/* * Unix SMB/Netbios implementation. * Version 1.9. * RPC Pipe client / server routines * Copyright (C) Andrew Tridgell 1992-1997, * Copyright (C) Luke Kenneth Casson Leighton 1996-1997, * Copyright (C) Paul Ashton 1997. * Copyright (C) Hewlett-Packard Company 1999. * Copyright (C) Jeremy Allison 2001. * * 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. */ /* * This is the implementation of the SAMR code. */ #include "includes.h" extern int DEBUGLEVEL; extern fstring global_myworkgroup; extern pstring global_myname; extern DOM_SID global_sam_sid; extern rid_name domain_group_rids[]; extern rid_name domain_alias_rids[]; extern rid_name builtin_alias_rids[]; struct samr_info { /* for use by the \PIPE\samr policy */ DOM_SID sid; uint32 status; /* some sort of flag. best to record it. comes from opnum 0x39 */ }; /******************************************************************* Function to free the per handle data. ********************************************************************/ static void free_samr_info(void *ptr) { struct samr_info *samr = (struct samr_info *)ptr; safe_free(samr); } /******************************************************************* This next function should be replaced with something that dynamically returns the correct user info..... JRA. ********************************************************************/ static BOOL get_sampwd_entries(SAM_USER_INFO_21 *pw_buf, int start_idx, int *total_entries, int *num_entries, int max_num_entries, uint16 acb_mask) { SAM_ACCOUNT *pwd = NULL; (*num_entries) = 0; (*total_entries) = 0; if (pw_buf == NULL) return False; if (!pdb_setsampwent(False)) { DEBUG(0, ("get_sampwd_entries: Unable to open passdb.\n")); return False; } while (((pwd = pdb_getsampwent()) != NULL) && (*num_entries) < max_num_entries) { int user_name_len; if (start_idx > 0) { /* skip the requested number of entries. not very efficient, but hey... */ start_idx--; continue; } user_name_len = strlen(pdb_get_username(pwd))+1; init_unistr2(&pw_buf[(*num_entries)].uni_user_name, pdb_get_username(pwd), user_name_len); init_uni_hdr(&pw_buf[(*num_entries)].hdr_user_name, user_name_len); pw_buf[(*num_entries)].user_rid = pwd->user_rid; memset((char *)pw_buf[(*num_entries)].nt_pwd, '\0', 16); /* Now check if the NT compatible password is available. */ if (pdb_get_nt_passwd(pwd)) memcpy( pw_buf[(*num_entries)].nt_pwd , pdb_get_nt_passwd(pwd), 16); pw_buf[(*num_entries)].acb_info = pdb_get_acct_ctrl(pwd); DEBUG(5, ("entry idx: %d user %s, rid 0x%x, acb %x", (*num_entries), pdb_get_username(pwd), pdb_get_user_rid(pwd), pdb_get_acct_ctrl(pwd) )); if (acb_mask == 0 || (pwd->acct_ctrl & acb_mask)) { DEBUG(5,(" acb_mask %x accepts\n", acb_mask)); (*num_entries)++; } else DEBUG(5,(" acb_mask %x rejects\n", acb_mask)); (*total_entries)++; } pdb_endsampwent(); return (*num_entries) > 0; } static BOOL jf_get_sampwd_entries(SAM_USER_INFO_21 *pw_buf, int start_idx, int *total_entries, uint32 *num_entries, int max_num_entries, uint16 acb_mask) { SAM_ACCOUNT *pwd = NULL; *num_entries = 0; *total_entries = 0; if (pw_buf == NULL) return False; if (!pdb_setsampwent(False)) { DEBUG(0, ("jf_get_sampwd_entries: Unable to open passdb.\n")); return False; } while (((pwd = pdb_getsampwent()) != NULL) && (*num_entries) < max_num_entries) { int user_name_len; int full_name_len; if (acb_mask != 0 && !(pdb_get_acct_ctrl(pwd) & acb_mask)) continue; if (start_idx > 0) { /* skip the requested number of entries. not very efficient, but hey... */ start_idx--; continue; } ZERO_STRUCTP(&pw_buf[(*num_entries)]); user_name_len = strlen(pdb_get_username(pwd)); init_unistr2(&pw_buf[(*num_entries)].uni_user_name, pdb_get_username(pwd), user_name_len); init_uni_hdr(&pw_buf[(*num_entries)].hdr_user_name, user_name_len); full_name_len = strlen(pdb_get_fullname(pwd)); init_unistr2(&pw_buf[(*num_entries)].uni_full_name, pdb_get_fullname(pwd), full_name_len); init_uni_hdr(&pw_buf[(*num_entries)].hdr_full_name, full_name_len); pw_buf[(*num_entries)].user_rid = pdb_get_user_rid(pwd); memset((char *)pw_buf[(*num_entries)].nt_pwd, '\0', 16); /* Now check if the NT compatible password is available. */ if (pdb_get_nt_passwd(pwd)) memcpy( pw_buf[(*num_entries)].nt_pwd , pdb_get_nt_passwd(pwd), 16); pw_buf[(*num_entries)].acb_info = pdb_get_acct_ctrl(pwd); DEBUG(5, ("entry idx: %d user %s, rid 0x%x, acb %x\n", (*num_entries), pdb_get_username(pwd), pdb_get_user_rid(pwd), pdb_get_acct_ctrl(pwd) )); (*num_entries)++; } pdb_endsampwent(); *total_entries = *num_entries; return True; } /******************************************************************* This function uses the username map file and tries to map a UNIX user name to an DOS name. (Sort of the reverse of the map_username() function.) Since more than one DOS name can map to the UNIX name, to reverse the mapping you have to specify which corresponding DOS name you want; that's where the name_idx parameter comes in. Returns the string requested or NULL if it fails or can't complete the request for any reason. This doesn't handle group names (starting with '@') or names starting with '+' or '&'. If they are encountered, they are skipped. ********************************************************************/ static char *unmap_unixname(char *unix_user_name, int name_idx) { char *mapfile = lp_username_map(); char **lines; static pstring tok; int i; if (!*unix_user_name) return NULL; if (!*mapfile) return NULL; lines = file_lines_load(mapfile, NULL,False); if (!lines) { DEBUG(0,("unmap_unixname: can't open username map %s\n", mapfile)); return NULL; } DEBUG(5,("unmap_unixname: scanning username map %s, index: %d\n", mapfile, name_idx)); for (i=0; lines[i]; i++) { char *unixname = lines[i]; char *dosname = strchr(unixname,'='); if (!dosname) continue; *dosname++ = 0; while (isspace(*unixname)) unixname++; if ('!' == *unixname) { unixname++; while (*unixname && isspace(*unixname)) unixname++; } if (!*unixname || strchr("#;",*unixname)) continue; if (strncmp(unixname, unix_user_name, strlen(unix_user_name))) continue; /* We have matched the UNIX user name */ while(next_token(&dosname, tok, LIST_SEP, sizeof(tok))) { if (!strchr("@&+", *tok)) { name_idx--; if (name_idx < 0 ) { break; } } } if (name_idx >= 0) { DEBUG(0,("unmap_unixname: index too high - not that many DOS names\n")); file_lines_free(lines); return NULL; } else { file_lines_free(lines); return tok; } } DEBUG(0,("unmap_unixname: Couldn't find the UNIX user name\n")); file_lines_free(lines); return NULL; } /******************************************************************* This function sets up a list of users taken from the list of users that UNIX knows about, as well as all the user names that Samba maps to a valid UNIX user name. (This should work with /etc/passwd or NIS.) ********************************************************************/ static BOOL get_passwd_entries(SAM_USER_INFO_21 *pw_buf, int start_idx, int *total_entries, int *num_entries, int max_num_entries, uint16 acb_mask) { static struct passwd *pwd = NULL; static uint32 pw_rid; static BOOL orig_done = False; static int current_idx = 0; static int mapped_idx = 0; char *sep; DEBUG(5, ("get_passwd_entries: retrieving a list of UNIX users\n")); (*num_entries) = 0; (*total_entries) = 0; /* Skip all this stuff if we're in appliance mode */ if (lp_hide_local_users()) goto done; if (pw_buf == NULL) return False; if (current_idx == 0) { sys_setpwent(); } /* These two cases are inefficient, but should be called very rarely */ /* they are the cases where the starting index isn't picking up */ /* where we left off last time. It is efficient when it starts over */ /* at zero though. */ if (start_idx > current_idx) { /* We aren't far enough; advance to start_idx */ while (current_idx <= start_idx) { char *unmap_name; if(!orig_done) { if ((pwd = sys_getpwent()) == NULL) break; current_idx++; orig_done = True; } while (((unmap_name = unmap_unixname(pwd->pw_name, mapped_idx)) != NULL) && (current_idx < start_idx)) { current_idx++; mapped_idx++; } if (unmap_name == NULL) { orig_done = False; mapped_idx = 0; } } } else if (start_idx < current_idx) { /* We are already too far; start over and advance to start_idx */ sys_endpwent(); sys_setpwent(); current_idx = 0; mapped_idx = 0; orig_done = False; while (current_idx < start_idx) { char *unmap_name; if(!orig_done) { if ((pwd = sys_getpwent()) == NULL) break; current_idx++; orig_done = True; } while (((unmap_name = unmap_unixname(pwd->pw_name, mapped_idx)) != NULL) && (current_idx < start_idx)) { current_idx++; mapped_idx++; } if (unmap_name == NULL) { orig_done = False; mapped_idx = 0; } } } sep = lp_winbind_separator(); /* now current_idx == start_idx */ while ((*num_entries) < max_num_entries) { int user_name_len; char *unmap_name; /* This does the original UNIX user itself */ if(!orig_done) { if ((pwd = sys_getpwent()) == NULL) break; /* Don't enumerate winbind users as they are not local */ if (strchr(pwd->pw_name, *sep) != NULL) { continue; } user_name_len = strlen(pwd->pw_name); /* skip the trust account stored in the /etc/passwd file */ if (pwd->pw_name[user_name_len-1]=='$') continue; pw_rid = pdb_uid_to_user_rid(pwd->pw_uid); ZERO_STRUCTP(&pw_buf[(*num_entries)]); init_unistr2(&pw_buf[(*num_entries)].uni_user_name, pwd->pw_name, user_name_len); init_uni_hdr(&pw_buf[(*num_entries)].hdr_user_name, user_name_len); pw_buf[(*num_entries)].user_rid = pw_rid; memset((char *)pw_buf[(*num_entries)].nt_pwd, '\0', 16); pw_buf[(*num_entries)].acb_info = ACB_NORMAL; DEBUG(5, ("get_passwd_entries: entry idx %d user %s, rid 0x%x\n", (*num_entries), pwd->pw_name, pw_rid)); (*num_entries)++; (*total_entries)++; current_idx++; orig_done = True; } /* This does all the user names that map to the UNIX user */ while (((unmap_name = unmap_unixname(pwd->pw_name, mapped_idx)) != NULL) && (*num_entries < max_num_entries)) { user_name_len = strlen(unmap_name); ZERO_STRUCTP(&pw_buf[(*num_entries)]); init_unistr2(&pw_buf[(*num_entries)].uni_user_name, unmap_name, user_name_len); init_uni_hdr(&pw_buf[(*num_entries)].hdr_user_name, user_name_len); pw_buf[(*num_entries)].user_rid = pw_rid; memset((char *)pw_buf[(*num_entries)].nt_pwd, '\0', 16); pw_buf[(*num_entries)].acb_info = ACB_NORMAL; DEBUG(5, ("get_passwd_entries: entry idx %d user %s, rid 0x%x\n", (*num_entries), pwd->pw_name, pw_rid)); (*num_entries)++; (*total_entries)++; current_idx++; mapped_idx++; } if (unmap_name == NULL) { /* done with 'aliases', go on to next UNIX user */ orig_done = False; mapped_idx = 0; } } if (pwd == NULL) { /* totally done, reset everything */ sys_endpwent(); current_idx = 0; mapped_idx = 0; } done: return (*num_entries) > 0; } /******************************************************************* _samr_close_hnd ********************************************************************/ uint32 _samr_close_hnd(pipes_struct *p, SAMR_Q_CLOSE_HND *q_u, SAMR_R_CLOSE_HND *r_u) { r_u->status = NT_STATUS_NOPROBLEMO; /* close the policy handle */ if (!close_policy_hnd(p, &q_u->pol)) return NT_STATUS_OBJECT_NAME_INVALID; DEBUG(5,("samr_reply_close_hnd: %d\n", __LINE__)); return r_u->status; } /******************************************************************* samr_reply_open_domain ********************************************************************/ uint32 _samr_open_domain(pipes_struct *p, SAMR_Q_OPEN_DOMAIN *q_u, SAMR_R_OPEN_DOMAIN *r_u) { struct samr_info *info; r_u->status = NT_STATUS_NOPROBLEMO; /* find the connection policy handle. */ if (!find_policy_by_hnd(p, &q_u->pol, NULL)) return NT_STATUS_INVALID_HANDLE; /* associate the domain SID with the (unique) handle. */ if ((info = (struct samr_info *)malloc(sizeof(struct samr_info))) == NULL) return NT_STATUS_NO_MEMORY; ZERO_STRUCTP(info); info->sid = q_u->dom_sid.sid; /* get a (unique) handle. open a policy on it. */ if (!create_policy_hnd(p, &r_u->domain_pol, free_samr_info, (void *)info)) return NT_STATUS_OBJECT_NAME_NOT_FOUND; DEBUG(5,("samr_open_domain: %d\n", __LINE__)); return r_u->status; } static uint32 get_lsa_policy_samr_rid(struct samr_info *info) { if (!info) { DEBUG(3,("Error getting policy\n")); return 0xffffffff; } return info->sid.sub_auths[info->sid.num_auths-1]; } /******************************************************************* _samr_get_usrdom_pwinfo ********************************************************************/ uint32 _samr_get_usrdom_pwinfo(pipes_struct *p, SAMR_Q_GET_USRDOM_PWINFO *q_u, SAMR_R_GET_USRDOM_PWINFO *r_u) { struct samr_info *info = NULL; r_u->status = NT_STATUS_NOPROBLEMO; /* find the policy handle. open a policy on it. */ if (!find_policy_by_hnd(p, &q_u->user_pol, (void **)&info)) { return NT_STATUS_INVALID_HANDLE; } /* find the user's rid */ if (get_lsa_policy_samr_rid(info) == 0xffffffff) { return NT_STATUS_OBJECT_TYPE_MISMATCH; } init_samr_r_get_usrdom_pwinfo(r_u, NT_STATUS_NOPROBLEMO); DEBUG(5,("_samr_get_usrdom_pwinfo: %d\n", __LINE__)); return r_u->status; } /******************************************************************* samr_make_usr_obj_sd ********************************************************************/ static uint32 samr_make_usr_obj_sd(TALLOC_CTX *ctx, SEC_DESC_BUF **buf, DOM_SID *usr_sid) { extern DOM_SID global_sid_Builtin; extern DOM_SID global_sid_World; DOM_SID adm_sid; DOM_SID act_sid; SEC_ACE ace[4]; SEC_ACCESS mask; SEC_ACL *psa = NULL; SEC_DESC *psd = NULL; size_t sd_size; sid_copy(&adm_sid, &global_sid_Builtin); sid_append_rid(&adm_sid, BUILTIN_ALIAS_RID_ADMINS); sid_copy(&act_sid, &global_sid_Builtin); sid_append_rid(&act_sid, BUILTIN_ALIAS_RID_ACCOUNT_OPS); init_sec_access(&mask, 0x2035b); init_sec_ace(&ace[0], &global_sid_World, SEC_ACE_TYPE_ACCESS_ALLOWED, mask, 0); init_sec_access(&mask, 0xf07ff); init_sec_ace(&ace[1], &adm_sid, SEC_ACE_TYPE_ACCESS_ALLOWED, mask, 0); init_sec_ace(&ace[2], &act_sid, SEC_ACE_TYPE_ACCESS_ALLOWED, mask, 0); init_sec_access(&mask,0x20044); init_sec_ace(&ace[3], usr_sid, SEC_ACE_TYPE_ACCESS_ALLOWED, mask, 0); if((psa = make_sec_acl(ctx, NT4_ACL_REVISION, 4, ace)) == NULL) return NT_STATUS_NO_MEMORY; if((psd = make_sec_desc(ctx, SEC_DESC_REVISION, NULL, NULL, NULL, psa, &sd_size)) == NULL) return NT_STATUS_NO_MEMORY; if((*buf = make_sec_desc_buf(ctx, sd_size, psd)) == NULL) return NT_STATUS_NO_MEMORY; return NT_STATUS_NOPROBLEMO; } static BOOL get_lsa_policy_samr_sid(pipes_struct *p, POLICY_HND *pol, DOM_SID *sid) { struct samr_info *info = NULL; /* find the policy handle. open a policy on it. */ if (!find_policy_by_hnd(p, pol, (void **)&info)) return False; if (!info) return False; *sid = info->sid; return True; } /******************************************************************* _samr_query_sec_obj ********************************************************************/ uint32 _samr_query_sec_obj(pipes_struct *p, SAMR_Q_QUERY_SEC_OBJ *q_u, SAMR_R_QUERY_SEC_OBJ *r_u) { DOM_SID pol_sid; r_u->status = NT_STATUS_NOPROBLEMO; /* Get the SID. */ if (!get_lsa_policy_samr_sid(p, &q_u->user_pol, &pol_sid)) return NT_STATUS_INVALID_HANDLE; r_u->status = samr_make_usr_obj_sd(p->mem_ctx, &r_u->buf, &pol_sid); if (r_u->status == NT_STATUS_NOPROBLEMO) r_u->ptr = 1; return r_u->status; } /******************************************************************* makes a SAM_ENTRY / UNISTR2* structure from a user list. ********************************************************************/ static void make_user_sam_entry_list(TALLOC_CTX *ctx, SAM_ENTRY **sam_pp, UNISTR2 **uni_name_pp, uint32 num_sam_entries, SAM_USER_INFO_21 *pass) { uint32 i; SAM_ENTRY *sam; UNISTR2 *uni_name; *sam_pp = NULL; *uni_name_pp = NULL; if (num_sam_entries == 0) return; sam = (SAM_ENTRY *)talloc(ctx, sizeof(SAM_ENTRY)*num_sam_entries); uni_name = (UNISTR2 *)talloc(ctx, sizeof(UNISTR2)*num_sam_entries); if (sam == NULL || uni_name == NULL) { DEBUG(0, ("NULL pointers in SAMR_R_QUERY_DISPINFO\n")); return; } for (i = 0; i < num_sam_entries; i++) { int len = pass[i].uni_user_name.uni_str_len; init_sam_entry(&sam[i], len, pass[i].user_rid); copy_unistr2(&uni_name[i], &pass[i].uni_user_name); } *sam_pp = sam; *uni_name_pp = uni_name; } /******************************************************************* samr_reply_enum_dom_users ********************************************************************/ uint32 _samr_enum_dom_users(pipes_struct *p, SAMR_Q_ENUM_DOM_USERS *q_u, SAMR_R_ENUM_DOM_USERS *r_u) { SAM_USER_INFO_21 pass[MAX_SAM_ENTRIES]; int num_entries = 0; int total_entries = 0; BOOL ret; r_u->status = NT_STATUS_NOPROBLEMO; /* find the policy handle. open a policy on it. */ if (!find_policy_by_hnd(p, &q_u->pol, NULL)) return NT_STATUS_INVALID_HANDLE; DEBUG(5,("_samr_enum_dom_users: %d\n", __LINE__)); become_root(); ret = get_sampwd_entries(pass, q_u->start_idx, &total_entries, &num_entries, MAX_SAM_ENTRIES, q_u->acb_mask); unbecome_root(); if (!ret) return NT_STATUS_ACCESS_DENIED; /* * Note from JRA. total_entries is not being used here. Currently if there is a * large user base then it looks like NT will enumerate until get_sampwd_entries * returns False due to num_entries being zero. This will cause an access denied * return. I don't think this is right and needs further investigation. Note that * this is also the same in the TNG code (I don't think that has been tested with * a very large user list as MAX_SAM_ENTRIES is set to 600). * * I also think that one of the 'num_entries' return parameters is probably * the "max entries" parameter - but in the TNG code they're all currently set to the same * value (again I think this is wrong). */ make_user_sam_entry_list(p->mem_ctx, &r_u->sam, &r_u->uni_acct_name, num_entries, pass); init_samr_r_enum_dom_users(r_u, q_u->start_idx + num_entries, num_entries); DEBUG(5,("_samr_enum_dom_users: %d\n", __LINE__)); return r_u->status; } /******************************************************************* makes a SAM_ENTRY / UNISTR2* structure from a group list. ********************************************************************/ static void make_group_sam_entry_list(TALLOC_CTX *ctx, SAM_ENTRY **sam_pp, UNISTR2 **uni_name_pp, uint32 num_sam_entries, DOMAIN_GRP *grp) { uint32 i; SAM_ENTRY *sam; UNISTR2 *uni_name; *sam_pp = NULL; *uni_name_pp = NULL; if (num_sam_entries == 0) return; sam = (SAM_ENTRY *)talloc(ctx, sizeof(SAM_ENTRY)*num_sam_entries); uni_name = (UNISTR2 *)talloc(ctx, sizeof(UNISTR2)*num_sam_entries); if (sam == NULL || uni_name == NULL) { DEBUG(0, ("NULL pointers in SAMR_R_QUERY_DISPINFO\n")); return; } for (i = 0; i < num_sam_entries; i++) { /* * JRA. I think this should include the null. TNG does not. */ int len = strlen(grp[i].name)+1; init_sam_entry(&sam[i], len, grp[i].rid); init_unistr2(&uni_name[i], grp[i].name, len); } *sam_pp = sam; *uni_name_pp = uni_name; } /******************************************************************* Get the group entries - similar to get_sampwd_entries(). ********************************************************************/ static BOOL get_group_alias_entries(DOMAIN_GRP *d_grp, DOM_SID *sid, uint32 start_idx, uint32 *p_num_entries, uint32 max_entries) { fstring sid_str; fstring sam_sid_str; uint32 num_entries = 0; sid_to_string(sid_str, sid); sid_to_string(sam_sid_str, &global_sam_sid); *p_num_entries = 0; /* well-known aliases */ if (strequal(sid_str, "S-1-5-32")) { char *name; while (!lp_hide_local_users() && num_entries < max_entries && ((name = builtin_alias_rids[num_entries].name) != NULL)) { fstrcpy(d_grp[num_entries].name, name); d_grp[num_entries].rid = builtin_alias_rids[num_entries].rid; num_entries++; } } else if (strequal(sid_str, sam_sid_str) && !lp_hide_local_users()) { char *name; char *sep; struct group *grp; sep = lp_winbind_separator(); /* local aliases */ /* we return the UNIX groups here. This seems to be the right */ /* thing to do, since NT member servers return their local */ /* groups in the same situation. */ setgrent(); while (num_entries < max_entries && ((grp = getgrent()) != NULL)) { int i; uint32 trid; name = grp->gr_name; /* Don't return winbind groups as they are not local! */ if (strchr(name, *sep) != NULL) continue; trid = pdb_gid_to_group_rid(grp->gr_gid); for( i = 0; i < num_entries; i++) if ( d_grp[i].rid == trid ) break; if ( i < num_entries ) continue; /* rid was there, dup! */ /* JRA - added this for large group db enumeration... */ if (start_idx > 0) { /* skip the requested number of entries. not very efficient, but hey... */ start_idx--; continue; } fstrcpy(d_grp[num_entries].name, name); d_grp[num_entries].rid = trid; num_entries++; } endgrent(); } *p_num_entries = num_entries; return True; } /******************************************************************* Get the group entries - similar to get_sampwd_entries(). ********************************************************************/ static BOOL get_group_domain_entries(DOMAIN_GRP *d_grp, DOM_SID *sid, uint32 start_idx, uint32 *p_num_entries, uint32 max_entries) { fstring sid_str; fstring sam_sid_str; uint32 num_entries = 0; fstring name="Domain Admins"; fstring comment="Just to make it work !"; sid_to_string(sid_str, sid); sid_to_string(sam_sid_str, &global_sam_sid); *p_num_entries = 0; fstrcpy(d_grp[0].name, name); fstrcpy(d_grp[0].comment, comment); d_grp[0].rid = DOMAIN_GROUP_RID_ADMINS; d_grp[0].attr=SID_NAME_DOM_GRP; fstrcpy(d_grp[1].name, "Domain Users"); fstrcpy(d_grp[1].comment, "Just to make it work !"); d_grp[1].rid = DOMAIN_GROUP_RID_USERS; d_grp[1].attr=SID_NAME_DOM_GRP; num_entries = 2; *p_num_entries = num_entries; return True; } /******************************************************************* samr_reply_enum_dom_groups Only reply with one group - domain admins. This must be fixed for a real PDC. JRA. ********************************************************************/ uint32 _samr_enum_dom_groups(pipes_struct *p, SAMR_Q_ENUM_DOM_GROUPS *q_u, SAMR_R_ENUM_DOM_GROUPS *r_u) { DOMAIN_GRP grp[2]; uint32 num_entries; DOM_SID sid; r_u->status = NT_STATUS_NOPROBLEMO; if (!get_lsa_policy_samr_sid(p, &q_u->pol, &sid)) return NT_STATUS_INVALID_HANDLE; DEBUG(5,("samr_reply_enum_dom_groups: %d\n", __LINE__)); get_group_domain_entries(grp, &sid, q_u->start_idx, &num_entries, MAX_SAM_ENTRIES); make_group_sam_entry_list(p->mem_ctx, &r_u->sam, &r_u->uni_grp_name, num_entries, grp); init_samr_r_enum_dom_groups(r_u, q_u->start_idx, num_entries); DEBUG(5,("samr_enum_dom_groups: %d\n", __LINE__)); return r_u->status; } /******************************************************************* samr_reply_enum_dom_aliases ********************************************************************/ uint32 _samr_enum_dom_aliases(pipes_struct *p, SAMR_Q_ENUM_DOM_ALIASES *q_u, SAMR_R_ENUM_DOM_ALIASES *r_u) { DOMAIN_GRP grp[MAX_SAM_ENTRIES]; uint32 num_entries = 0; fstring sid_str; DOM_SID sid; r_u->status = NT_STATUS_NOPROBLEMO; if (!get_lsa_policy_samr_sid(p, &q_u->pol, &sid)) return NT_STATUS_INVALID_HANDLE; sid_to_string(sid_str, &sid); DEBUG(5,("samr_reply_enum_dom_aliases: sid %s\n", sid_str)); if (!get_group_alias_entries(grp, &sid, q_u->start_idx, &num_entries, MAX_SAM_ENTRIES)) return NT_STATUS_ACCESS_DENIED; make_group_sam_entry_list(p->mem_ctx, &r_u->sam, &r_u->uni_grp_name, num_entries, grp); init_samr_r_enum_dom_aliases(r_u, q_u->start_idx, num_entries); DEBUG(5,("samr_enum_dom_aliases: %d\n", __LINE__)); return r_u->status; } /******************************************************************* samr_reply_query_dispinfo ********************************************************************/ uint32 _samr_query_dispinfo(pipes_struct *p, SAMR_Q_QUERY_DISPINFO *q_u, SAMR_R_QUERY_DISPINFO *r_u) { SAM_USER_INFO_21 pass[MAX_SAM_ENTRIES]; DOMAIN_GRP grps[MAX_SAM_ENTRIES]; uint16 acb_mask = ACB_NORMAL; uint32 num_entries = 0; int orig_num_entries = 0; int total_entries = 0; uint32 data_size = 0; DOM_SID sid; BOOL ret; SAM_DISPINFO_CTR *ctr; DEBUG(5, ("samr_reply_query_dispinfo: %d\n", __LINE__)); r_u->status = NT_STATUS_NOPROBLEMO; if (!get_lsa_policy_samr_sid(p, &q_u->domain_pol, &sid)) return NT_STATUS_INVALID_HANDLE; /* decide how many entries to get depending on the max_entries and max_size passed by client */ if(q_u->max_entries > MAX_SAM_ENTRIES) q_u->max_entries = MAX_SAM_ENTRIES; /* Get what we need from the password database */ switch (q_u->switch_level) { case 0x2: acb_mask = ACB_WSTRUST; /* Fall through */ case 0x1: case 0x4: become_root(); #if 0 ret = get_passwd_entries(pass, q_u->start_idx, &total_entries, &num_entries, MAX_SAM_ENTRIES, acb_mask); #endif #if 0 /* * Which should we use here ? JRA. */ ret = get_sampwd_entries(pass, q_u->start_idx, &total_entries, &num_entries, MAX_SAM_ENTRIES, acb_mask); #endif #if 1 ret = jf_get_sampwd_entries(pass, q_u->start_idx, &total_entries, &num_entries, MAX_SAM_ENTRIES, acb_mask); #endif unbecome_root(); if (!ret) { DEBUG(5, ("get_sampwd_entries: failed\n")); return NT_STATUS_ACCESS_DENIED; } break; case 0x3: case 0x5: ret = get_group_domain_entries(grps, &sid, q_u->start_idx, &num_entries, MAX_SAM_ENTRIES); if (!ret) return NT_STATUS_ACCESS_DENIED; break; default: DEBUG(0,("_samr_query_dispinfo: Unknown info level (%u)\n", (unsigned int)q_u->switch_level )); return NT_STATUS_INVALID_INFO_CLASS; } if (num_entries > q_u->max_entries) num_entries = q_u->max_entries; if (num_entries > MAX_SAM_ENTRIES) { num_entries = MAX_SAM_ENTRIES; DEBUG(5, ("limiting number of entries to %d\n", num_entries)); } data_size = q_u->max_size; orig_num_entries = num_entries; ctr = (SAM_DISPINFO_CTR *)talloc(p->mem_ctx,sizeof(SAM_DISPINFO_CTR)); /* Now create reply structure */ switch (q_u->switch_level) { case 0x1: ctr->sam.info1 = (SAM_DISPINFO_1 *)talloc(p->mem_ctx,num_entries*sizeof(SAM_DISPINFO_1)); init_sam_dispinfo_1(ctr->sam.info1, &num_entries, &data_size, q_u->start_idx, pass); break; case 0x2: ctr->sam.info2 = (SAM_DISPINFO_2 *)talloc(p->mem_ctx,num_entries*sizeof(SAM_DISPINFO_2)); init_sam_dispinfo_2(ctr->sam.info2, &num_entries, &data_size, q_u->start_idx, pass); break; case 0x3: ctr->sam.info3 = (SAM_DISPINFO_3 *)talloc(p->mem_ctx,num_entries*sizeof(SAM_DISPINFO_3)); init_sam_dispinfo_3(ctr->sam.info3, &num_entries, &data_size, q_u->start_idx, grps); break; case 0x4: ctr->sam.info4 = (SAM_DISPINFO_4 *)talloc(p->mem_ctx,num_entries*sizeof(SAM_DISPINFO_4)); init_sam_dispinfo_4(ctr->sam.info4, &num_entries, &data_size, q_u->start_idx, pass); break; case 0x5: ctr->sam.info5 = (SAM_DISPINFO_5 *)talloc(p->mem_ctx,num_entries*sizeof(SAM_DISPINFO_5)); init_sam_dispinfo_5(ctr->sam.info5, &num_entries, &data_size, q_u->start_idx, grps); break; default: ctr->sam.info = NULL; return NT_STATUS_INVALID_INFO_CLASS; } DEBUG(5, ("_samr_query_dispinfo: %d\n", __LINE__)); init_samr_r_query_dispinfo(r_u, num_entries, data_size, q_u->switch_level, ctr, r_u->status); if (num_entries < orig_num_entries) { return STATUS_MORE_ENTRIES; } return r_u->status; } /******************************************************************* samr_reply_query_aliasinfo ********************************************************************/ uint32 _samr_query_aliasinfo(pipes_struct *p, SAMR_Q_QUERY_ALIASINFO *q_u, SAMR_R_QUERY_ALIASINFO *r_u) { fstring alias_desc = "Local Unix group"; fstring alias=""; enum SID_NAME_USE type; uint32 alias_rid; struct samr_info *info = NULL; r_u->status = NT_STATUS_NOPROBLEMO; DEBUG(5,("_samr_query_aliasinfo: %d\n", __LINE__)); /* find the policy handle. open a policy on it. */ if (!find_policy_by_hnd(p, &q_u->pol, (void **)&info)) return NT_STATUS_INVALID_HANDLE; alias_rid = get_lsa_policy_samr_rid(info); if(alias_rid == 0xffffffff) return NT_STATUS_NO_SUCH_ALIAS; if(!local_lookup_rid(alias_rid, alias, &type)) return NT_STATUS_NO_SUCH_ALIAS; switch (q_u->switch_level) { case 3: r_u->ptr = 1; r_u->ctr.switch_value1 = 3; init_samr_alias_info3(&r_u->ctr.alias.info3, alias_desc); break; default: return NT_STATUS_INVALID_INFO_CLASS; } DEBUG(5,("_samr_query_aliasinfo: %d\n", __LINE__)); return r_u->status; } #if 0 /******************************************************************* samr_reply_lookup_ids ********************************************************************/ uint32 _samr_lookup_ids(pipes_struct *p, SAMR_Q_LOOKUP_IDS *q_u, SAMR_R_LOOKUP_IDS *r_u) { uint32 rid[MAX_SAM_ENTRIES]; int num_rids = q_u->num_sids1; r_u->status = NT_STATUS_NOPROBLEMO; DEBUG(5,("_samr_lookup_ids: %d\n", __LINE__)); if (num_rids > MAX_SAM_ENTRIES) { num_rids = MAX_SAM_ENTRIES; DEBUG(5,("_samr_lookup_ids: truncating entries to %d\n", num_rids)); } #if 0 int i; SMB_ASSERT_ARRAY(q_u->uni_user_name, num_rids); for (i = 0; i < num_rids && status == 0; i++) { struct sam_passwd *sam_pass; fstring user_name; fstrcpy(user_name, unistrn2(q_u->uni_user_name[i].buffer, q_u->uni_user_name[i].uni_str_len)); /* find the user account */ become_root(); sam_pass = get_smb21pwd_entry(user_name, 0); unbecome_root(); if (sam_pass == NULL) { status = 0xC0000000 | NT_STATUS_NO_SUCH_USER; rid[i] = 0; } else { rid[i] = sam_pass->user_rid; } } #endif num_rids = 1; rid[0] = BUILTIN_ALIAS_RID_USERS; init_samr_r_lookup_ids(&r_u, num_rids, rid, NT_STATUS_NOPROBLEMO); DEBUG(5,("_samr_lookup_ids: %d\n", __LINE__)); return r_u->status; } #endif /******************************************************************* _samr_lookup_names ********************************************************************/ uint32 _samr_lookup_names(pipes_struct *p, SAMR_Q_LOOKUP_NAMES *q_u, SAMR_R_LOOKUP_NAMES *r_u) { uint32 rid[MAX_SAM_ENTRIES]; enum SID_NAME_USE type[MAX_SAM_ENTRIES]; int i; int num_rids = q_u->num_names1; DOM_SID pol_sid; r_u->status = NT_STATUS_NOPROBLEMO; DEBUG(5,("_samr_lookup_names: %d\n", __LINE__)); ZERO_ARRAY(rid); ZERO_ARRAY(type); if (!get_lsa_policy_samr_sid(p, &q_u->pol, &pol_sid)) { init_samr_r_lookup_names(p->mem_ctx, r_u, 0, NULL, NULL, NT_STATUS_OBJECT_TYPE_MISMATCH); return r_u->status; } if (num_rids > MAX_SAM_ENTRIES) { num_rids = MAX_SAM_ENTRIES; DEBUG(5,("_samr_lookup_names: truncating entries to %d\n", num_rids)); } SMB_ASSERT_ARRAY(q_u->uni_name, num_rids); for (i = 0; i < num_rids; i++) { fstring name; r_u->status = NT_STATUS_NONE_MAPPED; rid [i] = 0xffffffff; type[i] = SID_NAME_UNKNOWN; fstrcpy(name, dos_unistrn2(q_u->uni_name[i].buffer, q_u->uni_name[i].uni_str_len)); if(sid_equal(&pol_sid, &global_sam_sid)) { DOM_SID sid; if(local_lookup_name(global_myname, name, &sid, &type[i])) { sid_split_rid( &sid, &rid[i]); r_u->status = NT_STATUS_NOPROBLEMO; } } } init_samr_r_lookup_names(p->mem_ctx, r_u, num_rids, rid, (uint32 *)type, r_u->status); DEBUG(5,("_samr_lookup_names: %d\n", __LINE__)); return r_u->status; } /******************************************************************* _samr_chgpasswd_user ********************************************************************/ uint32 _samr_chgpasswd_user(pipes_struct *p, SAMR_Q_CHGPASSWD_USER *q_u, SAMR_R_CHGPASSWD_USER *r_u) { fstring user_name; fstring wks; DEBUG(5,("_samr_chgpasswd_user: %d\n", __LINE__)); r_u->status = NT_STATUS_NOPROBLEMO; fstrcpy(user_name, dos_unistrn2(q_u->uni_user_name.buffer, q_u->uni_user_name.uni_str_len)); fstrcpy(wks , dos_unistrn2(q_u->uni_dest_host.buffer, q_u->uni_dest_host.uni_str_len)); DEBUG(5,("samr_chgpasswd_user: user: %s wks: %s\n", user_name, wks)); if (!pass_oem_change(user_name, q_u->lm_newpass.pass, q_u->lm_oldhash.hash, q_u->nt_newpass.pass, q_u->nt_oldhash.hash)) r_u->status = NT_STATUS_WRONG_PASSWORD; init_samr_r_chgpasswd_user(r_u, r_u->status); DEBUG(5,("_samr_chgpasswd_user: %d\n", __LINE__)); return r_u->status; } /******************************************************************* makes a SAMR_R_LOOKUP_RIDS structure. ********************************************************************/ static BOOL make_samr_lookup_rids(TALLOC_CTX *ctx, uint32 num_names, fstring names[], UNIHDR **pp_hdr_name, UNISTR2 **pp_uni_name) { uint32 i; UNIHDR *hdr_name; UNISTR2 *uni_name; *pp_uni_name = NULL; *pp_hdr_name = NULL; if (num_names != 0) { hdr_name = (UNIHDR *)talloc(ctx, sizeof(UNIHDR)*num_names); if (hdr_name == NULL) return False; uni_name = (UNISTR2 *)talloc(ctx,sizeof(UNISTR2)*num_names); if (uni_name == NULL) return False; } for (i = 0; i < num_names; i++) { int len = names[i] != NULL ? strlen(names[i]) : 0; DEBUG(10, ("names[%d]:%s\n", i, names[i])); init_uni_hdr(&hdr_name[i], len); init_unistr2(&uni_name[i], names[i], len); } *pp_uni_name = uni_name; *pp_hdr_name = hdr_name; return True; } /******************************************************************* _samr_lookup_rids ********************************************************************/ uint32 _samr_lookup_rids(pipes_struct *p, SAMR_Q_LOOKUP_RIDS *q_u, SAMR_R_LOOKUP_RIDS *r_u) { fstring group_names[MAX_SAM_ENTRIES]; uint32 group_attrs[MAX_SAM_ENTRIES]; UNIHDR *hdr_name = NULL; UNISTR2 *uni_name = NULL; DOM_SID pol_sid; int num_rids = q_u->num_rids1; int i; r_u->status = NT_STATUS_NOPROBLEMO; DEBUG(5,("_samr_lookup_rids: %d\n", __LINE__)); /* find the policy handle. open a policy on it. */ if (!get_lsa_policy_samr_sid(p, &q_u->pol, &pol_sid)) return NT_STATUS_INVALID_HANDLE; if (num_rids > MAX_SAM_ENTRIES) { num_rids = MAX_SAM_ENTRIES; DEBUG(5,("_samr_lookup_rids: truncating entries to %d\n", num_rids)); } r_u->status = NT_STATUS_NONE_MAPPED; for (i = 0; i < num_rids; i++) { fstring tmpname; fstring domname; DOM_SID sid; enum SID_NAME_USE type; group_attrs[i] = SID_NAME_UNKNOWN; *group_names[i] = '\0'; if (sid_equal(&pol_sid, &global_sam_sid)) { sid_copy(&sid, &pol_sid); sid_append_rid(&sid, q_u->rid[i]); if (lookup_sid(&sid, domname, tmpname, &type)) { r_u->status = NT_STATUS_NOPROBLEMO; group_attrs[i] = (uint32)type; fstrcpy(group_names[i],tmpname); } } } if(!make_samr_lookup_rids(p->mem_ctx, num_rids, group_names, &hdr_name, &uni_name)) return NT_STATUS_NO_MEMORY; init_samr_r_lookup_rids(r_u, num_rids, hdr_name, uni_name, group_attrs); DEBUG(5,("_samr_lookup_rids: %d\n", __LINE__)); return r_u->status; } /******************************************************************* _api_samr_open_user ********************************************************************/ uint32 _api_samr_open_user(pipes_struct *p, SAMR_Q_OPEN_USER *q_u, SAMR_R_OPEN_USER *r_u) { SAM_ACCOUNT *sampass; DOM_SID sid; POLICY_HND domain_pol = q_u->domain_pol; uint32 user_rid = q_u->user_rid; POLICY_HND *user_pol = &r_u->user_pol; struct samr_info *info = NULL; r_u->status = NT_STATUS_NO_PROBLEMO; /* find the domain policy handle. */ if (!find_policy_by_hnd(p, &domain_pol, NULL)) return NT_STATUS_INVALID_HANDLE; become_root(); sampass = pdb_getsampwrid(user_rid); unbecome_root(); /* check that the RID exists in our domain. */ if (sampass == NULL) return NT_STATUS_NO_SUCH_USER; /* Get the domain SID stored in the domain policy */ if(!get_lsa_policy_samr_sid(p, &domain_pol, &sid)) return NT_STATUS_INVALID_HANDLE; /* append the user's RID to it */ if(!sid_append_rid(&sid, user_rid)) return NT_STATUS_NO_SUCH_USER; /* associate the user's SID with the new handle. */ if ((info = (struct samr_info *)malloc(sizeof(struct samr_info))) == NULL) return NT_STATUS_NO_MEMORY; ZERO_STRUCTP(info); info->sid = sid; /* get a (unique) handle. open a policy on it. */ if (!create_policy_hnd(p, user_pol, free_samr_info, (void *)info)) return NT_STATUS_OBJECT_NAME_NOT_FOUND; return r_u->status; } /************************************************************************* get_user_info_10 *************************************************************************/ static BOOL get_user_info_10(SAM_USER_INFO_10 *id10, uint32 user_rid) { SAM_ACCOUNT *smbpass; if (!pdb_rid_is_user(user_rid)) { DEBUG(4,("RID 0x%x is not a user RID\n", user_rid)); return False; } become_root(); smbpass = pdb_getsampwrid(user_rid); unbecome_root(); if (smbpass == NULL) { DEBUG(4,("User 0x%x not found\n", user_rid)); return False; } DEBUG(3,("User:[%s]\n", pdb_get_username(smbpass) )); init_sam_user_info10(id10, pdb_get_acct_ctrl(smbpass) ); return True; } /************************************************************************* get_user_info_12 *************************************************************************/ static BOOL get_user_info_12(SAM_USER_INFO_12 * id12, uint32 user_rid) { SAM_ACCOUNT *smbpass; become_root(); smbpass = pdb_getsampwrid(user_rid); unbecome_root(); if (smbpass == NULL) { DEBUG(4, ("User 0x%x not found\n", user_rid)); return False; } DEBUG(3,("User:[%s] 0x%x\n", pdb_get_username(smbpass), pdb_get_acct_ctrl(smbpass) )); if ( pdb_get_acct_ctrl(smbpass) & ACB_DISABLED) return False; init_sam_user_info12(id12, pdb_get_lanman_passwd(smbpass), pdb_get_nt_passwd(smbpass)); return True; } /************************************************************************* get_user_info_21 *************************************************************************/ static BOOL get_user_info_21(SAM_USER_INFO_21 *id21, uint32 user_rid) { SAM_ACCOUNT *sampass; if (!pdb_rid_is_user(user_rid)) { DEBUG(4,("RID 0x%x is not a user RID\n", user_rid)); return False; } become_root(); sampass = pdb_getsampwrid(user_rid); unbecome_root(); if (sampass == NULL) { DEBUG(4,("User 0x%x not found\n", user_rid)); return False; } DEBUG(3,("User:[%s]\n", pdb_get_username(sampass) )); init_sam_user_info21A(id21, sampass); return True; } /******************************************************************* _samr_query_userinfo ********************************************************************/ uint32 _samr_query_userinfo(pipes_struct *p, SAMR_Q_QUERY_USERINFO *q_u, SAMR_R_QUERY_USERINFO *r_u) { SAM_USERINFO_CTR *ctr; uint32 rid = 0; struct samr_info *info = NULL; r_u->status=NT_STATUS_NO_PROBLEMO; /* search for the handle */ if (!find_policy_by_hnd(p, &q_u->pol, (void **)&info)) return NT_STATUS_INVALID_HANDLE; /* find the user's rid */ if ((rid = get_lsa_policy_samr_rid(info)) == 0xffffffff) return NT_STATUS_OBJECT_TYPE_MISMATCH; DEBUG(5,("_samr_query_userinfo: rid:0x%x\n", rid)); ctr = (SAM_USERINFO_CTR *)talloc(p->mem_ctx, sizeof(SAM_USERINFO_CTR)); if (!ctr) return NT_STATUS_NO_MEMORY; ZERO_STRUCTP(ctr); /* ok! user info levels (lots: see MSDEV help), off we go... */ ctr->switch_value = q_u->switch_value; switch (q_u->switch_value) { case 0x10: ctr->info.id10 = (SAM_USER_INFO_10 *)talloc(p->mem_ctx, sizeof(SAM_USER_INFO_10)); if (ctr->info.id10 == NULL) return NT_STATUS_NO_MEMORY; if (!get_user_info_10(ctr->info.id10, rid)) return NT_STATUS_NO_SUCH_USER; break; #if 0 /* whoops - got this wrong. i think. or don't understand what's happening. */ case 0x11: { NTTIME expire; info = (void *)&id11; expire.low = 0xffffffff; expire.high = 0x7fffffff; ctr->info.id = (SAM_USER_INFO_11 *)talloc(p->mem_ctx, sizeof (*ctr-> info. id11)); init_sam_user_info11(ctr->info.id11, &expire, "BROOKFIELDS$", /* name */ 0x03ef, /* user rid */ 0x201, /* group rid */ 0x0080); /* acb info */ break; } #endif case 0x12: ctr->info.id12 = (SAM_USER_INFO_12 *)talloc(p->mem_ctx, sizeof(SAM_USER_INFO_12)); if (ctr->info.id12 == NULL) return NT_STATUS_NO_MEMORY; if (!get_user_info_12(ctr->info.id12, rid)) return NT_STATUS_NO_SUCH_USER; break; case 21: ctr->info.id21 = (SAM_USER_INFO_21 *)talloc(p->mem_ctx,sizeof(SAM_USER_INFO_21)); if (ctr->info.id21 == NULL) return NT_STATUS_NO_MEMORY; if (!get_user_info_21(ctr->info.id21, rid)) return NT_STATUS_NO_SUCH_USER; break; default: return NT_STATUS_INVALID_INFO_CLASS; } init_samr_r_query_userinfo(r_u, ctr, r_u->status); DEBUG(5,("_samr_query_userinfo: %d\n", __LINE__)); return r_u->status; } /******************************************************************* samr_reply_query_usergroups ********************************************************************/ uint32 _samr_query_usergroups(pipes_struct *p, SAMR_Q_QUERY_USERGROUPS *q_u, SAMR_R_QUERY_USERGROUPS *r_u) { struct sam_passwd *sam_pass; DOM_GID *gids = NULL; int num_groups = 0; pstring groups; uint32 rid; struct samr_info *info = NULL; r_u->status = NT_STATUS_NO_PROBLEMO; DEBUG(5,("_samr_query_usergroups: %d\n", __LINE__)); /* find the policy handle. open a policy on it. */ if (!find_policy_by_hnd(p, &q_u->pol, (void **)&info)) return NT_STATUS_INVALID_HANDLE; /* find the user's rid */ if ((rid = get_lsa_policy_samr_rid(info)) == 0xffffffff) return NT_STATUS_OBJECT_TYPE_MISMATCH; become_root(); sam_pass = pdb_getsampwrid(rid); unbecome_root(); if (sam_pass == NULL) return NT_STATUS_NO_SUCH_USER; get_domain_user_groups(groups, pdb_get_username(sam_pass)); gids = NULL; num_groups = make_dom_gids(p->mem_ctx, groups, &gids); /* construct the response. lkclXXXX: gids are not copied! */ init_samr_r_query_usergroups(r_u, num_groups, gids, r_u->status); DEBUG(5,("_samr_query_usergroups: %d\n", __LINE__)); return r_u->status; } /******************************************************************* _samr_query_dom_info ********************************************************************/ uint32 _samr_query_dom_info(pipes_struct *p, SAMR_Q_QUERY_DOMAIN_INFO *q_u, SAMR_R_QUERY_DOMAIN_INFO *r_u) { SAM_UNK_CTR *ctr; if ((ctr = (SAM_UNK_CTR *)talloc(p->mem_ctx, sizeof(SAM_UNK_CTR))) == NULL) return NT_STATUS_NO_MEMORY; ZERO_STRUCTP(ctr); r_u->status = NT_STATUS_NO_PROBLEMO; DEBUG(5,("_samr_query_dom_info: %d\n", __LINE__)); /* find the policy handle. open a policy on it. */ if (!find_policy_by_hnd(p, &q_u->domain_pol, NULL)) return NT_STATUS_INVALID_HANDLE; switch (q_u->switch_value) { case 0x01: init_unk_info1(&ctr->info.inf1); break; case 0x02: /* The time call below is to get a sequence number for the sam. FIXME !!! JRA. */ init_unk_info2(&ctr->info.inf2, global_myworkgroup, global_myname, (uint32) time(NULL)); break; case 0x03: init_unk_info3(&ctr->info.inf3); break; case 0x06: init_unk_info6(&ctr->info.inf6); break; case 0x07: init_unk_info7(&ctr->info.inf7); break; case 0x0c: init_unk_info12(&ctr->info.inf12); break; default: return NT_STATUS_INVALID_INFO_CLASS; } init_samr_r_query_dom_info(r_u, q_u->switch_value, ctr, NT_STATUS_NOPROBLEMO); DEBUG(5,("_samr_query_dom_info: %d\n", __LINE__)); return r_u->status; } /******************************************************************* _api_samr_create_user ********************************************************************/ uint32 _api_samr_create_user(pipes_struct *p, SAMR_Q_CREATE_USER *q_u, SAMR_R_CREATE_USER *r_u) { SAM_ACCOUNT *sam_pass; fstring mach_acct; pstring err_str; pstring msg_str; int local_flags=0; DOM_SID sid; pstring add_script; POLICY_HND dom_pol = q_u->domain_pol; UNISTR2 user_account = q_u->uni_name; uint16 acb_info = q_u->acb_info; POLICY_HND *user_pol = &r_u->user_pol; struct samr_info *info = NULL; /* find the policy handle. open a policy on it. */ if (!find_policy_by_hnd(p, &dom_pol, NULL)) return NT_STATUS_INVALID_HANDLE; /* find the machine account: tell the caller if it exists. lkclXXXX i have *no* idea if this is a problem or not or even if you are supposed to construct a different reply if the account already exists... */ fstrcpy(mach_acct, dos_unistrn2(user_account.buffer, user_account.uni_str_len)); strlower(mach_acct); become_root(); sam_pass = pdb_getsampwnam(mach_acct); unbecome_root(); if (sam_pass != NULL) { /* machine account exists: say so */ return NT_STATUS_USER_EXISTS; } local_flags=LOCAL_ADD_USER|LOCAL_DISABLE_USER|LOCAL_SET_NO_PASSWORD; local_flags|= (acb_info & ACB_WSTRUST) ? LOCAL_TRUST_ACCOUNT:0; /* * NB. VERY IMPORTANT ! This call must be done as the current pipe user, * *NOT* surrounded by a become_root()/unbecome_root() call. This ensures * that only people with write access to the smbpasswd file will be able * to create a user. JRA. */ /* * add the user in the /etc/passwd file or the unix authority system. * We don't check if the smb_create_user() function succed or not for 2 reasons: * a) local_password_change() checks for us if the /etc/passwd account really exists * b) smb_create_user() would return an error if the account already exists * and as it could return an error also if it can't create the account, it would be tricky. * * So we go the easy way, only check after if the account exists. * JFM (2/3/2001), to clear any possible bad understanding (-: */ pstrcpy(add_script, lp_adduser_script()); if(*add_script) smb_create_user(mach_acct, NULL); /* add the user in the smbpasswd file or the Samba authority database */ if (!local_password_change(mach_acct, local_flags, NULL, err_str, sizeof(err_str), msg_str, sizeof(msg_str))) { DEBUG(0, ("%s\n", err_str)); close_policy_hnd(p, user_pol); return NT_STATUS_ACCESS_DENIED; } become_root(); sam_pass = pdb_getsampwnam(mach_acct); unbecome_root(); if (sam_pass == NULL) { /* account doesn't exist: say so */ close_policy_hnd(p, user_pol); return NT_STATUS_ACCESS_DENIED; } /* Get the domain SID stored in the domain policy */ if(!get_lsa_policy_samr_sid(p, &dom_pol, &sid)) { close_policy_hnd(p, user_pol); return NT_STATUS_INVALID_HANDLE; } /* append the user's RID to it */ if(!sid_append_rid(&sid, pdb_get_user_rid(sam_pass) )) { close_policy_hnd(p, user_pol); return NT_STATUS_NO_SUCH_USER; } /* associate the user's SID with the new handle. */ if ((info = (struct samr_info *)malloc(sizeof(struct samr_info))) == NULL) return NT_STATUS_NO_MEMORY; ZERO_STRUCTP(info); info->sid = sid; /* get a (unique) handle. open a policy on it. */ if (!create_policy_hnd(p, user_pol, free_samr_info, (void *)info)) return NT_STATUS_OBJECT_NAME_NOT_FOUND; r_u->user_rid=sam_pass->user_rid; r_u->unknown_0 = 0x000703ff; return NT_STATUS_NO_PROBLEMO; } /******************************************************************* samr_reply_connect_anon ********************************************************************/ uint32 _samr_connect_anon(pipes_struct *p, SAMR_Q_CONNECT_ANON *q_u, SAMR_R_CONNECT_ANON *r_u) { struct samr_info *info = NULL; /* set up the SAMR connect_anon response */ r_u->status = NT_STATUS_NO_PROBLEMO; /* associate the user's SID with the new handle. */ if ((info = (struct samr_info *)malloc(sizeof(struct samr_info))) == NULL) return NT_STATUS_NO_MEMORY; ZERO_STRUCTP(info); info->status = q_u->unknown_0; /* get a (unique) handle. open a policy on it. */ if (!create_policy_hnd(p, &r_u->connect_pol, free_samr_info, (void *)info)) return NT_STATUS_OBJECT_NAME_NOT_FOUND; return r_u->status; } /******************************************************************* samr_reply_connect ********************************************************************/ uint32 _samr_connect(pipes_struct *p, SAMR_Q_CONNECT *q_u, SAMR_R_CONNECT *r_u) { struct samr_info *info = NULL; DEBUG(5,("_samr_connect: %d\n", __LINE__)); r_u->status = NT_STATUS_NO_PROBLEMO; /* associate the user's SID with the new handle. */ if ((info = (struct samr_info *)malloc(sizeof(struct samr_info))) == NULL) return NT_STATUS_NO_MEMORY; ZERO_STRUCTP(info); info->status = q_u->access_mask; /* get a (unique) handle. open a policy on it. */ if (!create_policy_hnd(p, &r_u->connect_pol, free_samr_info, (void *)info)) return NT_STATUS_OBJECT_NAME_NOT_FOUND; DEBUG(5,("_samr_connect: %d\n", __LINE__)); return r_u->status; } /********************************************************************** api_samr_lookup_domain **********************************************************************/ uint32 _samr_lookup_domain(pipes_struct *p, SAMR_Q_LOOKUP_DOMAIN *q_u, SAMR_R_LOOKUP_DOMAIN *r_u) { r_u->status = NT_STATUS_NO_PROBLEMO; if (!find_policy_by_hnd(p, &q_u->connect_pol, NULL)) return NT_STATUS_INVALID_HANDLE; /* assume the domain name sent is our global_myname and send global_sam_sid */ init_samr_r_lookup_domain(r_u, &global_sam_sid, r_u->status); return r_u->status; } /****************************************************************** makes a SAMR_R_ENUM_DOMAINS structure. ********************************************************************/ static BOOL make_enum_domains(TALLOC_CTX *ctx, SAM_ENTRY **pp_sam, UNISTR2 **pp_uni_name, uint32 num_sam_entries, fstring doms[]) { uint32 i; SAM_ENTRY *sam; UNISTR2 *uni_name; DEBUG(5, ("make_enum_domains\n")); *pp_sam = NULL; *pp_uni_name = NULL; if (num_sam_entries == 0) return True; sam = (SAM_ENTRY *)talloc(ctx, sizeof(SAM_ENTRY)*num_sam_entries); uni_name = (UNISTR2 *)talloc(ctx, sizeof(UNISTR2)*num_sam_entries); if (sam == NULL || uni_name == NULL) return False; for (i = 0; i < num_sam_entries; i++) { int len = doms[i] != NULL ? strlen(doms[i]) : 0; init_sam_entry(&sam[i], len, 0); init_unistr2(&uni_name[i], doms[i], len); } *pp_sam = sam; *pp_uni_name = uni_name; return True; } /********************************************************************** api_samr_enum_domains **********************************************************************/ uint32 _samr_enum_domains(pipes_struct *p, SAMR_Q_ENUM_DOMAINS *q_u, SAMR_R_ENUM_DOMAINS *r_u) { uint32 num_entries = 2; fstring dom[2]; r_u->status = NT_STATUS_NO_PROBLEMO; fstrcpy(dom[0],global_myworkgroup); fstrcpy(dom[1],"Builtin"); if (!make_enum_domains(p->mem_ctx, &r_u->sam, &r_u->uni_dom_name, num_entries, dom)) return NT_STATUS_NO_MEMORY; init_samr_r_enum_domains(r_u, q_u->start_idx + num_entries, num_entries); return r_u->status; } /******************************************************************* api_samr_open_alias ********************************************************************/ uint32 _api_samr_open_alias(pipes_struct *p, SAMR_Q_OPEN_ALIAS *q_u, SAMR_R_OPEN_ALIAS *r_u) { DOM_SID sid; POLICY_HND domain_pol = q_u->dom_pol; uint32 alias_rid = q_u->rid_alias; POLICY_HND *alias_pol = &r_u->pol; struct samr_info *info = NULL; r_u->status = NT_STATUS_NO_PROBLEMO; /* get the domain policy. */ if (!find_policy_by_hnd(p, &domain_pol, NULL)) return NT_STATUS_INVALID_HANDLE; /* Get the domain SID stored in the domain policy */ if(!get_lsa_policy_samr_sid(p, &domain_pol, &sid)) return NT_STATUS_INVALID_HANDLE; /* append the alias' RID to it */ if(!sid_append_rid(&sid, alias_rid)) return NT_STATUS_NO_SUCH_USER; /* * we should check if the rid really exist !!! * JFM. */ /* associate the user's SID with the new handle. */ if ((info = (struct samr_info *)malloc(sizeof(struct samr_info))) == NULL) return NT_STATUS_NO_MEMORY; ZERO_STRUCTP(info); info->sid = sid; /* get a (unique) handle. open a policy on it. */ if (!create_policy_hnd(p, alias_pol, free_samr_info, (void *)info)) return NT_STATUS_OBJECT_NAME_NOT_FOUND; return r_u->status; } /******************************************************************* set_user_info_10 ********************************************************************/ static BOOL set_user_info_10(const SAM_USER_INFO_10 *id10, uint32 rid) { SAM_ACCOUNT *pwd = pdb_getsampwrid(rid); if (id10 == NULL) { DEBUG(5, ("set_user_info_10: NULL id10\n")); return False; } pwd = pdb_getsampwrid(rid); if (!pwd) return False; pdb_set_acct_ctrl(pwd, id10->acb_info); if(!pdb_update_sam_account(pwd, True)) return False; return True; } /******************************************************************* set_user_info_12 ********************************************************************/ static BOOL set_user_info_12(SAM_USER_INFO_12 *id12, uint32 rid) { SAM_ACCOUNT *pwd = pdb_getsampwrid(rid); if (pwd == NULL) return False; if (id12 == NULL) { DEBUG(2, ("set_user_info_12: id12 is NULL\n")); return False; } pdb_set_lanman_passwd (pwd, id12->lm_pwd); pdb_set_nt_passwd (pwd, id12->nt_pwd); if(!pdb_update_sam_account(pwd, True)) return False; return True; } /******************************************************************* set_user_info_21 ********************************************************************/ static BOOL set_user_info_21(SAM_USER_INFO_21 *id21, uint32 rid) { SAM_ACCOUNT *pwd = pdb_getsampwrid(rid); SAM_ACCOUNT new_pwd; if (id21 == NULL) { DEBUG(5, ("set_user_info_21: NULL id21\n")); return False; } if (pwd == NULL) return False; /* we make a copy so that we can modify stuff */ copy_sam_passwd(&new_pwd, pwd); copy_id21_to_sam_passwd(&new_pwd, id21); /* * The funny part about the previous two calls is * that pwd still has the password hashes from the * passdb entry. These have not been updated from * id21. I don't know if they need to be set. --jerry */ /* write the change out */ if(!pdb_update_sam_account(&new_pwd, True)) return False; return True; } /******************************************************************* set_user_info_23 ********************************************************************/ static BOOL set_user_info_23(SAM_USER_INFO_23 *id23, uint32 rid) { SAM_ACCOUNT *pwd = pdb_getsampwrid(rid); SAM_ACCOUNT new_pwd; BYTE nt_hash[16]; BYTE lm_hash[16]; pstring buf; uint32 len; uint16 acct_ctrl; if (id23 == NULL) { DEBUG(5, ("set_user_info_23: NULL id23\n")); return False; } if (pwd == NULL) return False; acct_ctrl = pdb_get_acct_ctrl(pwd); copy_sam_passwd(&new_pwd, pwd); copy_id23_to_sam_passwd(&new_pwd, id23); if (!decode_pw_buffer((char*)id23->pass, buf, 256, &len)) return False; nt_lm_owf_gen(buf, nt_hash, lm_hash); pdb_set_lanman_passwd (&new_pwd, lm_hash); pdb_set_nt_passwd (&new_pwd, nt_hash); /* if it's a trust account, don't update /etc/passwd */ if ( ( (acct_ctrl & ACB_DOMTRUST) == ACB_DOMTRUST ) || ( (acct_ctrl & ACB_WSTRUST) == ACB_WSTRUST) || ( (acct_ctrl & ACB_SVRTRUST) == ACB_SVRTRUST) ) { DEBUG(5, ("Changing trust account password, not updating /etc/passwd\n")); } else { /* update the UNIX password */ /* update the UNIX password */ if (lp_unix_password_sync() ) if(!chgpasswd(pdb_get_username(&new_pwd), "", buf, True)) return False; } memset(buf, 0, sizeof(buf)); if(!pdb_update_sam_account(&new_pwd, True)) return False; return True; } /******************************************************************* set_user_info_24 ********************************************************************/ static BOOL set_user_info_24(SAM_USER_INFO_24 *id24, uint32 rid) { SAM_ACCOUNT *pwd = pdb_getsampwrid(rid); uchar nt_hash[16]; uchar lm_hash[16]; uint32 len; pstring buf; uint16 acct_ctrl; if (pwd == NULL) return False; acct_ctrl = pdb_get_acct_ctrl(pwd); memset(buf, 0, sizeof(buf)); if (!decode_pw_buffer((char*)id24->pass, buf, 256, &len)) return False; DEBUG(5,("set_user_info_24:nt_lm_owf_gen\n")); nt_lm_owf_gen(buf, nt_hash, lm_hash); pdb_set_lanman_passwd (pwd, lm_hash); pdb_set_nt_passwd (pwd, nt_hash); /* if it's a trust account, don't update /etc/passwd */ if ( ( (acct_ctrl & ACB_DOMTRUST) == ACB_DOMTRUST ) || ( (acct_ctrl & ACB_WSTRUST) == ACB_WSTRUST) || ( (acct_ctrl & ACB_SVRTRUST) == ACB_SVRTRUST) ) { DEBUG(5, ("Changing trust account password, not updating /etc/passwd\n")); } else { /* update the UNIX password */ if (lp_unix_password_sync()) if(!chgpasswd(pdb_get_username(pwd), "", buf, True)) return False; } memset(buf, 0, sizeof(buf)); DEBUG(0,("set_user_info_24: pdb_update_sam_account()\n")); /* update the SAMBA password */ if(!pdb_update_sam_account(pwd, True)) return False; return True; } /******************************************************************* samr_reply_set_userinfo ********************************************************************/ uint32 _samr_set_userinfo(pipes_struct *p, SAMR_Q_SET_USERINFO *q_u, SAMR_R_SET_USERINFO *r_u) { uint32 rid = 0x0; DOM_SID sid; struct current_user user; SAM_ACCOUNT *sam_pass; unsigned char sess_key[16]; POLICY_HND *pol = &q_u->pol; uint16 switch_value = q_u->switch_value; SAM_USERINFO_CTR *ctr = q_u->ctr; DEBUG(5, ("_samr_set_userinfo: %d\n", __LINE__)); r_u->status = NT_STATUS_NOPROBLEMO; if (p->ntlmssp_auth_validated) { memcpy(&user, &p->pipe_user, sizeof(user)); } else { extern struct current_user current_user; memcpy(&user, ¤t_user, sizeof(user)); } /* find the policy handle. open a policy on it. */ if (!get_lsa_policy_samr_sid(p, pol, &sid)) return NT_STATUS_INVALID_HANDLE; sid_split_rid(&sid, &rid); DEBUG(5, ("_samr_set_userinfo: rid:0x%x, level:%d\n", rid, switch_value)); if (ctr == NULL) { DEBUG(5, ("_samr_set_userinfo: NULL info level\n")); return NT_STATUS_INVALID_INFO_CLASS; } /* * We need the NT hash of the user who is changing the user's