/* * (C)opyright 1993-1996 by Darren Reed. * * Redistribution and use in source and binary forms are permitted * provided that this notice is preserved and due credit is given * to the original author and the contributors. */ #include #include #if !defined(__SVR4) && !defined(__svr4__) #include #else #include #endif #include #include #include #include #include #include #include #include #include #include #include #include "ip_fil_compat.h" #include "ip_fil.h" #include #include #include #include #include "ipf.h" #include #ifndef lint static char sccsid[] ="@(#)parse.c 1.44 6/5/96 (C) 1993-1996 Darren Reed"; static char rcsid[] = "$Id: parse.c,v 1.8 1997/01/17 07:12:18 millert Exp $"; #endif extern struct ipopt_names ionames[], secclass[]; extern int opts; extern int gethostname(); u_long hostnum(), optname(); u_short portnum(); u_char tcp_flags(); struct frentry *parse(); void binprint(), printfr(); int addicmp(), extras(), hostmask(), ports(), icmpcode(), addkeep(); char *proto = NULL; char flagset[] = "FSRPAU"; u_char flags[] = { TH_FIN, TH_SYN, TH_RST, TH_PUSH, TH_ACK, TH_URG }; static char thishost[64]; void initparse() { gethostname(thishost, sizeof(thishost)); thishost[sizeof(thishost) - 1] = '\0'; } /* parse() * * parse a line read from the input filter rule file */ struct frentry *parse(line) char *line; { static struct frentry fil; struct protoent *p = NULL; char *cps[31], **cpp; u_char ch; int i, cnt = 1; bzero((char *)&fil, sizeof(fil)); fil.fr_mip.fi_v = 0xf; fil.fr_ip.fi_v = 4; /* * break line up into max of 20 segments */ if (opts & OPT_DEBUG) fprintf(stderr, "parse [%s]\n", line); for (i = 0, *cps = strtok(line, " \b\t\r\n"); cps[i] && i < 30; cnt++) cps[++i] = strtok(NULL, " \b\t\r\n"); cps[i] = NULL; if (cnt < 3) { (void)fprintf(stderr,"not enough segments in line\n"); return NULL; } cpp = cps; if (**cpp == '@') fil.fr_hits = atoi(*cpp++ + 1) + 1; /* * does it start with one of the two possible first words ? */ if (strcasecmp("block",*cpp) && strcasecmp("pass",*cpp) && strcasecmp("log",*cpp) && strcasecmp("count",*cpp)) { (void)fprintf(stderr, "unknown keyword (%s)\n", *cpp); return NULL; } if (**cpp == 'b') { fil.fr_flags = FR_BLOCK; if (!strncasecmp(*(cpp+1), "return-icmp", 11)) { fil.fr_flags |= FR_RETICMP; cpp++; if (*(*cpp + 11) == '(') { fil.fr_icode = icmpcode(*cpp + 12); if (fil.fr_icode == -1) { fprintf(stderr, "uncrecognised icmp code %s\n", *cpp + 12); return NULL; } } } else if (!strncasecmp(*(cpp+1), "return-rst", 10)) { fil.fr_flags |= FR_RETRST; cpp++; } } else if (**cpp == 'c') fil.fr_flags = FR_ACCOUNT; else if (**cpp == 'p') { fil.fr_flags = FR_PASS; } else if (**cpp == 'l') { fil.fr_flags = FR_LOG; if (!strcasecmp(*(cpp+1), "body")) { fil.fr_flags |= FR_LOGBODY; cpp++; } if (!strcasecmp(*(cpp+1), "first")) { fil.fr_flags |= FR_LOGFIRST; cpp++; } } cpp++; if (!strcasecmp("in", *cpp)) fil.fr_flags |= FR_INQUE; else if (!strcasecmp("out", *cpp)) fil.fr_flags |= FR_OUTQUE; else { (void)fprintf(stderr, "missing 'in'/'out' keyword (%s)\n", *cpp); return NULL; } if (!