/* Unix SMB/Netbios implementation. Version 1.9. SMB client 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. */ #ifdef SYSLOG #undef SYSLOG #endif #include "includes.h" extern int DEBUGLEVEL; extern pstring username; extern pstring workgroup; #define CLIENT_TIMEOUT (30*1000) #ifdef NTDOMAIN /**************************************************************************** open an rpc pipe (\NETLOGON or \srvsvc for example) ****************************************************************************/ static uint16 open_rpc_pipe(char *inbuf, char *outbuf, char *rname, int Client, int cnum) { int fnum; char *p; DEBUG(5,("open_rpc_pipe: %s\n", rname)); bzero(outbuf,smb_size); set_message(outbuf,15,1 + strlen(rname),True); CVAL(outbuf,smb_com) = SMBopenX; SSVAL(outbuf,smb_tid, cnum); cli_setup_pkt(outbuf); SSVAL(outbuf,smb_vwv0,0xFF); SSVAL(outbuf,smb_vwv2,1); SSVAL(outbuf,smb_vwv3,(DENY_NONE<<4)); SSVAL(outbuf,smb_vwv4,aSYSTEM | aHIDDEN); SSVAL(outbuf,smb_vwv5,aSYSTEM | aHIDDEN); SSVAL(outbuf,smb_vwv8,1); p = smb_buf(outbuf); strcpy(p,rname); p = skip_string(p,1); send_smb(Client,outbuf); receive_smb(Client,inbuf,CLIENT_TIMEOUT); if (CVAL(inbuf,smb_rcls) != 0) { if (CVAL(inbuf,smb_rcls) == ERRSRV && SVAL(inbuf,smb_err) == ERRnoresource && cli_reopen_connection(inbuf,outbuf)) { return open_rpc_pipe(inbuf, outbuf, rname, Client, cnum); } DEBUG(0,("opening remote pipe %s - error %s\n", rname, smb_errstr(inbuf))); return 0xffff; } fnum = SVAL(inbuf, smb_vwv2); DEBUG(5,("opening pipe: fnum %d\n", fnum)); return fnum; } /**************************************************************************** do an rpc bind ****************************************************************************/ static BOOL do_rpc_bind(uint16 fnum) { char *rparam = NULL; char *rdata = NULL; char *p; int rdrcnt,rprcnt; int data_len; pstring data; /* only 1024 bytes */ uint16 setup[2]; /* only need 2 uint16 setup parameters */ RPC_HDR hdr; RPC_HDR_RB hdr_rb; RPC_IFACE abstract; RPC_IFACE transfer; BOOL valid_ack = False; int call_id = 0x1; int i; static char abs_data[16]; static char trn_data[16]; /* create and send a MSRPC command with api LSA_OPENPOLICY */ DEBUG(4,("LSA RPC Bind[%d]\n", fnum)); for (i = 0; i < sizeof(trn_data); i++) { trn_data[i] = 2 * i; } for (i = 0; i < sizeof(abs_data); i++) { abs_data[i] = i; } /* create interface UUIDs. */ make_rpc_iface(&abstract, abs_data, 0x0); make_rpc_iface(&transfer, trn_data, 0x2); /* create the request RPC_HDR_RB */ make_rpc_hdr_rb(&hdr_rb, 0x1630, 0x1630, 0x0, 0x1, 0x1, 0x1, &abstract, &transfer); /* stream the bind request data */ p = smb_io_rpc_hdr_rb(False, &hdr_rb, data + 0x10, data, 4, 0); data_len = PTR_DIFF(p, data); /* create the request RPC_HDR */ make_rpc_hdr(&hdr, RPC_BIND, call_id, PTR_DIFF(p, data + 0x10)); /* stream the header into data */ p = smb_io_rpc_hdr(False, &hdr, data, data, 4, 0); /* create setup parameters. */ setup[0] = 0x0026; /* 0x26 indicates "transact named pipe" */ setup[1] = fnum; /* file handle, from the SMBcreateX pipe, earlier */ /* send the data on \PIPE\ */ if (cli_call_api("\\PIPE\\", 0, data_len, 2, 1024, BUFFER_SIZE, &rprcnt, &rdrcnt, NULL, data, setup, &rparam, &rdata)) { RPC_HDR_BA hdr_ba; int hdr_len; int pkt_len; DEBUG(5, ("cli_call_api: return OK\n")); p = rdata; if (p) p = smb_io_rpc_hdr(True, &hdr, p, rdata, 4, 0); if (p) p = align_offset(p, rdata, 4); /* oh, what a surprise */ hdr_len = PTR_DIFF(p, rdata); if (p) p = smb_io_rpc_hdr_ba(True, &hdr_ba, p, rdata, 4, 0); pkt_len = PTR_DIFF(p, rdata); #if 0 if (p && hdr_len != hdr.hdr.frag_len - hdr.alloc_hint) { /* header length not same as calculated header length */ DEBUG(2,("do_lsa_open_policy: hdr_len %x != frag_len-alloc_hint %x\n", hdr_len, hdr.hdr.frag_len - hdr.alloc_hint)); p = NULL; } if (p && pkt_len != hdr.hdr.frag_len) { /* packet data size not same as