/* * Copyright (C) 1993-2001 by Darren Reed. * (C)opyright 1997 by Marc Boucher. * * See the IPFILTER.LICENCE file for details on licencing. */ /* TODO: (MARCXXX) - ipl_init failure -> open ENODEV or whatever - prevent multiple LKM loads - surround access to ifnet structures by IFNET_LOCK()/IFNET_UNLOCK() ? - m != m1 problem */ #include #include #ifdef IPFILTER_LKM #include #endif #include #include #include #include #include #ifdef IFF_DRVRLOCK /* IRIX6 */ #include #include #endif #include #include #include #include #include #include #include #include #include #include "ipl.h" #include "ip_compat.h" #include "ip_fil.h" #include "ip_nat.h" /*#define IPFDEBUG 1*/ unsigned IPL_EXTERN(devflag) = D_MP; #ifdef IPFILTER_LKM char *IPL_EXTERN(mversion) = M_VERSION; #endif kmutex_t ipl_mutex, ipf_mutex, ipfi_mutex, ipf_rw; kmutex_t ipf_frag, ipf_state, ipf_nat, ipf_natfrag, ipf_auth; int (*fr_checkp) __P((struct ip *, int, void *, int, mb_t **)); #ifdef IPFILTER_LKM static int *ipff_addr = 0; static int ipff_value; static __psunsigned_t *ipfk_addr = 0; static __psunsigned_t ipfk_code[4]; #endif typedef struct nif { struct nif *nf_next; struct ifnet *nf_ifp; #if IRIX < 605 int (*nf_output)(struct ifnet *, struct mbuf *, struct sockaddr *); #else int (*nf_output)(struct ifnet *, struct mbuf *, struct sockaddr *, struct rtentry *); #endif char nf_name[IFNAMSIZ]; int nf_unit; } nif_t; static nif_t *nif_head = 0; static int nif_interfaces = 0; extern int in_interfaces; extern ipnat_t *nat_list; static int #if IRIX < 605 ipl_if_output(struct ifnet *ifp, struct mbuf *m, struct sockaddr *dst) #else ipl_if_output(struct ifnet *ifp, struct mbuf *m, struct sockaddr *dst, struct rtentry *rt) #endif { nif_t *nif; MUTEX_ENTER(&ipfi_mutex); /* sets interrupt priority level to splhi */ for (nif = nif_head; nif; nif = nif->nf_next) if (nif->nf_ifp == ifp) break; MUTEX_EXIT(&ipfi_mutex); if (!nif) { printf("IP Filter: ipl_if_output intf %x NOT FOUND\n", ifp); return ENETDOWN; } #if IPFDEBUG >= 4 static unsigned int cnt = 0; if ((++cnt % 200) == 0) printf("IP Filter: ipl_if_output(ifp=0x%lx, m=0x%lx, dst=0x%lx), m_type=%d m_flags=0x%lx m_off=0x%lx\n", ifp, m, dst, m->m_type, (unsigned long)(m->m_flags), m->m_off); #endif if (fr_checkp) { struct mbuf *m1 = m; struct ip *ip; int hlen; switch(m->m_type) { case MT_DATA: if (m->m_flags & M_BCAST) { #if IPFDEBUG >= 2 printf("IP Filter: ipl_if_output: passing M_BCAST\n"); #endif break; } /* FALLTHROUGH */ case MT_HEADER: #if IPFDEBUG >= 4 if (!MBUF_IS_CLUSTER(m) && ((m->m_off < MMINOFF) || (m->m_off > MMAXOFF))) { printf("IP Filter: ipl_if_output: bad m_off m_type=%d m_flags=0x%lx m_off=0x%lx\n", m->m_type, (unsigned long)(m->m_flags), m->m_off); goto done; } #endif if (m->m_len < sizeof(char)) { printf("IP Filter: ipl_if_output: mbuf block too small (m_len=%d) for IP vers+hlen, m_type=%d m_flags=0x%lx\n", m->m_len, m->m_type, (unsigned long)(m->m_flags)); goto done; } ip = mtod(m, struct ip *); if (ip->ip_v != IPVERSION) { #if IPFDEBUG >= 4 printf("IP Filter: ipl_if_output: bad ip_v m_type=%d m_flags=0x%lx m_off=0x%lx\n", m->m_type, (unsigned long)(m->m_flags), m->m_off); #endif goto done; } hlen = ip->ip_hl << 2; if ((*fr_checkp)(ip, hlen, ifp, 