*++cpp) return NULL; if (!strcasecmp("log", *cpp)) { cpp++; if (fil.fr_flags & FR_PASS) fil.fr_flags |= FR_LOGP; else if (fil.fr_flags & FR_BLOCK) fil.fr_flags |= FR_LOGB; if (!strcasecmp(*cpp, "body")) { fil.fr_flags |= FR_LOGBODY; cpp++; } if (!strcasecmp(*cpp, "first")) { fil.fr_flags |= FR_LOGFIRST; cpp++; } } if (!strcasecmp("quick", *cpp)) { cpp++; fil.fr_flags |= FR_QUICK; } *fil.fr_ifname = '\0'; if (!strcasecmp(*cpp, "on")) { if (!*++cpp) { (void)fprintf(stderr, "interface name missing\n"); return NULL; } (void)strncpy(fil.fr_ifname, *cpp, IFNAMSIZ-1); fil.fr_ifname[IFNAMSIZ-1] = '\0'; cpp++; if (!*cpp) { if (fil.fr_flags & FR_RETRST) { (void)fprintf(stderr, "%s can only be used with TCP\n", "return-rst"); return NULL; } return &fil; } if (*cpp) { #if SOLARIS if (!strcasecmp(*cpp, "dup-to") || !strcasecmp(*cpp, "to") || !strcasecmp(*cpp, "fastroute")) { (void) fprintf(stderr, "%s not supported under SunOS5\n", *cpp); return NULL; } #endif if (!strcasecmp(*cpp, "dup-to") && *(cpp + 1)) { cpp++; if (to_interface(&fil.fr_dif, *cpp)) return NULL; cpp++; } if (!strcasecmp(*cpp, "to") && *(cpp + 1)) { cpp++; if (to_interface(&fil.fr_tif, *cpp)) return NULL; cpp++; } else if (!strcasecmp(*cpp, "fastroute")) { fil.fr_flags |= FR_FASTROUTE; cpp++; } } } if (!strcasecmp(*cpp, "tos")) { if (!*++cpp) { (void)fprintf(stderr, "tos missing value\n"); return NULL; } fil.fr_tos = strtol(*cpp, NULL, 0); fil.fr_mip.fi_tos = 0xff; cpp++; } if (!strcasecmp(*cpp, "ttl")) { if (!*++cpp) { (void)fprintf(stderr, "ttl missing hopcount value\n"); return NULL; } fil.fr_ttl = atoi(*cpp); fil.fr_mip.fi_ttl = 0xff; cpp++; } /* * check for "proto " only decode udp/tcp/icmp as protoname */ proto = NULL; if (!strcasecmp(*cpp, "proto")) { if (!*++cpp) { (void)fprintf(stderr, "protocol name missing\n"); return NULL; } if (!strcasecmp(*cpp, "tcp/udp")) { fil.fr_ip.fi_fl |= FI_TCPUDP; fil.fr_mip.fi_fl |= FI_TCPUDP; } else { if (!(p = getprotobyname(*cpp)) && !isdigit(**cpp)) { (void)fprintf(stderr, "unknown protocol (%s)\n", *cpp); return NULL; } if (p) fil.fr_proto = p->p_proto; else if (isdigit(**cpp)) fil.fr_proto = atoi(*cpp); fil.fr_mip.fi_p = 0xff; } proto = *cpp; if (fil.fr_proto != IPPROTO_TCP && fil.fr_flags & FR_RETRST) { (void)fprintf(stderr, "%s can only be used with TCP\n", "return-rst"); return NULL; } if (!*++cpp) return &fil; } if (fil.fr_proto != IPPROTO_TCP && fil.fr_flags & FR_RETRST) { (void)fprintf(stderr, "%s can only be used with TCP\n", "return-rst"); return NULL; } /* * get the from host and bit mask to use against packets */ if (!strcasecmp(*cpp, "all")) { cpp++; if (!*cpp) return &fil; } else { if (strcasecmp(*cpp, "from")) { (void)fprintf(stderr, "unexpected keyword (%s) - from\n", *cpp); return NULL; } if (!*++cpp) { (void)fprintf(stderr, "missing host after from\n"); return NULL; } ch = 0; if (hostmask(&cpp, &fil.fr_src, &fil.fr_smsk, &fil.fr_sport, &ch, &fil.fr_stop)) { (void)fprintf(stderr, "bad host (%s)\n", *cpp); return NULL; } fil.fr_scmp = ch; if (!