use of org.atmosphere.cpr.AtmosphereInterceptorWriter in project cxf by apache.
the class DefaultProtocolInterceptor method attachWriter.
private void attachWriter(final AtmosphereResource r) {
AtmosphereResponse res = r.getResponse();
AsyncIOWriter writer = res.getAsyncIOWriter();
if (writer instanceof AtmosphereInterceptorWriter) {
AtmosphereInterceptorWriter.class.cast(writer).interceptor(interceptor, 0);
}
}
use of org.atmosphere.cpr.AtmosphereInterceptorWriter in project cxf by apache.
the class DefaultProtocolInterceptor method inspect.
@Override
public Action inspect(final AtmosphereResource r) {
LOG.log(Level.FINE, "inspect");
if (AtmosphereResource.TRANSPORT.WEBSOCKET != r.transport() && AtmosphereResource.TRANSPORT.SSE != r.transport() && AtmosphereResource.TRANSPORT.POLLING != r.transport()) {
LOG.fine("Skipping ignorable request");
return Action.CONTINUE;
}
if (AtmosphereResource.TRANSPORT.POLLING == r.transport()) {
final String saruuid = (String) r.getRequest().getAttribute(ApplicationConfig.SUSPENDED_ATMOSPHERE_RESOURCE_UUID);
final AtmosphereResponse suspendedResponse = suspendedResponses.get(saruuid);
LOG.fine("Attaching a proxy writer to suspended response");
r.getResponse().asyncIOWriter(new AtmosphereInterceptorWriter() {
@Override
public AsyncIOWriter write(AtmosphereResponse r, String data) throws IOException {
suspendedResponse.write(data);
suspendedResponse.flushBuffer();
return this;
}
@Override
public AsyncIOWriter write(AtmosphereResponse r, byte[] data) throws IOException {
suspendedResponse.write(data);
suspendedResponse.flushBuffer();
return this;
}
@Override
public AsyncIOWriter write(AtmosphereResponse r, byte[] data, int offset, int length) throws IOException {
suspendedResponse.write(data, offset, length);
suspendedResponse.flushBuffer();
return this;
}
@Override
public void close(AtmosphereResponse response) throws IOException {
}
});
// REVISIT we need to keep this response's asyncwriter alive so that data can be written to the
// suspended response, but investigate if there is a better alternative.
r.getResponse().destroyable(false);
return Action.CONTINUE;
}
r.addEventListener(new AtmosphereResourceEventListenerAdapter() {
@Override
public void onSuspend(AtmosphereResourceEvent event) {
final String srid = (String) event.getResource().getRequest().getAttribute(ApplicationConfig.SUSPENDED_ATMOSPHERE_RESOURCE_UUID);
LOG.log(Level.FINE, "Registrering suspended resource: {}", srid);
suspendedResponses.put(srid, event.getResource().getResponse());
AsyncIOWriter writer = event.getResource().getResponse().getAsyncIOWriter();
if (writer instanceof AtmosphereInterceptorWriter) {
((AtmosphereInterceptorWriter) writer).interceptor(interceptor);
}
}
@Override
public void onDisconnect(AtmosphereResourceEvent event) {
super.onDisconnect(event);
final String srid = (String) event.getResource().getRequest().getAttribute(ApplicationConfig.SUSPENDED_ATMOSPHERE_RESOURCE_UUID);
LOG.log(Level.FINE, "Unregistrering suspended resource: {}", srid);
suspendedResponses.remove(srid);
}
});
AtmosphereRequest request = r.getRequest();
if (request.getAttribute(REQUEST_DISPATCHED) == null) {
AtmosphereResponse response = null;
AtmosphereFramework framework = r.getAtmosphereConfig().framework();
try {
byte[] data = WebSocketUtils.readBody(request.getInputStream());
if (data.length == 0) {
if (AtmosphereResource.TRANSPORT.WEBSOCKET == r.transport() || AtmosphereResource.TRANSPORT.SSE == r.transport()) {
r.suspend();
return Action.SUSPEND;
}
return Action.CANCELLED;
}
if (LOG.isLoggable(Level.FINE)) {
LOG.log(Level.FINE, "inspecting data {0}", new String(data));
}
try {
AtmosphereRequest ar = createAtmosphereRequest(request, data);
response = new WrappedAtmosphereResponse(r.getResponse(), ar);
ar.localAttributes().put(REQUEST_DISPATCHED, "true");
String refid = ar.getHeader(WebSocketConstants.DEFAULT_REQUEST_ID_KEY);
if (refid != null) {
ar.localAttributes().put(WebSocketConstants.DEFAULT_REQUEST_ID_KEY, refid);
}
// This is a new request, we must clean the Websocket AtmosphereResource.
