Este conteúdo não está disponível no idioma selecionado.

2.3. JMS Development


Overview

Developing applications using the JMS APIs is a straightforward process. The APIs facilitate the creation of objects that mitigate the interface between client applications and the message broker. Once connected to a broker, clients can create, send and receive messages.

Basic application components

A JMS application typically consist of these basic interfaces and classes:
Connection factory
Connection factories are administered objects that clients use to create connections to a message broker. You can optimize some messaging characteristics by enabling, disabling, or otherwise modifying the values of certain connection factory properties.
Connection
Connections are the objects clients use to specify a transport protocol and credentials for sustained interaction with a broker.
Session
Sessions are created by a client on a connection established with a broker. They define whether its messages will be transacted and the acknowledgement mode when they are not. Clients can create multiple sessions on a single connection.
Destinations
Destinations are created by a client on a per-session basis. They are client-side representations of the queue or topic to which messages are sent. The message broker maintains its own representations of the destinations as well.
Producer
Producers are client-side objects that create and send messages to a broker. They are instances of the MessageProducer interface and are created on a per-session basis.
The MessageProducer interface provides methods not only for sending messages, but also for setting various message headers, including JMSDeliveryMode which controls message persistence, JMSPriority which controls message priority, and JMSExpiration which controls a message's lifespan.
Consumer
Consumers are client-side objects that process messages retrieved from a broker. They are instances of the MessageConsumer interface and are created on a per-session basis.
The MessageConsumer interface can consume messages synchronously by using one of the MessageConsumer.receive() methods, or asynchronously by registering a MessageListener with the MessageConsumer.setMessageListener() method. With a MessageListener registered on a destination, messages arriving at the destination invoke the consumer's MessageListener.onMessage() method, freeing the consumer from having to repeatedly poll the destination for messages.
Messages
Messages are the backbone of a messaging system. They are objects that contain not only the data payload, but also the required header and optional properties needed to transfer them from one client application to another. See Section 2.2, “JMS Message Basics”.

Development steps

Figure 2.2, “Messaging sequence” shows the typical sequence of events involved in sending or receiving messages in a Red Hat JBoss A-MQ client application.

Figure 2.2. Messaging sequence

flow chart of steps in developing a messaging application
The following procedure shows how to implement the sequence of events shown in Figure 2.2, “Messaging sequence”:
  1. Get a connection factory.
    The process for getting a connection factory depends on your environment. It is typical to use JNDI to obtain the connection factory. JBoss A-MQ allows you to instantiate connection factories directly in consumer code or obtain connection factories using Spring in addition to using JNDI.
  2. Create a connection from the connection factory as shown in Example 2.1, “Getting a Connection”.

    Example 2.1. Getting a Connection

    connection=connectionFactory.createConnection();
  3. Start the connection using the connection's start() method.
  4. Create a session from the connection.

    Example 2.2. Creating a Session

    session=connection.createSession(false,
                                     Session.AUTO_ACKNOWLEDGE);
  5. Create a destination from the session.
    Example 2.3, “Creating a Queue” shows code for creating a queue called foo.

    Example 2.3. Creating a Queue

    destination=session.createQueue("FOO.QUEUE");
  6. Create objects for producing and consuming messages.
    1. Create a producer as shown in Example 2.4, “Creating a Message Producer”.

      Example 2.4. Creating a Message Producer

      producer=session.createProducer(destination);
    2. Create a consumer as shown in Example 2.5, “Creating a Consumer”.

      Example 2.5. Creating a Consumer

      consumer=session.createConsumer(destination);
  7. Create a message from the session object.
    Example 2.6, “Creating a Text Message” shows code for creating a text message.

    Example 2.6. Creating a Text Message

    message=session.createTextMessage("This is a foo test.");
  8. Send and receive messages.
    1. Send messages from the producer as shown in Example 2.7, “Sending a Message”.

      Example 2.7. Sending a Message

      producer.send(message);
    2. Receive messages from the consumer.
      Example 2.8, “Receiving a Message” shows code for synchronously receiving a text message.

      Example 2.8. Receiving a Message

      message = (TextMessage)consumer.receive();
  9. Close all JMS resources.
Red Hat logoGithubRedditYoutubeTwitter

Aprender

Experimente, compre e venda

Comunidades

Sobre a documentação da Red Hat

Ajudamos os usuários da Red Hat a inovar e atingir seus objetivos com nossos produtos e serviços com conteúdo em que podem confiar.

Tornando o open source mais inclusivo

A Red Hat está comprometida em substituir a linguagem problemática em nosso código, documentação e propriedades da web. Para mais detalhes veja oBlog da Red Hat.

Sobre a Red Hat

Fornecemos soluções robustas que facilitam o trabalho das empresas em plataformas e ambientes, desde o data center principal até a borda da rede.

© 2024 Red Hat, Inc.