src/XmlRpcServerConnection.cpp - platform/external/xmlrpcpp - Git at Google


 #include "XmlRpcServerConnection.h"

 #include "XmlRpcSocket.h"
 #include "XmlRpc.h"
 #ifndef MAKEDEPEND
 # include <stdio.h>
 # include <stdlib.h>
 #endif

 using namespace XmlRpc;

 // Static data
 const char XmlRpcServerConnection::METHODNAME_TAG[] = "<methodName>";
 const char XmlRpcServerConnection::PARAMS_TAG[] = "<params>";
 const char XmlRpcServerConnection::PARAMS_ETAG[] = "</params>";
 const char XmlRpcServerConnection::PARAM_TAG[] = "<param>";
 const char XmlRpcServerConnection::PARAM_ETAG[] = "</param>";

 const std::string XmlRpcServerConnection::SYSTEM_MULTICALL = "system.multicall";
 const std::string XmlRpcServerConnection::METHODNAME = "methodName";
 const std::string XmlRpcServerConnection::PARAMS = "params";

 const std::string XmlRpcServerConnection::FAULTCODE = "faultCode";
 const std::string XmlRpcServerConnection::FAULTSTRING = "faultString";


 // The server delegates handling client requests to a serverConnection object.
 XmlRpcServerConnection::XmlRpcServerConnection(int fd, XmlRpcServer* server, bool deleteOnClose /*= false*/) :
   XmlRpcSource(fd, deleteOnClose)
 {
   XmlRpcUtil::log(2,"XmlRpcServerConnection: new socket %d.", fd);
   _server = server;
   _connectionState = READ_HEADER;
   _keepAlive = true;
 }


 XmlRpcServerConnection::~XmlRpcServerConnection()
 {
   XmlRpcUtil::log(4,"XmlRpcServerConnection dtor.");
   _server->removeConnection(this);
 }


 // Handle input on the server socket by accepting the connection
 // and reading the rpc request. Return true to continue to monitor
 // the socket for events, false to remove it from the dispatcher.
 unsigned
 XmlRpcServerConnection::handleEvent(unsigned /*eventType*/)
 {
   if (_connectionState == READ_HEADER)
     if ( ! readHeader()) return 0;

   if (_connectionState == READ_REQUEST)
     if ( ! readRequest()) return 0;

   if (_connectionState == WRITE_RESPONSE)
     if ( ! writeResponse()) return 0;

   return (_connectionState == WRITE_RESPONSE)
         ? XmlRpcDispatch::WritableEvent : XmlRpcDispatch::ReadableEvent;
 }


 bool
 XmlRpcServerConnection::readHeader()
 {
   // Read available data
   bool eof;
   if ( ! XmlRpcSocket::nbRead(this->getfd(), _header, &eof)) {
     // Its only an error if we already have read some data
     if (_header.length() > 0)
       XmlRpcUtil::error("XmlRpcServerConnection::readHeader: error while reading header (%s).",XmlRpcSocket::getErrorMsg().c_str());
     return false;
   }

   XmlRpcUtil::log(4, "XmlRpcServerConnection::readHeader: read %d bytes.", _header.length());
   char *hp = (char*)_header.c_str();  // Start of header
   char *ep = hp + _header.length();   // End of string
   char *bp = 0;                       // Start of body
   char *lp = 0;                       // Start of content-length value
   char *kp = 0;                       // Start of connection value

   for (char *cp = hp; (bp == 0) && (cp < ep); ++cp) {
 	if ((ep - cp > 16) && (strncasecmp(cp, "Content-length: ", 16) == 0))
 	  lp = cp + 16;
 	else if ((ep - cp > 12) && (strncasecmp(cp, "Connection: ", 12) == 0))
 	  kp = cp + 12;
 	else if ((ep - cp > 4) && (strncmp(cp, "\r\n\r\n", 4) == 0))
 	  bp = cp + 4;
 	else if ((ep - cp > 2) && (strncmp(cp, "\n\n", 2) == 0))
 	  bp = cp + 2;
   }

