4.3BSD-Reno/src/usr.bin/netstat/iso.c
/*
* Copyright (c) 1983 Regents of the University of California.
* All rights reserved. The Berkeley software License Agreement
* specifies the terms and conditions for redistribution.
*/
/*
* $Header: iso.c,v 3.3 88/12/08 14:44:49 hagens Exp $
* $Source: /usr/argo/src/ucb/netstat/RCS/iso.c,v $
*/
/*******************************************************************************
Copyright IBM Corporation 1987
All Rights Reserved
Permission to use, copy, modify, and distribute this software and its
documentation for any purpose and without fee is hereby granted,
provided that the above copyright notice appear in all copies and that
both that copyright notice and this permission notice appear in
supporting documentation, and that the name of IBM not be
used in advertising or publicity pertaining to distribution of the
software without specific, written prior permission.
IBM DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, INCLUDING
ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL
IBM BE LIABLE FOR ANY SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR
ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS,
WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION,
ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS
SOFTWARE.
*******************************************************************************/
/*
* ARGO Project, Computer Sciences Dept., University of Wisconsin - Madison
*/
static char sccsid[] = "@(#)iso.c 5.4 (Berkeley) 6/18/90";
#include <sys/param.h>
#include <sys/mbuf.h>
#define KERNEL
#include <sys/time.h>
#include <sys/domain.h>
#include <sys/protosw.h>
#include <sys/socket.h>
#include <sys/socketvar.h>
#include <errno.h>
#include <net/if.h>
#include <net/route.h>
#include <netiso/iso.h>
#include <netiso/iso_errno.h>
#include <netiso/clnp.h>
#include <netiso/esis.h>
#include <netiso/clnp_stat.h>
#include <netiso/argo_debug.h>
#undef satosiso
#include <netiso/tp_param.h>
#include <netiso/tp_states.h>
#include <netiso/tp_astring.c>
#include <netiso/tp_pcb.h>
#include <netiso/tp_stat.h>
#include <netiso/iso_pcb.h>
#include <netiso/cltp_var.h>
#include <netiso/cons.h>
#ifdef IncStat
#undef IncStat
#endif
#include <netiso/cons_pcb.h>
#include <netdb.h>
/*
* Dump esis stats
*/
esis_stats(off, name)
off_t off;
char *name;
{
struct esis_stat esis_stat;
if (off == 0)
return;
kvm_read(off, (char *)&esis_stat, sizeof (struct esis_stat));
printf("%s:\n", name);
printf("\t%d esh sent, %d esh received\n", esis_stat.es_eshsent,
esis_stat.es_eshrcvd);
printf("\t%d ish sent, %d ish received\n", esis_stat.es_ishsent,
esis_stat.es_ishrcvd);
printf("\t%d rd sent, %d rd received\n", esis_stat.es_rdsent,
esis_stat.es_rdrcvd);
printf("\t%d pdus not sent due to insufficient memory\n",
esis_stat.es_nomem);
printf("\t%d pdus received with bad checksum\n", esis_stat.es_badcsum);
printf("\t%d pdus received with bad version number\n",
esis_stat.es_badvers);
printf("\t%d pdus received with bad type field\n", esis_stat.es_badtype);
printf("\t%d short pdus received\n", esis_stat.es_toosmall);
}
/*
* Dump clnp statistics structure.
