Quarkus - Using AMQP with Reactive Messaging
This guide demonstrates how your Quarkus application can utilize MicroProfile Reactive Messaging to interact with AMQP.
Prerequisites
To complete this guide, you need:
less than 15 minutes
an IDE
JDK 1.8+ installed with
JAVA_HOME
configured appropriatelyApache Maven 3.5.3+
A running AMQP 1.0 broker, or Docker Compose to start a development cluster
GraalVM installed if you want to run in native mode.
Architecture
In this guide, we are going to generate (random) prices in one component.These prices are written in an AMQP queue (prices
).A second component reads from the prices
queue and apply some magic conversion to the price.The result is sent to an in-memory stream consumed by a JAX-RS resource.The data is sent to a browser using server-sent events.
Solution
We recommend that you follow the instructions in the next sections and create the application step by step.However, you can go right to the completed example.
Clone the Git repository: git clone https://github.com/quarkusio/quarkus-quickstarts.git
, or download an archive.
The solution is located in the amqp-quickstart
directory.
Creating the Maven Project
First, we need a new project. Create a new project with the following command:
mvn io.quarkus:quarkus-maven-plugin:1.0.0.CR1:create \
-DprojectGroupId=org.acme \
-DprojectArtifactId=amqp-quickstart \
-Dextensions="amqp"
cd amqp-quickstart
This command generates a Maven project, importing the Reactive Messaging and AMQP connector extensions.
Starting an AMQP broker
Then, we need an AMQP broker.You can follow the instructions from the Apache Artemis web site or create a docker-compose.yaml
file with the following content:
# A docker compose file to start an Artemis AMQP broker
# more details on https://github.com/vromero/activemq-artemis-docker.
version: '2'
services:
artemis:
image: vromero/activemq-artemis:2.8.0-alpine
ports:
- "8161:8161"
- "61616:61616"
- "5672:5672"
environment:
ARTEMIS_USERNAME: quarkus
ARTEMIS_PASSWORD: quarkus
Once created, run docker-compose up
.
This is a development cluster, do not use in production. |
The price generator
Create the src/main/java/org/acme/quarkus/sample/PriceGenerator.java
file, with the following content:
package org.acme.quarkus.sample;
import io.reactivex.Flowable;
import org.eclipse.microprofile.reactive.messaging.Outgoing;
import javax.enterprise.context.ApplicationScoped;
import java.util.Random;
import java.util.concurrent.TimeUnit;
/**
* A bean producing random prices every 5 seconds.
* The prices are written to an AMQP queue (prices). The AMQP configuration is specified in the
* application configuration.
*/
@ApplicationScoped
public class PriceGenerator {
private Random random = new Random();
@Outgoing("generated-price") (1)
public Flowable<Integer> generate() { (2)
return Flowable.interval(5, TimeUnit.SECONDS)
.map(tick -> random.nextInt(100));
}
}
1 | Instruct Reactive Messaging to dispatch the items from returned stream to generated-price . |
2 | The method returns a RX Java 2 stream (Flowable ) emitting a random price every 5 seconds. |
The method returns a Reactive Stream. The generated items are sent to the stream named generated-price
.This stream is mapped to an AMQP queue using the application.properties
file that we will create soon.
The price converter
The price converter reads the prices from AMQP, and transforms them.Create the src/main/java/org/acme/quarkus/sample/PriceConverter.java
file with the following content:
package org.acme.quarkus.sample;
import io.smallrye.reactive.messaging.annotations.Broadcast;
import org.eclipse.microprofile.reactive.messaging.Incoming;
import org.eclipse.microprofile.reactive.messaging.Outgoing;
import javax.enterprise.context.ApplicationScoped;
/**
* A bean consuming data from the "prices" AMQP queue and applying some conversion.
* The result is pushed to the "my-data-stream" stream which is an in-memory stream.
*/
@ApplicationScoped
public class PriceConverter {
private static final double CONVERSION_RATE = 0.88;
@Incoming("prices") (1)
@Outgoing("my-data-stream") (2)
@Broadcast (3)
public double process(int priceInUsd) {
return priceInUsd * CONVERSION_RATE;
}
}
1 | Indicates that the method consumes the items from the prices channel |
2 | Indicates that the objects returned by the method are sent to the my-data-stream channel |
3 | Indicates that the item are dispatched to all subscribers |
The process
method is called for every AMQP messages from the prices
queue (configured in the application configuration).Every result is sent to the my-data-stream
in-memory stream.
The price resource
Finally, let’s bind our stream to a JAX-RS resource.Creates the src/main/java/org/acme/quarkus/sample/PriceResource.java
file with the following content:
package org.acme.quarkus.sample;
import io.smallrye.reactive.messaging.annotations.Channel;
import org.reactivestreams.Publisher;
import javax.inject.Inject;
import javax.ws.rs.GET;
import javax.ws.rs.Path;
import javax.ws.rs.Produces;
import javax.ws.rs.core.MediaType;
/**
* A simple resource retrieving the "in-memory" "my-data-stream" and sending the items as server-sent events.
*/
@Path("/prices")
public class PriceResource {
@Inject
@Channel("my-data-stream") Publisher<Double> prices; (1)
@GET
@Produces(MediaType.TEXT_PLAIN)
public String hello() {
return "hello";
}
@GET
@Path("/stream")
@Produces(MediaType.SERVER_SENT_EVENTS) (2)
public Publisher<Double> stream() { (3)
return prices;
}
}
1 | Injects the my-data-stream channel using the @Channel qualifier |
2 | Indicates that the content is sent using Server Sent Events |
3 | Returns the stream (Reactive Stream) |
Configuring the AMQP connector
We need to configure the AMQP connector. This is done in the application.properties
file.The keys are structured as follows:
mp.messaging.[outgoing|incoming].{channel-name}.property=value
The channel-name
segment must match the value set in the @Incoming
and @Outgoing
annotation: generated-price
→ sink in which we write the prices prices
→ source in which we read the prices
# Configures the AMQP broker credentials.
amqp-username=quarkus
amqp-password=quarkus
# Configure the AMQP connector to write to the `prices` address
mp.messaging.outgoing.generated-price.connector=smallrye-amqp
mp.messaging.outgoing.generated-price.address=prices
mp.messaging.outgoing.generated-price.durable=true
# Configure the AMQP connector to read from the `prices` queue
mp.messaging.incoming.prices.connector=smallrye-amqp
mp.messaging.incoming.prices.durable=true
More details about this configuration is available in the SmallRye Reactive Messaging AMQP connector documentation.
What about my-data-stream ? This is an in-memory stream, not connected to a message broker. |
The HTML page
Final touch, the HTML page reading the converted prices using SSE.
Create the src/main/resources/META-INF/resources/prices.html
file, with the following content:
<!DOCTYPE html>
<html lang="en">
<head>
<meta charset="UTF-8">
<title>Prices</title>
<link rel="stylesheet" type="text/css"
href="https://cdnjs.cloudflare.com/ajax/libs/patternfly/3.24.0/css/patternfly.min.css">
<link rel="stylesheet" type="text/css"
href="https://cdnjs.cloudflare.com/ajax/libs/patternfly/3.24.0/css/patternfly-additions.min.css">
</head>
<body>
<div class="container">
<h2>Last price</h2>
<div class="row">
<p class="col-md-12">The last price is <strong><span id="content">N/A</span> €</strong>.</p>
</div>
</div>
</body>
<script src="https://code.jquery.com/jquery-3.3.1.min.js"></script>
<script>
var source = new EventSource("/prices/stream");
source.onmessage = function (event) {
document.getElementById("content").innerHTML = event.data;
};
</script>
</html>
Nothing spectacular here. On each received price, it updates the page.
Get it running
If you followed the instructions, you should have the AMQP broker running.Then, you just need to run the application using:
./mvnw compile quarkus:dev
Open http://localhost:8080/prices.html
in your browser.
If you started the AMQP broker with docker compose, stop it using CTRL+C followed by docker-compose down . |
Running Native
You can build the native executable with:
./mvnw package -Pnative
Going further
This guide has shown how you can interact with AMQP using Quarkus.It utilizes MicroProfile Reactive Messaging to build data streaming applications.
If you did the Kafka quickstart, you have realized that it’s the same code.The only difference is the connector configuration.
If you want to go further check the documentation of SmallRye Reactive Messaging, the implementation used in Quarkus.