   // If we haven't gotten the entire header yet, return (keep reading)
   if (bp == 0) {
     // EOF in the middle of a request is an error, otherwise its ok
     if (eof) {
       XmlRpcUtil::log(4, "XmlRpcServerConnection::readHeader: EOF");
       if (_header.length() > 0)
         XmlRpcUtil::error("XmlRpcServerConnection::readHeader: EOF while reading header");
       return false;   // Either way we close the connection
     }

     return true;  // Keep reading
   }

   // Decode content length
   if (lp == 0) {
     XmlRpcUtil::error("XmlRpcServerConnection::readHeader: No Content-length specified");
     return false;   // We could try to figure it out by parsing as we read, but for now...
   }

   _contentLength = atoi(lp);
   if (_contentLength <= 0) {
     XmlRpcUtil::error("XmlRpcServerConnection::readHeader: Invalid Content-length specified (%d).", _contentLength);
     return false;
   }

   XmlRpcUtil::log(3, "XmlRpcServerConnection::readHeader: specified content length is %d.", _contentLength);

   // Otherwise copy non-header data to request buffer and set state to read request.
   _request = bp;

   // Parse out any interesting bits from the header (HTTP version, connection)
   _keepAlive = true;
   if (_header.find("HTTP/1.0") != std::string::npos) {
     if (kp == 0 || strncasecmp(kp, "keep-alive", 10) != 0)
       _keepAlive = false;           // Default for HTTP 1.0 is to close the connection
   } else {
     if (kp != 0 && strncasecmp(kp, "close", 5) == 0)
       _keepAlive = false;
   }
   XmlRpcUtil::log(3, "KeepAlive: %d", _keepAlive);


   _header = "";
   _connectionState = READ_REQUEST;
   return true;    // Continue monitoring this source
 }

 bool
 XmlRpcServerConnection::readRequest()
 {
   // If we dont have the entire request yet, read available data
   if (int(_request.length()) < _contentLength) {
     bool eof;
     if ( ! XmlRpcSocket::nbRead(this->getfd(), _request, &eof)) {
       XmlRpcUtil::error("XmlRpcServerConnection::readRequest: read error (%s).",XmlRpcSocket::getErrorMsg().c_str());
       return false;
     }

     // If we haven't gotten the entire request yet, return (keep reading)
     if (int(_request.length()) < _contentLength) {
       if (eof) {
         XmlRpcUtil::error("XmlRpcServerConnection::readRequest: EOF while reading request");
         return false;   // Either way we close the connection
       }
       return true;
     }
   }

   // Otherwise, parse and dispatch the request
   XmlRpcUtil::log(3, "XmlRpcServerConnection::readRequest read %d bytes.", _request.length());
   //XmlRpcUtil::log(5, "XmlRpcServerConnection::readRequest:\n%s\n", _request.c_str());

   _connectionState = WRITE_RESPONSE;

   return true;    // Continue monitoring this source
 }


 bool
 XmlRpcServerConnection::writeResponse()
 {
   if (_response.length() == 0) {
     executeRequest();
     _bytesWritten = 0;
     if (_response.length() == 0) {
       XmlRpcUtil::error("XmlRpcServerConnection::writeResponse: empty response.");
       return false;
     }
   }

   // Try to write the response
   if ( ! XmlRpcSocket::nbWrite(this->getfd(), _response, &_bytesWritten)) {
     XmlRpcUtil::error("XmlRpcServerConnection::writeResponse: write error (%s).",XmlRpcSocket::getErrorMsg().c_str());
     return false;
   }
   XmlRpcUtil::log(3, "XmlRpcServerConnection::writeResponse: wrote %d of %d bytes.", _bytesWritten, _response.length());

