public class UserDestinationMessageHandler extends java.lang.Object implements MessageHandler, SmartLifecycle
MessageHandler
with support for "user" destinations.
Listens for messages with "user" destinations, translates their destination to actual target destinations unique to the active session(s) of a user, and then sends the resolved messages to the broker channel to be delivered.
Constructor and Description |
---|
UserDestinationMessageHandler(SubscribableChannel clientInboundChannel,
SubscribableChannel brokerChannel,
UserDestinationResolver resolver)
Create an instance with the given client and broker channels subscribing
to handle messages from each and then sending any resolved messages to the
broker channel.
|
Modifier and Type | Method and Description |
---|---|
java.lang.String |
getBroadcastDestination()
Return the configured destination for unresolved messages.
|
MessageSendingOperations<java.lang.String> |
getBrokerMessagingTemplate()
Return the messaging template used to send resolved messages to the
broker channel.
|
MessageHeaderInitializer |
getHeaderInitializer()
Return the configured header initializer.
|
int |
getPhase()
Return the phase value of this object.
|
UserDestinationResolver |
getUserDestinationResolver()
Return the configured
UserDestinationResolver . |
void |
handleMessage(Message<?> message)
Handle the given message.
|
boolean |
isAutoStartup()
Returns
true if this Lifecycle component should get
started automatically by the container at the time that the containing
ApplicationContext gets refreshed. |
boolean |
isRunning()
Check whether this component is currently running.
|
void |
setBroadcastDestination(java.lang.String destination)
Set a destination to broadcast messages to that remain unresolved because
the user is not connected.
|
void |
setHeaderInitializer(MessageHeaderInitializer headerInitializer)
Configure a custom
MessageHeaderInitializer to initialize the
headers of resolved target messages. |
void |
start()
Start this component.
|
void |
stop()
Stop this component, typically in a synchronous fashion, such that the component is
fully stopped upon return of this method.
|
void |
stop(java.lang.Runnable callback)
Indicates that a Lifecycle component must stop if it is currently running.
|
java.lang.String |
toString() |
public UserDestinationMessageHandler(SubscribableChannel clientInboundChannel, SubscribableChannel brokerChannel, UserDestinationResolver resolver)
clientInboundChannel
- messages received from clients.brokerChannel
- messages sent to the broker.resolver
- the resolver for "user" destinations.public UserDestinationResolver getUserDestinationResolver()
UserDestinationResolver
.public void setBroadcastDestination(java.lang.String destination)
By default this is not set.
destination
- the target destination.public java.lang.String getBroadcastDestination()
public MessageSendingOperations<java.lang.String> getBrokerMessagingTemplate()
public void setHeaderInitializer(MessageHeaderInitializer headerInitializer)
MessageHeaderInitializer
to initialize the
headers of resolved target messages.
By default this is not set.
public MessageHeaderInitializer getHeaderInitializer()
public boolean isAutoStartup()
SmartLifecycle
true
if this Lifecycle
component should get
started automatically by the container at the time that the containing
ApplicationContext
gets refreshed.
A value of false
indicates that the component is intended to
be started through an explicit Lifecycle.start()
call instead, analogous
to a plain Lifecycle
implementation.
isAutoStartup
in interface SmartLifecycle
Lifecycle.start()
,
Phased.getPhase()
,
LifecycleProcessor.onRefresh()
,
ConfigurableApplicationContext.refresh()
public int getPhase()
Phased
public final void start()
Lifecycle
Should not throw an exception if the component is already running.
In the case of a container, this will propagate the start signal to all components that apply.
start
in interface Lifecycle
SmartLifecycle.isAutoStartup()
public final void stop()
Lifecycle
SmartLifecycle
and its stop(Runnable)
variant when asynchronous stop behavior is necessary.
Note that this stop notification is not guaranteed to come before destruction:
On regular shutdown, Lifecycle
beans will first receive a stop notification
before the general destruction callbacks are being propagated; however, on hot
refresh during a context's lifetime or on aborted refresh attempts, a given bean's
destroy method will be called without any consideration of stop signals upfront.
Should not throw an exception if the component is not running (not started yet).
In the case of a container, this will propagate the stop signal to all components that apply.
stop
in interface Lifecycle
SmartLifecycle.stop(Runnable)
,
DisposableBean.destroy()
public final void stop(java.lang.Runnable callback)
SmartLifecycle
The provided callback is used by the LifecycleProcessor
to support
an ordered, and potentially concurrent, shutdown of all components having a
common shutdown order value. The callback must be executed after
the SmartLifecycle
component does indeed stop.
The LifecycleProcessor
will call only this variant of the
stop
method; i.e. Lifecycle.stop()
will not be called for
SmartLifecycle
implementations unless explicitly delegated to within
the implementation of this method.
stop
in interface SmartLifecycle
Lifecycle.stop()
,
Phased.getPhase()
public final boolean isRunning()
Lifecycle
In the case of a container, this will return true
only if all
components that apply are currently running.
public void handleMessage(Message<?> message) throws MessagingException
MessageHandler
handleMessage
in interface MessageHandler
message
- the message to be handledMessagingException
- if the handler failed to process the messagepublic java.lang.String toString()
toString
in class java.lang.Object