/* * T T C P . C * * Test TCP connection. Makes a connection on port 5001 * and transfers fabricated buffers or data copied from stdin. * * Usable on 4.2, 4.3, and 4.1a systems by defining one of * BSD42 BSD43 (BSD41a) * Machines using System V with BSD sockets should define SYSV. * * Modified for operation under 4.2BSD, 18 Dec 84 * T.C. Slattery, USNA * Minor improvements, Mike Muuss and Terry Slattery, 16-Oct-85. * * Distribution Status - * Public Domain. Distribution Unlimited. */ #ifndef lint static char RCSid[] = "@(#)$Revision: 1.2 $ (BRL)"; #endif #define BSD43 /* #define BSD42 */ /* #define BSD41a */ #if defined(sgi) #define SYSV #endif #include #include #include #include #include #include #include #include #include #include /* struct timeval */ #if defined(SYSV) #include #include struct rusage { struct timeval ru_utime, ru_stime; }; #define RUSAGE_SELF 0 #else #include #endif struct sockaddr_in sinme; struct sockaddr_in sinhim; struct sockaddr_in frominet; int domain, fromlen; int fd; /* fd of network socket */ int buflen = 64 * 1024; /* length of buffer */ char *buf; /* ptr to dynamic buffer */ int nbuf = 2 * 1024; /* number of buffers to send in sinkmode */ /* nick code */ int sendwin, optlen, rcvwin, maxseg; /* end nick code */ int udp = 0; /* 0 = tcp, !0 = udp */ int options = 0; /* socket options */ int one = 1; /* for 4.3 BSD style setsockopt() */ short port = 5001; /* TCP port number */ char *host; /* ptr to name of host */ int trans; /* 0=receive, !0=transmit mode */ int sinkmode = 1; /* 0=normal I/O, !0=sink/source mode */ int verbose = 0; /* 0=print basic info, 1=print cpu rate, proc * resource usage. */ int nodelay = 0; /* set TCP_NODELAY socket option */ int window = 0; /* 0=use default 1=set to specified size*/ struct hostent *addr; extern int errno; char Usage[] = "\ Usage: ttcp -t [-options] host [ out]\n\ -l## length of network read buf (default 8192)\n\ -s don't sink (discard): prints all data from network to stdout\n\ -p## port number to listen at (default 5001)\n\ -B Only output full blocks, as specified in -l## (for TAR)\n\ -u use UDP instead of TCP\n\ "; char stats[128]; long nbytes; /* bytes on net */ int numCalls = 0; /* # of NRead/NWrite calls. */ int b_flag = 0; /* use mread() */ void prep_timer(); double read_timer(); double cput, realt; /* user, real time (seconds) */ void sigpipe() { } main(argc,argv) int argc; char **argv; { unsigned long addr_tmp; /* nick code */ optlen = sizeof(maxseg); sendwin = 32 * 1024; rcvwin = 32 * 1024; /* end of nick code */ if (argc < 2) goto usage; argv++; argc--; while( argc>0 && argv[0][0] == '-' ) { switch (argv[0][1]) { case 'B': b_flag = 1; break; case 't': trans = 1; break; case 'r': trans = 0; break; case 'd': options |= SO_DEBUG; break; case 'D': nodelay = 1; break; case 'n': nbuf = atoi(&argv[0][2]); break; case 'l': buflen = atoi(&argv[0][2]); break; case 'w': window=1; sendwin = 1024 * atoi(&argv[0][2]); rcvwin = sendwin; break; case 's': sinkmode = 0; /* sink/source data */ break; case 'p': port = atoi(&argv[0][2]); break; case 'u': udp = 1; buflen=8192; break; case 'v': verbose = 1; break; default: goto usage; } argv++; argc--; } if(trans) { /* xmitr */ if (argc != 1) goto usage; bzero((char *)&sinhim, sizeof(sinhim)); host = argv[0]; if (atoi(host) > 0 ) { /* Numeric */ sinhim.sin_family = AF_INET; #ifdef cray addr_tmp = inet_addr(host); sinhim.sin_addr = addr_tmp; #else sinhim.sin_addr.s_addr = inet_addr(host); #endif } else { if ((addr=gethostbyname(host)) == NULL) err("bad