Document Information

Preface

Part I Introduction

1.  Overview

2.  Using the Tutorial Examples

Part II The Web Tier

3.  Getting Started with Web Applications

4.  Java Servlet Technology

5.  JavaServer Pages Technology

6.  JavaServer Pages Documents

7.  JavaServer Pages Standard Tag Library

8.  Custom Tags in JSP Pages

9.  Scripting in JSP Pages

10.  JavaServer Faces Technology

11.  Using JavaServer Faces Technology in JSP Pages

12.  Developing with JavaServer Faces Technology

13.  Creating Custom UI Components

14.  Configuring JavaServer Faces Applications

15.  Internationalizing and Localizing Web Applications

Part III Web Services

16.  Building Web Services with JAX-WS

17.  Binding between XML Schema and Java Classes

18.  Streaming API for XML

19.  SOAP with Attachments API for Java

Part IV Enterprise Beans

20.  Enterprise Beans

21.  Getting Started with Enterprise Beans

22.  Session Bean Examples

23.  A Message-Driven Bean Example

Part V Persistence

24.  Introduction to the Java Persistence API

25.  Persistence in the Web Tier

26.  Persistence in the EJB Tier

27.  The Java Persistence Query Language

Part VI Services

28.  Introduction to Security in the Java EE Platform

29.  Securing Java EE Applications

30.  Securing Web Applications

31.  The Java Message Service API

Overview of the JMS API

What Is Messaging?

What Is the JMS API?

When Can You Use the JMS API?

How Does the JMS API Work with the Java EE Platform?

The JMS API Programming Model

JMS Administered Objects

JMS Connection Factories

JMS Destinations

JMS Connections

JMS Sessions

JMS Message Producers

JMS Message Consumers

JMS Message Listeners

JMS Message Selectors

JMS Messages

Message Headers

Message Properties

Message Bodies

JMS Queue Browsers

JMS Exception Handling

Writing Simple JMS Client Applications

A Simple Example of Synchronous Message Receives

Writing the Client Programs for the Synchronous Receive Example

Starting the JMS Provider

Creating JMS Administered Objects for the Synchronous Receive Example

Compiling and Packaging the Clients for the Synchronous Receive Example

Running the Clients for the Synchronous Receive Example

A Simple Example of Asynchronous Message Consumption

Writing the Client Programs for the Asynchronous Receive Example

Compiling and Packaging the AsynchConsumer Client

Running the Clients for the Asynchronous Receive Example

A Simple Example of Browsing Messages in a Queue

Writing the Client Program for the Queue Browser Example

Compiling and Packaging the MessageBrowser Client

Running the Clients for the Queue Browser Example

Running JMS Client Programs on Multiple Systems

Creating Administered Objects for Multiple Systems

Editing, Recompiling, Repackaging, and Running the Programs

Deleting the Connection Factory and Stopping the Server

Creating Robust JMS Applications

Using Basic Reliability Mechanisms

Controlling Message Acknowledgment

Specifying Message Persistence

Setting Message Priority Levels

Allowing Messages to Expire

Creating Temporary Destinations

Using Advanced Reliability Mechanisms

Creating Durable Subscriptions

Using JMS API Local Transactions

Using the JMS API in a Java EE Application

Using @Resource Annotations in Java EE Components

Using Session Beans to Produce and to Synchronously Receive Messages

Resource Management

Transactions

Using Message-Driven Beans to Receive Messages Asynchronously

Managing Distributed Transactions

Using the JMS API with Application Clients and Web Components

Further Information about JMS

32.  Java EE Examples Using the JMS API

33.  Transactions

34.  Resource Connections

35.  Connector Architecture

Part VII Case Studies

36.  The Coffee Break Application

37.  The Duke's Bank Application

Part VIII Appendixes

A.  Java Encoding Schemes

B.  About the Authors

Index

  
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Basic JMS API Concepts

This section introduces the most basic JMS API concepts, the ones you must know to get started writing simple JMS client applications:

The next section introduces the JMS API programming model. Later sections cover more advanced concepts, including the ones you need to write Java EE applications that use message-driven beans.

JMS API Architecture

A JMS application is composed of the following parts.

  • A JMS provider is a messaging system that implements the JMS interfaces and provides administrative and control features. An implementation of the Java EE platform includes a JMS provider.

  • JMS clients are the programs or components, written in the Java programming language, that produce and consume messages. Any Java EE application component can act as a JMS client.

