lib/csharp/src/Protocol/TMultiplexedProcessor.cs - thrift - Git at Google

 /**
  * Licensed to the Apache Software Foundation (ASF) under one
  * or more contributor license agreements. See the NOTICE file
  * distributed with this work for additional information
  * regarding copyright ownership. The ASF licenses this file
  * to you under the Apache License, Version 2.0 (the
  * "License"); you may not use this file except in compliance
  * with the License. You may obtain a copy of the License at
  *
  *   http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing,
  * software distributed under the License is distributed on an
  * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
  * KIND, either express or implied. See the License for the
  * specific language governing permissions and limitations
  * under the License.
  *
  * Contains some contributions under the Thrift Software License.
  * Please see doc/old-thrift-license.txt in the Thrift distribution for
  * details.
  */

 using System;
 using System.Text;
 using Thrift.Transport;
 using System.Collections.Generic;
 using System.IO;

 namespace Thrift.Protocol
 {

     /**
      * TMultiplexedProcessor is a TProcessor allowing a single TServer to provide multiple services.
      * To do so, you instantiate the processor and then register additional processors with it,
      * as shown in the following example:
      *
      *     TMultiplexedProcessor processor = new TMultiplexedProcessor();
      *
      *     processor.registerProcessor(
      *         "Calculator",
      *         new Calculator.Processor(new CalculatorHandler()));
      *
      *     processor.registerProcessor(
      *         "WeatherReport",
      *         new WeatherReport.Processor(new WeatherReportHandler()));
      *
      *     TServerTransport t = new TServerSocket(9090);
      *     TSimpleServer server = new TSimpleServer(processor, t);
      *
      *     server.serve();
      */
     public class TMultiplexedProcessor : TProcessor
     {
         private Dictionary<String,TProcessor> ServiceProcessorMap = new Dictionary<String,TProcessor>();

         /**
          * 'Register' a service with this TMultiplexedProcessor. This allows us to broker
          * requests to individual services by using the service name to select them at request time.
          *
          * Args:
          * - serviceName    Name of a service, has to be identical to the name
          *                  declared in the Thrift IDL, e.g. "WeatherReport".
          * - processor      Implementation of a service, ususally referred to as "handlers",
          *                  e.g. WeatherReportHandler implementing WeatherReport.Iface.
          */
         public void RegisterProcessor(String serviceName, TProcessor processor)
         {
             ServiceProcessorMap.Add(serviceName, processor);
         }


         private void Fail( TProtocol oprot, TMessage message, TApplicationException.ExceptionType extype, string etxt)
         {
             TApplicationException appex = new TApplicationException( extype, etxt);

             TMessage newMessage = new TMessage(message.Name, TMessageType.Exception, message.SeqID);

             oprot.WriteMessageBegin(newMessage);
             appex.Write( oprot);
             oprot.WriteMessageEnd();
             oprot.Transport.Flush();
         }


         /**
          * This implementation of process performs the following steps:
          *
          * - Read the beginning of the message.
          * - Extract the service name from the message.
          * - Using the service name to locate the appropriate processor.
          * - Dispatch to the processor, with a decorated instance of TProtocol
          *    that allows readMessageBegin() to return the original TMessage.
          *
          * Throws an exception if
          * - the message type is not CALL or ONEWAY,
          * - the service name was not found in the message, or
          * - the service name has not been RegisterProcessor()ed.
          */
         public bool Process(TProtocol iprot, TProtocol oprot)
         {
             /*  Use the actual underlying protocol (e.g. TBinaryProtocol) to read the
                 message header.  This pulls the message "off the wire", which we'll
                 deal with at the end of this method. */

             try
             {
                 TMessage message = iprot.ReadMessageBegin();

                 if ((message.Type != TMessageType.Call) && (message.Type != TMessageType.Oneway))
                 {
                     Fail(oprot, message,
                           TApplicationException.ExceptionType.InvalidMessageType,
                           "Message type CALL or ONEWAY expected");
                     return false;
                 }

                 // Extract the service name
                 int index = message.Name.IndexOf(TMultiplexedProtocol.SEPARATOR);
                 if (index < 0)
                 {
                     Fail(oprot, message,
                           TApplicationException.ExceptionType.InvalidProtocol,
                           "Service name not found in message name: " + message.Name + ". " +
                           "Did you forget to use a TMultiplexProtocol in your client?");
                     return false;
                 }

                 // Create a new TMessage, something that can be consumed by any TProtocol
                 string serviceName = message.Name.Substring(0, index);
                 TProcessor actualProcessor;
                 if (!ServiceProcessorMap.TryGetValue(serviceName, out actualProcessor))
                 {
                     Fail(oprot, message,
                           TApplicationException.ExceptionType.InternalError,
                           "Service name not found: " + serviceName + ". " +
                           "Did you forget to call RegisterProcessor()?");
                     return false;
                 }

                 // Create a new TMessage, removing the service name
                 TMessage newMessage = new TMessage(
                         message.Name.Substring(serviceName.Length + TMultiplexedProtocol.SEPARATOR.Length),
                         message.Type,
                         message.SeqID);

                 // Dispatch processing to the stored processor
                 return actualProcessor.Process(new StoredMessageProtocol(iprot, newMessage), oprot);

             }
             catch (IOException)
             {
                 return false;  // similar to all other processors
             }

         }

         /**
          *  Our goal was to work with any protocol.  In order to do that, we needed
          *  to allow them to call readMessageBegin() and get a TMessage in exactly
          *  the standard format, without the service name prepended to TMessage.name.
          */
         private class StoredMessageProtocol : TProtocolDecorator
         {
             TMessage MsgBegin;

             public StoredMessageProtocol(TProtocol protocol, TMessage messageBegin)
                 :base(protocol)
             {
                 this.MsgBegin = messageBegin;
             }

             public override TMessage ReadMessageBegin()
             {
                 return MsgBegin;
             }
         }

     }
 }
	/**
	* Licensed to the Apache Software Foundation (ASF) under one
	* or more contributor license agreements. See the NOTICE file
	* distributed with this work for additional information
	* regarding copyright ownership. The ASF licenses this file
	* to you under the Apache License, Version 2.0 (the
	* "License"); you may not use this file except in compliance
	* with the License. You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing,
	* software distributed under the License is distributed on an
	* "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
	* KIND, either express or implied. See the License for the
	* specific language governing permissions and limitations
	* under the License.
	*
	* Contains some contributions under the Thrift Software License.
	* Please see doc/old-thrift-license.txt in the Thrift distribution for
	* details.
	*/

	using System;
	using System.Text;
	using Thrift.Transport;
	using System.Collections.Generic;
	using System.IO;

	namespace Thrift.Protocol
	{

	/**
	* TMultiplexedProcessor is a TProcessor allowing a single TServer to provide multiple services.
	* To do so, you instantiate the processor and then register additional processors with it,
	* as shown in the following example:
	*
	* TMultiplexedProcessor processor = new TMultiplexedProcessor();
	*
	* processor.registerProcessor(
	* "Calculator",
	* new Calculator.Processor(new CalculatorHandler()));
	*
	* processor.registerProcessor(
	* "WeatherReport",
	* new WeatherReport.Processor(new WeatherReportHandler()));
	*
	* TServerTransport t = new TServerSocket(9090);
	* TSimpleServer server = new TSimpleServer(processor, t);
	*
	* server.serve();
	*/
	public class TMultiplexedProcessor : TProcessor
	{
	private Dictionary<String,TProcessor> ServiceProcessorMap = new Dictionary<String,TProcessor>();

	/**
	* 'Register' a service with this TMultiplexedProcessor. This allows us to broker
	* requests to individual services by using the service name to select them at request time.
	*
	* Args:
	* - serviceName Name of a service, has to be identical to the name
	* declared in the Thrift IDL, e.g. "WeatherReport".
	* - processor Implementation of a service, ususally referred to as "handlers",
	* e.g. WeatherReportHandler implementing WeatherReport.Iface.
	*/
	public void RegisterProcessor(String serviceName, TProcessor processor)
	{
	ServiceProcessorMap.Add(serviceName, processor);
	}


	private void Fail( TProtocol oprot, TMessage message, TApplicationException.ExceptionType extype, string etxt)
	{
	TApplicationException appex = new TApplicationException( extype, etxt);

	TMessage newMessage = new TMessage(message.Name, TMessageType.Exception, message.SeqID);

	oprot.WriteMessageBegin(newMessage);
	appex.Write( oprot);
	oprot.WriteMessageEnd();
	oprot.Transport.Flush();
	}


	/**
	* This implementation of process performs the following steps:
	*
	* - Read the beginning of the message.
	* - Extract the service name from the message.
	* - Using the service name to locate the appropriate processor.
	* - Dispatch to the processor, with a decorated instance of TProtocol
	* that allows readMessageBegin() to return the original TMessage.
	*
	* Throws an exception if
	* - the message type is not CALL or ONEWAY,
	* - the service name was not found in the message, or
	* - the service name has not been RegisterProcessor()ed.
	*/
	public bool Process(TProtocol iprot, TProtocol oprot)
	{
	/* Use the actual underlying protocol (e.g. TBinaryProtocol) to read the
	message header. This pulls the message "off the wire", which we'll
	deal with at the end of this method. */

	try
	{
	TMessage message = iprot.ReadMessageBegin();

	if ((message.Type != TMessageType.Call) && (message.Type != TMessageType.Oneway))
	{
	Fail(oprot, message,
	TApplicationException.ExceptionType.InvalidMessageType,
	"Message type CALL or ONEWAY expected");
	return false;
	}

	// Extract the service name
	int index = message.Name.IndexOf(TMultiplexedProtocol.SEPARATOR);
	if (index < 0)
	{
	Fail(oprot, message,
	TApplicationException.ExceptionType.InvalidProtocol,
	"Service name not found in message name: " + message.Name + ". " +
	"Did you forget to use a TMultiplexProtocol in your client?");
	return false;
	}

	// Create a new TMessage, something that can be consumed by any TProtocol
	string serviceName = message.Name.Substring(0, index);
	TProcessor actualProcessor;
	if (!ServiceProcessorMap.TryGetValue(serviceName, out actualProcessor))
	{
	Fail(oprot, message,
	TApplicationException.ExceptionType.InternalError,
	"Service name not found: " + serviceName + ". " +
	"Did you forget to call RegisterProcessor()?");
	return false;
	}

	// Create a new TMessage, removing the service name
	TMessage newMessage = new TMessage(
	message.Name.Substring(serviceName.Length + TMultiplexedProtocol.SEPARATOR.Length),
	message.Type,
	message.SeqID);

	// Dispatch processing to the stored processor
	return actualProcessor.Process(new StoredMessageProtocol(iprot, newMessage), oprot);

	}
	catch (IOException)
	{
	return false; // similar to all other processors
	}

	}

	/**
	* Our goal was to work with any protocol. In order to do that, we needed
	* to allow them to call readMessageBegin() and get a TMessage in exactly
	* the standard format, without the service name prepended to TMessage.name.
	*/
	private class StoredMessageProtocol : TProtocolDecorator
	{
	TMessage MsgBegin;

	public StoredMessageProtocol(TProtocol protocol, TMessage messageBegin)
	:base(protocol)
	{
	this.MsgBegin = messageBegin;
	}

	public override TMessage ReadMessageBegin()
	{
	return MsgBegin;
	}
	}

	}
	}