private IEnumerator<int> ProcessRequest(TcpClient client, AsyncEnumerator ae)
{
try
{
using (client)
using (var stream = client.GetStream())
{
var sender = client.Client.RemoteEndPoint;
var lenOfDataToReadBuffer = new byte[sizeof(int)];
var lenEnumerator = new AsyncEnumerator(ae.ToString());
try
{
lenEnumerator.BeginExecute(
StreamUtil.ReadBytes(lenOfDataToReadBuffer, stream, lenEnumerator, "length data",false), ae.End());
}
catch (Exception exception)
{
logger.Warn("Unable to read length data from " + sender, exception);
yield break;
}
yield return 1;
try
{
lenEnumerator.EndExecute(ae.DequeueAsyncResult());
}
catch (Exception exception)
{
logger.Warn("Unable to read length data from " + sender, exception);
yield break;
}
var lengthOfDataToRead = BitConverter.ToInt32(lenOfDataToReadBuffer, 0);
if (lengthOfDataToRead < 0)
{
logger.WarnFormat("Got invalid length {0} from sender {1}", lengthOfDataToRead, sender);
yield break;
}
logger.DebugFormat("Reading {0} bytes from {1}", lengthOfDataToRead, sender);
var buffer = new byte[lengthOfDataToRead];
var readBufferEnumerator = new AsyncEnumerator(ae.ToString());
try
{
readBufferEnumerator.BeginExecute(
StreamUtil.ReadBytes(buffer, stream, readBufferEnumerator, "message data", false), ae.End());
}
catch (Exception exception)
{
logger.Warn("Unable to read message data from " + sender, exception);
yield break;
}
yield return 1;
try
{
readBufferEnumerator.EndExecute(ae.DequeueAsyncResult());
}
catch (Exception exception)
{
logger.Warn("Unable to read message data from " + sender, exception);
yield break;
}
Message[] messages = null;
try
{
messages = SerializationExtensions.ToMessages(buffer);
logger.DebugFormat("Deserialized {0} messages from {1}", messages.Length, sender);
}
catch (Exception exception)
{
logger.Warn("Failed to deserialize messages from " + sender, exception);
}
if (messages == null)
{
try
{
stream.BeginWrite(ProtocolConstants.SerializationFailureBuffer, 0,
ProtocolConstants.SerializationFailureBuffer.Length, ae.End(), null);
}
catch (Exception exception)
{
logger.Warn("Unable to send serialization format error to " + sender, exception);
yield break;
}
yield return 1;
try
{
stream.EndWrite(ae.DequeueAsyncResult());
}
catch (Exception exception)
{
logger.Warn("Unable to send serialization format error to " + sender, exception);
}
yield break;
}
IMessageAcceptance acceptance = null;
byte[] errorBytes = null;
try
{
acceptance = acceptMessages(messages);
logger.DebugFormat("All messages from {0} were accepted", sender);
}
catch (QueueDoesNotExistsException)
{
logger.WarnFormat("Failed to accept messages from {0} because queue does not exists", sender);
errorBytes = ProtocolConstants.QueueDoesNoExiststBuffer;
}
catch (Exception exception)
{
errorBytes = ProtocolConstants.ProcessingFailureBuffer;
logger.Warn("Failed to accept messages from " + sender, exception);
}
if (errorBytes != null)
{
try
{
stream.BeginWrite(errorBytes, 0,
errorBytes.Length, ae.End(), null);
}
catch (Exception exception)
{
logger.Warn("Unable to send processing failure from " + sender, exception);
yield break;
}
yield return 1;
try
{
stream.EndWrite(ae.DequeueAsyncResult());
}
catch (Exception exception)
{
logger.Warn("Unable to send processing failure from " + sender, exception);
}
yield break;
}
logger.DebugFormat("Sending reciept notice to {0}", sender);
try
{
stream.BeginWrite(ProtocolConstants.RecievedBuffer, 0, ProtocolConstants.RecievedBuffer.Length,
ae.End(), null);
}
catch (Exception exception)
{
logger.Warn("Could not send reciept notice to " + sender, exception);
acceptance.Abort();
yield break;
}
yield return 1;
try
{
stream.EndWrite(ae.DequeueAsyncResult());
}
catch (Exception exception)
{
logger.Warn("Could not send reciept notice to " + sender, exception);
acceptance.Abort();
yield break;
}
logger.DebugFormat("Reading acknowledgement about accepting messages to {0}", sender);
var acknowledgementBuffer = new byte[ProtocolConstants.AcknowledgedBuffer.Length];
var readAcknoweldgement = new AsyncEnumerator(ae.ToString());
