/* * Copyright (c) 2000 Apple Computer, Inc. All rights reserved. * * @APPLE_OSREFERENCE_LICENSE_HEADER_START@ * * This file contains Original Code and/or Modifications of Original Code * as defined in and that are subject to the Apple Public Source License * Version 2.0 (the 'License'). You may not use this file except in * compliance with the License. The rights granted to you under the License * may not be used to create, or enable the creation or redistribution of, * unlawful or unlicensed copies of an Apple operating system, or to * circumvent, violate, or enable the circumvention or violation of, any * terms of an Apple operating system software license agreement. * * Please obtain a copy of the License at * http://www.opensource.apple.com/apsl/ and read it before using this file. * * The Original Code and all software distributed under the License are * distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES, * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT. * Please see the License for the specific language governing rights and * limitations under the License. * * @APPLE_OSREFERENCE_LICENSE_HEADER_END@ */ /* * Copyright (c) 1988, 1989, 1997, 1998 Apple Computer, Inc. * * Modified, March 17, 1997 by Tuyen Nguyen for MacOSX. */ #include <string.h> #include <sys/errno.h> #include <sys/types.h> #include <sys/param.h> #include <machine/spl.h> #include <sys/systm.h> #include <sys/kernel.h> #include <sys/proc.h> #include <sys/filedesc.h> #include <sys/fcntl.h> #include <sys/mbuf.h> #include <sys/ioctl.h> #include <sys/malloc.h> #include <sys/socket.h> #include <sys/socketvar.h> #include <net/if.h> #include <net/if_types.h> #include <netat/sysglue.h> #include <netat/appletalk.h> #include <netat/at_var.h> #include <netat/ddp.h> #include <netat/nbp.h> #include <netat/zip.h> #include <netat/rtmp.h> #include <netat/routing_tables.h> /* router */ #include <netat/at_snmp.h> #include <netat/at_pcb.h> #include <netat/debug.h> /* reaching for DDP and NBP headers in the datagram */ #define DATA_DDP(mp) ((at_ddp_t *)(gbuf_rptr(mp))) #define DATA_NBP(mp) ((at_nbp_t *)((DATA_DDP(mp))->data)) /* Get to the nve_entry_t part ofthe buffer */ #define NVE_ENTRY(mp) (nve_entry_t *)(gbuf_rptr(mp)) #ifndef MIN #define MIN(a,b) ((a)>(b)?(b):(a)) #endif #define errno nbperrno /* externs */ extern at_ifaddr_t *ifID_table[]; extern at_ifaddr_t *ifID_home; TAILQ_HEAD(name_registry, _nve_) name_registry; atlock_t nve_lock; /* statics */ static int errno; static gbuf_t *lzones=0; /* head of local zones list */ static int lzonecnt=0; /* # zones stored in lzones */ static u_int hzonehash=0; /* hash val of home zone */ static int nve_lock_pri; static int nbp_lkup_reply(nbp_req_t *, nve_entry_t *); static int nbp_strcmp(at_nvestr_t *, at_nvestr_t *, u_char); static int nbp_setup_resp(nbp_req_t *, int); static int nbp_send_resp(nbp_req_t *); static int nbp_validate_n_hash(nbp_req_t *, int, int); static nve_entry_t *nbp_search_nve(); static int isZoneLocal(at_nvestr_t *); /* macros */ #define NVE_LOCK nve_lock /* prototypes */ void nbp_delete_entry(); extern int at_reg_mcast(); extern at_nvestr_t *getRTRLocalZone(zone_usage_t *); extern void nbp_add_multicast( at_nvestr_t *, at_ifaddr_t *); static long nbp_id_count = 0; /* * Copy src to string dst of size siz. At most siz-1 characters * will be copied. Always NUL terminates (unless siz == 0). * Returns strlen(src); if retval >= siz, truncation occurred. */ __private_extern__ size_t strlcpy(char *dst, const char *src, size_t siz) { char *d = dst; const char *s = src; size_t n = siz; /* Copy as many bytes as will fit */ if (n != 0 && --n != 0) { do { if ((*d++ = *s++) == 0) break; } while (--n != 0); } /* Not enough room in dst, add NUL and traverse rest of src */ if (n == 0) { if (siz != 0) *d = '\0'; /* NUL-terminate dst */ while (*s++) ; } return(s - src - 1); /* count does not include NUL */ } void sethzonehash(elapp) at_ifaddr_t *elapp; { if (elapp->startup_zone.len) { hzonehash = nbp_strhash(&elapp->startup_zone); } } void nbp_shutdown() { /* delete all NVE's and release buffers */ register nve_entry_t *nve_entry, *nve_next; ATDISABLE(nve_lock_pri,NVE_LOCK); for ((nve_entry = TAILQ_FIRST(&name_registry)); nve_entry; nve_entry = nve_next) { nve_next = TAILQ_NEXT(nve_entry, nve_link); /* NB: nbp_delete_entry calls TAILQ_REMOVE */ nbp_delete_entry(nve_entry); } ATENABLE(nve_lock_pri,NVE_LOCK); if (lzones) { gbuf_freem(lzones); lzonecnt = 0; lzones = NULL; } } /* nbp_shutdown */ static u_char *nbp2zone(nbp, maxp) at_nbp_t *nbp; u_char *maxp; { u_char *p; p = (u_char*)&nbp->tuple[0].enu_entity; /* p -> object */ if (p >= maxp) return