Although Apache ActiveMQ Artemis provides a JMS agnostic messaging API, many users will be more comfortable using JMS.
JMS is a very popular API standard for messaging, and most messaging systems provide a JMS API. If you are completely new to JMS we suggest you follow the Oracle JMS tutorial - a full JMS tutorial is out of scope for this guide.
Apache ActiveMQ Artemis also ships with a wide range of examples, many of which demonstrate JMS API usage. A good place to start would be to play around with the simple JMS Queue and Topic example, but we also provide examples for many other parts of the JMS API. A full description of the examples is available in Examples.
In this section we'll go through the main steps in configuring the server for JMS and creating a simple JMS program. We'll also show how to configure and use JNDI, and also how to use JMS with Apache ActiveMQ Artemis without using any JNDI.
A simple ordering system
For this chapter we're going to use a very simple ordering system as our example. It is a somewhat contrived example because of its extreme simplicity, but it serves to demonstrate the very basics of setting up and using JMS.
We will have a single JMS Queue called
OrderQueue, and we will have a
MessageProducer sending an order message to the queue and a
MessageConsumer consuming the order message from the queue.
The queue will be a
durable queue, i.e. it will survive a server
restart or crash. We also want to pre-deploy the queue, i.e. specify the
queue in the server configuration so it is created automatically
without us having to explicitly create it from the client.
The JMS specification establishes the convention that administered objects (i.e. JMS queue, topic and connection factory instances) are made available via the JNDI API. Brokers are free to implement JNDI as they see fit assuming the implementation fits the API. Apache ActiveMQ Artemis does not have a JNDI server. Rather, it uses a client-side JNDI implementation that relies on special properties set in the environment to construct the appropriate JMS objects. In other words, no objects are stored in JNDI on the Apache ActiveMQ Artemis server, instead they are simply instantiated on the client based on the provided configuration. Let's look at the different kinds of administered objects and how to configure them.
The following configuration properties are strictly required when Apache ActiveMQ Artemis is running in stand-alone mode. When Apache ActiveMQ Artemis is integrated to an application server (e.g. Wildfly) the application server itself will almost certainly provide a JNDI client with its own properties.
A JMS connection factory is used by the client to make connections to the server. It knows the location of the server it is connecting to, as well as many other configuration parameters.
Here's a simple example of the JNDI context environment for a client looking up a connection factory to access an embedded instance of Apache ActiveMQ Artemis:
In this instance we have created a connection factory that is bound to
invmConnectionFactory, any entry with prefix
create a connection factory.
In certain situations there could be multiple server instances running within a particular JVM. In that situation each server would typically have an InVM acceptor with a unique server-ID. A client using JMS and JNDI can account for this by specifying a connction factory for each server, like so:
java.naming.factory.initial=org.apache.activemq.artemis.jndi.ActiveMQInitialContextFactory connectionFactory.invmConnectionFactory0=vm://0 connectionFactory.invmConnectionFactory1=vm://1 connectionFactory.invmConnectionFactory2=vm://2
Here is a list of all the supported URL schemes:
Most clients won't be connecting to an embedded broker. Clients will most commonly connect across a network a remote broker. Here's a simple example of a client configuring a connection factory to connect to a remote broker running on myhost:5445:
In the example above the client is using the
tcp scheme for the
provider URL. A client may also specify multiple comma-delimited
host:port combinations in the URL (e.g.
(tcp://remote-host1:5445,remote-host2:5445)). Whether there is one or
many host:port combinations in the URL they are treated as the initial
connector(s) for the underlying connection.
udp scheme is also supported which should use a host:port
combination that matches the
group-port from the
broadcast-group configured on the ActiveMQ Artemis server(s).
Each scheme has a specific set of properties which can be set using the
traditional URL query string format (e.g.
scheme://host:port?key1=value1&key2=value2) to customize the
underlying transport mechanism. For example, if a client wanted to
connect to a remote server using TCP and SSL it would create a connection
factory like so,
All the properties available for the
tcp scheme are described in the
documentation regarding the Netty
Note if you are using the
tcp scheme and multiple addresses then a query
can be applied to all the url's or just to an individual connector, so where
httpEnabled property is only set on the individual connectors where as the
is set on the actual connection factory. Any connector specific properties set on the whole
URI will be applied to all the connectors.
udp scheme supports 4 properties:
localAddress- If you are running with multiple network interfaces on the same machine, you may want to specify that the discovery group listens only only a specific interface. To do this you can specify the interface address with this parameter.
localPort- If you want to specify a local port to which the datagram socket is bound you can specify it here. Normally you would just use the default value of -1 which signifies that an anonymous port should be used. This parameter is always specified in conjunction with
refreshTimeout- This is the period the discovery group waits after receiving the last broadcast from a particular server before removing that servers connector pair entry from its list. You would normally set this to a value significantly higher than the broadcast-period on the broadcast group otherwise servers might intermittently disappear from the list even though they are still broadcasting due to slight differences in timing. This parameter is optional, the default value is 10000 milliseconds (10 seconds).
discoveryInitialWaitTimeout- If the connection factory is used immediately after creation then it may not have had enough time to received broadcasts from all the nodes in the cluster. On first usage, the connection factory will make sure it waits this long since creation before creating the first connection. The default value for this parameter is 10000 milliseconds.
jgroups scheme is supported which provides an alternative
udp scheme for server discovery. The URL pattern is either
jgroups-xml-conf-filename refers to an XML file on the classpath
that contains the JGroups configuration or it can be
jgroups://channelName?properties=some-jgroups-properties. In both instance the
channelName is the name given to the jgroups channel created.
are supported just like with
The default type for the default connection factory is of type
This can be changed by setting the type like so
In this example it is still set to the default, below shows a list of types that can be set.