try
{
readAcknoweldgement.BeginExecute(
StreamUtil.ReadBytes(acknowledgementBuffer, stream, readAcknoweldgement, "acknowledgement", false),
ae.End());
}
catch (Exception exception)
{
logger.Warn("Error reading acknowledgement from " + sender, exception);
acceptance.Abort();
yield break;
}
yield return 1;
try
{
readAcknoweldgement.EndExecute(ae.DequeueAsyncResult());
}
catch (Exception exception)
{
logger.Warn("Error reading acknowledgement from " + sender, exception);
acceptance.Abort();
yield break;
}
var senderResponse = Encoding.Unicode.GetString(acknowledgementBuffer);
if (senderResponse != ProtocolConstants.Acknowledged)
{
logger.WarnFormat("Sender did not respond with proper acknowledgement, the reply was {0}",
senderResponse);
acceptance.Abort();
}
bool commitSuccessful;
try
{
acceptance.Commit();
commitSuccessful = true;
}
catch (Exception exception)
{
logger.Warn("Unable to commit messages from " + sender, exception);
commitSuccessful = false;
}
if (commitSuccessful == false)
{
bool writeSuccessful;
try
{
stream.BeginWrite(ProtocolConstants.RevertBuffer, 0, ProtocolConstants.RevertBuffer.Length,
ae.End(),
null);
writeSuccessful = true;
}
catch (Exception e)
{
logger.Warn("Unable to send revert message to " + sender, e);
writeSuccessful = false;
}
if (writeSuccessful)
{
yield return 1;
try
{
stream.EndWrite(ae.DequeueAsyncResult());
}
catch (Exception exception)
{
logger.Warn("Unable to send revert message to " + sender, exception);
}
}
}
}
}
finally
{
var copy = CompletedRecievingMessages;
if (copy != null)
copy();
}
}
private IEnumerator <int> SendInternal(AsyncEnumerator ae)
{
try
{
using (var client = new TcpClient())
{
try
{
client.BeginConnect(Destination.Host, Destination.Port,
ae.End(),
null);
}
catch (Exception exception)
{
logger.WarnFormat("Failed to connect to {0} because {1}", Destination, exception);
Failure(exception);
yield break;
}
yield return(1);
try
{
client.EndConnect(ae.DequeueAsyncResult());
}
catch (Exception exception)
{
logger.WarnFormat("Failed to connect to {0} because {1}", Destination, exception);
Failure(exception);
yield break;
}
logger.DebugFormat("Successfully connected to {0}", Destination);
using (var stream = client.GetStream())
{
var buffer = Messages.Serialize();
var bufferLenInBytes = BitConverter.GetBytes(buffer.Length);
logger.DebugFormat("Writing length of {0} bytes to {1}", buffer.Length, Destination);
try
{
stream.BeginWrite(bufferLenInBytes, 0, bufferLenInBytes.Length, ae.End(), null);
}
catch (Exception exception)
{
logger.WarnFormat("Could not write to {0} because {1}", Destination,
exception);
Failure(exception);
yield break;
}
yield return(1);
try
{
stream.EndWrite(ae.DequeueAsyncResult());
}
catch (Exception exception)
{
logger.WarnFormat("Could not write to {0} because {1}", Destination,
exception);
Failure(exception);
yield break;
}
logger.DebugFormat("Writing {0} bytes to {1}", buffer.Length, Destination);
try
{
stream.BeginWrite(buffer, 0, buffer.Length, ae.End(), null);
}
catch (Exception exception)
{
logger.WarnFormat("Could not write to {0} because {1}", Destination,
exception);
Failure(exception);
yield break;
}
yield return(1);
try
{
stream.EndWrite(ae.DequeueAsyncResult());
}
catch (Exception exception)
{
logger.WarnFormat("Could not write to {0} because {1}", Destination,
exception);
Failure(exception);
yield break;
}
logger.DebugFormat("Successfully wrote to {0}", Destination);
var recieveBuffer = new byte[ProtocolConstants.RecievedBuffer.Length];
var readConfirmationEnumerator = new AsyncEnumerator();
try
{
readConfirmationEnumerator.BeginExecute(
StreamUtil.ReadBytes(recieveBuffer, stream, readConfirmationEnumerator, "recieve confirmation", false), ae.End());
}
catch (Exception exception)
{
logger.WarnFormat("Could not read confirmation from {0} because {1}", Destination,
exception);
Failure(exception);
yield break;
}
yield return(1);
try
{
readConfirmationEnumerator.EndExecute(ae.DequeueAsyncResult());
}
catch (Exception exception)
{
