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Magento2 Helm Chart

Easily deploy Magento2 in Kubernetes including MySQL, Elasticsearch, Redis, RabbitMQ and Varnish. The project includes best-of-breed charts from Bitnami, Elasticsearch and others to give maximum flexibility for deploying and configuring the services.

The chart has been battle tested in Magento2 OpenSource and Adobe Commerce production environments. The bundled values.yaml provides basic settings, which should be adjusted before deployment.

Magento2 base image

The chart references PHOENIX MEDIA's Magento2 Docker image. It consists of an Alpine nginx+PHP8.1 base image, Magento OpenSource 2.4.4 source code and a few Composer packages to add build+deploy scripts. The image is available on DockerHub and the source code including Github Action is available in the magento2-build repository.

For more information checkout the article Running Magento2 in Kubernetes — Part 2: Building the Docker Image.

Magento ECE-Tools

ECE-Tools is a set of scripts and tools designed to manage and deploy Cloud projects.

Using ECE-Tools for building and deploying the Docker image reduces the amount of custom scripts and also gives great flexibility to adjust process as needed. It is recommended to get familiar with its build and deploy mechanisms.

It is required to review and adjust the Magento Cloud environment variables for the magento and cronjob deployment in the values.yaml:

  • MAGENTO_CLOUD_ROUTES
  • MAGENTO_CLOUD_RELATIONSHIPS
  • MAGENTO_CLOUD_VARIABLES

Their values are simply base64 encoded JSON objects. To decode them either run echo "<value>" | base64 -d or use an online decoder (beware when using sensitive data).

Note: It is best practice to maintain sensitive values in a Kubernetes Secret instead of keeping them in the values.yaml.

Updating domains MAGENTO_CLOUD_* variables and values files

The values*.yaml files contain domain specific configurations. You will need to update a few lines the environment variables of the magento, cronjob and xdebug (optional) workloads as well as in the ingress section:

magento:
  env:
    - name: MAGENTO_CLOUD_ROUTES
      value: <base64-encoded-string-containing-your-domain>

cronjob:
  env:
    - name: MAGENTO_CLOUD_ROUTES
      value: <base64-encoded-string-containing-your-domain>

ingress:
  hosts:
    - name: <your-domain>

Ingress

Before enabling the ingress make sure to configure host.name and the TLS certificate properly. When having cert-manager installed set ingress.certManager: true to automatically generate a certificate for the application.

If you prefer to skip Varnish for certain routes simply configure additional paths:

    paths:
    - path: "/"
      serviceName: varnish
      servicePort: 80
    - path: "/pub/media"
      serviceName: magento
      servicePort: 80

In case you want to protect the Magento backend by IP or BasicAuth we recommend to duplicate the templates/ingress.yaml (e.g. to your Helm project root) and configure a second Ingress with proper annotations.

Persistence

For the media and var folder Magento usually requires an NFS share. Depending on the Kubernetes environment files shares are available by referencing the correct storageClass.

In the values.yaml the persistence section and adjust it:

persistence:
  enabled: true
  name: magento-data
  #existingClaim:
  accessMode: ReadWriteMany
  size: 10Gi
  storageClassName: "files"

Existing PVCs can be also referenced by using existingClaim.

SMTP server

supervisord starts a simple Postfix MTA included in the Alpine base image. However, you should configure a mail relay which accepts mails for your Magento instance and is eligible to send emails for the configured store email addresses.

Make sure to configure it for the magento and cronjob deployment:

    env:
    - name: RELAYHOST
      value: my.relayhost.com
    - name: SMTP_USE_TLS
      value: "true"

Sample data

For fresh installations it is possible to install Magento's sample data. This requires Magento Marketplace authentication keys to be configured. They can be set in the environment variables of the cronjob deployment:

  env:
    - name: ADD_SAMPLE_DATA
      value: "true"
    - name: COMPOSER_AUTH
      value: |-
        {
          "http-basic": {
            "repo.magento.com": {
              "username": "<public key>",
              "password": "<private key>"
            }
          }
        }

Xdebug

Debugging in a remote environment can help to bring down resolution time for complex issues. Since Xdebug has to establish a TCP connection to the IDE, the network setup can become complex.

While this Helm chart won't solve the complexity of setting up a VPN and maybe DBGp proxy it deploys an additional container which has Xdebug enabled. In order to route traffic to this Xdebug-enabled Magento container you have to adjust the Varnish VCL prepared in the values.yaml:

      # whitelist your developer IPs
      acl xdebug-users {
          "192.168.0.0/24";
      }

      # uncommend these lines
      # use xdebug backend
      #    if (req.http.cookie ~ "XDEBUG_SESSION=" && std.ip(req.http.X-Real-IP, "0.0.0.0") ~ xdebug-users) {
      #        set req.backend_hint = magento_director.backend("xdebug");
      #        return (pass);
      #    }

For any request from the whitelisted networks which has the XDEBUG_SESSION request cookie (we use Xdebug Chrome Extension) the request will be sent to the xdebug pod instead of the normal magento pods.

In addition, the settings for the xdebug workload have to be adjusted in the values.yaml:

xdebug:
  enabled: true
  reuseMagentoEnvs: true
  env:
    - name: XDEBUG_INSTALL
      value: "true"
    - name: XDEBUG_REMOTE_HOST
      value: "dbgp-proxy"

Caution: Running Xdebug in a public environment can be a security issue. Enable this functionality at your own risk.