password. * This NT hash is used to generate a "user session key" * This "user session key" is in turn used to encrypt/decrypt the user's password. */ become_root(); sam_pass = pdb_getsampwuid(user.uid); unbecome_root(); if(sam_pass == NULL) { DEBUG(0,("_samr_set_userinfo: Unable to get smbpasswd entry for uid %u\n", (unsigned int)user.uid )); return NT_STATUS_ACCESS_DENIED; } memset(sess_key, '\0', 16); mdfour(sess_key, pdb_get_nt_passwd(sam_pass), 16); /* ok! user info levels (lots: see MSDEV help), off we go... */ switch (switch_value) { case 0x12: if (!set_user_info_12(ctr->info.id12, rid)) return NT_STATUS_ACCESS_DENIED; break; case 24: SamOEMhash(ctr->info.id24->pass, sess_key, 1); if (!set_user_info_24(ctr->info.id24, rid)) return NT_STATUS_ACCESS_DENIED; break; case 23: SamOEMhash(ctr->info.id23->pass, sess_key, 1); if (!set_user_info_23(ctr->info.id23, rid)) return NT_STATUS_ACCESS_DENIED; break; default: return NT_STATUS_INVALID_INFO_CLASS; } return r_u->status; } /******************************************************************* samr_reply_set_userinfo2 ********************************************************************/ uint32 _samr_set_userinfo2(pipes_struct *p, SAMR_Q_SET_USERINFO2 *q_u, SAMR_R_SET_USERINFO2 *r_u) { DOM_SID sid; uint32 rid = 0x0; SAM_USERINFO_CTR *ctr = q_u->ctr; POLICY_HND *pol = &q_u->pol; uint16 switch_value = q_u->switch_value; DEBUG(5, ("samr_reply_set_userinfo2: %d\n", __LINE__)); r_u->status = NT_STATUS_NOPROBLEMO; /* find the policy handle. open a policy on it. */ if (!get_lsa_policy_samr_sid(p, pol, &sid)) return NT_STATUS_INVALID_HANDLE; sid_split_rid(&sid, &rid); DEBUG(5, ("samr_reply_set_userinfo2: rid:0x%x\n", rid)); if (ctr == NULL) { DEBUG(5, ("samr_reply_set_userinfo2: NULL info level\n")); return NT_STATUS_INVALID_INFO_CLASS; } switch_value=ctr->switch_value; /* ok! user info levels (lots: see MSDEV help), off we go... */ switch (switch_value) { case 21: if (!set_user_info_21(ctr->info.id21, rid)) return NT_STATUS_ACCESS_DENIED; break; case 16: if (!set_user_info_10(ctr->info.id10, rid)) return NT_STATUS_ACCESS_DENIED; break; default: return NT_STATUS_INVALID_INFO_CLASS; } return r_u->status; } /********************************************************************* _samr_query_aliasmem *********************************************************************/ uint32 _samr_query_useraliases(pipes_struct *p, SAMR_Q_QUERY_USERALIASES *q_u, SAMR_R_QUERY_USERALIASES *r_u) { DEBUG(0,("_samr_query_useraliases: Not yet implemented.\n")); return False; } /********************************************************************* _samr_query_aliasmem *********************************************************************/ uint32 _samr_query_aliasmem(pipes_struct *p, SAMR_Q_QUERY_ALIASMEM *q_u, SAMR_R_QUERY_ALIASMEM *r_u) { DEBUG(0,("_samr_query_aliasmem: Not yet implemented.\n")); return False; } /********************************************************************* _samr_query_groupmem *********************************************************************/ uint32 _samr_query_groupmem(pipes_struct *p, SAMR_Q_QUERY_GROUPMEM *q_u, SAMR_R_QUERY_GROUPMEM *r_u) { DEBUG(0,("_samr_query_groupmem: Not yet implemented.\n")); return False; } /********************************************************************* _samr_add_aliasmem *********************************************************************/ uint32 _samr_add_aliasmem(pipes_struct *p, SAMR_Q_ADD_ALIASMEM *q_u, SAMR_R_ADD_ALIASMEM *r_u) { DEBUG(0,("_samr_add_aliasmem: Not yet implemented.\n")); return False; } /********************************************************************* _samr_del_aliasmem *********************************************************************/ uint32 _samr_del_aliasmem(pipes_struct *p, SAMR_Q_DEL_ALIASMEM *q_u, SAMR_R_DEL_ALIASMEM *r_u) { DEBUG(0,("_samr_del_aliasmem: Not yet implemented.\n")); return False; } /********************************************************************* _samr_add_groupmem *********************************************************************/ uint32 _samr_add_groupmem(pipes_struct *p, SAMR_Q_ADD_GROUPMEM *q_u, SAMR_R_ADD_GROUPMEM *r_u) { DEBUG(0,("_samr_add_groupmem: Not yet implemented.\n")); return False; } /********************************************************************* _samr_del_groupmem *********************************************************************/ uint32 _samr_del_groupmem(pipes_struct *p, SAMR_Q_DEL_GROUPMEM *q_u, SAMR_R_DEL_GROUPMEM *r_u) { DEBUG(0,("_samr_del_groupmem: Not yet implemented.\n")); return False; } /********************************************************************* _samr_delete_dom_user *********************************************************************/ uint32 _samr_delete_dom_user(pipes_struct *p, SAMR_Q_DELETE_DOM_USER *q_u, SAMR_R_DELETE_DOM_USER *r_u ) { DEBUG(0,("_samr_delete_dom_user: Not yet implemented.\n")); return False; } /********************************************************************* _samr_delete_dom_group *********************************************************************/ uint32 _samr_delete_dom_group(pipes_struct *p, SAMR_Q_DELETE_DOM_GROUP *q_u, SAMR_R_DELETE_DOM_GROUP *r_u) { DEBUG(0,("_samr_delete_dom_group: Not yet implemented.\n")); return False; } /********************************************************************* _samr_delete_dom_alias *********************************************************************/ uint32 _samr_delete_dom_alias(pipes_struct *p, SAMR_Q_DELETE_DOM_ALIAS *q_u, SAMR_R_DELETE_DOM_ALIAS *r_u) { DEBUG(0,("_samr_delete_dom_alias: Not yet implemented.\n")); return False; } /********************************************************************* _samr_create_dom_group *********************************************************************/ uint32 _samr_create_dom_group(pipes_struct *p, SAMR_Q_CREATE_DOM_GROUP *q_u, SAMR_R_CREATE_DOM_GROUP *r_u) { DEBUG(0,("_samr_create_dom_group: Not yet implemented.\n")); return False; } /********************************************************************* _samr_create_dom_alias *********************************************************************/ uint32 _samr_create_dom_alias(pipes_struct *p, SAMR_Q_CREATE_DOM_ALIAS *q_u, SAMR_R_CREATE_DOM_ALIAS *r_u) { DEBUG(0,("_samr_create_dom_alias: Not yet implemented.\n")); return False; } /********************************************************************* _samr_query_groupinfo *********************************************************************/ uint32 _samr_query_groupinfo(pipes_struct *p, SAMR_Q_QUERY_GROUPINFO *q_u, SAMR_R_QUERY_GROUPINFO *r_u) { DEBUG(0,("_samr_query_groupinfo: Not yet implemented.\n")); return False; } /********************************************************************* _samr_set_groupinfo *********************************************************************/ uint32 _samr_set_groupinfo(pipes_struct *p, SAMR_Q_SET_GROUPINFO *q_u, SAMR_R_SET_GROUPINFO *r_u) { DEBUG(0,("_samr_set_groupinfo: Not yet implemented.\n")); return False; } /********************************************************************* _samr_get_dom_pwinfo *********************************************************************/ uint32 _samr_get_dom_pwinfo(pipes_struct *p, SAMR_Q_GET_DOM_PWINFO *q_u, SAMR_R_GET_DOM_PWINFO *r_u) { DEBUG(0,("_samr_get_dom_pwinfo: Not yet implemented.\n")); return False; } /********************************************************************* _samr_open_group *********************************************************************/ uint32 _samr_open_group(pipes_struct *p, SAMR_Q_OPEN_GROUP *q_u, SAMR_R_OPEN_GROUP *r_u) { DEBUG(0,("_samr_open_group: Not yet implemented.\n")); return False; } /********************************************************************* _samr_unknown_2d *********************************************************************/ uint32 _samr_unknown_2d(pipes_struct *p, SAMR_Q_UNKNOWN_2D *q_u, SAMR_R_UNKNOWN_2D *r_u) { DEBUG(0,("_samr_unknown_2d: Not yet implemented.\n")); return False; }