Jenkins as code, part 2: Setting up the Jenkins job

This is the follow up of the previous blogpost about Jenkins as code, which you can find here. With the previous blogpost we discussed how we have created a Docker image, containing Jenkins and several files needed to correctly install the plugins and configure Jenkins with several yaml files. The yaml configuration files are used by the configuration-as-code plugin to configure the Jenkins environment how we want to have it configured. This means that no manual changes are needed in the UI.

Just like mentioned in the first blogpost:

Before we do anything I just want to remind you that this is just 1 way to achieve a Jenkins as code setup. It does not mean that this is the only or best way, it is just one way. Next to that, these blogposts and the code in the Github repository will help you kickstart your own setup and by no means you can just run it on a production environment and blame me if something is not working fine. During the blogposts I will tell you how I was able to do things, so you can redo it all yourself (and compare it with the code in the Github repository).

Seed All DSL Jobs

With this blogpost, we will continue the job-dsl.yaml file. This is the yaml file which will make sure that once Jenkins is running, a “Seed All DSL jobs” job” is configured and loads groovy files from a specific directory in a git repository. So lets continue with these groovy files. It basically consists of 2 parts, we set some variables and have several class and functions to generate the jobs and list views. 

The example.groovy file top part are some variables we need to configure.

@Field String jenkinsCredentialId = "SSH_GIT_KEY"
@Field String basePath = 'example'
@Field String defaultPollingScm = 'H/5 * * * *'

JobConstructor[] jobList = [

The first one is easy, that is the name of our Jenkins credential that we are using for authorizing to the Git server. The basePath is the value which is used for creating a “directory” and a specific “tab” with this name. See the screenshot. Then we have the defaultPollingScm, which we will configure that each job will check once every 5 minutes for changes. Ideally there should be webhooks configured on the Git server, but this only works if Jenkins is available from the Git server (which is in my situation not the case)

The jobList is basically a list with all of the repositories that belong to this “example” group. For my Terraform repositories, I would have a file named terraform.groovy, with a basePath set to ‘terraform‘ and in the jobList variable, all repositories configured related to Terraform. And if you need to add (or remove) a (terraform) repository, you will update this jobList variable by either adding or removing the repository information. Once the change is merged into main (or master), with a max of 15 minutes the new job is added (or deleted) because the Seed DSL job has ran.

The rest of the file contains some specific functions to actual create the Jobs and listviews. You can see on this page with all the possible functions (and the parameters) you can use to make it your own.

Shared Library

A shared library allows you to use code that can be used in Jenkinsfile’s. The problem when you have lets say 50 Spring Boot java microservices, you probably have 50 Jenkinsfiles that are the same, with the exception of the name of the microservice. So that is a lot of duplicate code in the various repositories, especially if these Jenkinsfiles are really large. So the goal is to create small(er) Jenkinsfiles as we still need to have a Jenkinsfile in the repositories. Because we create smaller Jenkinsfile, we can even provide arguments that can be used for correctly generating the Jenkinsfile.

This is how our Jenkinsfile will look like, for our example service:

@Library('djwasabi') _
def run = new com.djwasabi.common.examplePipeline()
def NAME = "Wasabi"
run.pipeline('test-repo', NAME)

With the first line we specify which Shared Library we want to make use. You need to go to “Manage“, “Configure system” and then look for “Global Pipeline Libraries“. When you did a docker compose up from my repository, you would see that there is a Shared Library named “djwasabi“. This shared library is from a git repository and is using the master branch as the version (You could also specify a tag or branch or even an git commit). 

To understand the 2nd line, you will need to go to (or look into the already earlier provided github repository in the “library” folder), you will see a specific directory structure which is used within the groovy language. You will see an examplePipeline.groovy file, which will be loaded to create a new groovy object.

The 3rd line we set a variable named NAME and set it to “Wasabi“. With the 4th line we will execute the function inside the examplePipeline.groovy file named ‘pipeline‘. This function accepts multiple parameters and we only provide 1 called “NAME“.

Let us take a look at the examplePipeline.groovy file:

package com.djwasabi.common

import com.djwasabi.common.workers.*
import groovy.transform.Field

def pipeline(jobName, name = "world", agentNode = "worker") {
    def command = new Command(this)
    def git = new Git(this)
    def resultsGetter = new ResultsGetter(this)

    node(agentNode) {
        try {
            def lastResult = currentBuild.rawBuild.getPreviousBuild()?.result

            stage("Checkout") {
                tagged = git.isCurrentCommitAlreadyTagged()
            if (!tagged || hudson.model.Result.SUCCESS != lastResult) {
                stage("Run command") {
                    command.echo("hello " + name + " via job " + jobName)
            } else {
        } catch (all) {
            stage('Destroy it') {
                command.echo('lets run when things go wrong.')

As you see with the examplePipeline.groovy file, the function “pipeline” accepts multiple arguments. The first one “jobName” does not have a default and thus it is always required, but the other 2 has default (resp. “world” and “worker“). Have you noticed that the “agentNode” parameter contains the value “worker“, which is also the value for our configuration we used for starting the Docker container in the previous blog post? So if you write your own shared library, you can make 1 or more of these node definitions and based on parameters that are set in the Jenkinsfile, certain actions can be executed.

When we run the job in Jenkins, you will see something like the above showing up. Almost at the end of the log, you will see the following line:
hello Wasabi via job test-repo

That is basically logged via this piece of code that was generated in the examplePipeline.groovy file:

                stage("Run command") {
                    command.echo("hello " + name + " via job " + jobName)


In these 2 parts I helped you to explain what the possibilities are for an Jenkins as code approach. This approach will have everything set into code and when someone wants to make a change in Jenkins, the person should be creating a change into the code. When you have properly setup your Git server, this person will create a branch, make the changes and will create a Pull Request before it is merged into master|main. With everything set into code, people have an audit log of what has been changed (and by whom), so it will force you into having a discussion when things are needed (or when something went wrong).

And what I personally also like, because everything is set into code you can deploy a Jenkins server somewhere else and you can almost immediately use it. Especially when you make the Configuration as Code yaml files configurable with environment variables, you can run multiple Jenkins setups from the same code base. And because everything is in code, you don’t have to worry about backing up Jenkins (It is already on the Git server and part of their backup mechanism).

I hope you enjoyed it and that it showed you that you can too automate the configuration of any Jenkins environment you want to run in your organisation. If you have any improvements and/or remarks, please let me know.

May the force (or source) be with you!

wdijkerman-zabbix version 1.3.0 puppet module released, support for Apache 2.4 and more!

Puppet LogoZabbix Logo

I just released an new version of the wdijkerman-zabbix puppet module: 1.3.0.

This release contains mostly pull requests from other users, so many thanks for this!

The changelog:

  • bugfix for vhosts in apache 2.4 #67 (By pull request: ju5t (Thanks!))
  • Update apt key to full 40characters #66 (By pull request: exptom (Thanks!))
  • rename ListenIp => ListenIP (By pull request: sbaryakov (Thanks!))
  • Fix manage_repo parameter on the zabbix class (By pull request: roidelapluie (Thanks!))
  • minor typo (By pull request: andresvia (Thanks!))
  • better default parameter for userparameter (By pull request: sbaryakov (Thanks!))
  • Fix for: Multi-node Setup: Web class does not properly configure database port #69
  • Fix for: Zabbix-proxy install database population #62

The “#<NUM>” is a reference to an Github issue. The release can now also be found on and downloaded from the forge.

If you find an bug or have an improvement for this Zabbix puppet module, please create pull requests!

The next release will probably be used for puppet 4 or maybe Zabbix 3.0, depends on when they are released. 🙂