#include "connection.h" #include #include #include #include #include #include #include #include #include #include #include #include #include "exceptions.h" // Read buffer size...maybe fix wierd issues... #define RBS (1024*10) Connection::Connection() { nSocket = -1; bActive = false; bDisconnectMe = false; pProtocol = NULL; } Connection::~Connection() { if( pProtocol != NULL ) delete pProtocol; } void Connection::ensureCapacity( int nSize ) { xOutputBuf.ensureCapacity( nSize ); } bool Connection::appendOutput( const char *lpOutput, int nSize ) { return xOutputBuf.appendData( lpOutput, nSize ); } bool Connection::appendOutput( const char lOutput ) { return xOutputBuf.appendData( lOutput ); } bool Connection::appendOutput( const short lOutput ) { return xOutputBuf.appendData( lOutput ); } bool Connection::appendOutput( const int lOutput ) { return xOutputBuf.appendData( lOutput ); } bool Connection::appendOutput( const long lOutput ) { return xOutputBuf.appendData( lOutput ); } bool Connection::appendOutput( const float lOutput ) { return xOutputBuf.appendData( lOutput ); } bool Connection::appendOutput( const double lOutput ) { return xOutputBuf.appendData( lOutput ); } bool Connection::appendOutput( const unsigned char lOutput ) { return xOutputBuf.appendData( lOutput ); } bool Connection::appendOutput( const unsigned short lOutput ) { return xOutputBuf.appendData( lOutput ); } bool Connection::appendOutput( const unsigned long lOutput ) { return xOutputBuf.appendData( lOutput ); } bool Connection::appendOutput( const unsigned int lOutput ) { return xOutputBuf.appendData( lOutput ); } bool Connection::appendInput( const char *lpInput, int nSize ) { return xInputBuf.appendData( lpInput, nSize ); } int Connection::scanInputFor( char cTarget ) { const char *lpTmp = xInputBuf.getData(); int jMax = xInputBuf.getLength(); for( int j = 0; j < jMax; j++ ) { if( lpTmp[j] == cTarget ) { return j; } } return -1; } const char *Connection::getOutput() { return xOutputBuf.getData(); } const char *Connection::getInput() { return xInputBuf.getData(); } void Connection::setSocket( int nNewSocket ) { nSocket = nNewSocket; } int Connection::getSocket() { return nSocket; } bool Connection::isActive() { return bActive; } void Connection::close() { if( bActive ) { fsync( nSocket ); ::close( nSocket ); } bActive = false; //nSocket = -1; xInputBuf.clearData(); xOutputBuf.clearData(); if( pProtocol != NULL ) { delete pProtocol; pProtocol = NULL; } } bool Connection::open( int nNewSocket ) { bActive = true; setSocket( nNewSocket ); bDisconnectMe = false; return true; } bool Connection::open( const char *sAddr, int nPort ) { struct sockaddr_in xServerName; bActive = false; /* Create the socket. */ nSocket = socket( PF_INET, SOCK_STREAM, 0 ); if( nSocket < 0 ) { bActive = false; return false; } /* Connect to the server. */ { struct hostent *hostinfo; xServerName.sin_family = AF_INET; xServerName.sin_port = htons( nPort ); hostinfo = gethostbyname( sAddr ); if (hostinfo == NULL) { return false; } xServerName.sin_addr = *(struct in_addr *) hostinfo->h_addr; } int ret = connect( nSocket, (struct sockaddr *)&xServerName, sizeof(xServerName) ); if( ret < 0 ) { return false; } bActive = true; bDisconnectMe = false; return true; } int Connection::readInput() { char buffer[RBS]; int nbytes; int nTotalRead=0; for(;;) { //memset( buffer, 0, RBS ); nbytes = read( nSocket, buffer, RBS ); if( nbytes < 0 && errno != 0 && errno != EAGAIN ) { printf("errno: %d, %s\n", errno, strerror( errno ) ); /* Read error. */ //perror("readInput"); throw