public class SubProtocolWebSocketHandler extends java.lang.Object implements WebSocketHandler, SubProtocolCapable, MessageHandler, SmartLifecycle
WebSocketHandler
that delegates incoming WebSocket
messages to a SubProtocolHandler
along with a MessageChannel
to which
the sub-protocol handler can send messages from WebSocket clients to the application.
Also an implementation of MessageHandler
that finds the WebSocket session
associated with the Message
and passes it, along with the message, to the
sub-protocol handler to send messages from the application back to the client.
Constructor and Description |
---|
SubProtocolWebSocketHandler(MessageChannel clientInboundChannel,
SubscribableChannel clientOutboundChannel)
Create a new
SubProtocolWebSocketHandler for the given inbound and outbound channels. |
Modifier and Type | Method and Description |
---|---|
void |
addProtocolHandler(SubProtocolHandler handler)
Register a sub-protocol handler.
|
void |
afterConnectionClosed(WebSocketSession session,
CloseStatus closeStatus)
Invoked after the WebSocket connection has been closed by either side, or after a
transport error has occurred.
|
void |
afterConnectionEstablished(WebSocketSession session)
Invoked after WebSocket negotiation has succeeded and the WebSocket connection is
opened and ready for use.
|
protected WebSocketSession |
decorateSession(WebSocketSession session)
Decorate the given
WebSocketSession , if desired. |
protected SubProtocolHandler |
findProtocolHandler(WebSocketSession session)
Find a
SubProtocolHandler for the given session. |
SubProtocolHandler |
getDefaultProtocolHandler()
Return the default sub-protocol handler to use.
|
int |
getPhase()
Return the phase value of this object.
|
java.util.Map<java.lang.String,SubProtocolHandler> |
getProtocolHandlerMap()
Return the sub-protocols keyed by protocol name.
|
java.util.List<SubProtocolHandler> |
getProtocolHandlers() |
int |
getSendBufferSizeLimit()
Return the buffer-size limit (number of bytes).
|
int |
getSendTimeLimit()
Return the send-time limit (milliseconds).
|
java.lang.String |
getStatsInfo()
Return a String describing internal state and counters.
|
java.util.List<java.lang.String> |
getSubProtocols()
Return all supported protocols.
|
void |
handleMessage(Message<?> message)
Handle an outbound Spring Message to a WebSocket client.
|
void |
handleMessage(WebSocketSession session,
WebSocketMessage<?> message)
Handle an inbound message from a WebSocket client.
|
void |
handleTransportError(WebSocketSession session,
java.lang.Throwable exception)
Handle an error from the underlying WebSocket message transport.
|
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 |
setDefaultProtocolHandler(SubProtocolHandler defaultProtocolHandler)
Set the
SubProtocolHandler to use when the client did not request a
sub-protocol. |
void |
setProtocolHandlers(java.util.List<SubProtocolHandler> protocolHandlers)
Configure one or more handlers to use depending on the sub-protocol requested by
the client in the WebSocket handshake request.
|
void |
setSendBufferSizeLimit(int sendBufferSizeLimit)
Specify the buffer-size limit (number of bytes).
|
void |
setSendTimeLimit(int sendTimeLimit)
Specify the send-time limit (milliseconds).
|
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.
|
boolean |
supportsPartialMessages()
Whether the WebSocketHandler handles partial messages.
|
java.lang.String |
toString() |
public SubProtocolWebSocketHandler(MessageChannel clientInboundChannel, SubscribableChannel clientOutboundChannel)
SubProtocolWebSocketHandler
for the given inbound and outbound channels.clientInboundChannel
- the inbound MessageChannel
clientOutboundChannel
- the outbound MessageChannel
public void setProtocolHandlers(java.util.List<SubProtocolHandler> protocolHandlers)
protocolHandlers
- the sub-protocol handlers to usepublic java.util.List<SubProtocolHandler> getProtocolHandlers()
public void addProtocolHandler(SubProtocolHandler handler)
public java.util.Map<java.lang.String,SubProtocolHandler> getProtocolHandlerMap()
public void setDefaultProtocolHandler(SubProtocolHandler defaultProtocolHandler)
SubProtocolHandler
to use when the client did not request a
sub-protocol.defaultProtocolHandler
- the default handlerpublic SubProtocolHandler getDefaultProtocolHandler()
public java.util.List<java.lang.String> getSubProtocols()
getSubProtocols
in interface SubProtocolCapable
public void setSendTimeLimit(int sendTimeLimit)
ConcurrentWebSocketSessionDecorator
public int getSendTimeLimit()
public void setSendBufferSizeLimit(int sendBufferSizeLimit)
ConcurrentWebSocketSessionDecorator
public int getSendBufferSizeLimit()
public java.lang.String getStatsInfo()
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 afterConnectionEstablished(WebSocketSession session) throws java.lang.Exception
WebSocketHandler
afterConnectionEstablished
in interface WebSocketHandler
java.lang.Exception
- this method can handle or propagate exceptions; see class-level
Javadoc for details.public void handleMessage(WebSocketSession session, WebSocketMessage<?> message) throws java.lang.Exception
handleMessage
in interface WebSocketHandler
java.lang.Exception
- this method can handle or propagate exceptions; see class-level
Javadoc for details.public void handleMessage(Message<?> message) throws MessagingException
handleMessage
in interface MessageHandler
message
- the message to be handledMessagingException
- if the handler failed to process the messagepublic void handleTransportError(WebSocketSession session, java.lang.Throwable exception) throws java.lang.Exception
WebSocketHandler
handleTransportError
in interface WebSocketHandler
java.lang.Exception
- this method can handle or propagate exceptions; see class-level
Javadoc for details.public void afterConnectionClosed(WebSocketSession session, CloseStatus closeStatus) throws java.lang.Exception
WebSocketHandler
afterConnectionClosed
in interface WebSocketHandler
java.lang.Exception
- this method can handle or propagate exceptions; see class-level
Javadoc for details.public boolean supportsPartialMessages()
WebSocketHandler
true
and the underlying WebSocket server supports partial messages,
then a large WebSocket message, or one of an unknown size may be split and
maybe received over multiple calls to
WebSocketHandler.handleMessage(WebSocketSession, WebSocketMessage)
. The flag
WebSocketMessage.isLast()
indicates if
the message is partial and whether it is the last part.supportsPartialMessages
in interface WebSocketHandler
protected WebSocketSession decorateSession(WebSocketSession session)
WebSocketSession
, if desired.
The default implementation builds a ConcurrentWebSocketSessionDecorator
with the configured send-time limit
and
buffer-size limit
.
session
- the original WebSocketSession
WebSocketSession
, or potentially the given session as-isprotected final SubProtocolHandler findProtocolHandler(WebSocketSession session)
SubProtocolHandler
for the given session.session
- the WebSocketSession
to find a handler forpublic java.lang.String toString()
toString
in class java.lang.Object