Transacted and caching
See section Transactions and Cache Levels below if you are using transactions with JMS as it can impact performance.
Request/Reply over JMS
Make sure to read the section Request-reply over JMS further below on this page for important notes about request/reply, as Camel offers a number of options to configure for performance, and clustered environments.
This component allows messages to be sent to (or consumed from) a JMS Queue or Topic. It uses Spring's JMS support for declarative transactions, including Spring's
JmsTemplate for sending and a
MessageListenerContainer for consuming.
Maven users will need to add the following dependency to their
pom.xml for this component:
destinationName is a JMS queue or topic name. By default, the
destinationName is interpreted as a queue name. For example, to connect to the queue,
You can include the optional
queue: prefix, if you prefer:
To connect to a topic, you must include the
topic: prefix. For example, to connect to the topic,
You append query options to the URI using the following format:
The JMS component reuses Spring 2's
JmsTemplate for sending messages. This is not ideal for use in a non-J2EE container and typically requires some caching in the JMS provider to avoid poor performance.
If you intend to use Apache ActiveMQ as your Message Broker - which is a good choice as ActiveMQ rocks , then we recommend that you either:
Use the ActiveMQ component, which is already optimized to use ActiveMQ efficiently
Transactions and Cache Levels
If you are consuming messages and using transactions (
transacted=true) then the default cache level can negatively impact performance. If you are using XA transactions then you cannot cache as it can cause the XA transaction to not work properly.
If you are not using XA, then you should consider caching as it speeds up performance, such as setting
cacheLevelName=CACHE_CONSUMER. Through Camel 2.7.x, the default setting for
CACHE_CONSUMER. You will need to explicitly set
cacheLevelName=CACHE_NONE. In Camel 2.8 onward, the default setting for
CACHE_AUTO. This default auto detects the mode and sets the cache level accordingly to:
So you can say the default setting is conservative. Consider using
cacheLevelName=CACHE_CONSUMER if you are using non-XA transactions.
If you wish to use durable topic subscriptions, you need to specify both
durableSubscriptionName. The value of the
clientId must be unique and can only be used by a single JMS connection instance in your entire network. You may prefer to use Virtual Topics instead to avoid this limitation. More background on durable messaging here.
Message Header Mapping
When using message headers, the JMS specification states that header names must be valid Java identifiers. So try to name your headers to be valid Java identifiers. One benefit of doing this is that you can then use your headers inside a JMS Selector (whose SQL92 syntax mandates Java identifier syntax for headers).
A simple strategy for mapping header names is used by default. The strategy is to replace any dots and hyphens in the header name as shown below and to reverse the replacement when the header name is restored from a JMS message sent over the wire. What does this mean? No more losing method names to invoke on a bean component, no more losing the filename header for the File Component, and so on.
The current header name strategy for accepting header names in Camel is:
Dots are replaced by
_DOT_and the replacement is reversed when Camel consume the message
Hyphen is replaced by
_HYPHEN_and the replacement is reversed when Camel consumes the message
You can configure many different properties on the JMS endpoint which map to properties on the JMSConfiguration POJO.
Mapping to Spring JMS
Many of these properties map to properties on Spring JMS, which Camel uses for sending and receiving messages. Therefore for more information about these properties consult the Spring documentation.
The options are divided into two tables, the first one contains the most common options. The second table contains the less common and more advanced options.
Sets the JMS client ID to use. Note that this value, if specified, must be unique and can only be used by a single JMS connection instance. It is typically only required for durable topic subscriptions. You may prefer to use Virtual Topics instead.
Specifies the default number of concurrent consumers. From Camel 2.10.3 onward this option can also be used when doing request/reply over JMS. From Camel 2.16 onward there is a new
The durable subscriber name for specifying durable topic subscriptions. The
Specifies the maximum number of concurrent consumers. From Camel 2.10.3 onward this option can also be used when doing request/reply over JMS. From Camel 2.16 onward there is a new
The number of messages per task. The default,
Provides an explicit ReplyTo destination, which overrides any incoming value of
Camel 2.16: Specifies the default number of concurrent consumers when doing request/reply over JMS.