logger.WarnFormat("Could not read confirmation from {0} because {1}", Destination,
exception);
Failure(exception);
yield break;
}
var recieveRespone = Encoding.Unicode.GetString(recieveBuffer);
if (recieveRespone == ProtocolConstants.QueueDoesNotExists)
{
logger.WarnFormat(
"Response from reciever {0} is that queue does not exists",
Destination);
Failure(new QueueDoesNotExistsException());
yield break;
}
else if (recieveRespone != ProtocolConstants.Recieved)
{
logger.WarnFormat(
"Response from reciever {0} is not the expected one, unexpected response was: {1}",
Destination, recieveRespone);
Failure(null);
yield break;
}
try
{
stream.BeginWrite(ProtocolConstants.AcknowledgedBuffer, 0,
ProtocolConstants.AcknowledgedBuffer.Length, ae.End(), null);
}
catch (Exception exception)
{
logger.WarnFormat("Failed to write acknowledgement to reciever {0} because {1}",
Destination, exception);
Failure(exception);
yield break;
}
yield return(1);
try
{
stream.EndWrite(ae.DequeueAsyncResult());
}
catch (Exception exception)
{
logger.WarnFormat("Failed to write acknowledgement to reciever {0} because {1}",
Destination, exception);
Failure(exception);
yield break;
}
var bookmarks = Success();
buffer = new byte[ProtocolConstants.RevertBuffer.Length];
var readRevertMessage = new AsyncEnumerator(ae.ToString());
bool startingToReadFailed = false;
try
{
readRevertMessage.BeginExecute(
StreamUtil.ReadBytes(buffer, stream, readRevertMessage, "revert", true), ae.End());
}
catch (Exception)
{
//more or less expected
startingToReadFailed = true;
}
if (startingToReadFailed)
{
yield break;
}
yield return(1);
try
{
readRevertMessage.EndExecute(ae.DequeueAsyncResult());
var revert = Encoding.Unicode.GetString(buffer);
if (revert == ProtocolConstants.Revert)
{
logger.Warn("Got back revert message from receiver, reverting send");
Revert(bookmarks);
}
}
catch (Exception)
{
// expected, there is nothing to do here, the
// reciever didn't report anything for us
}
}
}
}
finally
{
var completed = SendCompleted;
if (completed != null)
{
completed();
}
}
}
private IEnumerator<int> SendInternal(AsyncEnumerator ae)
{
try
{
using (var client = new TcpClient())
{
try
{
client.BeginConnect(Destination.Host, Destination.Port,
ae.End(),
null);
}
catch (Exception exception)
{
logger.WarnFormat("Failed to connect to {0} because {1}", Destination, exception);
Failure(exception);
yield break;
}
yield return 1;
try
{
client.EndConnect(ae.DequeueAsyncResult());
}
catch (Exception exception)
{
logger.WarnFormat("Failed to connect to {0} because {1}", Destination, exception);
Failure(exception);
yield break;
}
logger.DebugFormat("Successfully connected to {0}", Destination);
using (var stream = client.GetStream())
{
var buffer = Messages.Serialize();
var bufferLenInBytes = BitConverter.GetBytes(buffer.Length);
logger.DebugFormat("Writing length of {0} bytes to {1}", buffer.Length, Destination);
try
{
stream.BeginWrite(bufferLenInBytes, 0, bufferLenInBytes.Length, ae.End(), null);
}
catch (Exception exception)
{
logger.WarnFormat("Could not write to {0} because {1}", Destination,
exception);
Failure(exception);
yield break;
}
yield return 1;
try
{
stream.EndWrite(ae.DequeueAsyncResult());
}
catch (Exception exception)
{
logger.WarnFormat("Could not write to {0} because {1}", Destination,
exception);
Failure(exception);
yield break;
}
logger.DebugFormat("Writing {0} bytes to {1}", buffer.Length, Destination);
try
{
stream.BeginWrite(buffer, 0, buffer.Length, ae.End(), null);
}
catch (Exception exception)
{
logger.WarnFormat("Could not write to {0} because {1}", Destination,
exception);
Failure(exception);
yield break;
}
yield return 1;
try
{
stream.EndWrite(ae.DequeueAsyncResult());
}
catch (Exception exception)
{
logger.WarnFormat("Could not write to {0} because {1}", Destination,
exception);
Failure(exception);
yield break;
}
logger.DebugFormat("Successfully wrote to {0}", Destination);
var recieveBuffer = new byte[ProtocolConstants.RecievedBuffer.Length];
var readConfirmationEnumerator = new AsyncEnumerator();
try
{
readConfirmationEnumerator.BeginExecute(
