This document gives a detailed breakdown of the various build processes and options for building Strimzi from source. For a quick start guide see the Getting Started document.
- Build Pre-requisites
- Make targets
- Docker build options
- Building Strimzi
- Helm Chart
- Running system tests
- DCO Signoff
- IDE build problems
To build this project you must first install several command line utilities and a Kubernetes or OpenShift cluster
make
- Make build systemmvn
(version 3.5 and above) - Maven CLIhelm
- Helm Package Management System for Kubernetes- After installing Helm be sure to run
helm init
.
- After installing Helm be sure to run
asciidoctor
- Documentation generation.- Use
gem
to install latest version for your platform.
- Use
yq
- YAML manipulation tool.- Warning: There are several different
yq
YAML projects in the wild. Use this one. You need v3 version.
- Warning: There are several different
docker
- Docker command line client
In order to use make
these all need to be available in your $PATH
.
The make
build is using GNU versions of find
and sed
utilities and is not compatible with the BSD versions available on Mac OS. When using Mac OS, you have to install the GNU versions of find
and sed
. When using brew
, you can do brew install gnu-sed findutils grep coreutils
. This command will install the GNU versions as gcp
, ggrep
, gsed
and gfind
and our make
build will automatically pick them up and use them.
The build requires bash
version 4+ which is not shipped Mac OS but can be installed via homebrew. You can run brew install bash
to install a compatible version of bash
. If you wish to change the default shell to the updated bash run sudo bash -c 'echo /usr/local/bin/bash >> /etc/shells'
and chsh -s /usr/local/bin/bash
In order to run the integration tests and test any changes made to the operators you will need a functioning Kubernetes or OpenShift cluster. This can be a remote cluster or a local development cluster.
In order to perform the operations necessary for the integration tests, your user must have the cluster administrator role assigned. For example, if your username is developer
, you can add the cluster-admin
role using the commands below:
oc login -u system:admin
oc adm policy add-cluster-role-to-user cluster-admin developer
oc login -u developer -p <password>
The default minishift setup should allow the integration tests to be run without additional configuration changes.
Sometimes however, updates to minikube may prevent the test cluster context being correctly set. If you have errors due to oc
commands being called on your minikube cluster then explicitly set the TEST_CLUSTER
environment variable before running the make
commands.
export TEST_CLUSTER=minikube
Strimzi includes a Makefile
with various Make targets to build the project.
Commonly used Make targets:
docker_build
for building Docker imagesdocker_tag
for tagging existing imagesdocker_push
for pushing images to a Docker registry
Note: If you are having trouble running any of the Make commands it may help to run
mvn clean
and thenmvn install -DskipTests -DskipITs
before running the commands again.
The docker_build
target will build the Docker images provided by the Strimzi project. You can build all Strimzi Docker images by calling make docker_build
from the root of the Strimzi repository. Or you can build an individual Docker image by running make docker_build
from the subdirectories with their respective Dockerfiles - e.g. kafka_base
, kafka
etc.
The docker_build
target will always build the images under the strimzi
organization. This is necessary in order to be able to reuse the base image you might have just built without modifying all Dockerfiles. The DOCKER_TAG
environment variable configures the Docker tag to use (default is latest
).
Target docker_tag
tags the Docker images built by the docker_build
target. This target is automatically called as part of the docker_push
target, but can be called separately if you wish to avoid pushing images to an external registry.
To configure the docker_tag
and docker_push
targets you can set following environment variables:
DOCKER_ORG
configures the Docker organization for tagging/pushing the images (defaults to the value of the$USER
environment variable)DOCKER_TAG
configured Docker tag (default islatest
)DOCKER_REGISTRY
configures the Docker registry where the image will be pushed (default isdocker.io
)
When building the Docker images you can use an alternative JRE or use an alternate base image.
The docker images can be built with an alternative java version by setting the environment variable JAVA_VERSION
. For example, to build docker images that have the java 11 JRE installed use JAVA_VERSION=11 make docker_build
. If not present, JAVA_VERSION is defaulted to 1.8.0.
If JAVA_VERSION
environment variable is set, a profile in the parent pom.xml will set the maven.compiler.source
and maven.compiler.target
properties.
The build assumes the docker
command is available on your $PATH
. You can set the DOCKER_CMD
environment variable to use a different docker
binary or an alternative implementation such as podman
.
The docker images can be built with an alternative container OS version by adding the environment variable ALTERNATE_BASE
. When this environment variable is set, for each component the build will look for a Dockerfile in the subdirectory named by ALTERNATE_BASE
. For example, to build docker images based on alpine, use ALTERNATE_BASE=alpine make docker_build
. Alternative docker images are an experimental feature not supported by the core Strimzi team.
The make all
target can be used to trigger both the docker_build
and the docker_push
targets described above. This will build the Docker images, tag them and push them to the configured repository.
The build can be customised by:
- building fewer Kafka versions
- customising the Maven settings
Other build options:
- Local build with push to Docker Hub
- Local build with push to Minishift Docker registry
- Local build on Minishift or Minikube
As part of the Docker image build several different versions of Kafka will be built, which can increase build times. Which Kafka versions are to be built are defined in the kafka-versions.yaml file. Unwanted versions can be commented out to speed up the build process.
Running make
invokes Maven for packaging Java based applications (that is, Cluster Operator, Topic Operator, etc). The mvn
command can be customized by setting the MVN_ARGS
environment variable when launching make all
. For example, MVN_ARGS=-DskipTests make all
can be used to avoid running the unit tests and adding -DskipIT
will skip the integration tests.
