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Helm Chart Installation

Introduction

This document will walk you through how to get started with our Element Server Suite Helm Charts. These charts are provided to be used in environments which typically deploy applications by helm charts. If you are unfamiliar with helm charts, we'd highly recommend that you start with our Enterprise Installer.

General concepts

ESS deployment rely on the following components to deploy the workloads on a kubernetes cluster :

  1. Updater : It reads an ElementDeployment CRD manifest, and generates the associated individual Element CRDs manifests linked together
  2. Operator : It reads the individual Element CRDs manifests to generates the associated kubernetes workloads
  3. ElementDeployment : This CRD is a simple structure following the pattern :
spec:
  global:
    k8s:
      # Global settings that will be applied by default to all workloads if not forced locally. This is where you will be able to configure a default ingress certificate, default number of replicas on the deployments, etc.
    config:
      # Global configuration that can be used by every element component
    secretName: # The global secret name. Required secrets keys can be found in the description of this field using `kubectl explain`. Every config named `<foo>SecretKey` will point to a secret key containing the secret targetted by this secret name.
  components:
    <component name>:
      k8s: 
        # Local kubernetes configuration of this component. You can override here the global values to force a certain behaviour for each components.
      config:
        # This component configuration
      secretName: # The component secret name containing secret values. Required secrets keys can be found in the description of this field using `kubectl explain`.  Every config named `<foo>SecretKey` will point to a secret key containing the secret targetted by this secret name.
   <another component>:
     ...

Any change to the ElementDeployment manifest deployed in the namespace will trigger a reconciliation loop. This loop will update the Element manifests read by the Operator. It will again trigger a reconciliation loop in the Operator process, which will update kubernetes workloads accordingly.

If you manually change a workload, it will trigger a reconciliation loop and the Operator will override your change on the workload.

The deployment must be managed only through the ElementDeployment CRD.

Installing the Operator and the Updater helm charts

We advise you to deploy the helm charts in one of the deployments model :

  1. Cluster-Wide deployment : In this mode, the CRDs Conversion Webhook and the controller managers are deployed in their own namespace, separated from ESS deployments. They are able to manage ESS deployments in any namespace of the cluster The install and the upgrade of the helm chart requires cluster admin permissions.
  2. Namespace-scoped deployment : In this mode, only the CRDs conversion webhooks require cluster admin permissions. The Controller managers are deployed directly in the namespace of the element deployment. The install and the upgrade of ESS does not require cluster admin permissions if the CRDs do not change.

All-in-one deployment (Requires cert-manager)

When cert-manager is present in the cluster, it is possible to use the all-in-one ess-system helm chart to deploy the operator and the updater.

First, let's add the ess-system repository to helm, replace ems_image_store_username and ems_image_store_token with the values provided to you by Element.

helm repo add ess-system https://registry.element.io/helm/ess-system --username
<ems_image_store_username> --password '<ems_image_store_token>' --version ~2.17.0

Cluster-wide deployment

When deploying ESS-System as a cluster-wide deployment, updating ESS requires ClusterAdmin permissions.

Create the following values file :


emsImageStore:
  username: <username>
  password: <password>

element-operator:
  clusterDeployment: true
  deployCrds: true  # Deploys the CRDs and the Conversion Webhooks
  deployCrdRoles: true  # Deploys roles to give permissions to users to manage specific ESS CRs
  deployManager: true  # Deploys the controller managers

element-updater:
  clusterDeployment: true
  deployCrds: true  # Deploys the CRDs and the Conversion Webhooks
  deployCrdRoles: true  # Deploys roles to give permissions to users to manage specific ESS CRs
  deployManager: true  # Deploys the controller managers

Namespace-scoped deployment

When deploying ESS-System as a namespace-scoped deployment, you have to deploy ess-system in two parts :

  1. One for the CRDs and the conversion webhooks. This part will be managed with ClusterAdmin permissions. These update less often.
  2. One for the controller managers. This part will be managed with namespace-scoped permissions.

In this mode, the ElementDeployment CR is deployed in the same namespace as the controller-managers.