  • Messages are the objects that communicate information between JMS clients.

  • Administered objects are preconfigured JMS objects created by an administrator for the use of clients. The two kinds of JMS administered objects are destinations and connection factories, which are described in JMS Administered Objects.

Figure 31-2 illustrates the way these parts interact. Administrative tools allow you to bind destinations and connection factories into a JNDI namespace. A JMS client can then use resource injection to access the administered objects in the namespace and then establish a logical connection to the same objects through the JMS provider.

Figure 31-2 JMS API Architecture

Diagram of JMS API architecture, showing administrative tool, JMS client, JNDI namespace, and JMS provider

Messaging Domains

Before the JMS API existed, most messaging products supported either the point-to-point or the publish/subscribe approach to messaging. The JMS specification provides a separate domain for each approach and defines compliance for each domain. A stand-alone JMS provider can implement one or both domains. A Java EE provider must implement both domains.

In fact, most implementations of the JMS API support both the point-to-point and the publish/subscribe domains, and some JMS clients combine the use of both domains in a single application. In this way, the JMS API has extended the power and flexibility of messaging products.

The JMS 1.1 specification goes one step further: It provides common interfaces that enable you to use the JMS API in a way that is not specific to either domain. The following subsections describe the two messaging domains and then describe the use of the common interfaces.

Point-to-Point Messaging Domain

A point-to-point (PTP) product or application is built on the concept of message queues, senders, and receivers. Each message is addressed to a specific queue, and receiving clients extract messages from the queues established to hold their messages. Queues retain all messages sent to them until the messages are consumed or until the messages expire.

PTP messaging has the following characteristics and is illustrated in Figure 31-3.

Figure 31-3 Point-to-Point Messaging

Diagram of point-to-point messaging, showing Client 1 sending a message to a queue, and Client 2 consuming and acknowledging the message

  • Each message has only one consumer.

  • A sender and a receiver of a message have no timing dependencies. The receiver can fetch the message whether or not it was running when the client sent the message.

  • The receiver acknowledges the successful processing of a message.

Use PTP messaging when every message you send must be processed successfully by one consumer.

Publish/Subscribe Messaging Domain

In a publish/subscribe (pub/sub) product or application, clients address messages to a topic, which functions somewhat like a bulletin board. Publishers and subscribers are generally anonymous and can dynamically publish or subscribe to the content hierarchy. The system takes care of distributing the messages arriving from a topic’s multiple publishers to its multiple subscribers. Topics retain messages only as long as it takes to distribute them to current subscribers.

Pub/sub messaging has the following characteristics.

  • Each message can have multiple consumers.

  • Publishers and subscribers have a timing dependency. A client that subscribes to a topic can consume only messages published after the client has created a subscription, and the subscriber must continue to be active in order for it to consume messages.

The JMS API relaxes this timing dependency to some extent by allowing subscribers to create durable subscriptions, which receive messages sent while the subscribers are not active. Durable subscriptions provide the flexibility and reliability of queues but still allow clients to send messages to many recipients. For more information about durable subscriptions, see Creating Durable Subscriptions.

Use pub/sub messaging when each message can be processed by zero, one, or many consumers. Figure 31-4 illustrates pub/sub messaging.

Figure 31-4 Publish/Subscribe Messaging

Diagram of pub/sub messaging, showing Client 1 publishing a message to a topic, and the message being delivered to two subscribers to the topic
Programming with the Common Interfaces

Version 1.1 of the JMS API allows you to use the same code to send and receive messages under either the PTP or the pub/sub domain. The destinations that you use remain domain-specific, and the behavior of the application will depend in part on whether you are using a queue or a topic. However, the code itself can be common to both domains, making your applications flexible and reusable. This tutorial describes and illustrates these common interfaces.

Message Consumption

Messaging products are inherently asynchronous: There is no fundamental timing dependency between the production and the consumption of a message. However, the JMS specification uses this term in a more precise sense. Messages can be consumed in either of two ways:

  • Synchronously: A subscriber or a receiver explicitly fetches the message from the destination by calling the receive method. The receive method can block until a message arrives or can time out if a message does not arrive within a specified time limit.

  • Asynchronously: A client can register a message listener with a consumer. A message listener is similar to an event listener. Whenever a message arrives at the destination, the JMS provider delivers the message by calling the listener’s onMessage method, which acts on the contents of the message.

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