Camel 2.16: Specifies the maximum number of concurrent consumers when doing request/reply over JMS. See also the
Camel 2.17.2: Specifies the maximum number of concurrent consumers for continue routing when timeout occurred when using request/reply over JMS.
Camel 2.15: Provides an explicit
Camel 2.9: Allows for explicitly specifying which kind of strategy to use for replyTo queues when doing request/reply over JMS. Possible values are:
Producer only: The timeout for waiting for a reply when using the
Sets the JMS Selector, which is an SQL 92 predicate that is used to filter messages within the broker. You may have to encode special characters such as = as %3D Before Camel 2.3.0, we don't support this option in
When sending messages, specifies the time-to-live of the message (in milliseconds). See below in section About time to live for more details.
Specifies whether to use transacted mode for sending/receiving messages using the
Camel 2.1: Specifies whether to test the connection on startup. This ensures that when Camel starts that all the JMS consumers have a valid connection to the JMS broker. If a connection cannot be granted then Camel throws an exception on startup. This ensures that Camel is not started with failed connections. From Camel 2.8 onward also the JMS producers is tested as well.
Specifies whether the consumer accept messages while it is stopping. You may consider enabling this option, if you start and stop JMS routes at run-time, while there are still messages enqueued on the queue. If this option is
The JMS acknowledgement name, which is one of:
The JMS acknowledgement mode defined as an Integer. Allows you to set vendor-specific extensions to the acknowledgment mode. For the regular modes, it is preferable to use the
Camel 2.9.3/2.10.1: Whether to allow sending messages with no body. If this option is
Camel 2.9: Whether the
Camel 2.10: Whether to startup the
Camel 2.10: Whether to stop the
Specifies whether the consumer container should auto-startup.
Sets the cache level by ID for the underlying JMS resources. See
Sets the cache level by name for the underlying JMS resources. Possible values are:
The default JMS connection factory to use for the
The Spring JMS listener type to use. Valid values can be one of:
This option was temporarily removed in Camel 2.7 and 2.8 but was re-added in Camel 2.9.
Camel 2.10.4: Specifies what default
Camel 2.12.2/2.13: Specifies the delivery mode to be used. Possibles values are those defined by
Specifies whether persistent delivery is used by default.
Specifies the JMS Destination object to use on this endpoint.
Specifies the JMS destination name to use on this endpoint.
Camel 2.8: Use this option to force disabling time to live. For example when you do request/reply over JMS, then Camel will by default use the
Enables eager loading of JMS properties as soon as a message is received, which is generally inefficient, because the JMS properties might not be required. But this feature can sometimes catch early any issues with the underlying JMS provider and the use of JMS properties. This feature can also be used for testing purposes, to ensure JMS properties can be understood and handled correctly.
Camel 2.8.2, 2.9: Specifies a
Camel 2.9.1: Configures the logging level at which the
Camel 2.9.1: Controls whether a stacktrace should be logged by the default
Specifies the JMS Exception Listener that is to be notified of any underlying JMS exceptions.
Set if the
Specifies whether the listener session should be exposed when consuming messages.
Camel 2.7: When using
Camel 2.8.2, 2.9: Specify the limit for the number of consumers that are allowed to be idle at any given time.
Specifies the limit for idle executions of a receive task, not having received any message within its execution. If this limit is reached, the task will shut down and leave receiving to other executing tasks (in the case of dynamic scheduling; see the
Camel 2.10.3: Only applicable when sending to JMS destination using
Camel 2.11.2/2.12: Whether to include all
Note: If you are using a custom
Pluggable strategy for encoding and decoding JMS keys so they can be compliant with the JMS specification. Camel provides two implementations out of the box:
Allows you to force the use of a specific javax.jms.Message implementation for sending JMS messages. Possible values are:
Allows you to use your own implementation of the
The JMS connection factory used for consuming messages.
Specifies whether Camel should auto map the received JMS message to an appropriate payload type, such as
Limits the number of messages fetched at most, when browsing endpoints using Browse or JMX API.