StreamUtil.ReadBytes(recieveBuffer, stream, readConfirmationEnumerator, "recieve confirmation", false), ae.End());
}
catch (Exception exception)
{
logger.WarnFormat("Could not read confirmation from {0} because {1}", Destination,
exception);
Failure(exception);
yield break;
}
yield return 1;
try
{
readConfirmationEnumerator.EndExecute(ae.DequeueAsyncResult());
}
catch (Exception exception)
{
logger.WarnFormat("Could not read confirmation from {0} because {1}", Destination,
exception);
Failure(exception);
yield break;
}
var recieveRespone = Encoding.Unicode.GetString(recieveBuffer);
if (recieveRespone == ProtocolConstants.QueueDoesNotExists)
{
logger.WarnFormat(
"Response from reciever {0} is that queue does not exists",
Destination);
Failure(new QueueDoesNotExistsException());
yield break;
}
else if(recieveRespone!=ProtocolConstants.Recieved)
{
logger.WarnFormat(
"Response from reciever {0} is not the expected one, unexpected response was: {1}",
Destination, recieveRespone);
Failure(null);
yield break;
}
try
{
stream.BeginWrite(ProtocolConstants.AcknowledgedBuffer, 0,
ProtocolConstants.AcknowledgedBuffer.Length, ae.End(), null);
}
catch (Exception exception)
{
logger.WarnFormat("Failed to write acknowledgement to reciever {0} because {1}",
Destination, exception);
Failure(exception);
yield break;
}
yield return 1;
try
{
stream.EndWrite(ae.DequeueAsyncResult());
}
catch (Exception exception)
{
logger.WarnFormat("Failed to write acknowledgement to reciever {0} because {1}",
Destination, exception);
Failure(exception);
yield break;
}
var bookmarks = Success();
buffer = new byte[ProtocolConstants.RevertBuffer.Length];
var readRevertMessage = new AsyncEnumerator(ae.ToString());
bool startingToReadFailed = false;
try
{
readRevertMessage.BeginExecute(
StreamUtil.ReadBytes(buffer, stream, readRevertMessage, "revert", true), ae.End());
}
catch (Exception)
{
//more or less expected
startingToReadFailed = true;
}
if (startingToReadFailed)
yield break;
yield return 1;
try
{
readRevertMessage.EndExecute(ae.DequeueAsyncResult());
var revert = Encoding.Unicode.GetString(buffer);
if (revert == ProtocolConstants.Revert)
{
logger.Warn("Got back revert message from receiver, reverting send");
Revert(bookmarks);
}
}
catch (Exception)
{
// expected, there is nothing to do here, the
// reciever didn't report anything for us
}
}
}
}
finally
{
var completed = SendCompleted;
if (completed != null)
completed();
}
}
private IEnumerator <int> ProcessRequest(TcpClient client, AsyncEnumerator ae)
{
try
{
using (client)
using (var stream = client.GetStream())
{
var sender = client.Client.RemoteEndPoint;
var lenOfDataToReadBuffer = new byte[sizeof(int)];
var lenEnumerator = new AsyncEnumerator(ae.ToString());
try
{
lenEnumerator.BeginExecute(
StreamUtil.ReadBytes(lenOfDataToReadBuffer, stream, lenEnumerator, "length data", false), ae.End());
}
catch (Exception exception)
{
logger.Warn("Unable to read length data from " + sender, exception);
yield break;
}
yield return(1);
try
{
lenEnumerator.EndExecute(ae.DequeueAsyncResult());
}
catch (Exception exception)
{
logger.Warn("Unable to read length data from " + sender, exception);
yield break;
}
var lengthOfDataToRead = BitConverter.ToInt32(lenOfDataToReadBuffer, 0);
if (lengthOfDataToRead < 0)
{
logger.WarnFormat("Got invalid length {0} from sender {1}", lengthOfDataToRead, sender);
yield break;
}
logger.DebugFormat("Reading {0} bytes from {1}", lengthOfDataToRead, sender);
var buffer = new byte[lengthOfDataToRead];
var readBufferEnumerator = new AsyncEnumerator(ae.ToString());
try
{
readBufferEnumerator.BeginExecute(
StreamUtil.ReadBytes(buffer, stream, readBufferEnumerator, "message data", false), ae.End());
}
catch (Exception exception)
{
logger.Warn("Unable to read message data from " + sender, exception);
yield break;
}
yield return(1);
try
{
readBufferEnumerator.EndExecute(ae.DequeueAsyncResult());
}
catch (Exception exception)
{
logger.Warn("Unable to read message data from " + sender, exception);
yield break;
