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Using Core
ActiveMQ core is a completely JMS-agnostic messaging system with its own non-JMS API. We call this the core API.
If you don't want to use JMS you can use the core API directly. The core API provides all the functionality of JMS but without much of the complexity. It also provides features that are not available using JMS.
Core Messaging Concepts
Some of the core messaging concepts are similar to JMS concepts, but core messaging concepts differ in some ways. In general the core messaging API is simpler than the JMS API, since we remove distinctions between queues, topics and subscriptions. We'll discuss each of the major core messaging concepts in turn, but to see the API in detail, please consult the Javadoc.
Message
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A message is the unit of data which is sent between clients and servers.
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A message has a body which is a buffer containing convenient methods for reading and writing data into it.
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A message has a set of properties which are key-value pairs. Each property key is a string and property values can be of type integer, long, short, byte, byte[], String, double, float or boolean.
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A message has an address it is being sent to. When the message arrives on the server it is routed to any queues that are bound to the address - if the queues are bound with any filter, the message will only be routed to that queue if the filter matches. An address may have many queues bound to it or even none. There may also be entities other than queues, like diverts bound to addresses.
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Messages can be either durable or non durable. Durable messages in a durable queue will survive a server crash or restart. Non durable messages will never survive a server crash or restart.
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Messages can be specified with a priority value between 0 and 9. 0 represents the lowest priority and 9 represents the highest. ActiveMQ will attempt to deliver higher priority messages before lower priority ones.
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Messages can be specified with an optional expiry time. ActiveMQ will not deliver messages after its expiry time has been exceeded.
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Messages also have an optional timestamp which represents the time the message was sent.
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ActiveMQ also supports the sending/consuming of very large messages much larger than can fit in available RAM at any one time.
Address
A server maintains a mapping between an address and a set of queues. Zero or more queues can be bound to a single address. Each queue can be bound with an optional message filter. When a message is routed, it is routed to the set of queues bound to the message's address. If any of the queues are bound with a filter expression, then the message will only be routed to the subset of bound queues which match that filter expression.
Other entities, such as diverts can also be bound to an address and messages will also be routed there.
Note
In core, there is no concept of a Topic, Topic is a JMS only term. Instead, in core, we just deal with addresses and queues.
For example, a JMS topic would be implemented by a single address to which many queues are bound. Each queue represents a subscription of the topic. A JMS Queue would be implemented as a single address to which one queue is bound - that queue represents the JMS queue.
Queue
Queues can be durable, meaning the messages they contain survive a server crash or restart, as long as the messages in them are durable. Non durable queues do not survive a server restart or crash even if the messages they contain are durable.
Queues can also be temporary, meaning they are automatically deleted when the client connection is closed, if they are not explicitly deleted before that.
Queues can be bound with an optional filter expression. If a filter expression is supplied then the server will only route messages that match that filter expression to any queues bound to the address.
Many queues can be bound to a single address. A particular queue is only bound to a maximum of one address.
ServerLocator
Clients use ServerLocator
instances to create ClientSessionFactory
instances. ServerLocator
instances are used to locate servers and
create connections to them.
In JMS terms think of a ServerLocator
in the same way you would a JMS
Connection Factory.
ServerLocator
instances are created using the ActiveMQClient
factory
class.
ClientSessionFactory
Clients use ClientSessionFactory
instances to create ClientSession
instances. ClientSessionFactory
instances are basically the connection
to a server
In JMS terms think of them as JMS Connections.
ClientSessionFactory
instances are created using the ServerLocator
class.
ClientSession
A client uses a ClientSession for consuming and producing messages and
for grouping them in transactions. ClientSession instances can support
both transactional and non transactional semantics and also provide an
XAResource
interface so messaging operations can be performed as part
of a
JTA
transaction.
ClientSession instances group ClientConsumers and ClientProducers.
ClientSession instances can be registered with an optional
SendAcknowledgementHandler
. This allows your client code to be
notified asynchronously when sent messages have successfully reached the
server. This unique ActiveMQ feature, allows you to have full guarantees
that sent messages have reached the server without having to block on
each message sent until a response is received. Blocking on each
messages sent is costly since it requires a network round trip for each
message sent. By not blocking and receiving send acknowledgements
asynchronously you can create true end to end asynchronous systems which
is not possible using the standard JMS API. For more information on this
advanced feature please see the section [Guarantees of sends and commits]{send-guarantees.md).
ClientConsumer
Clients use ClientConsumer
instances to consume messages from a queue.
Core Messaging supports both synchronous and asynchronous message
consumption semantics. ClientConsumer
instances can be configured with
an optional filter expression and will only consume messages which match
that expression.
ClientProducer
Clients create ClientProducer
instances on ClientSession
instances
so they can send messages. ClientProducer instances can specify an
address to which all sent messages are routed, or they can have no
specified address, and the address is specified at send time for the
message.
Warning
Please note that ClientSession, ClientProducer and ClientConsumer instances are designed to be re-used.
It's an anti-pattern to create new ClientSession, ClientProducer and ClientConsumer instances for each message you produce or consume. If you do this, your application will perform very poorly. This is discussed further in the section on performance tuning Performance Tuning.
A simple example of using Core
Here's a very simple program using the core messaging API to send and receive a message. Logically it's comprised of two sections: firstly setting up the producer to write a message to an addresss, and secondly, creating a queue for the consumer, creating the consumer and starting it.
ServerLocator locator = ActiveMQClient.createServerLocatorWithoutHA(new TransportConfiguration(
InVMConnectorFactory.class.getName()));
// In this simple example, we just use one session for both producing and receiving
ClientSessionFactory factory = locator.createClientSessionFactory();
ClientSession session = factory.createSession();
// A producer is associated with an address ...
ClientProducer producer = session.createProducer("example");
ClientMessage message = session.createMessage(true);
message.getBodyBuffer().writeString("Hello");
// We need a queue attached to the address ...
session.createQueue("example", "example", true);
// And a consumer attached to the queue ...
ClientConsumer consumer = session.createConsumer("example");
// Once we have a queue, we can send the message ...
producer.send(message);
// We need to start the session before we can -receive- messages ...
session.start();
ClientMessage msgReceived = consumer.receive();
System.out.println("message = " + msgReceived.getBodyBuffer().readString());
session.close();