root/clib/csocket.cpp

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DEFINITIONS

This source file includes following definitions.
  1. csocket
  2. csocket
  3. csocket
  4. set_active
  5. get_active
  6. send_receive
  7. send_receive
  8. close_socket
  9. recv_data
  10. send_data
  11. client_connect

/* Client socket class for TCP connection oriented IPC.
   Rick Smereka, Copyright (C) 2000-2002.

   This program is free software; you can redistribute it and/or modify
   it under the terms of the GNU General Public License as published by
   the Free Software Foundation; either version 2 of the License, or
   (at your option) any later version.

   This program is distributed in the hope that it will be useful,
   but WITHOUT ANY WARRANTY; without even the implied warranty of
   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
   GNU General Public License for more details.

   You should have received a copy of the GNU General Public License
   along with this program; if not, get a copy via the Internet at
   http://gnu.org/copyleft/gpl.html or write to the Free Software
   Foundation, Inc., 59 Temple Place, Suite 330, Boston,
   MA 02111-1307 USA

   You can contact the author via email at rsmereka@future-lab.com.

   Original version for Unix and Windows 32-bit.
   Aug/2000, Rick Smereka

   Added 'using namespace std'. Dec/2002, RIck Smereka */

#include "stdhead.h"
#include "flsocket.h"
#include "csocket.h"

using namespace std;

csocket::csocket()
{
   // No parameter constructor.

   client_hostname = "";
   client_port = 0;
   client_init = FALSE;
}

csocket::csocket(string& host_name, int port)
{
   // Constructor using string host name and port number.

   if (!set_active(host_name, port))
      {
      client_hostname = "";
      client_port = 0;
      client_init = FALSE;
      }
}

csocket::csocket(char *host_name, int port)
{
   // Constructor using char host name and port number.

   string host;

   if (host_name == (char *)NULL || !strlen(host_name))
      {
      client_hostname = "";
      client_port = 0;
      client_init = FALSE;
      return;
      }

   host = host_name;

   if (!set_active(host, port))
      {
      client_hostname = "";
      client_port = 0;
      client_init = FALSE;
      }
}

int csocket::set_active(string& host_name, int port_number)
{
   /* Set the active server host name and port number.
      Method returns 'TRUE' upon success, 'FALSE'
      otherwise. */

   if (host_name.empty())
      return(FALSE);

   if (port_number <= 0)
      return(FALSE);

   /* load class data, do not check connection */

   client_hostname = host_name;
   client_port = port_number;
   client_init = TRUE;
   return(TRUE);
}

int csocket::get_active(string& host_name, int& port_number)
{
   /* Obtain the current server host name and port number.
      Method returns 'TRUE' upon success with the server
      host name loaded into 'host_name', the server port number will
      be loaded into 'port_number'. Method returns 'FALSE'
      upon failure. */

   if (host_name.empty())
      return(FALSE);

   host_name = "";
   port_number = 0;

   if (!client_init)
      return(FALSE);

   host_name = client_hostname;
   port_number = client_port;
   return(TRUE);
}

int csocket::send_receive(string& sbuf, string& rbuf)
{
   /* Send a command to the current socket server and
      wait for a reply. Method returns 'TRUE' upon
      success with the receive contents loaded into
      'rbuf'. Method returns 'FALSE' upon failure. */

   if (!client_init)
      return(FALSE);

   if (sbuf.empty())
      return(FALSE);

   rbuf = "";

   /* attempt to connect to currently defined server */

   if (!client_connect())
      return(FALSE);

   /* we are connected, send the command string using
      the low level socket send function */

   if (send_data(sbuf) == 0)
      {
      (void)close_socket();
      return(FALSE);
      }

   /* receive reply */

   if (recv_data(rbuf) == 0)
      {
      (void)close_socket();
      return(FALSE);
      }

   (void)close_socket();
   return(TRUE);
}

int csocket::send_receive(char *sbuf, string& rbuf)
{
   // Send a char array and receive a string.

   string sendbuf;

   if (sbuf == (char *)NULL || !strlen(sbuf))
      return(FALSE);

   sendbuf = sbuf;
   return(send_receive(sendbuf, rbuf));
}

int csocket::close_socket(void)
{
   /* Close the socket between client and server.
      Method returns 'TRUE' upon success, 'FALSE'
      otherwise. */