*cpp) { (void)fprintf(stderr, "missing to fields\n"); return NULL; } /* * do the same for the to field (destination host) */ if (strcasecmp(*cpp, "to")) { (void)fprintf(stderr, "unexpected keyword (%s) - to\n", *cpp); return NULL; } if (!*++cpp) { (void)fprintf(stderr, "missing host after to\n"); return NULL; } ch = 0; if (hostmask(&cpp, &fil.fr_dst, &fil.fr_dmsk, &fil.fr_dport, &ch, &fil.fr_dtop)) { (void)fprintf(stderr, "bad host (%s)\n", *cpp); return NULL; } fil.fr_dcmp = ch; } /* * check some sanity, make sure we don't have icmp checks with tcp * or udp or visa versa. */ if (fil.fr_proto && (fil.fr_dcmp || fil.fr_scmp) && fil.fr_proto != IPPROTO_TCP && fil.fr_proto != IPPROTO_UDP) { (void)fprintf(stderr, "port operation on non tcp/udp\n"); return NULL; } if (fil.fr_icmp && fil.fr_proto != IPPROTO_ICMP) { (void)fprintf(stderr, "icmp comparisons on wrong protocol\n"); return NULL; } if (!*cpp) return &fil; if (*cpp && !strcasecmp(*cpp, "flags")) { if (!*++cpp) { (void)fprintf(stderr, "no flags present\n"); return NULL; } fil.fr_tcpf = tcp_flags(*cpp, &fil.fr_tcpfm); cpp++; } /* * extras... */ if (*cpp && (!strcasecmp(*cpp, "with") || !strcasecmp(*cpp, "and"))) if (extras(&cpp, &fil)) return NULL; /* * icmp types for use with the icmp protocol */ if (*cpp && !strcasecmp(*cpp, "icmp-type")) { if (fil.fr_proto != IPPROTO_ICMP) { (void)fprintf(stderr, "icmp with wrong protocol (%d)\n", fil.fr_proto); return NULL; } if (addicmp(&cpp, &fil)) return NULL; fil.fr_icmp = htons(fil.fr_icmp); fil.fr_icmpm = htons(fil.fr_icmpm); } /* * Keep something... */ while (*cpp && !strcasecmp(*cpp, "keep")) if (addkeep(&cpp, &fil)) return NULL; /* * leftovers...yuck */ if (*cpp && **cpp) { fprintf(stderr, "unknown words at end: ["); for (; *cpp; cpp++) (void)fprintf(stderr, "%s ", *cpp); (void)fprintf(stderr, "]\n"); return NULL; } /* * lazy users... */ if (!fil.fr_proto && (fil.fr_dcmp || fil.fr_scmp || fil.fr_tcpf)) { (void)fprintf(stderr, "no protocol given for TCP/UDP comparisons\n"); return NULL; } /* if ((fil.fr_flags & FR_KEEPFRAG) && (!(fil.fr_ip.fi_fl & FI_FRAG) || !(fil.fr_ip.fi_fl & FI_FRAG))) { (void)fprintf(stderr, "must use 'with frags' with 'keep frags'\n"); return NULL; } */ return &fil; } int to_interface(fdp, to) frdest_t *fdp; char *to; { int r = 0; char *s; s = strchr(to, ':'); fdp->fd_ifp = NULL; if (s) { *s++ = '\0'; fdp->fd_ip.s_addr = hostnum(s, &r); if (r == -1) return -1; } (void) strncpy(fdp->fd_ifname, to, sizeof(fdp->fd_ifname) - 1); fdp->fd_ifname[sizeof(fdp->fd_ifname) - 1] = '\0'; return 0; } void print_toif(tag, fdp) char *tag; frdest_t *fdp; { (void)printf("%s %s%s", tag, fdp->fd_ifname, (fdp->fd_ifp || (int)fdp->fd_ifp == -1) ? "" : "(!)"); if (fdp->fd_ip.s_addr) (void)printf(":%s", inet_ntoa(fdp->fd_ip)); putchar(' '); } /* * returns false if neither "hostmask/num" or "hostmask mask addr" are * found in the line segments */ int hostmask(seg, sa, msk, pp, cp, tp) char ***seg; u_long *sa, *msk; u_short *pp, *tp; u_char *cp; { char *s; int bits = -1, resolved; /* * is it possibly hostname/num ? */ if ((s = strchr(**seg, '/'))) { *s++ = '\0'; if (!isdigit(*s)) return -1; if (strchr(s, '.')) *msk = inet_addr(s); if (!strchr(s, '.') && !strchr(s, 'x')) { /* * set x most significant bits */ for (bits = atoi(s); bits; bits--) { *msk /= 2; *msk |= ntohl(inet_addr("128.0.0.0")); } *msk = htonl(*msk); } else { if (inet_aton(s, (struct in_addr *)msk) == -1) return -1; } *sa = hostnum(**seg, &resolved) & *msk; if (resolved == -1) return -1; (*seg)++; return ports(seg, pp, cp, tp); } /* * look for extra segments if "mask" found in right spot */ if (*(*seg+1) && *(*seg+2) && !strcasecmp(*(*seg+1), "mask")) { *sa = hostnum(**seg, &resolved); if (resolved == -1) return -1; (*seg)++; (*seg)++; if (inet_aton(**seg, (struct in_addr *)msk) == -1) return -1; (*seg)++; *sa &= *msk; return ports(seg, pp, cp, tp); } if (**seg) { *sa = hostnum(**seg, &resolved); if (resolved == -1) return -1; (*seg)++; *msk = (*sa ? inet_addr("255.255.255.255") : 0L); *sa &= *msk; return ports(seg, pp, cp, tp); } return -1; } /* * returns an ip address as a long var as a result of either a DNS lookup or * straight inet_addr() call */ u_long hostnum(host, resolved) char *host; int *resolved; { struct hostent *hp; struct netent *np; *resolved = 0; if (!strcasecmp("any",host)) return 0L; if (isdigit(*host)) return inet_addr(host); if (!strcasecmp("", host)) host = thishost; if (!(hp = gethostbyname(host))) { if (!(np = getnetbyname(host))) { *resolved = -1; fprintf(stderr, "can't resolve hostname: %s\n", host); return 0; } return np->n_net; } return *(u_long *)hp->h_addr; } /* * check for possible presence of the port fields in the line */ int ports(seg, pp, cp, tp) char ***seg; u_short *pp, *tp; u_char *cp; { int comp = -1; if (!*seg || !**seg || !***seg) return 0; if (!strcasecmp(**seg, "port") && *(*seg + 1) && *(*seg + 2)) { (*seg)++; if (isdigit(***seg) && *(*seg + 2)) { *pp = portnum(**seg); (*seg)++; if (!strcmp(**seg, "<>")) comp = FR_OUTRANGE; else if (!strcmp(**seg, "><")) comp = FR_INRANGE; (*seg)++; *tp = portnum(**seg); } else if (!strcmp(**seg, "=") || !strcasecmp(**seg, "eq")) comp = FR_EQUAL; else if (!strcmp(**seg, "!=") || !strcasecmp(**seg, "ne")) comp = FR_NEQUAL; else if (!strcmp(**seg, "<") || !strcasecmp(**seg, "lt")) comp = FR_LESST; else if (!strcmp(**seg, ">") || !strcasecmp(**seg, "gt")) comp = FR_GREATERT; else if (!strcmp(**seg, "<=") || !strcasecmp(**seg, "le")) comp = FR_LESSTE; else if (!strcmp(**seg, ">=") || !strcasecmp(**seg, "ge")) comp = FR_GREATERTE; else { (void)fprintf(stderr,"unknown comparator (%s)\n", **seg); return -1; } if (comp != FR_OUTRANGE && comp != FR_INRANGE) { (*seg)++; *pp = portnum(**seg); } *cp = comp; (*seg)++; } return 0; } /* * find the port number given by the name, either from getservbyname() or * straight atoi() */ u_short portnum(name) char *name; { struct servent *sp, *sp2; u_short p1 = 0; if (isdigit(*name)) return (u_short)atoi(name); if (!proto) proto = "tcp/udp"; if (strcasecmp(proto, "tcp/udp")) { sp = getservbyname(name, proto); if (sp) return ntohs(sp->s_port); (void) fprintf(stderr, "unknown service \"%s\".