Create the following values file to deploy the CRDs and the conversion webhooks :


emsImageStore:
  username: <username>
  password: <password>

element-operator:
  clusterDeployment: true
  deployCrds: true  # Deploys the CRDs and the Conversion Webhooks
  deployCrdRoles: false  # Deploys roles to give permissions to users to manage specific ESS CRs
  deployManager: false  # Deploys the controller managers

element-updater:
  clusterDeployment: true
  deployCrds: true  # Deploys the CRDs and the Conversion Webhooks
  deployCrdRoles: false  # Deploys roles to give permissions to users to manage specific ESS CRs
  deployManager: false  # Deploys the controller managers

Create the following values file to deploy the controller managers in their namespace :


emsImageStore:
  username: <username>
  password: <password>

element-operator:
  clusterDeployment: false
  deployCrds: false  # Deploys the CRDs and the Conversion Webhooks
  deployCrdRoles: false  # Deploys roles to give permissions to users to manage specific ESS CRs
  deployManager: true  # Deploys the controller managers

element-updater:
  clusterDeployment: false
  deployCrds: false  # Deploys the CRDs and the Conversion Webhooks
  deployCrdRoles: false  # Deploys roles to give permissions to users to manage specific ESS CRs
  deployManager: true  # Deploys the controller managers

Without cert-manager present on the cluster

First, let's add the element-updater and element-operator repositories to helm, replace ems_image_store_username and ems_image_store_token with the values provided to you by Element.

helm repo add element-updater https://registry.element.io/helm/element-updater --username
<ems_image_store_username> --password '<ems_image_store_token>'
helm repo add element-operator https://registry.element.io/helm/element-operator --username <ems_image_store_username> --password '<ems_image_store_token>'

Now that we have the repositories configured, we can verify this by:

helm repo list

and should see the following in that output:

NAME                    URL                                               
element-operator        https://registry.element.io/helm/element-operator
element-updater         https://registry.element.io/helm/element-updater

N.B. This guide assumes that you are using the element-updater and element-operator namespaces. You can call it whatever you want and if it doesn't exist yet, you can create it with: kubectl create ns <name>.

Generating an image pull secret with EMS credentials

To generate an ems-credentials  to be used by your helm chart deployment, you will need to generate an authentication token and palce it in a secret.

kubectl create secret -n element-updater docker-registry ems-credentials --docker-server=registry.element.io --docker-username=<EMSusername> --docker-password=<EMStoken>`
kubectl create secret -n element-operator docker-registry ems-credentials --docker-server=registry.element.io --docker-username=<EMSusername> --docker-password=<EMStoken>`

Generating a TLS secret for the webhook

The conversion webhooks need their own self-signed CA and TLS certificate to be integrated into kubernetes.

For example using easy-rsa :

easyrsa init-pki
easyrsa --batch "--req-cn=ESS-CA`date +%s`" build-ca nopass
easyrsa --subject-alt-name="DNS:element-operator-conversion-webhook.element-operator"\
  --days=10000 \
  build-server-full element-operator-conversion-webhook nopass
easyrsa --subject-alt-name="DNS:element-updater-conversion-webhook.element-updater"\
  --days=10000 \
  build-server-full element-updater-conversion-webhook nopass

Create a secret for each of these two certificates :

kubectl create secret tls element-operator-conversion-webhook --cert=pki/issued/element-operator-conversion-webhook.crt --key=pki/private/element-operator-conversion-webhook.key  --namespace element-operator
kubectl create secret tls element-updater-conversion-webhook --cert=pki/issued/element-updater-conversion-webhook.crt --key=pki/private/element-updater-conversion-webhook.key  --namespace element-updater

Installing the helm chart for the element-updater and the element-operator

Create the following values file to deploy the controller managers in their namespace :

values.element-operator.yml :

clusterDeployment: true
deployCrds: true  # Deploys the CRDs and the Conversion Webhooks
deployCrdRoles: true  # Deploys roles to give permissions to users to manage specific ESS CRs
deployManager: true  # Deploys the controller managers
crds:
  conversionWebhook:
    caBundle: # Paste here the content of `base64 pki/ca.crt -w 0`
    tlsSecretName: element-operator-conversion-webhook
    imagePullSecret: ems-credentials
operator:
  imagePullSecret: ems-credentials

values.element-updater.yml :

clusterDeployment: true
deployCrds: true  # Deploys the CRDs and the Conversion Webhooks
deployCrdRoles: true  # Deploys roles to give permissions to users to manage specific ESS CRs
deployManager: true  # Deploys the controller managers
crds:
  conversionWebhook:
    caBundle: # Paste here the content of `base64 pki/ca.crt -w 0`
    tlsSecretName: element-updater-conversion-webhook
    imagePullSecret: ems-credentials
updater:
  imagePullSecret: ems-credentials