reported fragment length */ DEBUG(2,("do_lsa_open_policy: pkt_len %x != frag_len \n", pkt_len, hdr.hdr.frag_len)); p = NULL; } if (p && r_o.status != 0) { /* report error code */ DEBUG(0,("LSA_OPENPOLICY: nt_status error %lx\n", r_o.status)); p = NULL; } #endif if (p) { /* ok, at last: we're happy. */ valid_ack = True; } } if (rparam) free(rparam); if (rdata) free(rdata); return valid_ack; } /**************************************************************************** do a LSA Open Policy ****************************************************************************/ static BOOL do_lsa_open_policy(uint16 fnum, char *server_name, LSA_POL_HND *hnd) { char *rparam = NULL; char *rdata = NULL; char *p; int rdrcnt,rprcnt; pstring data; /* only 1024 bytes */ uint16 setup[2]; /* only need 2 uint16 setup parameters */ LSA_Q_OPEN_POL q_o; int call_id = 0x1; BOOL valid_pol = False; if (hnd == NULL) return False; /* create and send a MSRPC command with api LSA_OPENPOLICY */ DEBUG(4,("LSA Open Policy\n")); /* store the parameters */ make_q_open_pol(&q_o, server_name, 0, 0, 0x1); /* turn parameters into data stream */ p = lsa_io_q_open_pol(False, &q_o, data + 0x18, data, 4, 0); /* create the request RPC_HDR_RR with no data */ create_rpc_request(call_id, LSA_OPENPOLICY, data, PTR_DIFF(p, data)); /* create setup parameters. */ setup[0] = 0x0026; /* 0x26 indicates "transact named pipe" */ setup[1] = fnum; /* file handle, from the SMBcreateX pipe, earlier */ /* send the data on \PIPE\ */ if (cli_call_api("\\PIPE\\", 0, PTR_DIFF(p, data), 2, 1024, BUFFER_SIZE, &rprcnt, &rdrcnt, NULL, data, setup, &rparam, &rdata)) { LSA_R_OPEN_POL r_o; RPC_HDR_RR hdr; int hdr_len; int pkt_len; DEBUG(5, ("cli_call_api: return OK\n")); p = rdata; if (p) p = smb_io_rpc_hdr_rr (True, &hdr, p, rdata, 4, 0); if (p) p = align_offset(p, rdata, 4); /* oh, what a surprise */ hdr_len = PTR_DIFF(p, rdata); if (p && hdr_len != hdr.hdr.frag_len - hdr.alloc_hint) { /* header length not same as calculated header length */ DEBUG(2,("do_lsa_open_policy: hdr_len %x != frag_len-alloc_hint %x\n", hdr_len, hdr.hdr.frag_len - hdr.alloc_hint)); p = NULL; } if (p) p = lsa_io_r_open_pol(True, &r_o, p, rdata, 4, 0); pkt_len = PTR_DIFF(p, rdata); if (p && pkt_len != hdr.hdr.frag_len) { /* packet data size not same as reported fragment length */ DEBUG(2,("do_lsa_open_policy: pkt_len %x != frag_len \n", pkt_len, hdr.hdr.frag_len)); p = NULL; } if (p && r_o.status != 0) { /* report error code */ DEBUG(0,("LSA_OPENPOLICY: nt_status error %lx\n", r_o.status)); p = NULL; } if (p) { /* ok, at last: we're happy. return the policy handle */ memcpy(hnd, r_o.pol.data, sizeof(hnd->data)); valid_pol = True; } } if (rparam) free(rparam); if (rdata) free(rdata); return valid_pol; } /**************************************************************************** do a LSA Query Info Policy ****************************************************************************/ static BOOL do_lsa_query_info_pol(uint16 fnum, LSA_POL_HND *hnd, uint16 info_class, fstring domain_name, pstring domain_sid) { char *rparam = NULL; char *rdata = NULL; char *p; int rdrcnt,rprcnt; pstring data; /* only 1024 bytes */ uint16 setup[2]; /* only need 2 uint16 setup parameters */ LSA_Q_QUERY_INFO q_q; int call_id = 0x1; BOOL valid_response = False; if (hnd == NULL || domain_name == NULL || domain_sid == NULL) return False; /* create and send a MSRPC command with api LSA_QUERYINFOPOLICY */ DEBUG(4,("LSA Query Info Policy\n")); /* store the parameters */ make_q_query(&q_q, hnd, info_class); /* turn parameters into data stream */ p = lsa_io_q_query(False, &q_q, data + 0x18, data, 4, 0); /* create the request RPC_HDR_RR with no data */ create_rpc_request(call_id, LSA_QUERYINFOPOLICY, data, PTR_DIFF(p, data)); /* create setup parameters. */ setup[0] = 0x0026; /* 0x26 indicates "transact named