1, &m1)) return EHOSTUNREACH; if (!m1) return 0; m = m1; break; default: printf("IP Filter: ipl_if_output: bad m_type=%d m_flags=0x%lxm_off=0x%lx\n", m->m_type, (unsigned long)(m->m_flags), m->m_off); break; } } done: #if IRIX < 605 return (*nif->nf_output)(ifp, m, dst); #else return (*nif->nf_output)(ifp, m, dst, rt); #endif } int IPL_EXTERN(_kernel)(struct ifnet *rcvif, struct mbuf *m) { #if IPFDEBUG >= 4 static unsigned int cnt = 0; if ((++cnt % 200) == 0) printf("IP Filter: ipl_ipfilter_kernel(rcvif=0x%lx, m=0x%lx\n", rcvif, m); #endif /* * Check if we want to allow this packet to be processed. * Consider it to be bad if not. */ if (fr_checkp) { struct mbuf *m1 = m; struct ip *ip; int hlen; if ((m->m_type != MT_DATA) && (m->m_type != MT_HEADER)) { printf("IP Filter: ipl_ipfilter_kernel: bad m_type=%d m_flags=0x%lx m_off=0x%lx\n", m->m_type, (unsigned long)(m->m_flags), m->m_off); return IPF_ACCEPTIT; } #if IPFDEBUG >= 4 if (!MBUF_IS_CLUSTER(m) && ((m->m_off < MMINOFF) || (m->m_off > MMAXOFF))) { printf("IP Filter: ipl_ipfilter_kernel: bad m_off m_type=%d m_flags=0x%lx m_off=0x%lx\n", m->m_type, (unsigned long)(m->m_flags), m->m_off); return IPF_ACCEPTIT; } #endif if (m->m_len < sizeof(char)) { printf("IP Filter: ipl_ipfilter_kernel: mbuf block too small (m_len=%d) for IP vers+hlen, m_type=%d m_flags=0x%lx\n", m->m_len, m->m_type, (unsigned long)(m->m_flags)); return IPF_ACCEPTIT; } ip = mtod(m, struct ip *); if (ip->ip_v != IPVERSION) { printf("IP Filter: ipl_ipfilter_kernel: bad ip_v\n"); m_freem(m); return IPF_DROPIT; } hlen = ip->ip_hl << 2; if ((*fr_checkp)(ip, hlen, rcvif, 0, &m1) || !m1) return IPF_DROPIT; if (m != m1) printf("IP Filter: ipl_ipfilter_kernel: m != m1\n"); } return IPF_ACCEPTIT; } static int ipfilterattach(void) { #ifdef IPFILTER_LKM __psunsigned_t *addr_ff, *addr_fk; st_findaddr("ipfilterflag", &addr_ff); #if IPFDEBUG >= 4 printf("IP Filter: st_findaddr ipfilterflag=0x%lx\n", addr_ff); #endif if (!addr_ff) return ESRCH; st_findaddr("ipfilter_kernel", &addr_fk); #if IPFDEBUG >= 4 printf("IP Filter: st_findaddr ipfilter_kernel=0x%lx\n", addr_fk); #endif if (!addr_fk) return ESRCH; MUTEX_ENTER(&ipfi_mutex); /* sets interrupt priority level to splhi */ ipff_addr = (int *)addr_ff; ipff_value = *ipff_addr; *ipff_addr = 0; ipfk_addr = addr_fk; bcopy(ipfk_addr, ipfk_code, sizeof(ipfk_code)); /* write a "li t4, ipl_ipfilter_kernel" instruction */ ipfk_addr[0] = 0x3c0c0000 | (((__psunsigned_t)IPL_EXTERN(_kernel) >> 16) & 0xffff); ipfk_addr[1] = 0x358c0000 | ((__psunsigned_t)IPL_EXTERN(_kernel) & 0xffff); /* write a "jr t4" instruction" */ ipfk_addr[2] = 0x01800008; /* write a "nop" instruction */ ipfk_addr[3] = 0; icache_inval(ipfk_addr, sizeof(ipfk_code)); *ipff_addr = 1; /* enable ipfilter_kernel */ MUTEX_EXIT(&ipfi_mutex); #else extern int ipfilterflag; ipfilterflag = 1; #endif return 0; } /* * attach the packet filter to each non-loopback interface that is running */ static void nifattach() { struct ifnet *ifp; struct frentry *f; ipnat_t *np; nif_t *nif; MUTEX_ENTER(&ipfi_mutex); /* sets interrupt priority level to splhi */ for (ifp = ifnet; ifp; ifp = ifp->if_next) { if ((!