src/server/simple_axis_server/SimpleAxisTransport.cpp - axis-axis1-c - Git at Google

 /*
  *   Copyright 2003-2004 The Apache Software Foundation.
  *
  *   Licensed 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.
  *
  *
  * @author Samisa Abeysinghe (sabeysinghe@virtusa.com)
  *
  */
 // !!! This include file must be first thing in file !!!
 #include "../../platforms/PlatformAutoSense.hpp"

 #include "SimpleAxisTransport.h"

 #define AXIS_URI_EXTENSION "/axis"

 /* Following is the character that should be used to separate the method name in
  * the SOAPAction header value. Ex: "http://localhost:80/axis/Calculator#Add"
  */
 #define SOAPACTION_METHODNAME_SEPARATOR "#"

 SimpleAxisTransport::SimpleAxisTransport( int iSocket)
 {
     m_eProtocolType = APTHTTP1_1;
     m_iSocket = iSocket;
     m_bReadPastHeaders = false;
     m_strPayloadToSend = "";
     m_strServiceURI = "base";
     m_strReceived = "";
     m_strSOAPAction = "";
 }

 SimpleAxisTransport::~SimpleAxisTransport()
 {
 #ifdef WIN32
     shutdown( m_iSocket, SD_BOTH);
 	closesocket( m_iSocket);
 #else //Linux
     shutdown( m_iSocket, SHUT_RDWR);
     close( m_iSocket);
 #endif
 }

 AXIS_TRANSPORT_STATUS SimpleAxisTransport::sendBytes( const char *pcSendBuffer, const void *pBufferId)
 {
     m_strPayloadToSend += pcSendBuffer;

     return TRANSPORT_FINISHED;
 /*
     if (!pBufferId)		// temporary buffers should always sent immediately
     {
 	if ((send (m_iSocket, pcSendBuffer, (int) strlen( pcSendBuffer), MSG_DONTROUTE)) == -1)
 	    return TRANSPORT_FAILED;
 	return TRANSPORT_FINISHED;
     }

     for (int index = 0; index < NO_OF_SERIALIZE_BUFFERS; index++)
     {
 	if (!m_pBuffers[index].pcBuffer)
 	{
 	    m_pBuffers[index].pcBuffer = pcSendBuffer;
 	    m_pBuffers[index].pBufferId = pBufferId;
 	    break;
 	}
     }
     return TRANSPORT_IN_PROGRESS;
 */
 }

 int SimpleAxisTransport::setTransportProperty( AXIS_TRANSPORT_INFORMATION_TYPE type, const char * value)
 {
 	const char *	key = NULL;
 	int				iSuccess = AXIS_FAIL;

 	switch( type)
 	{
 		case SOAPACTION_HEADER:	/* needed only in the client side ? */
 			break;

 		case SERVICE_URI:		/* need to set ? */
 			break;

 		case OPERATION_NAME:	/* need to set ? */
 			break;

 		case SOAP_MESSAGE_LENGTH: /* This is apache module and transport is http so the key */
 			key = "Content-Length";
 			break;

 		default:
 			;
 	}

 	if( key)
 	{
 		iSuccess = setTransportProperty( key, value);
 	}

 	return AXIS_SUCCESS;
 }

 AXIS_TRANSPORT_STATUS SimpleAxisTransport::flushOutput()
 {
     int		contentLength = (int) m_strPayloadToSend.length();
     char	strtonum[8];

 	if( contentLength != 0)	// do only if the http body is not empty.
     {
 		sprintf( strtonum, "%d", contentLength); // This assumes that the content length will be less that 8 digits (9,999,999 bytes).

 		setTransportProperty( SOAP_MESSAGE_LENGTH, strtonum);

 		m_strHTTPHeaders = std::string( "HTTP/1.1 200 OK\r\n") +
 						   std::string( "Server: Apache Axis C++/1.6\r\n") +
 						   std::string( "Connection: close\r\n") +
 						   m_strHTTPHeaders +
 						   std::string( "Content-Type: text/xml\r\n\r\n");

 		if( (send( m_iSocket,
 				   m_strHTTPHeaders.c_str(),
 				   (int) m_strHTTPHeaders.size(),
 				   MSG_DONTROUTE)) == -1)
 		{
 			return TRANSPORT_FAILED;
 		}

