/* Unix SMB/Netbios implementation. Version 1.9. NBT netbios routines and daemon - version 2 Copyright (C) Andrew Tridgell 1994-1997 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. Revision History: 14 jan 96: lkcl@pires.co.uk added multiple workgroup domain master support 04 jul 96: lkcl@pires.co.uk created module namedbsubnet containing subnet database functions */ #include "includes.h" #include "smb.h" extern int ClientNMB; extern int ClientDGRAM; extern int DEBUGLEVEL; extern struct in_addr wins_ip; extern struct in_addr ipzero; extern pstring myname; extern fstring myworkgroup; extern char **my_netbios_names; BOOL updatedlists = True; int updatecount = 0; /* local interfaces structure */ extern struct interface *local_interfaces; /* this is our domain/workgroup/server database */ struct subnet_record *subnetlist = NULL; /* WINS subnet - keep this separate so enumeration code doesn't run onto it by mistake. */ struct subnet_record *wins_subnet = NULL; extern uint16 nb_type; /* samba's NetBIOS name type */ /**************************************************************************** add a domain into the list **************************************************************************/ static void add_subnet(struct subnet_record *d) { struct subnet_record *d2; if (!subnetlist) { subnetlist = d; d->prev = NULL; d->next = NULL; return; } for (d2 = subnetlist; d2->next; d2 = d2->next); d2->next = d; d->next = NULL; d->prev = d2; } /**************************************************************************** find a subnet in the subnetlist - not including WINS. **************************************************************************/ struct subnet_record *find_subnet(struct in_addr bcast_ip) { struct subnet_record *d; /* search through subnet list for broadcast/netmask that matches the source ip address. */ for (d = FIRST_SUBNET; d; d = NEXT_SUBNET_EXCLUDING_WINS(d)) { if (same_net(bcast_ip, d->bcast_ip, d->mask_ip)) return d; } return (NULL); } /**************************************************************************** finds the appropriate subnet structure. directed packets (non-bcast) are assumed to come from a point-to-point (P or M node), and so the subnet we return in this instance is the WINS 'pseudo-subnet' with ip 255.255.255.255 ****************************************************************************/ struct subnet_record *find_req_subnet(struct in_addr ip, BOOL bcast) { if (bcast) { /* identify the subnet the broadcast request came from */ return find_subnet(*iface_bcast(ip)); } /* Return the subnet with the pseudo-ip of 255.255.255.255 */ return wins_subnet; } /**************************************************************************** find a subnet in the subnetlist - if the subnet is not found then return the WINS subnet. **************************************************************************/ struct subnet_record *find_subnet_all(struct in_addr bcast_ip) { struct subnet_record *d = find_subnet(bcast_ip); if(!d) return wins_subnet; return d; } /**************************************************************************** create a domain entry ****************************************************************************/ static struct subnet_record *make_subnet(struct in_addr bcast_ip, struct in_addr mask_ip, BOOL add) { struct subnet_record *d; d = (struct subnet_record *)malloc(sizeof(*d)); if (!d) return(NULL); bzero((char *)d,sizeof(*d)); DEBUG(4, ("making subnet %s ", inet_ntoa(bcast_ip))); DEBUG(4, ("%s\n", inet_ntoa(mask_ip))); d->bcast_ip = bcast_ip; d->mask_ip = mask_ip; d->workgrouplist = NULL; if(add) add_subnet(d); return d; } /**************************************************************************** add a domain entry. creates a workgroup, if necessary, and adds the domain to the named a workgroup. ****************************************************************************/ static struct subnet_record *add_subnet_entry(struct in_addr bcast_ip, struct in_addr mask_ip, char *name, BOOL create_subnets, BOOL add) { struct subnet_record *d = NULL; if (zero_ip(bcast_ip)) bcast_ip = *iface_bcast(bcast_ip); /* Note that we should also add into the WINS subnet as add_subnet_entry should be called to add NetBIOS names and server entries on all interfaces, including the WINS interface */ if(create_subnets == True) { /* Create new subnets. */ if((d = make_subnet(bcast_ip, mask_ip, add)) == NULL) { DEBUG(0,("add_subnet_entry: Unable to create subnet %s\n", inet_ntoa(bcast_ip) )); return NULL; } return d; } if(ip_equal(bcast_ip, wins_ip)) return