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Provisioners

The following subdirectories contain concrete Provisioner implementations.

  • plain - provisions plain+v0 k8s bundles
  • registry - provisions registry+v1 OLM bundles
  • helm - provisions helm+v3 helm bundles-

Global Provisioner Concepts

Using provisioners to install bundle content

RukPak comes built-in with the concept of provisioners. Provisioners are pluggable controllers that understand how to unpack and install Bundles and BundleDeployments that specify they are in the provisioner's expected format.

graph TD
    C[Provisioner]
    C -->|Watches| D[Bundle]
    C -->|Watches| E[BundleDeployment]
    D -->|References| F[Content]
    E -->|Creates/Manages| F[Content]
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Each provisioner has its own custom logic for how it goes about handling content. Using a specific provisioner is done by specifying the provisionerClassName property in the spec of either the Bundle or BundleDeployment api. Here is an example of this concept in an embedded BundleDeployment.

apiVersion: core.rukpak.io/v1alpha1
kind: BundleDeployment
metadata:
  name: my-bundle-deployment
spec:
  provisionerClassName: core.rukpak.io/my-provisioner # <-- Provisioner for the BundleDeployment
  template:
    metadata:
      labels:
        app: my-bundle
    spec:
      source:
        type: image
        image:
          ref: my-bundle@sha256:xyz123
      provisionerClassName: core.rukpak.io/my-provisioner # <-- Provisioner for the Bundle

Pivoting between bundle versions

The BundleDeployment API is meant to indicate the version of the bundle that should be active within the cluster.

Given an existing BundleDeployment resource in the cluster, which contains an embedded Bundle template for the my-bundle-v0.0.1 bundle, you can modify the desired specification and a provisioner will automatically generate a new my-bundle-v0.0.2 Bundle matching that template.

When the new Bundle resource has been rolled out successfully, the old my-bundle-v0.0.1 Bundle will be deleted from the cluster.

Provisioners also continually reconcile the created content via dynamic watches to ensure that all resources referenced by the bundle are present on the cluster.

Make bundle content available but do not install it

There is a natural separation between sourcing of the content and application of that content via two separate RukPak APIs, Bundle and BundleDeployment. A user can specify a particular Bundle to be available in the cluster for inspection before any application of the resources. Given a Bundle resource named my-bundle, a provisioner will pull down and unpack the bundle to a tar.gz file that is saved using the provisioner's internal storage mechanism.

By default, RukPak's built-in provisioners and other core resources are deployed into the rukpak-system namespace.

The content of a bundle can be queried using the status.contentURL, assuming you have the necessary RBAC permissions to access bundle content.

As an example, a client outside the cluster can view the file contents from a bundle named my-bundle by running the following script:

Note: This script requires Kubernetes 1.24+ for both client and server

BUNDLE_NAME=my-bundle

kubectl create sa fetch-bundle -n default
kubectl create clusterrolebinding fetch-bundle --clusterrole=bundle-reader --serviceaccount=default:fetch-bundle
export TOKEN=$(kubectl create token fetch-bundle)
export URL=$(kubectl get bundle $BUNDLE_NAME -o jsonpath='{.status.contentURL}')
kubectl run -qit --rm -n default --restart=Never fetch-bundle --image=curlimages/curl --overrides='{ "spec": { "serviceAccount": "fetch-bundle" }  }' --command -- curl -sSLk -H "Authorization: Bearer $TOKEN" -o - $URL | tar ztv
kubectl delete clusterrolebinding fetch-bundle
kubectl delete sa fetch-bundle -n default

Simplifying the process of fetching this bundle content (e.g. via a plugin) is on the RukPak roadmap.

Provisioner Spec [DRAFT]

A provisioner is a controller responsible for reconciling Bundle and/or BundleDeployment objects using provisioner-specific logic, but with a consistent API. This provisioner concept is inspired by and therefore very similar to native Kubernetes's Ingress API and the ecosystem of ingress controllers.

The idea of a provisioner is to unpack bundle content and install that bundle content onto a cluster, and the provisioner abstraction enables variations of bundle format and install/upgrade techniques to be implemented under a single API.

In order for bundle consumers and producers to be able to treat bundles and bundle deployments homogeneously, all provisioners must include certain functionality and capabilities.

Terminology

Term Description
Bundle Source A protocol that provisioners use to fetch bundle contents.
Bundle Format A schema that describes the contents of a bundle.

Requirements

  1. A provisioner must define one or more globally unique names for the Bundle and BundleDeployment controllers it runs. For the purposes of provisioner class name references, this name must also conform to the DNS label schema as defined in RFC 1123.
  2. A provisioner should use its unique controller names when configuring its watch predicates so that it only reconciles bundles and bundle deployments that use its name.
  3. A provisioner is not required to implement controllers for both bundles and bundle deployments.
    • There may be use cases where a Bundle provisioner fetches a bundle in one format and converts it to another format such that a different BundleDeployment provisioner can be used to install it.
    • There may also be use cases where different provisioners exist for to provide implementation variations for the same bundle formats. For example, two different provisioners that handle plain manifest bundles: one that performs "atomic" upgrades and one tha performs eventually consistent upgrades.
  4. A provisioner must reuse the defined condition types and phases when updating the status of bundles and bundle deployments.
  5. A provisioner should populate all condition types during every reconciliation, even if that means setting condition.status = "Unknown". This enables consumers to avoid making false assumptions about the status of the object.
  6. A bundle provisioner must populate and update the observed generation in the bundle status such that it reflects the metadata.generation value.
  7. A bundle provisioner must populate the contentURL field and host a webserver at which the bundle can be fetched.
    • The webserver must deny unauthorized access to the bundle content.
    • The webserver must allow access to the bundle content via the bundle-reader cluster role provided by rukpak.
  8. A bundle deployment provisioner must populate and update the activeBundle field in the status to reflect the currently installed bundle. It is up to the provisioner implementation to define what "installed" means for its implementation.
  9. A bundle provisioner should implement all concrete source types in the bundle spec. In the event that it does not implement a concrete source type, it must populate the Unpacked condition with status False and reason ReasonUnpackFailed with a message explaining that the provisioner does not implement the desired source.
  10. A bundle deployment provisioner must reconcile embedded bundle objects by:
    • Ensuring that the desired bundle template exists as a Bundle
    • Ensuring that the desired bundle has successfully unpacked prior to triggering a pivot to it.
    • Ensuring that previous bundles associated with the bundle deployment are cleaned up as soon as possible after the desired bundle has been successfully installed.