NULL; p += (*p +1); /* p -> type */ if (p >= maxp) return NULL; p += (*p +1); /* p -> zone */ if (p >= maxp) return NULL; if ((p + *p) >= maxp) return NULL; return(p); } void nbp_input(m, ifID) register gbuf_t *m; register at_ifaddr_t *ifID; { register at_ddp_t *ddp = DATA_DDP(m); register at_nbp_t *nbp = DATA_NBP(m); register nve_entry_t *nve_entry, *next_nve; register RT_entry *rt; register int ddpSent = FALSE; /* true if we re-sent this pkt (don't free) */ struct etalk_addr mcastAddr; nbp_req_t nbp_req; u_char *p; /* from original nbp_input() when this function was nbp_handler() */ if ((gbuf_type(m) != MT_DATA && gbuf_type(m) != MSG_DATA) || ddp->type != DDP_NBP) { gbuf_freem(m); return; } /* Some initializations */ nbp_req.response = NULL; nbp_req.request = m; nbp_req.space_unused = nbp_req.flags = 0; dPrintf(D_M_NBP_LOW, D_L_USR1, ("nbp_input control:%d tuplecount:%d id:%d\n", nbp->control, nbp->tuple_count, nbp->at_nbp_id)); switch (nbp->control) { case NBP_LKUP : { at_net_al dst_net; dst_net = NET_VALUE(ddp->dst_net); dPrintf(D_M_NBP_LOW, D_L_USR2, (" LKUP %s\n", ifID != ifID_home ? "non-home" : "home")); if ( ROUTING_MODE && (NET_VALUE(ddp->dst_net) != 0) && ((dst_net < ifID->ifThisCableStart) || (dst_net > ifID->ifThisCableEnd)) ) { routing_needed(m, ifID, TRUE); ddpSent = TRUE; break; } } if (nbp_validate_n_hash (&nbp_req, TRUE, FALSE) == 0) { nbp_req.func = nbp_lkup_reply; (void) nbp_search_nve(&nbp_req, ifID); if (nbp_req.response) { nbp_send_resp(&nbp_req); } } #ifdef NBP_DEBUG { char zone[35],object[35],type[35]; strlcpy(zone,nbp_req.nve.zone.str, sizeof(zone)); strlcpy(object,nbp_req.nve.object.str, sizeof(object)); strlcpy(type,nbp_req.nve.type.str, sizeof(type)); if (ifID != ifID_home) dPrintf(D_M_NBP_LOW,D_L_USR2, ("nbp_LKUP for:%s:%s@%s", object, type, zone)); } #endif /* NBP_DEBUG */ break; case NBP_FWDRQ: { register int zhome=0; /* true if home zone == destination zone */ register int zno, i; register gbuf_t *m2; register int error_found =0; register at_ifaddr_t *ifIDorig; if (!ROUTING_MODE) /* for routers only! */ break; ifIDorig = ifID; ifID= NULL; for (i = 0 ; i < RT_maxentry; i++) { rt = &RT_table[i]; if ((rt->EntryState & RTE_STATE_PERMANENT) && NET_VALUE(ddp->dst_net) >= rt->NetStart && NET_VALUE(ddp->dst_net) <= rt->NetStop ) { /* sanity check */ if (rt->NetPort >= IF_TOTAL_MAX) { dPrintf(D_M_NBP,D_L_ERROR, ("nbp_input:FWDREQ: bad port# from RT_table\n")); error_found = TRUE; break; } ifID = ifID_table[rt->NetPort]; if (!ifID) { dPrintf(D_M_NBP,D_L_ERROR, ("nbp_input:FWDREQ: ifID %s\n", !ifID ? "not found" : "invalid")); error_found = TRUE; break; } if (ifID->ifState == LAP_OFFLINE) { dPrintf(D_M_NBP,D_L_ERROR, ("nbp_input:FWDREQ: ifID offline (port %d)\n", rt->NetPort)); error_found = TRUE; break; } break; } } if (error_found) /* the port is not correct */ break; if (!ifID) { /* this packet is not for us, let the routing engine handle it */ routing_needed(m, ifIDorig, TRUE); ddpSent= TRUE; break; } /* * At this point, we have a valid Forward request for one of our * directly connected port. Convert it to a NBP Lookup */ nbp->control = NBP_LKUP; NET_ASSIGN(ddp->dst_net, 0); ddp->dst_node = 255; /*### LD 01/18/94 Check if the dest is also the home zone. */ p = nbp2zone(nbp, gbuf_wptr(m)); if ((p == NULL) || !(zno = zt_find_zname(p))) { dPrintf(D_M_NBP,D_L_WARNING, ("nbp_input: FWDRQ:zone not found\n")); break; } if (isZoneLocal((at_nvestr_t*)p)) zhome = TRUE; /* one of our ports is in destination zone */ if (!zt_get_zmcast(ifID, p, &mcastAddr)) { dPrintf(D_M_NBP,D_L_ERROR, ("nbp_input: FDWREQ:zt_get_zmcast error\n")); break; } if (zhome) { /*### LD 01/18/95 In case our home is here, call back nbp */ if (!(m2 = (gbuf_t *)gbuf_copym((gbuf_t *)m))) { dPrintf(D_M_NBP,D_L_ERROR, ("nbp_input: FWDRQ:gbuf_copym failed\n")); break; } ddp = DATA_DDP(m2); nbp = DATA_NBP(m2); nbp->control = NBP_LKUP; NET_ASSIGN(ddp->dst_net, 0); ddp->dst_node = 255; dPrintf(D_M_NBP,D_L_INFO, ("nbp_input: FWDRQ:loop back for us\n")); nbp_input(m2, ifID_home); } if (FDDI_OR_TOKENRING(ifID->aa_ifp->if_type)) ddp_bit_reverse(&mcastAddr); ddp_router_output(m, ifID, ET_ADDR,NULL,NULL, &mcastAddr); ddpSent = TRUE; } break; case NBP_BRRQ: { register int zno; /* zone table entry numb */ register int ztind; /* zone bitmap index into RT_entry */ register int ztbit; /* zone bit to check within above index */ register int zhome=0; /* true if home zone == destination zone */ register int i; register gbuf_t *m2, *m3; register int fromUs = FALSE; register at_socket ourSkt; /* originating skt */ /* for router & MH local only */ if ((!