*/
clnp_stats(off, name)
off_t off;
char *name;
{
struct clnp_stat clnp_stat;
if (off == 0)
return;
kvm_read(off, (char *)&clnp_stat, sizeof (clnp_stat));
printf("%s:\n\t%d total packets sent\n", name, clnp_stat.cns_sent);
printf("\t%d total fragments sent\n", clnp_stat.cns_fragments);
printf("\t%d total packets received\n", clnp_stat.cns_total);
printf("\t%d with fixed part of header too small\n",
clnp_stat.cns_toosmall);
printf("\t%d with header length not reasonable\n", clnp_stat.cns_badhlen);
printf("\t%d incorrect checksum%s\n",
clnp_stat.cns_badcsum, plural(clnp_stat.cns_badcsum));
printf("\t%d with unreasonable address lengths\n", clnp_stat.cns_badaddr);
printf("\t%d with forgotten segmentation information\n",
clnp_stat.cns_noseg);
printf("\t%d with an incorrect protocol identifier\n", clnp_stat.cns_noproto);
printf("\t%d with an incorrect version\n", clnp_stat.cns_badvers);
printf("\t%d dropped because the ttl has expired\n",
clnp_stat.cns_ttlexpired);
printf("\t%d clnp cache misses\n", clnp_stat.cns_cachemiss);
printf("\t%d clnp congestion experience bits set\n",
clnp_stat.cns_congest_set);
printf("\t%d clnp congestion experience bits received\n",
clnp_stat.cns_congest_rcvd);
}
/*
* Dump CLTP statistics structure.
*/
cltp_stats(off, name)
off_t off;
char *name;
{
struct cltpstat cltpstat;
if (off == 0)
return;
kvm_read(off, (char *)&cltpstat, sizeof (cltpstat));
printf("%s:\n\t%u incomplete header%s\n", name,
cltpstat.cltps_hdrops, plural(cltpstat.cltps_hdrops));
printf("\t%u bad data length field%s\n",
cltpstat.cltps_badlen, plural(cltpstat.cltps_badlen));
printf("\t%u bad checksum%s\n",
cltpstat.cltps_badsum, plural(cltpstat.cltps_badsum));
}
struct tp_pcb tpcb;
struct isopcb isopcb;
struct socket sockb;
union {
struct sockaddr_iso siso;
char data[128];
} laddr, faddr;
#define kget(o, p) \
(kvm_read((off_t)(o), (char *)&p, sizeof (p)))
extern int Aflag;
extern int aflag;
extern int nflag;
static int first = 1;
/*
* Print a summary of connections related to an Internet
* protocol. For TP, also give state of connection.
* Listening processes (aflag) are suppressed unless the
* -a (all) flag is specified.
*/
iso_protopr(off, name)
off_t off;
char *name;
{
struct isopcb cb;
register struct isopcb *prev, *next;
int istp = (strcmp(name, "tp") == 0);
if (off == 0) {
printf("%s control block: symbol not in namelist\n", name);
return;
}
kget(off, cb);
isopcb = cb;
prev = (struct isopcb *)off;
if (isopcb.isop_next == (struct isopcb *)off)
return;
while (isopcb.isop_next != (struct isopcb *)off) {
next = isopcb.isop_next;
kget(next, isopcb);
if (isopcb.isop_prev != prev) {
printf("prev 0x%x next 0x%x isop_prev 0x%x isop_next 0x%x???\n",
prev, next, isopcb.isop_prev, isopcb.isop_next);
break;
}
kget(isopcb.isop_socket, sockb);
if (istp) {
kget(sockb.so_tpcb, tpcb);
if (tpcb.tp_state == ST_ERROR)
fprintf(stderr,"addr: 0x%x, prev 0x%x\n", next, prev);
if (!aflag &&
tpcb.tp_state == TP_LISTENING ||
tpcb.tp_state == TP_CLOSED ||
tpcb.tp_state == TP_REFWAIT) {
prev = next;
continue;
}
}
if (first) {
printf("Active ISO net connections");
if (aflag)
printf(" (including servers)");
putchar('\n');
if (Aflag)
printf("%-8.8s ", "PCB");
printf(Aflag ?
