/* * Copyright (C) 1993-2001, 2003 by Darren Reed. * * See the IPFILTER.LICENCE file for details on licencing. * * Copyright 2008 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #if !defined(lint) static const char sccsid[] = "@(#)ip_fil.c 2.41 6/5/96 (C) 1993-2000 Darren Reed"; static const char rcsid[] = "@(#)$Id: ip_fil.c,v 2.133.2.9 2005/01/08 14:22:18 darrenr Exp $"; #endif #ifndef SOLARIS #define SOLARIS (defined(sun) && (defined(__svr4__) || defined(__SVR4))) #endif #include #if defined(__FreeBSD__) && !defined(__FreeBSD_version) # if defined(IPFILTER_LKM) # ifndef __FreeBSD_cc_version # include # else # if __FreeBSD_cc_version < 430000 # include # endif # endif # endif #endif #include #if defined(__hpux) && (HPUXREV >= 1111) && !defined(_KERNEL) # include #endif #include #define _KERNEL #define KERNEL #ifdef __OpenBSD__ struct file; #endif #include #undef _KERNEL #undef KERNEL #include #include #ifdef __sgi # include #endif #include #if !SOLARIS # if (NetBSD > 199609) || (OpenBSD > 199603) || (__FreeBSD_version >= 300000) # include # else # include # endif #else # include #endif #ifndef linux # include #endif #include #include #include #include #include #include #include #include #ifdef __hpux # define _NET_ROUTE_INCLUDED #endif #include #ifdef sun # include #endif #if __FreeBSD_version >= 300000 # include #endif #ifdef __sgi #include # ifdef IFF_DRVRLOCK /* IRIX6 */ #include # endif #endif #if defined(__FreeBSD__) # include "radix_ipf.h" #endif #include #include #if !(defined(__sgi) && !defined(IFF_DRVRLOCK)) /* IRIX < 6 */ && \ !defined(__hpux) && !defined(linux) # include #endif #include #include #if !defined(linux) # include #endif #include #if defined(__osf__) # include #endif #if defined(__osf__) || defined(__hpux) || defined(__sgi) # include "radix_ipf_local.h" # define _RADIX_H_ #endif #include #include #include #include #include #ifdef __hpux # undef _NET_ROUTE_INCLUDED #endif #include "netinet/ip_compat.h" #include "netinet/ip_fil.h" #include "netinet/ip_nat.h" #include "netinet/ip_frag.h" #include "netinet/ip_state.h" #include "netinet/ip_proxy.h" #include "netinet/ip_auth.h" #ifdef IPFILTER_SYNC #include "netinet/ip_sync.h" #endif #ifdef IPFILTER_SCAN #include "netinet/ip_scan.h" #endif #include "netinet/ip_pool.h" #ifdef IPFILTER_COMPILED # include "netinet/ip_rules.h" #endif #include "netinet/ipf_stack.h" #if defined(__FreeBSD_version) && (__FreeBSD_version >= 300000) # include #endif #ifdef __hpux struct rtentry; #endif #include "md5.h" #if !defined(__osf__) extern struct protosw inetsw[]; #endif #include "ipt.h" static struct ifnet **ifneta = NULL; static int nifs = 0; static int frzerostats __P((caddr_t, ipf_stack_t *ifs)); static void fr_setifpaddr __P((struct ifnet *, char *)); void init_ifp __P((void)); #if defined(__sgi) && (IRIX < 60500) static int no_output __P((struct ifnet *, struct mbuf *, struct sockaddr *)); static int write_output __P((struct ifnet *, struct mbuf *, struct sockaddr *)); #else # if TRU64 >= 1885 static int no_output __P((struct ifnet *, struct mbuf *, struct sockaddr *, struct rtentry *, char *)); static int write_output __P((struct ifnet *, struct mbuf *, struct sockaddr *, struct rtentry *, char *)); # else static int no_output __P((struct ifnet *, struct