@Override
protected void handleRawWebSocketRequest(
ServerHttpRequest request, ServerHttpResponse response, WebSocketHandler handler)
throws IOException {
TransportHandler transportHandler = this.handlers.get(TransportType.WEBSOCKET);
if (!(transportHandler instanceof HandshakeHandler)) {
logger.error("No handler configured for raw WebSocket messages");
response.setStatusCode(HttpStatus.NOT_FOUND);
return;
}
HandshakeInterceptorChain chain = new HandshakeInterceptorChain(this.interceptors, handler);
HandshakeFailureException failure = null;
try {
Map<String, Object> attributes = new HashMap<String, Object>();
if (!chain.applyBeforeHandshake(request, response, attributes)) {
return;
}
((HandshakeHandler) transportHandler).doHandshake(request, response, handler, attributes);
chain.applyAfterHandshake(request, response, null);
} catch (HandshakeFailureException ex) {
failure = ex;
} catch (Throwable ex) {
failure =
new HandshakeFailureException("Uncaught failure for request " + request.getURI(), ex);
} finally {
if (failure != null) {
chain.applyAfterHandshake(request, response, failure);
throw failure;
}
}
}
@Override
protected void handleTransportRequest(
ServerHttpRequest request,
ServerHttpResponse response,
WebSocketHandler handler,
String sessionId,
String transport)
throws SockJsException {
TransportType transportType = TransportType.fromValue(transport);
if (transportType == null) {
logger.error("Unknown transport type for " + request.getURI());
response.setStatusCode(HttpStatus.NOT_FOUND);
return;
}
TransportHandler transportHandler = this.handlers.get(transportType);
if (transportHandler == null) {
logger.error("No TransportHandler for " + request.getURI());
response.setStatusCode(HttpStatus.NOT_FOUND);
return;
}
HttpMethod supportedMethod = transportType.getHttpMethod();
if (!supportedMethod.equals(request.getMethod())) {
if (HttpMethod.OPTIONS.equals(request.getMethod()) && transportType.supportsCors()) {
if (checkAndAddCorsHeaders(request, response, HttpMethod.OPTIONS, supportedMethod)) {
response.setStatusCode(HttpStatus.NO_CONTENT);
addCacheHeaders(response);
}
} else if (transportType.supportsCors()) {
sendMethodNotAllowed(response, supportedMethod, HttpMethod.OPTIONS);
} else {
sendMethodNotAllowed(response, supportedMethod);
}
return;
}
HandshakeInterceptorChain chain = new HandshakeInterceptorChain(this.interceptors, handler);
SockJsException failure = null;
try {
SockJsSession session = this.sessions.get(sessionId);
if (session == null) {
if (transportHandler instanceof SockJsSessionFactory) {
Map<String, Object> attributes = new HashMap<String, Object>();
if (!chain.applyBeforeHandshake(request, response, attributes)) {
return;
}
SockJsSessionFactory sessionFactory = (SockJsSessionFactory) transportHandler;
session = createSockJsSession(sessionId, sessionFactory, handler, attributes);
} else {
response.setStatusCode(HttpStatus.NOT_FOUND);
if (logger.isDebugEnabled()) {
logger.debug(
"Session not found, sessionId="
+ sessionId
+ ". The session may have been closed "
+ "(e.g. missed heart-beat) while a message was coming in.");
}
return;
}
}
if (transportType.sendsNoCacheInstruction()) {
addNoCacheHeaders(response);
}
if (transportType.supportsCors()) {
if (!checkAndAddCorsHeaders(request, response)) {
return;
}
}
transportHandler.handleRequest(request, response, handler, session);
chain.applyAfterHandshake(request, response, null);
} catch (SockJsException ex) {
failure = ex;
} catch (Throwable ex) {
failure =
new SockJsException("Uncaught failure for request " + request.getURI(), sessionId, ex);
} finally {
if (failure != null) {
chain.applyAfterHandshake(request, response, failure);
throw failure;
}
}
}