"%-5.5s %-6.6s %-6.6s %-18.18s %-18.18s %s\n" :
"%-5.5s %-6.6s %-6.6s %-22.22s %-22.22s %s\n",
"Proto", "Recv-Q", "Send-Q",
"Local Address", "Foreign Address", "(state)");
first = 0;
}
if (Aflag)
printf("%8x ",
(istp ? (off_t)sockb.so_tpcb : (off_t)next));
printf("%-5.5s %6d %6d ", name, sockb.so_rcv.sb_cc,
sockb.so_snd.sb_cc);
if (isopcb.isop_laddr == 0)
printf("*.*\t");
else {
if ((char *)isopcb.isop_laddr == ((char *)next) +
_offsetof(struct isopcb, isop_sladdr))
laddr.siso = isopcb.isop_sladdr;
else
kget(isopcb.isop_laddr, laddr);
isonetprint(&laddr, 1);
}
if (isopcb.isop_faddr == 0)
printf("*.*\t");
else {
if ((char *)isopcb.isop_faddr == ((char *)next) +
_offsetof(struct isopcb, isop_sfaddr))
faddr.siso = isopcb.isop_sfaddr;
else
kget(isopcb.isop_faddr, faddr);
isonetprint(&faddr, 0);
}
if (istp) {
if (tpcb.tp_state >= tp_NSTATES)
printf(" %d", tpcb.tp_state);
else
printf(" %-12.12s", tp_sstring[tpcb.tp_state]);
}
putchar('\n');
prev = next;
}
}
/*
* Pretty print an iso address (net address + port).
* If the nflag was specified, use numbers instead of names.
*/
#ifdef notdef
char *
isonetname(iso)
register struct iso_addr *iso;
{
struct sockaddr_iso sa;
struct iso_hostent *ihe = 0;
struct iso_hostent *iso_gethostentrybyaddr();
struct iso_hostent *iso_getserventrybytsel();
struct iso_hostent Ihe;
static char line[80];
char *index();
bzero(line, sizeof(line));
if( iso->isoa_afi ) {
sa.siso_family = AF_ISO;
sa.siso_addr = *iso;
sa.siso_tsuffix = 0;
if (!nflag )
ihe = iso_gethostentrybyaddr( &sa, 0, 0 );
if( ihe ) {
Ihe = *ihe;
ihe = &Ihe;
sprintf(line, "%s", ihe->isoh_hname);
} else {
sprintf(line, "%s", iso_ntoa(iso));
}
} else {
sprintf(line, "*");
}
return line;
}
isonetprint(iso, sufx, sufxlen, islocal)
register struct iso_addr *iso;
char *sufx;
u_short sufxlen;
int islocal;
{
struct iso_hostent *iso_getserventrybytsel(), *ihe;
struct iso_hostent Ihe;
char *line, *cp, *index();
int Alen = Aflag?18:22;
line = isonetname(iso);
cp = index(line, '\0');
ihe = (struct iso_hostent *)0;
if( islocal )
islocal = 20;
else
islocal = 22 + Alen;
if(Aflag)
islocal += 10 ;
if(!nflag) {
if( (cp -line)>10 ) {
cp = line+10;
bzero(cp, sizeof(line)-10);
}
}
*cp++ = '.';
if(sufxlen) {
if( !Aflag && !nflag && (ihe=iso_getserventrybytsel(sufx, sufxlen))) {
Ihe = *ihe;
ihe = &Ihe;
}
if( ihe && (strlen(ihe->isoh_aname)>0) ) {
sprintf(cp, "%s", ihe->isoh_aname);
} else {
iso_sprinttsel(cp, sufx, sufxlen);
}
} else
sprintf(cp, "*");
/*
fprintf(stdout, Aflag?" %-18.18s":" %-22.22s", line);
*/
if( strlen(line) > Alen ) {
fprintf(stdout, " %s", line);
fprintf(stdout, "\n %*.s", islocal+Alen," ");
} else {
fprintf(stdout, " %-*.*s", Alen, Alen,line);
}
}
#endif
#ifdef notdef
x25_protopr(off, name)
off_t off;
char *name;
{
static char *xpcb_states[] = {
"CLOSED",
"LISTENING",
"CLOSING",
"CONNECTING",
"ACKWAIT",
"OPEN",
};
register struct isopcb *prev, *next;
struct x25_pcb xpcb;
if (off == 0) {
printf("%s control block: symbol not in namelist\n", name);
return;
}
kvm_read(off, &xpcb, sizeof (struct x25_pcb));
prev = (struct isopcb *)off;
if (xpcb.x_next == (struct isopcb *)off)
return;
while (xpcb.x_next != (struct isopcb *)off) {
next = isopcb.isop_next;
kvm_read((off_t)next, &xpcb, sizeof (struct x25_pcb));
if (xpcb.x_prev != prev) {
printf("???\n");
break;
}
kvm_read((off_t)xpcb.x_socket, &sockb, sizeof (sockb));
if (!aflag &&
xpcb.x_state == LISTENING ||
xpcb.x_state == TP_CLOSED ) {
prev = next;
continue;
}
if (first) {
printf("Active X25 net connections");
if (aflag)
printf(" (including servers)");
putchar('\n');
if (Aflag)
printf("%-8.8s ", "PCB");
printf(Aflag ?