(MULTIHOME_MODE && FROM_US(ddp))) && !ROUTING_MODE) { dPrintf(D_M_NBP,D_L_USR2, ("nbp_input: BRREQ:non router or MH local\n")); break; } p = nbp2zone(nbp, gbuf_wptr(m)); if ((p == NULL) || !(zno = zt_find_zname(p))) { break; } if (MULTIHOME_MODE && ifID->ifRouterState == NO_ROUTER) { ((at_nvestr_t*)p)->len = 1; ((at_nvestr_t*)p)->str[0] = '*'; } if (isZoneLocal((at_nvestr_t*)p)) { zhome = TRUE; /* one of our ports is in destination zone */ } if (FROM_US(ddp)){ /* save, before we munge it */ fromUs = TRUE; ourSkt = ddp->src_socket; dPrintf(D_M_NBP,D_L_USR2, ("nbp_input:BRRQ from us net:%d\n", (int)NET_VALUE(ddp->src_net))); } /* from ZT_CLR_ZMAP */ i = zno - 1; ztind = i >> 3; ztbit = 0x80 >> (i % 8); for (i=0,rt=RT_table; i<RT_maxentry; i++,rt++) { if (!(rt->ZoneBitMap[ztind] & ztbit)) /* if zone not in route, skip*/ continue; /* dPrintf(D_M_NBP, D_L_USR3, ("nbp_input: BRREQ: port:%d, entry %d\n", rt->NetPort, i)); */ ifID = ifID_table[rt->NetPort]; if (!ifID) { dPrintf(D_M_NBP, D_L_ERROR, ("nbp_input:BRRQ: ifID %s\n", !ifID ? "not found" : "invalid")); break; } ddp = DATA_DDP(m); ddp->src_node = ifID->ifThisNode.s_node; NET_ASSIGN(ddp->src_net, ifID->ifThisNode.s_net); ddp->src_socket = NBP_SOCKET; if (!(m2 = (gbuf_t *)gbuf_copym((gbuf_t *)m))) { dPrintf(D_M_NBP,D_L_ERROR, ("nbp_input: BRREQ:gbuf_copym failed\n")); break; } ddp = DATA_DDP(m2); nbp = DATA_NBP(m2); /* nbp->tuple[0].enu_addr.socket = NBP_SOCKET; */ if (MULTIHOME_MODE && fromUs ) { /* set the return address of the lookup to that of the interface it's going out on so that replies come back on that net */ dPrintf(D_M_NBP,D_L_USR3, ("nbp_input: BRREQ: src changed to %d.%d.%d\n", ifID->ifThisNode.s_net, ifID->ifThisNode.s_node, ourSkt)); nbp->tuple[0].enu_addr.net = ifID->ifThisNode.s_net; nbp->tuple[0].enu_addr.node = ifID->ifThisNode.s_node; nbp->tuple[0].enu_addr.socket = ourSkt; ddp->src_socket = NBP_SOCKET; } else dPrintf(D_M_NBP, D_L_USR3, ("nbp_input: BRREQ: not from us\n")); dPrintf(D_M_NBP, D_L_USR3, ("nbp_input dist:%d\n", rt->NetDist)); if (rt->NetDist == 0) { /* if direct connect, *we* do the LKUP */ nbp->control = NBP_LKUP; NET_ASSIGN(ddp->dst_net, 0); ddp->dst_node = 255; if (!zt_get_zmcast(ifID, p, &mcastAddr)) { dPrintf(D_M_NBP,D_L_ERROR, ("nbp_input: BRRQ:zt_get_zmcast error\n")); break; } if (FDDI_OR_TOKENRING(ifID->aa_ifp->if_type)) ddp_bit_reverse(&mcastAddr); ddp_router_output(m2, ifID, ET_ADDR, NULL, NULL, &mcastAddr); } else { /* else fwd to router */ ddp->dst_node = 0; if (rt->NetStart == 0) /* if Ltalk */ NET_ASSIGN(ddp->dst_net, rt->NetStop); else NET_ASSIGN(ddp->dst_net, rt->NetStart); nbp->control = NBP_FWDRQ; ddp_router_output(m2, ifID, AT_ADDR, rt->NextIRNet, rt->NextIRNode, NULL); } } if (!zhome) break; if (!(m3 = (gbuf_t *)gbuf_copym((gbuf_t *)m))) { dPrintf(D_M_NBP,D_L_ERROR, ("nbp_input: BRREQ:gbuf_copym failed\n")); break; } ddp = DATA_DDP(m3); nbp = DATA_NBP(m3); nbp->control = NBP_LKUP; NET_ASSIGN(ddp->dst_net, 0); ddp->dst_node = 255; dPrintf(D_M_NBP,D_L_INFO, ("nbp_input: BRRQ:loop back for us\n")); nbp_input(m3, ifID_home); break; } case NBP_LKUP_REPLY: if (!ROUTING_MODE) /* for routers only! */ break; dPrintf(D_M_NBP,D_L_WARNING, ("nbp_input: routing needed for LKUP_REPLY: from %d.%d\n", NET_VALUE(ddp->src_net), ddp->src_node)); routing_needed(m, ifID, TRUE); ddpSent = TRUE; break; default : dPrintf(D_M_NBP,D_L_ERROR, ("nbp_input: unhandled pkt: type:%d\n", nbp->control)); routing_needed(m, ifID, TRUE); ddpSent = TRUE; break; } /* switch control */ if (!ddpSent) gbuf_freem(m); return; } /* nbp_input */ static int nbp_validate_n_hash (nbp_req, wild_ok, checkLocal) register nbp_req_t *nbp_req; register int wild_ok; register int checkLocal; /* if true check if local zone */ { register at_nvestr_t *object, *type, *zone; at_nbptuple_t *tuple; register int i, part_wild; tuple = DATA_NBP(nbp_req->request)->tuple; nbp_req->flags = 0; #ifdef COMMENTED_OUT { int net,node,skt; net = tuple->enu_addr.net; node = tuple->enu_addr.node; skt = tuple->enu_addr.socket; dPrintf(D_M_NBP_LOW,D_L_USR4, ("nbp_validate: tuple addr:%d:%d:%d\n",net,node,skt)); } #endif /* COMMENTED_OUT */ /* tuple is in the compressed (no "filler") format */ object = (at_nvestr_t *)&tuple->enu_entity; type = (at_nvestr_t *)(&object->str[object->len]); zone = (at_nvestr_t *)(&type->str[type->len]); if (object->len > NBP_NVE_STR_SIZE || type->len > NBP_NVE_STR_SIZE || zone->len > NBP_NVE_STR_SIZE) { dPrintf(D_M_NBP_LOW, D_L_WARNING, ("nbp_val_n_hash: bad str len\n")); errno = EINVAL; return (-1); } #ifdef NBP_DEBUG { char xzone[35],xobject[35],xtype[35]; strlcpy(xzone,zone->str, sizeof(xzone)); strlcpy(xobject,object->str, sizeof(xobject)); strlcpy(xtype,type->str, sizeof(xtype)); dPrintf(D_M_NBP_LOW, D_L_USR4, ("nbp_validate: looking for %s:%s@%s\n", xobject, xtype, xzone)); } #endif /* NBP_DEBUG */ /* Is this request for our zone ?? */ nbp_req->nve.zone.len = zone->len; nbp_req->nve.zone_hash = 0; bcopy(zone->str,nbp_req->nve.zone.str, zone->len); if (checkLocal && !isZoneLocal(zone)) { char str[35]; strlcpy(str,zone->str,sizeof(str)); dPrintf(D_M_NBP_LOW,D_L_WARNING, ("nbp_val_n_hash bad zone: %s\n", str)); errno = EINVAL; return(-1); } if (!DEFAULT_ZONE(zone)) { nbp_req->nve.zone_hash = nbp_strhash(& nbp_req->nve.zone); } nbp_req->nve.address = tuple->enu_addr; nbp_req->nve.object.len = object->len; nbp_req->nve.object_hash = 0; if (object->len == 1 && (object->str[0] == NBP_ORD_WILDCARD || object->str[0] == NBP_SPL_WILDCARD)) { if (wild_ok) nbp_req->flags |= NBP_WILD_OBJECT; else { dPrintf(D_M_NBP_LOW, D_L_WARNING, ("nbp_val_n_hash: wild not okay\n")); errno = EINVAL; return (-1); } } else{ for (i = part_wild = 0; (unsigned) i<object->len; i++) { if (object->str[i] == NBP_SPL_WILDCARD) if (wild_ok) if (part_wild) { dPrintf(D_M_NBP_LOW, D_L_WARNING, ("nbp_val_n_hash: too many parts wild\n")); errno = EINVAL; return (-1); } else part_wild++; else { dPrintf(D_M_NBP_LOW, D_L_WARNING, ("nbp_val_n_hash: wild not okay2\n")); errno = EINVAL; return (-1); } nbp_req->nve.object.str[i] = object->str[i]; } if (!part_wild) nbp_req->nve.object_hash = nbp_strhash(&nbp_req->nve.object); } nbp_req->nve.type.len = type->len; nbp_req->nve.type_hash = 0; if (type->len == 1 && (type->str[0] == NBP_ORD_WILDCARD || type->str[0] == NBP_SPL_WILDCARD)) { if (wild_ok) nbp_req->flags |= NBP_WILD_TYPE; else { dPrintf(D_M_NBP_LOW, D_L_WARNING, ("nbp_val_n_hash: wild not okay3\n")); errno = EINVAL; return (-1); } } else { for (i = part_wild = 0; (unsigned) i<type->len; i++) { if (type->str[i] == NBP_SPL_WILDCARD) if (wild_ok) if (part_wild) { dPrintf(D_M_NBP_LOW, D_L_WARNING, ("nbp_val_n_hash: too many parts wild2\n")); errno = EINVAL; return (-1); } else part_wild++; else { errno = EINVAL; return (-1); } nbp_req->nve.type.str[i] = type->str[i]; } if (!part_wild) nbp_req->nve.type_hash = nbp_strhash(&nbp_req->nve.type); } #ifdef NBP_DEBUG { char zone[35],object[35],type[35]; strlcpy(zone,nbp_req.nve.zone.str, sizeof(zone)); strlcpy(object,nbp_req.nve.object.str, sizeof(object)); strlcpy(type,nbp_req.nve.type.str, sizeof(type)); dPrintf(D_M_NBP_LOW,D_L_USR4, ("nbp_validate: after hash: %s:%s@%s\n", object, type, zone)); } #endif /* NBP_DEBUG */ return(0); } /* nbp_validate_n_hash */ /* Upshifts in place */ static void nbp_upshift (str, count) register u_char *str; register int count; { register int i, j; register u_char ch; static unsigned char lower_case[] = {0x8a, 0x8c, 0x8d, 0x8e, 0x96, 0x9a, 0x9f, 0xbe, 0xbf, 0xcf, 0x9b, 0x8b, 0x88, 0}; static unsigned char upper_case[] = {0x80, 0x81, 0x82, 0x83, 0x84, 0x85, 0x86, 0xae, 0xaf, 0xce, 0xcd, 0xcc, 0xcb, 0}; for (j=0 ; j<count ; j++) { ch = str[j]; if (ch >= 'a' && ch <= 'z') str[j] = ch + 'A' - 'a'; else if (ch & 0x80) for (i=0; lower_case[i]; i++) if (ch == lower_case[i]) str[j] = upper_case[i]; } } u_int nbp_strhash (nvestr) register at_nvestr_t *nvestr; { /* upshift while hashing */ register u_int hash = 0; register int i, len; union { u_char h_4char[4]; int h_int; } un; for (i=0; (unsigned) i < nvestr->len; i+=sizeof(int)) { len = MIN((nvestr->len-i), sizeof(int)); if (len == sizeof(int)) bcopy(&(nvestr->str[i]), &un, sizeof(un)); else { un.h_int = -1; for ( ; (unsigned) i<nvestr->len; i++) un.h_4char[i % sizeof(int)] = nvestr->str[i]; } nbp_upshift (un.h_4char, len); hash ^= un.h_int; } return (hash); } /* nbp_strhash */ static nve_entry_t *nbp_search_nve (nbp_req, ifID) register nbp_req_t *nbp_req; register at_ifaddr_t *ifID; /* NULL ok */ { register nve_entry_t *nve_entry; #ifdef NBP_DEBUG { char zone[35],object[35],type[35]; strlcpy(zone,nbp_req.nve.zone.str, sizeof(zone)); strlcpy(object,nbp_req.nve.object.str, sizeof(object)); strlcpy(type,nbp_req.nve.type.str, sizeof(type)); dPrintf(D_M_NBP_LOW, D_L_USR4, ("nbp_search: looking for %s:%s@%s resp:0x%x\n",object,type,zone, (u_int) nbp_req->response)); } #endif /* NBP_DEBUG */ ATDISABLE(nve_lock_pri,NVE_LOCK); TAILQ_FOREACH(nve_entry, &name_registry, nve_link) { if ((nbp_req->nve.zone_hash) && ((nbp_req->nve.zone_hash != nve_entry->zone_hash) && (nbp_req->nve.zone_hash != hzonehash) ) ) { dPrintf(D_M_NBP_LOW,D_L_USR4, ("nbp_search: no match for zone, req hash:%x\n", nbp_req->nve.zone_hash)); continue; } else { /* for this entry's zone OR no zone in request or entry */ /* only in singleport mode (!MULTIPORT_MODE) with empty PRAM can an entry have '*' for it's zone */ at_nvestr_t *ezone=&nve_entry->zone; at_nvestr_t *rzone=&nbp_req->nve.zone; if (!DEFAULT_ZONE(rzone) && !DEFAULT_ZONE(ezone)) { if (nbp_strcmp (rzone, ezone, 0) != 0) continue; } else { if (MULTIHOME_MODE && ifID && (nve_entry->address.net != ifID->ifThisNode.s_net)) { dPrintf(D_M_NBP, D_L_USR4, ("nbp search ifID (%d) & req net (%d) not eq\n", nve_entry->address.net, ifID->ifThisNode.s_net)); continue; } if (ifID) dPrintf(D_M_NBP, D_L_USR4, ("nbp search ifID (%d) & req net (%d) equal\n", nve_entry->address.net, ifID->ifThisNode.s_net)); } } if (!