/* * Unix SMB/Netbios implementation. * Version 1.9. * RPC Pipe client / server routines * Copyright (C) Andrew Tridgell 1992-1998 * Copyright (C) Luke Kenneth Casson Leighton 1996-1998, * Copyright (C) Paul Ashton 1997-1998. * * 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 module apparently provides an implementation of DCE/RPC over a * named pipe (IPC$ connection using SMBtrans). details of DCE/RPC * documentation are available (in on-line form) from the X-Open group. * * this module should provide a level of abstraction between SMB * and DCE/RPC, while minimising the amount of mallocs, unnecessary * data copies, and network traffic. * * in this version, which takes a "let's learn what's going on and * get something running" approach, there is additional network * traffic generated, but the code should be easier to understand... * * ... if you read the docs. or stare at packets for weeks on end. * */ #include "includes.h" #include "nterr.h" extern int DEBUGLEVEL; /* array lookup of well-known RID aliases. the purpose of these escapes me.. */ /* XXXX this structure should not have the well-known RID groups added to it, i.e the DOMAIN_GROUP_RID_ADMIN/USER/GUEST. */ rid_name domain_alias_rids[] = { { DOMAIN_ALIAS_RID_ADMINS , "admins" }, { DOMAIN_ALIAS_RID_USERS , "users" }, { DOMAIN_ALIAS_RID_GUESTS , "guests" }, { DOMAIN_ALIAS_RID_POWER_USERS , "power_users" }, { DOMAIN_ALIAS_RID_ACCOUNT_OPS , "account_ops" }, { DOMAIN_ALIAS_RID_SYSTEM_OPS , "system_ops" }, { DOMAIN_ALIAS_RID_PRINT_OPS , "print_ops" }, { DOMAIN_ALIAS_RID_BACKUP_OPS , "backup_ops" }, { DOMAIN_ALIAS_RID_REPLICATOR , "replicator" }, { 0 , NULL } }; /* array lookup of well-known Domain RID users. */ rid_name domain_user_rids[] = { { DOMAIN_USER_RID_ADMIN , "Administrator" }, { DOMAIN_USER_RID_GUEST , "Guest" }, { 0 , NULL } }; /* array lookup of well-known Domain RID groups. */ rid_name domain_group_rids[] = { { DOMAIN_GROUP_RID_ADMINS , "domain admins" }, { DOMAIN_GROUP_RID_USERS , "domain users" }, { DOMAIN_GROUP_RID_GUESTS , "domain guests" }, { 0 , NULL } }; int make_dom_gids(char *gids_str, DOM_GID *gids) { char *ptr; pstring s2; int count; DEBUG(4,("make_dom_gids: %s\n", gids_str)); if (gids_str == NULL || *gids_str == 0) return 0; for (count = 0, ptr = gids_str; next_token(&ptr, s2, NULL) && count < LSA_MAX_GROUPS; count++) { /* the entries are of the form GID/ATTR, ATTR being optional.*/ char *attr; uint32 rid = 0; int i; attr = strchr(s2,'/'); if (attr) *attr++ = 0; if (!attr || !*attr) attr = "7"; /* default value for attribute is 7 */ /* look up the RID string and see if we can turn it into a rid number */ for (i = 0; domain_alias_rids[i].name != NULL; i++) { if (strequal(domain_alias_rids[i].name, s2)) { rid = domain_alias_rids[i].rid; break; } } if (rid == 0) rid = atoi(s2); if (rid == 0) { DEBUG(1,("make_dom_gids: unknown well-known alias RID %s/%s\n", s2, attr)); count--; } else { gids[count].g_rid = rid; gids[count].attr = atoi(attr); DEBUG(5,("group id: %d attr: %d\n", gids[count].g_rid, gids[count].attr)); } } return count; } /******************************************************************* gets a domain user's groups ********************************************************************/ void get_domain_user_groups(char *domain_groups, char *user) { pstring tmp; if (domain_groups == NULL || user == NULL) return; /* any additional groups this user is in. e.g power users */ pstrcpy(domain_groups, lp_domain_groups()); /* can