I have a JMS client which is producing messages and sending over a JMS queue to its unique consumer.

What I want is more than one consumer getting those messages. The first thing that comes to my mind is converting the queue to a topic, so current and new consumers can subscribe and get the same message delivered to all of them.

This will obviously involve modifying the current clients code in both producer and consumer side of things.

I would like to also look at other options like creating a second queue, so that I don't have to modify the existing consumer. I believe there are advantages in this approach like (correct me if I am wrong) balancing the load between two different queues rather than one, which might have a positive impact on performance.

I would like to get advise on these options and cons / pros that you might see. Any feedback is highly appreciated.

2 Answers 2


You have a few options as you stated.

If you convert it to a topic to get the same effect you will need to make the consumers persistent consumers. One thing the queue offers is persistence if your consumer isn't alive. This will depend on the MQ system you are using.

If you want to stick with queues, you will create a queue for each consumer and a dispatcher that will listen on the original queue.

Producer -> Queue_Original <- Dispatcher -> Queue_Consumer_1 <- Consumer_1
                                         -> Queue_Consumer_2 <- Consumer_2
                                         -> Queue_Consumer_3 <- Consumer_3

Pros of Topics

  • Easier to dynamically add new consumers. All consumers will get new messages without any work.
  • You can create round-robin topics, so that Consumer_1 will get a message, then Consumer_2, then Consumer_3
  • Consumers can be pushed new messages, instead of having to query a queue making them reactive.

Cons of Topics

  • Messages are not persistent unless your Broker supports this configuration. If a consumer goes off line and comes back it is possible to have missed messages unless Persistent consumers are setup.
  • Difficult to allow Consumer_1 and Consumer_2 to receive a message but not Consumer_3. With a Dispatcher and Queues, the Dispatcher can not put a message in Consumer_3's queue.

Pros of Queues

  • Messages are persistent until a Consumer removes them
  • A dispatcher can filter which consumers get which messages by not placing messages into the respective consumers queues. This can be done with topics through filters though.

Cons of Queues

  • Additional Queues need to be created to support multiple consumers. In a dynamic environment this wouldn't be efficient.

When developing a Messaging System I prefer topics as it gives me the most power, but seeing as you are already using Queues it would require you to change how your system works to implement Topics instead.

Design and Implementation of Queue System with multiple consumers

Producer -> Queue_Original <- Dispatcher -> Queue_Consumer_1 <- Consumer_1
                                         -> Queue_Consumer_2 <- Consumer_2
                                         -> Queue_Consumer_3 <- Consumer_3


Keep in mind there are other things you'll need to take care of such as problem exception handling, reconnection to the connection and queues if you lose your connection, etc. This is just designed to give you an idea of how to accomplish what I described.

In a real system I probably wouldn't exit out at the first exception. I would allow the system to continue operating the best it could and log errors. As it stands in this code if putting a message in a single consumers queue fails, the whole dispatcher will stop.


 * To change this template, choose Tools | Templates
 * and open the template in the editor.
package stackoverflow_4615895;

import javax.jms.JMSException;
import javax.jms.Message;
import javax.jms.MessageConsumer;
import javax.jms.MessageProducer;
import javax.jms.Queue;
import javax.jms.QueueConnection;
import javax.jms.QueueConnectionFactory;
import javax.jms.QueueSession;
import javax.jms.Session;

public class Dispatcher {

    private static long QUEUE_WAIT_TIME = 1000;
    private boolean mStop = false;
    private QueueConnectionFactory mFactory;
    private String mSourceQueueName;
    private String[] mConsumerQueueNames;

     * Create a dispatcher
     * @param factory
     *      The QueueConnectionFactory in which new connections, session, and consumers
     *      will be created. This is needed to ensure the connection is associated
     *      with the correct thread.
     * @param source
     * @param consumerQueues
    public Dispatcher(
        QueueConnectionFactory factory, 
        String sourceQueue, 
        String[] consumerQueues) {

        mFactory = factory;
        mSourceQueueName = sourceQueue;
        mConsumerQueueNames = consumerQueues;

    public void start() {
        Thread thread = new Thread(new Runnable() {

            public void run() {
        thread.setName("Queue Dispatcher");

    public void stop() {
        mStop = true;

    private void run() {

        QueueConnection connection = null;
        MessageProducer producer = null;
        MessageConsumer consumer = null;
        QueueSession session = null;
        try {
            // Setup connection and queues for receiving the messages
            connection = mFactory.createQueueConnection();
            session = connection.createQueueSession(false, Session.DUPS_OK_ACKNOWLEDGE);
            Queue sourceQueue = session.createQueue(mSourceQueueName);
            consumer = session.createConsumer(sourceQueue);

            // Create a null producer allowing us to send messages
            // to any queue.
            producer = session.createProducer(null);

            // Create the destination queues based on the consumer names we
            // were given.
            Queue[] destinationQueues = new Queue[mConsumerQueueNames.length];
            for (int index = 0; index < mConsumerQueueNames.length; ++index) {
                destinationQueues[index] = session.createQueue(mConsumerQueueNames[index]);


            while (!mStop) {

                // Only wait QUEUE_WAIT_TIME in order to give
                // the dispatcher a chance to see if it should
                // quit
                Message m = consumer.receive(QUEUE_WAIT_TIME);
                if (m == null) {

                // Take the message we received and put
                // it in each of the consumers destination
                // queues for them to process
                for (Queue q : destinationQueues) {
                    producer.send(q, m);

        } catch (JMSException ex) {
            // Do wonderful things here 
        } finally {
            if (producer != null) {
                try {
                } catch (JMSException ex) {
            if (consumer != null) {
                try {
                } catch (JMSException ex) {
            if (session != null) {
                try {
                } catch (JMSException ex) {
            if (connection != null) {
                try {
                } catch (JMSException ex) {


    QueueConnectionFactory factory = ...;

    Dispatcher dispatcher =
            new Dispatcher(
            new String[]{
  • That was a great answer. I am using JBoss' MOM implementation which is HornetQ. Jan 6, 2011 at 15:21
  • @Anonimo Last time I checked JBoss adheres to the JMS spec absolutely. This caused some fustration for me in the past because I create topics dynamically which the JMS spec doesn't account for. Other's like ActiveMQ allow you to create topics dynamically and it only required 1 line of code change in JBoss to allow the same functionality. Jan 6, 2011 at 15:25
  • Thanks Andrew. Can you please elaborate on the idea of working with multiple queues? From your explanation, the producer code doesn't change, but not sure where this dispatcher is located and how it is represented in technical terms. Jan 6, 2011 at 16:13
  • @Anomimo Yes, I'll post it shortly. Jan 6, 2011 at 16:33

You may not have to modify the code; it depends on how you wrote it.

For example, if your code sends messages using MessageProducer rather than QueueSender, then it will work for topics as well as queues. Similarly if you used MessageConsumer rather than QueueReceiver.

Essentially, it is good practice in JMS applications to use non-specific interfaces to interact with the JMS system, such as MessageProducer, MessageConsumer, Destination, etc. If that's the case, it's a "mere" matter of configuration.

  • That would be a good option. Unfortunately we are using specific interfaces like QueueSender. This is definitely something I will bear in mind if we refactor. Jan 6, 2011 at 16:14

Your Answer

Reminder: Answers generated by Artificial Intelligence tools are not allowed on Stack Overflow. Learn more

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge that you have read and understand our privacy policy and code of conduct.

Not the answer you're looking for? Browse other questions tagged or ask your own question.