To use a custom Spring
When sending, specifies whether message IDs should be added.
Camel 2.10.2: Registry ID of the
Setting this will automatically set
Specifies whether time-stamps should be enabled by default on sending messages.
The password for the connector factory.
Values greater than
Specifies whether to inhibit the delivery of messages published by its own connection.
The timeout for receiving messages (in milliseconds).
Specifies the interval between recovery attempts, e.g., when a connection is being refreshed, in milliseconds. The default is
Camel 2.16: Consumer only: Whether a JMS consumer is allowed to send a reply message to the same destination that the consumer is using to consume from. This prevents an endless loop by consuming and sending back the same message to itself.
Camel 2.9.1: Sets the cache level by name for the reply consumer when doing request/reply over JMS. This option only applies when using fixed reply queues (not temporary). Camel will by default use:
Note: The value
Sets the JMS Selector using the fixed name to be used so you can filter out your own replies from the others when using a shared queue (that is, if you are not using a temporary reply queue).
Specifies whether to use persistent delivery by default for replies.
Camel 2.9.2: Configures how often Camel should check for timed out Exchanges when doing request/reply over JMS. By default Camel checks once per second. But if you must react faster when a timeout occurs, then you can lower this interval, to check more frequently. The timeout is determined by the option
@deprecated: Enabled by default, if you specify a
Allows you to specify a custom task executor for consuming messages.
Camel 2.6: To use when using Spring 2.x with Camel. Allows you to specify a custom task executor for consuming messages.
The JMS connection factory used for sending messages.
@deprecated: Specifies whether to use transacted mode for sending messages using the
The Spring transaction manager to use.
The name of the transaction to use.
The timeout value of the transaction (in seconds), if using transacted mode.
If enabled and you are using Request Reply messaging (
You can transfer the exchange over the wire instead of just the body and headers. The following fields are transferred: In body, Out body, Fault body, In headers, Out headers, Fault headers, exchange properties, exchange exception. This requires that the objects are serializable. Camel will exclude any non-serializable objects and log it at WARN level. You must enable this option on both the producer and consumer side, so Camel knows the payloads is an Exchange and not a regular payload.
Camel 2.17: If enabled and you are using Request Reply messaging (
The username for the connector factory.
@deprecated (removed from Camel 2.5 onward) Specifies whether the old JMS API should be used.
Message Mapping between JMS and Camel
Camel automatically maps messages between
When sending a JMS message, Camel converts the message body to the following JMS message types:
The DOM will be converted to
When receiving a JMS message, Camel converts the JMS message to the following body type:
Disabling auto-mapping of JMS messages
You can use the
mapJmsMessage option to disable the auto-mapping above. If disabled, Camel will not try to map the received JMS message, but instead uses it directly as the payload. This allows you to avoid the overhead of mapping and let Camel just pass through the JMS message. For instance, it even allows you to route
javax.jms.ObjectMessage JMS messages with classes you do not have on the classpath.
Using a custom MessageConverter
You can use the
messageConverter option to do the mapping yourself in a Spring
For example, in the route below we use a custom message converter when sending a message to the JMS order queue:
You can also use a custom message converter when consuming from a JMS destination.
Controlling the mapping strategy selected
You can use the jmsMessageType option on the endpoint URL to force a specific message type for all messages.
In the route below, we poll files from a folder and send them as
javax.jms.TextMessage as we have forced the JMS producer endpoint to use text messages:
You can also specify the message type to use for each message by setting the header with the key
CamelJmsMessageType. For example:
The possible values are defined in the
Message format when sending
An exchange sent via JMS must conform to the JMS Message spec. Camel therefore applies various translation and validation rules to both key names and key values of
The following rules are applied to the key names of
Keys starting with
Key names must be literals or valid Java identifiers.
Dot and hyphen characters are replaced (and the reverse when consuming) as follows:
'.'is replaced with the sequence
_DOT_. The reverse replacement is applied when Camel consumes a message.