only be a user or a guest. cannot be guest _and_ admin */ if (user_in_list(user, lp_domain_guest_users())) { sprintf(tmp, " %ld/7 ", DOMAIN_GROUP_RID_GUESTS); strcat(domain_groups, tmp); DEBUG(3,("domain guest access %s granted\n", tmp)); } else { sprintf(tmp, " %ld/7 ", DOMAIN_GROUP_RID_USERS); strcat(domain_groups, tmp); DEBUG(3,("domain user access %s granted\n", tmp)); if (user_in_list(user, lp_domain_admin_users())) { sprintf(tmp, " %ld/7 ", DOMAIN_GROUP_RID_ADMINS); strcat(domain_groups, tmp); DEBUG(3,("domain admin access %s granted\n", tmp)); } } } /******************************************************************* turns a DCE/RPC request into a DCE/RPC reply this is where the data really should be split up into an array of headers and data sections. ********************************************************************/ BOOL create_rpc_reply(pipes_struct *p, uint32 data_start, uint32 data_end) { DEBUG(5,("create_rpc_reply: data_start: %d data_end: %d max_tsize: %d\n", data_start, data_end, p->hdr_ba.bba.max_tsize)); mem_buf_init(&(p->rhdr.data), 0); mem_alloc_data(p->rhdr.data, 0x18); p->rhdr.align = 4; p->rhdr.io = False; p->hdr_resp.alloc_hint = data_end - data_start; /* calculate remaining data to be sent */ p->hdr.pkt_type = RPC_RESPONSE; /* mark header as an rpc response */ /* set up rpc header (fragmentation issues) */ if (data_start == 0) { p->hdr.flags = RPC_FLG_FIRST; } else { p->hdr.flags = 0; } if (p->hdr_resp.alloc_hint + 0x18 <= p->hdr_ba.bba.max_tsize) { p->hdr.flags |= RPC_FLG_LAST; p->hdr.frag_len = p->hdr_resp.alloc_hint + 0x18; } else { p->hdr.frag_len = p->hdr_ba.bba.max_tsize; } p->rhdr.data->offset.start = 0; p->rhdr.data->offset.end = 0x18; /* store the header in the data stream */ p->rhdr.offset = 0; smb_io_rpc_hdr ("hdr", &(p->hdr ), &(p->rhdr), 0); smb_io_rpc_hdr_resp("resp", &(p->hdr_resp), &(p->rhdr), 0); return p->rhdr.data != NULL && p->rhdr.offset == 0x18; } /******************************************************************* receives a netlogon pipe and responds. ********************************************************************/ static BOOL api_rpc_command(pipes_struct *p, char *rpc_name, struct api_struct *api_rpc_cmds, prs_struct *data) { int fn_num; DEBUG(4,("api_rpc_command: %s op 0x%x - ", rpc_name, p->hdr_req.opnum)); for (fn_num = 0; api_rpc_cmds[fn_num].name; fn_num++) { if (api_rpc_cmds[fn_num].opnum == p->hdr_req.opnum && api_rpc_cmds[fn_num].fn != NULL) { DEBUG(3,("api_rpc_command: %s\n", api_rpc_cmds[fn_num].name)); break; } } if (api_rpc_cmds[fn_num].name == NULL) { DEBUG(4, ("unknown\n")); return False; } /* start off with 1024 bytes, and a large safety margin too */ mem_buf_init(&(p->rdata.data), SAFETY_MARGIN); mem_alloc_data(p->rdata.data, 1024); p->rdata.io = False; p->rdata.align = 4; p->rdata.data->offset.start = 0; p->rdata.data->offset.end = 0xffffffff; /* do the actual command */ p->rdata.offset = 0; api_rpc_cmds[fn_num].fn(p->uid, data, &(p->rdata)); if (p->rdata.data == NULL || p->rdata.offset == 0) { mem_free_data(p->rdata.data); return False; } mem_realloc_data(p->rdata.data, p->rdata.offset); DEBUG(10,("called %s\n", rpc_name)); return True; } /******************************************************************* receives a netlogon pipe and responds. ********************************************************************/ BOOL api_rpcTNP(pipes_struct *p, char *rpc_name, struct api_struct *api_rpc_cmds, prs_struct *data) { if (data == NULL || data->data == NULL) { DEBUG(2,("%s: NULL data received\n", rpc_name)); return False; } /* read the rpc header */ smb_io_rpc_hdr_req("req", &(p->hdr_req), data, 0); /* interpret the command */ if (!api_rpc_command(p, rpc_name, api_rpc_cmds, data)) { return False; } /* create the rpc header */ if (!create_rpc_reply(p, 0, p->rdata.offset)) { return False; } p->frag_len_left = p->hdr.frag_len - p->file_offset; p->next_frag_start = p->hdr.frag_len; /* set up the data chain */ p->rhdr.data->offset.start = 0; p->rhdr.data->offset.end = p->rhdr.offset; p->rhdr.data->next = p->rdata.data; p->rdata.data->offset.start = p->rhdr.data->offset.end; p->rdata.data->offset.end = p->rhdr.data->offset.end + p->rdata.offset; p->rdata.data->next = NULL; return True; } extern rid_name domain_group_rids[]; /******************************************************************* lookup_group_name ********************************************************************/ uint32 lookup_group_name(uint32 rid, char *group_name, uint32 *type) { int i = 0; (*type) = SID_NAME_DOM_GRP; DEBUG(5,("lookup_group_name: rid: %d", rid)); while (domain_group_rids[i].rid != rid && domain_group_rids[i].rid != 0) { i++; } if (domain_group_rids[i].rid != 0) { fstrcpy(group_name, domain_group_rids[i].name); DEBUG(5,(" = %s\n", group_name)); return 0x0; } DEBUG(5,(" none mapped\n")); return 0xC0000000 | NT_STATUS_NONE_MAPPED; } extern rid_name domain_alias_rids[]; /******************************************************************* lookup_alias_name ********************************************************************/ uint32 lookup_alias_name(uint32 rid, char *alias_name, uint32 *type) { int i = 0; (*type) = SID_NAME_WKN_GRP; DEBUG(5,("lookup_alias_name: rid: %d", rid)); while (domain_alias_rids[i].rid != rid && domain_alias_rids[i].rid != 0) { i++; } if (domain_alias_rids[i].rid != 0) { fstrcpy(alias_name, domain_alias_rids[i].name); DEBUG(5,(" = %s\n", alias_name)); return 0x0; } DEBUG(5,(" none mapped\n")); return 0xC0000000 | NT_STATUS_NONE_MAPPED; } /******************************************************************* lookup_user_name ********************************************************************/ uint32 lookup_user_name(uint32 rid, char *user_name, uint32 *type) { struct smb_passwd *smb_pass; uint32 unix_uid; int i = 0; (*type) = SID_NAME_USER; DEBUG(5,("lookup_user_name: rid: %d", rid)); /* look up the well-known domain user rids first */ while (domain_user_rids[i].rid != rid && domain_user_rids[i].rid != 0) { i++; } if (domain_user_rids[i].rid != 0) { fstrcpy(user_name, domain_user_rids[i].name); DEBUG(5,(" = %s\n", user_name)); return 0x0; } unix_uid = uid_to_user_rid(rid); DEBUG(5,(" uid: %d", unix_uid)); /* ok, it's a user. find the user account */ become_root(True); smb_pass = getsmbpwuid(rid); /* lkclXXXX SHOULD use rid mapping here! */ unbecome_root(True); if (smb_pass != NULL) { fstrcpy(user_name, smb_pass->smb_name); DEBUG(5,(" = %s\n", user_name)); return 0x0; } DEBUG(5,(" none mapped\n")); return 0xC0000000 | NT_STATUS_NONE_MAPPED; } /******************************************************************* lookup_group_rid ********************************************************************/ uint32 lookup_group_rid(char *group_name, uint32 *rid) { char *grp_name; int i = -1; /* start do loop at -1 */ do /* find, if it exists, a group rid for the group name*/ { i++; (*rid) = domain_group_rids[i].rid; grp_name = domain_group_rids[i].name; } while (grp_name != NULL && !strequal(grp_name, group_name)); return (grp_name != NULL) ? 