To build the images on your local machine and push them to the Docker Hub, log into Docker Hub with your account details. This sets the Hub as the docker push
registry target.
docker login
By default the docker_push
target will build the images under the strimzi organisation (e.g. strimzi/operator:latest
) and attempt to push them to the strimzi repositories on the Docker Hub. Only certain users are approved to do this so you should push to your own Docker Hub organisation (account) instead. To do this, make sure that the DOCKER_ORG
environment variable is set to the same value as your username on Docker Hub before running the make
commands.
export DOCKER_ORG=docker_hub_username
When the Docker images are build then will now be labeled in the form: docker_hub_username/operator:latest
in your local repository and pushed to your Docker Hub account under the same label.
In order to use these newly built images, you need to update the install/cluster-operator/050-Deployment-strimzi-cluster-operator.yml
to obtain the images from your repositories on Docker Hub rather than the official Strimzi images. That can be done using the following command and replacing docker_hub_username
with the relevant value:
sed -Ei -e 's#(image|value): strimzi/([a-z0-9-]+):latest#\1: docker_hub_username/\2:latest#' \
-e 's#([0-9.]+)=strimzi/([a-zA-Z0-9-]+:[a-zA-Z0-9.-]+-kafka-[0-9.]+)#\1=docker_hub_username/\2#' \
install/cluster-operator/050-Deployment-strimzi-cluster-operator.yaml
This will update 050-Deployment-strimzi-cluster-operator.yaml
replacing all the image references (in image
and value
properties) with ones with the same name but with the repository changed.
Then you can deploy the Cluster Operator by running (for an OpenShift cluster):
oc create -f install/cluster-operator
Finally, you can deploy the cluster custom resource running:
oc create -f examples/kafka/kafka-ephemeral.yaml
When developing locally you might want to push the docker images to the docker repository running in your local OpenShift (minishift) cluster. This can be quicker than pushing to Docker Hub and works even without a network connection.
Assuming your OpenShift login is developer
(a user with the cluster-admin
role) and the project is myproject
, you can push the images to OpenShift's Docker repo using the steps below:
-
Make sure your cluster is running,
oc cluster up
By default, you should be logged in as
developer
(you can check this withoc whoami
) -
Get the internal OpenShift docker registry address by running the command below:
oc get services -n default
172.30.1.1:5000
is the typical default IP and port of the Docker registry running in the cluster, however the command may above may return a different value. -
Log in to the Docker repo running in the local cluster:
docker login -u developer -p $(oc whoami -t) 172.30.1.1:5000
Note that we are using the
developer
OpenShift user and the token for the current (developer
) login as the password. -
Now run the
docker_push
target to push the development images to that Docker repo. If you need to build/rebuild the Docker images as well, then run theall
target instead:DOCKER_REGISTRY=172.30.1.1:5000 DOCKER_ORG=$(oc project -q) make docker_push
-
In order to use the built images in a deployment, you need to update the
install/cluster-operator/050-Deployment-strimzi-cluster-operator.yml
to obtain the images from the registry at172.30.1.1:5000
, rather than from DockerHub. That can be done using the following command:sed -Ei -e 's#(image|value): strimzi/([a-z0-9-]+):latest#\1: 172.30.1.1:5000/myproject/\2:latest#' \ -e 's#([0-9.]+)=strimzi/([a-zA-Z0-9-]+:[a-zA-Z0-9.-]+-kafka-[0-9.]+)#\1=172.30.1.1:5000/myproject/\2#' \ install/cluster-operator/050-Deployment-strimzi-cluster-operator.yaml
This will update
050-Deployment-strimzi-cluster-operator.yaml
replacing all the image references (inimage
andvalue
properties) with ones with the same name from172.30.1.1:5000/myproject
. -
Then you can deploy the Cluster Operator by running:
oc create -f install/cluster-operator
-
Finally, you can deploy the cluster custom resource by running:
oc create -f examples/kafka/kafka-ephemeral.yaml
If you do not want to have the docker daemon running on your local development machine, you can build the container images in your minishift or minikube VM by setting your docker host to the address of the VM's daemon:
eval $(minishift docker-env)
or
eval $(minikube docker-env)
The images will then be built and stored in the cluster VM's local image store and then pushed to your configured Docker registry.
You can avoid the docker_push
step and sed
commands above by configuring the Docker Host as above and then running:
make docker_build
make DOCKER_ORG=strimzi docker_tag
This labels your latest container build as strimzi/operator:latest
and you can then deploy the standard CRDs without changing the image targets. However, this will only work if all instances of the imagePullPolicy:
setting are set to IfNotPresent
or Never
. If not, then the cluster nodes will go to the upstream registry (Docker Hub by default) and pull the official images instead of using your freshly built image.
The strimzi-kafka-operator
Helm Chart can be installed directly from its source.
helm install ./helm-charts/strimzi-kafka-operator
The chart is also available in the release artifact as a tarball.
System tests has its own guide with more information. See Testing Guide document for more information.
The project requires that all commits are signed-off, indicating that you certify the changes with the developer certificate of origin (DCO) (https://developercertificate.org/).
This can be done using git commit -s
for each commit in your pull request.
Alternatively, to signoff a bunch of commits you can use git rebase --signoff _your-branch_
.
The build also uses a Java annotation processor. Some IDEs (such as IntelliJ) don't, by default, run the annotation processor in their build process. You can run mvn clean install -DskipTests -DskipITs
to run the annotation processor as part of the maven
build and the IDE should then be able to use the generated classes. It is also possible to configure the IDE to run the annotation processor directly.