Current Path : /compat/linux/proc/self/root/usr/src/usr.sbin/IPXrouted/ |
FreeBSD hs32.drive.ne.jp 9.1-RELEASE FreeBSD 9.1-RELEASE #1: Wed Jan 14 12:18:08 JST 2015 root@hs32.drive.ne.jp:/sys/amd64/compile/hs32 amd64 |
Current File : //compat/linux/proc/self/root/usr/src/usr.sbin/IPXrouted/trace.c |
/* * Copyright (c) 1985, 1993 * The Regents of the University of California. All rights reserved. * * Copyright (c) 1995 John Hay. All rights reserved. * * This file includes significant work done at Cornell University by * Bill Nesheim. That work included by permission. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by the University of * California, Berkeley and its contributors. * 4. Neither the name of the University nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ #ifndef lint #if 0 static char sccsid[] = "@(#)trace.c 8.1 (Berkeley) 6/5/93"; #endif static const char rcsid[] = "$FreeBSD: release/9.1.0/usr.sbin/IPXrouted/trace.c 173709 2007-11-17 23:09:39Z jb $"; #endif /* not lint */ /* * Routing Table Management Daemon */ #define RIPCMDS #define SAPCMDS #include <stdlib.h> #include <unistd.h> #include <sys/types.h> #include <time.h> #include "defs.h" #define NRECORDS 50 /* size of circular trace buffer */ #ifdef DEBUG FILE *ftrace = stdout; int tracing = 1; #else /* DEBUG */ FILE *ftrace = NULL; int tracing = 0; #endif void dumpif(FILE *fd, struct interface *ifp); void dumptrace(FILE *fd, char *dir, struct ifdebug *ifd); static int iftraceinit(struct interface *ifp, struct ifdebug *ifd); void traceinit(ifp) register struct interface *ifp; { if (iftraceinit(ifp, &ifp->int_input) && iftraceinit(ifp, &ifp->int_output)) return; tracing = 0; syslog(LOG_ERR, "traceinit: can't init %s\n", ifp->int_name); } static int iftraceinit(ifp, ifd) struct interface *ifp; register struct ifdebug *ifd; { register struct iftrace *t; ifd->ifd_records = (struct iftrace *)malloc(NRECORDS * sizeof (struct iftrace)); if (ifd->ifd_records == 0) return (0); ifd->ifd_front = ifd->ifd_records; ifd->ifd_count = 0; for (t = ifd->ifd_records; t < ifd->ifd_records + NRECORDS; t++) { t->ift_size = 0; t->ift_packet = 0; } ifd->ifd_if = ifp; return (1); } void traceon(file) char *file; { if (ftrace != NULL) return; ftrace = fopen(file, "a"); if (ftrace == NULL) return; dup2(fileno(ftrace), 1); dup2(fileno(ftrace), 2); tracing = 1; } void traceoff(void) { if (!tracing) return; if (ftrace != NULL) fclose(ftrace); ftrace = NULL; tracing = 0; } void trace(ifd, who, p, len, m) register struct ifdebug *ifd; struct sockaddr *who; char *p; int len, m; { register struct iftrace *t; if (ifd->ifd_records == 0) return; t = ifd->ifd_front++; if (ifd->ifd_front >= ifd->ifd_records + NRECORDS) ifd->ifd_front = ifd->ifd_records; if (ifd->ifd_count < NRECORDS) ifd->ifd_count++; if (t->ift_size > 0 && t->ift_packet) free(t->ift_packet); t->ift_packet = 0; t->ift_stamp = time(0); t->ift_who = *who; if (len > 0) { t->ift_packet = malloc(len); if (t->ift_packet) bcopy(p, t->ift_packet, len); else len = 0; } t->ift_size = len; t->ift_metric = m; } void traceaction(fd, action, rt) FILE *fd; char *action; struct rt_entry *rt; { struct sockaddr_ipx *dst, *gate; static struct bits { int t_bits; char *t_name; } flagbits[] = { { RTF_UP, "UP" }, { RTF_GATEWAY, "GATEWAY" }, { RTF_HOST, "HOST" }, { 0 } }, statebits[] = { { RTS_PASSIVE, "PASSIVE" }, { RTS_REMOTE, "REMOTE" }, { RTS_INTERFACE,"INTERFACE" }, { RTS_CHANGED, "CHANGED" }, { 0 } }; register struct bits *p; register int first; char *cp; if (fd == NULL) return; fprintf(fd, "%s ", action); dst = (struct sockaddr_ipx *)&rt->rt_dst; gate = (struct sockaddr_ipx *)&rt->rt_router; fprintf(fd, "dst %s, ", ipxdp_ntoa(&dst->sipx_addr)); fprintf(fd, "router %s, metric %d, ticks %d, flags", ipxdp_ntoa(&gate->sipx_addr), rt->rt_metric, rt->rt_ticks); cp = " %s"; for (first = 1, p = flagbits; p->t_bits > 0; p++) { if ((rt->rt_flags & p->t_bits) == 0) continue; fprintf(fd, cp, p->t_name); if (first) { cp = "|%s"; first = 0; } } fprintf(fd, " state"); cp = " %s"; for (first = 1, p = statebits; p->t_bits > 0; p++) { if ((rt->rt_state & p->t_bits) == 0) continue; fprintf(fd, cp, p->t_name); if (first) { cp = "|%s"; first = 0; } } putc('\n', fd); if (!tracepackets && (rt->rt_state & RTS_PASSIVE) == 0 && rt->rt_ifp) dumpif(fd, rt->rt_ifp); fflush(fd); } void traceactionlog(action, rt) char *action; struct rt_entry *rt; { struct sockaddr_ipx *dst, *gate; static struct bits { int t_bits; char *t_name; } flagbits[] = { { RTF_UP, "UP" }, { RTF_GATEWAY, "GATEWAY" }, { RTF_HOST, "HOST" }, { 0 } }, statebits[] = { { RTS_PASSIVE, "PASSIVE" }, { RTS_REMOTE, "REMOTE" }, { RTS_INTERFACE,"INTERFACE" }, { RTS_CHANGED, "CHANGED" }, { 0 } }; register struct bits *p; register int first; char *cp; char *lstr, *olstr; dst = (struct sockaddr_ipx *)&rt->rt_dst; gate = (struct sockaddr_ipx *)&rt->rt_router; asprintf(&lstr, "%s dst %s,", action, ipxdp_ntoa(&dst->sipx_addr)); olstr = lstr; asprintf(&lstr, "%s router %s, metric %d, ticks %d, flags", olstr, ipxdp_ntoa(&gate->sipx_addr), rt->rt_metric, rt->rt_ticks); free(olstr); olstr = lstr; cp = "%s %s"; for (first = 1, p = flagbits; p->t_bits > 0; p++) { if ((rt->rt_flags & p->t_bits) == 0) continue; asprintf(&lstr, cp, olstr, p->t_name); free(olstr); olstr = lstr; if (first) { cp = "%s|%s"; first = 0; } } asprintf(&lstr, "%s state", olstr); free(olstr); olstr = lstr; cp = "%s %s"; for (first = 1, p = statebits; p->t_bits > 0; p++) { if ((rt->rt_state & p->t_bits) == 0) continue; asprintf(&lstr, cp, olstr, p->t_name); free(olstr); olstr = lstr; if (first) { cp = "%s|%s"; first = 0; } } syslog(LOG_DEBUG, "%s", lstr); free(lstr); } void tracesapactionlog(action, sap) char *action; struct sap_entry *sap; { syslog(LOG_DEBUG, "%-12.12s service %04X %-20.20s " "addr %s.%04X %c metric %d\n", action, ntohs(sap->sap.ServType), sap->sap.ServName, ipxdp_ntoa(&sap->sap.ipx), ntohs(sap->sap.ipx.x_port), (sap->clone ? 'C' : ' '), ntohs(sap->sap.hops)); } void dumpif(fd, ifp) register struct interface *ifp; FILE *fd; { if (ifp->int_input.ifd_count || ifp->int_output.ifd_count) { fprintf(fd, "*** Packet history for interface %s ***\n", ifp->int_name); dumptrace(fd, "to", &ifp->int_output); dumptrace(fd, "from", &ifp->int_input); fprintf(fd, "*** end packet history ***\n"); } } void dumptrace(fd, dir, ifd) FILE *fd; char *dir; register struct ifdebug *ifd; { register struct iftrace *t; char *cp = !strcmp(dir, "to") ? "Output" : "Input"; if (ifd->ifd_front == ifd->ifd_records && ifd->ifd_front->ift_size == 0) { fprintf(fd, "%s: no packets.\n", cp); return; } fprintf(fd, "%s trace:\n", cp); t = ifd->ifd_front - ifd->ifd_count; if (t < ifd->ifd_records) t += NRECORDS; for ( ; ifd->ifd_count; ifd->ifd_count--, t++) { if (t >= ifd->ifd_records + NRECORDS) t = ifd->ifd_records; if (t->ift_size == 0) continue; fprintf(fd, "%.24s: metric=%d\n", ctime(&t->ift_stamp), t->ift_metric); dumppacket(fd, dir, &t->ift_who, t->ift_packet, t->ift_size); } } void dumppacket(fd, dir, source, cp, size) FILE *fd; char *dir; struct sockaddr *source; char *cp; register int size; { register struct rip *msg = (struct