/* Unix SMB/Netbios implementation. Version 1.9. NBT netbios routines and daemon - version 2 Copyright (C) Andrew Tridgell 1994-1996 This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. Module name: namedbname.c Revision History: 14 jan 96: lkcl@pires.co.uk added multiple workgroup domain master support 04 jul 96: lkcl@pires.co.uk created module namedbname containing name database functions */ #include "includes.h" extern int DEBUGLEVEL; extern pstring scope; extern struct in_addr ipzero; extern struct in_addr ipgrp; extern struct subnet_record *subnetlist; #define WINS_LIST "wins.dat" uint16 nb_type = 0; /* samba's NetBIOS name type */ /**************************************************************************** samba's NetBIOS name type XXXX maybe functionality could be set: B, M, P or H name registration and resolution could be set through nb_type. just a thought. ****************************************************************************/ void set_samba_nb_type(void) { if (lp_wins_support() || (*lp_wins_server())) { nb_type = NB_MFLAG; /* samba is a 'hybrid' node type */ } else { nb_type = NB_BFLAG; /* samba is broadcast-only node type */ } } /**************************************************************************** true if two netbios names are equal ****************************************************************************/ BOOL name_equal(struct nmb_name *n1,struct nmb_name *n2) { return n1->name_type == n2->name_type && strequal(n1->name ,n2->name ) && strequal(n1->scope,n2->scope); } /**************************************************************************** true if the netbios name is ^1^2__MSBROWSE__^2^1 note: this name is registered if as a master browser or backup browser you are responsible for a workgroup (when you announce a domain by broadcasting on your local subnet, you announce it as coming from this name: see announce_host()). **************************************************************************/ BOOL ms_browser_name(char *name, int type) { return strequal(name,MSBROWSE) && type == 0x01; } /**************************************************************************** add a netbios name into the namelist **************************************************************************/ static void add_name(struct subnet_record *d, struct name_record *n) { struct name_record *n2; if (!d) return; if (!d->namelist) { d->namelist = n; n->prev = NULL; n->next = NULL; return; } for (n2 = d->namelist; n2->next; n2 = n2->next) ; n2->next = n; n->next = NULL; n->prev = n2; } /**************************************************************************** remove a name from the namelist. The pointer must be an element just retrieved **************************************************************************/ void remove_name(struct subnet_record *d, struct name_record *n) { struct name_record *nlist; if (!d) return; nlist = d->namelist; while (nlist && nlist != n) nlist = nlist->next; if (nlist) { if (nlist->next) nlist->next->prev = nlist->prev; if (nlist->prev) nlist->prev->next = nlist->next; free(nlist); } } /**************************************************************************** find a name in a namelist. **************************************************************************/ struct name_record *find_name(struct name_record *n, struct nmb_name *name, int search) { struct name_record *ret; for (ret = n; ret; ret = ret->next) { if (name_equal(&ret->name,name)) { /* self search: self names only */ if ((search&FIND_SELF) == FIND_SELF && ret->source != SELF) continue; return ret; } } return NULL; } /**************************************************************************** find a name in the domain database namelist search can be any of: FIND_SELF - look exclusively for names the samba server has added for itself FIND_LOCAL - look for names in the local subnet record. FIND_WINS - look for names in the WINS record **************************************************************************/ struct name_record *find_name_search(struct subnet_record **d, struct nmb_name *name, int search, struct in_addr ip) { if (d == NULL) return NULL; /* bad error! */ if (search & FIND_LOCAL) { if (*d != NULL) { struct name_record *n = find_name((*d)->namelist, name, search); DEBUG(4,("find_name on local: %s %s search %x\n", namestr(name),inet_ntoa(ip), search)); if (n) return n; } } if (!(search & FIND_WINS)) return NULL; /* find WINS subnet record. */ *d = find_subnet(ipgrp); if (*d == NULL) return NULL; DEBUG(4,("find_name on WINS: %s %s search %x\n", namestr(name),inet_ntoa(ip), search)); return find_name((*d)->namelist, name, search); } /**************************************************************************** dump a copy of the name table **************************************************************************/ void dump_names(void) { struct name_record *n; struct subnet_record *d; fstring fname, fnamenew; time_t t = time(NULL); FILE *f; strcpy(fname,lp_lockdir()); trim_string(fname,NULL,"/"); strcat(fname,"/"); strcat(fname,WINS_LIST); strcpy(fnamenew,fname); strcat(fnamenew,"."); f = fopen(fnamenew,"w"); if (!f) { DEBUG(4,("Can't open %s - %s\n",fnamenew,strerror(errno))); } DEBUG(3,("Dump of local name table:\n")); for (d = subnetlist; d; d = d->next) for (n = d->namelist; n; n = n->next) { int i; DEBUG(3,("%15s ", inet_ntoa(d->bcast_ip))); DEBUG(3,("%15s ", inet_ntoa(d->mask_ip))); DEBUG(3,("%-19s TTL=%ld ", namestr(&n->name), n->death_time?n->death_time-t:0)); for (i = 0; i < n->num_ips; i++) { DEBUG(3,("%15s NB=%2x source=%d", inet_ntoa(n->ip_flgs[i].ip), n->ip_flgs[i].nb_flags,n->source)); } DEBUG(3,("\n")); if (f && ip_equal(d->bcast_ip, ipgrp) && n->source == REGISTER) { /* XXXX i have little imagination as to how to output nb_flags as anything other than as a hexadecimal number :-) */ fprintf(f, "%s#%02x %ld ", n->name.name,n->name.name_type, /* XXXX ignore scope for now */ n->death_time); for (i = 0; i < n->num_ips; i++) { fprintf(f, "%s %2x ", inet_ntoa(n->ip_flgs[i].ip), n->ip_flgs[i].nb_flags); } fprintf(f, "\n"); } } fclose(f); unlink(fname); chmod(fnamenew,0644); rename(fnamenew,fname); DEBUG(3,("Wrote wins database %s\n",fname)); } /**************************************************************************** load a netbios name database file XXXX we cannot cope with loading Internet Group names, yet ****************************************************************************/ void load_netbios_names(void) { struct subnet_record *d = find_subnet(ipgrp); fstring fname; FILE *f; pstring line; if (!d) return; strcpy(fname,lp_lockdir()); trim_string(fname,NULL,"/"); strcat(fname,"/"); strcat(fname,WINS_LIST); f = fopen(fname,"r"); if (!f) { DEBUG(2,("Can't open wins database file %s\n",fname)); return; } while (!feof(f)) { pstring name_str, ip_str, ttd_str, nb_flags_str; pstring name; int type = 0; unsigned int nb_flags; time_t ttd; struct in_addr ipaddr; enum name_source source; char *ptr; int count = 0; char *p; if (!fgets_slash(line,sizeof(pstring),f)) continue; if (*line == '#') continue; ptr = line; if (next_token(&ptr,name_str ,NULL)) ++count; if (next_token(&ptr,ttd_str ,NULL)) ++count; if (next_token(&ptr,ip_str ,NULL)) ++count; if (next_token(&ptr,nb_flags_str,NULL)) ++count; if (count <= 0) continue; if (count != 4) { DEBUG(0,("Ill formed wins line")); DEBUG(0,("[%s]: name#type abs_time ip nb_flags\n",line)); continue; } /* netbios name. # divides the name from the type (hex): netbios#xx */ strcpy(name,name_str); p = strchr(name,'#'); if (p) { *p = 0; sscanf(p+1,"%x",&type); } /* decode the netbios flags (hex) and the time-to-die (seconds) */ sscanf(nb_flags_str,"%x",&nb_flags); sscanf(ttd_str,"%ld",&ttd); ipaddr = *interpret_addr2(ip_str); if (ip_equal(ipaddr,ipzero)) { source = SELF; } else { source = REGISTER; } DEBUG(4, ("add WINS line: %s#%02x %ld %s %2x\n", name,type, ttd, inet_ntoa(ipaddr), nb_flags)); /* add all entries that have 60 seconds or more to live */ if (ttd - 60 > time(NULL) || ttd == 0) { time_t t = (ttd?ttd-time(NULL):0) / 3; /* add netbios entry read from the wins.dat file. IF it's ok */ add_netbios_entry(d,name,type,nb_flags,t,source,ipaddr,True,True); } } fclose(f); } /**************************************************************************** remove an entry from the name list ****************************************************************************/ void remove_netbios_name(struct subnet_record *d, char *name,int type, enum name_source source, struct in_addr ip) { struct nmb_name nn; struct name_record *n; make_nmb_name(&nn, name, type, scope); n = find_name_search(&d, &nn, FIND_LOCAL, ip); if (n && n->source == source) remove_name(d,n); } /**************************************************************************** add an entry to the name list. this is a multi-purpose function. it adds samba's own names in to its records on each interface, keeping a record of whether it is a master browser, domain master, or WINS server. it also keeps a record of WINS entries. ****************************************************************************/ struct name_record *add_netbios_entry(struct subnet_record *d, char *name, int type, int nb_flags, int ttl, enum name_source source, struct in_addr ip, BOOL new_only,BOOL wins) { struct name_record *n; struct name_record *n2=NULL; int search = 0; BOOL self = source == SELF; /* add the name to the WINS list if the name comes from a directed query */ search |= wins ? FIND_WINS : FIND_LOCAL; /* search for SELF names only */ search |= self ? FIND_SELF : 0; if (!self) { if (!wins && type != 0x1b) { /* the only broadcast (non-WINS) names we are adding are ours (SELF) and Domain Master type names */ return NULL; } } n = (struct name_record *)malloc(sizeof(*n)); if (!n) return(NULL); bzero((char *)n,sizeof(*n)); n->num_ips = 1; /* XXXX ONLY USE THIS FUNCTION FOR ONE ENTRY */ n->ip_flgs = (struct nmb_ip*)malloc(sizeof(*n->ip_flgs) * n->num_ips); if (!n->ip_flgs) { free(n); return NULL; } make_nmb_name(&n->name,name,type,scope); if ((n2 = find_name_search(&d, &n->name, search, new_only?ipzero:ip))) { free(n->ip_flgs); free(n); if (new_only || (n2->source==SELF && source!=SELF)) return n2; n = n2; } if (ttl) n->death_time = time(NULL)+ttl*3; n->refresh_time = time(NULL)+GET_TTL(ttl); /* XXXX only one entry expected with this function */ n->ip_flgs[0].ip = ip; n->ip_flgs[0].nb_flags = nb_flags; n->source = source; if (!n2) add_name(d,n); DEBUG(3,("Added netbios name %s at %s ttl=%d nb_flags=%2x\n", namestr(&n->name),inet_ntoa(ip),ttl,nb_flags)); return(n); } /******************************************************************* expires old names in the namelist ******************************************************************/ void expire_names(time_t t) { struct name_record *n; struct name_record *next; struct subnet_record *d; /* expire old names */ for (d = subnetlist; d; d = d->next) { for (n = d->namelist; n; n = next) { next = n->next; if (n->death_time && n->death_time < t) { if (n->source == SELF) { DEBUG(3,("not expiring SELF name %s\n", namestr(&n->name))); n->death_time += 300; continue; } DEBUG(3,("Removing dead name %s\n", namestr(&n->name))); if (n->prev) n->prev->next = n->next; if (n->next) n->next->prev = n->prev; if (d->namelist == n) d->namelist = n->next; free(n->ip_flgs); free(n); } } } } /*************************************************************************** reply to a name query ****************************************************************************/ struct name_record *search_for_name(struct subnet_record **d, struct nmb_name *question, struct in_addr ip, int Time, int search) { int name_type = question->name_type; char *qname = question->name; BOOL dns_type = (name_type == 0x20 || name_type == 0); struct name_record *n; DEBUG(3,("Search for %s from %s - ", namestr(question), inet_ntoa(ip))); /* first look up name in cache */ n = find_name_search(d,question,search,ip); if (*d == NULL) return NULL; /* now try DNS lookup. */ if (!n) { struct in_addr dns_ip; uint32 a; /* only do DNS lookups if the query is for type 0x20 or type 0x0 */ if (!dns_type && name_type != 0x1b) { DEBUG(3,("types 0x20 0x1b 0x0 only: name not found\n")); return NULL; } /* look it up with DNS */ a = interpret_addr(qname); putip((char *)&dns_ip,(char *)&a); if (!a) { /* no luck with DNS. We could possibly recurse here XXXX */ DEBUG(3,("no recursion.\n")); /* add the fail to our WINS cache of names. give it 1 hour in the cache */ add_netbios_entry(*d,qname,name_type,NB_ACTIVE,60*60,DNSFAIL,dns_ip, True, True); return NULL; } /* add it to our WINS cache of names. give it 2 hours in the cache */ n = add_netbios_entry(*d,qname,name_type,NB_ACTIVE,2*60*60,DNS,dns_ip, True,True); /* failed to add it? yikes! */ if (!n) return NULL; } /* is our entry already dead? */ if (n->death_time) { if (n->death_time < Time) return False; } /* it may have been an earlier failure */ if (n->source == DNSFAIL) { DEBUG(3,("DNSFAIL\n")); return NULL; } DEBUG(3,("OK %s\n",inet_ntoa(n->ip_flgs[0].ip))); return n; }