/* Unix SMB/CIFS implementation. NBT netbios routines and daemon - version 2 Copyright (C) Andrew Tridgell 1994-1998 Copyright (C) Luke Kenneth Casson Leighton 1994-1998 Copyright (C) Jeremy Allison 1994-2003 Copyright (C) Jim McDonough 2002 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 3 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, see . Revision History: */ #include "includes.h" #include "../libcli/netlogon.h" #include "../libcli/cldap/cldap.h" #include "../lib/tsocket/tsocket.h" #include "../libcli/security/dom_sid.h" #include "secrets.h" #include "nmbd/nmbd.h" struct sam_database_info { uint32 index; uint32 serial_lo, serial_hi; uint32 date_lo, date_hi; }; /** * check whether the client belongs to the hosts * for which initial logon should be delayed... */ static bool delay_logon(const char *peer_name, const char *peer_addr) { const char **delay_list = lp_init_logon_delayed_hosts(); const char *peer[2]; if (delay_list == NULL) { return False; } peer[0] = peer_name; peer[1] = peer_addr; return list_match(delay_list, (const char *)peer, client_match); } static void delayed_init_logon_handler(struct event_context *event_ctx, struct timed_event *te, struct timeval now, void *private_data) { struct packet_struct *p = (struct packet_struct *)private_data; DEBUG(10, ("delayed_init_logon_handler (%lx): re-queuing packet.\n", (unsigned long)te)); queue_packet(p); TALLOC_FREE(te); } struct nmbd_proxy_logon_context { struct cldap_socket *cldap_sock; }; static struct nmbd_proxy_logon_context *global_nmbd_proxy_logon; bool initialize_nmbd_proxy_logon(void) { const char *cldap_server = lp_parm_const_string(-1, "nmbd_proxy_logon", "cldap_server", NULL); struct nmbd_proxy_logon_context *ctx; NTSTATUS status; struct in_addr addr; char addrstr[INET_ADDRSTRLEN]; const char *server_str; int ret; struct tsocket_address *server_addr; if (!cldap_server) { return true; } addr = interpret_addr2(cldap_server); server_str = inet_ntop(AF_INET, &addr, addrstr, sizeof(addrstr)); if (!server_str || strcmp("0.0.0.0", server_str) == 0) { DEBUG(0,("Failed to resolve[%s] for nmbd_proxy_logon\n", cldap_server)); return false; } ctx = talloc_zero(nmbd_event_context(), struct nmbd_proxy_logon_context); if (!ctx) { return false; } ret = tsocket_address_inet_from_strings(ctx, "ipv4", server_str, LDAP_PORT, &server_addr); if (ret != 0) { TALLOC_FREE(ctx); status = map_nt_error_from_unix(errno); DEBUG(0,("Failed to create cldap tsocket_address for %s - %s\n", server_str, nt_errstr(status))); return false; } /* we create a connected udp socket */ status = cldap_socket_init(ctx, nmbd_event_context(), NULL, server_addr, &ctx->cldap_sock); TALLOC_FREE(server_addr); if (!NT_STATUS_IS_OK(status)) { TALLOC_FREE(ctx); DEBUG(0,("failed to create cldap socket for %s: %s\n", server_str, nt_errstr(status))); return false; } global_nmbd_proxy_logon = ctx; return true; } struct nmbd_proxy_logon_state { struct in_addr local_ip; struct packet_struct *p; const char *remote_name; uint8_t remote_name_type; const char *remote_mailslot; struct nbt_netlogon_packet req; struct nbt_netlogon_response resp; struct cldap_netlogon io; }; static int