\n", name); return 0; } sp = getservbyname(name, "tcp"); if (sp) p1 = sp->s_port; sp2 = getservbyname(name, "udp"); if (!sp || !sp2) { (void) fprintf(stderr, "unknown tcp/udp service \"%s\".\n", name); return 0; } if (p1 != sp2->s_port) { (void) fprintf(stderr, "%s %d/tcp is a different port to ", name, p1); (void) fprintf(stderr, "%s %d/udp\n", name, sp->s_port); return 0; } return ntohs(p1); } u_char tcp_flags(flgs, mask) char *flgs; u_char *mask; { u_char tcpf = 0, tcpfm = 0, *fp = &tcpf; char *s, *t; for (s = flgs; *s; s++) { if (*s == '/' && fp == &tcpf) { fp = &tcpfm; continue; } if (!(t = strchr(flagset, *s))) { (void)fprintf(stderr, "unknown flag (%c)\n", *s); return 0; } *fp |= flags[t - flagset]; } if (!tcpfm) tcpfm = 0xff; *mask = tcpfm; return tcpf; } /* * deal with extra bits on end of the line */ int extras(cp, fr) char ***cp; struct frentry *fr; { u_short secmsk; u_long opts; int notopt; char oflags; opts = 0; secmsk = 0; notopt = 0; (*cp)++; if (!**cp) return -1; while (**cp && (!strncasecmp(**cp, "ipopt", 5) || !strncasecmp(**cp, "not", 3) || !strncasecmp(**cp, "opt", 4) || !strncasecmp(**cp, "frag", 3) || !strncasecmp(**cp, "no", 2) || !strncasecmp(**cp, "short", 5))) { if (***cp == 'n') { notopt = 1; (*cp)++; continue; } else if (***cp == 'i') { if (!notopt) fr->fr_ip.fi_fl |= FI_OPTIONS; fr->fr_mip.fi_fl |= FI_OPTIONS; goto nextopt; } else if (***cp == 'f') { if (!notopt) fr->fr_ip.fi_fl |= FI_FRAG; fr->fr_mip.fi_fl |= FI_FRAG; goto nextopt; } else if (***cp == 'o') { if (!*(*cp + 1)) { (void)fprintf(stderr, "opt missing arguements\n"); return -1; } (*cp)++; if (!(opts = optname(cp, &secmsk))) return -1; oflags = FI_OPTIONS; } else if (***cp == 's') { if (fr->fr_tcpf) { (void) fprintf(stderr, "short cannot be used with TCP flags\n"); return -1; } if (!notopt) fr->fr_ip.fi_fl |= FI_SHORT; fr->fr_mip.fi_fl |= FI_SHORT; goto nextopt; } else return -1; if (!notopt || !opts) fr->fr_mip.fi_fl |= oflags; if (notopt) if (!secmsk) fr->fr_mip.fi_optmsk |= opts; else fr->fr_mip.fi_optmsk |= (opts & ~0x0100); else fr->fr_mip.fi_optmsk |= opts; fr->fr_mip.fi_secmsk |= secmsk; if (notopt) { fr->fr_ip.fi_fl &= (~oflags & 0xf); fr->fr_ip.fi_optmsk &= ~opts; fr->fr_ip.fi_secmsk &= ~secmsk; } else { fr->fr_ip.fi_fl |= oflags; fr->fr_ip.fi_optmsk |= opts; fr->fr_ip.fi_secmsk |= secmsk; } nextopt: notopt = 0; opts = 0; oflags = 0; secmsk = 0; (*cp)++; } return 0; } u_long optname(cp, sp) char ***cp; u_short *sp; { struct ipopt_names *io, *so; u_long msk = 0; u_short smsk = 0; char *s; int sec = 0; for (s = strtok(**cp, ","); s; s = strtok(NULL, ",")) { for (io = ionames; io->on_name; io++) if (!strcasecmp(s, io->on_name)) { msk |= io->on_bit; break; } if (!io->on_name) { fprintf(stderr, "unknown IP option name %s\n", s); return 0; } if (!strcasecmp(s, "sec-class")) sec = 1; } if (sec && !