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.  JavaServerTM Faces Technology

5.  Introduction to Facelets

6.  Unified Expression Language

7.  Using JavaServerTM Faces Technology in Web Pages

8.  Using Converters, Listeners and Validators

9.  Developing With JavaServerTM Faces Technology

10.  Java Servlet Technology

Part III Web Services

11.  Introduction to Web Services

12.  Building Web Services with JAX-WS

13.  Building RESTful Web Services with JAX-RS and Jersey

Part IV Enterprise Beans

14.  Enterprise Beans

What Is an Enterprise Bean?

Benefits of Enterprise Beans

When to Use Enterprise Beans

Types of Enterprise Beans

What Is a Session Bean?

Types of Session Beans

Stateful Session Beans

Stateless Session Beans

Singleton Session Beans

When to Use Session Beans

Accessing Enterprise Beans

Using Enterprise Beans in Clients

Portable JNDI Syntax

Deciding on Remote or Local Access

Local Clients

Accessing Local Enterprise Beans Using the No-Interface View

Accessing Local Enterprise Beans That Implement Business Interfaces

Remote Clients

Accessing Remote Enterprise Beans

Web Service Clients

Method Parameters and Access

Isolation

Granularity of Accessed Data

The Contents of an Enterprise Bean

Packaging Enterprise Beans In EJB JAR Modules

Packaging Enterprise Beans in WAR Modules

Naming Conventions for Enterprise Beans

The Life Cycles of Enterprise Beans

The Life Cycle of a Stateful Session Bean

The Lifecycle of a Stateless Session Bean

The Lifecycle of a Singleton Session Bean

The Lifecycle of a Message-Driven Bean

Further Information about Enterprise Beans

15.  Getting Started with Enterprise Beans

16.  Running the Enterprise Bean Examples

Part V Contexts and Dependency Injection for the JavaTM EE Platform

17.  Introduction to Contexts and Dependency Injection for the JavaTM EE Platform

18.  Running the Basic Contexts and Dependency Injection Examples

Part VI Persistence

19.  Introduction to the Java Persistence API

20.  Running the Persistence Examples

21.  The Java Persistence Query Language

22.  Creating Queries Using the Criteria API

Part VII Security

23.  Introduction to Security in the Java EE Platform

24.  Getting Started Securing Enterprise Applications

25.  Getting Started Securing Web Applications

Part VIII JavaTM EE Supporting Technologies

26.  Introduction to JavaTM EE Supporting Technologies

27.  Transactions

28.  Resource Connections

Index

  
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What Is a Message-Driven Bean?

A message-driven bean is an enterprise bean that allows Java EE applications to process messages asynchronously. It normally acts as a JMS message listener, which is similar to an event listener except that it receives JMS messages instead of events. The messages can be sent by any Java EE component (an application client, another enterprise bean, or a web component) or by a JMS application or system that does not use Java EE technology. Message-driven beans can process JMS messages or other kinds of messages.

What Makes Message-Driven Beans Different from Session Beans?

The most visible difference between message-driven beans and session beans is that clients do not access message-driven beans through interfaces. Interfaces are described in the section Accessing Enterprise Beans. Unlike a session bean, a message-driven bean has only a bean class.

In several respects, a message-driven bean resembles a stateless session bean.

  • A message-driven bean’s instances retain no data or conversational state for a specific client.

  • All instances of a message-driven bean are equivalent, allowing the EJB container to assign a message to any message-driven bean instance. The container can pool these instances to allow streams of messages to be processed concurrently.

  • A single message-driven bean can process messages from multiple clients.

The instance variables of the message-driven bean instance can contain some state across the handling of client messages (for example, a JMS API connection, an open database connection, or an object reference to an enterprise bean object).

Client components do not locate message-driven beans and invoke methods directly on them. Instead, a client accesses a message-driven bean through, for example, JMS by sending messages to the message destination for which the message-driven bean class is the MessageListener. You assign a message-driven bean’s destination during deployment by using Enterprise Server resources.

Message-driven beans have the following characteristics:

  • They execute upon receipt of a single client message.

  • They are invoked asynchronously.

  • They are relatively short-lived.

  • They do not represent directly shared data in the database, but they can access and update this data.

  • They can be transaction-aware.

  • They are stateless.

When a message arrives, the container calls the message-driven bean’s onMessage method to process the message. The onMessage method normally casts the message to one of the five JMS message types and handles it in accordance with the application’s business logic. The onMessage method can call helper methods, or it can invoke a session bean to process the information in the message or to store it in a database.

A message can be delivered to a message-driven bean within a transaction context, so all operations within the onMessage method are part of a single transaction. If message processing is rolled back, the message will be redelivered. For more information, see Chapter 27, Transactions.

When to Use Message-Driven Beans

Session beans allow you to send JMS messages and to receive them synchronously, but not asynchronously. To avoid tying up server resources, do not to use blocking synchronous receives in a server-side component, and in general JMS messages should not be sent or received synchronously. To receive messages asynchronously, use a message-driven bean.

The material in The Java EE 6 Tutorial, Volume I is copyright-protected and may not be published in other works without express written permission from Sun Microsystems.