(nbp_req->flags & NBP_WILD_OBJECT)) { if ((nbp_req->nve.object_hash) && (nbp_req->nve.object_hash != nve_entry->object_hash)) continue; else { if (nbp_strcmp (&nbp_req->nve.object, &nve_entry->object, NBP_SPL_WILDCARD) != 0) continue; } } if (!(nbp_req->flags & NBP_WILD_TYPE)) { if ((nbp_req->nve.type_hash) && (nbp_req->nve.type_hash !=nve_entry->type_hash)) continue; else { if (nbp_strcmp (&nbp_req->nve.type, &nve_entry->type, NBP_SPL_WILDCARD) != 0) continue; } } /* Found a match! */ #ifdef NBP_DEBUG { char zone[35],object[35],type[35]; strlcpy(zone,nbp_req.nve.zone.str, sizeof(zone)); strlcpy(object,nbp_req.nve.object.str, sizeof(object)); strlcpy(type,nbp_req.nve.type.str, sizeof(type)); dPrintf(D_M_NBP_LOW, D_L_USR2, ("nbp_search: found %s:%s@%s net:%d\n", object, type, zone, (int)nve_entry->address.net)); } #endif /* NBP_DEBUG */ if (nbp_req->func != NULL) { if ((*(nbp_req->func))(nbp_req, nve_entry) != 0) { /* errno expected to be set by func */ ATENABLE(nve_lock_pri,NVE_LOCK); return (NULL); } } else { ATENABLE(nve_lock_pri,NVE_LOCK); return (nve_entry); } } ATENABLE(nve_lock_pri,NVE_LOCK); errno = 0; return (NULL); } /* nbp_search_nve */ static int nbp_lkup_reply (nbp_req, nve_entry) register nbp_req_t *nbp_req; register nve_entry_t *nve_entry; { register at_nbptuple_t *tuple; register int tuple_size, buf_len; register int obj_len, type_len; u_char *p; /* size of the current tuple we want to write... */ tuple_size = nve_entry->object.len + 1 + /* object */ nve_entry->type.len + 1 + /* type */ 2 + /* zone */ sizeof (at_inet_t) + 1; /* addr + enum */ buf_len = ((nbp_req->flags & NBP_WILD_MASK) ? DDP_DATA_SIZE:tuple_size); if (nbp_req->response == NULL) { if (nbp_setup_resp (nbp_req, buf_len) != 0) /* errno expected to be set by nbp_setup_resp() */ return (-1); } if ((nbp_req->space_unused < tuple_size) || (DATA_NBP(nbp_req->response)->tuple_count == NBP_TUPLE_MAX)) { if (nbp_send_resp (nbp_req) != 0) return (-1); if (nbp_setup_resp (nbp_req, buf_len) != 0) return (-1); } /* At this point, we have a response buffer that can accommodate the * tuple we want to write. Write it! */ tuple = (at_nbptuple_t *)gbuf_wptr(nbp_req->response); tuple->enu_addr = nve_entry->address; tuple->enu_enum = nve_entry->enumerator; /* tuple is in the compressed (no "filler") format */ p = (u_char *)&tuple->enu_entity.object; obj_len = nve_entry->object.len + 1; bcopy(&nve_entry->object, p, obj_len); p += obj_len; type_len = nve_entry->type.len + 1; bcopy(&nve_entry->type, p, type_len); p += type_len; p[0] = (u_char)1; p[1] = '*'; nbp_req->space_unused -= tuple_size; gbuf_winc(nbp_req->response, tuple_size); /* increment the tuple count in header by 1 */ DATA_NBP(nbp_req->response)->tuple_count++; return (0); } static int nbp_strcmp (str1, str2, embedded_wildcard) register at_nvestr_t *str1, *str2; register u_char embedded_wildcard; /* If str1 may contain a character * that's to be treated as an * embedded wildcard, this character * is it. Making this special case * since for zone names, squiggly * equal is not to be treated as a * wildcard. */ { u_char ch1,ch2; register int i1, i2; register int reverse = 0; register int left_index; /* Embedded wildcard, if any, could only be in the first string (str1). * returns 0 if two strings are equal (modulo case), -1 otherwise */ if (str1->len == 0 || str2->len == 0) { return (-1); } /* Wildcards are not allowed in str2. * * If str1 could potentially contain an embedded wildcard, since the * embedded wildcard matches ZERO OR MORE characters, str1 can not be * more than 1 character longer than str2. * * If str1 is not supposed to have embedded wildcards, the two strs * must be of equal length. */ if ((embedded_wildcard && (str2->len < (unsigned) (str1->len-1))) || (!embedded_wildcard && (str2->len != str1->len))) { return (-1); } for (i1 = i2 = left_index = 0; (unsigned) i1 < str1->len ;) { ch1 = str1->str[i1]; ch2 = str2->str[i2]; if (embedded_wildcard && (ch1==embedded_wildcard)) { /* hit the embedded wild card... start comparing from * the other end of the string. */ reverse++; /* But, if embedded wildcard was the last character of * the string, the two strings match, so return okay. */ if (i1 == str1->len-1) { return (0); } i1 = str1->len - 1; i2 = str2->len - 1; continue; } nbp_upshift(&ch1, 1); nbp_upshift(&ch2, 1); if (ch1 != ch2) { return (-1); } if (reverse) { i1--; i2--; if (i1 == left_index) { return (0); } } else { i1++; i2++; left_index++; } } return (0); } static void nbp_setup_hdr (nbp_req) register nbp_req_t *nbp_req; { register at_ddp_t *ddp; register at_nbp_t *nbp; ddp = DATA_DDP(nbp_req->response); nbp = DATA_NBP(nbp_req->response); ddp->type = DDP_NBP; UAS_ASSIGN(ddp->checksum, 0); ddp->unused = ddp->hopcount = 0; switch(DATA_NBP(nbp_req->request)->control) { case NBP_LKUP : ddp->dst_socket = nbp_req->nve.address.socket; ddp->dst_node = nbp_req->nve.address.node; NET_ASSIGN(ddp->dst_net, nbp_req->nve.address.net); nbp->control = NBP_LKUP_REPLY; break; } nbp->at_nbp_id = DATA_NBP(nbp_req->request)->at_nbp_id; return; } static int nbp_setup_resp (nbp_req, tuples_size) register nbp_req_t *nbp_req; register int tuples_size; { int buf_size = tuples_size + DDP_X_HDR_SIZE + NBP_HDR_SIZE; nbp_req->response = gbuf_alloc(AT_WR_OFFSET+buf_size, PRI_MED); if (nbp_req->response == NULL) { errno = ENOBUFS; return(-1); } gbuf_rinc(nbp_req->response, AT_WR_OFFSET); gbuf_wset(nbp_req->response, DDP_X_HDR_SIZE + NBP_HDR_SIZE); nbp_setup_hdr(nbp_req); DATA_NBP(nbp_req->response)->tuple_count = 0; nbp_req->space_unused = tuples_size; return (0); } /* nbp_setup_resp */ static int nbp_send_resp (nbp_req) register nbp_req_t *nbp_req; { int status; status = ddp_output(&nbp_req->response, (at_socket)NBP_SOCKET, FALSE); nbp_req->response = NULL; errno = status; return(errno?-1:0); } void nbp_add_multicast(zone, ifID) at_nvestr_t *zone; at_ifaddr_t *ifID; { char data[ETHERNET_ADDR_LEN]; int i; if (zone->str[0] == '*') return; { char str[35]; strlcpy(str,zone->str,sizeof(str)); dPrintf(D_M_NBP_LOW, D_L_USR3, ("nbp_add_multi getting mc for %s\n", str)); } zt_get_zmcast(ifID, zone, data); if (FDDI_OR_TOKENRING(ifID->aa_ifp->if_type)) ddp_bit_reverse(data); dPrintf(D_M_NBP_LOW,D_L_USR3, ("nbp_add_multi adding 0x%x%x port:%d ifID:0x%x if:%s\n", *(unsigned*)data, (*(unsigned *)(data+2))&0x0000ffff, i, (u_int) ifID, ifID->ifName)); bcopy((caddr_t)data, (caddr_t)&ifID->ZoneMcastAddr, ETHERNET_ADDR_LEN); (void)at_reg_mcast(ifID, (caddr_t)&ifID->ZoneMcastAddr); } getNbpTableSize() /* for SNMP, returns size in # of entries */ { register nve_entry_t *nve; register int i=0; ATDISABLE(nve_lock_pri,NVE_LOCK); for (nve = TAILQ_FIRST(&name_registry); nve; nve = TAILQ_NEXT(nve, nve_link), i++) i++; ATENABLE(nve_lock_pri,NVE_LOCK); return(i); } getNbpTable(p, s, c) snmpNbpEntry_t *p; int s; /* starting entry */ int c; /* # entries to copy */ /* for SNMP, returns section of nbp table */ { register nve_entry_t *nve; register int i=0; static int nextNo=0; /* entry that *next points to */ static nve_entry_t *next = (nve_entry_t*)NULL; if (s && next && nextNo == s) { nve = next; i = nextNo; } else nve = TAILQ_FIRST(&name_registry); ATDISABLE(nve_lock_pri,NVE_LOCK); for ( ; nve && c ; nve = TAILQ_NEXT(nve, nve_link), p++,i++) { if (i>= s) { p->nbpe_object = nve->object; p->nbpe_type = nve->type; c--; } } ATENABLE(nve_lock_pri,NVE_LOCK); if (nve) { next = nve; nextNo = i; } else { next = (nve_entry_t*)NULL; nextNo = 0; } } #define ZONES_PER_BLK 31 /* 31 fits within a 1k blk) */ #define ZONE_BLK_SIZE ZONES_PER_BLK * sizeof(at_nvestr_t) int setLocalZones(newzones, size) at_nvestr_t *newzones; int size; /* updates list of zones which are local to all active ports missing zones are not deleted, only missing zones are added. */ { int bytesread=0; /* #bytes read from tuple */ int i=0, dupe; gbuf_t *m; at_nvestr_t *pnve, *pnew = newzones; if (!lzones) { if(!(lzones = gbuf_alloc(ZONE_BLK_SIZE, PRI_MED))) return(ENOBUFS); gbuf_wset(lzones,0); } while (bytesread < size) { /* for each new zone */ { char str[35]; strlcpy(str,pnew->str,sizeof(str)); } m = lzones; pnve = (at_nvestr_t*)gbuf_rptr(m); dupe = 0; for (i=0; i<lzonecnt && !dupe; i++,pnve++) { if (i && !(i%ZONES_PER_BLK)) if (gbuf_cont(m)) { m = gbuf_cont(m); pnve = (at_nvestr_t*)gbuf_rptr(m); } else break; if (pnew->len != pnve->len) continue; if (pnew->len > NBP_NVE_STR_SIZE) { return(0); } if (!strncmp(pnew->str, pnve->str, pnew->len)) { dupe=1; continue; } } if (!dupe) { /* add new zone */ if (lzonecnt && !(lzonecnt%ZONES_PER_BLK)) { if(!