   // Prepare to read the next request
   if (_bytesWritten == int(_response.length())) {
     _header = "";
     _request = "";
     _response = "";
     _connectionState = READ_HEADER;
   }

   return _keepAlive;    // Continue monitoring this source if true
 }

 // Run the method, generate _response string
 void
 XmlRpcServerConnection::executeRequest()
 {
   XmlRpcValue params, resultValue;
   std::string methodName = parseRequest(params);
   XmlRpcUtil::log(2, "XmlRpcServerConnection::executeRequest: server calling method '%s'",
                     methodName.c_str());

   try {

     if ( ! executeMethod(methodName, params, resultValue) &&
          ! executeMulticall(methodName, params, resultValue))
       generateFaultResponse(methodName + ": unknown method name");
     else
       generateResponse(resultValue.toXml());

   } catch (const XmlRpcException& fault) {
     XmlRpcUtil::log(2, "XmlRpcServerConnection::executeRequest: fault %s.",
                     fault.getMessage().c_str());
     generateFaultResponse(fault.getMessage(), fault.getCode());
   }
 }

 // Parse the method name and the argument values from the request.
 std::string
 XmlRpcServerConnection::parseRequest(XmlRpcValue& params)
 {
   int offset = 0;   // Number of chars parsed from the request

   XmlRpcUtil::log(5, "XmlRpcServerConnection::parseRequest:\n%s\n", _request.c_str());

   std::string methodName = XmlRpcUtil::parseTag(METHODNAME_TAG, _request, &offset);

   if (methodName.size() > 0 && XmlRpcUtil::findTag(PARAMS_TAG, _request, &offset))
   {
     int nArgs = 0;
     while (XmlRpcUtil::nextTagIs(PARAM_TAG, _request, &offset)) {
       params[nArgs++] = XmlRpcValue(_request, &offset);
       (void) XmlRpcUtil::nextTagIs(PARAM_ETAG, _request, &offset);
     }

     (void) XmlRpcUtil::nextTagIs(PARAMS_ETAG, _request, &offset);
   }

   return methodName;
 }

 // Execute a named method with the specified params.
 bool
 XmlRpcServerConnection::executeMethod(const std::string& methodName,
                                       XmlRpcValue& params, XmlRpcValue& result)
 {
   XmlRpcServerMethod* method = _server->findMethod(methodName);

   if ( ! method) return false;

   method->execute(params, result);

   // Ensure a valid result value
   if ( ! result.valid())
       result = std::string();

   return true;
 }

 // Execute multiple calls and return the results in an array.
 bool
 XmlRpcServerConnection::executeMulticall(const std::string& methodName,
                                          XmlRpcValue& params, XmlRpcValue& result)
 {
   if (methodName != SYSTEM_MULTICALL) return false;

   // There ought to be 1 parameter, an array of structs
   if (params.size() != 1 || params[0].getType() != XmlRpcValue::TypeArray)
     throw XmlRpcException(SYSTEM_MULTICALL + ": Invalid argument (expected an array)");

   int nc = params[0].size();
   result.setSize(nc);

   for (int i=0; i<nc; ++i) {

     if ( ! params[0][i].hasMember(METHODNAME) ||
          ! params[0][i].hasMember(PARAMS)) {
       result[i][FAULTCODE] = -1;
       result[i][FAULTSTRING] = SYSTEM_MULTICALL +
               ": Invalid argument (expected a struct with members methodName and params)";
       continue;
     }

     const std::string& methodName = params[0][i][METHODNAME];
     XmlRpcValue& methodParams = params[0][i][PARAMS];

     XmlRpcValue resultValue;
     resultValue.setSize(1);
     try {
       if ( ! executeMethod(methodName, methodParams, resultValue[0]) &&
            ! executeMulticall(methodName, params, resultValue[0]))
       {
         result[i][FAULTCODE] = -1;
         result[i][FAULTSTRING] = methodName + ": unknown method name";
       }
       else
         result[i] = resultValue;

