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Version: 4.0.x

Deploy a Pulsar cluster on Kubernetes

Before deploying a Pulsar cluster, you need to prepare Kubernetes resources and then continue with the following steps.

Step 1: Select configuration options

Specify how to run Pulsar using Helm's --set option.name=value command line option. In each section, collect the options that are combined to use with the helm install command.

Kubernetes namespace

By default, the Pulsar Helm Chart is installed in a namespace called pulsar.

namespace: pulsar

To install the Pulsar Helm Chart into a different Kubernetes namespace, you can include this option in the helm install command.

--set namespace=<different-k8s-namespace>

By default, the Pulsar Helm Chart doesn't create the namespace.

namespaceCreate: false

To use the Pulsar Helm Chart to create the Kubernetes namespace automatically, you can include this option in the helm install command.

--set namespaceCreate=true

Persistence

By default, the Pulsar Helm Chart creates Volume Claims with the expectation that a dynamic provisioner creates the underlying Persistent Volumes.

volumes:
persistence: true
note

Before installing the production instance of Pulsar, ensure to plan the storage settings to avoid extra storage migration work. Because after initial installation, you must edit Kubernetes objects manually if you want to change storage settings.

The Pulsar Helm Chart is designed for production use. To use the Pulsar Helm Chart in a development environment (such as Minikube), you can disable persistence by including this option in your helm install command.

--set volumes.persistence=false

Affinity

By default, anti-affinity is enabled to ensure pods of the same component can run on different nodes.

affinity:
anti_affinity: true

To use the Pulsar Helm Chart in a development environment (such as Minikube), you can disable anti-affinity by including this option in your helm install command.

--set affinity.anti_affinity=false

Components

The Pulsar Helm Chart is designed for production usage. It deploys a production-ready Pulsar cluster, including Pulsar core components and monitoring components.

You can customize the components to be deployed by turning on/off individual components.

## Components
##
## Control what components of Apache Pulsar to deploy for the cluster
components:
# zookeeper
zookeeper: true
# bookkeeper
bookkeeper: true
# bookkeeper - autorecovery
autorecovery: true
# broker
broker: true
# functions
functions: true
# proxy
proxy: true
# toolset
toolset: true
# pulsar manager
pulsar_manager: true
Monitoring Components

The Pulsar Helm Chart installs monitoring components using a dependent Helm chart, kube-prometheus-stack. You can customize this Helm chart to specify which monitoring components to install. These components are enabled by default.

## Monitoring Components
##
## Control what components of the kube-prometheus-stack Helm chart to deploy for the cluster
kube-prometheus-stack:
# Control deployment of this Helm chart entirely
enabled: true
# prometheus
prometheus:
enabled: true
promtheus-node-exporter:
enabled: true
# grafana
grafana:
enabled: true

Docker images

The Pulsar Helm Chart is designed to enable controlled upgrades. So it can configure independent image versions for components. You can customize the images by setting individual components.

## Images
##
## Control what images to use for each component
images:
zookeeper:
repository: apachepulsar/pulsar-all
tag: 4.0.0
pullPolicy: IfNotPresent
bookie:
repository: apachepulsar/pulsar-all
tag: 4.0.0
pullPolicy: IfNotPresent
autorecovery:
repository: apachepulsar/pulsar-all
tag: 4.0.0
pullPolicy: IfNotPresent
broker:
repository: apachepulsar/pulsar-all
tag: 4.0.0
pullPolicy: IfNotPresent
proxy:
repository: apachepulsar/pulsar-all
tag: 4.0.0
pullPolicy: IfNotPresent
functions:
repository: apachepulsar/pulsar-all
tag: 4.0.0
pulsar_manager:
repository: apachepulsar/pulsar-manager
tag: v0.3.0
pullPolicy: IfNotPresent
hasCommand: false

The Pulsar Helm Chart also lets you specify the image versions used by initialization containers used to coordinate creation and connection of dependent Pulsar resources.

## Images
##
## Control what image to use for Pulsar init containers
pulsar_metadata:
component: pulsar-init
image:
repository: apachepulsar/pulsar-all
tag: 4.0.0
pullPolicy: IfNotPresent
tip

If using a private Docker repository or pull-thru cache, the repository configuration option must be changed accordingly for all component defintions including the pulsar_metadata component.

TLS

The Pulsar Helm Chart can be configured to enable TLS (Transport Layer Security) to protect all the traffic between components. Before enabling TLS, you have to provision TLS certificates for the required components.

Provision TLS certificates using cert-manager

To use the cert-manager to provision the TLS certificates, you have to install the cert-manager before installing the Pulsar Helm Chart. After successfully installing the cert-manager, you can set certs.internal_issuer.enabled to true. Therefore, the Pulsar Helm Chart can use the cert-manager to generate selfsigning TLS certificates for the configured components.

certs:
internal_issuer:
enabled: false
component: internal-cert-issuer
type: selfsigning

You can also customize the generated TLS certificates by configuring the fields as the following.

tls:
# common settings for generating certs
common:
# 90d
duration: 2160h
# 15d
renewBefore: 360h
organization:
- pulsar
keySize: 4096
keyAlgorithm: rsa
keyEncoding: pkcs8
Enable TLS

After installing the cert-manager, you can set tls.enabled to true to enable TLS encryption for the entire cluster.

tls:
enabled: false

You can also configure whether to enable TLS encryption for individual components.

tls:
# settings for generating certs for proxy
proxy:
enabled: false
cert_name: tls-proxy
# settings for generating certs for broker
broker:
enabled: false
cert_name: tls-broker
# settings for generating certs for bookies
bookie:
enabled: false
cert_name: tls-bookie
# settings for generating certs for zookeeper
zookeeper:
enabled: false
cert_name: tls-zookeeper
# settings for generating certs for recovery
autorecovery:
cert_name: tls-recovery
# settings for generating certs for toolset
toolset:
cert_name: tls-toolset

Authentication

By default, authentication is disabled. You can set auth.authentication.enabled to true to enable authentication. Currently, the Pulsar Helm Chart only supports the JWT authentication provider. You can set auth.authentication.provider to jwt to use the JWT authentication provider.