"%-5.5s %-6.6s %-6.6s %-18.18s %-18.18s %s\n" :
"%-5.5s %-6.6s %-6.6s %-22.22s %-22.22s %s\n",
"Proto", "Recv-Q", "Send-Q",
"Local Address", "Foreign Address", "(state)");
first = 0;
}
printf("%-5.5s %6d %6d ", name, sockb.so_rcv.sb_cc,
sockb.so_snd.sb_cc);
isonetprint(&xpcb.x_laddr.siso_addr, &xpcb.x_lport,
sizeof(xpcb.x_lport), 1);
isonetprint(&xpcb.x_faddr.siso_addr, &xpcb.x_fport,
sizeof(xpcb.x_lport), 0);
if (xpcb.x_state < 0 || xpcb.x_state >= x25_NSTATES)
printf(" 0x0x0x0x0x0x0x0x0x%x", xpcb.x_state);
else
printf(" %-12.12s", xpcb_states[xpcb.x_state]);
putchar('\n');
prev = next;
}
}
#endif
struct tp_stat tp_stat;
tp_stats(off, name)
caddr_t off, name;
{
if (off == 0) {
printf("TP not configured\n\n");
return;
}
printf("%s:\n", name);
kget(off, tp_stat);
tprintstat(&tp_stat, 8);
}
#define OUT stdout
#define plural(x) (x>1?"s":"")
tprintstat(s, indent)
register struct tp_stat *s;
int indent;
{
fprintf(OUT,
"%*sReceiving:\n",indent," ");
fprintf(OUT,
"\t%*s%d variable parameter%s ignored\n", indent," ",
s->ts_param_ignored ,plural(s->ts_param_ignored));
fprintf(OUT,
"\t%*s%d invalid parameter code%s\n", indent, " ",
s->ts_inv_pcode ,plural(s->ts_inv_pcode));
fprintf(OUT,
"\t%*s%d invalid parameter value%s\n", indent, " ",
s->ts_inv_pval ,plural(s->ts_inv_pval));
fprintf(OUT,
"\t%*s%d invalid dutype%s\n", indent, " ",
s->ts_inv_dutype ,plural(s->ts_inv_dutype));
fprintf(OUT,
"\t%*s%d negotiation failure%s\n", indent, " ",
s->ts_negotfailed ,plural(s->ts_negotfailed));
fprintf(OUT,
"\t%*s%d invalid destination reference%s\n", indent, " ",
s->ts_inv_dref ,plural(s->ts_inv_dref));
fprintf(OUT,
"\t%*s%d invalid suffix parameter%s\n", indent, " ",
s->ts_inv_sufx ,plural(s->ts_inv_sufx));
fprintf(OUT,
"\t%*s%d invalid length\n",indent, " ", s->ts_inv_length);
fprintf(OUT,
"\t%*s%d invalid checksum%s\n", indent, " ",
s->ts_bad_csum ,plural(s->ts_bad_csum));
fprintf(OUT,
"\t%*s%d DT%s out of order\n", indent, " ",
s->ts_dt_ooo ,plural(s->ts_dt_ooo));
fprintf(OUT,
"\t%*s%d DT%s not in window\n", indent, " ",
s->ts_dt_niw ,plural(s->ts_dt_niw));
fprintf(OUT,
"\t%*s%d duplicate DT%s\n", indent, " ",
s->ts_dt_dup ,plural(s->ts_dt_dup));
fprintf(OUT,
"\t%*s%d XPD%s not in window\n", indent, " ",
s->ts_xpd_niw ,plural(s->ts_xpd_niw));
fprintf(OUT,
"\t%*s%d XPD%s w/o credit to stash\n", indent, " ",
s->ts_xpd_dup ,plural(s->ts_xpd_dup));
fprintf(OUT,