     } catch (const XmlRpcException& fault) {
         result[i][FAULTCODE] = fault.getCode();
         result[i][FAULTSTRING] = fault.getMessage();
     }
   }

   return true;
 }


 // Create a response from results xml
 void
 XmlRpcServerConnection::generateResponse(std::string const& resultXml)
 {
   const char RESPONSE_1[] =
     "<?xml version=\"1.0\"?>\r\n"
     "<methodResponse><params><param>\r\n\t";
   const char RESPONSE_2[] =
     "\r\n</param></params></methodResponse>\r\n";

   std::string body = RESPONSE_1 + resultXml + RESPONSE_2;
   std::string header = generateHeader(body);

   _response = header + body;
   XmlRpcUtil::log(5, "XmlRpcServerConnection::generateResponse:\n%s\n", _response.c_str());
 }

 // Prepend http headers
 std::string
 XmlRpcServerConnection::generateHeader(std::string const& body)
 {
   std::string header =
     "HTTP/1.1 200 OK\r\n"
     "Server: ";
   header += XMLRPC_VERSION;
   header += "\r\n"
     "Content-Type: text/xml\r\n"
     "Content-length: ";

   char buffLen[40];
   sprintf(buffLen,"%d\r\n\r\n", body.size());

   return header + buffLen;
 }


 void
 XmlRpcServerConnection::generateFaultResponse(std::string const& errorMsg, int errorCode)
 {
   const char RESPONSE_1[] =
     "<?xml version=\"1.0\"?>\r\n"
     "<methodResponse><fault>\r\n\t";
   const char RESPONSE_2[] =
     "\r\n</fault></methodResponse>\r\n";

   XmlRpcValue faultStruct;
   faultStruct[FAULTCODE] = errorCode;
   faultStruct[FAULTSTRING] = errorMsg;
   std::string body = RESPONSE_1 + faultStruct.toXml() + RESPONSE_2;
   std::string header = generateHeader(body);

   _response = header + body;
 }

	#include "XmlRpcServerConnection.h"

	#include "XmlRpcSocket.h"
	#include "XmlRpc.h"
	#ifndef MAKEDEPEND
	# include <stdio.h>
	# include <stdlib.h>
	#endif

	using namespace XmlRpc;

	// Static data
	const char XmlRpcServerConnection::METHODNAME_TAG[] = "<methodName>";
	const char XmlRpcServerConnection::PARAMS_TAG[] = "<params>";
	const char XmlRpcServerConnection::PARAMS_ETAG[] = "</params>";
	const char XmlRpcServerConnection::PARAM_TAG[] = "<param>";
	const char XmlRpcServerConnection::PARAM_ETAG[] = "</param>";

	const std::string XmlRpcServerConnection::SYSTEM_MULTICALL = "system.multicall";
	const std::string XmlRpcServerConnection::METHODNAME = "methodName";
	const std::string XmlRpcServerConnection::PARAMS = "params";

	const std::string XmlRpcServerConnection::FAULTCODE = "faultCode";
	const std::string XmlRpcServerConnection::FAULTSTRING = "faultString";



	// The server delegates handling client requests to a serverConnection object.
	XmlRpcServerConnection::XmlRpcServerConnection(int fd, XmlRpcServer* server, bool deleteOnClose /= false/) :
	XmlRpcSource(fd, deleteOnClose)
	{
	XmlRpcUtil::log(2,"XmlRpcServerConnection: new socket %d.", fd);
	_server = server;
	_connectionState = READ_HEADER;
	_keepAlive = true;
	}


	XmlRpcServerConnection::~XmlRpcServerConnection()
	{
	XmlRpcUtil::log(4,"XmlRpcServerConnection dtor.");
	_server->removeConnection(this);
	}