hostname"); sinhim.sin_family = addr->h_addrtype; bcopy(addr->h_addr,(char*)&addr_tmp, addr->h_length); #ifdef cray sinhim.sin_addr = addr_tmp; #else sinhim.sin_addr.s_addr = addr_tmp; #endif cray } sinhim.sin_port = htons(port); sinme.sin_port = 0; /* free choice */ } else { /* rcvr */ sinme.sin_port = htons(port); } if (udp && buflen < 5) { buflen = 5; /* send more than the sentinel size */ } if( (buf = (char *)malloc(buflen)) == (char *)NULL) err("malloc"); if (trans) { fprintf(stdout,"ttcp-t: buflen=%d, nbuf=%d, port=%d %s -> %s\n", buflen, nbuf, port, udp?"udp":"tcp", argv[0]); } else { fprintf(stdout,"ttcp-r: buflen=%d, nbuf=%d, port=%d %s\n", buflen, nbuf, port, udp?"udp":"tcp"); } if ((fd = socket(AF_INET, udp?SOCK_DGRAM:SOCK_STREAM, 0)) < 0) err("socket"); mes("socket"); if (bind(fd, &sinme, sizeof(sinme)) < 0) err("bind"); if (!udp) { signal(SIGPIPE, sigpipe); if (trans) { /* We are the client if transmitting */ if(options) { #ifdef BSD42 /* if( setsockopt(fd, SOL_SOCKET, options, 0, 0) < 0) */ #else BSD43 /* if( setsockopt(fd, SOL_SOCKET, options, &one, sizeof(one)) < 0) */ #endif err("setsockopt"); } if(window){ if( setsockopt(fd, SOL_SOCKET, SO_SNDBUF, &sendwin, sizeof(sendwin)) < 0) err("setsockopt"); if( setsockopt(fd, SOL_SOCKET, SO_RCVBUF, &rcvwin, sizeof(rcvwin)) < 0) err("setsockopt"); } if (nodelay) { struct protoent *p; p = getprotobyname("tcp"); if( p && setsockopt(fd, p->p_proto, TCP_NODELAY, &one, sizeof(one)) < 0) err("setsockopt: nodelay"); mes("nodelay"); } if(connect(fd, &sinhim, sizeof(sinhim) ) < 0) err("connect"); mes("connect"); } else { /* otherwise, we are the server and * should listen for the connections */ listen(fd,5); /* allow a queue of 5 */ if(options) { #ifdef BSD42 if( setsockopt(fd, SOL_SOCKET, options, 0, 0) < 0) #else BSD43 if( setsockopt(fd, SOL_SOCKET, options, &one, sizeof(one)) < 0) #endif err("setsockopt"); } fromlen = sizeof(frominet); domain = AF_INET; if((fd=accept(fd, &frominet, &fromlen) ) < 0) err("accept"); { struct sockaddr_in peer; int peerlen = sizeof(peer); if (getpeername(fd, (struct sockaddr_in *) &peer, &peerlen) < 0) { err("getpeername"); } if(window){ if( setsockopt(fd, SOL_SOCKET, SO_SNDBUF, &sendwin, sizeof(sendwin)) < 0) err("setsockopt"); if( setsockopt(fd, SOL_SOCKET, SO_RCVBUF, &rcvwin, sizeof(rcvwin)) < 0) err("setsockopt"); } fprintf(stderr,"ttcp-r: accept from %s\n", inet_ntoa(peer.sin_addr)); } } } if (getsockopt(fd, SOL_SOCKET, SO_SNDBUF, &sendwin, &optlen) < 0) printf("get send window size didn't work\n"); else printf("send window size = %d\n", sendwin); if (getsockopt(fd, SOL_SOCKET, SO_RCVBUF, &rcvwin, &optlen) < 0) printf("Get recv. window size didn't work\n"); else printf("receive window size = %d\n", rcvwin); prep_timer(); errno = 0; if (sinkmode) { register int cnt; if (trans) { pattern( buf, buflen ); if(udp) (void)Nwrite( fd, buf, 4 ); /* rcvr start */ while (nbuf-- && Nwrite(fd,buf,buflen) == buflen) nbytes += buflen; if(udp) (void)Nwrite( fd, buf, 4 ); /* rcvr end */ } else { if (udp) { while ((cnt=Nread(fd,buf,buflen)) > 0) { static int going = 0; if( cnt <= 4 ) { if( going ) break; /* "EOF" */ going = 1; prep_timer(); } else { nbytes += cnt; } } } else { while ((cnt=Nread(fd,buf,buflen)) > 0) { nbytes += cnt; } } } } else { register int cnt; if (trans) { while((cnt=read(0,buf,buflen)) > 0 && Nwrite(fd,buf,cnt) == cnt) nbytes += cnt; } else { while((cnt=Nread(fd,buf,buflen)) > 0 && write(1,buf,cnt) == cnt) nbytes += cnt; } } if(errno) err("IO"); (void)read_timer(stats,sizeof(stats)); if(udp&&trans) { (void)Nwrite( fd, buf, 4 ); /* rcvr end */ (void)Nwrite( fd, buf, 4 ); /* rcvr end */ (void)Nwrite( fd, buf, 4 ); /* rcvr end */ (void)Nwrite( fd, buf, 4 ); /* rcvr end */ } if( cput <= 0.0 ) cput = 0.001; if( realt <= 0.0 ) realt = 0.001; fprintf(stdout, "ttcp%s: %ld bytes in %.2f real seconds = %.2f KB/sec = %.4f Mb/s\n", trans?"