}
Message[] messages = null;
try
{
messages = SerializationExtensions.ToMessages(buffer);
logger.DebugFormat("Deserialized {0} messages from {1}", messages.Length, sender);
}
catch (Exception exception)
{
logger.Warn("Failed to deserialize messages from " + sender, exception);
}
if (messages == null)
{
try
{
stream.BeginWrite(ProtocolConstants.SerializationFailureBuffer, 0,
ProtocolConstants.SerializationFailureBuffer.Length, ae.End(), null);
}
catch (Exception exception)
{
logger.Warn("Unable to send serialization format error to " + sender, exception);
yield break;
}
yield return(1);
try
{
stream.EndWrite(ae.DequeueAsyncResult());
}
catch (Exception exception)
{
logger.Warn("Unable to send serialization format error to " + sender, exception);
}
yield break;
}
IMessageAcceptance acceptance = null;
byte[] errorBytes = null;
try
{
acceptance = acceptMessages(messages);
logger.DebugFormat("All messages from {0} were accepted", sender);
}
catch (QueueDoesNotExistsException)
{
logger.WarnFormat("Failed to accept messages from {0} because queue does not exists", sender);
errorBytes = ProtocolConstants.QueueDoesNoExiststBuffer;
}
catch (Exception exception)
{
errorBytes = ProtocolConstants.ProcessingFailureBuffer;
logger.Warn("Failed to accept messages from " + sender, exception);
}
if (errorBytes != null)
{
try
{
stream.BeginWrite(errorBytes, 0,
errorBytes.Length, ae.End(), null);
}
catch (Exception exception)
{
logger.Warn("Unable to send processing failure from " + sender, exception);
yield break;
}
yield return(1);
try
{
stream.EndWrite(ae.DequeueAsyncResult());
}
catch (Exception exception)
{
logger.Warn("Unable to send processing failure from " + sender, exception);
}
yield break;
}
logger.DebugFormat("Sending reciept notice to {0}", sender);
try
{
stream.BeginWrite(ProtocolConstants.RecievedBuffer, 0, ProtocolConstants.RecievedBuffer.Length,
ae.End(), null);
}
catch (Exception exception)
{
logger.Warn("Could not send reciept notice to " + sender, exception);
acceptance.Abort();
yield break;
}
yield return(1);
try
{
stream.EndWrite(ae.DequeueAsyncResult());
}
catch (Exception exception)
{
logger.Warn("Could not send reciept notice to " + sender, exception);
acceptance.Abort();
yield break;
}
logger.DebugFormat("Reading acknowledgement about accepting messages to {0}", sender);
var acknowledgementBuffer = new byte[ProtocolConstants.AcknowledgedBuffer.Length];
var readAcknoweldgement = new AsyncEnumerator(ae.ToString());
try
{
readAcknoweldgement.BeginExecute(
StreamUtil.ReadBytes(acknowledgementBuffer, stream, readAcknoweldgement, "acknowledgement", false),
ae.End());
}
catch (Exception exception)
{
logger.Warn("Error reading acknowledgement from " + sender, exception);
acceptance.Abort();
yield break;
}
yield return(1);
try
{
readAcknoweldgement.EndExecute(ae.DequeueAsyncResult());
}
catch (Exception exception)
{
logger.Warn("Error reading acknowledgement from " + sender, exception);
acceptance.Abort();
yield break;
}
var senderResponse = Encoding.Unicode.GetString(acknowledgementBuffer);
if (senderResponse != ProtocolConstants.Acknowledged)
{
logger.WarnFormat("Sender did not respond with proper acknowledgement, the reply was {0}",
senderResponse);
acceptance.Abort();
}
bool commitSuccessful;
try
{
acceptance.Commit();
commitSuccessful = true;
}
catch (Exception exception)
{
logger.Warn("Unable to commit messages from " + sender, exception);
commitSuccessful = false;
}
if (commitSuccessful == false)
{
bool writeSuccessful;
try
{
stream.BeginWrite(ProtocolConstants.RevertBuffer, 0, ProtocolConstants.RevertBuffer.Length,
ae.End(),
null);
writeSuccessful = true;
}
catch (Exception e)
{
logger.Warn("Unable to send revert message to " + sender, e);
writeSuccessful = false;
}
if (writeSuccessful)
{
yield return(1);
try
{
stream.EndWrite(ae.DequeueAsyncResult());
}
catch (Exception exception)
{
logger.Warn("Unable to send revert message to " + sender, exception);
}
}
}
}
}
finally
{
var copy = CompletedRecievingMessages;
if (copy != null)
{
copy();
}
}
}