"\t%*s%d time%s local credit reneged\n", indent, " ",
s->ts_lcdt_reduced ,plural(s->ts_lcdt_reduced));
fprintf(OUT,
"\t%*s%d concatenated TPDU%s\n", indent, " ",
s->ts_concat_rcvd ,plural(s->ts_concat_rcvd));
fprintf(OUT,
"%*sSending:\n", indent, " ");
fprintf(OUT,
"\t%*s%d XPD mark%s discarded\n", indent, " ",
s->ts_xpdmark_del ,plural(s->ts_xpdmark_del));
fprintf(OUT,
"\t%*sXPD stopped data flow %d time%s\n", indent, " ",
s->ts_xpd_intheway ,plural(s->ts_xpd_intheway));
fprintf(OUT,
"\t%*s%d time%s foreign window closed\n", indent, " ",
s->ts_zfcdt ,plural(s->ts_zfcdt));
fprintf(OUT,
"%*sMiscellaneous:\n", indent, " ");
fprintf(OUT,
"\t%*s%d small mbuf%s\n", indent, " ",
s->ts_mb_small ,plural(s->ts_mb_small));
fprintf(OUT,
"\t%*s%d cluster%s\n", indent, " ",
s->ts_mb_cluster, plural(s->ts_mb_cluster));
fprintf(OUT,
"\t%*s%d source quench \n",indent, " ",
s->ts_quench);
fprintf(OUT,
"\t%*s%d dec bit%s\n", indent, " ",
s->ts_rcvdecbit, plural(s->ts_rcvdecbit));
fprintf(OUT,
"\t%*sM:L ( M mbuf chains of length L)\n", indent, " ");
{
register int j;
fprintf(OUT, "\t%*s%d: over 16\n", indent, " ",
s->ts_mb_len_distr[0]);
for( j=1; j<=8; j++) {
fprintf(OUT,
"\t%*s%d: %d\t\t%d: %d\n", indent, " ",
s->ts_mb_len_distr[j],j,
s->ts_mb_len_distr[j<<1],j<<1
);
}
}
fprintf(OUT,
"\t%*s%d EOT rcvd\n", indent, " ", s->ts_eot_input);
fprintf(OUT,
"\t%*s%d EOT sent\n", indent, " ", s->ts_EOT_sent);
fprintf(OUT,
"\t%*s%d EOT indication%s\n", indent, " ",
s->ts_eot_user ,plural(s->ts_eot_user));
fprintf(OUT,
"%*sConnections:\n", indent, " ");
fprintf(OUT,
"\t%*s%d connection%s used extended format\n", indent, " ",
s->ts_xtd_fmt ,plural(s->ts_xtd_fmt));
fprintf(OUT,
"\t%*s%d connection%s allowed transport expedited data\n", indent, " ",
s->ts_use_txpd ,plural(s->ts_use_txpd));
fprintf(OUT,
"\t%*s%d connection%s turned off checksumming\n", indent, " ",
s->ts_csum_off ,plural(s->ts_csum_off));
fprintf(OUT,
"\t%*s%d connection%s dropped due to retrans limit\n", indent, " ",
s->ts_conn_gaveup ,plural(s->ts_conn_gaveup));
fprintf(OUT,
"\t%*s%d tp 4 connection%s\n", indent, " ",
s->ts_tp4_conn ,plural(s->ts_tp4_conn));
fprintf(OUT,
"\t%*s%d tp 0 connection%s\n", indent, " ",
s->ts_tp0_conn ,plural(s->ts_tp0_conn));
{
register int j, div;
register float f;
static char *name[]= {
"~LOCAL, PDN",
"~LOCAL,~PDN",
" LOCAL,~PDN",
" LOCAL, PDN"
};
#define factor(i) \