-t":"-r", nbytes, realt, ((double)nbytes)/realt/1024, ((double)nbytes)/realt/128000 ); if (verbose) { fprintf(stdout, "ttcp%s: %ld bytes in %.2f CPU seconds = %.2f KB/cpu sec\n", trans?"-t":"-r", nbytes, cput, ((double)nbytes)/cput/1024 ); } fprintf(stdout, "ttcp%s: %d I/O calls, msec/call = %.2f, calls/sec = %.2f\n", trans?"-t":"-r", numCalls, 1024.0 * realt/((double)numCalls), ((double)numCalls)/realt); fprintf(stdout,"ttcp%s: %s\n", trans?"-t":"-r", stats); exit(0); usage: fprintf(stderr,Usage); exit(1); } err(s) char *s; { fprintf(stderr,"ttcp%s: ", trans?"-t":"-r"); perror(s); fprintf(stderr,"errno=%d\n",errno); exit(1); } mes(s) char *s; { fprintf(stderr,"ttcp%s: %s\n", trans?"-t":"-r", s); } pattern( cp, cnt ) register char *cp; register int cnt; { register char c; c = 0; while( cnt-- > 0 ) { while( !isprint((c&0x7F)) ) c++; *cp++ = (c++&0x7F); } } static struct timeval time0; /* Time at which timing started */ static struct rusage ru0; /* Resource utilization at the start */ static void prusage(); static void tvadd(); static void tvsub(); static void psecs(); #if defined(SYSV) static getrusage(ignored, ru) int ignored; register struct rusage *ru; { struct tms buf; times(&buf); ru->ru_stime.tv_sec = buf.tms_stime / HZ; ru->ru_stime.tv_usec = (buf.tms_stime % HZ) * (1000000/HZ); ru->ru_utime.tv_sec = buf.tms_utime / HZ; ru->ru_utime.tv_usec = (buf.tms_utime % HZ) * (1000000/HZ); } #ifndef sgi /* it's a real system call */ /*ARGSUSED*/ static gettimeofday(tp, zp) struct timeval *tp; struct timezone *zp; { tp->tv_sec = time(0); tp->tv_usec = 0; } #endif #endif SYSV /* * P R E P _ T I M E R */ void prep_timer() { gettimeofday(&time0, (struct timezone *)0); getrusage(RUSAGE_SELF, &ru0); } /* * R E A D _ T I M E R * */ double read_timer(str,len) char *str; { struct timeval timedol; struct rusage ru1; struct timeval td; struct timeval tend, tstart; char line[132]; getrusage(RUSAGE_SELF, &ru1); gettimeofday(&timedol, (struct timezone *)0); prusage(&ru0, &ru1, &timedol, &time0, line); (void)strncpy( str, line, len ); /* Get real time */ tvsub( &td, &timedol, &time0 ); realt = td.tv_sec + ((double)td.tv_usec) / 1000000; /* Get CPU time (user+sys) */ tvadd( &tend, &ru1.ru_utime, &ru1.ru_stime ); tvadd( &tstart, &ru0.ru_utime, &ru0.ru_stime ); tvsub( &td, &tend, &tstart ); cput = td.tv_sec + ((double)td.tv_usec) / 1000000; if( cput < 0.00001 ) cput = 0.00001; return( cput ); } static void prusage(r0, r1, e, b, outp) register struct rusage *r0, *r1; struct timeval *e, *b; char *outp; { struct timeval tdiff; register time_t t; register char *cp; register int i; int ms; t = (r1->ru_utime.tv_sec-r0->ru_utime.tv_sec)*100+ (r1->ru_utime.tv_usec-r0->ru_utime.tv_usec)/10000+ (r1->ru_stime.tv_sec-r0->ru_stime.tv_sec)*100+ (r1->ru_stime.tv_usec-r0->ru_stime.tv_usec)/10000; ms = (e->tv_sec-b->tv_sec)*100 + (e->tv_usec-b->tv_usec)/10000; #define END(x) {while(*x) x++;} #if defined(SYSV) cp = "%Uuser %Ssys %Ereal %P"; #else cp = "%Uuser %Ssys %Ereal %P %Xi+%Dd %Mmaxrss %F+%Rpf %Ccsw"; #endif for (; *cp; cp++) { if (*cp != '%') *outp++ = *cp; else if (cp[1]) switch(*++cp) { case 'U': tvsub(&tdiff, &r1->ru_utime, &r0->ru_utime); sprintf(outp,"%d.