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A Kubernetes plugin for easily implementing volume provisioners

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PaV: Pods-as-Volumes

PaV, short for Pods-as-Volumes, is a Kubernetes plugin that simplifies the implementation of volume provisioners. It enables you to specify all logic underlying the lifecycle and behavior of volumes as pod templates, which are then instantiated as needed to create, delete, and expose volumes to client pods.

PaV can be used to integrate storage systems into Kubernetes and to create storage middleware components (see the Google Cloud Storage and transparent encryption middleware examples). It may be seen as a simpler-to-use alternative to the Container Storage Interface (CSI).

For more information on PaV's applicability and design, please see the paper Pods-as-Volumes: Effortlessly Integrating Storage Systems and Middleware into Kubernetes, in Seventh International Workshop on Container Technologies and Container Clouds (WoC '21).

Table of contents

Installation

To install PaV onto a Kubernetes cluster, run:

kubectl create -f https://raw.githubusercontent.com/albertofaria/pav/v0.1.1/deployment.yaml

It can take a few seconds for PaV's components to start running, during which time the creation of PavProvisioner objects will fail with a "connection refused" error. You can wait for PaV to become ready by running kubectl -n=pav rollout status deployment/controller-agent.

To uninstall PaV from a Kubernetes cluster, run:

kubectl delete crd pavprovisioners.pav.albertofaria.github.io
kubectl delete --ignore-not-found -f https://raw.githubusercontent.com/albertofaria/pav/v0.1.1/deployment.yaml

The first command will cause the deletion of all existing PavProvisioner objects and block until they are fully removed. Only then may the second command be run safely.

Creating provisioners

This section describes how PaV can be used to implement new volume provisioners.

This documentation is a work in progress. For more details, please refer to the paper Pods-as-Volumes: Effortlessly Integrating Storage Systems and Middleware into Kubernetes, in Seventh International Workshop on Container Technologies and Container Clouds (WoC '21).

PavProvisioner objects

PaV provides a custom resource named PavProvisioner. Each object of this resource implements a new volume provisioner, and defines the logic to create and delete volumes, as well as to make those volumes available to client pods. This logic is specified as templates of pod definitions, which are instantiated automatically by PaV when needed. These provisioners can then be used just like built-in Kubernetes provisioners. See Using provisioners for more information.

PavProvisioner objects are cluster-wide, i.e., do not belong to any namespace. Their names must be DNS labels (just like namespace names): contain only lowercase alphanumeric characters or -, start and end with alphanumeric characters, and be at most 63 characters long. Their definitions must follow this general schema, most fields being optional:

apiVersion: pav.albertofaria.github.io/v1alpha1
kind: PavProvisioner
metadata: ...
spec:
  provisioningModes: ...
  volumeValidation:
    volumeModes: ...
    accessModes: ...
    minCapacity: ...
    maxCapacity: ...
    podTemplate: ...
  volumeCreation:
    handle: ...
    capacity: ...
    podTemplate: ...
  volumeDeletion:
    podTemplate: ...
  volumeStaging:
    podTemplate: ...
  volumeUnstaging:
    podTemplate: ...

The following is a description of the fields that may be specified under spec. Note that all fields but provisioningModes can be parameterized for each particular volume using Jinja templates; see Jinja templating below for more information.

  • provisioningModes, list of string, mandatory. The provisioning modes supported by the provisioner. Valid elements are Dynamic and Static.

  • volumeValidation, object, optional. Accepts the following fields:

    • volumeModes, list of string, optional. The volume modes of the volumes that the provisioner can provision. Valid elements are Filesystem and Block. Default is [Filesystem].

    • accessModes, list of string, optional. The access modes that volumes provisioned by the provisioner support. Valid elements are ReadWriteOnce, ReadOnlyMany, and ReadWriteMany. Default is all three.

    • minCapacity, capacity, optional. The minimum capacity that volumes provisioned by the provisioner may have. For dynamic (static) provisioning, this corresponds to the minimum capacity that users may specify in pvc.spec.resources.limits.storage (pv.spec.capacity.storage). Default is to have no minimum capacity requirement.

    • maxCapacity, capacity, optional. The maximum capacity that volumes provisioned by the provisioner may have. For dynamic (static) provisioning, this corresponds to the maximum capacity that users may specify in pvc.spec.resources.requests.storage (pv.spec.capacity.storage). Default is to have no maximum capacity requirement.