*(*cp + 1)) { fprintf(stderr, "missing security level after sec-class\n"); return 0; } if (sec) { (*cp)++; for (s = strtok(**cp, ","); s; s = strtok(NULL, ",")) { for (so = secclass; so->on_name; so++) if (!strcasecmp(s, so->on_name)) { smsk |= so->on_bit; break; } if (!so->on_name) { fprintf(stderr, "no such security level: %s\n", s); return 0; } } if (smsk) *sp = smsk; } return msk; } void optprint(secmsk, secbits, optmsk, optbits) u_short secmsk, secbits; u_long optmsk, optbits; { struct ipopt_names *io, *so; char *s; int secflag = 0; s = " opt "; for (io = ionames; io->on_name; io++) if ((io->on_bit & optmsk) && ((io->on_bit & optmsk) == (io->on_bit & optbits))) { if ((io->on_value != IPOPT_SECURITY) || (!secmsk && !secbits)) { printf("%s%s", s, io->on_name); if (io->on_value == IPOPT_SECURITY) io++; s = ","; } else secflag = 1; } if (secmsk & secbits) { printf("%ssec-class", s); s = " "; for (so = secclass; so->on_name; so++) if ((secmsk & so->on_bit) && ((so->on_bit & secmsk) == (so->on_bit & secbits))) { printf("%s%s", s, so->on_name); s = ","; } } if ((optmsk && (optmsk != optbits)) || (secmsk && (secmsk != secbits))) { s = " "; printf(" not opt"); if (optmsk != optbits) { for (io = ionames; io->on_name; io++) if ((io->on_bit & optmsk) && ((io->on_bit & optmsk) != (io->on_bit & optbits))) { if ((io->on_value != IPOPT_SECURITY) || (!secmsk && !secbits)) { printf("%s%s", s, io->on_name); s = ","; } else io++; } } if (secmsk != secbits) { printf("%ssec-class", s); s = " "; for (so = secclass; so->on_name; so++) if ((so->on_bit & secmsk) && ((so->on_bit & secmsk) != (so->on_bit & secbits))) { printf("%s%s", s, so->on_name); s = ","; } } } } char *icmptypes[] = { "echorep", (char *)NULL, (char *)NULL, "unreach", "squench", "redir", (char *)NULL, (char *)NULL, "echo", (char *)NULL, (char *)NULL, "timex", "paramprob", "timest", "timestrep", "inforeq", "inforep", "maskreq", "maskrep", "END" }; /* * set the icmp field to the correct type if "icmp" word is found */ int addicmp(cp, fp) char ***cp; struct frentry *fp; { char **t; int i; (*cp)++; if (!**cp) return -1; if (!fp->fr_proto) /* to catch lusers */ fp->fr_proto = IPPROTO_ICMP; if (isdigit(***cp)) { i = atoi(**cp); (*cp)++; } else { for (t = icmptypes, i = 0; ; t++, i++) { if (!*t) continue; if (!strcasecmp("END", *t)) { i = -1; break; } if (!strcasecmp(*t, **cp)) break; } if (i == -1) return -1; } fp->fr_icmp = (u_short)(i << 8); fp->fr_icmpm = (u_short)0xff00; (*cp)++; if (!**cp) return 0; if (**cp && strcasecmp("code", **cp)) return 0; (*cp)++; if (isdigit(***cp)) { i = atoi(**cp); fp->fr_icmp |= (u_short)i; fp->fr_icmpm = (u_short)0xffff; (*cp)++; return 0; } return -1; } #define MAX_ICMPCODE 12 char *icmpcodes[] = { "net-unr", "host-unr", "proto-unr", "port-unr", "needfrag", "srcfail", "net-unk", "host-unk", "isolate", "net-prohib", "host-prohib", "net-tos", "host-tos", NULL }; /* * Return the number for the associated ICMP unreachable code. */ int icmpcode(str) char *str; { char *s; int i, len; if (!(s = strrchr(str, ')'))) return -1; *s = '\0'; if (isdigit(*str)) return atoi(str); len = strlen(str); for (i = 0; icmpcodes[i]; i++) if (!strncasecmp(str, icmpcodes[i], MIN(len, strlen(icmpcodes[i])) )) return i; return -1; } /* * set the icmp field to the correct type if "icmp" word is found */ int addkeep(cp, fp) char ***cp; struct frentry *fp; { if (fp->fr_proto != IPPROTO_TCP && fp->fr_proto != IPPROTO_UDP && fp->fr_proto != IPPROTO_ICMP && !