         if( (send( m_iSocket,
 				   m_strPayloadToSend.c_str(),
 				   (int) m_strPayloadToSend.length(),
 				   MSG_DONTROUTE)) == -1)
 		{
 			return TRANSPORT_FAILED;
 		}
     }


 	return TRANSPORT_FINISHED;
 }

 AXIS_TRANSPORT_STATUS SimpleAxisTransport::getBytes( char * pBuffer, int * piSize)
 {
     if( m_strReceived.length () <= 0)
     {
 		pBuffer[0] = '\0';
 		*piSize = 0;

 		return TRANSPORT_FINISHED;
     }

     if( (int) m_strReceived.length() < *piSize)
     {
 		pBuffer[0] = '\0';

 		strcat( pBuffer, m_strReceived.c_str());

 		*piSize = (int) m_strReceived.length();

 		m_strReceived = "";

 		return TRANSPORT_FINISHED;
     }
     else
     {
 		pBuffer[0] = '\0';

 		std::string strToSend = m_strReceived.substr(0, *piSize - 1);

 		strcat( pBuffer, strToSend.c_str());

 		*piSize = (int) strToSend.length();

 		m_strReceived = m_strReceived.substr( (*piSize),
 											  m_strReceived.length() - *piSize);

 		return TRANSPORT_IN_PROGRESS;
     }
 }

 void SimpleAxisTransport::readFromClient()
 {
     int					len_read = 0;
     const unsigned int	BUF_SIZE = 48000;
     char				arr[BUF_SIZE];
     unsigned int		iStartPos = (int) std::string::npos;

     std::string strReceived = "";

     do
     {
 		len_read = recv( m_iSocket, arr, BUF_SIZE - 1, 0);

 		if( len_read < 0)
 		{
 			return;
 		}

 		arr[len_read] = '\0';

 		strReceived += arr;

 		iStartPos = (int) strReceived.find( "\r\n\r\n");
 	} while( iStartPos == std::string::npos);

     iStartPos += 4;

 	unsigned int uiServiceStartPos = (unsigned int) (strReceived.find( "POST ") + strlen( "POST "));
     unsigned int uiServiceEndPos = (unsigned int) strReceived.find( " ", uiServiceStartPos);

     m_strServiceURI = strReceived.substr( uiServiceStartPos, uiServiceEndPos - uiServiceStartPos);

 	unsigned int uiActionStartPos =(unsigned int) (strReceived.find( "SOAPAction: \"") + strlen( "SOAPAction: \""));
     unsigned int uiActionEndPos = (unsigned int) strReceived.find( "\"", uiActionStartPos);

 	m_strSOAPAction = strReceived.substr (uiActionStartPos, uiActionEndPos - uiActionStartPos);

     unsigned int uiEnvelopePos = (unsigned int) strReceived.find( "Envelope");

 	// Find the beginning of the SOAP message by finding the opening 'Envelope' tag.
 	while( uiEnvelopePos == std::string::npos)
 	{
 		len_read = recv (m_iSocket, arr, BUF_SIZE - 1, 0);

 		arr[len_read] = '\0';

 		strReceived += arr;

 		uiEnvelopePos = (unsigned int) strReceived.find( "Envelope");
 	}

     uiEnvelopePos += (unsigned int) strlen( "Envelope");

     unsigned int uiEnvelopeEndPos = (unsigned int) strReceived.find( "Envelope", uiEnvelopePos);

 	// Find the end of the SOAP message by finding the matching closing 'Envelope' tag.
     while( uiEnvelopeEndPos == std::string::npos)
     {
 		len_read = recv( m_iSocket, arr, BUF_SIZE - 1, 0);

 		arr[len_read] = '\0';

 		strReceived += arr;

 		uiEnvelopeEndPos = (unsigned int) strReceived.find( "Envelope", uiEnvelopePos);
     }

     m_strReceived = strReceived.substr( iStartPos, strReceived.length () - iStartPos);