%01d", tdiff.tv_sec, tdiff.tv_usec/100000); END(outp); break; case 'S': tvsub(&tdiff, &r1->ru_stime, &r0->ru_stime); sprintf(outp,"%d.%01d", tdiff.tv_sec, tdiff.tv_usec/100000); END(outp); break; case 'E': psecs(ms / 100, outp); END(outp); break; case 'P': sprintf(outp,"%d%%", (int) (t*100 / ((ms ? ms : 1)))); END(outp); break; #if !defined(SYSV) case 'W': i = r1->ru_nswap - r0->ru_nswap; sprintf(outp,"%d", i); END(outp); break; case 'X': sprintf(outp,"%d", t == 0 ? 0 : (r1->ru_ixrss-r0->ru_ixrss)/t); END(outp); break; case 'D': sprintf(outp,"%d", t == 0 ? 0 : (r1->ru_idrss+r1->ru_isrss-(r0->ru_idrss+r0->ru_isrss))/t); END(outp); break; case 'K': sprintf(outp,"%d", t == 0 ? 0 : ((r1->ru_ixrss+r1->ru_isrss+r1->ru_idrss) - (r0->ru_ixrss+r0->ru_idrss+r0->ru_isrss))/t); END(outp); break; case 'M': sprintf(outp,"%d", r1->ru_maxrss/2); END(outp); break; case 'F': sprintf(outp,"%d", r1->ru_majflt-r0->ru_majflt); END(outp); break; case 'R': sprintf(outp,"%d", r1->ru_minflt-r0->ru_minflt); END(outp); break; case 'I': sprintf(outp,"%d", r1->ru_inblock-r0->ru_inblock); END(outp); break; case 'O': sprintf(outp,"%d", r1->ru_oublock-r0->ru_oublock); END(outp); break; case 'C': sprintf(outp,"%d+%d", r1->ru_nvcsw-r0->ru_nvcsw, r1->ru_nivcsw-r0->ru_nivcsw ); END(outp); break; #endif !SYSV } } *outp = '\0'; } static void tvadd(tsum, t0, t1) struct timeval *tsum, *t0, *t1; { tsum->tv_sec = t0->tv_sec + t1->tv_sec; tsum->tv_usec = t0->tv_usec + t1->tv_usec; if (tsum->tv_usec > 1000000) tsum->tv_sec++, tsum->tv_usec -= 1000000; } static void tvsub(tdiff, t1, t0) struct timeval *tdiff, *t1, *t0; { tdiff->tv_sec = t1->tv_sec - t0->tv_sec; tdiff->tv_usec = t1->tv_usec - t0->tv_usec; if (tdiff->tv_usec < 0) tdiff->tv_sec--, tdiff->tv_usec += 1000000; } static void psecs(l,cp) long l; register char *cp; { register int i; i = l / 3600; if (i) { sprintf(cp,"%d:", i); END(cp); i = l % 3600; sprintf(cp,"%d%d", (i/60) / 10, (i/60) % 10); END(cp); } else { i = l; sprintf(cp,"%d", i / 60); END(cp); } i %= 60; *cp++ = ':'; sprintf(cp,"%d%d", i / 10, i % 10); } /* * N R E A D */ Nread( fd, buf, count ) char* buf; { struct sockaddr_in from; int len = sizeof(from); register int cnt; if( udp ) { cnt = recvfrom( fd, buf, count, 0, &from, &len ); numCalls++; } else { if( b_flag ) cnt = mread( fd, buf, count ); /* fill buf */ else { cnt = read( fd, buf, count ); numCalls++; } } return(cnt); } /* * N W R I T E */ Nwrite( fd, buf, count ) char* buf; { register int cnt; if( udp ) { again: cnt = sendto( fd, buf, count, 0, &sinhim, sizeof(sinhim) ); numCalls++; if( cnt<0 && errno == ENOBUFS ) { delay(18000); errno = 0; goto again; } } else { cnt = write( fd, buf, count ); numCalls++; } return(cnt); } delay(us) { struct timeval tv; tv.tv_sec = 0; tv.tv_usec = us; (void)select( 1, (char *)0, (char *)0, (char *)0, &tv ); return(1); } /* * M R E A D * * This function performs the function of a read(II) but will * call read(II) multiple times in order to get the requested * number of characters. This can be necessary because * network connections don't deliver data with the same * grouping as it is written with. Written by Robert S. Miles, BRL. */ int mread(fd, bufp, n) int fd; register char *bufp; unsigned n; { register unsigned count = 0; register int nread; do { nread = read(fd, bufp, n-count); numCalls++; if(nread < 0) { perror("ttcp_mread"); return(-1); } if(nread == 0) return((int)count); count += (unsigned)nread; bufp += nread; } while(count < n); return((int)count); }