/* $NetBSD: ipnat.c,v 1.1.1.1 1999/12/11 22:23:59 veego Exp $ */ /* * Copyright (C) 1993-1998 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. * * Added redirect stuff and a variety of bug fixes. (mcn@EnGarde.com) */ #include #include #include #include #include #if !defined(__SVR4) && !defined(__svr4__) #include #else #include #endif #include #include #include #include #include #include #include #if defined(sun) && (defined(__svr4__) || defined(__SVR4)) # include # include #endif #include #include #include #include #include #if __FreeBSD_version >= 300000 # include #endif #include #include #include #include #include #include "netinet/ip_compat.h" #include "netinet/ip_fil.h" #include "netinet/ip_proxy.h" #include "netinet/ip_nat.h" #include "kmem.h" #if defined(sun) && !SOLARIS2 # define STRERROR(x) sys_errlist[x] extern char *sys_errlist[]; #else # define STRERROR(x) strerror(x) #endif #if !defined(lint) static const char sccsid[] ="@(#)ipnat.c 1.9 6/5/96 (C) 1993 Darren Reed"; static const char rcsid[] = "@(#)Id: ipnat.c,v 2.1.2.2 1999/12/04 02:09:30 darrenr Exp"; #endif #if SOLARIS #define bzero(a,b) memset(a,0,b) #endif extern char *optarg; extern ipnat_t *natparse __P((char *, int)); extern void natparsefile __P((int, char *, int)); extern void printnat __P((ipnat_t *, int, void *)); u_32_t hostnum __P((char *, int *, int)); u_32_t hostmask __P((char *)); void dostats __P((int, int)), flushtable __P((int, int)); void usage __P((char *)); int countbits __P((u_32_t)); char *getnattype __P((ipnat_t *)); int main __P((int, char*[])); void printaps __P((ap_session_t *, int)); char *getsumd __P((u_32_t)); #define OPT_REM 1 #define OPT_NODO 2 #define OPT_STAT 4 #define OPT_LIST 8 #define OPT_VERBOSE 16 #define OPT_FLUSH 32 #define OPT_CLEAR 64 #define OPT_HITS 128 void usage(name) char *name; { fprintf(stderr, "%s: [-CFhlnrsv] [-f filename]\n", name); exit(1); } char *getsumd(sum) u_32_t sum; { static char sumdbuf[17]; if (sum & NAT_HW_CKSUM) sprintf(sumdbuf, "hw(%#0x)", sum & 0xffff); else sprintf(sumdbuf, "%#0x", sum); return sumdbuf; } int main(argc, argv) int argc; char *argv[]; { char *file = NULL; int fd = -1, opts = 0, c; while ((c = getopt(argc, argv, "CFf:hlnrsv")) != -1) switch (c) { case 'C' : opts |= OPT_CLEAR; break; case 'f' : file = optarg; break; case 'F' : opts |= OPT_FLUSH; break; case 'h' : opts |=OPT_HITS; break; case 'l' : opts |= OPT_LIST; break; case 'n' : opts |= OPT_NODO; break; case 'r' : opts |= OPT_REM; break; case 's' : opts |= OPT_STAT; break; case 'v' : opts |= OPT_VERBOSE; break; default : usage(argv[0]); } if (!