(gbuf_cont(m) = gbuf_alloc(ZONE_BLK_SIZE, PRI_MED))) return(ENOBUFS); gbuf_wset(gbuf_cont(m),0); pnve = (at_nvestr_t*)gbuf_rptr(gbuf_cont(m)); } strlcpy(pnve->str,pnew->str,sizeof(pnve->str)); pnve->len = pnew->len; lzonecnt++; } bytesread += (pnew->len+1); pnew = (at_nvestr_t*) (((char *)pnew) + pnew->len + 1); } /* showLocalZones1(); */ return(0); } /********** showLocalZones1() { int i; at_nvestr_t *pnve; gbuf_t *m; char str[35]; for (i=0; ; i++) { if (!(pnve = getLocalZone(i))) { break; } strlcpy(str,pnve->str,sizeof(str)); } } *********/ isZoneLocal(zone) at_nvestr_t *zone; { at_nvestr_t *pnve; int i; if (DEFAULT_ZONE(zone)) return(1); for (i=0; ; i++) { if (!(pnve = getLocalZone(i))) break; if (!nbp_strcmp(pnve,zone,0)) return(1); } return(0); } #define NULL_PNVESTR (at_nvestr_t *) 0 at_nvestr_t *getLocalZone(zno) int zno; /* zone number in virtual list to return, 0 for first zone */ /* returns pointer to a new local zone number zno, returns null when no zones left. */ { zone_usage_t ifz; ifz.zone_index = zno; if (MULTIPORT_MODE) return(getRTRLocalZone(&ifz)); else return(getSPLocalZone(zno)); } at_nvestr_t *getSPLocalZone(zno) int zno; /* zone number in virtual list to return, 0 for first zone */ /* single port mode version */ { int curz=0; /* current zone */ gbuf_t *m; at_nvestr_t *pnve; if (lzones) { m = lzones; pnve = (at_nvestr_t*)gbuf_rptr(m); } else return(NULL_PNVESTR); if ( zno>=lzonecnt ) return(NULL_PNVESTR); for (curz=0; curz<zno; curz++,pnve++ ) { if ( curz<lzonecnt ) { if (curz && !(curz%ZONES_PER_BLK) ) { if (gbuf_cont(m)) { m = gbuf_cont(m); pnve = (at_nvestr_t*)gbuf_rptr(m); } else { return(NULL_PNVESTR); } } if (pnve->len > NBP_NVE_STR_SIZE) { return(NULL_PNVESTR); } } else return(NULL_PNVESTR); } return(pnve); } /* The following functions are used in name registration and removal */ int nbp_fillin_nve(entity, nve) at_entity_t *entity; nve_entry_t *nve; { register int i; if (entity->object.len > NBP_NVE_STR_SIZE || entity->type.len > NBP_NVE_STR_SIZE || entity->zone.len > NBP_NVE_STR_SIZE) { dPrintf(D_M_NBP_LOW, D_L_WARNING, ("nbp_fillin_nve: bad str len\n")); errno = EINVAL; return (-1); } nve->zone = entity->zone; nve->zone_hash = 0; if (!isZoneLocal(&entity->zone)) { errno = EINVAL; return(-1); } /* if there's no zone, '*' gets filled in when entry is created */ if (!DEFAULT_ZONE(&entity->zone)) nve->zone_hash = nbp_strhash(&nve->zone); nve->object = entity->object; nve->object_hash = 0; if (entity->object.len == 1 && (entity->object.str[0] == NBP_ORD_WILDCARD || entity->object.str[0] == NBP_SPL_WILDCARD)) { dPrintf(D_M_NBP_LOW, D_L_WARNING, ("nbp_fillin_nve: wildcard\n")); errno = EINVAL; return (-1); } for (i = 0; i < entity->object.len; i++) { if (entity->object.str[i] == NBP_SPL_WILDCARD) { dPrintf(D_M_NBP_LOW, D_L_WARNING, ("nbp_fillin_nve: wildcard2\n")); errno = EINVAL; return (-1); } } nve->object_hash = nbp_strhash(&nve->object); nve->type = entity->type; nve->type_hash = 0; if (entity->type.len == 1 && (entity->type.str[0] == NBP_ORD_WILDCARD || entity->type.str[0] == NBP_SPL_WILDCARD)) { errno = EINVAL; return (-1); } for (i = 0; i < entity->type.len; i++) { if (entity->type.str[i] == NBP_SPL_WILDCARD) { dPrintf(D_M_NBP_LOW, D_L_WARNING, ("nbp_fillin_nve: wildcard3\n")); errno = EINVAL; return (-1); } } nve->type_hash = nbp_strhash(&nve->type); return(0); } /* nbp_fillin_nve */ nve_entry_t *nbp_find_nve(nve) nve_entry_t *nve; { register nve_entry_t *nve_entry; ATDISABLE(nve_lock_pri,NVE_LOCK); TAILQ_FOREACH(nve_entry, &name_registry, nve_link) { if (nve->zone_hash && ((nve->zone_hash != nve_entry->zone_hash) && (nve->zone_hash != hzonehash))) { dPrintf(D_M_NBP_LOW,D_L_USR4, ("nbp_find_nve: no match for zone, req hash:%x\n", nve->zone_hash)); continue; } if ((nve->object_hash) && (nve->object_hash != nve_entry->object_hash)) continue; if ((nve->type_hash) && (nve->type_hash != nve_entry->type_hash)) continue; /* Found a match! */ ATENABLE(nve_lock_pri,NVE_LOCK); return (nve_entry); } ATENABLE(nve_lock_pri,NVE_LOCK); return (NULL); } /* nbp_find_nve */ static int nbp_enum_gen (nve_entry) register nve_entry_t *nve_entry; { register int new_enum = 0; register nve_entry_t *ne; ATDISABLE(nve_lock_pri,NVE_LOCK); re_do: TAILQ_FOREACH(ne, &name_registry, nve_link) { if ((*(int *)&ne->address == *(int *)&nve_entry->address) && (ne->enumerator == new_enum)) { if (new_enum == 255) { ATENABLE(nve_lock_pri,NVE_LOCK); return(EADDRNOTAVAIL); } else { new_enum++; goto re_do; } } } ATENABLE(nve_lock_pri,NVE_LOCK); nve_entry->enumerator = new_enum; return (0); } int nbp_new_nve_entry(nve_entry, ifID) nve_entry_t *nve_entry; at_ifaddr_t *ifID; { gbuf_t *tag; nve_entry_t *new_entry; at_nvestr_t *zone; int error; if (!