This version is still in development and is not considered stable yet. For the latest stable version, please use Spring Boot 3.3.5!

Apache Pulsar Support

Apache Pulsar is supported by providing auto-configuration of the Spring for Apache Pulsar project.

Spring Boot will auto-configure and register the classic (imperative) Spring for Apache Pulsar components when org.springframework.pulsar:spring-pulsar is on the classpath. It will do the same for the reactive components when org.springframework.pulsar:spring-pulsar-reactive is on the classpath.

There are spring-boot-starter-pulsar and spring-boot-starter-pulsar-reactive starters for conveniently collecting the dependencies for imperative and reactive use, respectively.

Connecting to Pulsar

When you use the Pulsar starter, Spring Boot will auto-configure and register a PulsarClient bean.

By default, the application tries to connect to a local Pulsar instance at pulsar://localhost:6650. This can be adjusted by setting the spring.pulsar.client.service-url property to a different value.

The value must be a valid Pulsar Protocol URL

You can configure the client by specifying any of the spring.pulsar.client.* prefixed application properties.

If you need more control over the configuration, consider registering one or more PulsarClientBuilderCustomizer beans.

Authentication

To connect to a Pulsar cluster that requires authentication, you need to specify which authentication plugin to use by setting the pluginClassName and any parameters required by the plugin. You can set the parameters as a map of parameter names to parameter values. The following example shows how to configure the AuthenticationOAuth2 plugin.

  • Properties

  • YAML

spring.pulsar.client.authentication.plugin-class-name=org.apache.pulsar.client.impl.auth.oauth2.AuthenticationOAuth2
spring.pulsar.client.authentication.param.issuerUrl=https://auth.server.cloud/
spring.pulsar.client.authentication.param.privateKey=file:///Users/some-key.json
spring.pulsar.client.authentication.param.audience=urn:sn:acme:dev:my-instance
spring:
  pulsar:
    client:
      authentication:
        plugin-class-name: org.apache.pulsar.client.impl.auth.oauth2.AuthenticationOAuth2
        param:
          issuerUrl: https://auth.server.cloud/
          privateKey: file:///Users/some-key.json
          audience: urn:sn:acme:dev:my-instance

You need to ensure that names defined under spring.pulsar.client.authentication.param.* exactly match those expected by your auth plugin (which is typically camel cased). Spring Boot will not attempt any kind of relaxed binding for these entries.

For example, if you want to configure the issuer url for the AuthenticationOAuth2 auth plugin you must use spring.pulsar.client.authentication.param.issuerUrl. If you use other forms, such as issuerurl or issuer-url, the setting will not be applied to the plugin.

This lack of relaxed binding also makes using environment variables for authentication parameters problematic because the case sensitivity is lost during translation. If you use environment variables for the parameters then you will need to follow these steps in the Spring for Apache Pulsar reference documentation for it to work properly.

SSL

By default, Pulsar clients communicate with Pulsar services in plain text. You can follow these steps in the Spring for Apache Pulsar reference documentation to enable TLS encryption.

For complete details on the client and authentication see the Spring for Apache Pulsar reference documentation.

Connecting to Pulsar Reactively

When the Reactive auto-configuration is activated, Spring Boot will auto-configure and register a ReactivePulsarClient bean.

The ReactivePulsarClient adapts an instance of the previously described PulsarClient. Therefore, follow the previous section to configure the PulsarClient used by the ReactivePulsarClient.

Connecting to Pulsar Administration

Spring for Apache Pulsar’s PulsarAdministration client is also auto-configured.

By default, the application tries to connect to a local Pulsar instance at http://localhost:8080. This can be adjusted by setting the spring.pulsar.admin.service-url property to a different value in the form (http|https)://<host>:<port>.

If you need more control over the configuration, consider registering one or more PulsarAdminBuilderCustomizer beans.

Authentication

When accessing a Pulsar cluster that requires authentication, the admin client requires the same security configuration as the regular Pulsar client. You can use the aforementioned authentication configuration by replacing spring.pulsar.client.authentication with spring.pulsar.admin.authentication.