pipe" */ setup[1] = fnum; /* file handle, from the SMBcreateX pipe, earlier */ /* send the data on \PIPE\ */ if (cli_call_api("\\PIPE\\", 0, PTR_DIFF(p, data), 2, 1024, BUFFER_SIZE, &rprcnt, &rdrcnt, NULL, data, setup, &rparam, &rdata)) { LSA_R_QUERY_INFO r_q; RPC_HDR_RR hdr; int hdr_len; int pkt_len; DEBUG(5, ("cli_call_api: return OK\n")); p = rdata; if (p) p = smb_io_rpc_hdr_rr (True, &hdr, p, rdata, 4, 0); if (p) p = align_offset(p, rdata, 4); /* oh, what a surprise */ hdr_len = PTR_DIFF(p, rdata); if (p && hdr_len != hdr.hdr.frag_len - hdr.alloc_hint) { /* header length not same as calculated header length */ DEBUG(2,("do_lsa_query_info: hdr_len %x != frag_len-alloc_hint %x\n", hdr_len, hdr.hdr.frag_len - hdr.alloc_hint)); p = NULL; } if (p) p = lsa_io_r_query(True, &r_q, p, rdata, 4, 0); pkt_len = PTR_DIFF(p, rdata); if (p && pkt_len != hdr.hdr.frag_len) { /* packet data size not same as reported fragment length */ DEBUG(2,("do_lsa_query_info: pkt_len %x != frag_len \n", pkt_len, hdr.hdr.frag_len)); p = NULL; } if (p && r_q.status != 0) { /* report error code */ DEBUG(0,("LSA_QUERYINFOPOLICY: nt_status error %lx\n", r_q.status)); p = NULL; } if (p && r_q.info_class != q_q.info_class) { /* report different info classes */ DEBUG(0,("LSA_QUERYINFOPOLICY: error info_class (q,r) differ - (%x,%x)\n", q_q.info_class, r_q.info_class)); p = NULL; } if (p) { /* ok, at last: we're happy. */ switch (r_q.info_class) { case 3: { char *dom_name = unistrn2(r_q.dom.id3.uni_domain_name.buffer, r_q.dom.id3.uni_domain_name.uni_str_len); char *dom_sid = dom_sid_to_string(&(r_q.dom.id3.dom_sid)); fstrcpy(domain_name, dom_name); pstrcpy(domain_sid , dom_sid); valid_response = True; break; } case 5: { char *dom_name = unistrn2(r_q.dom.id5.uni_domain_name.buffer, r_q.dom.id5.uni_domain_name.uni_str_len); char *dom_sid = dom_sid_to_string(&(r_q.dom.id5.dom_sid)); fstrcpy(domain_name, dom_name); pstrcpy(domain_sid , dom_sid); valid_response = True; break; } default: { DEBUG(3,("LSA_QUERYINFOPOLICY: unknown info class\n")); domain_name[0] = 0; domain_sid [0] = 0; break; } } DEBUG(3,("LSA_QUERYINFOPOLICY (level %x): domain:%s domain sid:%s\n", r_q.info_class, domain_name, domain_sid)); } } if (rparam) free(rparam); if (rdata) free(rdata); return valid_response; } /**************************************************************************** do a LSA Close ****************************************************************************/ static BOOL do_lsa_close(uint16 fnum, LSA_POL_HND *hnd) { char *rparam = NULL; char *rdata = NULL; char *p; int rdrcnt,rprcnt; pstring data; /* only 1024 bytes */ uint16 setup[2]; /* only need 2 uint16 setup parameters */ LSA_Q_CLOSE q_c; int call_id = 0x1; BOOL valid_close = False; if (hnd == NULL) return False; /* create and send a MSRPC command with api LSA_OPENPOLICY */ DEBUG(4,("LSA Close\n")); /* store the parameters */ make_q_close(&q_c, hnd); /* turn parameters into data stream */ p = lsa_io_q_close(False, &q_c, data + 0x18, data, 4, 0); /* create the request RPC_HDR_RR with no data */ create_rpc_request(call_id, LSA_CLOSE, data, PTR_DIFF(p, data)); /* create setup parameters. */ setup[0] = 0x0026; /* 0x26 indicates "transact named pipe" */ setup[1] = fnum; /* file handle, from the SMBcreateX pipe, earlier */ /* send the data on \PIPE\ */ if (cli_call_api("\\PIPE\\", 0, PTR_DIFF(p, data), 2, 1024, BUFFER_SIZE, &rprcnt, &rdrcnt, NULL, data, setup, &rparam, &rdata)) { LSA_R_CLOSE r_c; RPC_HDR_RR hdr; int hdr_len; int pkt_len; DEBUG(5, ("cli_call_api: return OK\n")); p = rdata; if (p) p = smb_io_rpc_hdr_rr (True, &hdr, p, rdata, 4, 0); if (p) p = align_offset(p, rdata, 4); /* oh, what a surprise */ hdr_len = PTR_DIFF(p, rdata); if (p && hdr_len != hdr.hdr.frag_len - hdr.alloc_hint) { /* header length not same as calculated header length */ DEBUG(2,("do_lsa_close: hdr_len %x != frag_len-alloc_hint %x\n", hdr_len, hdr.hdr.frag_len - hdr.alloc_hint)); p = NULL; } if (p) p = lsa_io_r_close(True, &r_c, p, rdata, 4, 0); pkt_len = PTR_DIFF(p, rdata); if (p && pkt_len != hdr.hdr.frag_len) { /* packet data size not same as reported fragment length */ DEBUG(2,("do_lsa_close: pkt_len %x != frag_len \n", pkt_len, hdr.hdr.frag_len)); p = NULL; } if (p && r_c.status != 0) { /* report error code */ DEBUG(0,("LSA_OPENPOLICY: nt_status error %lx\n", r_c.status)); p = NULL; } if (p) { /* check that the returned policy handle is all zeros */ int i; valid_close = True; for (i = 0; i < sizeof(r_c.pol.data); i++) { if (r_c.pol.data[i] != 0) { valid_close = False; break; } } if (!valid_close) { DEBUG(0,("LSA_CLOSE: non-zero handle returned\n")); } } } if (rparam) free(rparam); if (rdata) free(rdata); return valid_close; } /**************************************************************************** do a LSA Request Challenge ****************************************************************************/ static BOOL do_lsa_req_chal(uint16 fnum, char *desthost, char *myhostname, DOM_CHAL *clnt_chal, DOM_CHAL *srv_chal) { char *rparam = NULL; char *rdata = NULL; char *p; int rdrcnt,rprcnt; pstring data; /* only 1024 bytes */ uint16 setup[2]; /* only need 2 uint16 setup parameters */ LSA_Q_REQ_CHAL q_c; int call_id = 0x1; BOOL valid_chal = False; if (srv_chal == NULL || clnt_chal == NULL) return False; /* create and send a MSRPC command with api LSA_REQCHAL */ DEBUG(4,("LSA Request Challenge from %s to %s: %lx %lx\n", desthost, myhostname, clnt_chal->data[0], clnt_chal->data[1])); /* store the parameters */ make_q_req_chal(&q_c, desthost, myhostname, clnt_chal); /* turn parameters into data stream */ p = lsa_io_q_req_chal(False, &q_c, data + 0x18, data, 4, 0); /* create the request RPC_HDR_RR _after_ the main data: length is now known */ create_rpc_request(call_id, LSA_REQCHAL, data, PTR_DIFF(p, data)); /* create setup parameters. */ setup[0] = 0x0026; /* 0x26 indicates "transact named pipe" */ setup[1] = fnum; /* file handle, from the SMBcreateX pipe, earlier */ /* send the data on \PIPE\ */ if (cli_call_api("\\PIPE\\", 0, PTR_DIFF(p, data), 2, 1024, BUFFER_SIZE, &rprcnt,&rdrcnt, NULL, data, setup, &rparam,&rdata)) { LSA_R_REQ_CHAL r_c; RPC_HDR_RR hdr; int hdr_len; int pkt_len; DEBUG(5, ("cli_call_api: return OK\n")); p = rdata; if (p) p = smb_io_rpc_hdr_rr (True, &hdr, p, rdata, 4, 0); if (p) p = align_offset(p, rdata, 4); /* oh, what a surprise */ hdr_len = PTR_DIFF(p, rdata); if (p && hdr_len != hdr.hdr.frag_len - hdr.alloc_hint) { /* header length not same as calculated header length */ DEBUG(2,("do_lsa_req_chal: hdr_len %x != frag_len-alloc_hint %x\n", hdr_len, hdr.hdr.frag_len - hdr.alloc_hint)); p = NULL; } if (p) p = lsa_io_r_req_chal(True, &r_c, p, rdata, 4, 0); pkt_len = PTR_DIFF(p, rdata); if (p && pkt_len != hdr.hdr.frag_len) { /* packet data size not same as reported fragment length */ DEBUG(2,("do_lsa_req_chal: pkt_len %x != frag_len \n", pkt_len, hdr.hdr.frag_len)); p = NULL; } if (p && r_c.status != 0) { /* report error code */ DEBUG(0,("LSA_REQ_CHAL: nt_status error %lx\n", r_c.status)); p = NULL; } if (p) { /* ok, at last: we're happy. return the challenge */ memcpy(srv_chal, r_c.srv_chal.data, sizeof(srv_chal->data)); valid_chal = True; } } if (rparam) free(rparam); if (rdata) free(rdata); return valid_chal; } /**************************************************************************** do a LSA Authenticate 2 ****************************************************************************/ static BOOL do_lsa_auth2(uint16 fnum, char *logon_srv, char *acct_name, uint16 sec_chan, char *comp_name, DOM_CHAL *clnt_chal, uint32 neg_flags, DOM_CHAL *srv_chal) { char *rparam = NULL; char *rdata = NULL; char *p; int rdrcnt,rprcnt; pstring data; /* only 