📄 ttcp.c
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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: %.0f bytes in %.2f real seconds = %s/sec +++\n",
trans?"-t":"-r",
nbytes, realt, outfmt(nbytes/realt));
if (verbose) {
fprintf(stdout,
"ttcp%s: %.0f bytes in %.2f CPU seconds = %s/cpu sec\n",
trans?"-t":"-r",
nbytes, cput, outfmt(nbytes/cput));
}
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);
if (verbose) {
fprintf(stdout,
"ttcp%s: buffer address %#x\n",
trans?"-t":"-r",
buf);
}
exit(0);
usage:
fprintf(stderr,Usage);
exit(1);
}
void
err(s)
char *s;
{
fprintf(stderr,"ttcp%s: ", trans?"-t":"-r");
perror(s);
fprintf(stderr,"errno=%d\n",errno);
exit(1);
}
void
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);
}
}
char *
outfmt(b)
double b;
{
static char obuf[50];
switch (fmt) {
case 'G':
sprintf(obuf, "%.2f GB", b / 1024.0 / 1024.0 / 1024.0);
break;
default:
case 'K':
sprintf(obuf, "%.2f KB", b / 1024.0);
break;
case 'M':
sprintf(obuf, "%.2f MB", b / 1024.0 / 1024.0);
break;
case 'g':
sprintf(obuf, "%.2f Gbit", b * 8.0 / 1024.0 / 1024.0 / 1024.0);
break;
case 'k':
sprintf(obuf, "%.2f Kbit", b * 8.0 / 1024.0);
break;
case 'm':
sprintf(obuf, "%.2f Mbit", b * 8.0 / 1024.0 / 1024.0);
break;
}
return obuf;
}
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)
/*ARGSUSED*/
static
getrusage(ignored, ru)
int ignored;
register struct rusage *ru;
{
struct tms buf;
times(&buf);
/* Assumption: HZ <= 2147 (LONG_MAX/1000000) */
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;
}
/*ARGSUSED*/
static
gettimeofday(tp, zp)
struct timeval *tp;
struct timezone *zp;
{
tp->tv_sec = time(0);
tp->tv_usec = 0;
}
#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
#if defined(sgi) /* IRIX 3.3 will show 0 for %M,%F,%R,%C */
cp = "%Uuser %Ssys %Ereal %P %Mmaxrss %F+%Rpf %Ccsw";
#else
cp = "%Uuser %Ssys %Ereal %P %Xi+%Dd %Mmaxrss %F+%Rpf %Ccsw";
#endif
#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 )
int fd;
void *buf;
int count;
{
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++;
}
if (touchdata && cnt > 0) {
register int c = cnt, sum;
register char *b = buf;
sum = 0;
while (c--)
sum += *b++;
}
}
return(cnt);
}
/*
* N W R I T E
*/
Nwrite( fd, buf, count )
int fd;
void *buf;
int count;
{
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);
}
void
delay(us)
{
struct timeval tv;
tv.tv_sec = 0;
tv.tv_usec = us;
(void)select( 1, (char *)0, (char *)0, (char *)0, &tv );
}
/*
* 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);
}
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