Theatre
This project contains GoCardless' Kubernetes extensions, in the form of
operators, admission controller webhooks and associated CLIs. The aim of this
project is to provide a space to write Kubernetes extensions where:
- Doing the right thing is easy; it is difficult to make mistakes!
- Each category of Kubernetes extension has a well defined implementation pattern
- Writing meaningful tests is easy, with minimal boilerplate
API Groups
Theatre provides various extensions to vanilla Kubernetes. These extensions are
grouped under separate API groups, all of which exist under the
*.crd.gocardless.com
namespace.
RBAC
Utilities to extend the default Kubernetes role-based access control (RBAC)
resources.
These CRDs are motivated by real-world use cases when using
Kubernetes with an organisation that uses GSuite, and which frequently onboards
new developers.
DirectoryRoleBinding
is a resource that provisions standard
RoleBinding
s, which contain the subjects defined in a Google group.
Note: In a GKE Kubernetes cluster this may soon be superseded by the Google
Groups for GKE functionality.
Workloads
Extends core workload resources with new CRDs. Extensions within this group can be
expected to create or mutate pods, deployments, etc.
- Consoles: Provide engineers with a temporary
dedicated pod to perform operational tasks, avoiding the need to provide
pods/exec
permissions on production workloads.
- Default priority classes: Mutate all pods within a
namespace to set a default priority class.
Utilities for interacting with Vault. Primarily used to inject secret material
into pods by use of annotations.
envconsul-injector.vault.crd.gocardless.com
webhook for injecting the
theatre-envconsul
tool to populate a container's environment with secrets
from Vault before executing.
Command line interfaces
As well as Kubernetes controllers this project also contains supporting CLI
utilities.
theatre-consoles
theatre-consoles
is a suite of commands that provides the ability to create,
list, attach to and authorise consoles.
Run: go run cmd/theatre-consoles/main.go
theatre-envconsul
See the command README for further details.
Run: go run cmd/theatre-envconsul/main.go
Getting Started
Theatre assumes developers have several tools installed to provide development
and testing capabilities. The following will configure a macOS environment with
all the necessary dependencies:
brew cask install docker
brew install go kubernetes-cli kustomize
curl -fsL -o /usr/local/bin/kind https://github.com/kubernetes-sigs/kind/releases/download/v0.8.1/kind-darwin-amd64 \
&& chmod a+x /usr/local/bin/kind
mkdir /usr/local/kubebuilder
curl -fsL https://go.kubebuilder.io/dl/2.3.1/$(go env GOOS)/$(go env GOARCH) | tar -xvz --strip=1 -C /usr/local/kubebuilder
export KUBEBUILDER_ASSETS=/usr/local/kubebuilder/bin
Running make
should now compile binaries into bin
.
Local development environment
For developing changes, you can make use of the acceptance testing
infrastructure to install the code into a local Kubernetes-in-Docker
(Kind) cluster.
Ensure kind
is installed (as per the [getting started
steps][#getting-started]) and then run the following:
go run cmd/acceptance/main.go prepare # prepare the cluster, install theatre
At this point a development cluster has been provisioned. Your current local
Kubernetes context will have been changed to point to the test cluster. You
should see the following if you inspect kubernetes:
$ kubectl get pods --all-namespaces | grep -v kube-system
NAMESPACE NAME READY STATUS RESTARTS AGE
theatre-system theatre-rbac-manager-0 1/1 Running 0 5m
theatre-system theatre-vault-manager-0 1/1 Running 0 5m
theatre-system theatre-workloads-manager-0 1/1 Running 0 5m
vault vault-0 1/1 Running 0 5m
All of the controllers and webhooks, built from the local working copy of the
code, have been installed into the cluster.
As this is a fully-fledged Kubernetes cluster, at this point you are able to
interact with it as you would with any other cluster, but also have the ability
to use the custom resources defined in theatre, e.g. creating a Console
.
If changes are made to the code, then you must re-run the prepare
step in
order to update the cluster with images built from the new binaries.
Tests
Theatre has test suites at several different levels, each of which play a
specific role. All of these suites are written using the Ginkgo
framework.
-
Unit: Standard unit tests, used to exhaustively specify the functionality of
functions or objects.
Invoked with the ginkgo
CLI.
Example unit test.
-
Integration: Integration tests run the custom controller code and
integrates this with a temporary Kubernetes API server, therefore providing an
environment where the Kubernetes API can be used to manipulate custom objects.
This environment has no Kubernetes nodes, and does not run any other
controllers such as kube-controller-manager
, therefore it will not run pods.
These suites provide a good balance between runtime and realism, and are
therefore useful for rapid iteration when developing changes.
Invoked with the ginkgo
CLI.
Example integration test.
-
Acceptance: Acceptance is used for full end-to-end (E2E) tests,
provisioning a fully functional Kubernetes cluster with all custom controllers
and webhooks installed.
The acceptance tests are much slower to set up, and so are typically used
sparingly compared to the other suites, but provide essential validation in CI
and at the end of development cycles that the code correctly interacts with
the other components of a Kubernetes cluster.
Invoked with: go run cmd/acceptance/main.go run
Example acceptance test.