nmbd_proxy_logon_state_destructor(struct nmbd_proxy_logon_state *s) { s->p->locked = false; free_packet(s->p); return 0; } static void nmbd_proxy_logon_done(struct tevent_req *subreq); static void nmbd_proxy_logon(struct nmbd_proxy_logon_context *ctx, struct in_addr local_ip, struct packet_struct *p, uint8_t *buf, uint32_t len) { struct nmbd_proxy_logon_state *state; enum ndr_err_code ndr_err; DATA_BLOB blob = data_blob_const(buf, len); const char *computer_name = NULL; const char *mailslot_name = NULL; const char *user_name = NULL; const char *domain_sid = NULL; uint32_t acct_control = 0; uint32_t nt_version = 0; struct tevent_req *subreq; fstring source_name; struct dgram_packet *dgram = &p->packet.dgram; state = TALLOC_ZERO_P(ctx, struct nmbd_proxy_logon_state); if (!state) { DEBUG(0,("failed to allocate nmbd_proxy_logon_state\n")); return; } pull_ascii_nstring(source_name, sizeof(source_name), dgram->source_name.name); state->remote_name = talloc_strdup(state, source_name); state->remote_name_type = dgram->source_name.name_type, state->local_ip = local_ip; state->p = p; ndr_err = ndr_pull_struct_blob( &blob, state, &state->req, (ndr_pull_flags_fn_t)ndr_pull_nbt_netlogon_packet); if (!NDR_ERR_CODE_IS_SUCCESS(ndr_err)) { NTSTATUS status = ndr_map_error2ntstatus(ndr_err); DEBUG(0,("failed parse nbt_netlogon_packet: %s\n", nt_errstr(status))); TALLOC_FREE(state); return; } if (DEBUGLEVEL >= 10) { DEBUG(10, ("nmbd_proxy_logon:\n")); NDR_PRINT_DEBUG(nbt_netlogon_packet, &state->req); } switch (state->req.command) { case LOGON_SAM_LOGON_REQUEST: computer_name = state->req.req.logon.computer_name; user_name = state->req.req.logon.user_name; mailslot_name = state->req.req.logon.mailslot_name; acct_control = state->req.req.logon.acct_control; if (state->req.req.logon.sid_size > 0) { domain_sid = dom_sid_string(state, &state->req.req.logon.sid); if (!domain_sid) { DEBUG(0,("failed to get a string for sid\n")); TALLOC_FREE(state); return; } } nt_version = state->req.req.logon.nt_version; break; default: /* this can't happen as the caller already checks the command */ break; } state->remote_mailslot = mailslot_name; if (user_name && strlen(user_name) == 0) { user_name = NULL; } if (computer_name && strlen(computer_name) == 0) { computer_name = NULL; } /* * as the socket is connected, * we don't need to specify the destination */ state->io.in.dest_address = NULL; state->io.in.dest_port = 0; state->io.in.realm = NULL; state->io.in.host = computer_name; state->io.in.user = user_name; state->io.in.domain_guid = NULL; state->io.in.domain_sid = domain_sid; state->io.in.acct_control = acct_control; state->io.in.version = nt_version; state->io.in.map_response = false; subreq = cldap_netlogon_send(state, ctx->cldap_sock, &state->io); if (!subreq) { DEBUG(0,("failed to send cldap netlogon call\n")); TALLOC_FREE(state); return; } tevent_req_set_callback(subreq, nmbd_proxy_logon_done, state); /* we reply async */ state->p->locked = true; talloc_set_destructor(state, nmbd_proxy_logon_state_destructor); } static void nmbd_proxy_logon_done(struct tevent_req *subreq) { struct nmbd_proxy_logon_state *state = tevent_req_callback_data(subreq, struct