 }

 const char * SimpleAxisTransport::getTransportProperty( AXIS_TRANSPORT_INFORMATION_TYPE eType)
 {
 	switch( eType)
 	{
 		case SOAPACTION_HEADER:
 		{
 			return getTransportProperty( "SOAPAction");
 		}

 		case SERVICE_URI:
 		{
 			readFromClient();

 			if( m_strServiceURI.find( AXIS_URI_EXTENSION) != std::string::npos)
 			{
 				unsigned int uiStartPos = (unsigned int) (m_strServiceURI.find( AXIS_URI_EXTENSION) +
 														  strlen( AXIS_URI_EXTENSION) +
 														  1);

 				m_strTransportPropertyURI = m_strServiceURI.substr( uiStartPos,
 																	m_strServiceURI.length() - uiStartPos);

 				return m_strTransportPropertyURI.c_str();
 			}

 			return m_strServiceURI.c_str();
 		}

 		case OPERATION_NAME:
 		{
 			unsigned int uiOpStart = (unsigned int) m_strSOAPAction.find( SOAPACTION_METHODNAME_SEPARATOR);

 			if( uiOpStart != std::string::npos)
 			{
 				uiOpStart += (unsigned int) strlen( SOAPACTION_METHODNAME_SEPARATOR);

 				m_strTransportPropertyOperation = m_strSOAPAction.substr( uiOpStart,
 																		  m_strSOAPAction.length() - uiOpStart);

 				return m_strTransportPropertyOperation.c_str();
 			}

 			return m_strSOAPAction.c_str();
 		}

 		case SOAP_MESSAGE_LENGTH:
 		{
 			return getTransportProperty( "Content-Length");
 		}

 		default:
 		{
 			;
 		}
 	}

 	return NULL;
 }

 int SimpleAxisTransport::setTransportProperty( const char * pcKey, const char * pcValue)
 {
     m_strHTTPHeaders += std::string( pcKey) +
 						std::string( ": ") +
 						std::string( pcValue) +
 						std::string( "\r\n");

     return 0;
 }

 const char * SimpleAxisTransport::getTransportProperty( const char * pcKey, bool response)
 {
     return 0;
 }

 void SimpleAxisTransport::setSessionId( const char * pcSessionId)
 {
 }

 const char * SimpleAxisTransport::getSessionId()
 {
     return "this is temporary session id";	//TODO
 }

 const char * SimpleAxisTransport::getServiceName()
 {
     return 0;			//TODO
 }

 AXIS_PROTOCOL_TYPE SimpleAxisTransport::getProtocol()
 {
     return APTHTTP1_1;
 }

 int SimpleAxisTransport::setProtocol(AXIS_PROTOCOL_TYPE eProtocol)
 {
     if( eProtocol == APTHTTP1_1 || eProtocol == APTHTTP1_0)
     {
        m_eProtocolType = eProtocol;

        return AXIS_SUCCESS;
     }

 	return AXIS_FAIL;
 }


 int SimpleAxisTransport::getSubProtocol()
 {
     return AXIS_HTTP_POST;
 }
	/*
	* Copyright 2003-2004 The Apache Software Foundation.
	*
	* Licensed 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.
	*
	*
	* @author Samisa Abeysinghe (sabeysinghe@virtusa.com)
	*
	*/
	// !!! This include file must be first thing in file !!!
	#include "../../platforms/PlatformAutoSense.hpp"

	#include "SimpleAxisTransport.h"

	#define AXIS_URI_EXTENSION "/axis"

	/* Following is the character that should be used to separate the method name in
	* the SOAPAction header value. Ex: "http://localhost:80/axis/Calculator#Add"
	*/
	#define SOAPACTION_METHODNAME_SEPARATOR "#"

	SimpleAxisTransport::SimpleAxisTransport( int iSocket)
	{
	m_eProtocolType = APTHTTP1_1;
	m_iSocket = iSocket;
	m_bReadPastHeaders = false;
	m_strPayloadToSend = "";
	m_strServiceURI = "base";
	m_strReceived = "";
	m_strSOAPAction = "";
	}

	SimpleAxisTransport::~SimpleAxisTransport()
	{
	#ifdef WIN32
	shutdown( m_iSocket, SD_BOTH);
	closesocket( m_iSocket);
	#else //Linux
	shutdown( m_iSocket, SHUT_RDWR);
	close( m_iSocket);
	#endif
	}