(valid_at_addr((at_inet_t *)&nve_entry->address))) { dPrintf(D_M_NBP_LOW, D_L_WARNING, ("nbp_new_nve_entry: valid_at_addr\n")); return(EINVAL); } if ((error = nbp_enum_gen(nve_entry))) return(error); nve_entry->unique_nbp_id = ++nbp_id_count; /* Got an nve entry on hand.... allocate a buffer, copy the entry * on to it and stick it in the registry. */ if ((tag = gbuf_alloc(sizeof(nve_entry_t), PRI_HI)) == NULL){ return(ENOBUFS); } gbuf_wset(tag, sizeof(nve_entry_t)); new_entry = (nve_entry_t *)gbuf_rptr(tag); bcopy(nve_entry, new_entry, sizeof(nve_entry_t)); if (DEFAULT_ZONE(&nve_entry->zone)) { /* put actual zone name in entry instead of "*" */ /* if single port mode and no zone name, then a router is down, so use pram zone name hint from elap cfg */ if (!MULTIPORT_MODE && ifID_home->ifZoneName.str[0] == '*') { zone = &ifID_home->startup_zone; } else { zone = &ifID_home->ifZoneName; } new_entry->zone = *zone; if ( new_entry->zone.len == 0 ) { new_entry->zone.str[0] = '*'; new_entry->zone.len = 1; } new_entry->zone_hash = nbp_strhash(&new_entry->zone); } new_entry->tag = tag; new_entry->pid = proc_selfpid(); ATDISABLE(nve_lock_pri,NVE_LOCK); TAILQ_INSERT_TAIL(&name_registry, new_entry, nve_link); ATENABLE(nve_lock_pri,NVE_LOCK); at_state.flags |= AT_ST_NBP_CHANGED; #ifdef NBP_DEBUG { char zone[35],object[35],type[35]; strlcpy(zone,nbp_req.nve.zone.str, sizeof(zone)); strlcpy(object,nbp_req.nve.object.str, sizeof(object)); strlcpy(type,nbp_req.nve.type.str, sizeof(type)); dPrintf(D_M_NBP_LOW, D_L_USR4, ("nbp_insert: adding %s:%s@%s addr:%d.%d ", object, type, zone, new_entry->address.net, new_entry->address.node)); } #endif /* NBP_DEBUG */ nbp_add_multicast(&new_entry->zone, ifID); return (0); } /* nbp_new_nve_entry */ void nbp_delete_entry (nve_entry) nve_entry_t *nve_entry; { TAILQ_REMOVE(&name_registry, nve_entry, nve_link); gbuf_freem(nve_entry->tag); at_state.flags |= AT_ST_NBP_CHANGED; } /* Registration of an NBP entity in multihoming mode, from AIOCNBPREG in at.c */ int nbp_mh_reg(nbpP) at_nbp_reg_t *nbpP; { nve_entry_t nve; at_ifaddr_t *ifID = 0; int registered = 0; int finished = FALSE; if (nbp_fillin_nve(&nbpP->name, &nve) != 0) { /* bad tuple... */ dPrintf(D_M_NBP_LOW, D_L_WARNING, ("nbp_mh_reg: bad tuple\n")); return(EINVAL); } nve.address = nbpP->addr; nve.ddptype = nbpP->ddptype; if (DEFAULT_ZONE(&nbpP->name.zone)) { /* multihoming mode with the default zone specified */ /* now find the matching interfaces */ TAILQ_FOREACH(ifID, &at_ifQueueHd, aa_link) { if (nbpP->addr.net || nbpP->addr.node) { /* if address is specified */ if ((nbpP->addr.net != ifID->ifThisNode.s_net || nbpP->addr.node != ifID->ifThisNode.s_node)) continue; else /* the address was specified, and we found the matching interface */ finished = TRUE; } else { /* address is not specified, so fill in the address for the interface */ nve.address.net = ifID->ifThisNode.s_net; nve.address.node = ifID->ifThisNode.s_node; } nve.zone = ifID->ifZoneName; nve.zone_hash = nbp_strhash(&nve.zone); if (nbp_find_nve(&nve)) continue; if (nbp_new_nve_entry(&nve, ifID) == 0) registered++; } if (registered && !nbpP->addr.net && !nbpP->addr.node) { nbpP->addr.net = ifID_home->ifThisNode.s_net; nbpP->addr.node = ifID_home->ifThisNode.s_node; } } else { /* multihoming mode with a specific zone specified */ /* see which segments (interfaces) are seeded for this zone */ int zno; at_ifnames_t ifs_in_zone; if (!(zno = zt_find_zname(&nve.zone))) { dPrintf(D_M_NBP_LOW, D_L_WARNING, ("nbp_mh_reg: didn't find zone name\n")); return(EINVAL); } getIfUsage(zno-1, &ifs_in_zone); /* now find the matching interfaces */ TAILQ_FOREACH(ifID, &at_ifQueueHd, aa_link) { if (!ifs_in_zone.at_if[ifID->ifPort]) /* zone doesn't match */ continue; else /* the zone matches, so unless the address is specified and doesn't match, we only need to do this once */ finished = TRUE; if (nbpP->addr.net || nbpP->addr.node) { /* address is specified */ finished = FALSE; if ((nbpP->addr.net != ifID->ifThisNode.s_net || nbpP->addr.node != ifID->ifThisNode.s_node)) continue; else /* the address was specified, and we found the matching interface */ finished = TRUE; } else { /* address is not specified, so fill in the address for the interface */ nve.address.net = ifID->ifThisNode.s_net; nve.address.node = ifID->ifThisNode.s_node; } if (nbp_find_nve(&nve)) continue; if (nbp_new_nve_entry(&nve, ifID) == 0) registered++; if (registered && !nbpP->addr.net && !nbpP->addr.node) { nbpP->addr.net = ifID->ifThisNode.s_net; nbpP->addr.node = ifID->ifThisNode.s_node; } } } nbpP->unique_nbp_id = (registered > 1)? 0: nve.unique_nbp_id; if (registered) return(0); else return(EADDRNOTAVAIL); } /* nbp_mh_reg */