To create a topic on startup, add a bean of type PulsarTopic. If the topic already exists, the bean is ignored.

Sending a Message

Spring’s PulsarTemplate is auto-configured, and you can use it to send messages, as shown in the following example:

  • Java

  • Kotlin

import org.springframework.pulsar.core.PulsarTemplate;
import org.springframework.stereotype.Component;

@Component
public class MyBean {

	private final PulsarTemplate<String> pulsarTemplate;

	public MyBean(PulsarTemplate<String> pulsarTemplate) {
		this.pulsarTemplate = pulsarTemplate;
	}

	public void someMethod() {
		this.pulsarTemplate.send("someTopic", "Hello");
	}

}
import org.apache.pulsar.client.api.PulsarClientException
import org.springframework.pulsar.core.PulsarTemplate
import org.springframework.stereotype.Component

@Component
class MyBean(private val pulsarTemplate: PulsarTemplate<String>) {

	@Throws(PulsarClientException::class)
	fun someMethod() {
		pulsarTemplate.send("someTopic", "Hello")
	}

}

The PulsarTemplate relies on a PulsarProducerFactory to create the underlying Pulsar producer. Spring Boot auto-configuration also provides this producer factory, which by default, caches the producers that it creates. You can configure the producer factory and cache settings by specifying any of the spring.pulsar.producer.* and spring.pulsar.producer.cache.* prefixed application properties.

If you need more control over the producer factory configuration, consider registering one or more ProducerBuilderCustomizer beans. These customizers are applied to all created producers. You can also pass in a ProducerBuilderCustomizer when sending a message to only affect the current producer.

If you need more control over the message being sent, you can pass in a TypedMessageBuilderCustomizer when sending a message.

Sending a Message Reactively

When the Reactive auto-configuration is activated, Spring’s ReactivePulsarTemplate is auto-configured, and you can use it to send messages, as shown in the following example:

  • Java

  • Kotlin

import org.springframework.pulsar.reactive.core.ReactivePulsarTemplate;
import org.springframework.stereotype.Component;

@Component
public class MyBean {

	private final ReactivePulsarTemplate<String> pulsarTemplate;

	public MyBean(ReactivePulsarTemplate<String> pulsarTemplate) {
		this.pulsarTemplate = pulsarTemplate;
	}

	public void someMethod() {
		this.pulsarTemplate.send("someTopic", "Hello").subscribe();
	}

}
import org.springframework.pulsar.reactive.core.ReactivePulsarTemplate
import org.springframework.stereotype.Component

@Component
class MyBean(private val pulsarTemplate: ReactivePulsarTemplate<String>) {

	fun someMethod() {
		pulsarTemplate.send("someTopic", "Hello").subscribe()
	}

}

The ReactivePulsarTemplate relies on a ReactivePulsarSenderFactory to actually create the underlying sender. Spring Boot auto-configuration also provides this sender factory, which by default, caches the producers that it creates. You can configure the sender factory and cache settings by specifying any of the spring.pulsar.producer.* and spring.pulsar.producer.cache.* prefixed application properties.

If you need more control over the sender factory configuration, consider registering one or more ReactiveMessageSenderBuilderCustomizer beans. These customizers are applied to all created senders. You can also pass in a ReactiveMessageSenderBuilderCustomizer when sending a message to only affect the current sender.

If you need more control over the message being sent, you can pass in a MessageSpecBuilderCustomizer when sending a message.

Receiving a Message

When the Apache Pulsar infrastructure is present, any bean can be annotated with @PulsarListener to create a listener endpoint. The following component creates a listener endpoint on the someTopic topic:

  • Java

  • Kotlin

import org.springframework.pulsar.annotation.PulsarListener;
import org.springframework.stereotype.Component;

@Component
public class MyBean {

	@PulsarListener(topics = "someTopic")
	public void processMessage(String content) {
		// ...
	}

}
import org.springframework.pulsar.annotation.PulsarListener
import org.springframework.stereotype.Component

@Component
class MyBean {

	@PulsarListener(topics = ["someTopic"])
	fun processMessage(content: String?) {
		// ...
	}

}

Spring Boot auto-configuration provides all the components necessary for PulsarListener, such as the PulsarListenerContainerFactory and the consumer factory it uses to construct the underlying Pulsar consumers. You can configure these components by specifying any of the spring.pulsar.listener.* and spring.pulsar.consumer.* prefixed application properties.