	// Handle input on the server socket by accepting the connection
	// and reading the rpc request. Return true to continue to monitor
	// the socket for events, false to remove it from the dispatcher.
	unsigned
	XmlRpcServerConnection::handleEvent(unsigned /eventType/)
	{
	if (_connectionState == READ_HEADER)
	if ( ! readHeader()) return 0;

	if (_connectionState == READ_REQUEST)
	if ( ! readRequest()) return 0;

	if (_connectionState == WRITE_RESPONSE)
	if ( ! writeResponse()) return 0;

	return (_connectionState == WRITE_RESPONSE)
	? XmlRpcDispatch::WritableEvent : XmlRpcDispatch::ReadableEvent;
	}


	bool
	XmlRpcServerConnection::readHeader()
	{
	// Read available data
	bool eof;
	if ( ! XmlRpcSocket::nbRead(this->getfd(), _header, &eof)) {
	// Its only an error if we already have read some data
	if (_header.length() > 0)
	XmlRpcUtil::error("XmlRpcServerConnection::readHeader: error while reading header (%s).",XmlRpcSocket::getErrorMsg().c_str());
	return false;
	}

	XmlRpcUtil::log(4, "XmlRpcServerConnection::readHeader: read %d bytes.", _header.length());
	char hp = (char)_header.c_str(); // Start of header
	char *ep = hp + _header.length(); // End of string
	char *bp = 0; // Start of body
	char *lp = 0; // Start of content-length value
	char *kp = 0; // Start of connection value

	for (char *cp = hp; (bp == 0) && (cp < ep); ++cp) {
	if ((ep - cp > 16) && (strncasecmp(cp, "Content-length: ", 16) == 0))
	lp = cp + 16;
	else if ((ep - cp > 12) && (strncasecmp(cp, "Connection: ", 12) == 0))
	kp = cp + 12;
	else if ((ep - cp > 4) && (strncmp(cp, "\r\n\r\n", 4) == 0))
	bp = cp + 4;
	else if ((ep - cp > 2) && (strncmp(cp, "\n\n", 2) == 0))
	bp = cp + 2;
	}

	// If we haven't gotten the entire header yet, return (keep reading)
	if (bp == 0) {
	// EOF in the middle of a request is an error, otherwise its ok
	if (eof) {
	XmlRpcUtil::log(4, "XmlRpcServerConnection::readHeader: EOF");
	if (_header.length() > 0)
	XmlRpcUtil::error("XmlRpcServerConnection::readHeader: EOF while reading header");
	return false; // Either way we close the connection
	}

	return true; // Keep reading
	}

	// Decode content length
	if (lp == 0) {
	XmlRpcUtil::error("XmlRpcServerConnection::readHeader: No Content-length specified");
	return false; // We could try to figure it out by parsing as we read, but for now...
	}

	_contentLength = atoi(lp);
	if (_contentLength <= 0) {
	XmlRpcUtil::error("XmlRpcServerConnection::readHeader: Invalid Content-length specified (%d).", _contentLength);
	return false;
	}

	XmlRpcUtil::log(3, "XmlRpcServerConnection::readHeader: specified content length is %d.", _contentLength);

	// Otherwise copy non-header data to request buffer and set state to read request.
	_request = bp;

	// Parse out any interesting bits from the header (HTTP version, connection)
	_keepAlive = true;
	if (_header.find("HTTP/1.0") != std::string::npos) {
	if (kp == 0 \|\| strncasecmp(kp, "keep-alive", 10) != 0)
	_keepAlive = false; // Default for HTTP 1.0 is to close the connection
	} else {
	if (kp != 0 && strncasecmp(kp, "close", 5) == 0)
	_keepAlive = false;
	}
	XmlRpcUtil::log(3, "KeepAlive: %d", _keepAlive);


