public void AsyncProcessResponse(IClientResponseChannelSinkStack sinkStack, object state, ITransportHeaders headers, Stream stream) { IMethodCallMessage mcm = (IMethodCallMessage)state; IMessage msg = this.DeserializeMessage(mcm, headers, stream); sinkStack.DispatchReplyMessage(msg); }
public void AsyncProcessResponse(IClientResponseChannelSinkStack sinkStack, object state, ITransportHeaders headers, Stream stream) { IMethodCallMessage methodCallMessage = state as IMethodCallMessage; IMessage message = DeserializeResponse(methodCallMessage, headers, stream); sinkStack.DispatchReplyMessage(message); }
public void AsyncProcessResponse(IClientResponseChannelSinkStack sinkStack, Object state, ITransportHeaders headers, Stream stream) { // previously we stored the outgoing message in state IMethodCallMessage mcm = (IMethodCallMessage)state; IMessage retMsg = DeserializeMessage(mcm, headers, stream); sinkStack.DispatchReplyMessage(retMsg); } // AsyncProcessRequest
public void AsyncProcessResponse(IClientResponseChannelSinkStack sinkStack, object state, ITransportHeaders headers, Stream stream) { IMessage replyMessage = (IMessage)_binaryCore.Deserializer.DeserializeMethodResponse(stream, null, (IMethodCallMessage)state); sinkStack.DispatchReplyMessage(replyMessage); }
public void AsyncProcessResponse(IClientResponseChannelSinkStack sinkStack, object state, ITransportHeaders headers, Stream stream) { IMessage reqMessage = (IMessage)state; IMessage replyMessage = (IMessage)IceChannelUtils.ProtocolReplyToMessage(stream, reqMessage); stream.Close(); sinkStack.DispatchReplyMessage(replyMessage); }
public void AsyncProcessResponse(IClientResponseChannelSinkStack sinkStack, object state, ITransportHeaders headers, Stream stream) { CallData data = (CallData)state; SoapMessageFormatter soapMsgFormatter = data.Formatter; IMessage replyMessage = (IMessage)DeserializeMessage( stream, headers, (IMethodCallMessage)data.Msg, soapMsgFormatter); sinkStack.DispatchReplyMessage(replyMessage); }
public void AsyncProcessResponse(IClientResponseChannelSinkStack sinkStack, object state, ITransportHeaders headers, Stream stream) { // client side formatter is the last sink in the chain accessing the serialised message, therefore this method is called on the return path AsyncProcessingData asyncData = (AsyncProcessingData)state; // retrieve the request msg stored on the channelSinkStack IMessage requestMsg = asyncData.RequestMsg; try { IMessage responseMsg; try { GiopClientConnectionDesc conDesc = (GiopClientConnectionDesc)asyncData.ConDesc; responseMsg = DeserialiseResponse(stream, headers, requestMsg, conDesc); } finally { m_conManager.RequestOnConnectionCompleted(requestMsg); // release the connection, because this interaction is complete } sinkStack.DispatchReplyMessage(responseMsg); // dispatch the result message to the message handling reply sink chain } catch (Exception e) { sinkStack.DispatchException(e); // dispatch the exception to the message handling reply sink chain } }
public void AsyncProcessResponse(IClientResponseChannelSinkStack sinkStack, object state, ITransportHeaders responseHeaders, Stream responseStream) { // parameters validation if (sinkStack == null) { throw new ArgumentNullException("sinkStack"); } if (responseHeaders == null) { throw new ArgumentNullException("responseHeaders"); } if (responseStream == null) { throw new ArgumentNullException("responseStream"); } IMethodCallMessage methodCall = state as IMethodCallMessage; if (methodCall == null) { throw new NotSupportedException(); } IMethodReturnMessage methodReturn; try { // deserialize response methodReturn = _formatter.DeserializeResponse(methodCall, responseHeaders, responseStream); responseStream.Close(); } catch (Exception ex) { methodReturn = new ReturnMessage(ex, methodCall); } // dispatch response sinkStack.DispatchReplyMessage(methodReturn); }