    • podTemplate, PodTemplateSpec, optional. The definition of the volume validation pod, which will be instantiated and run to completion to validate the requested configuration of a volume that is being created as part of dynamic provisioning. This can be useful if the other fields under volumeValidation are not expressive enough to validate what you want to validate.

  • volumeCreation, object, optional. May only be specified if provisioningModes contains Dynamic. Accepts the following fields:

    • handle, string, optional. The volume's handle. Must be something that is valid as the value of PersistentVolume.spec.csi.volumeHandle. If not specified, then a value exported by the volume creation pod in file /pav/handle is used. If the pod also doesn't export it, it is set to pvc-{uid_of_the_pvc_that_triggered_provisioning}.

    • capacity, capacity, optional. The volume's capacity. If not specified, the volume creation pod must export this value in file /pav/capacity.

    • podTemplate, PodTemplateSpec, optional. The definition of the volume creation pod, which will be instantiated and run to completion to satisfy each request to create a volume, as part of dynamic provisioning. This field may be omitted if no action needs to be taken for the volume to be created.

  • volumeDeletion, object, optional. May only be specified if provisioningModes contains Dynamic. Accepts the following fields:

    • podTemplate, PodTemplateSpec, optional. The definition of the volume deletion pod, which will be instantiated and run to completion to satisfy each request to delete a dynamically provisioned volume. If this fails, manual intervention will be necessary to fully delete the volume and its respective PersistentVolume and PersistentVolumeClaim objects. This field may be omitted if no action needs to be taken for the volume to be deleted.
  • volumeStaging, object, mandatory. Accepts the following fields:

    • podTemplate, PodTemplateSpec, mandatory. The definition of the volume staging pod, which will be instantiated when a volume must be made available on a given node. It may terminate after making the volume available or continue running if necessary (more details below).
  • volumeUnstaging, object, optional. Accepts the following fields:

    • podTemplate, PodTemplateSpec, optional. The definition of the volume unstaging pod, which will be instantiated and run to completion to satisfy each request to unstage a volume. If this fails, manual intervention will be necessary to fully unstage the volume. This field may be omitted if no action needs to be taken for the volume to be unstaged.

Volume lifecycle

PaV supports both dynamic and static provisioning:

  • Dynamic provisioning occurs when a user creates a PersistentVolumeClaim that references a StorageClass whose provisioner field is set to the name of a PavProvisioner;

  • Static provisioning occurs when a user directly creates a PersistentVolume with field spec.csi.driver set to the name of a PavProvisioner.

Volume validation, creation, and deletion

When the dynamic provisioning of a volume is triggered (through the creation of a PersistentVolumeClaim), PaV begins by validating the requested properties of the volume, comparing those with what was specified under the spec.volumeValidation field of the appropriate PavProvisioner. In addition, if a volume validation pod was specified in spec.volumeValidation.podTemplate, then it is instantiated and PaV waits until it terminates. If it terminates in failure, the requested volume configuration is considered to be invalid and provisioning of the volume as a whole fails.

Otherwise, if volume validation concludes successfully, PaV initiates volume creation. It instantiates the volume creation pod specified in spec.volumeCreation.podTemplate (if there is one) and waits until it terminates. If it terminates in failure, volume provisioning fails. Otherwise, the volume is assumed to have been created and volume provisioning succeeds, the PersistentVolumeClaim becoming bound to a a new PersistentVolume object representing the volume.

Kubernetes continually retries volume provisioning while the PersistentVolumeClaim exists, and the above process of volume validation and creation will thus be repeated if it fails.

Conversely, when deletion of the PersistentVolumeClaim is requested, PaV performs volume deletion, instantiating the volume deletion pod specified in spec.volumeDeletion.podTemplate (if there is one) and waiting until it terminates. If it terminates successfully, the volume is assumed to have been deleted and removal of the corresponding PersistentVolumeClaim and PersistentVolume proceeds. However, if the volume deletion pod fails, the volume will become stuck in a deleting state and manual intervention will be necessary to fully delete the volume and its respective PersistentVolume and PersistentVolumeClaim objects.

Additionally, if the volume creation pod terminates in failure, PaV subsequently runs the volume deletion pod (if any) to ensure that any resources allocated or changes made by the former are reverted.