mbuf *, struct sockaddr *, struct rtentry *)); static int write_output __P((struct ifnet *, struct mbuf *, struct sockaddr *, struct rtentry *)); # endif #endif int iplattach(ifs) ipf_stack_t *ifs; { ifs->ifs_fr_running = 1; return 0; } int ipldetach(ifs) ipf_stack_t *ifs; { ifs->ifs_fr_running = -1; return 0; } static int frzerostats(data, ifs) caddr_t data; ipf_stack_t *ifs; { friostat_t fio; int error; fr_getstat(&fio, ifs); error = copyoutptr(&fio, data, sizeof(fio)); if (error) return EFAULT; bzero((char *)ifs->ifs_frstats, sizeof(*ifs->ifs_frstats) * 2); return 0; } /* * Filter ioctl interface. */ int iplioctl(dev, cmd, data, mode) int dev; ioctlcmd_t cmd; caddr_t data; int mode; { int error = 0, unit = 0, tmp, uid; friostat_t fio; ipf_stack_t *ifs; extern ipf_stack_t *get_ifs(); unit = dev; uid = getuid(); ifs = get_ifs(); SPL_NET(s); if (unit == IPL_LOGNAT) { if (ifs->ifs_fr_running > 0) error = fr_nat_ioctl(data, cmd, mode, uid, NULL, ifs); else error = EIO; SPL_X(s); return error; } if (unit == IPL_LOGSTATE) { if (ifs->ifs_fr_running > 0) error = fr_state_ioctl(data, cmd, mode, uid, NULL, ifs); else error = EIO; SPL_X(s); return error; } if (unit == IPL_LOGAUTH) { if (ifs->ifs_fr_running > 0) { if ((cmd == (ioctlcmd_t)SIOCADAFR) || (cmd == (ioctlcmd_t)SIOCRMAFR)) { if (!(mode & FWRITE)) { error = EPERM; } else { error = frrequest(unit, cmd, data, ifs->ifs_fr_active, 1, ifs); } } else { error = fr_auth_ioctl(data, mode, cmd, uid, NULL, ifs); } } else error = EIO; SPL_X(s); return error; } if (unit == IPL_LOGSYNC) { #ifdef IPFILTER_SYNC if (ifs->ifs_fr_running > 0) error = fr_sync_ioctl(data, cmd, mode); else #endif error = EIO; SPL_X(s); return error; } if (unit == IPL_LOGSCAN) { #ifdef IPFILTER_SCAN if (ifs->ifs_fr_running > 0) error = fr_scan_ioctl(data, cmd, mode); else #endif error = EIO; SPL_X(s); return error; } if (unit == IPL_LOGLOOKUP) { if (ifs->ifs_fr_running > 0) error = ip_lookup_ioctl(data, cmd, mode, uid, NULL, ifs); else error = EIO; SPL_X(s); return error; } switch (cmd) { case FIONREAD : #ifdef IPFILTER_LOG error = COPYOUT(&ifs->ifs_iplused[IPL_LOGIPF], (caddr_t)data, sizeof(ifs->ifs_iplused[IPL_LOGIPF])); #endif break; case SIOCFRENB : if (!(mode & FWRITE)) error = EPERM; else { error = COPYIN(data, &tmp, sizeof(tmp)); if (error) break; if (tmp) error = iplattach(ifs); else error = ipldetach(ifs); } break; case SIOCIPFSET : if (!(mode & FWRITE)) { error = EPERM; break; } case SIOCIPFGETNEXT : case SIOCIPFGET : error = fr_ipftune(cmd, (void *)data, ifs); break; case SIOCSETFF : if (!(mode & FWRITE)) error = EPERM; else error = COPYIN(data, &ifs->ifs_fr_flags, sizeof(ifs->ifs_fr_flags)); break; case SIOCGETFF : error = COPYOUT(&ifs->ifs_fr_flags, data, sizeof(ifs->ifs_fr_flags)); break; case SIOCFUNCL : error = fr_resolvefunc(data); break; case SIOCINAFR : case SIOCRMAFR : case SIOCADAFR : case SIOCZRLST : if (!(mode & FWRITE)) error = EPERM; else error = frrequest(unit, cmd, data, ifs->ifs_fr_active, 1, ifs); break; case SIOCINIFR : case SIOCRMIFR : case SIOCADIFR : if (!(mode & FWRITE)) error = EPERM; else error = frrequest(unit, cmd, data, 1 - ifs->ifs_fr_active, 1, ifs); break; case SIOCSWAPA : if (!