	AXIS_TRANSPORT_STATUS SimpleAxisTransport::sendBytes( const char pcSendBuffer, const void pBufferId)
	{
	m_strPayloadToSend += pcSendBuffer;

	return TRANSPORT_FINISHED;
	/*
	if (!pBufferId) // temporary buffers should always sent immediately
	{
	if ((send (m_iSocket, pcSendBuffer, (int) strlen( pcSendBuffer), MSG_DONTROUTE)) == -1)
	return TRANSPORT_FAILED;
	return TRANSPORT_FINISHED;
	}

	for (int index = 0; index < NO_OF_SERIALIZE_BUFFERS; index++)
	{
	if (!m_pBuffers[index].pcBuffer)
	{
	m_pBuffers[index].pcBuffer = pcSendBuffer;
	m_pBuffers[index].pBufferId = pBufferId;
	break;
	}
	}
	return TRANSPORT_IN_PROGRESS;
	*/
	}

	int SimpleAxisTransport::setTransportProperty( AXIS_TRANSPORT_INFORMATION_TYPE type, const char * value)
	{
	const char * key = NULL;
	int iSuccess = AXIS_FAIL;

	switch( type)
	{
	case SOAPACTION_HEADER: /* needed only in the client side ? */
	break;

	case SERVICE_URI: /* need to set ? */
	break;

	case OPERATION_NAME: /* need to set ? */
	break;

	case SOAP_MESSAGE_LENGTH: /* This is apache module and transport is http so the key */
	key = "Content-Length";
	break;

	default:
	;
	}

	if( key)
	{
	iSuccess = setTransportProperty( key, value);
	}

	return AXIS_SUCCESS;
	}

	AXIS_TRANSPORT_STATUS SimpleAxisTransport::flushOutput()
	{
	int contentLength = (int) m_strPayloadToSend.length();
	char strtonum[8];

	if( contentLength != 0) // do only if the http body is not empty.
	{
	sprintf( strtonum, "%d", contentLength); // This assumes that the content length will be less that 8 digits (9,999,999 bytes).

	setTransportProperty( SOAP_MESSAGE_LENGTH, strtonum);

	m_strHTTPHeaders = std::string( "HTTP/1.1 200 OK\r\n") +
	std::string( "Server: Apache Axis C++/1.6\r\n") +
	std::string( "Connection: close\r\n") +
	m_strHTTPHeaders +
	std::string( "Content-Type: text/xml\r\n\r\n");

	if( (send( m_iSocket,
	m_strHTTPHeaders.c_str(),
	(int) m_strHTTPHeaders.size(),
	MSG_DONTROUTE)) == -1)
	{
	return TRANSPORT_FAILED;
	}

	if( (send( m_iSocket,
	m_strPayloadToSend.c_str(),
	(int) m_strPayloadToSend.length(),
	MSG_DONTROUTE)) == -1)
	{
	return TRANSPORT_FAILED;
	}
	}


	return TRANSPORT_FINISHED;
	}

	AXIS_TRANSPORT_STATUS SimpleAxisTransport::getBytes( char * pBuffer, int * piSize)
	{
	if( m_strReceived.length () <= 0)
	{
	pBuffer[0] = '\0';
	*piSize = 0;

	return TRANSPORT_FINISHED;
	}

	if( (int) m_strReceived.length() < *piSize)
	{
	pBuffer[0] = '\0';

	strcat( pBuffer, m_strReceived.c_str());

	*piSize = (int) m_strReceived.length();

	m_strReceived = "";

	return TRANSPORT_FINISHED;
	}
	else
	{
	pBuffer[0] = '\0';

	std::string strToSend = m_strReceived.substr(0, *piSize - 1);

	strcat( pBuffer, strToSend.c_str());

	*piSize = (int) strToSend.length();

	m_strReceived = m_strReceived.substr( (*piSize),
	m_strReceived.length() - *piSize);

	return TRANSPORT_IN_PROGRESS;
	}
	}

	void SimpleAxisTransport::readFromClient()
	{
	int len_read = 0;
	const unsigned int BUF_SIZE = 48000;
	char arr[BUF_SIZE];
	unsigned int iStartPos = (int) std::string::npos;

	std::string strReceived = "";

	do
	{
	len_read = recv( m_iSocket, arr, BUF_SIZE - 1, 0);

	if( len_read < 0)
	{
	return;
	}

	arr[len_read] = '\0';

	strReceived += arr;

	iStartPos = (int) strReceived.find( "\r\n\r\n");
	} while( iStartPos == std::string::npos);

	iStartPos += 4;

	unsigned int uiServiceStartPos = (unsigned int) (strReceived.find( "POST ") + strlen( "POST "));
	unsigned int uiServiceEndPos = (unsigned int) strReceived.find( " ", uiServiceStartPos);

	m_strServiceURI = strReceived.substr( uiServiceStartPos, uiServiceEndPos - uiServiceStartPos);

	unsigned int uiActionStartPos =(unsigned int) (strReceived.find( "SOAPAction: \"") + strlen( "SOAPAction: \""));
	unsigned int uiActionEndPos = (unsigned int) strReceived.find( "\"", uiActionStartPos);

	m_strSOAPAction = strReceived.substr (uiActionStartPos, uiActionEndPos - uiActionStartPos);

	unsigned int uiEnvelopePos = (unsigned int) strReceived.find( "Envelope");