	_header = "";
	_connectionState = READ_REQUEST;
	return true; // Continue monitoring this source
	}

	bool
	XmlRpcServerConnection::readRequest()
	{
	// If we dont have the entire request yet, read available data
	if (int(_request.length()) < _contentLength) {
	bool eof;
	if ( ! XmlRpcSocket::nbRead(this->getfd(), _request, &eof)) {
	XmlRpcUtil::error("XmlRpcServerConnection::readRequest: read error (%s).",XmlRpcSocket::getErrorMsg().c_str());
	return false;
	}

	// If we haven't gotten the entire request yet, return (keep reading)
	if (int(_request.length()) < _contentLength) {
	if (eof) {
	XmlRpcUtil::error("XmlRpcServerConnection::readRequest: EOF while reading request");
	return false; // Either way we close the connection
	}
	return true;
	}
	}

	// Otherwise, parse and dispatch the request
	XmlRpcUtil::log(3, "XmlRpcServerConnection::readRequest read %d bytes.", _request.length());
	//XmlRpcUtil::log(5, "XmlRpcServerConnection::readRequest:\n%s\n", _request.c_str());

	_connectionState = WRITE_RESPONSE;

	return true; // Continue monitoring this source
	}


	bool
	XmlRpcServerConnection::writeResponse()
	{
	if (_response.length() == 0) {
	executeRequest();
	_bytesWritten = 0;
	if (_response.length() == 0) {
	XmlRpcUtil::error("XmlRpcServerConnection::writeResponse: empty response.");
	return false;
	}
	}

	// Try to write the response
	if ( ! XmlRpcSocket::nbWrite(this->getfd(), _response, &_bytesWritten)) {
	XmlRpcUtil::error("XmlRpcServerConnection::writeResponse: write error (%s).",XmlRpcSocket::getErrorMsg().c_str());
	return false;
	}
	XmlRpcUtil::log(3, "XmlRpcServerConnection::writeResponse: wrote %d of %d bytes.", _bytesWritten, _response.length());

	// Prepare to read the next request
	if (_bytesWritten == int(_response.length())) {
	_header = "";
	_request = "";
	_response = "";
	_connectionState = READ_HEADER;
	}

	return _keepAlive; // Continue monitoring this source if true
	}

	// Run the method, generate _response string
	void
	XmlRpcServerConnection::executeRequest()
	{
	XmlRpcValue params, resultValue;
	std::string methodName = parseRequest(params);
	XmlRpcUtil::log(2, "XmlRpcServerConnection::executeRequest: server calling method '%s'",
	methodName.c_str());

	try {

	if ( ! executeMethod(methodName, params, resultValue) &&
	! executeMulticall(methodName, params, resultValue))
	generateFaultResponse(methodName + ": unknown method name");
	else
	generateResponse(resultValue.toXml());

	} catch (const XmlRpcException& fault) {
	XmlRpcUtil::log(2, "XmlRpcServerConnection::executeRequest: fault %s.",
	fault.getMessage().c_str());
	generateFaultResponse(fault.getMessage(), fault.getCode());
	}
	}

	// Parse the method name and the argument values from the request.
	std::string
	XmlRpcServerConnection::parseRequest(XmlRpcValue& params)
	{
	int offset = 0; // Number of chars parsed from the request

	XmlRpcUtil::log(5, "XmlRpcServerConnection::parseRequest:\n%s\n", _request.c_str());

	std::string methodName = XmlRpcUtil::parseTag(METHODNAME_TAG, _request, &offset);

	if (methodName.size() > 0 && XmlRpcUtil::findTag(PARAMS_TAG, _request, &offset))
	{
	int nArgs = 0;
	while (XmlRpcUtil::nextTagIs(PARAM_TAG, _request, &offset)) {
	params[nArgs++] = XmlRpcValue(_request, &offset);
	(void) XmlRpcUtil::nextTagIs(PARAM_ETAG, _request, &offset);
	}