div = (s->ts_rtt[(i)].tv_sec * 1000000) + \
s->ts_rtt[(i)].tv_usec ;\
if(div) {\
f = ((s->ts_rtv[(i)].tv_sec * 1000000) + \
s->ts_rtv[(i)].tv_usec)/div; \
div = (int) (f + 0.5);\
}
fprintf(OUT,
"\n%*sRound trip times, listed in (sec: usec):\n", indent, " ");
fprintf(OUT,
"\t%*s%11.11s %12.12s | %12.12s | %s\n", indent, " ",
"Category",
"Smoothed avg", "Deviation", "Deviation/Avg");
for( j=0; j<=3; j++) {
factor(j);
fprintf(OUT,
"\t%*s%11.11s: %5d:%-6d | %5d:%-6d | %-6d\n", indent, " ",
name[j],
s->ts_rtt[j].tv_sec,
s->ts_rtt[j].tv_usec,
s->ts_rtv[j].tv_sec,
s->ts_rtv[j].tv_usec,
div);
}
}
fprintf(OUT,
"\n%*sTpdus RECVD [%d valid, %3.6f %% of total (%d); %d dropped]\n",indent," ",
s->ts_tpdu_rcvd ,
((s->ts_pkt_rcvd > 0) ?
((100 * (float)s->ts_tpdu_rcvd)/(float)s->ts_pkt_rcvd)
: 0),
s->ts_pkt_rcvd,
s->ts_recv_drop );
fprintf(OUT,
"\t%*sDT %6d AK %6d DR %4d CR %4d \n", indent, " ",
s->ts_DT_rcvd, s->ts_AK_rcvd, s->ts_DR_rcvd, s->ts_CR_rcvd);
fprintf(OUT,
"\t%*sXPD %6d XAK %6d DC %4d CC %4d ER %4d\n", indent, " ",
s->ts_XPD_rcvd, s->ts_XAK_rcvd, s->ts_DC_rcvd, s->ts_CC_rcvd,
s->ts_ER_rcvd);
fprintf(OUT,
"\n%*sTpdus SENT [%d total, %d dropped]\n", indent, " ",
s->ts_tpdu_sent, s->ts_send_drop);
fprintf(OUT,
"\t%*sDT %6d AK %6d DR %4d CR %4d \n", indent, " ",
s->ts_DT_sent, s->ts_AK_sent, s->ts_DR_sent, s->ts_CR_sent);
fprintf(OUT,
"\t%*sXPD %6d XAK %6d DC %4d CC %4d ER %4d\n", indent, " ",
s->ts_XPD_sent, s->ts_XAK_sent, s->ts_DC_sent, s->ts_CC_sent,
s->ts_ER_sent);
fprintf(OUT,
"\n%*sRetransmissions:\n", indent, " ");
#define PERCENT(X,Y) (((Y)>0)?((100 *(float)(X)) / (float) (Y)):0)
fprintf(OUT,
"\t%*sCR %6d CC %6d DR %6d \n", indent, " ",
s->ts_retrans_cr, s->ts_retrans_cc, s->ts_retrans_dr);
fprintf(OUT,
"\t%*sDT %6d (%5.2f%%)\n", indent, " ",
s->ts_retrans_dt,
PERCENT(s->ts_retrans_dt, s->ts_DT_sent));
fprintf(OUT,
"\t%*sXPD %6d (%5.2f%%)\n", indent, " ",
s->ts_retrans_xpd,
PERCENT(s->ts_retrans_xpd, s->ts_XPD_sent));
fprintf(OUT,
"\n%*sE Timers: [%6d ticks]\n", indent, " ", s->ts_Eticks);
fprintf(OUT,
"%*s%6d timer%s set \t%6d timer%s expired \t%6d timer%s cancelled\n",indent, " ",
s->ts_Eset ,plural(s->ts_Eset),
s->ts_Eexpired ,plural(s->ts_Eexpired),
s->ts_Ecan_act ,plural(s->ts_Ecan_act));
fprintf(OUT,
"\n%*sC Timers: [%6d ticks]\n", indent, " ",s->ts_Cticks);
fprintf(OUT,
"%*s%6d timer%s set \t%6d timer%s expired \t%6d timer%s cancelled\n",
indent, " ",