Note that this workflow of volume validation, creation, and deletion is only performed for dynamically-provisioned volumes. The management of resources underlying statically-provisioned volumes is of the responsibility of the user that creates the corresponding PersistentVolume object.

Volume staging and unstaging

Whenever a pod that uses a PersistentVolumeClaim corresponding to a PaV volume is scheduled to run, PaV performs volume staging, which is the process of making that volume available to the client pod in the node that it will run on. This occurs both for dynamically- and statically-provisioned volumes. To accomplish this, PaV instantiates the volume staging pod specified in spec.volumeStaging.podTemplate and schedules it to the same node as the client pod. This staging pod may either run to completion or create a file at /pav/ready and continue running if necessary. In either case, it must make the volume available at /pav/volume as a directory (if the volume is a file system volume) or block special file (if it is a block volume). If the staging pod terminates in failure, volume staging as a whole fails and the pod that requested access to the volume does not run (Kubernetes may decide to retry volume staging in this case).

We call this process "staging" instead of the more common "mounting" to avoid ambiguity with file system mounting, which does not occur when staging block volumes.

When the client pod using the volume terminates, PaV performs volume unstaging, stopping execution of the volume staging pod (if it is still running) and then instantiating the volume unstaging pod if it was specified in spec.volumeUnstaging.podTemplate (scheduling it to the same node as the client pod and the staging pod) and waiting until it terminates. If it terminates successfully, the effects of volume staging are assumed to have been fully reverted and termination of the client pod proceeds. However, if the volume unstaging pod fails, the volume will become stuck in an unstaging state and manual intervention will be necessary to fully unstage the volume and allow the client pod that requested access to it to fully terminate.

Additionally, if the volume staging pod terminates in failure, PaV subsequently runs the volume unstaging pod (if any) on the same node to ensure that any resources allocated or changes made by the former are reverted.

Jinja templating

In a PavProvisioner object, all string fields under spec (no matter how nested but with the exception of provisioningModes) are evaluated as Jinja 3.0 templates. Expressions in those templates must evaluate to strings or numeric values, and the templates as a whole evaluate to a string. (To include a literal {{, {%, or {# in a string field, use Jinja escaping, e.g., {{ '{{' }}.)

If a template sets the yaml variable to true (such as by including the statement {% set yaml = true %}), then the final string resulting from the template's evaluation is parsed as YAML, and the field holding the template takes on the resulting value. Note that template evaluation is not recursive: if the resulting value has string fields, they are not evaluated as templates. When using this feature, applying Jinja's |tojson filter to expressions may be useful to ensure that they mix predictably with surrounding YAML. Note that JSON generated by this filter never includes newline characters.

PaV also makes a |tobash filter available, which escapes a string or numeric value so that it doesn't contain newlines and is interpreted as a single token by Bash or compatible shells. It encodes newline characters using ANSI-C quoting.

A get_pvc(name, namespace) function is also provided, which looks up the PersistentVolumeClaim object with the given name and namespace.

Contiguous whitespace from the beginning of a line to the start of a statement block will be stripped, as will a trailing newline immediately after the block, and thus lines consisting entirely of a single statement block (possibly prefixed by any amount of whitespace) will completely disappear from the result of evaluating the template.

Evaluation context

Fields volumeValidation, volumeCreation, volumeDeletion, volumeStaging, and volumeUnstaging are evaluated as a whole whenever volumes need to be validated, created, deleted, staged, or unstaged. Jinja templates (recursively) under these fields are evaluated with a given context, i.e., set of variables that they can access. These contexts are described here.

Field volumeValidation (and subfields) is evaluated every time (1) a volume is being dynamically provisioned or (2) a statically provisioned volume is being staged, and with the following context variables:

Volume validation for statically-provisioned volumes is not yet implemented.