	(void) XmlRpcUtil::nextTagIs(PARAMS_ETAG, _request, &offset);
	}

	return methodName;
	}

	// Execute a named method with the specified params.
	bool
	XmlRpcServerConnection::executeMethod(const std::string& methodName,
	XmlRpcValue& params, XmlRpcValue& result)
	{
	XmlRpcServerMethod* method = _server->findMethod(methodName);

	if ( ! method) return false;

	method->execute(params, result);

	// Ensure a valid result value
	if ( ! result.valid())
	result = std::string();

	return true;
	}

	// Execute multiple calls and return the results in an array.
	bool
	XmlRpcServerConnection::executeMulticall(const std::string& methodName,
	XmlRpcValue& params, XmlRpcValue& result)
	{
	if (methodName != SYSTEM_MULTICALL) return false;

	// There ought to be 1 parameter, an array of structs
	if (params.size() != 1 \|\| params[0].getType() != XmlRpcValue::TypeArray)
	throw XmlRpcException(SYSTEM_MULTICALL + ": Invalid argument (expected an array)");

	int nc = params[0].size();
	result.setSize(nc);

	for (int i=0; i<nc; ++i) {

	if ( ! params[0][i].hasMember(METHODNAME) \|\|
	! params[0][i].hasMember(PARAMS)) {
	result[i][FAULTCODE] = -1;
	result[i][FAULTSTRING] = SYSTEM_MULTICALL +
	": Invalid argument (expected a struct with members methodName and params)";
	continue;
	}

	const std::string& methodName = params[0][i][METHODNAME];
	XmlRpcValue& methodParams = params[0][i][PARAMS];

	XmlRpcValue resultValue;
	resultValue.setSize(1);
	try {
	if ( ! executeMethod(methodName, methodParams, resultValue[0]) &&
	! executeMulticall(methodName, params, resultValue[0]))
	{
	result[i][FAULTCODE] = -1;
	result[i][FAULTSTRING] = methodName + ": unknown method name";
	}
	else
	result[i] = resultValue;

	} catch (const XmlRpcException& fault) {
	result[i][FAULTCODE] = fault.getCode();
	result[i][FAULTSTRING] = fault.getMessage();
	}
	}

	return true;
	}


	// Create a response from results xml
	void
	XmlRpcServerConnection::generateResponse(std::string const& resultXml)
	{
	const char RESPONSE_1[] =
	"<?xml version=\"1.0\"?>\r\n"
	"<methodResponse><params><param>\r\n\t";
	const char RESPONSE_2[] =
	"\r\n</param></params></methodResponse>\r\n";

	std::string body = RESPONSE_1 + resultXml + RESPONSE_2;
	std::string header = generateHeader(body);

	_response = header + body;
	XmlRpcUtil::log(5, "XmlRpcServerConnection::generateResponse:\n%s\n", _response.c_str());
	}

	// Prepend http headers
	std::string
	XmlRpcServerConnection::generateHeader(std::string const& body)
	{
	std::string header =
	"HTTP/1.1 200 OK\r\n"
	"Server: ";
	header += XMLRPC_VERSION;
	header += "\r\n"
	"Content-Type: text/xml\r\n"
	"Content-length: ";

	char buffLen[40];
	sprintf(buffLen,"%d\r\n\r\n", body.size());

	return header + buffLen;
	}


	void
	XmlRpcServerConnection::generateFaultResponse(std::string const& errorMsg, int errorCode)
	{
	const char RESPONSE_1[] =
	"<?xml version=\"1.0\"?>\r\n"
	"<methodResponse><fault>\r\n\t";
	const char RESPONSE_2[] =
	"\r\n</fault></methodResponse>\r\n";

	XmlRpcValue faultStruct;
	faultStruct[FAULTCODE] = errorCode;
	faultStruct[FAULTSTRING] = errorMsg;
	std::string body = RESPONSE_1 + faultStruct.toXml() + RESPONSE_2;
	std::string header = generateHeader(body);

	_response = header + body;
	}