(mode & FWRITE)) error = EPERM; else { *(u_int *)data = ifs->ifs_fr_active; ifs->ifs_fr_active = 1 - ifs->ifs_fr_active; } break; case SIOCGETFS : fr_getstat(&fio, ifs); error = fr_outobj(data, &fio, IPFOBJ_IPFSTAT); break; case SIOCFRZST : if (!(mode & FWRITE)) error = EPERM; else error = frzerostats(data, ifs); break; case SIOCIPFFL : if (!(mode & FWRITE)) error = EPERM; else { error = COPYIN(data, &tmp, sizeof(tmp)); if (!error) { tmp = frflush(unit, 4, tmp, ifs); error = COPYOUT(&tmp, data, sizeof(tmp)); } } break; #ifdef USE_INET6 case SIOCIPFL6 : if (!(mode & FWRITE)) error = EPERM; else { error = COPYIN(data, &tmp, sizeof(tmp)); if (!error) { tmp = frflush(unit, 6, tmp, ifs); error = COPYOUT(&tmp, data, sizeof(tmp)); } } break; #endif case SIOCSTLCK : error = COPYIN(data, &tmp, sizeof(tmp)); if (error == 0) { ifs->ifs_fr_state_lock = tmp; ifs->ifs_fr_nat_lock = tmp; ifs->ifs_fr_frag_lock = tmp; ifs->ifs_fr_auth_lock = tmp; } else error = EFAULT; break; #ifdef IPFILTER_LOG case SIOCIPFFB : if (!(mode & FWRITE)) error = EPERM; else *(int *)data = ipflog_clear(unit, ifs); break; #endif /* IPFILTER_LOG */ case SIOCGFRST : error = fr_outobj(data, fr_fragstats(ifs), IPFOBJ_FRAGSTAT); break; case SIOCFRSYN : if (!(mode & FWRITE)) error = EPERM; else { frsync(IPFSYNC_RESYNC, IPFSYNC_RESYNC, NULL, NULL, ifs); } break; default : error = EINVAL; break; } SPL_X(s); return error; } void fr_forgetifp(ifp, ifs) void *ifp; ipf_stack_t *ifs; { register frentry_t *f; WRITE_ENTER(&ifs->ifs_ipf_mutex); for (f = ifs->ifs_ipacct[0][ifs->ifs_fr_active]; (f != NULL); f = f->fr_next) if (f->fr_ifa == ifp) f->fr_ifa = (void *)-1; for (f = ifs->ifs_ipacct[1][ifs->ifs_fr_active]; (f != NULL); f = f->fr_next) if (f->fr_ifa == ifp) f->fr_ifa = (void *)-1; for (f = ifs->ifs_ipfilter[0][ifs->ifs_fr_active]; (f != NULL); f = f->fr_next) if (f->fr_ifa == ifp) f->fr_ifa = (void *)-1; for (f = ifs->ifs_ipfilter[1][ifs->ifs_fr_active]; (f != NULL); f = f->fr_next) if (f->fr_ifa == ifp) f->fr_ifa = (void *)-1; #ifdef USE_INET6 for (f = ifs->ifs_ipacct6[0][ifs->ifs_fr_active]; (f != NULL); f = f->fr_next) if (f->fr_ifa == ifp) f->fr_ifa = (void *)-1; for (f = ifs->ifs_ipacct6[1][ifs->ifs_fr_active]; (f != NULL); f = f->fr_next) if (f->fr_ifa == ifp) f->fr_ifa = (void *)-1; for (f = ifs->ifs_ipfilter6[0][ifs->ifs_fr_active]; (f != NULL); f = f->fr_next) if (f->fr_ifa == ifp) f->fr_ifa = (void *)-1; for (f = ifs->ifs_ipfilter6[1][ifs->ifs_fr_active]; (f != NULL); f = f->fr_next) if (f->fr_ifa == ifp) f->fr_ifa = (void *)-1; #endif RWLOCK_EXIT(&ifs->ifs_ipf_mutex); fr_natifpsync(IPFSYNC_OLDIFP, 4, ifp, NULL, ifs); fr_natifpsync(IPFSYNC_OLDIFP, 6, ifp, NULL, ifs); } void fr_resolvedest(fdp, v, ifs) frdest_t *fdp; int v; ipf_stack_t *ifs; { fdp->fd_ifp = NULL; if (*fdp->fd_ifname) { fdp->fd_ifp = GETIFP(fdp->fd_ifname, v, ifs); if (!fdp->fd_ifp) fdp->fd_ifp = (struct ifnet *)-1; } } #if defined(__sgi) && (IRIX < 60500) static int no_output(ifp, m, s) #else # if TRU64 >= 1885 static int no_output (ifp, m, s, rt, cp) char *cp; # else static int no_output(ifp, m, s, rt) # endif struct rtentry *rt; #endif struct ifnet *ifp; struct mbuf *m; struct sockaddr *s; { return 0; } #if defined(__sgi) && (IRIX < 60500) static int write_output(ifp, m, s) #else # if TRU64 >= 1885 static int write_output (ifp, m, s, rt, cp) char *cp; # else static