- Ramp up on kubernetes and CRDs
- Create a GitHub account
- Setup GitHub access via SSH
- Create and checkout a repo fork
- Set up your shell environment
- Install requirements
- Set up a Kubernetes cluster
- Configure kubectl to use your cluster
- Set up a docker repository you can push to
Then you can iterate (including
running the controllers with ko
).
Welcome to the project!! You may find these resources helpful to ramp up on some
of the technology this project is built on. This project extends Kubernetes (aka
k8s
) with Custom Resource Definitions (CRDSs). To find out more:
- The Kubernetes docs on Custom Resources - These will orient you on what words like "Resource" and "Controller" concretely mean
- Understanding Kubernetes objects - This will further solidify k8s nomenclature
- API conventions - Types(kinds) - Another useful set of words describing words. "Objects" and "Lists" in k8s land
- Extend the Kubernetes API with CustomResourceDefinitions- A tutorial demonstrating how a Custom Resource Definition can be added to Kubernetes without anything actually "happening" beyond being able to list Objects of that kind
At this point, you may find it useful to return to these Tekton Pipeline
docs:
- Tekton Pipeline README - Some of the terms here may make more sense!
- Install via official installation docs or continue though getting started for development
- Tekton Pipeline "Hello World" tutorial -
Define
Tasks
,Pipelines
, andPipelineResources
, see what happens when they are run
The Go tools require that you clone the repository to the
src/github.com/tektoncd/pipeline
directory in your
GOPATH
.
To check out this repository:
- Create your own fork of this repo
- Clone it to your machine:
mkdir -p ${GOPATH}/src/github.com/tektoncd
cd ${GOPATH}/src/github.com/tektoncd
git clone [email protected]:${YOUR_GITHUB_USERNAME}/pipeline.git
cd pipeline
git remote add upstream [email protected]:tektoncd/pipeline.git
git remote set-url --push upstream no_push
Adding the upstream
remote sets you up nicely for regularly
syncing your fork.
You must install these tools:
go
: The language Tekton Pipelines is built ingit
: For source controldep
: For managing external Go dependencies. - Please Install dep v0.5.0 or greater.ko
: For development.ko
version v0.1 or higher is required forpipeline
to work correctly.kubectl
: For interacting with your kube cluster
Your [$GOPATH
] setting is critical for ko apply
to function properly: a
successful run will typically involve building pushing images instead of only
configuring Kubernetes resources.
Docker for Desktop using an edge version has been proven to work for both developing and running Pipelines. The recommended configuration is:
- Kubernetes version 1.11 or later
- 4 vCPU nodes (
n1-standard-4
) - Node autoscaling, up to 3 nodes
- API scopes for cloud-platform
To setup a cluster with Docker on Desktop:
To use minikube:
minikube start
eval $(minikube docker-env)
To use the Kubernetes that comes with Docker for Desktop:
- First go into the Docker For Desktop preferences. Under the resource tabs ensure that you have at least 4 CPUs, 8.0 GiB Memory, and 1.0 GiB Swap.
- Under the Kubernetes tab, enable Kubernetes.
- Click the Apply and Restart button to save the preferences.
- Switch the proper
kubectl
config context:
kubectl config get-contexts
# You should see docker-for-desktop in the previous command output
kubectl config use-context docker-for-desktop
To setup a cluster with GKE:
-
Install required tools and setup GCP project (You may find it useful to save the ID of the project in an environment variable (e.g.
