Let's just accept for a moment that it is not a horrible idea to implement RPC over message queues (like RabbitMQ) -- sometimes it might be necessary when interfacing with legacy systems.

In case of RPC over RabbitMQ, clients send a message to the broker, broker routes the message to a worker, worker returns the result through the broker to the client. However, if a worker implements more than one remote method, then somehow the different calls need to be routed to different listeners.

What is the general practice in this case? All RPC over MQ examples show only one remote method. It would be nice and easy to just set the method name as the routing rule/queue name, but I don't know whether this is the right way to do it.


Let's just accept for a moment that it is not a horrible idea to implement RPC over message queues (like RabbitMQ)

it's not horrible at all! it's common, and recommended in many situations - not just legacy integration.

... ok, to your actual question now :)

from a very high level perspective, here is what you need to do.

Your request and response need to have two key pieces of information:

  • a correlation-id
  • a reply-to queue

These bits of information will allow you to correlate the original request and the response.

Before you send the request

have your requesting code create an exclusive queue for itself. This queue will be used to receive the replies.

create a new correlation id - typically a GUID or UUID to guarantee uniqueness.

When Sending The Request

Attach the correlation id that you generated, to the message properties. there is a correlationId property that you should use for this.

store the correlation id with the associated callback function (reply handler) for the request, somewhere inside of the code that is making the request. you will need to this when the reply comes in.

attach the name of the exclusive queue that you created, to the replyTo property of the message, as well.

with all this done, you can send the message across rabbitmq

when replying

the reply code needs to use both the correlationId and the replyTo fields from the original message. so be sure to grab those

the reply should be sent directly to the replyTo queue. don't use standard publishing through an exchange. instead, send the reply message directly to the queue using the "send to queue" feature of whatever library you're using, and send the response directly to the replyTo queue.

be sure to include the correlationId in the response, as well. this is the critical part to answer your question

when handling the reply

The code that made the original request will receive the message from the replyTo queue. it will then pull the correlationId out of the message properties.

use the correlation id to look up the callback method for the request... the code that handles the response. pass the message to this callback method, and you're pretty much done.

the implementation details

this works, from a high level perspective. when you get down into the code, the implementation details will vary depending on the language and driver / library you are using.

most of the good RabbitMQ libraries for any given language will have Request/Response built in to them. If yours doesn't, you might want to look for a different library. Unless you are writing a patterns based library on top of the AMQP protocol, you should look for a library that has common patterns implemented for you.

If you need more information on the Request/Reply pattern, including all of the details that I've provided here (and more), check out these resources:

If you're working in Node.js, I recommend using the wascally library, which includes the Request/Reply feature you need. For Ruby, check out bunny. For Java or .NET, look at some of the many service bus implementations around. In .NET, I recommend NServiceBus or MassTransit.

  • 1
    Hi, thanks for the answer. I actually realized that the recent AMQP/RabbitMQ implementations can directly send back a reply to the sender without manually implementing and creating reply queues. – Mate Varga Jul 30 '15 at 7:46
  • where did you read that? i haven't paid attention to recent releases, and was not aware of this – Derick Bailey Jul 30 '15 at 13:21
  • 2
    i found it: rabbitmq.com/direct-reply-to.html - i'll have to look in to this more. seems interesting – Derick Bailey Jul 30 '15 at 23:02
  • Yes, that's exactly it. – Mate Varga Jul 31 '15 at 12:04

I've found that using a new reply-to queue per request can get really inefficient, specially when running RabbitMQ on a cluster.

As suggested in the comments direct reply-to seems to be the way to go. I've documented here all the options I tried before settling to that one.


I wrote an npm package amq.rabbitmq.reply-to.js that:


const rabbitmqreplyto = require('amq.rabbitmq.reply-to.js');

const serverCallbackTimesTen = (message, rpcServer) => {
    const n = parseInt(message);
    return Promise.resolve(`${n * 10}`);

let rpcServer;
let rpcClient;
Promise.resolve().then(() => {
    const serverOptions = new rabbitmqreplyto.RpcServerOptions(
    /* url */ undefined, 
    /* serverId */ undefined, 
    /* callback */ serverCallbackTimesTen);

    return rabbitmqreplyto.RpcServer.Create(serverOptions);
}).then((rpcServerP) => {
    rpcServer = rpcServerP;
    return rabbitmqreplyto.RpcClient.Create();
}).then((rpcClientP) => {
    rpcClient = rpcClientP;
    const promises = [];
    for (let i = 1; i <= 20; i++) {
    return Promise.all(promises);
}).then((replies) => {
    return Promise.all([rpcServer.Close(), rpcClient.Close()]);

//  '20',
//  '30',
//  '40',
//  '50',
//  '60',
//  '70',
//  '80',
//  '90',
//  '100',
//  '110',
//  '120',
//  '130',
//  '140',
//  '150',
//  '160',
//  '170',
//  '180',
//  '190',
//  '200']

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