/* Unix SMB/Netbios implementation. Version 1.9. Pipe SMB reply routines Copyright (C) Andrew Tridgell 1992-1997, Copyright (C) Luke Kenneth Casson Leighton 1996-1997. Copyright (C) Paul Ashton 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. */ /* This file handles reply_ calls on named pipes that the server makes to handle specific protocols */ #include "includes.h" #include "trans2.h" #include "nterr.h" extern int DEBUGLEVEL; #ifdef NTDOMAIN static int lsa_reply_open_policy(char *q, char *base) { int i; LSA_R_OPEN_POL r_o; /* set up the LSA QUERY INFO response */ bzero(&(r_o.pol.data), POL_HND_SIZE); for (i = 4; i < POL_HND_SIZE; i++) { r_o.pol.data[i] = i; } r_o.status = 0x0; /* store the response in the SMB stream */ q = lsa_io_r_open_pol(False, &r_o, q, base, 4, 0); /* return length of SMB data stored */ return PTR_DIFF(q, base); } static void make_dom_query(DOM_QUERY *d_q, char *dom_name, char *dom_sid) { int domlen = strlen(dom_name); d_q->uni_dom_max_len = domlen * 2; d_q->uni_dom_str_len = domlen * 2; d_q->buffer_dom_name = 4; /* domain buffer pointer */ d_q->buffer_dom_sid = 2; /* domain sid pointer */ /* this string is supposed to be character short */ make_unistr2(&(d_q->uni_domain_name), dom_name, domlen); make_dom_sid(&(d_q->dom_sid), dom_sid); } static int lsa_reply_query_info(LSA_Q_QUERY_INFO *q_q, char *q, char *base, char *dom_name, char *dom_sid) { LSA_R_QUERY_INFO r_q; /* set up the LSA QUERY INFO response */ r_q.undoc_buffer = 0x22000000; /* bizarre */ r_q.info_class = q_q->info_class; make_dom_query(&r_q.dom.id5, dom_name, dom_sid); r_q.status = 0x0; /* store the response in the SMB stream */ q = lsa_io_r_query(False, &r_q, q, base, 4, 0); /* return length of SMB data stored */ return PTR_DIFF(q, base); } /* pretty much hard-coded choice of "other" sids, unfortunately... */ static void make_dom_ref(DOM_R_REF *ref, char *dom_name, char *dom_sid, char *other_sid1, char *other_sid2, char *other_sid3) { int len_dom_name = strlen(dom_name); int len_other_sid1 = strlen(other_sid1); int len_other_sid2 = strlen(other_sid2); int len_other_sid3 = strlen(other_sid3); ref->undoc_buffer = 1; ref->num_ref_doms_1 = 4; ref->buffer_dom_name = 1; ref->max_entries = 32; ref->num_ref_doms_2 = 4; make_uni_hdr2(&(ref->hdr_dom_name ), len_dom_name , len_dom_name , 0); make_uni_hdr2(&(ref->hdr_ref_dom[0]), len_other_sid1, len_other_sid1, 0); make_uni_hdr2(&(ref->hdr_ref_dom[1]), len_other_sid2, len_other_sid2, 0); make_uni_hdr2(&(ref->hdr_ref_dom[2]), len_other_sid3, len_other_sid3, 0); if (dom_name != NULL) { make_unistr(&(ref->uni_dom_name), dom_name); } make_dom_sid(&(ref->ref_dom[0]), dom_sid ); make_dom_sid(&(ref->ref_dom[1]), other_sid1); make_dom_sid(&(ref->ref_dom[2]), other_sid2); make_dom_sid(&(ref->ref_dom[3]), other_sid3); } static void make_reply_lookup_rids(LSA_R_LOOKUP_RIDS *r_l, int num_entries, uint32 dom_rids[MAX_LOOKUP_SIDS], char *dom_name, char *dom_sid, char *other_sid1, char *other_sid2, char *other_sid3) { int i; make_dom_ref(&(r_l->dom_ref), dom_name, dom_sid, other_sid1, other_sid2, other_sid3); r_l->num_entries = num_entries; r_l->undoc_buffer = 1; r_l->num_entries2 = num_entries; for (i = 0; i < num_entries; i++) { make_dom_rid2(&(r_l->dom_rid[i]), dom_rids[i]); } r_l->num_entries3 = num_entries; } static void make_reply_lookup_sids(LSA_R_LOOKUP_SIDS *r_l, int num_entries, fstring dom_sids[MAX_LOOKUP_SIDS], char *dom_name, char *dom_sid, char *other_sid1, char *other_sid2, char *other_sid3) { int i; make_dom_ref(&(r_l->dom_ref), dom_name, dom_sid, other_sid1, other_sid2, other_sid3); r_l->num_entries = num_entries; r_l->undoc_buffer = 1; r_l->num_entries2 = num_entries; for (i = 0; i < num_entries; i++) { make_dom_sid2(&(r_l->dom_sid[i]), dom_sids[i]); } r_l->num_entries3 = num_entries; } static int lsa_reply_lookup_sids(char *q, char *base, int num_entries, fstring dom_sids[MAX_LOOKUP_SIDS], char *dom_name, char *dom_sid, char *other_sid1, char *other_sid2, char *other_sid3) { LSA_R_LOOKUP_SIDS r_l; /* set up the LSA Lookup SIDs response */ make_reply_lookup_sids(&r_l, num_entries, dom_sids, dom_name, dom_sid, other_sid1, other_sid2, other_sid3); r_l.status = 0x0; /* store the response in the SMB stream */ q = lsa_io_r_lookup_sids(False, &r_l, q, base, 4, 0); /* return length of SMB data stored */ return PTR_DIFF(q, base); } static int lsa_reply_lookup_rids(char *q, char *base, int num_entries, uint32 dom_rids[MAX_LOOKUP_SIDS], char *dom_name, char *dom_sid, char *other_sid1, char *other_sid2, char *other_sid3) { LSA_R_LOOKUP_RIDS r_l; /* set up the LSA Lookup RIDs response */ make_reply_lookup_rids(&r_l, num_entries, dom_rids, dom_name, dom_sid, other_sid1, other_sid2, other_sid3); r_l.status = 0x0; /* store the response in the SMB stream */ q = lsa_io_r_lookup_rids(False, &r_l, q, base, 4, 0); /* return length of SMB data stored */ return PTR_DIFF(q, base); } static void api_lsa_open_policy( char *param, char *data, char **rdata, int *rdata_len ) { /* we might actually want to decode the query, but it's not necessary */ /* lsa_io_q_open_policy(...); */ /* return a 20 byte policy handle */ *rdata_len = lsa_reply_open_policy(*rdata + 0x18, *rdata); } static void api_lsa_query_info( char *param, char *data, char **rdata, int *rdata_len ) { LSA_Q_QUERY_INFO q_i; pstring dom_name; pstring dom_sid; /* grab the info class and policy handle */ lsa_io_q_query(True, &q_i, data + 0x18, data, 4, 0); pstrcpy(dom_name, lp_workgroup()); pstrcpy(dom_sid , lp_domain_sid()); /* construct reply. return status is always 0x0 */ *rdata_len = lsa_reply_query_info(&q_i, *rdata + 0x18, *rdata, dom_name, dom_sid); } static void api_lsa_lookup_sids( char *param, char *data, char **rdata, int *rdata_len ) { int i; LSA_Q_LOOKUP_SIDS q_l; pstring dom_name; pstring dom_sid; fstring dom_sids[MAX_LOOKUP_SIDS]; /* grab the info class and policy handle */ lsa_io_q_lookup_sids(True, &q_l, data + 0x18, data, 4, 0); pstrcpy(dom_name, lp_workgroup()); pstrcpy(dom_sid , lp_domain_sid()); /* convert received SIDs to strings, so we can do them. */ for (i = 0; i < q_l.num_entries; i++) { fstrcpy(dom_sids[i], dom_sid_to_string(&(q_l.dom_sids[i]))); } /* construct reply. return status is always 0x0 */ *rdata_len = lsa_reply_lookup_sids(*rdata + 0x18, *rdata, q_l.num_entries, dom_sids, /* text-converted SIDs */ dom_name, dom_sid, /* domain name, domain SID */ "S-1-1", "S-1-3", "S-1-5"); /* the three