#ifdef OS_WIN32
   if (closesocket(clientsock) == SOCKET_ERROR)
      return(FALSE);
#endif

#ifdef OS_UNIX
   close(clientsock);
#endif

   return(TRUE);
}

int csocket::recv_data(string& buf)
{
   /* Receive data from the socket which is assumed
      to be open. Method returns the number of bytes
      read upon success with the received data loaded
      into 'buf', zero otherwise. */

   char *fbuf;
   int charRecv, done = FALSE;

   fbuf = new char[IPC_SR_BUFSIZE];
   buf = "";

   while(!done)
        {
#ifdef OS_WIN32
      charRecv = recv(clientsock, (LPSTR)fbuf, (IPC_SR_BUFSIZE - 1), NO_FLAGS);
#endif

#ifdef OS_UNIX
      charRecv = recv(clientsock, fbuf, (IPC_SR_BUFSIZE - 1), NO_FLAGS);
#endif

        if (charRecv == SOCKET_ERROR)
           {
         delete fbuf;
         return(0);
         }

                fbuf[charRecv] = EOS;
      buf += fbuf;

        if (charRecv < (IPC_SR_BUFSIZE - 1))
           done = TRUE;
        }

   delete fbuf;
   return(buf.length());
}

int csocket::send_data(string& buf)
{
   /* Send data to the socket. Method returns the
                number of bytes sent upon success, zero
                otherwise. */

   string fbuf;
        int len, charSent, pos = 0, bytesToGo, done = FALSE;
        int chunk;

   len = buf.length();

        if (!len)
                return(0);

        // if less than 'IPC_SR_BUFSIZE' to send, use one shot

        if (len < IPC_SR_BUFSIZE)
           {
      if ((charSent = send(clientsock, buf.c_str(), len, NO_FLAGS)) == SOCKET_ERROR)
                   return(FALSE);

           return(charSent);
           }

        bytesToGo = len;

        // send one buffer length at a time

        while(!done)
           {
           if (bytesToGo > (IPC_SR_BUFSIZE - 1))
                chunk = IPC_SR_BUFSIZE - 1;
                else
                        chunk = bytesToGo;

      fbuf = buf.substr(pos, chunk);

      if ((charSent = send(clientsock, fbuf.c_str(), chunk, NO_FLAGS)) == SOCKET_ERROR)
                        {
                pos = 0;
                break;
                }

           bytesToGo -= chunk;
           pos += charSent;

           if (bytesToGo <= 0)
              done = TRUE;
           }

        return(pos);
}

int csocket::client_connect(void)
{
   /* Use the previously loaded host name and port number to
      connect to the server. Method returns 'TRUE' if the
      connection was successful, 'FALSE' otherwise. */

   if (!client_init)
      return(FALSE);

   // resolve server host name

   lpHostEnt = gethostbyname(client_hostname.c_str());

   if (!lpHostEnt)
      return(FALSE);

        // create the socket

#ifdef OS_WIN32
        clientsock = socket(PF_INET, SOCK_STREAM, DEFAULT_PROTOCOL);
#endif

#ifdef OS_UNIX
        clientsock = socket(AF_INET, SOCK_STREAM, DEFAULT_PROTOCOL);
#endif

        if (clientsock == INVALID_SOCKET)
           return(FALSE);

   // load client address data

   memset(&sockClientAddr, 0, sizeof(sockClientAddr));
        sockClientAddr.sin_family = AF_INET;
   sockClientAddr.sin_port = htons(client_port);

#ifdef OS_WIN32
        sockClientAddr.sin_addr = *((LPIN_ADDR)*lpHostEnt->h_addr_list);
#endif

#ifdef OS_UNIX
        sockClientAddr.sin_addr.s_addr = ((struct in_addr *)(lpHostEnt->h_addr))->s_addr;
#endif

        // connect to server

#ifdef OS_WIN32
        if (connect(clientsock, (LPSOCKADDR)&sockClientAddr, sizeof(sockClientAddr)))
#endif

#ifdef OS_UNIX
   if (connect(clientsock, (sockaddr *)&sockClientAddr, sizeof(sockClientAddr)) == SOCKET_ERROR)
#endif
           return(FALSE);

        return(TRUE);
}

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