// // Copyright (c) ZeroC, Inc. All rights reserved. // using System; using System.Collections; using System.Collections.Generic; using System.Diagnostics; using System.Threading; using Ice.Instrumentation; namespace IceInternal { public class CollocatedRequestHandler : RequestHandler, ResponseHandler { private void fillInValue(Ice.OutputStream os, int pos, int value) { os.rewriteInt(value, pos); } public CollocatedRequestHandler(Reference @ref, Ice.ObjectAdapter adapter) { _reference = @ref; _dispatcher = _reference.getInstance().initializationData().dispatcher != null; _response = _reference.getMode() == Reference.Mode.ModeTwoway; _adapter = (Ice.ObjectAdapterI)adapter; _logger = _reference.getInstance().initializationData().logger; // Cached for better performance. _traceLevels = _reference.getInstance().traceLevels(); // Cached for better performance. _requestId = 0; } public RequestHandler update(RequestHandler previousHandler, RequestHandler newHandler) { return previousHandler == this ? newHandler : this; } public int sendAsyncRequest(ProxyOutgoingAsyncBase outAsync) { return outAsync.invokeCollocated(this); } public void asyncRequestCanceled(OutgoingAsyncBase outAsync, Ice.LocalException ex) { lock(this) { int requestId; if(_sendAsyncRequests.TryGetValue(outAsync, out requestId)) { if(requestId > 0) { _asyncRequests.Remove(requestId); } _sendAsyncRequests.Remove(outAsync); if(outAsync.exception(ex)) { outAsync.invokeExceptionAsync(); } _adapter.decDirectCount(); // invokeAll won't be called, decrease the direct count. return; } if(outAsync is OutgoingAsync) { OutgoingAsync o = (OutgoingAsync)outAsync; Debug.Assert(o != null); foreach(KeyValuePair e in _asyncRequests) { if(e.Value == o) { _asyncRequests.Remove(e.Key); if(outAsync.exception(ex)) { outAsync.invokeExceptionAsync(); } return; } } } } } public void sendResponse(int requestId, Ice.OutputStream os, byte status, bool amd) { OutgoingAsyncBase outAsync; lock(this) { Debug.Assert(_response); if(_traceLevels.protocol >= 1) { fillInValue(os, 10, os.size()); } // Adopt the OutputStream's buffer. Ice.InputStream iss = new Ice.InputStream(os.instance(), os.getEncoding(), os.getBuffer(), true); iss.pos(Protocol.replyHdr.Length + 4); if(_traceLevels.protocol >= 1) { TraceUtil.traceRecv(iss, _logger, _traceLevels); } if(_asyncRequests.TryGetValue(requestId, out outAsync)) { outAsync.getIs().swap(iss); if(!outAsync.response()) { outAsync = null; } _asyncRequests.Remove(requestId); } } if(outAsync != null) { if(amd) { outAsync.invokeResponseAsync(); } else { outAsync.invokeResponse(); } } _adapter.decDirectCount(); } public void sendNoResponse() { _adapter.decDirectCount(); } public bool systemException(int requestId, Ice.SystemException ex, bool amd) { handleException(requestId, ex, amd); _adapter.decDirectCount(); return true; } public void invokeException(int requestId, Ice.LocalException ex, int invokeNum, bool amd) { handleException(requestId, ex, amd); _adapter.decDirectCount(); } public Reference getReference() { return _reference; } public Ice.ConnectionI getConnection() { return null; } public int invokeAsyncRequest(OutgoingAsyncBase outAsync, int batchRequestNum, bool synchronous) { // // Increase the direct count to prevent the thread pool from being destroyed before // invokeAll is called. This will also throw if the object adapter has been deactivated. // _adapter.incDirectCount(); int requestId = 0; try { lock(this) { outAsync.cancelable(this); // This will throw if the request is canceled if(_response) { requestId = ++_requestId; _asyncRequests.Add(requestId, outAsync); } _sendAsyncRequests.Add(outAsync, requestId); } } catch(Exception) { _adapter.decDirectCount(); throw; } outAsync.attachCollocatedObserver(_adapter, requestId); if(!synchronous || !_response || _reference.getInvocationTimeout() > 0) { // Don't invoke from the user thread if async or invocation timeout is set _adapter.getThreadPool().dispatch( () => { if (sentAsync(outAsync)) { invokeAll(outAsync.getOs(), requestId, batchRequestNum); } }, null); } else if(_dispatcher) { _adapter.getThreadPool().dispatchFromThisThread( () => { if (sentAsync(outAsync)) { invokeAll(outAsync.getOs(), requestId, batchRequestNum); } }, null); } else // Optimization: directly call invokeAll if there's no dispatcher. { if(sentAsync(outAsync)) { invokeAll(outAsync.getOs(), requestId, batchRequestNum); } } return OutgoingAsyncBase.AsyncStatusQueued; } private bool sentAsync(OutgoingAsyncBase outAsync) { lock(this) { if(!_sendAsyncRequests.Remove(outAsync)) { return false; // The request timed-out. } if(!outAsync.sent()) { return true; } } outAsync.invokeSent(); return true; } private void invokeAll(Ice.OutputStream os, int requestId, int batchRequestNum) { if(_traceLevels.protocol >= 1) { fillInValue(os, 10, os.size()); if(requestId > 0) { fillInValue(os, Protocol.headerSize, requestId); } else if(batchRequestNum > 0) { fillInValue(os, Protocol.headerSize, batchRequestNum); } TraceUtil.traceSend(os, _logger, _traceLevels); } Ice.InputStream iss = new Ice.InputStream(os.instance(), os.getEncoding(), os.getBuffer(), false); if(batchRequestNum > 0) { iss.pos(Protocol.requestBatchHdr.Length); } else { iss.pos(Protocol.requestHdr.Length); } int invokeNum = batchRequestNum > 0 ? batchRequestNum : 1; ServantManager servantManager = _adapter.getServantManager(); try { while(invokeNum > 0) { // // Increase the direct count for the dispatch. We increase it again here for // each dispatch. It's important for the direct count to be > 0 until the last // collocated request response is sent to make sure the thread pool isn't // destroyed before. // try { _adapter.incDirectCount(); } catch(Ice.ObjectAdapterDeactivatedException ex) { handleException(requestId, ex, false); break; } Incoming inS = new Incoming(_reference.getInstance(), this, null, _adapter, _response, (byte)0, requestId); inS.invoke(servantManager, iss); --invokeNum; } } catch(Ice.LocalException ex) { invokeException(requestId, ex, invokeNum, false); // Fatal invocation exception } _adapter.decDirectCount(); } void handleException(int requestId, Ice.Exception ex, bool amd) { if(requestId == 0) { return; // Ignore exception for oneway messages. } OutgoingAsyncBase outAsync; lock(this) { if(_asyncRequests.TryGetValue(requestId, out outAsync)) { if(!outAsync.exception(ex)) { outAsync = null; } _asyncRequests.Remove(requestId); } } if(outAsync != null) { // // If called from an AMD dispatch, invoke asynchronously // the completion callback since this might be called from // the user code. // if(amd) { outAsync.invokeExceptionAsync(); } else { outAsync.invokeException(); } } } private readonly Reference _reference; private readonly bool _dispatcher; private readonly bool _response; private readonly Ice.ObjectAdapterI _adapter; private readonly Ice.Logger _logger; private readonly TraceLevels _traceLevels; private int _requestId; private Dictionary _sendAsyncRequests = new Dictionary(); private Dictionary _asyncRequests = new Dictionary(); } }