rip *)cp; register struct netinfo *n; struct sockaddr_ipx *who = (struct sockaddr_ipx *)source; if (msg->rip_cmd && ntohs(msg->rip_cmd) < RIPCMD_MAX) fprintf(fd, "%s %s %s#%x", ripcmds[ntohs(msg->rip_cmd)], dir, ipxdp_ntoa(&who->sipx_addr), ntohs(who->sipx_addr.x_port)); else { fprintf(fd, "Bad cmd 0x%x %s %s#%x\n", ntohs(msg->rip_cmd), dir, ipxdp_ntoa(&who->sipx_addr), ntohs(who->sipx_addr.x_port)); fprintf(fd, "size=%d cp=%p packet=%p\n", size, cp, packet); return; } switch (ntohs(msg->rip_cmd)) { case RIPCMD_REQUEST: case RIPCMD_RESPONSE: fprintf(fd, ":\n"); size -= sizeof (u_short); n = msg->rip_nets; for (; size > 0; n++, size -= sizeof (struct netinfo)) { if (size < sizeof (struct netinfo)) break; fprintf(fd, "\tnet %s metric %d ticks %d\n", ipxdp_nettoa(n->rip_dst), ntohs(n->rip_metric), ntohs(n->rip_ticks)); } break; } } void dumpsappacket(fd, dir, source, cp, size) FILE *fd; char *dir; struct sockaddr *source; char *cp; register int size; { register struct sap_packet *msg = (struct sap_packet *)cp; register struct sap_info *n; struct sockaddr_ipx *who = (struct sockaddr_ipx *)source; if (msg->sap_cmd && ntohs(msg->sap_cmd) < SAPCMD_MAX) fprintf(fd, "%s %s %s#%x", sapcmds[ntohs(msg->sap_cmd)], dir, ipxdp_ntoa(&who->sipx_addr), ntohs(who->sipx_addr.x_port)); else { fprintf(fd, "Bad cmd 0x%x %s %s#%x\n", ntohs(msg->sap_cmd), dir, ipxdp_ntoa(&who->sipx_addr), ntohs(who->sipx_addr.x_port)); fprintf(fd, "size=%d cp=%p packet=%p\n", size, cp, packet); return; } switch (ntohs(msg->sap_cmd)) { case SAP_REQ: case SAP_RESP: case SAP_REQ_NEAR: case SAP_RESP_NEAR: fprintf(fd, ":\n"); size -= sizeof (u_short); n = msg->sap; for (; size > 0; n++, size -= sizeof (struct sap_info)) { if (size < sizeof (struct sap_info)) break; fprintf(fd, " service %04X %-20.20s " "addr %s.%04X metric %d\n", ntohs(n->ServType), n->ServName, ipxdp_ntoa(&n->ipx), ntohs(n->ipx.x_port), ntohs(n->hops)); } break; } } void dumpsaptable(fd, sh) FILE *fd; struct sap_hash *sh; { register struct sap_entry *sap; struct sap_hash *hash; int x = 0; fprintf(fd, "------- SAP table dump. -------\n"); for (hash = sh; hash < &sh[SAPHASHSIZ]; hash++, x++) { fprintf(fd, "HASH %d\n", x); sap = hash->forw; for (; sap != (struct sap_entry *)hash; sap = sap->forw) { fprintf(fd, " service %04X %-20.20s " "addr %s.%04X %c metric %d\n", ntohs(sap->sap.ServType), sap->sap.ServName, ipxdp_ntoa(&sap->sap.ipx), ntohs(sap->sap.ipx.x_port), (sap->clone ? 'C' : ' '), ntohs(sap->sap.hops)); } } fprintf(fd, "\n"); } void dumpriptable(fd) FILE *fd; { register struct rt_entry *rip; struct rthash *hash; int x; struct rthash *rh = nethash; fprintf(fd, "------- RIP table dump. -------\n"); x = 0; fprintf(fd, "Network table.\n"); for (hash = rh; hash < &rh[ROUTEHASHSIZ]; hash++, x++) { fprintf(fd, "HASH %d\n", x); rip = hash->rt_forw; for (; rip != (struct rt_entry *)hash; rip = rip->rt_forw) { fprintf(fd, " dest %s\t", ipxdp_ntoa(&satoipx_addr(rip->rt_dst))); fprintf(fd, "%s metric %d, ticks %d\n", ipxdp_ntoa(&satoipx_addr(rip->rt_router)), rip->rt_metric, rip->rt_ticks); } } fprintf(fd, "\n"); } union ipx_net_u net; char * ipxdp_nettoa(val) union ipx_net val; { static char buf[100]; net.net_e = val; (void)sprintf(buf, "%u", ntohl(net.long_e)); return (buf); } char * ipxdp_ntoa(addr) struct ipx_addr *addr; { static char buf[100]; (void)sprintf(buf, "%s#%x:%x:%x:%x:%x:%x", ipxdp_nettoa(addr->x_net), addr->x_host.c_host[0], addr->x_host.c_host[1], addr->x_host.c_host[2], addr->x_host.c_host[3], addr->x_host.c_host[4], addr->x_host.c_host[5]); return(buf); }