public void AsyncProcessResponse(IClientResponseChannelSinkStack sinkStack, Object state, ITransportHeaders headers, Stream stream) { // previously we stored the outgoing message in state IMethodCallMessage mcm = (IMethodCallMessage)state; IMessage retMsg = DeserializeMessage(mcm, headers, stream); sinkStack.DispatchReplyMessage(retMsg); } // AsyncProcessRequest
public void AsyncProcessResponse (IClientResponseChannelSinkStack sinkStack, object state, ITransportHeaders headers, Stream stream) { IMessage replyMessage = (IMessage)_binaryCore.Deserializer.DeserializeMethodResponse (stream, null, (IMethodCallMessage)state); sinkStack.DispatchReplyMessage (replyMessage); }
public void AsyncProcessResponse(IClientResponseChannelSinkStack sinkStack , object state , ITransportHeaders headers , Stream stream) { var methodCallMessage = (IMethodCallMessage)state; var responseMessage = DeserializeResponseMessage(methodCallMessage, headers, stream); sinkStack.DispatchReplyMessage(responseMessage); }
public void AsyncProcessResponse(IClientResponseChannelSinkStack sinkStack, object state, ITransportHeaders responseHeaders, Stream responseStream) { // parameters validation if (sinkStack == null) throw new ArgumentNullException("sinkStack"); if (responseHeaders == null) throw new ArgumentNullException("responseHeaders"); if (responseStream == null) throw new ArgumentNullException("responseStream"); IMethodCallMessage methodCall = state as IMethodCallMessage; if (methodCall == null) throw new NotSupportedException(); IMethodReturnMessage methodReturn; try { // deserialize response methodReturn = _formatter.DeserializeResponse(methodCall, responseHeaders, responseStream); responseStream.Close(); } catch (Exception ex) { methodReturn = new ReturnMessage(ex, methodCall); } // dispatch response sinkStack.DispatchReplyMessage(methodReturn); }
public void AsyncProcessResponse (IClientResponseChannelSinkStack sinkStack, object state, ITransportHeaders headers, Stream stream) { IMessage reqMessage = (IMessage) state; IMessage replyMessage = (IMessage) IceChannelUtils.ProtocolReplyToMessage (stream, reqMessage); stream.Close(); sinkStack.DispatchReplyMessage (replyMessage); }
public void AsyncProcessResponse (IClientResponseChannelSinkStack sinkStack, object state, ITransportHeaders headers, Stream stream) { CallData data = (CallData) state; SoapMessageFormatter soapMsgFormatter = data.Formatter; IMessage replyMessage = (IMessage) DeserializeMessage ( stream, headers, (IMethodCallMessage) data.Msg, soapMsgFormatter); sinkStack.DispatchReplyMessage (replyMessage); }
public void AsyncProcessResponse(IClientResponseChannelSinkStack sinkStack, object state, ITransportHeaders headers, Stream stream) { IMethodCallMessage mcm = (IMethodCallMessage) state; IMessage msg = this.DeserializeMessage(mcm, headers, stream); sinkStack.DispatchReplyMessage(msg); }
public void AsyncProcessResponse(IClientResponseChannelSinkStack sinkStack, object state, ITransportHeaders headers, Stream stream) { // client side formatter is the last sink in the chain accessing the serialised message, therefore this method is called on the return path AsyncProcessingData asyncData = (AsyncProcessingData) state; // retrieve the request msg stored on the channelSinkStack IMessage requestMsg = asyncData.RequestMsg; try { IMessage responseMsg; try { GiopClientConnectionDesc conDesc = (GiopClientConnectionDesc)asyncData.ConDesc; responseMsg = DeserialiseResponse(stream, headers, requestMsg, conDesc); } finally { m_conManager.RequestOnConnectionCompleted(requestMsg); // release the connection, because this interaction is complete } sinkStack.DispatchReplyMessage(responseMsg); // dispatch the result message to the message handling reply sink chain } catch (Exception e) { sinkStack.DispatchException(e); // dispatch the exception to the message handling reply sink chain } }