other SIDs */ } static void api_lsa_lookup_names( char *param, char *data, char **rdata, int *rdata_len ) { int i; LSA_Q_LOOKUP_RIDS q_l; pstring dom_name; pstring dom_sid; uint32 dom_rids[MAX_LOOKUP_SIDS]; uint32 dummy_g_rid; /* grab the info class and policy handle */ lsa_io_q_lookup_rids(True, &q_l, data + 0x18, data, 4, 0); pstrcpy(dom_name, lp_workgroup()); pstrcpy(dom_sid , lp_domain_sid()); /* convert received RIDs to strings, so we can do them. */ for (i = 0; i < q_l.num_entries; i++) { char *user_name = unistr2(q_l.lookup_name[i].str.buffer); if (!name_to_rid(user_name, &dom_rids[i], &dummy_g_rid)) { /* WHOOPS! we should really do something about this... */ dom_rids[i] = 0; } } /* construct reply. return status is always 0x0 */ *rdata_len = lsa_reply_lookup_rids(*rdata + 0x18, *rdata, q_l.num_entries, dom_rids, /* text-converted SIDs */ dom_name, dom_sid, /* domain name, domain SID */ "S-1-1", "S-1-3", "S-1-5"); /* the three other SIDs */ } BOOL api_ntLsarpcTNP(int cnum,int uid, char *param,char *data, int mdrcnt,int mprcnt, char **rdata,char **rparam, int *rdata_len,int *rparam_len) { int pkttype; uint32 call_id; uint16 opnum; if (data == NULL) { DEBUG(2, ("api_ntLsarpcTNP: NULL data parameter\n")); return False; } /* really should decode these using an RPC_HDR structure */ pkttype = CVAL(data, 2); call_id = CVAL(data, 12); opnum = SVAL(data, 22); if (pkttype == RPC_BIND) /* RPC BIND */ { DEBUG(4,("netlogon rpc bind %x\n",pkttype)); LsarpcTNP1(data,rdata,rdata_len); return True; } DEBUG(4,("ntlsa TransactNamedPipe op %x\n",opnum)); switch (opnum) { case LSA_OPENPOLICY: { DEBUG(3,("LSA_OPENPOLICY\n")); api_lsa_open_policy(param, data, rdata, rdata_len); create_rpc_reply(call_id, *rdata, *rdata_len); break; } case LSA_QUERYINFOPOLICY: { DEBUG(3,("LSA_QUERYINFOPOLICY\n")); api_lsa_query_info(param, data, rdata, rdata_len); create_rpc_reply(call_id, *rdata, *rdata_len); break; } case LSA_ENUMTRUSTDOM: { char *q = *rdata + 0x18; DEBUG(3,("LSA_ENUMTRUSTDOM\n")); initrpcreply(data, *rdata); SIVAL(q, 0, 0); /* enumeration context */ SIVAL(q, 0, 4); /* entries read */ SIVAL(q, 0, 8); /* trust information */ q += 12; endrpcreply(data, *rdata, q-*rdata, 0x8000001a, rdata_len); break; } case LSA_CLOSE: { char *q; DEBUG(3,("LSA_CLOSE\n")); initrpcreply(data, *rdata); q = *rdata + 0x18; SIVAL(q, 0, 0); q += 4; SIVAL(q, 0, 0); q += 4; SIVAL(q, 0, 0); q += 4; SIVAL(q, 0, 0); q += 4; SIVAL(q, 0, 0); q += 4; endrpcreply(data, *rdata, q-*rdata, 0, rdata_len); break; } case LSA_OPENSECRET: { char *q = *rdata + 0x18; DEBUG(3,("LSA_OPENSECRET\n")); initrpcreply(data, *rdata); SIVAL(q, 0, 0); SIVAL(q, 0, 4); SIVAL(q, 0, 8); SIVAL(q, 0, 12); SIVAL(q, 0, 16); q += 20; endrpcreply(data, *rdata, q-*rdata, 0xc000034, rdata_len); break; } case LSA_LOOKUPSIDS: { DEBUG(3,("LSA_OPENSECRET\n")); api_lsa_lookup_sids(param, data, rdata, rdata_len); create_rpc_reply(call_id, *rdata, *rdata_len); break; } case LSA_LOOKUPNAMES: { DEBUG(3,("LSA_LOOKUPNAMES\n")); api_lsa_lookup_names(param, data, rdata, rdata_len); create_rpc_reply(call_id, *rdata, *rdata_len); break; } default: { DEBUG(4, ("NTLSARPC, unknown code: %lx\n", opnum)); break; } } return True; } #endif /* NTDOMAIN */