s->ts_Cset ,plural(s->ts_Cset),
s->ts_Cexpired ,plural(s->ts_Cexpired),
s->ts_Ccan_act ,plural(s->ts_Ccan_act));
fprintf(OUT,
"%*s%6d inactive timer%s cancelled\n", indent, " ",
s->ts_Ccan_inact ,plural(s->ts_Ccan_inact));
fprintf(OUT,
"\n%*sPathological debugging activity:\n", indent, " ");
fprintf(OUT,
"\t%*s%6d CC%s sent to zero dref\n", indent, " ",
s->ts_zdebug ,plural(s->ts_zdebug));
/* SAME LINE AS ABOVE */
fprintf(OUT,
"\t%*s%6d random DT%s dropped\n", indent, " ",
s->ts_ydebug ,plural(s->ts_ydebug));
fprintf(OUT,
"\t%*s%6d illegally large XPD TPDU%s\n", indent, " ",
s->ts_vdebug ,plural(s->ts_vdebug));
fprintf(OUT,
"\t%*s%6d faked reneging of cdt\n", indent, " ",
s->ts_ldebug );
fprintf(OUT,
"\n%*sACK reasons:\n", indent, " ");
fprintf(OUT, "\t%*s%6d not acked immediately\n", indent, " ",
s->ts_ackreason[_ACK_DONT_] );
fprintf(OUT, "\t%*s%6d strategy==each\n", indent, " ",
s->ts_ackreason[_ACK_STRAT_EACH_] );
fprintf(OUT, "\t%*s%6d strategy==fullwindow\n", indent, " ",
s->ts_ackreason[_ACK_STRAT_FULLWIN_] );
fprintf(OUT, "\t%*s%6d duplicate DT\n", indent, " ",
s->ts_ackreason[_ACK_DUP_] );
fprintf(OUT, "\t%*s%6d EOTSDU\n", indent, " ",
s->ts_ackreason[_ACK_EOT_] );
fprintf(OUT, "\t%*s%6d reordered DT\n", indent, " ",
s->ts_ackreason[_ACK_REORDER_] );
fprintf(OUT, "\t%*s%6d user rcvd\n", indent, " ",
s->ts_ackreason[_ACK_USRRCV_] );
fprintf(OUT, "\t%*s%6d fcc reqd\n", indent, " ",
s->ts_ackreason[_ACK_FCC_] );
}
#ifndef SSEL
#define SSEL(s) ((s)->siso_tlen + TSEL(s))
#define PSEL(s) ((s)->siso_slen + SSEL(s))
#endif
isonetprint(siso, islocal)
register struct sockaddr_iso *siso;
int islocal;
{
hexprint(siso->siso_nlen, siso->siso_addr.isoa_genaddr, "{}");
if (siso->siso_tlen || siso->siso_slen || siso->siso_plen)
hexprint(siso->siso_tlen, TSEL(siso), "()");
if (siso->siso_slen || siso->siso_plen)
hexprint(siso->siso_slen, SSEL(siso), "[]");
if (siso->siso_plen)
hexprint(siso->siso_plen, PSEL(siso), "<>");
putchar(' ');
}
static char hexlist[] = "0123456789abcdef", obuf[128];
hexprint(n, buf, delim)
char *buf, *delim;
{
register u_char *in = (u_char *)buf, *top = in + n;
register char *out = obuf;
register int i;
if (n == 0)
return;
while (in < top) {
i = *in++;
*out++ = '.';
if (i > 0xf) {
out[1] = hexlist[i & 0xf];
i >>= 4;
out[0] = hexlist[i];
out += 2;
} else
*out++ = hexlist[i];
}
*obuf = *delim; *out++ = delim[1]; *out = 0;
printf("%s", obuf);
}