Threads
How can I decouple the continued routing of a message from the current thread?
Submit the message to a thread pool, which then is responsible for the continued routing of the message.
In Camel, this is implemented as the Threads EIP.
Options
The Threads eip supports 0 options, which are listed below.
| Name | Description | Default | Type |
|---|---|---|---|
description | Sets the description of this node. | String | |
disabled | Whether to disable this EIP from the route during build time. Once an EIP has been disabled then it cannot be enabled later at runtime. | false | Boolean |
executorService | To use a custom thread pool. | ExecutorService | |
poolSize | Sets the core pool size. | Integer | |
maxPoolSize | Sets the maximum pool size. | Integer | |
keepAliveTime | Sets the keep alive time for idle threads. | Long | |
timeUnit | Sets the keep alive time unit. By default SECONDS is used. Enum values:
| TimeUnit | |
maxQueueSize | Sets the maximum number of tasks in the work queue. Use -1 or Integer.MAX_VALUE for an unbounded queue. | Integer | |
allowCoreThreadTimeOut | Whether idle core threads are allowed to timeout and therefore can shrink the pool size below the core pool size Is by default false. | false | Boolean |
threadName | Sets the thread name to use. | Threads | String |
rejectedPolicy | Sets the handler for tasks which cannot be executed by the thread pool. Enum values:
| ThreadPoolRejectedPolicy | |
callerRunsWhenRejected | Whether or not to use as caller runs as fallback when a task is rejected being added to the thread pool (when its full). This is only used as fallback if no rejectedPolicy has been configured, or the thread pool has no configured rejection handler. Is by default true. | true | String |
Using Threads EIP
The example below will add a Thread pool with a pool size of five threads before sending to mock:result.
-
Java
-
XML
from("seda:a")
.threads(5)
.to("mock:result");<route>
<from uri="seda:a"/>
<threads poolSize="5"/>
<to uri="mock:result"/>
</route>And to use a thread pool with a task queue of only 20 elements:
-
Java
-
XML
from("seda:a")
.threads(5).maxQueueSize(20)
.to("mock:result");<route>
<from uri="seda:a"/>
<threads poolSize="5" maxQueueSize="20"/>
<to uri="mock:result"/>
</route>And you can also use a thread pool with no queue (meaning that a task cannot be pending on a queue):
-
Java
-
XML
from("seda:a")
.threads(5).maxQueueSize(0)
.to("mock:result");<route>
<from uri="seda:a"/>
<threads poolSize="5" maxQueueSize="0"/>
<to uri="mock:result"/>
</route>About rejected tasks
The Threads EIP uses a thread pool which has a worker queue for tasks. When the worker queue gets full, the task is rejected.
You can customize how to react upon this using the rejectedPolicy and callerRunsWhenRejected options. The latter is used to easily switch between the two most common and recommended settings. Either let the current caller thread execute the task (i.e. it will become synchronous), but also give time for the thread pool to process its current tasks, without adding more tasks (self throttling). This is the default behavior.
The Abort policy, means the task is rejected, and a RejectedExecutionException is thrown.
The reject policy options Discard and DiscardOldest is deprecated in Camel 3.x and removed in Camel 4 onwards. |
Default values
The Threads EIP uses the default values from the default Thread Pool Profile. If the profile has not been altered, then the default profile is as follows:
| Option | Default | Description |
|---|---|---|
poolSize |
| Sets the default core pool size (minimum number of threads to keep in pool) |
keepAliveTime |
| Sets the default keep-alive time (in seconds) for inactive threads |
maxPoolSize |
| Sets the default maximum pool size |
maxQueueSize |
| Sets the default maximum number of tasks in the work queue. Use -1 for an unbounded queue. |
allowCoreThreadTimeOut |
| Sets default whether to allow core threads to timeout |
rejectedPolicy |
| Sets the default handler for tasks which cannot be executed by the thread pool. Has four options: |
See Also
See Threading Model