# Enable or disable broker authentication and authorization.
auth:
authentication:
enabled: false
provider: "jwt"
jwt:
# Enable JWT authentication
# If the token is generated by a secret key, set the usingSecretKey as true.
# If the token is generated by a private key, set the usingSecretKey as false.
usingSecretKey: false
superUsers:
# broker to broker communication
broker: "broker-admin"
# proxy to broker communication
proxy: "proxy-admin"
# pulsar-admin client to broker/proxy communication
client: "admin"

To enable authentication, you can run prepare helm release to generate token secret keys and tokens for three super users specified in the auth.superUsers field. The generated token keys and super user tokens are uploaded and stored as Kubernetes secrets prefixed with <pulsar-release-name>-token-. You can use the following command to find those secrets.

kubectl get secrets -n <k8s-namespace>

Authorization

By default, authorization is disabled. Authorization can be enabled only when authentication is enabled.

auth:
authorization:
enabled: false

To enable authorization, you can include this option in the helm install command.

--set auth.authorization.enabled=true

CPU and RAM resource requirements

By default, the resource requests and the number of replicas for the Pulsar components in the Pulsar Helm Chart are adequate for small production deployment. If you deploy a non-production instance, you can reduce the defaults to fit into a smaller cluster.

Once you have all of your configuration options collected, you can install dependent charts before installing the Pulsar Helm Chart.

Step 2: Install dependent charts

Install storage provisioner

For more information about storage provisioner, refer to Kubernetes documentation. Note that you need to create a storage class for your Kubernetes cluster and configure the storage class name in the Helm Chart.

If you want to use local persistent volumes as the persistent storage, you need to install a local storage provisioner. Here are two options:

Install cert-manager

The Pulsar Helm Chart uses the cert-manager to provision and manage TLS certificates automatically. To enable TLS encryption for brokers or proxies, you need to install the cert-manager in advance.

For details about how to install the cert-manager, follow the official instructions.

Alternatively, we provide a bash script install-cert-manager.sh to install a cert-manager release to the namespace cert-manager.

git clone https://github.com/apache/pulsar-helm-chart
cd pulsar-helm-chart
./scripts/cert-manager/install-cert-manager.sh

Step 3: Prepare Helm release

Once you have installed all the dependent charts and collected all of your configuration options, you can run prepare_helm_release.sh to prepare the Helm release.

git clone https://github.com/apache/pulsar-helm-chart
cd pulsar-helm-chart
./scripts/pulsar/prepare_helm_release.sh -n <k8s-namespace> -k <helm-release-name>

The prepare_helm_release creates the following resources:

  • A Kubernetes namespace for installing the Pulsar release.
  • JWT secret keys and tokens for three super users: broker-admin, proxy-admin, and admin. By default, it generates an asymmetric public/private key pair. You can choose to generate a symmetric secret key by specifying --symmetric.
    • the broker-admin role is used for inter-broker communications.
    • the proxy-admin role is used for proxies to communicate with brokers.
    • the admin role is used by the admin tools.

Step 4: Deploy Pulsar cluster using Helm

Once you have finished the above steps, you can install a Helm release.

In this example, the Helm release is named pulsar.

helm repo add apache https://pulsar.apache.org/charts
helm repo update
helm install pulsar apache/pulsar \
--timeout 10m \
--set [your configuration options]

You can also use the --version <installation version> option if you want to install a specific version of Pulsar Helm Chart.

tip

A list of installed resources is output once the Pulsar cluster is deployed. This may take 5-10 minutes.

To check the status of the deployment, run the helm status pulsar command. It can also be done while the deployment is taking place if you run the command in another terminal.

Access Pulsar cluster

The default values will create a ClusterIP for the following resources, which you can use to interact with the cluster.

  • Proxy: You can use the IP address to produce and consume messages to the installed Pulsar cluster.
  • Pulsar Manager: You can access the Pulsar Manager UI at http://<pulsar-manager-ip>:9527.
  • Grafana Dashboard: You can access the Grafana dashboard at http://<grafana-dashboard-ip>:3000.

To find the IP addresses of those components, run the following command:

kubectl get service -n <k8s-namespace>

You can configure the Proxy and the Pulsar Manager as a NodePort instead of a ClusterIP.

proxy:
service:
type: NodePort
pulsar_manager:
service:
type: NodePort

Troubleshoot

Although we have done our best to make these charts as seamless as possible, troubles do go out of our control occasionally. We have been collecting tips and tricks for troubleshooting common issues. Check it first before raising an issue, and feel free to add your solutions by creating a Pull Request.

Uninstall

To uninstall the Pulsar Helm Chart, run the following command:

helm uninstall <pulsar-release-name>

For the purposes of continuity, some Kubernetes objects in these charts cannot be removed by using the helm uninstall command. It is recommended to consciously remove these items, as they affect re-deployment.

  • PVCs for stateful data: remove these items.
    • ZooKeeper: This is your metadata.
    • BookKeeper: This is your data.
    • Prometheus: This is your metrics data, which can be safely removed.
  • Secrets: if the secrets are generated by the prepared release script, they contain secret keys and tokens. You can use the cleanup release script to remove these secrets and tokens as needed.