If you need more control over the consumer factory configuration, consider registering one or more ConsumerBuilderCustomizer beans. These customizers are applied to all consumers created by the factory, and therefore all @PulsarListener instances. You can also customize a single listener by setting the consumerCustomizer attribute of the @PulsarListener annotation.

Receiving a Message Reactively

When the Apache Pulsar infrastructure is present and the Reactive auto-configuration is activated, any bean can be annotated with @ReactivePulsarListener to create a reactive listener endpoint. The following component creates a reactive listener endpoint on the someTopic topic:

  • Java

  • Kotlin

import reactor.core.publisher.Mono;

import org.springframework.pulsar.reactive.config.annotation.ReactivePulsarListener;
import org.springframework.stereotype.Component;

@Component
public class MyBean {

	@ReactivePulsarListener(topics = "someTopic")
	public Mono<Void> processMessage(String content) {
		// ...
		return Mono.empty();
	}

}
import org.springframework.pulsar.reactive.config.annotation.ReactivePulsarListener
import org.springframework.stereotype.Component
import reactor.core.publisher.Mono

@Component
class MyBean {

	@ReactivePulsarListener(topics = ["someTopic"])
	fun processMessage(content: String?): Mono<Void> {
		// ...
		return Mono.empty()
	}

}

Spring Boot auto-configuration provides all the components necessary for ReactivePulsarListener, such as the ReactivePulsarListenerContainerFactory and the consumer factory it uses to construct the underlying reactive Pulsar consumers. You can configure these components by specifying any of the spring.pulsar.listener.* and spring.pulsar.consumer.* prefixed application properties.

If you need more control over the consumer factory configuration, consider registering one or more ReactiveMessageConsumerBuilderCustomizer beans. These customizers are applied to all consumers created by the factory, and therefore all @ReactivePulsarListener instances. You can also customize a single listener by setting the consumerCustomizer attribute of the @ReactivePulsarListener annotation.

Reading a Message

The Pulsar reader interface enables applications to manually manage cursors. When you use a reader to connect to a topic you need to specify which message the reader begins reading from when it connects to a topic.

When the Apache Pulsar infrastructure is present, any bean can be annotated with @PulsarReader to consume messages using a reader. The following component creates a reader endpoint that starts reading messages from the beginning of the someTopic topic:

  • Java

  • Kotlin

import org.springframework.pulsar.annotation.PulsarReader;
import org.springframework.stereotype.Component;

@Component
public class MyBean {

	@PulsarReader(topics = "someTopic", startMessageId = "earliest")
	public void processMessage(String content) {
		// ...
	}

}
import org.springframework.pulsar.annotation.PulsarReader
import org.springframework.stereotype.Component

@Component
class MyBean {

	@PulsarReader(topics = ["someTopic"], startMessageId = "earliest")
	fun processMessage(content: String?) {
		// ...
	}

}

The @PulsarReader relies on a PulsarReaderFactory to create the underlying Pulsar reader. Spring Boot auto-configuration provides this reader factory which can be customized by setting any of the spring.pulsar.reader.* prefixed application properties.

If you need more control over the reader factory configuration, consider registering one or more ReaderBuilderCustomizer beans. These customizers are applied to all readers created by the factory, and therefore all @PulsarReader instances. You can also customize a single listener by setting the readerCustomizer attribute of the @PulsarReader annotation.