request.removeAttribute(FrameworkConfig.INJECTED_ATMOSPHERE_RESOURCE);
response.request(ar);
attachWriter(r);
Action action = framework.doCometSupport(ar, response);
if (action.type() == Action.TYPE.SUSPEND) {
ar.destroyable(false);
response.destroyable(false);
}
} catch (Exception e) {
LOG.log(Level.WARNING, "Error during request dispatching", e);
if (response == null) {
response = new WrappedAtmosphereResponse(r.getResponse(), request);
}
if (e instanceof InvalidPathException) {
response.setIntHeader(WebSocketUtils.SC_KEY, 400);
} else {
response.setIntHeader(WebSocketUtils.SC_KEY, 500);
}
OutputStream out = response.getOutputStream();
out.write(createResponse(response, null, true));
out.close();
}
return Action.CANCELLED;
} catch (IOException e) {
LOG.log(Level.WARNING, "Error during protocol processing", e);
}
} else {
request.destroyable(false);
}
return Action.CONTINUE;
}
use of org.atmosphere.cpr.AtmosphereInterceptorWriter in project atmosphere by Atmosphere.
the class SimpleRestInterceptor method attachWriter.
private void attachWriter(final AtmosphereResource r) {
AtmosphereResponse res = r.getResponse();
AsyncIOWriter writer = res.getAsyncIOWriter();
if (writer instanceof AtmosphereInterceptorWriter) {
((AtmosphereInterceptorWriter) writer).interceptor(interceptor, 0);
}
}
use of org.atmosphere.cpr.AtmosphereInterceptorWriter in project atmosphere by Atmosphere.
the class SimpleRestInterceptor method inspect.
@Override
public Action inspect(final AtmosphereResource r) {
if (AtmosphereResource.TRANSPORT.WEBSOCKET != r.transport() && AtmosphereResource.TRANSPORT.SSE != r.transport() && AtmosphereResource.TRANSPORT.POLLING != r.transport()) {
LOG.debug("Skipping for non websocket request");
return Action.CONTINUE;
}
if (AtmosphereResource.TRANSPORT.POLLING == r.transport()) {
final String saruuid = (String) r.getRequest().getAttribute(ApplicationConfig.SUSPENDED_ATMOSPHERE_RESOURCE_UUID);
final AtmosphereResponse suspendedResponse = suspendedResponses.get(saruuid);
LOG.debug("Attaching a proxy writer to suspended response");
r.getResponse().asyncIOWriter(new AtmosphereInterceptorWriter() {
@Override
public AsyncIOWriter write(AtmosphereResponse r, String data) throws IOException {
suspendedResponse.write(data);
suspendedResponse.flushBuffer();
return this;
}
@Override
public AsyncIOWriter write(AtmosphereResponse r, byte[] data) throws IOException {
suspendedResponse.write(data);
suspendedResponse.flushBuffer();
return this;
}
@Override
public AsyncIOWriter write(AtmosphereResponse r, byte[] data, int offset, int length) throws IOException {
suspendedResponse.write(data, offset, length);
suspendedResponse.flushBuffer();
return this;
}
@Override
public void close(AtmosphereResponse response) throws IOException {
}
});
// REVISIT we need to keep this response's asyncwriter alive so that data can be written to the
// suspended response, but investigate if there is a better alternative.