  • requestedVolumeMode (string): the mode (i.e., Filesystem or Block) that was requested for the volume (specified in pvc.spec.volumeMode for dynamic provisioning, and in pv.spec.volumeMode for static provisioning);

  • requestedAccessModes (list of string): the access modes that were requested to be supported by the volume (specified in pvc.spec.accessModes for dynamic provisioning, and in pv.spec.accessModes for static provisioning);

  • requestedMinCapacity (integer): the volume's requested minimum capacity, in bytes (specified in pvc.spec.resources.requests.storage for dynamic provisioning, and in pv.spec.capacity.storage for static provisioning);

  • requestedMaxCapacity (integer or null): the volume's requested maximum capacity, in bytes (specified in pvc.spec.resources.limits.storage for dynamic provisioning (defaulting to null), and in pv.spec.capacity.storage for static provisioning);

  • params (object mapping strings to strings): the parameters specified in sc.parameters (for dynamic provisioning) or in pv.spec.csi.volumeAttributes (for static provisioning);

  • handle (string, only present for static provisioning): alias for pv.spec.csi.volumeHandle;

  • sc (StorageClass, only present for dynamic provisioning): the StorageClass object of the PersistentVolumeClaim that triggered the provisioning (identified by pvc.spec.storageClassName), as returned by the Kubernetes API server at the time provisioning was triggered;

  • pvc (PersistentVolumeClaim, only present for dynamic provisioning): the PersistentVolumeClaim object that triggered the provisioning, as returned by the Kubernetes API server at the time the template was being evaluated;

  • pv (PersistentVolume, only present for static provisioning): the PersistentVolume object of the volume in question, as returned by the Kubernetes API server at the time the template was being evaluated.

Fields volumeCreation and volumeDeletion (and subfields) are evaluated every time a volume is respectively being created or deleted (dynamic provisioning only), and with the following context variables:

  • (The context for volumeValidation. Note that sc and pvc are guaranteed to be present here, and pv and handle to be absent.)

  • defaultHandle (string): the handle that will be attributed to the volume if none is specified under spec.volumeCreation.handle and by the volume creation pod (if any) in file /pav/handle. This has the value pvc-{uid_of_the_pvc_that_triggered_provisioning}.

Fields volumeStaging and volumeUnstaging (and subfields) are evaluated every time a volume is respectively being staged or unstaged, and with the following context variables:

  • volumeMode (string): the mode (i.e., Filesystem or Block) of the volume (same as pvc.spec.volumeMode);

  • accessModes (list of string): the access modes supported by the PersistentVolumeClaim being used to stage the volume (same as pvc.spec.accessModes), which may be a subset of the access modes actually supported by the volume;

  • capacity (integer): the volume's capacity, in bytes (same as pv.spec.capacity.storage, but an integer and guaranteed to be in bytes);

  • params (object mapping strings to strings): the parameters specified in pv.spec.csi.volumeAttributes (which in the case of dynamic provisioning were obtained from the StorageClass);

  • handle (string): alias for pv.spec.csi.volumeHandle;

  • readOnly (boolean): whether the volume should be staged in read-only mode (as opposed to read-write mode);

  • pvc (PersistentVolumeClaim): the PersistentVolumeClaim object through which the volume is being staged/unstaged, as returned by the Kubernetes API server at the time the template was being evaluated;

  • pv (PersistentVolume): the PersistentVolume object of the volume in question, as returned by the Kubernetes API server at the time the template was being evaluated;

  • node (Node): the Node object corresponding to the node on which the volume is being staged/unstaged, as returned by the Kubernetes API server at the time the template was being evaluated.

Using provisioners

Volume provisioners implemented using PaV are used in the same manner as other provisioners, by specifying their name in the provisioner field of a StorageClass (dynamic provisioning) or in the spec.csi.driver field of a PersistentVolume (static provisioning). For now, please refer to the examples/ for more details.

Versioning

There are two version numbers: (1) the PaV version and (2) the pav.albertofaria.github.io Kubernetes API group version.

The PaV version follows the SemVer scheme, and is currently of the format 0.x.y, where x and y are integers corresponding to PaV's minor version and patch version, respectively. The API group version is used for PavProvisioner objects, and is currently of the format v1alphaN, where N is an integer (thus apiVersion: pav.albertofaria.github.io/v1alphaN).

When creating a new release of PaV, whenever the PavProvisioner schema or semantics change in some backward-compatible way (or if only implementation changes are made), PaV's patch version is incremented and the API group version remains the same. When they change in some incompatible way, PaV's minor version is incremented and the patch version reset to 0, and the N in the API group version is incremented.

Only a single PaV version may be installed in a cluster at any one time, and PavProvisioner objects from one API group version cannot be used with a PaV version that uses a different API group version.

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A Kubernetes plugin for easily implementing volume provisioners

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