0 : 0xC0000000 | NT_STATUS_NONE_MAPPED; } /******************************************************************* lookup_alias_rid ********************************************************************/ uint32 lookup_alias_rid(char *alias_name, uint32 *rid) { char *als_name; int i = -1; /* start do loop at -1 */ do /* find, if it exists, a alias rid for the alias name*/ { i++; (*rid) = domain_alias_rids[i].rid; als_name = domain_alias_rids[i].name; } while (als_name != NULL && !strequal(als_name, alias_name)); return (als_name != NULL) ? 0 : 0xC0000000 | NT_STATUS_NONE_MAPPED; } /******************************************************************* lookup_user_rid ********************************************************************/ uint32 lookup_user_rid(char *user_name, uint32 *rid) { struct smb_passwd *smb_pass; (*rid) = 0; /* find the user account */ become_root(True); smb_pass = getsmbpwnam(user_name); unbecome_root(True); if (smb_pass != NULL) { /* lkclXXXX SHOULD use name_to_rid() here! */ (*rid) = smb_pass->smb_userid; return 0x0; } return 0xC0000000 | NT_STATUS_NONE_MAPPED; } /******************************************************************* Group and User RID username mapping function ********************************************************************/ BOOL name_to_rid(char *user_name, uint32 *u_rid, uint32 *g_rid) { struct passwd *pw = Get_Pwnam(user_name, False); if (u_rid == NULL || g_rid == NULL || user_name == NULL) { return False; } if (!pw) { DEBUG(1,("Username %s is invalid on this system\n", user_name)); return False; } if (user_in_list(user_name, lp_domain_guest_users())) { *u_rid = DOMAIN_USER_RID_GUEST; } else if (user_in_list(user_name, lp_domain_admin_users())) { *u_rid = DOMAIN_USER_RID_ADMIN; } else { /* turn the unix UID into a Domain RID. this is what the posix sub-system does (adds 1000 to the uid) */ *u_rid = uid_to_user_rid(pw->pw_uid); } /* absolutely no idea what to do about the unix GID to Domain RID mapping */ *g_rid = gid_to_group_rid(pw->pw_gid); return True; } /******************************************************************* XXXX THIS FUNCTION SHOULD NOT BE HERE: IT SHOULD BE A STATIC FUNCTION INSIDE smbpass.c converts NT User RID to a UNIX uid. ********************************************************************/ uid_t user_rid_to_uid(uint32 u_rid) { return (uid_t)(u_rid - 1000); } /******************************************************************* XXXX THIS FUNCTION SHOULD NOT BE HERE: IT SHOULD BE A STATIC FUNCTION INSIDE smbpass.c converts NT Group RID to a UNIX uid. ********************************************************************/ uid_t group_rid_to_uid(uint32 u_gid) { return (uid_t)(u_gid - 1000); } /******************************************************************* XXXX THIS FUNCTION SHOULD NOT BE HERE: IT SHOULD BE A STATIC FUNCTION INSIDE smbpass.c converts UNIX uid to an NT User RID. ********************************************************************/ uint32 uid_to_user_rid(uint32 uid) { return (uint32)(uid + 1000); } /******************************************************************* XXXX THIS FUNCTION SHOULD NOT BE HERE: IT SHOULD BE A STATIC FUNCTION INSIDE smbpass.c converts NT Group RID to a UNIX uid. ********************************************************************/ uint32 gid_to_group_rid(uint32 gid) { return (uint32)(gid + 1000); }