'-'is replaced with the sequence
_HYPHEN_. The reverse replacement is applied when Camel consumes a message.
jmsKeyFormatStrategycan be used to specify a custom key formatting strategy.
The following rules are applied to the key values of
Values must be either a primitive type or of its corresponding Java object type, e.g.,
BigIntegerare all converted to their string representation.
All other types will result in the key value being discarded.
If a header value is discarded Camel will log the incident using logging category
org.apache.camel.component.jms.JmsBinding at the
DEBUG logging level. For example:
Message format when receiving
Camel adds the following properties to the
Exchange when it receives a message:
The reply destination.
Camel adds the following JMS properties to the In message headers when it receives a JMS message:
The JMS correlation ID.
The JMS delivery mode.
The JMS destination.
The JMS expiration.
The JMS unique message ID.
The JMS priority (with 0 as the lowest priority and 9 as the highest).
Is the JMS message redelivered.
The JMS reply-to destination.
The JMS timestamp.
The JMS type.
The JMS group ID.
As all the above information is standard JMS you can check the JMS documentation for further details.
About using Camel to send and receive messages and JMSReplyTo
The JMS component is complex and you have to pay close attention to how it works in some cases. So this is a short summary of some of the areas/pitfalls to look for.
When Camel sends a message using its
JMSProducer it checks the following conditions:
The message Exchange Pattern (MEP)
JMSReplyTowas set in the endpoint or in the message headers
Whether any of the following options have been set on the JMS endpoint:
All this can be a tad complex to understand and configure to support your use case.
JmsProducer behaves as follows, depending on configuration:
Camel will expect a reply, set a temporary
Camel will expect a reply and, after sending the message, it will start to listen for the reply message on the specified
Camel will send the message and not expect a reply.
By default, Camel discards the
In all situations the
JmsConsumer behaves as follows, depending on configuration:
Camel will send the reply back to the
Camel will not send a reply back, as the pattern is InOnly.
This option suppresses replies.
So pay attention to the message exchange pattern set on your exchanges.
If you send a message to a JMS destination in the middle of your route you can specify the exchange pattern to use, see more at Request Reply. This is useful if you want to send an
InOnly message to a JMS topic:
Reuse endpoint and send to different destinations computed at runtime
If you need to send messages to a lot of different JMS destinations, it makes sense to reuse a JMS endpoint and specify the real destination in a message header. This allows Camel to reuse the same endpoint, but send to different destinations. This greatly reduces the number of endpoints created and economizes on memory and thread resources.
You can specify the destination in the following headers:
A destination object.
The destination name.
For example, the following route shows how you can compute a destination at run time and use it to override the destination appearing in the JMS URL:
The queue name,
dummy, is just a placeholder. It must be provided as part of the JMS endpoint URL, but it will be ignored in this example.
computeDestination bean, specify the real destination by setting the
CamelJmsDestinationName header as follows:
Then Camel will read this header and use it as the destination instead of the one configured on the endpoint. So, in this example Camel sends the message to
activemq:queue:order:2, assuming the
id value was
If both the
CamelJmsDestination and the
CamelJmsDestinationName headers are set
CamelJmsDestination will take priority. Note that the JMS producer removes both
CamelJmsDestinationName headers from the exchange and does not propagate them to the created JMS message. This prevents accidental routing loops in scenarios where a message is forwarded to another JMS endpoint.
Configuring different JMS providers
A JMS provider can be configured in Spring XML as follows:
An unlimited number of JMS component instance can be created provided each has a unique value for its
id attribute. The preceding example configures an activemq component. You could do the same to configure MQSeries, TibCo, BEA, Sonic etc.
Once named a JMS component can be referenced from an endpoint's URI. For example, given the component name
activemq a URI can reference the component using the format
activemq:[queue:|topic:]destinationName. The same approach applies to all JMS providers. This is achieved by the SpringCamelContext lazily fetching components from the spring context for the scheme name referenced in the Endpoint URIs then having the Component resolve the endpoint URI itself.