Run the helm install command :

helm install element-operator element-operator/element-operator --namespace element-operator -f values.yaml  --version ~2.17.0
helm install element-updater element-updater/element-updater --namespace element-updater -f values.yaml --version ~2.17.0

Now at this point, you should have the following 4 containers up and running:

[user@helm ~]$ kubectl get pods -n element-operator
NAMESPACE            NAME                                                   READY   STATUS    RESTARTS        AGE
element-operator     element-operator-controller-manager-c8fc5c47-nzt2t     2/2     Running   0               6m5s
element-operator     element-operator-conversion-webhook-7477d98c9b-xc89s   1/1     Running   0               6m5s
[user@helm ~]$ kubectl get pods -n element-updater
NAMESPACE            NAME                                                   READY   STATUS    RESTARTS        AGE
element-updater      element-updater-controller-manager-6f8476f6cb-74nx5    2/2     Running   0               106s
element-updater      element-updater-conversion-webhook-65ddcbb569-qzbfs    1/1     Running   0               81s

Generating the ElementDeployment CR to Deploy Element Server Suite

The ess-stack helm chart is available in the ess-system repository :

helm repo add ess-system https://registry.element.io/helm/ess-system --username
<ems_image_store_username> --password '<ems_image_store_token>'

You can install it using the following command against your values file. See below for the value file configuration.

helm install ess-system/ess-stack --namespace element-onprem -f values.yaml  --version ~2.17.0

It will deploy an ElementDeployment CR and its associated secrets from the chart values file.

The values file will contain the following structure :

  • Available Components & Global settings can be found under https://ess-schemas-docs.element.io
  • For each SecretKey variable, the value will point to a secret key under secrets. For example, components.synapse.config.macaroonSecretKey is macaroon, so a macaroon secret must exists under secrets.synapse.content.
  • You can see a demo at the starter-edition open source repository
emsImageStore:
  username: <username>
  password: <password>

secrets:
  global:
    content:
      genericSharedSecret: # generic shared secret
  synapse:
    content:
        macaroon: # macaroon
        adminPassword: # synapse admin password
        postgresPassword: # postgres password
        telemetryPassword: # your ems image store password
        registrationSharedSecret: # registration shared secret
        # python3 -c "import signedjson.key; signing_key = signedjson.key.generate_signing_key(0); print(f\"{signing_key.alg} {signing_key.version} {signedjson.key.encode_signing_key_base64(signing_key)}\")"
        signingKey: # REPLACE WITH OUTPUT FROM PYTHON COMMAND ABOVE

 # globalOptions contains the global properties of the ELementDeployment CRD
globalOptions:
  config:
    domainName: # your base domain
  k8s:
    ingresses:
      tls:
        mode: certmanager
        certmanager:
          issuer: letsencrypt
    workloads:
      replicas: 1

components:
  elementWeb: 
    k8s:
      ingress:
        fqdn:  # element web fqdn
  synapse:
    config:
      media:
        volume:
          size: 5Gi
      postgresql:
        database: # postgres database
        host:  # postgres host
        port: 5432
        user: # postgres user
      telemetry:
        username: <your ems image store username>
        instanceId: <your ems image store username>
    k8s:
      ingress:
        fqdn: # synapse fqdn
  wellKnownDelegation:
    config: {}
    k8s: {}

Checking deployment progress

To check on the progress of the deployment, you will first watch the logs of the updater:

kubectl logs -f -n element-updater element-updater-controller-manager-<rest of pod name>

You will have to tab complete to get the correct hash for the element-updater-controller-manager pod name.

Once the updater is no longer pushing out new logs, you can track progress with the operator or by watching pods come up in the element-onprem namespace.

Operator status:

kubectl logs -f -n element-operator element-operator element-operator-controller-manager-<rest of pod name>

Watching reconciliation move forward in the element-onprem namespace:

kubectl get elementdeployment -o yaml | grep dependentCRs -A20 -n element-onprem -w

Watching dependent CRs errors :

kubectl get <dependentCR>/<name> -o yaml

Watching pods come up in the element-onprem namespace:

kubectl get pods -n element-onprem -w