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I've been researching various communication technologies/architectures/patterns/implementations (read: buzzwords) including Web Services (WCF, Axis2), ESBs, SOA, and wanted to know more about JMS with regards to messaging.

Conceptually, JMS sounds simple. My take is that it's an intermediate broker which manages messages from publishers and routes them to appropriate subscribers. This is done by queueing messages as they are published, and dequeuing them as they are received.

Question 1: Is my basic understanding of JMS correct?

One of the things that bugs me when reading about technologies is when a certain level of (intentional or unintentional) hand-waving is done about a feature.

Based on my basic understanding, a JMS Provider must be running in order to send or receive messages. My assumption on publishing is that the JMS Provider simply waits until a message is published, then stores it in a queue (memory or database-backed, depending on implementation). However, I am not quite sure how receive works.

Question 2: Does receive (typically) block if no messages are avaiable?

Question 2b: If so, how is blocking achieved? Does the client continuously poll for messages? Does the server simply not respond until a message is published (how does this work without timing out?) Does the provider initiate a call to the recipient?

Question 2c: If not, how does one ensure messages are received in a timely manner, without impacting performance?

The basic description seems to lean towards a single JMS provider to ensure that messages are centrally managed not lost. I can see scaling being an issue.

Question 3: How does JMS scale?

When scaling, I can see there being complexities to ensure that a single message is delivered to all appropriate subscribers, regardless of which physical server receives the message.

Question 3b: How does a JMS implementation ensure reliable delivery in a scaled environment?

Please note that although these questions are related to JMS, they likely apply to any messaging infrastructure. I welcome answers specific to JMS as well as those which are more general or even specific to another technology.

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+1 for a well thought out question –  Steven Schlansker May 11 '11 at 4:46
if you want to go in at the deepend, horneq is open source & provides a jms implementation. Instructions on getting the source here. You may want to read the architecture and concepts sections in the docs too, it may help you reduce the scope of your questions somewhat. –  Matt May 11 '11 at 8:02
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3 Answers

up vote 11 down vote accepted

I am trying to answer few questions based on my experience on JMS. Answer 1:- JMS is Java Message Service API ; it provide uniform interface to java clients to access messaging framework. Beneath JMS API is a JMS compliant messaging provider for e.g. websphere MQ provider. JMS supports transport of a payload over any messaging protocol to destinations viz. queue and Topic. This is basics of JMS.

Now receive works? JMS specification provides two important classes:- MessageConsumer and MessageListener. MessageConsumer class allows a JMS client to synchronously receive JMS messages by calling any of its receive() method. This call will be blocking thread till a message is received. Otherwise, a asynchronous receive can be made by registering an object of MessageListener with MessageConsumer. It is JMSProvider who get to know that a message is arrived in its local destination and its job is to deliver messages to either polling message consumer thread or non-polling registered message listener thread.

Answer 2:- MessageConsumer API has two variants of receive: receive() and receive(long timeout). The latter variant let messageconsumer thread blocks until message arrive with in specific timeout period else it timesout. Different messaging framework might implement blocking feature in different way. As JMS objects are JNDI administered objects and provider specific proxy objects are returned to JMS client, so, client is unaware of how is blocking happening in background. A particular messaging framework may choose message consumer thread polling after a particular time period, or may choose to block till notification is sent.. I am not sure if you are looking answer for a particular JMS compliant messaging framework?

Answer 3:- I guess by JMS scaling means ability to have many publishers/subscribers, many destinations over multiple physical machines. JMS scaling requires support of underlying messaging provider to support some sort of clustering/fail over. As such JMS specification does not support scalability. Correct me if I am wrong on this? For example I have worked on JMS compliant websphere MQ which provides clustering support.

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I realize that JMS is just a specification, so I basically read your answer as "it is implementation dependent" (which is totally acceptable). I was hoping to get more technical detail on the blocking aspect related to polling/etc. A more general question might be how does an asychronous messaging architecture scale without a negative performance impact (assuming all subscribers are either polling, opening connections and blocking, or waiting for a broadcast). –  Travis May 12 '11 at 14:23
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JMS support message consumption with a synchronous method (receive with and without timeout blocking your thread) or with a event driven callback (async message listener)).

You can decide which method better fits your needs, but you also may need to have a look at the actual implementation. For example some JMS implementations do a network roundtrip for the receive() and therefore are better used with a timeout or with the listener.

With the message listener thread behaviour and pausing of message receipt are not so easyly controled as with a blocking receive call. Typically most control is achieved by having your own pool of blocking receive() calls with timeouts, dispatching to your workers.

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I think the difference between Queue and Topic should be mentioned since there are important differences in the way messages are delivered.

Queue: only one client will receive a message. To scale out, you can for example have 10 clients all connected to the same queue - but only one of them will receive a particular message. If no clients are connected, message will stay on the queue until someone connects or the message times out.

Topic: all clients will receive a copy of each message. Typically used in a subscriber scenario where many endpoints are potentially interested in each message. A durable subscriber can even be down for a while; message will be kept until subscriber is up again or the message times out. If no clients are connected and there are no durable subscribers, message will be dropped.

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