r.getResponse().destroyable(false);
return Action.CONTINUE;
}
r.addEventListener(new AtmosphereResourceEventListenerAdapter() {
@Override
public void onSuspend(AtmosphereResourceEvent event) {
final String srid = (String) event.getResource().getRequest().getAttribute(ApplicationConfig.SUSPENDED_ATMOSPHERE_RESOURCE_UUID);
LOG.debug("Registrering suspended resource: {}", srid);
suspendedResponses.put(srid, event.getResource().getResponse());
AsyncIOWriter writer = event.getResource().getResponse().getAsyncIOWriter();
if (writer == null) {
writer = new AtmosphereInterceptorWriter();
r.getResponse().asyncIOWriter(writer);
}
if (writer instanceof AtmosphereInterceptorWriter) {
((AtmosphereInterceptorWriter) writer).interceptor(interceptor);
}
}
@Override
public void onDisconnect(AtmosphereResourceEvent event) {
super.onDisconnect(event);
final String srid = (String) event.getResource().getRequest().getAttribute(ApplicationConfig.SUSPENDED_ATMOSPHERE_RESOURCE_UUID);
LOG.debug("Unregistrering suspended resource: {}", srid);
suspendedResponses.remove(srid);
}
});
AtmosphereRequest request = r.getRequest();
if (request.getAttribute(REQUEST_DISPATCHED) == null) {
try {
// REVISIT use a more efficient approach for the detached mode (i.e.,avoid reading the message into a string)
// read the message entity and dispatch a service call
String body = IOUtils.readEntirelyAsString(r).toString();
LOG.debug("Request message: '{}'", body);
if (body.length() == 0) {
// TODO we might want to move this heartbeat scheduling after the handshake phase (if that is added)
if ((AtmosphereResource.TRANSPORT.WEBSOCKET == r.transport() || AtmosphereResource.TRANSPORT.SSE == r.transport()) && request.getAttribute(HEARTBEAT_SCHEDULED) == null) {
r.suspend();
scheduleHeartbeat(r);
request.setAttribute(HEARTBEAT_SCHEDULED, "true");
return Action.SUSPEND;
}
return Action.CANCELLED;
}
AtmosphereRequest ar = createAtmosphereRequest(request, body);
if (ar == null) {
return Action.CANCELLED;
}
AtmosphereResponse response = r.getResponse();
ar.localAttributes().put(REQUEST_DISPATCHED, "true");
request.removeAttribute(FrameworkConfig.INJECTED_ATMOSPHERE_RESOURCE);
response.request(ar);
attachWriter(r);
Action action = r.getAtmosphereConfig().framework().doCometSupport(ar, response);
if (action.type() == Action.TYPE.SUSPEND) {
ar.destroyable(false);
response.destroyable(false);
}
return Action.CANCELLED;
} catch (IOException | ServletException e) {
LOG.error("Failed to process", e);
}
}
return Action.CONTINUE;
}
use of org.atmosphere.cpr.AtmosphereInterceptorWriter in project atmosphere by Atmosphere.
the class TrackMessageSizeInterceptor method inspect.
@Override
public Action inspect(final AtmosphereResource r) {
if (AtmosphereResource.TRANSPORT.UNDEFINED == r.transport() || Utils.webSocketMessage(r))
return Action.CONTINUE;
final AtmosphereResponse response = r.getResponse();
super.inspect(r);
AsyncIOWriter writer = response.getAsyncIOWriter();
if (AtmosphereInterceptorWriter.class.isAssignableFrom(writer.getClass())) {
((AtmosphereInterceptorWriter) writer).interceptor(interceptor);
} else {
logger.warn("Unable to apply {}. Your AsyncIOWriter must implement {}", getClass().getName(), AtmosphereInterceptorWriter.class.getName());
}
return Action.CONTINUE;
}
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