	// Find the beginning of the SOAP message by finding the opening 'Envelope' tag.
	while( uiEnvelopePos == std::string::npos)
	{
	len_read = recv (m_iSocket, arr, BUF_SIZE - 1, 0);

	arr[len_read] = '\0';

	strReceived += arr;

	uiEnvelopePos = (unsigned int) strReceived.find( "Envelope");
	}

	uiEnvelopePos += (unsigned int) strlen( "Envelope");

	unsigned int uiEnvelopeEndPos = (unsigned int) strReceived.find( "Envelope", uiEnvelopePos);

	// Find the end of the SOAP message by finding the matching closing 'Envelope' tag.
	while( uiEnvelopeEndPos == std::string::npos)
	{
	len_read = recv( m_iSocket, arr, BUF_SIZE - 1, 0);

	arr[len_read] = '\0';

	strReceived += arr;

	uiEnvelopeEndPos = (unsigned int) strReceived.find( "Envelope", uiEnvelopePos);
	}

	m_strReceived = strReceived.substr( iStartPos, strReceived.length () - iStartPos);

	}

	const char * SimpleAxisTransport::getTransportProperty( AXIS_TRANSPORT_INFORMATION_TYPE eType)
	{
	switch( eType)
	{
	case SOAPACTION_HEADER:
	{
	return getTransportProperty( "SOAPAction");
	}

	case SERVICE_URI:
	{
	readFromClient();

	if( m_strServiceURI.find( AXIS_URI_EXTENSION) != std::string::npos)
	{
	unsigned int uiStartPos = (unsigned int) (m_strServiceURI.find( AXIS_URI_EXTENSION) +
	strlen( AXIS_URI_EXTENSION) +
	1);

	m_strTransportPropertyURI = m_strServiceURI.substr( uiStartPos,
	m_strServiceURI.length() - uiStartPos);

	return m_strTransportPropertyURI.c_str();
	}

	return m_strServiceURI.c_str();
	}

	case OPERATION_NAME:
	{
	unsigned int uiOpStart = (unsigned int) m_strSOAPAction.find( SOAPACTION_METHODNAME_SEPARATOR);

	if( uiOpStart != std::string::npos)
	{
	uiOpStart += (unsigned int) strlen( SOAPACTION_METHODNAME_SEPARATOR);

	m_strTransportPropertyOperation = m_strSOAPAction.substr( uiOpStart,
	m_strSOAPAction.length() - uiOpStart);

	return m_strTransportPropertyOperation.c_str();
	}

	return m_strSOAPAction.c_str();
	}

	case SOAP_MESSAGE_LENGTH:
	{
	return getTransportProperty( "Content-Length");
	}

	default:
	{
	;
	}
	}

	return NULL;
	}

	int SimpleAxisTransport::setTransportProperty( const char * pcKey, const char * pcValue)
	{
	m_strHTTPHeaders += std::string( pcKey) +
	std::string( ": ") +
	std::string( pcValue) +
	std::string( "\r\n");

	return 0;
	}

	const char * SimpleAxisTransport::getTransportProperty( const char * pcKey, bool response)
	{
	return 0;
	}

	void SimpleAxisTransport::setSessionId( const char * pcSessionId)
	{
	}

	const char * SimpleAxisTransport::getSessionId()
	{
	return "this is temporary session id"; //TODO
	}

	const char * SimpleAxisTransport::getServiceName()
	{
	return 0; //TODO
	}

	AXIS_PROTOCOL_TYPE SimpleAxisTransport::getProtocol()
	{
	return APTHTTP1_1;
	}

	int SimpleAxisTransport::setProtocol(AXIS_PROTOCOL_TYPE eProtocol)
	{
	if( eProtocol == APTHTTP1_1 \|\| eProtocol == APTHTTP1_0)
	{
	m_eProtocolType = eProtocol;

	return AXIS_SUCCESS;
	}

	return AXIS_FAIL;
	}


	int SimpleAxisTransport::getSubProtocol()
	{
	return AXIS_HTTP_POST;
	}