wins_subnet; return find_subnet(bcast_ip); } /**************************************************************************** Add a workgroup into a subnet, and if it's our primary workgroup, add the required names to it. **************************************************************************/ void add_workgroup_to_subnet( struct subnet_record *d, char *group) { struct work_record *w = NULL; DEBUG(5,("add_workgroup_to_subnet: Adding workgroup %s to subnet %s\n", group, inet_ntoa(d->bcast_ip))); /* This next statement creates the workgroup struct if it doesn't already exist. */ if((w = find_workgroupstruct(d, group, True)) == NULL) { DEBUG(0,("add_workgroup_to_subnet: Unable to add workgroup %s to subnet %s\n", group, inet_ntoa(d->bcast_ip) )); return; } /* add WORKGROUP(00) entries into name database or register with WINS server, if it's our workgroup. */ if (strequal(myworkgroup, group)) { int n; add_my_name_entry(d,group,0x0 ,nb_type|NB_ACTIVE|NB_GROUP); add_my_name_entry(d,group,0x1e,nb_type|NB_ACTIVE|NB_GROUP); /* Add all our server names to the workgroup list. We remove any browser or logon server flags from all but the primary name. */ for( n = 0; my_netbios_names[n]; n++) { char *name = my_netbios_names[n]; int stype = w->ServerType; if(!strequal(myname, name)) stype &= ~(SV_TYPE_MASTER_BROWSER|SV_TYPE_POTENTIAL_BROWSER| SV_TYPE_DOMAIN_MASTER|SV_TYPE_DOMAIN_MEMBER); add_server_entry(d,w,name,stype|SV_TYPE_LOCAL_LIST_ONLY,0, lp_serverstring(),True); DEBUG(3,("add_workgroup_to_subnet: Added server name entry %s \ to subnet %s\n", name, inet_ntoa(d->bcast_ip))); } } } /**************************************************************************** create subnet / workgroup / server entries - add or create the subnet lists - add or create the workgroup entries in each subnet entry - register appropriate NetBIOS names for the workgroup entries **************************************************************************/ void add_my_subnets(char *group) { static BOOL create_subnets = True; struct subnet_record *d = NULL; struct interface *i = NULL; if (*group == '*') return; /* Create subnets from all the local interfaces and thread them onto the linked list. */ for (i = local_interfaces; i; i = i->next) { add_subnet_entry(i->bcast,i->nmask,group, create_subnets, True); } /* If we are using WINS, then we must add the workgroup to the WINS subnet. This is used as a place to keep collated server lists. */ /* Create the WINS subnet if we are using WINS - but don't thread it onto the linked subnet list. */ if (lp_wins_support() || lp_wins_server()) { struct in_addr wins_nmask = ipzero; wins_subnet = add_subnet_entry(wins_ip, wins_nmask, group, create_subnets, False); } /* Ensure we only create the subnets once. */ create_subnets = False; /* Now we have created all the subnets - we can add the names that make us a client member in the workgroup. */ for (d = FIRST_SUBNET; d; d = NEXT_SUBNET_INCLUDING_WINS(d)) add_workgroup_to_subnet(d, group); } /******************************************************************* write out browse.dat ******************************************************************/ void write_browse_list(time_t t) { struct subnet_record *d; pstring fname,fnamenew; FILE *f; static time_t lasttime = 0; if (!lasttime) lasttime = t; if (!updatedlists || t - lasttime < 5) return; lasttime = t; updatedlists = False; updatecount++; dump_names(); dump_workgroups(); strcpy(fname,lp_lockdir()); trim_string(fname,NULL,"/"); strcat(fname,"/"); strcat(fname,SERVER_LIST); strcpy(fnamenew,fname); strcat(fnamenew,"."); f = fopen(fnamenew,"w"); if (!f) { DEBUG(4,("Can't open %s - %s\n",fnamenew,strerror(errno))); return; } for (d = FIRST_SUBNET; d ; d = NEXT_SUBNET_INCLUDING_WINS(d)) { struct work_record *work; for (work = d->workgrouplist; work ; work = work->next) { struct server_record *s; for (s = work->serverlist; s ; s = s->next) { fstring tmp; /* don't list domains I don't have a master for */ if ((s->serv.type & SV_TYPE_DOMAIN_ENUM) && !s->serv.comment[0]) { continue; } /* output server details, plus what workgroup/domain they're in. without the domain information, the combined list of all servers in all workgroups gets sent to anyone asking about any workgroup! */ sprintf(tmp, "\"%s\"", s->serv.name); fprintf(f, "%-25s ", tmp); fprintf(f, "%08x ", s->serv.type); sprintf(tmp, "\"%s\" ", s->serv.comment); fprintf(f, "%-30s", tmp); fprintf(f, "\"%s\"\n", work->work_group); } } } fclose(f); unlink(fname); chmod(fnamenew,0644); rename(fnamenew,fname); DEBUG(3,("Wrote browse list %s\n",fname)); }