Helm deployment

The chart requires Helm 3.x and has been tested with 3.9.0. Make sure to adjust the values.yaml before deployment.

The Helm command is straight forward:

helm upgrade -i --create-namespace -n my-namespace magento .

Deploying the whole Magento2 stack is complex operation and not unlikely when trying it the first time. We prefer to use optional --wait --timeout 15m parameters in a deployment pipeline to see if the deployment was actually successful.

To deploy Magento to different environments (develop, staging, production) it is recommended to create a values_*.yaml for each environment and tune the resource limits and configuration values of the services.

Docker Desktop example

The file values_docker.yaml will override values inside values.yaml. It contains all of the necessary values that would need to change to run the Helm chart in the Docker Desktop K8S environment. The following steps will give a guide on how to achieve that:

Prerequisites

  • Install Docker Desktop >= 4.10 locally (Tested with 4.10.1) and enable Kubernetes in the settings to start the cluster. It is also recommended to increase the available resources of Docker Desktop to 4 CPU cores and 8 GB of RAM to ensure a smooth operation. Alternatively you may install kubectl separately, however that may be a more error-prone approach.
  • Clone this repository locally on your computer.

Step 1

Verify the kubectl context as shown here or alternatively generate a kube-config file which will be used for the Helm deployment. Make sure to generate it in the same folder as the git repo. Quickest way to do so is:

kubectl config view --raw > <name-of-your-file>

Step 2

Set up an environment for Helm. It is recommended to use a Docker container to avoid dependency issues:

docker run -ti --entrypoint= -v $(pwd):/apps alpine/helm:latest sh

When using the native Helm installation bear in mind that the Helm version needs to >= 3.9

Step 3

Pull the chart dependencies and deploy the Helm chart.

helm dependency update #pulls all the other charts that our chart uses
helm upgrade -i --kubeconfig <name-of-your-kubeconfig-flie> -f values_docker.yaml --create-namespace -n <your-namespace> magento .

Step 3.5

Check the progress of the Helm deployment in Kubernetes (not in your docker container)

kubectl get pods -n <your-namespace> -w

Step 4

After the deployment has fully finished an Ingress-NGINX instance is needed to access Magento store through the browser. Since Docker Desktop ships without a Kubernetes Ingress, see here, use the following Helm command to deploy it:

helm upgrade --kubeconfig kube-config --install ingress-nginx ingress-nginx --repo https://kubernetes.github.io/ingress-nginx --namespace ingress-nginx --create-namespace

The command above deploys an Ingress-NGINX pod that has access to the /etc/hosts file. Make sure to add a mapping for the predefined Magento domain, magento.local, in this file to ensure the domain points to the local K8S cluster. Ingress will then forward the traffic to the Magento instance.

echo "127.0.0.1 magento.local" >> /etc/hosts

Step 5

Navigate to http://magento.local in your browser and play around with your local Magento installation!

Disclaimer

This guide and the values_docker.yaml file are configured for the magento.local domain. You will need to update a few lines on the said file as shown in this section

GKE example

The file values_gke.yaml will override values inside values.yaml. It contains all necessary values to deploy the Helm chart in a GKE K8S environment.

Prerequisites

  • Create a Google account. You can start a free trial at GKE. It is recommended to use the built-in terminal since it will include all the necessary dependencies like Helm, kubectl and gcloud.
  • Clone this repository to the machine you decided to use.

Step 1

Create a new project and make sure it is connected to your billing account as described here.

Step 2

Switch the gcloud context to the newly created project:

gcloud config set project <project-id>

Step 3

Enable all necessary API services:

gcloud services enable container.googleapis.com
gcloud services enable file.googleapis.com

Step 4

Create new a Kubernetes cluster:

gcloud container clusters create <cluster-name> --zone=asia-east1-a --addons=HttpLoadBalancing,GcePersistentDiskCsiDriver,GcpFilestoreCsiDriver --image-type=UBUNTU_CONTAINERD --machine-type=e2-standard-2

Step 5

Create a static IP for the Ingress domain (optional, since an Ingress IP will not change unless you redeploy it) and update the values_gke.yaml file:

gcloud compute addresses create <adress-name> --global

Step 6

Pull the chart dependencies and deploy the Helm chart:

helm dependency update
helm upgrade -i -f values_gke.yaml --create-namespace -n <your-namespace> magento .

Step 7

Wait until all the workloads reached ready state and ensure the DNS resolves the configured domain name to the Ingress IP. Navigate to http://<your-domain> and checkout the new Magento2 instance.

Disclaimer

This guide and the values_gke.yaml file are configured for the magento.phoenix-media.rocks example domain. You will need to update a few lines as described in this section.

Changelog

[2.4.3] - 2022-08-18

  • Added values_gke.yaml file for GKE deployments
  • Added template for GKE managed certificates
  • Added GKE deployment guide to readme

[2.4.2] - 2022-08-11

  • Use PHOENIX MEDIA's Magento OpenSource 2.4.5 build as base image

[2.4.1] - 2022-07-21

  • Added optional ingressClassName
  • Added values_docker.yaml for Docker Desktop deployments
  • small adjustments in values.yaml

[2.4.0] - 2022-06-24

  • Use PHOENIX MEDIA's Magento OpenSource 2.4.4 build as base image
  • Updated Bitnami charts
  • Use Softonic Varnish chart
  • Use upstream Varnish version
  • Cleaned up values.yaml

Changelog

The format is based on Keep a Changelog, and this project adheres to Semantic Versioning.