Using JNDI to find the ConnectionFactory
If you are using a J2EE container, you might need to look up JNDI to find the JMS
ConnectionFactory rather than use the usual
<bean> mechanism in Spring. You can do this using Spring's factory bean or the new Spring XML namespace. For example:
See The jee schema in the Spring reference documentation for more details about JNDI lookup.
A common requirement with JMS is to consume messages concurrently in multiple threads in order to make an application more responsive. You can set the
concurrentConsumers option to specify the number of threads servicing the JMS endpoint, as follows:
You can configure this option in one of the following ways:
On the endpoint URI
setConcurrentConsumers()directly on the
Concurrent Consuming with async consumer
Notice that each concurrent consumer will only pickup the next available message from the JMS broker, when the current message has been fully processed. You can set the option
asyncConsumer=true to let the consumer pickup the next message from the JMS queue, while the previous message is being processed asynchronously (by the Asynchronous Routing Engine). See more details in the table on top of the page about the
Request-reply over JMS
Camel supports Request Reply over JMS. In essence the MEP of the Exchange should be
InOut when you send a message to a JMS queue.
Camel offers a number of options to configure request/reply over JMS that influence performance and clustered environments. The table below summaries the options.
A temporary queue is used as reply queue, and automatic created by Camel. To use this do not specify a replyTo queue name. And you can optionally configure
A shared persistent queue is used as reply queue. The queue must be created beforehand, although some brokers can create them on the fly such as Apache ActiveMQ. To use this you must specify the replyTo queue name. And you can optionally configure
An exclusive persistent queue is used as reply queue. The queue must be created beforehand, although some brokers can create them on the fly such as Apache ActiveMQ. To use this you must specify the replyTo queue name. And you must configure
Camel 2.10.3: Allows to process reply messages concurrently using concurrent message listeners in use. You can specify a range using the
Note: That using
Camel 2.10.3: Allows to process reply messages concurrently using concurrent message listeners in use. You can specify a range using the
Note: That using
JmsProducer detects the
InOut and provides a
JMSReplyTo header with the reply destination to be used. By default Camel uses a temporary queue, but you can use the
replyTo option on the endpoint to specify a fixed reply queue (see more below about fixed reply queue).
Camel will automatic setup a consumer which listen on the reply queue, so you should not do anything. This consumer is a Spring
DefaultMessageListenerContainer which listen for replies. However it's fixed to 1 concurrent consumer. That means replies will be processed in sequence as there are only 1 thread to process the replies. If you want to process replies faster, then we need to use concurrency. But not using the
concurrentConsumer option. We should use the
threads from the Camel DSL instead, as shown in the route below:
Instead of using threads, then use
concurrentConsumers option if using Camel 2.10.3 or greater. See below for details.
In this route we instruct Camel to route replies asynchronously using a thread pool with 5 threads.
From Camel 2.10.3 onward you can now configure the listener to use concurrent threads using the
maxConcurrentConsumers options. This allows you to easier configure this in Camel as shown below:
Request-reply over JMS and using a shared fixed reply queue
If you use a fixed reply queue when doing Request Reply over JMS as shown in the example below, then pay attention.
In this example the fixed reply queue named "bar" is used. By default Camel assumes the queue is shared when using fixed reply queues, and therefore it uses a
JMSSelector to only pickup the expected reply messages (eg based on the
JMSCorrelationID). See next section for exclusive fixed reply queues. That means its not as fast as temporary queues. You can speedup how often Camel will pull for reply messages using the
receiveTimeout option. By default its 1000 millis. So to make it faster you can set it to 250 millis to pull 4 times per second as shown:
Notice this will cause the Camel to send pull requests to the message broker more frequent, and thus require more network traffic. It's generally recommended that temporary queues be used where possible.
