/* * Unix SMB/Netbios implementation. Version 1.9. SMB parameters and setup * Copyright (C) Andrew Tridgell 1992-1998 Modified by Jeremy Allison 1995. * * 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. */ #include "includes.h" #ifdef USE_SMBUNIX_DB extern int DEBUGLEVEL; extern DOM_SID global_sam_sid; extern fstring global_sam_name; /*************************************************************** Start to enumerate the grppasswd list. Returns a void pointer to ensure no modification outside this module. ****************************************************************/ static void *startgrpunixpwent(BOOL update) { setgrent(); return (void*)(-1); } /*************************************************************** End enumeration of the grppasswd list. ****************************************************************/ static void endgrpunixpwent(void *vp) { endgrent(); } /************************************************************************* Return the current position in the grppasswd list as an SMB_BIG_UINT. This must be treated as an opaque token. *************************************************************************/ static SMB_BIG_UINT getgrpunixpwpos(void *vp) { return (SMB_BIG_UINT)0; } /************************************************************************* Set the current position in the grppasswd list from an SMB_BIG_UINT. This must be treated as an opaque token. *************************************************************************/ static BOOL setgrpunixpwpos(void *vp, SMB_BIG_UINT tok) { return False; } /************************************************************************* maps a unix group to a domain sid and an nt group name. *************************************************************************/ static void map_unix_grp_to_nt_grp(char *unix_name, struct group *unix_grp, char *nt_name, DOM_SID *sid) { BOOL found = False; uint32 rid; if (isdigit(unix_name[0])) { unix_grp->gr_gid = get_number(unix_name); unix_grp->gr_name = unix_name; found = map_group_gid(unix_grp->gr_gid, sid, nt_name, NULL); } else { unix_grp->gr_name = unix_name; found = map_unix_group_name(unix_grp->gr_name, sid, nt_name, NULL); } if (found) { /* * find the NT name represented by this UNIX gid. * then, only accept NT groups that are in our domain */ sid_split_rid(sid, &rid); } else { /* * assume that the UNIX group is an NT group with * the same name. convert gid to a group rid. */ fstrcpy(nt_name, unix_grp->gr_name); sid_copy(sid, &global_sam_sid); } } /************************************************************************* Routine to return the next entry in the smbdomaingroup list. *************************************************************************/ BOOL get_unixgroup_members(struct group *grp, int *num_mem, DOMAIN_GRP_MEMBER **members) { int i; char *unix_name; fstring nt_name; if (num_mem == NULL || members == NULL) { return False; } (*num_mem) = 0; (*members) = NULL; for (i = 0; (unix_name = grp->gr_mem[i]) != NULL; i++) { DOM_SID sid; struct group unix_grp; map_unix_grp_to_nt_grp(unix_name, &unix_grp, nt_name, &sid); if (!sid_equal(&sid, &global_sam_sid)) { DEBUG(0,("group database: could not resolve name %s in domain %s\n", unix_name, global_sam_name)); continue; } (*members) = Realloc((*members), ((*num_mem)+1) * sizeof(DOMAIN_GRP_MEMBER)); if ((*members) == NULL) { return False; } fstrcpy((*members)[(*num_mem)].name, nt_name); (*members)[(*num_mem)].attr = 0x07; (*num_mem)++; } return True; } /************************************************************************* Routine to return the next entry in the domain group list. if we are not a PDC or BDC, then we do NOT support Domain groups, only aliases. try running MUSRMGR.EXE or running USRMGR.EXE selected on a workstation, you will find that no Domain groups are listed: only aliases. so, as a PDC or BDC, all unix groups not explicitly mapped using map_group_gid() are treated as Domain groups. *************************************************************************/ static DOMAIN_GRP *getgrpunixpwent(void *vp, DOMAIN_GRP_MEMBER **mem, int *num_mem) { /* Static buffers we will return. */ static DOMAIN_GRP gp_buf; struct group *unix_grp; if (lp_server_role() == ROLE_DOMAIN_NONE || lp_server_role() == ROLE_DOMAIN_MEMBER) { /* * only PDC and BDC have domain groups in the SAM. * (however as member of domain you can have LOCAL groups, * but that's dealt with in the aliasdb...) */ return NULL; } gpdb_init_grp(&gp_buf); fstrcpy(gp_buf.comment, ""); gp_buf.attr = 0x07; /* cycle through unix groups */ while ((unix_grp = getgrent()) != NULL) { DOM_SID sid; BOOL is_alias; DEBUG(10,("getgrpunixpwent: enum unix group entry %s\n", unix_grp->gr_name)); is_alias = map_alias_gid(unix_grp->gr_gid, &sid, NULL, NULL); if (is_alias) { sid_split_rid(&sid, NULL); is_alias = sid_equal(&sid, &global_sam_sid); } if (map_group_gid(unix_grp->gr_gid, &sid, gp_buf.name, NULL)) { /* * find the NT name represented by this UNIX gid. * then, only accept NT groups that are in our domain */ sid_split_rid(&sid, &gp_buf.rid); if (sid_equal(&sid, &global_sam_sid)) { if (!is_alias) { break; /* hooray. */ } DEBUG(0,("configuration mistake: unix group %s is mapped to both an NT alias and an NT group\n", gp_buf.name)); } } else { /* * assume that the UNIX group is an NT group with * the same name. convert gid to a group rid. */ fstrcpy(gp_buf.name, unix_grp->gr_name); gp_buf.rid = pwdb_gid_to_group_rid(unix_grp->gr_gid); break; } } if (unix_grp == NULL) { return NULL; } /* get the user's domain groups. there are a maximum of 32 */ if (mem != NULL && num_mem != NULL) { (*mem) = NULL; (*num_mem) = 0; get_unixgroup_members(unix_grp, num_mem, mem); } { pstring linebuf; make_group_line(linebuf, sizeof(linebuf), &gp_buf, mem, num_mem); DEBUG(10,("line: '%s'\n", linebuf)); } return &gp_buf; } /************************************************************************ Routine to add an entry to the grppasswd file. *************************************************************************/ static BOOL add_grpunixgrp_entry(DOMAIN_GRP *newgrp) { DEBUG(0, ("add_grpunixgrp_entry: NOT IMPLEMENTED\n")); return False; } /************************************************************************ Routine to search the grppasswd file for an entry matching the groupname. and then modify its group entry. We can't use the startgrppwent()/ getgrppwent()/endgrppwent() interfaces here as we depend on looking in the actual file to decide how much room we have to write data. override = False, normal override = True, override XXXXXXXX'd out group or NO PASS ************************************************************************/ static BOOL mod_grpunixgrp_entry(DOMAIN_GRP* grp) { DEBUG(0, ("mod_grpunixgrp_entry: NOT IMPLEMENTED\n")); return False; } static struct groupdb_ops unix_ops = { startgrpunixpwent, endgrpunixpwent, getgrpunixpwpos, setgrpunixpwpos, iterate_getgroupnam, /* In groupdb.c */ iterate_getgroupgid, /* In groupdb.c */ iterate_getgrouprid, /* In groupdb.c */ getgrpunixpwent, add_grpunixgrp_entry, mod_grpunixgrp_entry, iterate_getusergroupsnam /* in groupdb.c */ }; struct groupdb_ops *unix_initialise_group_db(void) { return &unix_ops; } #else /* Do *NOT* make this function static. It breaks the compile on gcc. JRA */ void unix_grppass_dummy_function(void) { } /* stop some compilers complaining */ #endif /* USE_SMBPASS_DB */