(opts & OPT_NODO) && ((fd = open(IPL_NAT, O_RDWR)) == -1) && ((fd = open(IPL_NAT, O_RDONLY)) == -1)) { (void) fprintf(stderr, "%s: open: %s\n", IPL_NAT, STRERROR(errno)); exit(-1); } if (opts & (OPT_FLUSH|OPT_CLEAR)) flushtable(fd, opts); if (file) natparsefile(fd, file, opts); if (opts & (OPT_LIST|OPT_STAT)) dostats(fd, opts); 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_32_t ip; { u_32_t 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; } void printaps(aps, opts) ap_session_t *aps; int opts; { ap_session_t ap; aproxy_t apr; raudio_t ra; if (kmemcpy((char *)&ap, (long)aps, sizeof(ap))) return; if (kmemcpy((char *)&apr, (long)ap.aps_apr, sizeof(apr))) return; printf("\tproxy %s/%d use %d flags %x\n", apr.apr_label, apr.apr_p, apr.apr_ref, apr.apr_flags); printf("\t\tproto %d flags %#x bytes ", ap.aps_p, ap.aps_flags); #ifdef USE_QUAD_T printf("%qu pkts %qu", ap.aps_bytes, ap.aps_pkts); #else printf("%lu pkts %lu", ap.aps_bytes, ap.aps_pkts); #endif printf(" data %p psiz %d\n", ap.aps_data, ap.aps_psiz); if ((ap.aps_p == IPPROTO_TCP) && (opts & OPT_VERBOSE)) { printf("\t\tstate[%u,%u], sel[%d,%d]\n", ap.aps_state[0], ap.aps_state[1], ap.aps_sel[0], ap.aps_sel[1]); #if (defined(NetBSD) && (NetBSD >= 199905) && (NetBSD < 1991011)) || \ (__FreeBSD_version >= 300000) || defined(OpenBSD) printf("\t\tseq: off %hd/%hd min %x/%x\n", ap.aps_seqoff[0], ap.aps_seqoff[1], ap.aps_seqmin[0], ap.aps_seqmin[1]); printf("\t\tack: off %hd/%hd min %x/%x\n", ap.aps_ackoff[0], ap.aps_ackoff[1], ap.aps_ackmin[0], ap.aps_ackmin[1]); #else printf("\t\tseq: off %hd/%hd min %lx/%lx\n", ap.aps_seqoff[0], ap.aps_seqoff[1], ap.aps_seqmin[0], ap.aps_seqmin[1]); printf("\t\tack: off %hd/%hd min %lx/%lx\n", ap.aps_ackoff[0], ap.aps_ackoff[1], ap.aps_ackmin[0], ap.aps_ackmin[1]); #endif } if (!strcmp(apr.apr_label, "raudio") && ap.aps_psiz == sizeof(ra)) { if (kmemcpy((char *)&ra, (long)ap.aps_data, sizeof(ra))) return; printf("\tReal Audio Proxy:\n"); printf("\t\tSeen PNA: %d\tVersion: %d\tEOS: %d\n", ra.rap_seenpna, ra.rap_version, ra.rap_eos); printf("\t\tMode: %#x\tSBF: %#x\n", ra.rap_mode, ra.rap_sbf); printf("\t\tPorts:pl %hu, pr %hu, sr %hu\n", ra.rap_plport, ra.rap_prport, ra.rap_srport); } } /* * Get a nat filter type given its kernel address. */ char *getnattype(ipnat) ipnat_t *ipnat; { char *which; ipnat_t ipnatbuff; if (!ipnat || (ipnat && kmemcpy((char *)&ipnatbuff, (long)ipnat, sizeof(ipnatbuff)))) return "???"; switch (ipnatbuff.in_redir) { case NAT_MAP : which = "MAP"; break; case NAT_MAPBLK : which = "MAP-BLOCK"; break; case NAT_REDIRECT : which = "RDR"; break; case NAT_BIMAP : which = "BIMAP"; break; default : which = "unknown"; break; } return which; } void dostats(fd, opts) int fd, opts; { natstat_t ns; ipnat_t ipn; nat_t **nt[2], *np, nat; int i = 0; bzero((char *)&ns, sizeof(ns)); if (!