PROJECT_ID
). -
Create a GKE cluster (with
--cluster-version=latest
but you can use any version 1.11 or later):export PROJECT_ID=my-gcp-project export CLUSTER_NAME=mycoolcluster gcloud container clusters create $CLUSTER_NAME \ --enable-autoscaling \ --min-nodes=1 \ --max-nodes=3 \ --scopes=cloud-platform \ --enable-basic-auth \ --no-issue-client-certificate \ --project=$PROJECT_ID \ --region=us-central1 \ --machine-type=n1-standard-4 \ --image-type=cos \ --num-nodes=1 \ --cluster-version=latest
Note that the
--scopes
argument togcloud container cluster create
controls what GCP resources the cluster's default service account has access to; for example to give the default service account full access to your GCR registry, you can addstorage-full
to your--scopes
arg. -
Grant cluster-admin permissions to the current user:
kubectl create clusterrolebinding cluster-admin-binding \ --clusterrole=cluster-admin \ --user=$(gcloud config get-value core/account)
To run your controllers with ko
you'll need to set these
environment variables (we recommend adding them to your .bashrc
):
GOPATH
: If you don't have one, simply pick a directory and addexport GOPATH=...
$GOPATH/bin
onPATH
: This is so that tooling installed viago get
will work properly.KO_DOCKER_REPO
: The docker repository to which developer images should be pushed (e.g.gcr.io/[gcloud-project]
). You can also run a local registry and setKO_DOCKER_REPO
to reference the registry (e.g. atlocalhost:5000/mypipelineimages
).
.bashrc
example:
export GOPATH="$HOME/go"
export PATH="${PATH}:${GOPATH}/bin"
export KO_DOCKER_REPO='gcr.io/my-gcloud-project-name'
Make sure to configure
authentication
for your KO_DOCKER_REPO
if required. To be able to push images to
gcr.io/<project>
, you need to run this once:
gcloud auth configure-docker
The user you are using to interact with your k8s cluster must be a cluster admin to create role bindings:
# Using gcloud to get your current user
USER=$(gcloud config get-value core/account)
# Make that user a cluster admin
kubectl create clusterrolebinding cluster-admin-binding \
--clusterrole=cluster-admin \
--user="${USER}"
- To install into a different namespace you can use this script :
#!/usr/bin/env bash
set -e
# Set your target namespace here
TARGET_NAMESPACE=new-target-namespace
ko resolve -f config | sed -e '/kind: Namespace/!b;n;n;s/:.*/: '"${TARGET_NAMESPACE}"'/' | \
sed "s/namespace: tekton-pipelines$/namespace: ${TARGET_NAMESPACE}/" | \
kubectl apply -f-
kubectl set env deployments --all SYSTEM_NAMESPACE=${TARGET_NAMESPACE} -n ${TARGET_NAMESPACE}
While iterating on the project, you may need to:
-
Verify it's working by looking at the logs
-
Update your (external) dependencies with:
./hack/update-deps.sh
.Running dep ensure manually, will pull a bunch of scripts deleted here
-
Update your type definitions with:
./hack/update-codegen.sh
.
To make changes to these CRDs, you will probably interact with:
- The CRD type definitions in ./pkg/apis/pipeline/alpha1
- The reconcilers in ./pkg/reconciler
- The clients are in ./pkg/client (these are generated by
./hack/update-codegen.sh
)
You can stand up a version of this controller on-cluster (to your
kubectl config current-context
):
ko apply -f config/
As you make changes to the code, you can redeploy your controller with:
ko apply -f config/controller.yaml
You can clean up everything with:
ko delete -f config/
To look at the controller logs, run:
kubectl -n tekton-pipelines logs $(kubectl -n tekton-pipelines get pods -l app=tekton-pipelines-controller -o name)
To look at the webhook logs, run:
kubectl -n tekton-pipelines logs $(kubectl -n tekton-pipelines get pods -l app=tekton-pipelines-webhook -o name)
To look at the logs for individual TaskRuns
or PipelineRuns
, see
docs on accessing logs.
If you need to add a new CRD type, you will need to add:
- A yaml definition in config/
- Add the type to the cluster roles in:
- Add go structs for the types in pkg/apis/pipeline/v1alpha1 e.g condition_types.go This should implement the Defaultable and Validatable interfaces as they are needed for the webhook in the next step.
- Register it with the webhook
- Add the new type to the list of known types