1024 bytes */ uint16 setup[2]; /* only need 2 uint16 setup parameters */ LSA_Q_AUTH_2 q_a; int call_id = 0x1; BOOL valid_chal = False; if (srv_chal == NULL || clnt_chal == NULL) return False; /* create and send a MSRPC command with api LSA_AUTH2 */ DEBUG(4,("LSA Authenticate 2: srv:%s acct:%s sc:%x mc: %s chal %lx %lx neg: %lx\n", logon_srv, acct_name, sec_chan, comp_name, clnt_chal->data[0], clnt_chal->data[1], neg_flags)); /* store the parameters */ make_q_auth_2(&q_a, logon_srv, acct_name, sec_chan, comp_name, clnt_chal, neg_flags); /* turn parameters into data stream */ p = lsa_io_q_auth_2(False, &q_a, data + 0x18, data, 4, 0); /* create the request RPC_HDR_RR _after_ the main data: length is now known */ create_rpc_request(call_id, LSA_AUTH2, data, PTR_DIFF(p, data)); /* create setup parameters. */ setup[0] = 0x0026; /* 0x26 indicates "transact named pipe" */ setup[1] = fnum; /* file handle, from the SMBcreateX pipe, earlier */ /* send the data on \PIPE\ */ if (cli_call_api("\\PIPE\\", 0, PTR_DIFF(p, data), 2, 1024, BUFFER_SIZE, &rprcnt,&rdrcnt, NULL, data, setup, &rparam,&rdata)) { LSA_R_AUTH_2 r_a; RPC_HDR_RR hdr; int hdr_len; int pkt_len; DEBUG(5, ("cli_call_api: return OK\n")); p = rdata; if (p) p = smb_io_rpc_hdr_rr (True, &hdr, p, rdata, 4, 0); if (p) p = align_offset(p, rdata, 4); /* oh, what a surprise */ hdr_len = PTR_DIFF(p, rdata); if (p && hdr_len != hdr.hdr.frag_len - hdr.alloc_hint) { /* header length not same as calculated header length */ DEBUG(2,("do_lsa_auth2: hdr_len %x != frag_len-alloc_hint %x\n", hdr_len, hdr.hdr.frag_len - hdr.alloc_hint)); p = NULL; } if (p) p = lsa_io_r_auth_2(True, &r_a, p, rdata, 4, 0); pkt_len = PTR_DIFF(p, rdata); if (p && pkt_len != hdr.hdr.frag_len) { /* packet data size not same as reported fragment length */ DEBUG(2,("do_lsa_auth2: pkt_len %x != frag_len \n", pkt_len, hdr.hdr.frag_len)); p = NULL; } if (p && r_a.status != 0) { /* report error code */ DEBUG(0,("LSA_AUTH2: nt_status error %lx\n", r_a.status)); p = NULL; } if (p && r_a.srv_flgs.neg_flags != q_a.clnt_flgs.neg_flags) { /* report different neg_flags */ DEBUG(0,("LSA_AUTH2: error neg_flags (q,r) differ - (%lx,%lx)\n", q_a.clnt_flgs.neg_flags, r_a.srv_flgs.neg_flags)); p = NULL; } if (p) { /* ok, at last: we're happy. return the challenge */ memcpy(srv_chal, r_a.srv_chal.data, sizeof(srv_chal->data)); valid_chal = True; } } if (rparam) free(rparam); if (rdata) free(rdata); return valid_chal; } /*************************************************************************** do a LSA SAM Logon ****************************************************************************/ static BOOL do_lsa_sam_logon(uint16 fnum, uint32 sess_key[2], DOM_CRED *sto_clnt_cred, char *logon_srv, char *comp_name, DOM_CRED *clnt_cred, DOM_CRED *rtn_cred, uint16 logon_level, uint16 switch_value, DOM_ID_INFO_1 *id1, LSA_USER_INFO *user_info, DOM_CRED *srv_cred) { char *rparam = NULL; char *rdata = NULL; char *p; int rdrcnt,rprcnt; pstring data; /* only 1024 bytes */ uint16 setup[2]; /* only need 2 uint16 setup parameters */ LSA_Q_SAM_LOGON q_s; int call_id = 0x1; BOOL valid_cred = False; if (srv_cred == NULL || clnt_cred == NULL || rtn_cred == NULL || user_info == NULL) return False; /* create and send a MSRPC command with api LSA_SAMLOGON */ DEBUG(4,("LSA SAM Logon: srv:%s mc:%s clnt %lx %lx %lx rtn: %lx %lx %lx ll: %d\n", logon_srv, comp_name, clnt_cred->challenge.data[0], clnt_cred->challenge.data[1], clnt_cred->timestamp.time, rtn_cred ->challenge.data[0], rtn_cred ->challenge.data[1], rtn_cred ->timestamp.time, logon_level)); /* store the parameters */ make_sam_info(&(q_s.sam_id), logon_srv, comp_name, clnt_cred, rtn_cred, logon_level, switch_value, id1); /* turn parameters into data stream */ p = lsa_io_q_sam_logon(False, &q_s, data + 0x18, data, 4, 0); /* create the request RPC_HDR_RR _after_ the main data: length is now known */ create_rpc_request(call_id, LSA_SAMLOGON, data, PTR_DIFF(p, data)); /* create setup parameters. */ setup[0] = 0x0026; /* 0x26 indicates "transact named pipe" */ setup[1] = fnum; /* file handle, from the SMBcreateX pipe, earlier */ /* send the data on \PIPE\ */ if (cli_call_api("\\PIPE\\", 0, PTR_DIFF(p, data), 2, 1024, BUFFER_SIZE, &rprcnt,&rdrcnt, NULL, data, setup, &rparam,&rdata)) { LSA_R_SAM_LOGON r_s; RPC_HDR_RR hdr; int hdr_len; int pkt_len; r_s.user = user_info; DEBUG(5, ("cli_call_api: return OK\n")); p = rdata; if (p) p = smb_io_rpc_hdr_rr (True, &hdr, p, rdata, 4, 0); if (p) p = align_offset(p, rdata, 4); /* oh, what a surprise */ hdr_len = PTR_DIFF(p, rdata); if (p && hdr_len != hdr.hdr.frag_len - hdr.alloc_hint) { /* header length not same as calculated header length */ DEBUG(2,("do_lsa_sam_logon: hdr_len %x != frag_len-alloc_hint %x\n", hdr_len, hdr.hdr.frag_len - hdr.alloc_hint)); p = NULL; } if (p) p = lsa_io_r_sam_logon(True, &r_s, p, rdata, 4, 0); pkt_len = PTR_DIFF(p, rdata); if (p && pkt_len != hdr.hdr.frag_len) { /* packet data size not same as reported fragment length */ DEBUG(2,("do_lsa_sam_logon: pkt_len %x != frag_len \n", pkt_len, hdr.hdr.frag_len)); p = NULL; } if (p && r_s.status != 0) { /* report error code */ DEBUG(0,("LSA_SAMLOGON: nt_status error %lx\n", r_s.status)); p = NULL; } if (p && r_s.switch_value != 3) { /* report different switch_value */ DEBUG(0,("LSA_SAMLOGON: switch_value of 3 expected %x\n", r_s.switch_value)); p = NULL; } if (p) { if (clnt_deal_with_creds(sess_key, sto_clnt_cred, &(r_s.srv_creds))) { DEBUG(5, ("do_lsa_sam_logon: server credential check OK\n")); /* ok, at last: we're happy. return the challenge */ memcpy(srv_cred, &(r_s.srv_creds), sizeof(r_s.srv_creds)); valid_cred = True; } else { DEBUG(5, ("do_lsa_sam_logon: server credential check failed\n")); } } } if (rparam) free(rparam); if (rdata) free(rdata); return valid_cred; } /*************************************************************************** do a LSA SAM Logoff ****************************************************************************/ static BOOL do_lsa_sam_logoff(uint16 fnum, uint32 sess_key[2], DOM_CRED *sto_clnt_cred, char *logon_srv, char *comp_name, DOM_CRED *clnt_cred, DOM_CRED *rtn_cred, uint16 logon_level, uint16 switch_value, DOM_ID_INFO_1 *id1, DOM_CRED *srv_cred) { char *rparam = NULL; char *rdata = NULL; char *p; int rdrcnt,rprcnt; pstring data; /* only 1024 bytes */ uint16 setup[2]; /* only need 2 uint16 setup parameters */ LSA_Q_SAM_LOGOFF q_s; int call_id = 0x1; BOOL valid_cred = False; if (srv_cred == NULL || clnt_cred == NULL || rtn_cred == NULL) return False; /* create and send a MSRPC command with api LSA_SAMLOGON */ DEBUG(4,("LSA SAM Logoff: srv:%s mc:%s clnt %lx %lx %lx rtn: %lx %lx %lx ll: %d\n", logon_srv, comp_name, clnt_cred->challenge.data[0], clnt_cred->challenge.data[1], clnt_cred->timestamp.time, rtn_cred ->challenge.data[0], rtn_cred ->challenge.data[1], rtn_cred ->timestamp.time, logon_level)); /* store the parameters */ make_sam_info(&(q_s.sam_id), logon_srv, comp_name, clnt_cred, rtn_cred, logon_level, switch_value, id1); /* turn parameters into data stream */ p = lsa_io_q_sam_logoff(False, &q_s, data + 0x18, data, 4, 0); /* create the request RPC_HDR_RR _after_ the main data: length is now known */ create_rpc_request(call_id, LSA_SAMLOGOFF, data, PTR_DIFF(p, data)); /* create setup parameters. */ setup[0] = 0x0026; /* 0x26 indicates "transact named pipe" */ setup[1] = fnum; /* file handle, from the SMBcreateX pipe, earlier */ /* send the data on \PIPE\ */ if (cli_call_api("\\PIPE\\", 0, PTR_DIFF(p, data), 2, 1024, BUFFER_SIZE, &rprcnt,&rdrcnt, NULL, data, setup, &rparam,&rdata)) { LSA_R_SAM_LOGOFF r_s; RPC_HDR_RR hdr; int hdr_len; int pkt_len; DEBUG(5, ("cli_call_api: return OK\n")); p = rdata; if (p) p = smb_io_rpc_hdr_rr (True, &hdr, p, rdata, 4, 0); if (p) p = align_offset(p, rdata, 4); /* oh, what a surprise */ hdr_len = PTR_DIFF(p, rdata); if (p && hdr_len != hdr.hdr.frag_len - hdr.alloc_hint) { /* header length not same as calculated header length */ DEBUG(2,("do_lsa_sam_logoff: hdr_len %x != frag_len-alloc_hint %x\n", hdr_len, hdr.hdr.frag_len - hdr.alloc_hint)); p = NULL; } if (p) p = lsa_io_r_sam_logoff(True, &r_s, p, rdata, 4, 0); pkt_len = PTR_DIFF(p, rdata); if (p && pkt_len != hdr.hdr.frag_len) { /* packet data size not same as reported fragment length */ DEBUG(2,("do_lsa_sam_logoff: pkt_len %x != frag_len \n", pkt_len, hdr.hdr.frag_len)); p = NULL; } if (p && r_s.status != 0) { /* report error code */ DEBUG(0,("LSA_SAMLOGOFF: nt_status error %lx\n", r_s.status)); p = NULL; } if (p) { if (clnt_deal_with_creds(sess_key, sto_clnt_cred, &(r_s.srv_creds))) { DEBUG(5, ("do_lsa_sam_logoff: server credential check OK\n")); /* ok, at last: we're happy. return the challenge */ memcpy(srv_cred, &(r_s.srv_creds), sizeof(r_s.srv_creds)); valid_cred = True; } else { DEBUG(5, ("do_lsa_sam_logoff: server credential check failed\n")); } } } if (rparam) free(rparam); if (rdata) free(rdata); return valid_cred; } /**************************************************************************** experimental nt login. ****************************************************************************/ BOOL do_nt_login(char *desthost, char *myhostname, int Client, int cnum) { DOM_CHAL clnt_chal; DOM_CHAL srv_chal; DOM_CRED clnt_cred; DOM_CHAL auth2_srv_chal; DOM_CRED sam_logon_clnt_cred; DOM_CRED sam_logon_rtn_cred; DOM_CRED sam_logon_srv_cred; DOM_CRED sam_logoff_clnt_cred; DOM_CRED sam_logoff_rtn_cred; DOM_CRED sam_logoff_srv_cred; DOM_ID_INFO_1 id1; LSA_USER_INFO user_info1; LSA_POL_HND pol; UTIME zerotime; uint32 sess_key[2]; char nt_owf_mach_pwd[16]; fstring mach_acct; fstring mach_pwd; fstring server_name; /* received from LSA Query Info Policy, level 5 */ fstring level5_domain_name; pstring level5_domain_sid; /* received from LSA Query Info Policy, level 3 */ fstring level3_domain_name; pstring level3_domain_sid; uint16 fnum; char *inbuf,*outbuf; zerotime.time = 0; inbuf = (char *)malloc(BUFFER_SIZE + SAFETY_MARGIN); outbuf = (char *)malloc(BUFFER_SIZE + SAFETY_MARGIN); if (!inbuf || !outbuf) { DEBUG(0,("out of memory\n")); return False; } /******************* open the \PIPE\lsarpc file *****************/ if ((fnum = open_rpc_pipe(inbuf, outbuf, PIPE_LSARPC, Client, cnum)) == 0xffff) { free(inbuf); free(outbuf); return False; } /******************* bind request on \PIPE\lsarpc *****************/ if (!do_rpc_bind(fnum)) { free(inbuf); free(outbuf); return False; } /******************* Open Policy ********************/ fstrcpy(server_name, ("\\\\")); fstrcpy(&server_name[2], myhostname); /* send an open policy request; receive a policy handle */ if (!do_lsa_open_policy(fnum, server_name, &pol)) { cli_smb_close(inbuf, outbuf, Client, cnum, fnum); free(inbuf); free(outbuf); return False; } /**************** Query Info Policy, level 3 ********************/ /* send a query info policy at level 3; receive an info policy */ if (!do_lsa_query_info_pol(fnum, &pol, 0x3, level3_domain_name, level3_domain_sid)) { cli_smb_close(inbuf, outbuf, Client, cnum, fnum); free(inbuf); free(outbuf); return False; } /**************** Query Info Policy, level 5 ********************/ /* send a query info policy at level 5; receive an info policy */ if (!do_lsa_query_info_pol(fnum, &pol, 0x5, level5_domain_name, level5_domain_sid)) { cli_smb_close(inbuf, outbuf, Client, cnum, fnum); free(inbuf); free(outbuf); return False; } /******************* Open Policy ********************/ /* send a close policy request; receive a close pol response */ if (!do_lsa_close(fnum, &pol)) { cli_smb_close(inbuf, outbuf, Client, cnum, fnum); free(inbuf); free(outbuf); return False; } /******************* close the \PIPE\lsarpc file *******************/ cli_smb_close(inbuf, outbuf, Client, cnum, fnum); /******************* open the \PIPE\NETLOGON file *****************/ if ((fnum = open_rpc_pipe(inbuf, outbuf, PIPE_NETLOGON, Client, cnum)) == 0xffff) { free(inbuf); free(outbuf); return False; } /******************* bind request on \PIPE\NETLOGON *****************/ if (!do_rpc_bind(fnum)) { free(inbuf); free(outbuf); return False; } /******************* Request Challenge ********************/ fstrcpy(mach_acct, myhostname); strlower(mach_pwd); fstrcpy(mach_pwd , myhostname); strcat(mach_acct, "$"); clnt_chal.data[0] = 0x11111111; clnt_chal.data[1] = 0x22222222; /* send a client challenge; receive a server challenge */ if (!do_lsa_req_chal(fnum, desthost, myhostname, &clnt_chal, &srv_chal)) { cli_smb_close(inbuf, outbuf, Client, cnum, fnum); free(inbuf); free(outbuf); return False; } /************ Long-term Session key (default) **********/ #if 0 /* DAMN! can't get the machine password - need become_root() to do it! */ /* get the machine password */ if (!get_md4pw(mach_acct, nt_owf_mach_pwd)) { cli_smb_close(inbuf, outbuf, Client, cnum, fnum); free(inbuf); free(outbuf); return False; } DEBUG(5,("got nt owf from smbpasswd entry: %s\n", mach_pwd)); #else { char lm_owf_mach_pwd[16]; nt_lm_owf_gen(mach_pwd, nt_owf_mach_pwd, lm_owf_mach_pwd); DEBUG(5,("generating nt owf from initial machine pwd: %s\n", mach_pwd)); } #endif dump_data(6, nt_owf_mach_pwd, 16); /* calculate the session key */ cred_session_key(&clnt_chal, &srv_chal, nt_owf_mach_pwd, sess_key); /******************* Authenticate 2 ********************/ /* calculate auth-2 credentials */ cred_create(sess_key, &clnt_chal, zerotime, &(clnt_cred.challenge)); /* send client auth-2 challenge; receive an auth-2 challenge */ if (!do_lsa_auth2(fnum, desthost, mach_acct, 2, myhostname, &(clnt_cred.challenge), 0x000001ff, &auth2_srv_chal)) { cli_smb_close(inbuf, outbuf, Client, cnum, fnum); free(inbuf); free(outbuf); return False; } /*********************** SAM Info ***********************/ /* this is used in both the SAM Logon and the SAM Logoff */ make_id_info1(&id1, workgroup, 0, getuid(), 0, username, myhostname, NULL, NULL); /*********************** SAM Logon **********************/ clnt_cred.timestamp.time = sam_logon_clnt_cred.timestamp.time = time(NULL); /* calculate sam logon credentials, using the auth2 client challenge */ cred_create(sess_key, &(clnt_cred.challenge), sam_logon_clnt_cred.timestamp, &(sam_logon_clnt_cred.challenge)); /* send client sam-logon challenge; receive a sam-logon challenge */ if (!do_lsa_sam_logon(fnum, sess_key, &clnt_cred, desthost, mach_acct, &sam_logon_clnt_cred, &sam_logon_rtn_cred, 1, 1, &id1, &user_info1, &sam_logon_srv_cred)) { cli_smb_close(inbuf, outbuf, Client, cnum, fnum); free(inbuf); free(outbuf); return False; } /*********************** SAM Logoff *********************/ clnt_cred.timestamp.time = sam_logoff_clnt_cred.timestamp.time = time(NULL); /* calculate sam logoff credentials, using the sam logon return challenge */ cred_create(sess_key, &(clnt_cred.challenge), sam_logoff_clnt_cred.timestamp, &(sam_logoff_clnt_cred.challenge)); /* send client sam-logoff challenge; receive a sam-logoff challenge */ if (!do_lsa_sam_logoff(fnum, sess_key, &clnt_cred, desthost, mach_acct, &sam_logoff_clnt_cred, &sam_logoff_rtn_cred, 1, 1, &id1, &sam_logoff_srv_cred)) { cli_smb_close(inbuf, outbuf, Client, cnum, fnum); free(inbuf); free(outbuf); return False; } /******************** close the \PIPE\NETLOGON file **************/ cli_smb_close(inbuf, outbuf, Client, cnum, fnum); /* free memory used in all rpc transactions, above */ free(inbuf); free(outbuf); return True; } #endif /* NTDOMAIN */