int write_output(ifp, m, s, rt) # endif struct rtentry *rt; #endif struct ifnet *ifp; struct mbuf *m; struct sockaddr *s; { char fname[32]; mb_t *mb; ip_t *ip; int fd; mb = (mb_t *)m; ip = MTOD(mb, ip_t *); #if (defined(NetBSD) && (NetBSD <= 1991011) && (NetBSD >= 199606)) || \ (defined(OpenBSD) && (OpenBSD >= 199603)) || defined(linux) || \ (defined(__FreeBSD__) && (__FreeBSD_version >= 501113)) sprintf(fname, "/tmp/%s", ifp->if_xname); #else sprintf(fname, "/tmp/%s%d", ifp->if_name, ifp->if_unit); #endif fd = open(fname, O_WRONLY|O_APPEND); if (fd == -1) { perror("open"); return -1; } write(fd, (char *)ip, ntohs(ip->ip_len)); close(fd); return 0; } static void fr_setifpaddr(ifp, addr) struct ifnet *ifp; char *addr; { #ifdef __sgi struct in_ifaddr *ifa; #else struct ifaddr *ifa; #endif #if defined(__NetBSD__) || defined(__OpenBSD__) || defined(__FreeBSD__) if (ifp->if_addrlist.tqh_first != NULL) #else # ifdef __sgi if (ifp->in_ifaddr != NULL) # else if (ifp->if_addrlist != NULL) # endif #endif return; ifa = (struct ifaddr *)malloc(sizeof(*ifa)); #if defined(__NetBSD__) || defined(__OpenBSD__) || defined(__FreeBSD__) ifp->if_addrlist.tqh_first = ifa; #else # ifdef __sgi ifp->in_ifaddr = ifa; # else ifp->if_addrlist = ifa; # endif #endif if (ifa != NULL) { struct sockaddr_in *sin; #ifdef __sgi sin = (struct sockaddr_in *)&ifa->ia_addr; #else sin = (struct sockaddr_in *)&ifa->ifa_addr; #endif sin->sin_addr.s_addr = inet_addr(addr); if (sin->sin_addr.s_addr == 0) abort(); } } /*ARGSUSED*/ struct ifnet *get_unit(name, v, ifs) char *name; int v; ipf_stack_t *ifs; { struct ifnet *ifp, **ifpp, **old_ifneta; char *addr; #if (defined(NetBSD) && (NetBSD <= 1991011) && (NetBSD >= 199606)) || \ (defined(OpenBSD) && (OpenBSD >= 199603)) || defined(linux) || \ (defined(__FreeBSD__) && (__FreeBSD_version >= 501113)) if (name == NULL) name = "anon0"; addr = strchr(name, '='); if (addr != NULL) *addr++ = '\0'; for (ifpp = ifneta; ifpp && (ifp = *ifpp); ifpp++) { if (!strcmp(name, ifp->if_xname)) { if (addr != NULL) fr_setifpaddr(ifp, addr); return ifp; } } #else char *s, ifname[LIFNAMSIZ+1]; if (name == NULL) name = "anon0"; addr = strchr(name, '='); if (addr != NULL) *addr++ = '\0'; for (ifpp = ifneta; ifpp && (ifp = *ifpp); ifpp++) { COPYIFNAME(ifp, ifname, 0); if (!strcmp(name, ifname)) { if (addr != NULL) fr_setifpaddr(ifp, addr); return ifp; } } #endif if (!ifneta) { ifneta = (struct ifnet **)malloc(sizeof(ifp) * 2); if (!ifneta) return NULL; ifneta[1] = NULL; ifneta[0] = (struct ifnet *)calloc(1, sizeof(*ifp)); if (!ifneta[0]) { free(ifneta); return NULL; } nifs = 1; } else { old_ifneta = ifneta; nifs++; ifneta = (struct ifnet **)realloc(ifneta, (nifs + 1) * sizeof(ifp)); if (!ifneta) { free(old_ifneta); nifs = 0; return NULL; } ifneta[nifs] = NULL; ifneta[nifs - 1] = (struct ifnet *)malloc(sizeof(*ifp)); if (!ifneta[nifs - 1]) { nifs--; return NULL; } } ifp = ifneta[nifs - 1]; #if (defined(NetBSD) && (NetBSD <= 1991011) && (NetBSD >= 199606)) || \ (defined(OpenBSD) && (OpenBSD >= 199603)) || defined(linux) || \ (defined(__FreeBSD__) && (__FreeBSD_version >= 501113)) (void) strncpy(ifp->if_xname, name, sizeof(ifp->if_xname)); #else for (s = name; *s && !ISDIGIT(*s); s++) ; if (*s && ISDIGIT(*s)) { ifp->if_unit = atoi(s); ifp->if_name = (char *)malloc(s - name + 1); if (ifp->if_name == NULL) { /* * XXX do it more elegantly: free up mem, * return NULL */ perror("malloc"); exit(1); } (void) strncpy(ifp->if_name, name, s - name); ifp->if_name[s - name] = '\0'; } else { ifp->if_name = strdup(name); ifp->if_unit = -1; } #endif ifp->if_output = no_output; if (addr != NULL) { fr_setifpaddr(ifp, addr); } return ifp; } char *get_ifname(ifp) struct ifnet *ifp; { static char ifname[LIFNAMSIZ]; #if defined(__OpenBSD__) || defined(__NetBSD__) || defined(linux) || \ (defined(__FreeBSD__) && (__FreeBSD_version >= 501113)) sprintf(ifname, "%s", ifp->if_xname); #else sprintf(ifname, "%s%d", ifp->if_name, ifp->if_unit); #endif return ifname; } void init_ifp() { struct ifnet *ifp, **ifpp; char fname[32]; int fd; #if (defined(NetBSD) && (NetBSD <= 1991011) && (NetBSD >= 199606)) || \ (defined(OpenBSD) && (OpenBSD >= 199603)) || defined(linux) || \ (defined(__FreeBSD__) && (__FreeBSD_version >= 501113)) for (ifpp = ifneta; ifpp && (ifp = *ifpp); ifpp++) { ifp->if_output = write_output; sprintf(fname, "/tmp/%s", ifp->if_xname); fd = open(fname, O_WRONLY|O_CREAT|O_EXCL|O_TRUNC, 0600); if (fd == -1) perror("open"); else close(fd); } #else for (ifpp = ifneta; ifpp && (ifp = *ifpp); ifpp++) { ifp->if_output = write_output; sprintf(fname, "/tmp/%s%d", ifp->if_name, ifp->if_unit); fd = open(fname, O_WRONLY|O_CREAT|O_EXCL|O_TRUNC, 0600); if (fd == -1) perror("open"); else close(fd); } #endif } int fr_fastroute(m, mpp, fin, fdp) mb_t *m, **mpp; fr_info_t *fin; frdest_t *fdp; { struct ifnet *ifp = fdp->fd_ifp; ip_t *ip = fin->fin_ip; if (!ifp) return 0; /* no routing table out here */ ip->ip_len = htons((u_short)ip->ip_len); ip->ip_off = htons((u_short)(ip->ip_off | IP_MF)); ip->ip_sum = 0; #if defined(__sgi) && (IRIX < 60500) (*ifp->if_output)(ifp, (void *)ip, NULL); # if TRU64 >= 1885 (*ifp->if_output)(ifp, (void *)m, NULL, 0, 0); # else (*ifp->if_output)(ifp, (void *)m, NULL, 0); # endif #endif return 0; } int fr_send_reset(fin) fr_info_t *fin; { verbose("- TCP RST sent\n"); return 0; } int fr_send_icmp_err(type, fin, dst) int type; fr_info_t *fin; int dst; { verbose("- ICMP unreachable sent\n"); return 0; } void frsync(command, version, nic, data, ifs) int command, version; void *nic; char *data; ipf_stack_t *ifs; { return; } void m_freem(m) mb_t *m; { return; } void m_copydata(m, off, len, cp) mb_t *m; int off, len; caddr_t cp; { bcopy((char *)m + off, cp, len); } int ipfuiomove(buf, len, rwflag, uio) caddr_t buf; int len, rwflag; struct uio *uio; { int left, ioc, num, offset; struct iovec *io; char *start; if (rwflag == UIO_READ) { left = len; ioc = 0; offset = uio->uio_offset; while ((left > 0) && (ioc < uio->uio_iovcnt)) { io = uio->uio_iov + ioc; num = io->iov_len; if (num > left) num = left; start = (char *)io->iov_base + offset; if (start > (char *)io->iov_base + io->iov_len) { offset -= io->iov_len; ioc++; continue; } bcopy(buf, start, num); uio->uio_resid -= num; uio->uio_offset += num; left -= num; if (left > 0) ioc++; } if (left > 0) return EFAULT; } return 0; } u_32_t fr_newisn(fin) fr_info_t *fin; { static int iss_seq_off = 0; u_char hash[16]; u_32_t newiss; MD5_CTX ctx; /* * Compute the base value of the ISS. It is a hash * of (saddr, sport, daddr, dport, secret). */ MD5Init(&ctx); MD5Update(&ctx, (u_char *) &fin->fin_fi.fi_src, sizeof(fin->fin_fi.fi_src)); MD5Update(&ctx, (u_char *) &fin->fin_fi.fi_dst, sizeof(fin->fin_fi.fi_dst)); MD5Update(&ctx, (u_char *) &fin->fin_dat, sizeof(fin->fin_dat)); /* MD5Update(&ctx, ipf_iss_secret, sizeof(ipf_iss_secret)); */ MD5Final(hash, &ctx); memcpy(&newiss, hash, sizeof(newiss)); /* * Now increment our "timer", and add it in to * the computed value. * * XXX Use `addin'? * XXX TCP_ISSINCR too large to use? */ iss_seq_off += 0x00010000; newiss += iss_seq_off; return newiss; } /* ------------------------------------------------------------------------ */ /* Function: fr_nextipid */ /* Returns: int - 0 == success, -1 == error (packet should be droppped) */ /* Parameters: fin(I) - pointer to packet information */ /* */ /* Returns the next IPv4 ID to use for this packet. */ /* ------------------------------------------------------------------------ */ INLINE u_short fr_nextipid(fin) fr_info_t *fin; { static u_short ipid = 0; u_short id; ipf_stack_t *ifs = fin->fin_ifs; MUTEX_ENTER(&ifs->ifs_ipf_rw); id = ipid++; MUTEX_EXIT(&ifs->ifs_ipf_rw); return id; } INLINE void fr_checkv4sum(fin) fr_info_t *fin; { if (fr_checkl4sum(fin) == -1) fin->fin_flx |= FI_BAD; } #ifdef USE_INET6 INLINE void fr_checkv6sum(fin) fr_info_t *fin; { if (fr_checkl4sum(fin) == -1) fin->fin_flx |= FI_BAD; } #endif /* * See above for description, except that all addressing is in user space. */ int copyoutptr(src, dst, size) void *src, *dst; size_t size; { caddr_t ca; bcopy(dst, (char *)&ca, sizeof(ca)); bcopy(src, ca, size); return 0; } /* * See above for description, except that all addressing is in user space. */ int copyinptr(src, dst, size) void *src, *dst; size_t size; { caddr_t ca; bcopy(src, (char *)&ca, sizeof(ca)); bcopy(ca, dst, size); return 0; } /* * return the first IP Address associated with an interface */ int fr_ifpaddr(v, atype, ifptr, inp, inpmask, ifs) int v, atype; void *ifptr; struct in_addr *inp, *inpmask; ipf_stack_t *ifs; { struct ifnet *ifp = ifptr; #ifdef __sgi struct in_ifaddr *ifa; #else struct ifaddr *ifa; #endif #if defined(__NetBSD__) || defined(__OpenBSD__) || defined(__FreeBSD__) ifa = ifp->if_addrlist.tqh_first; #else # ifdef __sgi ifa = (struct in_ifaddr *)ifp->in_ifaddr; # else ifa = ifp->if_addrlist; # endif #endif if (ifa != NULL) { struct sockaddr_in *sin, mask; mask.sin_addr.s_addr = 0xffffffff; #ifdef __sgi sin = (struct sockaddr_in *)&ifa->ia_addr; #else sin = (struct sockaddr_in *)&ifa->ifa_addr; #endif return fr_ifpfillv4addr(atype, sin, &mask, inp, inpmask); } return 0; } /* * This function is not meant to be random, rather just produce a * sequence of numbers that isn't linear to show "randomness". */ u_32_t ipf_random() { static u_int last = 0xa5a5a5a5; static int calls = 0; int number; calls++; /* * These are deliberately chosen to ensure that there is some * attempt to test whether the output covers the range in test n18. */ switch (calls) { case 1 : number = 0; break; case 2 : number = 4; break; case 3 : number = 3999; break; case 4 : number = 4000; break; case 5 : number = 48999; break; case 6 : number = 49000; break; default : number = last; last *= calls; last++; number ^= last; break; } return number; }