(ifp->if_flags & IFF_RUNNING)) || (ifp->if_flags & IFF_LOOPBACK)) continue; /* * Look for entry already setup for this device */ for (nif = nif_head; nif; nif = nif->nf_next) if (nif->nf_ifp == ifp) break; if (nif) continue; if (ifp->if_output == ipl_if_output) { printf("IP Filter: ERROR INTF 0x%lx STILL ATTACHED\n", ifp); continue; } #if IPFDEBUG >= 4 printf("IP Filter: nifattach nif %x opt %x\n", ifp, ifp->if_output); #endif KMALLOC(nif, nif_t *); if (!nif) { printf("IP Filter: malloc(%d) for nif_t failed\n", sizeof(nif_t)); continue; } nif->nf_ifp = ifp; strncpy(nif->nf_name, ifp->if_name, sizeof(nif->nf_name)); nif->nf_name[sizeof(nif->nf_name) - 1] = '\0'; nif->nf_unit = ifp->if_unit; nif->nf_next = nif_head; nif_head = nif; /* * Activate any rules directly associated with this interface */ MUTEX_ENTER(&ipf_mutex); for (f = ipfilter[0][0]; f; f = f->fr_next) { if ((f->fr_ifa == (struct ifnet *)-1)) { if (f->fr_ifname[0] && (GETUNIT(f->fr_ifname, 4) == ifp)) f->fr_ifa = ifp; } } for (f = ipfilter[1][0]; f; f = f->fr_next) { if ((f->fr_ifa == (struct ifnet *)-1)) { if (f->fr_ifname[0] && (GETUNIT(f->fr_ifname, 4) == ifp)) f->fr_ifa = ifp; } } MUTEX_EXIT(&ipf_mutex); MUTEX_ENTER(&ipf_nat); for (np = nat_list; np; np = np->in_next) { if ((np->in_ifp == (void *)-1)) { if (np->in_ifname[0] && (GETUNIT(np->in_ifname, 4) == ifp)) np->in_ifp = (void *)ifp; } } MUTEX_EXIT(&ipf_nat); nif->nf_output = ifp->if_output; ifp->if_output = ipl_if_output; #if IPFDEBUG >= 4 printf("IP Filter: nifattach: ifp(%lx)->if_output FROM %lx TO %lx\n", ifp, nif->nf_output, ifp->if_output); #endif printf("IP Filter: attach to [%s,%d]\n", nif->nf_name, ifp->if_unit); } if (!nif_head) printf("IP Filter: not attached to any interfaces\n"); nif_interfaces = in_interfaces; MUTEX_EXIT(&ipfi_mutex); return; } /* * look for bad consistancies between the list of interfaces the filter knows * about and those which are currently configured. */ int ipfsync(void) { register struct frentry *f; register ipnat_t *np; register nif_t *nif, **qp; register struct ifnet *ifp; MUTEX_ENTER(&ipfi_mutex); /* sets interrupt priority level to splhi */ for (qp = &nif_head; (nif = *qp); ) { for (ifp = ifnet; ifp; ifp = ifp->if_next) if ((nif->nf_ifp == ifp) && (nif->nf_unit == ifp->if_unit) && !strcmp(nif->nf_name, ifp->if_name)) { break; } if (ifp) { qp = &nif->nf_next; continue; } printf("IP Filter: detaching [%s]\n", nif->nf_name); *qp = nif->nf_next; /* * Disable any rules directly associated with this interface */ MUTEX_ENTER(&ipf_mutex); for (f = ipfilter[0][0]; f; f = f->fr_next) if (f->fr_ifa == (void *)nif->nf_ifp) f->fr_ifa = (struct ifnet *)-1; for (f = ipfilter[1][0]; f; f = f->fr_next) if (f->fr_ifa == (void *)nif->nf_ifp) f->fr_ifa = (struct ifnet *)-1; MUTEX_EXIT(&ipf_mutex); MUTEX_ENTER(&ipf_nat); for (np = nat_list; np; np = np->in_next) if (np->in_ifp == (void *)nif->nf_ifp) np->in_ifp =(struct ifnet *)-1; MUTEX_EXIT(&ipf_nat); KFREE(nif); nif = *qp; } MUTEX_EXIT(&ipfi_mutex); nifattach(); return 0; } /* * unhook the IP filter from all defined interfaces with IP addresses */ static void nifdetach() { struct ifnet *ifp; nif_t *nif, **qp; MUTEX_ENTER(&ipfi_mutex); /* sets interrupt priority level to splhi */ /* * Make two passes, first get rid of