(fp->fr_ip.fi_fl & FI_TCPUDP)) { (void)fprintf(stderr, "Can only use keep with UDP/ICMP/TCP\n"); return -1; } (*cp)++; if (**cp && strcasecmp(**cp, "state") && strcasecmp(**cp, "frags")) { (void)fprintf(stderr, "Unrecognised state keyword \"%s\"\n", **cp); return -1; } if (***cp == 's') fp->fr_flags |= FR_KEEPSTATE; else if (***cp == 'f') fp->fr_flags |= FR_KEEPFRAG; (*cp)++; return 0; } /* * count consecutive 1's in bit mask. If the mask generated by counting * consecutive 1's is different to that passed, return -1, else return # * of bits. */ int countbits(ip) u_long ip; { u_long ipn; int cnt = 0, i, j; ip = ipn = ntohl(ip); for (i = 32; i; i--, ipn *= 2) if (ipn & 0x80000000) cnt++; else break; ipn = 0; for (i = 32, j = cnt; i; i--, j--) { ipn *= 2; if (j > 0) ipn++; } if (ipn == ip) return cnt; return -1; } char *portname(pr, port) int pr, port; { static char buf[32]; struct protoent *p = NULL; struct servent *sv = NULL, *sv1 = NULL; if (pr == -1) { if ((sv = getservbyport(port, "tcp"))) { strncpy(buf, sv->s_name, sizeof(buf)-1); buf[sizeof(buf)-1] = '\0'; sv1 = getservbyport(port, "udp"); sv = strncasecmp(buf, sv->s_name, strlen(buf)) ? NULL : sv1; } if (sv) return buf; } else if (pr && (p = getprotobynumber(pr))) { if ((sv = getservbyport(port, p->p_name))) { strncpy(buf, sv->s_name, sizeof(buf)-1); buf[sizeof(buf)-1] = '\0'; return buf; } } (void) sprintf(buf, "%d", port); return buf; } /* * print the filter structure in a useful way */ void printfr(fp) struct frentry *fp; { static char *pcmp1[] = { "*", "=", "!=", "<", ">", "<=", ">=", "<>", "><"}; struct protoent *p; frdest_t *fdp; int ones = 0, pr; char *s; u_char *t; if (fp->fr_flags & FR_PASS) { (void)printf("pass"); } else if (fp->fr_flags & FR_BLOCK) { (void)printf("block"); if (fp->fr_flags & FR_RETICMP) { (void)printf(" return-icmp"); if (fp->fr_icode) if (fp->fr_icode <= MAX_ICMPCODE) printf("(%s)", icmpcodes[(int)fp->fr_icode]); else printf("(%d)", fp->fr_icode); } if (fp->fr_flags & FR_RETRST) (void)printf(" return-rst"); } else if ((fp->fr_flags & FR_LOGMASK) == FR_LOG) { (void)printf("log"); if (fp->fr_flags & FR_LOGBODY) (void)printf(" body"); if (fp->fr_flags & FR_LOGFIRST) (void)printf(" first"); } else if (fp->fr_flags & FR_ACCOUNT) (void)printf("count"); if (fp->fr_flags & FR_OUTQUE) (void)printf(" out "); else (void)printf(" in "); if (((fp->fr_flags & FR_LOGB) == FR_LOGB) || ((fp->fr_flags & FR_LOGP) == FR_LOGP)) { (void)printf("log "); if (fp->fr_flags & FR_LOGBODY) (void)printf("body "); if (fp->fr_flags & FR_LOGFIRST) (void)printf("first "); } if (fp->fr_flags & FR_QUICK) (void)printf("quick "); if (*fp->fr_ifname) { (void)printf("on %s%s ", fp->fr_ifname, (fp->fr_ifa || (int)fp->fr_ifa == -1) ? "" : "(!)"); if (*fp->fr_dif.fd_ifname) print_toif("dup-to", &fp->fr_dif); if (*fp->fr_tif.fd_ifname) print_toif("to", &fp->fr_tif); if (fp->fr_flags & FR_FASTROUTE) (void)printf("fastroute "); } if (fp->fr_mip.fi_tos) (void)printf("tos %#x ", fp->fr_tos); if (fp->fr_mip.fi_ttl) (void)printf("ttl %d ", fp->fr_ttl); if (fp->fr_ip.fi_fl & FI_TCPUDP) { (void)printf("proto tcp/udp "); pr = -1; } else if ((pr = fp->fr_mip.fi_p)) { if ((p = getprotobynumber(fp->fr_proto))) (void)printf("proto %s ", p->p_name); else (void)printf("proto %d ", fp->fr_proto); } if (!fp->fr_src.s_addr & !fp->fr_smsk.s_addr) (void)printf("from any "); else { (void)printf("from %s", inet_ntoa(fp->fr_src)); if ((ones = countbits(fp->fr_smsk.s_addr)) == -1) (void)printf("/%s ", inet_ntoa(fp->fr_smsk)); else (void)printf("/%d ", ones); } if (fp->fr_scmp) if (fp->fr_scmp == FR_INRANGE || fp->fr_scmp == FR_OUTRANGE) (void)printf("port %d %s %d ", fp->fr_sport, pcmp1[fp->fr_scmp], fp->fr_stop); else (void)printf("port %s %s ", pcmp1[fp->fr_scmp], portname(pr, fp->fr_sport)); if (!fp->fr_dst.s_addr & !fp->fr_dmsk.s_addr) (void)printf("to any"); else { (void)printf("to %s", inet_ntoa(fp->fr_dst)); if ((ones = countbits(fp->fr_dmsk.s_addr)) == -1) (void)printf("/%s", inet_ntoa(fp->fr_dmsk)); else (void)printf("/%d", ones); } if (fp->fr_dcmp) { if (fp->fr_dcmp == FR_INRANGE || fp->fr_dcmp == FR_OUTRANGE) (void)printf(" port %d %s %d", fp->fr_dport, pcmp1[fp->fr_dcmp], fp->fr_dtop); else (void)printf(" port %s %s", pcmp1[fp->fr_dcmp], portname(pr, fp->fr_dport)); } if ((fp->fr_ip.fi_fl & ~FI_TCPUDP) || (fp->fr_mip.fi_fl & ~FI_TCPUDP) || fp->fr_ip.fi_optmsk || fp->fr_mip.fi_optmsk || fp->fr_ip.fi_secmsk || fp->fr_mip.fi_secmsk) { (void)printf(" with"); if (fp->fr_ip.fi_optmsk || fp->fr_mip.fi_optmsk || fp->fr_ip.fi_secmsk || fp->fr_mip.fi_secmsk) optprint(fp->fr_mip.fi_secmsk, fp->fr_ip.fi_secmsk, fp->fr_mip.fi_optmsk, fp->fr_ip.fi_optmsk); else if (fp->fr_mip.fi_fl & FI_OPTIONS) { if (!(fp->fr_ip.fi_fl & FI_OPTIONS)) (void)printf(" not"); (void)printf(" ipopt"); } if (fp->fr_mip.fi_fl & FI_SHORT) { if (!(fp->fr_ip.fi_fl & FI_SHORT)) (void)printf(" not"); (void)printf(" short"); } if (fp->fr_mip.fi_fl & FI_FRAG) { if (!(fp->fr_ip.fi_fl & FI_FRAG)) (void)printf(" not"); (void)printf(" frag"); } } if (fp->fr_proto == IPPROTO_ICMP && fp->fr_icmpm) { int type = fp->fr_icmp, code; type = ntohs(fp->fr_icmp); code = type & 0xff; type /= 256; if (type < (sizeof(icmptypes) / sizeof(char *)) && icmptypes[type]) (void)printf(" icmp-type %s", icmptypes[type]); else (void)printf(" icmp-type %d", type); if (code) (void)printf(" code %d", code); } if (fp->fr_proto == IPPROTO_TCP && (fp->fr_tcpf || fp->fr_tcpfm)) { (void)printf(" flags "); for (s = flagset, t = flags; *s; s++, t++) if (fp->fr_tcpf & *t) (void)putchar(*s); if (fp->fr_tcpfm) { (void)putchar('/'); for (s = flagset, t = flags; *s; s++, t++) if (fp->fr_tcpfm & *t) (void)putchar(*s); } } if (fp->fr_flags & FR_KEEPSTATE) printf(" keep state"); if (fp->fr_flags & FR_KEEPFRAG) printf(" keep frags"); (void)putchar('\n'); } void binprint(fp) struct frentry *fp; { int i = sizeof(*fp), j = 0; u_char *s; for (s = (u_char *)fp; i; i--, s++) { j++; (void)printf("%02x ",*s); if (j == 16) { (void)printf("\n"); j = 0; } } putchar('\n'); (void)fflush(stdout); }