ContainerImage.Pinniped/doc/architecture.md
Ryan Richard 43c69ec339 Update the architecture diagram
- Also update the instructions for editing the documentation images
2020-09-15 16:07:09 -07:00

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Architecture

The principal purpose of Pinniped is to allow users to access Kubernetes clusters. Pinniped hopes to enable this access across a wide range of Kubernetes environments with zero configuration.

This integration is implemented using a credential exchange API which takes as input a credential from the external IDP (or internal federation trust relationship) and returns a credential which is understood by the host Kubernetes cluster. To learn more about this integration, see Cluster Integration Strategies.

Pinniped Architecture Sketch

External Identity Provider Integrations

Pinniped will consume identity from one or more external identity providers (IDPs). Administrators will configure external IDPs via Kubernetes custom resources, allowing Pinniped to be managed using GitOps and standard Kubernetes tools.

IDP integration support will be driven by empirical use case.

IDPs that support only just-in-time flows (such as OIDC) can be optionally paired with a separate directory backend to enable directory-based flows such as first-class support for policy editing UX.

Supported External Identity Provider Types

The currently supported external IDP types are outlined here. More will be added in the future.

  1. Any webhook which implements the Kubernetes TokenReview API

Cluster Integration Strategies

Pinniped will issue a cluster credential by leveraging cluster-specific functionality. In the near term, cluster integrations will happen via different cluster-specific flows depending on the type of cluster. In the longer term, Pinniped hopes to contribute and leverage upstream Kubernetes extension points that cleanly enable this integration.

Supported Cluster Integration Strategies

The currently supported cluster integration strategies are outlined here. More will be added in the future.

  1. Pinniped hosts a credential exchange API endpoint via a Kubernetes aggregated API server. This API returns a new cluster-specific credential using the cluster's signing keypair to issue short-lived cluster certificates. (In the future, when the Kubernetes CSR API provides a way to issue short-lived certificates, then the Pinniped credential exchange API will use that instead of using the cluster's signing keypair.)

kubectl Integration

With any of the above IDPs and integration strategies, kubectl commands receive the cluster-specific credential via a Kubernetes client-go credential plugin. Users may use the Pinniped CLI as the credential plugin, or they may use any proprietary CLI built with the Pinniped Go client library.

Example Cluster Authentication Sequence Diagram

example-cluster-authentication-sequence-diagram