Request-reply over JMS and using an exclusive fixed reply queue
Available as of Camel 2.9
In the previous example, Camel would anticipate the fixed reply queue named
bar was shared, and thus it uses a
JMSSelector to only consume reply messages which it expects. However there is a drawback doing this as JMS selectos is slower. Also the consumer on the reply queue is slower to update with new JMS selector ids. In fact it only updates when the
receiveTimeout option times out, which by default is
1 second. So in theory the reply messages could take up till about
1 sec to be detected. On the other hand if the fixed reply queue is exclusive to the Camel reply consumer, then we can avoid using the JMS selectors, and thus be more performant. In fact as fast as using temporary queues. So in Camel 2.9 onward we introduced the
ReplyToType option which you can configure to
Exclusive to tell Camel that the reply queue is exclusive as shown in the example below:
Mind that the queue must be exclusive to each and every endpoint. So if you have two routes, then they each need an unique reply queue as shown in the next example:
The same applies if you run in a clustered environment. Then each node in the cluster must use an unique reply queue name. As otherwise each node in the cluster may pickup messages which was intended as a reply on another node. For clustered environments its recommended to use shared reply queues instead.
Synchronizing clocks between senders and receivers
When doing messaging between systems, its desirable that the systems have synchronized clocks. For example when sending a JMS message, then you can set a time to live value on the message. Then the receiver can inspect this value, and determine if the message is already expired, and thus drop the message instead of consume and process it. However this requires that both sender and receiver have synchronized clocks. If you are using ActiveMQ then you can use the timestamp plugin to synchronize clocks.
About time to live
Read first above about synchronized clocks.
When you do request/reply,
InOut, over JMS Camel uses a timeout on the sender side, which is default 20 seconds, taken from the
requestTimeout option. You can control this by setting a higher/lower value. However, the time to live value is still set on the JMS message being sent. This therefore requires that system clocks be synchronized between the systems. If they are not, then you may want to disable the time to live value being set. This is now possible using the
disableTimeToLive option from Camel 2.8 onward. So if you set this option to
disableTimeToLive=true, then Camel does not set any time to live value when sending JMS messages. But the request timeout is still active. So for example if you do request/reply over JMS and have disabled time to live, then Camel will still use a timeout by 20 seconds (the
requestTimeout option). That option can of course also be configured. So the two options
disableTimeToLive gives you fine grained control when doing request/reply.
From Camel 2.13/2.12.3 onward you can provide a header in the message to override and use as the request timeout value instead of the endpoint configured value. For example:
In the route above we have a endpoint configured
requestTimeout of 30 seconds. So Camel will wait up till 30 seconds for that reply message to come back on the bar queue. If no reply message is received then a
org.apache.camel.ExchangeTimedOutException is set on the Exchange and Camel continues routing the message, which would then fail due the exception, and Camel's error handler reacts.
If you want to use a per message timeout value, you can set the header with key
org.apache.camel.component.jms.JmsConstants#JMS_REQUEST_TIMEOUT which has constant value
"CamelJmsRequestTimeout" with a timeout value as long type.
For example we can use a bean to compute the timeout value per individual message, such as calling the
"whatIsTheTimeout" method on the service bean as shown below:
When you do fire and forget (
InOut) over JMS Camel will, by default, not set a time to live value on the message. The value can be configured using the
timeToLive option. For example to indicate a 5 sec., you set
timeToLive=5000. The option
disableTimeToLive can be used to force disabling the time to live, also for
InOnly messaging. The
requestTimeout option is not being used for
Enabling Transacted Consumption
A common requirement is to consume from a queue in a transaction and then process the message using the Camel route. To do this, just ensure that you set the following properties on the component/endpoint:
transacted = true
transactionManager =<SomeTransactionManager> (typically the JmsTransactionManager)
See the Transactional Client EIP pattern for further details.
Transactions and [Request Reply] over JMS
When using Request Reply over JMS you cannot use a single transaction; JMS will not send any messages until a commit is performed, so the server side won't receive anything at all until the transaction commits. Therefore to use Request Reply you must commit a transaction after sending the request and then use a separate transaction for receiving the response.
