This repository is a tutorial it tries to exemplify how to automatically manage the process of building, testing with the highest coverage, and deployment phases.
Our goal is to ensure our pipeline works well after each code being pushed. The processes we want to auto-manage:
- Code checkout
- Run tests
- Compile the code
- Run Sonarqube analysis on the code
- Create Docker image
- Push the image to Docker Hub
- Pull and run the image
Since one of the goals is to obtain the sonarqube
report of our project, we should be able to access sonarqube from the jenkins service. Docker compose
is a best choice to run services working together. We configure our application services in a yaml file as below.
docker-compose.yml
version: '3.2'
services:
sonarqube:
build:
context: sonarqube/
ports:
- 9000:9000
- 9092:9092
container_name: sonarqube
jenkins:
build:
context: jenkins/
privileged: true
user: root
ports:
- 8080:8080
- 50000:50000
container_name: jenkins
volumes:
- /tmp/jenkins:/var/jenkins_home #Remember that, the tmp directory is designed to be wiped on system reboot.
- /var/run/docker.sock:/var/run/docker.sock
depends_on:
- sonarqube
Paths of docker files of the containers are specified at context attribute in the docker-compose file. Content of these files as follows.
sonarqube/Dockerfile
FROM sonarqube:6.7-alpine
jenkins/Dockerfile
FROM jenkins:2.60.3
If we run the following command in the same directory as the docker-compose.yml
file, the Sonarqube and Jenkins containers will up and run.
docker-compose -f docker-compose.yml up --build
docker ps
CONTAINER ID IMAGE COMMAND CREATED STATUS PORTS NAMES
ca8f0b63469f pipeline_jenkins "/bin/tini -- /usr..." About a minute ago Up About a minute 0.0.0.0:8080->8080/tcp, 0.0.0.0:50000->50000/tcp jenkins
f5bed5ba3266 pipeline_sonarqube "./bin/run.sh" About a minute ago Up About a minute 0.0.0.0:9000->9000/tcp, 0.0.0.0:9092->9092/tcp sonarqube
We’ll define a service on Github to call the Jenkins Github webhook
because we want to trigger the pipeline. To do this go to Settings -> Integrations & services. The Jenkins Github plugin
should be shown on the list of available services as below.
After this, we should add a new service by typing the URL of the dockerized Jenkins container along with the /github-webhook/
path.
The next step is that create an SSH key
for a Jenkins user and define it as Deploy keys
on our GitHub repository.
If everything goes well, the following connection request should return with a success.
ssh git@github.com
PTY allocation request failed on channel 0
Hi <your github username>/<repository name>! You've successfully authenticated, but GitHub does not provide shell access.
Connection to github.com closed.
We have configured Jenkins in the docker compose file to run on port 8080 therefore if we visit http://localhost:8080 we will be greeted with a screen like this.
We need the admin password to proceed to installation. It’s stored in the /var/jenkins_home/secrets/initialAdminPassword
directory and also It’s written as output on the console when Jenkins starts.
jenkins | *************************************************************
jenkins |
jenkins | Jenkins initial setup is required. An admin user has been created and a password generated.
jenkins | Please use the following password to proceed to installation:
jenkins |
jenkins | 45638c79cecd4f43962da2933980197e
jenkins |
jenkins | This may also be found at: /var/jenkins_home/secrets/initialAdminPassword
jenkins |
jenkins | *************************************************************
To access the password from the container.
docker exec -it jenkins sh
/ $ cat /var/jenkins_home/secrets/initialAdminPassword
After entering the password, we will download recommended plugins and define an admin user
.
After clicking Save and Finish and Start using Jenkins buttons, we should be seeing the Jenkins homepage. One of the seven goals listed above is that we must have the ability to build an image in the Jenkins being dockerized. Take a look at the volume definitions of the Jenkins service in the compose file.
- /var/run/docker.sock:/var/run/docker.sock
The purpose is to communicate between the Docker Daemon
and the Docker Client
(we will install it on Jenkins) over the socket. Like the docker client, we also need Maven
to compile the application. For the installation of these tools, we need to perform the Maven
and Docker Client
configurations under Manage Jenkins -> Global Tool Configuration menu.
We have added the Maven and Docker installers
and have checked the Install automatically
checkbox. These tools are installed by Jenkins when our script(Jenkins file) first runs. We give myMaven
and myDocker
names to the tools. We will access these tools with this names in the script file.
Since we will perform some operations such as checkout codebase
and pushing an image to Docker Hub
, we need to define the Docker Hub Credentials
. Keep in mind that if we are using a private repo, we must define Github credentials
. These definitions are performed under Jenkins Home Page -> Credentials -> Global credentials (unrestricted) -> Add Credentials menu.
We use the value we entered in the ID
field to Docker Login in the script file. Now, we define pipeline under Jenkins Home Page -> New Item menu.
Also Dont forget to mark env variables for Docker username and Docker password .
In this step, we select GitHub hook trigger for GITScm pooling
options for automatic run of the pipeline by Github hook
call.
Also in the Pipeline section, we select the Pipeline script from SCM
as Definition, define the GitHub repository and the branch name, and specify the script location ([https://github.com/vineet68sharma/CI-CD-Docker/blob/master/Jenkinsfile)).
Create a repository in docker hub so the built image is pushed to docker registry with its credentials (need to be filled in jenkinsFile)
After that, when a push is done to the remote repository or when you manually trigger the pipeline by Build Now
option, the steps described in Jenkins file will be executed.
After that, when a Deployment is done to the remote repository or when you manually trigger the pipeline by Build Now
You can see the Workflow step by step .
After Deployment is done and Container is running , You can check it by URL and Port number on which the service is running
http://ec2-50-16-10-93.compute-1.amazonaws.com:8090/
stage('Initialize'){
def dockerHome = tool 'myDocker'
def mavenHome = tool 'myMaven'
env.PATH = "${dockerHome}/bin:${mavenHome}/bin:${env.PATH}"
}
The Maven
and Docker client
tools we have defined in Jenkins under Global Tool Configuration menu are added to the PATH environment variable
for using these tools with sh command
.
stage('Push to Docker Registry'){
withCredentials([usernamePassword(credentialsId: 'dockerHubAccount', usernameVariable: 'USERNAME', passwordVariable: 'PASSWORD')]) {
pushToImage(CONTAINER_NAME, CONTAINER_TAG, USERNAME, PASSWORD)
}
}
withCredentials
provided by Jenkins Credentials Binding Plugin
and bind credentials to variables. We passed dockerHubAccount value with credentialsId
parameter. Remember that, dockerHubAccount value is Docker Hub credentials ID we have defined it under Jenkins Home Page -> Credentials -> Global credentials (unrestricted) -> Add Credentials menu. In this way, we access to the username and password information of the account for login.
For Sonarqube
we have made the following definitions in the pom.xml
file of the project.
<sonar.host.url>http://sonarqube:9000</sonar.host.url>
...
<dependencies>
...
<dependency>
<groupId>org.codehaus.mojo</groupId>
<artifactId>sonar-maven-plugin</artifactId>
<version>2.7.1</version>
<type>maven-plugin</type>
</dependency>
...
</dependencies>
In the docker compose file, we gave the name of the Sonarqube service which is sonarqube
, this is why in the pom.xml
file, the sonar URL was defined as http://sonarqube:9000.