out and tell us what you think! | ||
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| I'm very curious to see if this owner reference mechanism works well in practice. For example, we | ||
| realized there is no mechanism in Kubernetes for knowing who set a reference, so it’s possible that | ||
| the StatefulSet controller may fight with custom controllers that set their own | ||
| references. Fortunately, maintaining the existing retention behavior does not involve any new owner | ||
| references, so default behavior will be compatible. | ||
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| Please tag any issues you report with the label `sig/apps` and assign them to Matthew Cary | ||
| ([@mattcary](https://github.com/mattcary) at GitHub). | ||
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| Enjoy! | ||
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