all the unknown devices, next * unlink known devices. */ for (qp = &nif_head; (nif = *qp); ) { for (ifp = ifnet; ifp; ifp = ifp->if_next) if (nif->nf_ifp == ifp) break; if (ifp) { qp = &nif->nf_next; continue; } printf("IP Filter: removing [%s]\n", nif->nf_name); *qp = nif->nf_next; KFREE(nif); } while ((nif = nif_head)) { nif_head = nif->nf_next; for (ifp = ifnet; ifp; ifp = ifp->if_next) if (nif->nf_ifp == ifp) break; if (ifp) { printf("IP Filter: detaching [%s,%d]\n", nif->nf_name, ifp->if_unit); #if IPFDEBUG >= 4 printf("IP Filter: nifdetach: ifp(%lx)->if_output FROM %lx TO %lx\n", ifp, ifp->if_output, nif->nf_output); #endif ifp->if_output = nif->nf_output; } KFREE(nif); } MUTEX_EXIT(&ipfi_mutex); return; } static void ipfilterdetach(void) { #ifdef IPFILTER_LKM MUTEX_ENTER(&ipfi_mutex); /* sets interrupt priority level to splhi */ if (ipff_addr) { *ipff_addr = 0; if (ipfk_addr) bcopy(ipfk_code, ipfk_addr, sizeof(ipfk_code)); *ipff_addr = ipff_value; } MUTEX_EXIT(&ipfi_mutex); #else extern int ipfilterflag; ipfilterflag = 0; #endif } /* called by ipldetach() */ void ipfilter_sgi_detach(void) { nifdetach(); ipfilterdetach(); } /* called by iplattach() */ int ipfilter_sgi_attach(void) { int error; nif_interfaces = 0; error = ipfilterattach(); if (!error) nifattach(); return error; } /* this function is called from ipfr_slowtimer at 500ms intervals to keep our interface list in sync */ void ipfilter_sgi_intfsync(void) { MUTEX_ENTER(&ipfi_mutex); if (nif_interfaces != in_interfaces) { /* if the number of interfaces has changed, resync */ MUTEX_EXIT(&ipfi_mutex); ipfsync(); } else MUTEX_EXIT(&ipfi_mutex); } #ifdef IPFILTER_LKM /* this routine should be treated as an interrupt routine and should not call any routines that would cause it to sleep, such as: biowait(), sleep(), psema() or delay(). */ int IPL_EXTERN(unload)(void) { int error = 0; error = ipldetach(); LOCK_DEALLOC(ipl_mutex.l); LOCK_DEALLOC(ipf_rw.l); LOCK_DEALLOC(ipf_auth.l); LOCK_DEALLOC(ipf_natfrag.l); LOCK_DEALLOC(ipf_nat.l); LOCK_DEALLOC(ipf_state.l); LOCK_DEALLOC(ipf_frag.l); LOCK_DEALLOC(ipf_mutex.l); LOCK_DEALLOC(ipfi_mutex.l); return error; } #endif void IPL_EXTERN(init)(void) { #ifdef IPFILTER_LKM int error; #endif ipfi_mutex.l = LOCK_ALLOC((uchar_t)-1, IPF_LOCK_PL, (lkinfo_t *)-1, KM_NOSLEEP); ipf_mutex.l = LOCK_ALLOC((uchar_t)-1, IPF_LOCK_PL, (lkinfo_t *)-1, KM_NOSLEEP); ipf_frag.l = LOCK_ALLOC((uchar_t)-1, IPF_LOCK_PL, (lkinfo_t *)-1, KM_NOSLEEP); ipf_state.l = LOCK_ALLOC((uchar_t)-1, IPF_LOCK_PL, (lkinfo_t *)-1, KM_NOSLEEP); ipf_nat.l = LOCK_ALLOC((uchar_t)-1, IPF_LOCK_PL, (lkinfo_t *)-1, KM_NOSLEEP); ipf_natfrag.l = LOCK_ALLOC((uchar_t)-1, IPF_LOCK_PL, (lkinfo_t *)-1, KM_NOSLEEP); ipf_auth.l = LOCK_ALLOC((uchar_t)-1, IPF_LOCK_PL, (lkinfo_t *)-1, KM_NOSLEEP); ipf_rw.l = LOCK_ALLOC((uchar_t)-1, IPF_LOCK_PL, (lkinfo_t *)-1, KM_NOSLEEP); ipl_mutex.l = LOCK_ALLOC((uchar_t)-1, IPF_LOCK_PL, (lkinfo_t *)-1, KM_NOSLEEP); if (!ipfi_mutex.l || !ipf_mutex.l || !ipf_frag.l || !ipf_state.l || !ipf_nat.l || !ipf_natfrag.l || !ipf_auth.l || !ipf_rw.l || !ipl_mutex.l) panic("IP Filter: LOCK_ALLOC failed"); #ifdef IPFILTER_LKM error = iplattach(); if (error) { IPL_EXTERN(unload)(); } #endif return; }