/* 3APA3A simpliest proxy server (c) 2002-2006 by ZARAZA <3APA3A@security.nnov.ru> please read License Agreement $Id: sockmap.c,v 1.36 2006/07/07 21:24:57 vlad Exp $ */ #include "proxy.h" #define BUFSIZE ((param->service == S_UDPPM)?UDPBUFSIZE:TCPBUFSIZE) int sockmap(struct clientparam * param, int timeo){ int res=0, sent=0, received=0; SASIZETYPE sasize; struct pollfd fds[2]; int sleeptime = 0, stop = 0; unsigned minsize; unsigned bufsize; bufsize = (param->bufsize)? param->bufsize : BUFSIZE; minsize = (param->service == S_UDPPM)? bufsize - 1 : 0; fds[0].fd = param->clisock; fds[1].fd = param->remsock; if(!param->waitclient){ if(!param->srvbuf && (!(param->srvbuf=myalloc(bufsize)) || !(param->srvbufsize = bufsize))){ return (21); } } if(!param->waitserver){ if(!param->clibuf && (!(param->clibuf=myalloc(bufsize)) || !(param->clibufsize = bufsize))){ return (21); } } for (;!stop;){ sasize = sizeof(struct sockaddr_in); if(param->maxtraf && param->statssrv >= param->maxtraf){ return (10); } fds[0].events = fds[1].events = 0; if(param->srvinbuf > param->srvoffset && !param->waitclient) { #if DEBUGLEVEL > 2 (*param->logfunc)(param, "will send to client"); #endif fds[0].events |= POLLOUT; } if((param->srvbufsize - param->srvinbuf) > minsize && !param->waitclient) { #if DEBUGLEVEL > 2 (*param->logfunc)(param, "Will recv from server"); #endif fds[1].events |= POLLIN; } if(param->cliinbuf > param->clioffset && !param->waitserver) { #if DEBUGLEVEL > 2 (*param->logfunc)(param, "Will send to server"); #endif fds[1].events |= POLLOUT; } if((param->clibufsize - param->cliinbuf) > minsize && !param->waitserver &&(!param->singlepacket || param->service != S_UDPPM)) { #if DEBUGLEVEL > 2 (*param->logfunc)(param, "Will recv from client"); #endif fds[0].events |= POLLIN; } res = poll(fds, 2, timeo*1000); if(res < 0 && (errno == EAGAIN || errno == EINTR)) continue; if(res < 1){ return res?91:92; } if( (fds[0].revents & (POLLERR|POLLHUP|POLLNVAL )) || (fds[1].revents & (POLLERR|POLLHUP|POLLNVAL )) ) return 90; if((fds[0].revents & POLLOUT)){ #if DEBUGLEVEL > 2 (*param->logfunc)(param, "send to client"); #endif if(param->bandlimfunc) { sleeptime = (*param->bandlimfunc)(param, param->srvinbuf - param->srvoffset, 0); } res = sendto(param->clisock, param->srvbuf + param->srvoffset, param->srvinbuf - param->srvoffset, 0, (struct sockaddr*)¶m->sinc, sasize); if(res < 0) { if(errno != EAGAIN) return 96; continue; } param->srvoffset += res; param->statssrv += res; received += res; if(param->srvoffset == param->srvinbuf) param->srvoffset = param->srvinbuf = 0; if(param->waitserver && param->waitserver<= received){ return (98); } if(param->service == S_UDPPM && param->singlepacket) { stop = 1; } } if((fds[1].revents & POLLOUT)){ #if DEBUGLEVEL > 2 (*param->logfunc)(param, "send to server"); #endif if(param->bandlimfunc) { int sl1; sl1 = (*param->bandlimfunc)(param, 0, param->cliinbuf - param->clioffset); if(sl1 > sleeptime) sleeptime = sl1; } res = sendto(param->remsock, param->clibuf + param->clioffset, param->cliinbuf - param->clioffset, 0, (struct sockaddr*)¶m->sins, sasize); if(res < 0) { if(errno != EAGAIN) return 97; continue; } param->clioffset += res; sent += res; param->statscli += res; if(param->clioffset == param->cliinbuf) param->clioffset = param->cliinbuf = 0; if(param->waitclient && param->waitclient<= sent) { return (99); } } if ((fds[0].revents & POLLIN)) { #if DEBUGLEVEL > 2 (*param->logfunc)(param, "recv from client"); #endif res = recvfrom(param->clisock, param->clibuf + param->cliinbuf, param->clibufsize - param->cliinbuf, 0, (struct sockaddr *)¶m->sinc, &sasize); if (res==0) { shutdown(param->clisock, SHUT_RDWR); closesocket(param->clisock); fds[0].fd = param->clisock = INVALID_SOCKET; stop = 1; } else { if (res < 0 && errno != EAGAIN) { return (94); } param->cliinbuf += res; } } if (!stop && (fds[1].revents & POLLIN)) { struct sockaddr_in sin; #if DEBUGLEVEL > 2 (*param->logfunc)(param, "recv from server"); #endif sasize = sizeof(sin); res = recvfrom(param->remsock, param->srvbuf + param->srvinbuf, param->srvbufsize - param->srvinbuf, 0, (struct sockaddr *)&sin, &sasize); if (res==0) { shutdown(param->remsock, SHUT_RDWR); closesocket(param->remsock); fds[1].fd = param->remsock = INVALID_SOCKET; stop = 2; } else { if (res < 0 && errno != EAGAIN) { return (93); } param->srvinbuf += res; } } if(sleeptime > 0) { if(sleeptime > (timeo * 1000)){return (95);} usleep(sleeptime * SLEEPTIME); sleeptime = 0; } } #if DEBUGLEVEL > 2 (*param->logfunc)(param, "finished with mapping"); #endif while(!param->waitclient && param->srvinbuf > param->srvoffset && param->clisock != INVALID_SOCKET){ #if DEBUGLEVEL > 2 (*param->logfunc)(param, "flushing buffer to client"); #endif res = socksendto(param->clisock, ¶m->sinc, param->srvbuf + param->srvoffset, param->srvinbuf - param->srvoffset, conf.timeouts[STRING_S] * 1000); if(res > 0){ param->srvoffset += res; param->statssrv += res; if(param->srvoffset == param->srvinbuf) param->srvoffset = param->srvinbuf = 0; } else break; } while(!param->waitserver && param->cliinbuf > param->clioffset && param->remsock != INVALID_SOCKET){ #if DEBUGLEVEL > 2 (*param->logfunc)(param, "flushing buffer to server"); #endif res = socksendto(param->remsock, ¶m->sins, param->clibuf + param->clioffset, param->cliinbuf - param->clioffset, conf.timeouts[STRING_S] * 1000); if(res > 0){ param->clioffset += res; param->statscli += res; if(param->cliinbuf == param->clioffset) param->cliinbuf = param->clioffset = 0; } else break; } return 0; }