To address this issue the JMS component uses different properties to specify transaction use for oneway messaging and request reply messaging:
transactedproperty applies only to the
InOnlymessage Exchange Pattern (MEP).
transactedInOutproperty applies to the
InOut(Request Reply) message Exchange Pattern (MEP). If you want to use transactions with the
InOut(Request Reply) message Exchange Pattern (MEP), you must set
Available as of Camel 2.10
You can leverage the DMLC transacted session API using the following properties on component/endpoint:
transacted = true
lazyCreateTransactionManager = false
The benefit of doing so is that the
cacheLevel setting will be honored when using local transactions without a configured TransactionManager. When a TransactionManager is configured, no caching happens at DMLC level and its necessary to rely on a pooled connection factory. For more details about this kind of setup see here and here.
Using JMSReplyTo for late replies
When using Camel as a JMS listener, it sets an Exchange property with the value of the ReplyTo
javax.jms.Destination object, having the key
ReplyTo. You can obtain this
Destination as follows:
And then later use it to send a reply using regular JMS or Camel.
A different solution to sending a reply is to provide the
replyDestination object in the same Exchange property when sending. Camel will then pick up this property and use it for the real destination. The endpoint URI must include a dummy destination, however.
Using a request timeout
JMS is used in many examples for other components as well. But we provide a few samples below to get started.
Receiving from JMS
In the following sample we configure a route that receives JMS messages and routes the message to a POJO:
You can of course use any of the EIP patterns so the route can be context based. For example, here's how to filter an order topic for the big spenders:
Sending to a JMS
In the sample below we poll a file folder and send the file content to a JMS topic. As we want the content of the file as a
TextMessage instead of a
BytesMessage, we need to convert the body to a
Spring DSL sample
The preceding examples use the Java DSL. Camel also supports Spring XML DSL. Here is the big spender sample using Spring DSL:
JMS appears in many of the examples for other components and EIP patterns, as well in this Camel documentation. So feel free to browse the documentation. If you have time, check out the this tutorial that uses JMS but focuses on how well Spring Remoting and Camel works together Tutorial-JmsRemoting.
Using JMS as a Dead Letter Queue storing Exchange
Normally, when using JMS as the transport, it only transfers the body and headers as the payload. If you want to use JMS with a Dead Letter Channel, using a JMS queue as the Dead Letter Queue, then normally the caused Exception is not stored in the JMS message. You can, however, use the
transferExchange option on the JMS dead letter queue to instruct Camel to store the entire Exchange in the queue as a
javax.jms.ObjectMessage that holds a
org.apache.camel.impl.DefaultExchangeHolder. This allows you to consume from the Dead Letter Queue and retrieve the caused exception from the Exchange property with the key
Then you can consume from the JMS queue and analyze the problem:
Using JMS as a Dead Letter Channel storing error only
You can use JMS to store the cause error message or to store a custom body, which you can initialize yourself. The following example uses the Message Translator EIP to do a transformation on the failed exchange before it is moved to the JMS dead letter queue:
Here we only store the original cause error message in the transform. You can, however, use any Expression to send whatever you like. For example, you can invoke a method on a Bean or use a custom processor.
Sending an InOnly message and keeping the JMSReplyTo header
When sending to a JMS destination using camel-jms the producer will use the MEP to detect if it's
InOut messaging. However, there can be times where you want to send an
InOnly message but keeping the
JMSReplyTo header. To do so you have to instruct Camel to keep it, otherwise the
JMSReplyTo header will be dropped.
For example to send an
InOnly message to the
foo queue, but with a
JMSReplyTo with bar queue you can do as follows:
Note: we use
preserveMessageQos=true to instruct Camel to keep the
Setting JMS provider options on the destination
Some JMS providers, like IBM's WebSphere MQ need options to be set on the JMS destination. For example, you may need to specify the
targetClient option. Since targetClient is a WebSphere MQ option and not a Camel URI option, you need to set that on the JMS destination name like so:
Some versions of Websphere MQ do not accept this option on the destination name. The following exception is raised when this happens:
com.ibm.msg.client.jms.DetailedJMSException: JMSCC0005: The specified value 'MY_QUEUE?targetClient=1' is not allowed for 'XMSC_DESTINATION_NAME'
A workaround is to use a custom DestinationResolver: