There are many ways you can contribute to SonataFlow Operator, not only software development, as well as with the rest of Kogito community:
- Contribute actively to development (see the section below)
- Use it and report any feedback, improvement or bug you may find via Github, mailing list or chat.
- Contribute by writing missing documentation or blog posts about the features around Kogito
- Tweet, like and socialize Kogito in your preferred social network
- Enjoy the talks that the contributors submit in various conferences around the world
The main project is written in go. SonataFlow Operator is built on top of Kubernetes through Custom Resource Definitions.
- Workflow
- Platform
- Build
This project aims to follow the Kubernetes Operator pattern
It uses Controllers which provides a reconcile function responsible for synchronizing resources untile the desired state is reached on the cluster
The Operator's controllers and the configurations are generated using the Operator sdk, the tasks are executed using a Makefile.
More information about annotations can be found via the Kubebuilder Documentation
In order to build the project, you need to comply with the following requirements:
GNU Make: Used to define composite build actions. This should be already installed or available as a package (https://www.gnu.org/software/make/).
NOTE: Run
make help
for more information on all potentialmake
targets
You’ll need a Kubernetes cluster to run against. You can use:
NOTE: Your controller will automatically use the current context in your kubeconfig file (i.e. whatever cluster
kubectl cluster-info
shows).
IMPORTANT: Please make sure that your kubectl is version 1.24.0 or later since there's a bug performing validation on default attributes in Custom Resources.
You can launch the operator locally and bind to your cluster.
- Install the CRDs into the cluster:
make install
- Run your controller (this will run in the foreground, so switch to a new terminal if you want to leave it running):
make run
NOTE: You can also run this in one step by running:
make install run
NOTE: Run
make help
for more information on all potentialmake
targets
More information can be found via the Kubebuilder Documentation
If you are editing the API definitions, generate the manifests such as CRs or CRDs using:
make manifests
make container-build
make deploy
make undeploy
By Default the log level is set to show only ERRORS with
- "--v=0"
inside the manager_auth_proxy_patch.yaml in the containers' section of kube-rbac-proxy and manager.
With the
make generate-all
whese values will be replicated on operator.yaml and on sonataflow-operator.clusterserviceversion.yaml containers' sections.
If you want to see the INFO msg replace v=0 with v=2 in the files during the development or in the deployment files on the cluster
The available levels are:
- v=0 > Error
- v=1 > Warning
- v=2 >Info
- v=3 > Debug
See the section on README
A configmap called sonataflow-operator-builder-config
will be created under the sonataflow-operator-system
namespace
when the Operator will be installed, and it contains:
- DEFAULT_WORKFLOW_EXTENSION = .sw.json
- Dockerfile =
<dockerfile content>
At the startup a Dockerfile is placed in a configmap. This Dockerfile uses a base image called sonataflow-builder with:
- openjdk 11+
- maven 3.8.6+
- a Quarkus project
/home/kogito/serverless-workflow-project
with those extensions:- quarkus-kubernetes
- kogito-quarkus-serverless-workflow
- kogito-addons-quarkus-knative-eventing
- all the dependencies of Quarkus and the extensions stored in the
/home/kogito/.m2
directory in the image.
There are, in the base image, some additional scripts in case of need to apply changes like this:
- add other quarkus extensions in
/home/kogito/launch/add-extension.sh
- build the project after adding other files/java classes in
/home/kogito/launch/build-app.sh
- create a new project in
/home/kogito/launch/create-app.sh
You can customize your final Image changing the Dockerfile in the configmap sonataflow-operator-builder-config accordingly to your specific needs.
- At the moment we are supporting only deployment of services on Kubernetes
- The only tested features are the ones related to the docker Registry customization and so:
apiVersion: sonataflow.org/v1alpha08
kind: SonataFlowPlatform
metadata:
name: greeting-workflow-platform
spec:
platform:
registry:
address: <docker registry repository> // the URI to access
secret: <name of the secret> // the secret where credentials are stored
insecure: true // if the container registry is insecure (ie, http only)
ca: <name of the config map> // the configmap which stores the Certificate Authority
organization: <name of the org> // the registry organization
- Introduce actions into Workflow and Build controller to improve code clarity
- Add Trait to the Platform CR in order to be able to deploy on different context (i.e. KNative)
- Test the Kaniko cache feature
- Improve the workflow converters in order to support all the SonataFlow Workflow features
Setup a pipeline on a Openshift cluster.