Configuration for Connection Factory Types
JMS destinations are also typically looked up via JNDI. As with
connection factories, destinations can be configured using special
properties in the JNDI context environment. The property name should
follow the pattern:
The property value should be the name of the queue hosted by the
Apache ActiveMQ Artemis server. For example, if the server had a JMS queue configured
And if the client wanted to bind this queue to "queues/OrderQueue" then the JNDI properties would be configured like so:
java.naming.factory.initial=org.apache.activemq.artemis.jndi.ActiveMQInitialContextFactory java.naming.provider.url=tcp://myhost:5445 queue.queues/OrderQueue=OrderQueue
It is also possible to look-up JMS destinations which haven't been
configured explicitly in the JNDI context environment. This is possible
dynamicTopics/ in the look-up string. For
example, if the client wanted to look-up the aforementioned "OrderQueue"
it could do so simply by using the string "dynamicQueues/OrderQueue".
Note, the text that follows
correspond exactly to the name of the destination on the server.
Here's the code for the example:
First we'll create a JNDI initial context from which to lookup our JMS
objects. If the above properties are set in
jndi.properties and it is
on the classpath then any new, empty
InitialContext will be
initialized using those properties:
InitialContext ic = new InitialContext(); //Now we'll look up the connection factory from which we can create //connections to myhost:5445: ConnectionFactory cf = (ConnectionFactory)ic.lookup("ConnectionFactory"); //And look up the Queue: Queue orderQueue = (Queue)ic.lookup("queues/OrderQueue"); //Next we create a JMS connection using the connection factory: Connection connection = cf.createConnection(); //And we create a non transacted JMS Session, with AUTO\_ACKNOWLEDGE //acknowledge mode: Session session = connection.createSession(false, Session.AUTO_ACKNOWLEDGE); //We create a MessageProducer that will send orders to the queue: MessageProducer producer = session.createProducer(orderQueue); //And we create a MessageConsumer which will consume orders from the //queue: MessageConsumer consumer = session.createConsumer(orderQueue); //We make sure we start the connection, or delivery won't occur on it: connection.start(); //We create a simple TextMessage and send it: TextMessage message = session.createTextMessage("This is an order"); producer.send(message); //And we consume the message: TextMessage receivedMessage = (TextMessage)consumer.receive(); System.out.println("Got order: " + receivedMessage.getText());
It is as simple as that. For a wide range of working JMS examples please see the examples directory in the distribution.
Please note that JMS connections, sessions, producers and consumers are designed to be re-used.
It is an anti-pattern to create new connections, sessions, producers and consumers 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.
Directly instantiating JMS Resources without using JNDI
Although it is a very common JMS usage pattern to lookup JMS Administered Objects (that's JMS Queue, Topic and ConnectionFactory instances) from JNDI, in some cases you just think "Why do I need JNDI? Why can't I just instantiate these objects directly?"
With Apache ActiveMQ Artemis you can do exactly that. Apache ActiveMQ Artemis supports the direct instantiation of JMS Queue, Topic and ConnectionFactory instances, so you don't have to use JNDI at all.
For a full working example of direct instantiation please look at the "Instantiate JMS Objects Directly" example under the JMS section of the examples. See the Examples section for more info.
Here's our simple example, rewritten to not use JNDI at all:
We create the JMS ConnectionFactory object via the ActiveMQJMSClient Utility class, note we need to provide connection parameters and specify which transport we are using, for more information on connectors please see Configuring the Transport.
TransportConfiguration transportConfiguration = new TransportConfiguration(NettyConnectorFactory.class.getName()); ConnectionFactory cf = ActiveMQJMSClient.createConnectionFactoryWithoutHA(JMSFactoryType.CF,transportConfiguration); //We also create the JMS Queue object via the ActiveMQJMSClient Utility //class: Queue orderQueue = ActiveMQJMSClient.createQueue("OrderQueue"); //Next we create a JMS connection using the connection factory: Connection connection = cf.createConnection(); //And we create a non transacted JMS Session, with AUTO\_ACKNOWLEDGE //acknowledge mode: Session session = connection.createSession(false, Session.AUTO_ACKNOWLEDGE); //We create a MessageProducer that will send orders to the queue: MessageProducer producer = session.createProducer(orderQueue); //And we create a MessageConsumer which will consume orders from the //queue: MessageConsumer consumer = session.createConsumer(orderQueue); //We make sure we start the connection, or delivery won't occur on it: connection.start(); //We create a simple TextMessage and send it: TextMessage message = session.createTextMessage("This is an order"); producer.send(message); //And we consume the message: TextMessage receivedMessage = (TextMessage)consumer.receive(); System.out.println("Got order: " + receivedMessage.getText());
Setting The Client ID
This represents the client id for a JMS client and is needed for
creating durable subscriptions. It is possible to configure this on the
connection factory and can be set via the
clientId element. Any
connection created by this connection factory will have this set as its
Setting The Batch Size for DUPS_OK
When the JMS acknowledge mode is set to
DUPS_OK it is possible to
configure the consumer so that it sends acknowledgements in batches
rather that one at a time, saving valuable bandwidth. This can be
configured via the connection factory via the
element and is set in bytes. The default is 1024 * 1024 bytes = 1 MiB.
Setting The Transaction Batch Size
When receiving messages in a transaction it is possible to configure the
consumer to send acknowledgements in batches rather than individually
saving valuable bandwidth. This can be configured on the connection
factory via the
transactionBatchSize element and is set in bytes.
The default is 1024 * 1024.