(opts & OPT_NODO) && ioctl(fd, SIOCGNATS, &ns) == -1) { perror("ioctl(SIOCGNATS)"); return; } if (opts & OPT_STAT) { printf("mapped\tin\t%lu\tout\t%lu\n", ns.ns_mapped[0], ns.ns_mapped[1]); printf("added\t%lu\texpired\t%lu\n", ns.ns_added, ns.ns_expire); printf("inuse\t%lu\nrules\t%lu\n", ns.ns_inuse, ns.ns_rules); if (opts & OPT_VERBOSE) printf("table %p list %p\n", ns.ns_table, ns.ns_list); } if (opts & OPT_LIST) { printf("List of active MAP/Redirect filters:\n"); while (ns.ns_list) { if (kmemcpy((char *)&ipn, (long)ns.ns_list, sizeof(ipn))) { perror("kmemcpy"); break; } if (opts & OPT_HITS) printf("%d ", ipn.in_hits); printnat(&ipn, opts & OPT_VERBOSE, (void *)ns.ns_list); ns.ns_list = ipn.in_next; } nt[0] = (nat_t **)malloc(sizeof(*nt) * NAT_SIZE); if (kmemcpy((char *)nt[0], (long)ns.ns_table[0], sizeof(**nt) * NAT_SIZE)) { perror("kmemcpy"); return; } printf("\nList of active sessions:\n"); for (np = ns.ns_instances; np; np = nat.nat_next) { if (kmemcpy((char *)&nat, (long)np, sizeof(nat))) break; printf("%s %-15s %-5hu <- ->", getnattype(nat.nat_ptr), inet_ntoa(nat.nat_inip), ntohs(nat.nat_inport)); printf(" %-15s %-5hu", inet_ntoa(nat.nat_outip), ntohs(nat.nat_outport)); printf(" [%s %hu]", inet_ntoa(nat.nat_oip), ntohs(nat.nat_oport)); if (opts & OPT_VERBOSE) { printf("\n\tage %lu use %hu sumd %s/", nat.nat_age, nat.nat_use, getsumd(nat.nat_sumd[0])); printf("%s pr %u bkt %d flags %x ", getsumd(nat.nat_sumd[1]), nat.nat_p, i, nat.nat_flags); #ifdef USE_QUAD_T printf("bytes %qu pkts %qu", nat.nat_bytes, nat.nat_pkts); #else printf("bytes %lu pkts %lu", nat.nat_bytes, nat.nat_pkts); #endif #if SOLARIS printf(" %lx", nat.nat_ipsumd); #endif } putchar('\n'); if (nat.nat_aps) printaps(nat.nat_aps, opts); } free(nt[0]); } } u_32_t hostmask(msk) char *msk; { int bits = -1; u_32_t mask; if (!isdigit(*msk)) return (u_32_t)-1; if (strchr(msk, '.')) return inet_addr(msk); if (strchr(msk, 'x')) return (u_32_t)strtol(msk, NULL, 0); /* * set x most significant bits */ for (mask = 0, bits = atoi(msk); bits; bits--) { mask /= 2; mask |= ntohl(inet_addr("128.0.0.0")); } mask = htonl(mask); return mask; } /* * returns an ip address as a long var as a result of either a DNS lookup or * straight inet_addr() call */ u_32_t hostnum(host, resolved, linenum) char *host; int *resolved; int linenum; { struct hostent *hp; struct netent *np; *resolved = 0; if (!strcasecmp("any", host)) return 0L; if (isdigit(*host)) return inet_addr(host); if (!(hp = gethostbyname(host))) { if (!(np = getnetbyname(host))) { *resolved = -1; fprintf(stderr, "Line %d: can't resolve hostname: %s\n", linenum, host); return 0; } return htonl(np->n_net); } return *(u_32_t *)hp->h_addr; } void flushtable(fd, opts) int fd, opts; { int n = 0; if (opts & OPT_FLUSH) { n = 0; if (!(opts & OPT_NODO) && ioctl(fd, SIOCFLNAT, &n) == -1) perror("ioctl(SIOCFLNAT)"); else printf("%d entries flushed from NAT table\n", n); } if (opts & OPT_CLEAR) { n = 0; if (!(opts & OPT_NODO) && ioctl(fd, SIOCCNATL, &n) == -1) perror("ioctl(SIOCCNATL)"); else printf("%d entries flushed from NAT list\n", n); } }