ConnectionException( excodeReadError, "Read error: %s", strerror( errno ) ); } else { if( nbytes <= 0 ) break; nTotalRead += nbytes; appendInput( buffer, nbytes ); /* Data read. */ if( nbytes < RBS ) { break; } /* New test, if data is divisible by RBS bytes on some libs the * read could block, this keeps it from happening. */ { fd_set rfds; FD_ZERO(&rfds); FD_SET(nSocket, &rfds); struct timeval tv = { 0, 0 }; int retval = select( nSocket+1, &rfds, NULL, NULL, &tv ); if( retval == -1 ) throw ConnectionException( excodeBadReadError, "Bad Read error" ); if( !FD_ISSET( nSocket, &rfds ) ) break; } } } if( pProtocol != NULL && nTotalRead > 0 ) { pProtocol->onNewData(); } return nTotalRead; } bool Connection::readInput( int nSec, int nUSec, int *pnSecBack, int *pnUSecBack ) { fd_set rfds, efds; struct timeval tv, start, end; struct timezone tz; int retval; gettimeofday( &start, &tz ); FD_ZERO(&rfds); FD_SET(nSocket, &rfds); FD_ZERO(&efds); FD_SET(nSocket, &efds); tv.tv_sec = nSec; tv.tv_usec = nUSec; //printf("Starting at %d %d\n", nSec, nUSec ); retval = select( nSocket+1, &rfds, NULL, NULL, &tv ); if( retval == -1 ) { // Oh my god!!! some kind of horrible problem!!!! throw ConnectionException( excodeBadReadError, "Bad Read error"); return false; } else if( retval ) { //printf("retval=%d, nSocket=%d,%d, sec=%d, usec=%d\n", retval, nSocket, FD_ISSET( nSocket, &rfds ), tv.tv_sec, tv.tv_usec ); // None of them have data, but the connection is still active. if( FD_ISSET( nSocket, &rfds ) ) { if( readInput() == 0 ) { throw ConnectionException( excodeConnectionClosed, "Connection closed"); } } } gettimeofday( &end, &tz ); int st, ust; st = nSec - ( end.tv_sec - start.tv_sec ); if( ( end.tv_usec - start.tv_usec ) > nUSec ) { (st)--; ust = 1000000 - (end.tv_usec - start.tv_usec); } else { ust = nUSec - (end.tv_usec - start.tv_usec); } if( st < 0 ) { st = ust = 0; } if( pnSecBack ) { *pnSecBack = st; *pnUSecBack = ust; } //printf("New time: %d %d\n", *pnSecBack, *pnUSecBack ); return true; } void Connection::waitForInput( int nBytesIn, int nSec, int nUSec ) { int rlen = getInputAmnt(); if( rlen >= nBytesIn ) return; while( rlen < nBytesIn ) { if( nSec == 0 && nUSec == 0 ) { throw ConnectionException( excodeSocketTimeout, "Timed out while waiting for %d bytes.", nBytesIn ); } readInput( nSec, nUSec, &nSec, &nUSec ); rlen = getInputAmnt(); } } bool Connection::clearOutput() { return xOutputBuf.clearData(); } bool Connection::clearInput() { return xInputBuf.clearData(); } #define min( a, b ) ((asetConnection( this ); } int Connection::getInputAmnt() { return xInputBuf.getLength(); } int Connection::getOutputAmnt() { return xOutputBuf.getLength(); } class Protocol *Connection::getProtocol() { return pProtocol; } void Connection::printInputDebug( const char *lpPrefix, FILE *fh, int nBytesMax ) { printDataDebug( (const unsigned char *)xInputBuf.getData(), xInputBuf.getLength(), "input", lpPrefix, fh, nBytesMax ); } void Connection::printOutputDebug( const char *lpPrefix, FILE *fh, int nBytesMax ) { printDataDebug( (const unsigned char *)xOutputBuf.getData(), xOutputBuf.getLength(), "output", lpPrefix, fh, nBytesMax ); } void Connection::printDataDebug( const unsigned char *pData, long nDataLen, const char *lpName, const char *lpPrefix, FILE *fh, int nBytesMax ) { if( nBytesMax > 0 ) { nDataLen = (nBytesMax32 && pData[j+k]<=128)?(pData[j+k]):('.') ); } fprintf( fh, "\n"); j += kmax; if( j >= nDataLen ) break; } fprintf( fh, lpPrefix ); for( int l = 0; l < 8*3+2*8+2; l++ ) fprintf( fh, (l!=8*3)?("-"):("+") ); fprintf( fh, "\n"); }