Reading a Message Reactively

When the Apache Pulsar infrastructure is present and the Reactive auto-configuration is activated, Spring’s ReactivePulsarReaderFactory is provided, and you can use it to create a reader in order to read messages in a reactive fashion. The following component creates a reader using the provided factory and reads a single message from 5 minutes ago from the someTopic topic:

  • Java

  • Kotlin

import java.time.Instant;
import java.util.List;

import org.apache.pulsar.client.api.Message;
import org.apache.pulsar.client.api.Schema;
import org.apache.pulsar.reactive.client.api.StartAtSpec;
import reactor.core.publisher.Mono;

import org.springframework.pulsar.reactive.core.ReactiveMessageReaderBuilderCustomizer;
import org.springframework.pulsar.reactive.core.ReactivePulsarReaderFactory;
import org.springframework.stereotype.Component;

@Component
public class MyBean {

	private final ReactivePulsarReaderFactory<String> pulsarReaderFactory;

	public MyBean(ReactivePulsarReaderFactory<String> pulsarReaderFactory) {
		this.pulsarReaderFactory = pulsarReaderFactory;
	}

	public void someMethod() {
		ReactiveMessageReaderBuilderCustomizer<String> readerBuilderCustomizer = (readerBuilder) -> readerBuilder
			.topic("someTopic")
			.startAtSpec(StartAtSpec.ofInstant(Instant.now().minusSeconds(5)));
		Mono<Message<String>> message = this.pulsarReaderFactory
			.createReader(Schema.STRING, List.of(readerBuilderCustomizer))
			.readOne();
		// ...
	}

}
import org.apache.pulsar.client.api.Schema
import org.apache.pulsar.reactive.client.api.ReactiveMessageReaderBuilder
import org.apache.pulsar.reactive.client.api.StartAtSpec
import org.springframework.pulsar.reactive.core.ReactiveMessageReaderBuilderCustomizer
import org.springframework.pulsar.reactive.core.ReactivePulsarReaderFactory
import org.springframework.stereotype.Component
import java.time.Instant

@Component
class MyBean(private val pulsarReaderFactory: ReactivePulsarReaderFactory<String>) {

	fun someMethod() {
		val readerBuilderCustomizer = ReactiveMessageReaderBuilderCustomizer {
			readerBuilder: ReactiveMessageReaderBuilder<String> ->
				readerBuilder
					.topic("someTopic")
					.startAtSpec(StartAtSpec.ofInstant(Instant.now().minusSeconds(5)))
		}
		val message = pulsarReaderFactory
				.createReader(Schema.STRING, listOf(readerBuilderCustomizer))
				.readOne()
		// ...
	}

}

Spring Boot auto-configuration provides this reader factory which can be customized by setting any of the spring.pulsar.reader.* prefixed application properties.

If you need more control over the reader factory configuration, consider passing in one or more ReactiveMessageReaderBuilderCustomizer instances when using the factory to create a reader.

If you need more control over the reader factory configuration, consider registering one or more ReactiveMessageReaderBuilderCustomizer beans. These customizers are applied to all created readers. You can also pass one or more ReactiveMessageReaderBuilderCustomizer when creating a reader to only apply the customizations to the created reader.

For more details on any of the above components and to discover other available features, see the Spring for Apache Pulsar reference documentation.

Transaction Support

Spring for Apache Pulsar supports transactions when using PulsarTemplate and @PulsarListener.

Transactions are not currently supported when using the reactive variants.

Setting the spring.pulsar.transaction.enabled property to true will:

  • Configure a PulsarTransactionManager bean

  • Enable transaction support for PulsarTemplate

  • Enable transaction support for @PulsarListener methods

The transactional attribute of @PulsarListener can be used to fine-tune when transactions should be used with listeners.

For more control of the Spring for Apache Pulsar transaction features you should define your own PulsarTemplate and/or ConcurrentPulsarListenerContainerFactory beans. You can also define a PulsarAwareTransactionManager bean if the default auto-configured PulsarTransactionManager is not suitable.

Additional Pulsar Properties

The properties supported by auto-configuration are shown in the Integration Properties section of the Appendix. Note that, for the most part, these properties (hyphenated or camelCase) map directly to the Apache Pulsar configuration properties. See the Apache Pulsar documentation for details.

Only a subset of the properties supported by Pulsar are available directly through the PulsarProperties class. If you wish to tune the auto-configured components with additional properties that are not directly supported, you can use the customizer supported by each aforementioned component.