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The goal is to implement a comprehensive CI/CD pipeline using the Argo stack, which includes the integration of Argo CD, Argo Rollouts, Argo Workflows, and Argo Events.

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cicd-with-argo-stack

Argo Image

💡 Description of the scenario

We want to combine Argo CD, Argo Rollouts, Argo Workflows, and Argo Events in the form of a scenario and project to see how they work together in the real world. First, we'll set up Nexus as our artifact repository to store Docker images and set up a private GitLab as our code repository. Argo Events help us trigger the workflow that we want to create. Then, using Argo Events Custom Resource Definitions (CRDs), we'll create a resource named "event-source" to connect to our desired project on GitLab (assuming this project includes the source code of the application). By doing this, a webhook will be automatically created on this project in GitLab. Upon any changes to this project, this webhook is called. The workflow needs to be automatically executed by Argo Events. For this reason, we'll create a resource named "sensor" whose task is to execute the workflow. But what is the task of workflows in this scenario? Using Argo Workflows, we'll write a CI pipeline whose task is to build a Docker image and push it to Nexus. Argo Workflows will then go to the Rollouts manifest and change the tag of the previous image with the new value. At this stage, when the Rollouts manifest changes, Argo CD detects the new change and applies it to the Kubernetes cluster. In this scenario, we have used the canary strategy in the Rollouts manifest.

This repository has two different sections to follow:

  • Requirements of this scenario
  • Executing the scenario

🔎 Requirements of this scenario

1️⃣ Install sonatype nexus repository in your nexus server:

cd nexus/ && docker-compose up -d

If Nexus is up and running, create a repository named argo-demo with the type docker (hosted) and set its HTTP port to 8085.

2️⃣ Add private registry to Docker/containerd in your kubernetes cluster:

Docker:

cat <<EOF | sudo tee /etc/docker/daemon.json
{
  "insecure-registries": ["REPLACE_ME_WITH_NEXUS_IP_ADDRESS:8085"]
}
EOF

Containerd:

sudo tee -a /etc/containerd/config.toml <<EOF
[plugins."io.containerd.grpc.v1.cri".registry]
  [plugins."io.containerd.grpc.v1.cri".registry.mirrors]
    [plugins."io.containerd.grpc.v1.cri".registry.mirrors."REPLACE_ME_WITH_NEXUS_IP_ADDRESS:8085"]
      endpoint = ["http://REPLACE_ME_WITH_NEXUS_IP_ADDRESS:8085"]
EOF

Restart the service

Test everything is working well:

docker login -u USERNAME NEXUS_IP_ADDRESS:8085
docker pull nginx:alpine
docker tag nginx:alpine NEXUS_IP_ADDRESS:8085/nginx:alpine && docker push NEXUS_IP_ADDRESS:8085/nginx:alpine

3️⃣ Install and configure Gitlab

  • Install GitLab on your GitLab server
  • Create two different repositories named argo-config and my-app in GitLab
  • Put the content of the argo-cd, argo-rollouts and argo-events directories into the argo-config GitLab repository
  • Put the content of the my-app directory into the my-app GitLab repository

4️⃣ Create these namespaces in your Kubernetes cluster:

kubectl create ns argocd
kubectl create ns argo-rollouts
kubectl create ns argo
kubectl create ns argo-events

5️⃣ Install argo-cd, argo-rollouts, argo-workflows and argo-events in your kubernetes cluster

6️⃣ Create a Kubernetes secret in your Kubernetes cluster containing authentication credentials for Nexus:

kubectl create secret generic -n argo-events docker-config-secret --from-file=/path/to/.docker/config.json

7️⃣ Install Minio in your kubernetes cluster and integrate it with Argo Workflows to store workflows artifacts:

helm install -n argo-events argo-artifacts oci://registry-1.docker.io/bitnamicharts/minio --set service.type=NodePort --set service.nodePorts.api=32073 --set service.nodePorts.console=32074 --set fullnameOverride=argo-artifacts

Retrieve your ROOT-PASSWORD and ROOT-USER:

echo `kubectl get secret argo-artifacts --namespace argo-events -o jsonpath="{.data.root-password}"| base64 --decode`
echo `kubectl get secret argo-artifacts --namespace argo-events -o jsonpath="{.data.root-user}"| base64 --decode`

Create a kubernetes secret in the argo-events namespace, so workflows can use it to connect to minio:

kubectl create secret -n argo-events generic my-minio-cred --from-literal=root-user='REPLACE_ME_WITH_BASE64-DECODED-VALUE-OF-THE-ROOT-USER' --from-literal=root-password='REPLACE_ME_WITH_BASE64-DECODED-VALUE-OF-THE-ROOT-PASSWORD'

Create a kubernetes configmap in the argo-events namespace, so workflows can use it to store artifacts in minio:

kubectl apply -f minio/minio-artifact-repo-cm.yml -n argo-events

🔎 Executing the scenario

Test the scenario to see how it works

Proceed with these steps in order once the previous step is completed

  1. Install your first argo-cd application using kubectl apply -f argo-cd/argo-app.yml -n argocd
  2. Apply argo-events resources in your kubernetes cluster using kubectl apply -f argo-events/ -n argo-events
  3. Open the browser and type the url of argo,rollouts, argo-cd and argo-workflows to see their dashboards and also type the url of your app: http://argo.demo (it has been deployed on your kubernetes cluster in step 1)
  4. Modify the index.html file that exists in your my-app GitLab repository
  5. If you check the Argo Workflows dashboard, you'll see that a workflow is running, triggered by a push event in your my-app GitLab repository
  6. The default polling interval in Argo CD is 3 minutes, indicating how frequently Argo CD checks for changes in your Git repository. Wait for 3 minutes or refresh your Argo CD app using its dashboard or CLI manually
  7. As specified in the Argo Rollouts manifest, 20% of the traffic is directed to the new version of the app and the promotion is paused until you manually unpause it (check http://argo.demo and refresh the page multiple times). If you are confident that everything is in order with the new version of the app, type kubectl argo rollouts promote nginx-rollouts -n argo-demo and then check the Argo Rollouts dashboard again. so, after a few minutes, you'll fully switch to the new version of your application. In this scenario, we are using the canary strategy, but you can also opt for the blue-green strategy if you prefer

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The goal is to implement a comprehensive CI/CD pipeline using the Argo stack, which includes the integration of Argo CD, Argo Rollouts, Argo Workflows, and Argo Events.

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