nmbd_proxy_logon_state); NTSTATUS status; DATA_BLOB response = data_blob_null; status = cldap_netlogon_recv(subreq, state, &state->io); if (!NT_STATUS_IS_OK(status)) { DEBUG(0,("failed to recv cldap netlogon call: %s\n", nt_errstr(status))); TALLOC_FREE(state); return; } status = push_netlogon_samlogon_response(&response, state, &state->io.out.netlogon); if (!NT_STATUS_IS_OK(status)) { DEBUG(0,("failed to push netlogon_samlogon_response: %s\n", nt_errstr(status))); TALLOC_FREE(state); return; } send_mailslot(true, state->remote_mailslot, (char *)response.data, response.length, global_myname(), 0x0, state->remote_name, state->remote_name_type, state->p->ip, state->local_ip, state->p->port); TALLOC_FREE(state); } /**************************************************************************** Process a domain logon packet **************************************************************************/ void process_logon_packet(struct packet_struct *p, char *buf,int len, const char *mailslot) { fstring source_name; struct dgram_packet *dgram = &p->packet.dgram; fstring my_name; fstring reply_name; char outbuf[1024]; uint32 ntversion = 0; uint16 lmnttoken = 0; uint16 lm20token = 0; uint32 domainsidsize; bool short_request = False; char *getdc; char *uniuser; /* Unicode user name. */ fstring ascuser; char *unicomp; /* Unicode computer name. */ size_t size; struct sockaddr_storage ss; const struct sockaddr_storage *pss; struct in_addr ip; DATA_BLOB blob_in, blob_out; enum ndr_err_code ndr_err; struct nbt_netlogon_packet request; struct nbt_netlogon_response response; NTSTATUS status; const char *pdc_name; in_addr_to_sockaddr_storage(&ss, p->ip); pss = iface_ip((struct sockaddr *)&ss); if (!pss) { DEBUG(5,("process_logon_packet:can't find outgoing interface " "for packet from IP %s\n", inet_ntoa(p->ip) )); return; } ip = ((struct sockaddr_in *)pss)->sin_addr; memset(outbuf, 0, sizeof(outbuf)); if (!lp_domain_logons()) { DEBUG(5,("process_logon_packet: Logon packet received from IP %s and domain \ logons are not enabled.\n", inet_ntoa(p->ip) )); return; } fstrcpy(my_name, global_myname()); pull_ascii_nstring(source_name, sizeof(source_name), dgram->source_name.name); pdc_name = talloc_asprintf(talloc_tos(), "\\\\%s", global_myname()); if (!pdc_name) { return; } ZERO_STRUCT(request); blob_in = data_blob_const(buf, len); ndr_err = ndr_pull_struct_blob(&blob_in, talloc_tos(), &request, (ndr_pull_flags_fn_t)ndr_pull_nbt_netlogon_packet); if (!NDR_ERR_CODE_IS_SUCCESS(ndr_err)) { DEBUG(1,("process_logon_packet: Failed to pull logon packet\n")); return; } if (DEBUGLEVEL >= 10) { NDR_PRINT_DEBUG(nbt_netlogon_packet, &request); } DEBUG(4,("process_logon_packet: Logon from %s: code = 0x%x\n", inet_ntoa(p->ip), request.command)); switch (request.command) { case LOGON_REQUEST: { struct nbt_netlogon_response2 response2; DEBUG(5,("process_logon_packet: Domain login request from %s at IP %s user=%s token=%x\n", request.req.logon0.computer_name, inet_ntoa(p->ip), request.req.logon0.user_name, request.req.logon0.lm20_token)); response2.command = LOGON_RESPONSE2; response2.pdc_name = pdc_name; response2.lm20_token = 0xffff; response.response_type = NETLOGON_RESPONSE2; response.data.response2 = response2; status = push_nbt_netlogon_response(&blob_out, talloc_tos(), &response); if (!NT_STATUS_IS_OK(status)) { DEBUG(0,("process_logon_packet: failed to push packet\n")); return; } if (DEBUGLEVEL >= 10) { NDR_PRINT_DEBUG(nbt_netlogon_response2, &response.data.response2); } send_mailslot(True, request.req.logon0.mailslot_name, (char *)blob_out.data, blob_out.length, global_myname(), 0x0, source_name, dgram->source_name.name_type, p->ip, ip, p->port); break; } case LOGON_PRIMARY_QUERY: { fstring mach_str, getdc_str; char *q = buf + 2; char *machine = q; if (!lp_domain_master()) { /* We're not Primary Domain Controller -- ignore this */ return; } getdc = skip_string(buf,len,machine); if (!getdc || PTR_DIFF(getdc, buf) >= len) { DEBUG(0,("process_logon_packet: bad packet\n")); return; } q = skip_string(buf,len,getdc); if (!q || PTR_DIFF(q, buf) >= len) { DEBUG(0,("process_logon_packet: bad packet\n")); return; } q = ALIGN2(q, buf); /* At this point we can work out if this is a W9X or NT style request. Experiments show that the difference is wether the packet ends here. For a W9X request we now end with a pair of bytes (usually 0xFE 0xFF) whereas with NT we have two further strings - the following is a simple way of detecting this */ if (len - PTR_DIFF(q, buf) <= 3) { short_request = True; } else { unicomp = q; if (PTR_DIFF(q, buf) >= len) { DEBUG(0,("process_logon_packet: bad packet\n")); return; } /* A full length (NT style) request */ q = skip_unibuf(unicomp, PTR_DIFF(buf + len, unicomp)); if (PTR_DIFF(q, buf) >= len) { DEBUG(0,("process_logon_packet: bad packet\n")); return; } if (len - PTR_DIFF(q, buf) > 8) { /* with NT5 clients we can sometimes get additional data - a length specificed string containing the domain name, then 16 bytes of data (no idea what it is) */ int dom_len = CVAL(q, 0); q++; if (dom_len != 0) { q += dom_len + 1; } q += 16; } if (PTR_DIFF(q + 8, buf) > len) { DEBUG(0,("process_logon_packet: bad packet\n")); return; } ntversion = IVAL(q, 0); lmnttoken = SVAL(q, 4); lm20token = SVAL(q, 6); } /* Construct reply. */ q = outbuf; SSVAL(q, 0, NETLOGON_RESPONSE_FROM_PDC); q += 2; fstrcpy(reply_name,my_name); size = push_ascii(q, reply_name, sizeof(outbuf)-PTR_DIFF(q, outbuf), STR_TERMINATE); if (size == (size_t)-1) { return; } q = skip_string(outbuf,sizeof(outbuf),q); /* PDC name */ /* PDC and domain name */ if (!short_request) { /* Make a full reply */ q = ALIGN2(q, outbuf); q += dos_PutUniCode(q, my_name, sizeof(outbuf) - PTR_DIFF(q, outbuf), True); /* PDC name */ q += dos_PutUniCode(q, lp_workgroup(), sizeof(outbuf) - PTR_DIFF(q, outbuf), True); /* Domain name*/ if (sizeof(outbuf) - PTR_DIFF(q, outbuf) < 8) { return; } SIVAL(q, 0, 1); /* our nt version */ SSVAL(q, 4, 0xffff); /* our lmnttoken */ SSVAL(q, 6, 0xffff); /* our lm20token */ q += 8; } /* RJS, 21-Feb-2000, we send a short reply if the request was short */ pull_ascii_fstring(mach_str, machine); DEBUG(5,("process_logon_packet: GETDC request from %s at IP %s, \ reporting %s domain %s 0x%x ntversion=%x lm_nt token=%x lm_20 token=%x\n", mach_str,inet_ntoa(p->ip), reply_name, lp_workgroup(), NETLOGON_RESPONSE_FROM_PDC, (uint32)ntversion, (uint32)lmnttoken, (uint32)lm20token )); dump_data(4, (uint8 *)outbuf, PTR_DIFF(q, outbuf)); pull_ascii_fstring(getdc_str, getdc); send_mailslot(True, getdc_str, outbuf,PTR_DIFF(q,outbuf), global_myname(), 0x0, source_name, dgram->source_name.name_type, p->ip, ip, p->port); return; } case LOGON_SAM_LOGON_REQUEST: { fstring getdc_str; char *source_addr; char *q = buf + 2; fstring asccomp; if (global_nmbd_proxy_logon) { nmbd_proxy_logon(global_nmbd_proxy_logon, ip, p, (uint8_t *)buf, len); return; } q += 2; if (PTR_DIFF(q, buf) >= len) { DEBUG(0,("process_logon_packet: bad packet\n")); return; } unicomp = q; uniuser = skip_unibuf(unicomp, PTR_DIFF(buf+len, unicomp)); if (PTR_DIFF(uniuser, buf) >= len) { DEBUG(0,("process_logon_packet: bad packet\n")); return; } getdc = skip_unibuf(uniuser,PTR_DIFF(buf+len, uniuser)); if (PTR_DIFF(getdc, buf) >= len) { DEBUG(0,("process_logon_packet: bad packet\n")); return; } q = skip_string(buf,len,getdc); if (!q || PTR_DIFF(q + 8, buf) >= len) { DEBUG(0,("process_logon_packet: bad packet\n")); return; } q += 4; /* Account Control Bits - indicating username type */ domainsidsize = IVAL(q, 0); q += 4; DEBUG(5,("process_logon_packet: LOGON_SAM_LOGON_REQUEST sidsize %d, len = %d\n", domainsidsize, len)); if (domainsidsize < (len - PTR_DIFF(q, buf)) && (domainsidsize != 0)) { q += domainsidsize; q = ALIGN4(q, buf); } DEBUG(5,("process_logon_packet: len = %d PTR_DIFF(q, buf) = %ld\n", len, (unsigned long)PTR_DIFF(q, buf) )); if (len - PTR_DIFF(q, buf) > 8) { /* with NT5 clients we can sometimes get additional data - a length specificed string containing the domain name, then 16 bytes of data (no idea what it is) */ int dom_len = CVAL(q, 0); q++; if (dom_len < (len - PTR_DIFF(q, buf)) && (dom_len != 0)) { q += dom_len + 1; } q += 16; } if (PTR_DIFF(q + 8, buf) > len) { DEBUG(0,("process_logon_packet: bad packet\n")); return; } ntversion = IVAL(q, 0); lmnttoken = SVAL(q, 4); lm20token = SVAL(q, 6); q += 8; DEBUG(3,("process_logon_packet: LOGON_SAM_LOGON_REQUEST sidsize %d ntv %d\n", domainsidsize, ntversion)); /* * we respond regadless of whether the machine is in our password * database. If it isn't then we let smbd send an appropriate error. * Let's ignore the SID. */ pull_ucs2_fstring(ascuser, uniuser); pull_ucs2_fstring(asccomp, unicomp); DEBUG(5,("process_logon_packet: LOGON_SAM_LOGON_REQUEST user %s\n", ascuser)); fstrcpy(reply_name, "\\\\"); /* Here it wants \\LOGONSERVER. */ fstrcat(reply_name, my_name); DEBUG(5,("process_logon_packet: LOGON_SAM_LOGON_REQUEST request from %s(%s) for %s, returning logon svr %s domain %s code %x token=%x\n", asccomp,inet_ntoa(p->ip), ascuser, reply_name, lp_workgroup(), LOGON_SAM_LOGON_RESPONSE ,lmnttoken)); /* Construct reply. */ q = outbuf; /* we want the simple version unless we are an ADS PDC..which means */ /* never, at least for now */ if ((ntversion < 11) || (SEC_ADS != lp_security()) || (ROLE_DOMAIN_PDC != lp_server_role())) { if (SVAL(uniuser, 0) == 0) { SSVAL(q, 0, LOGON_SAM_LOGON_USER_UNKNOWN); /* user unknown */ } else { SSVAL(q, 0, LOGON_SAM_LOGON_RESPONSE); } q += 2; q += dos_PutUniCode(q, reply_name, sizeof(outbuf) - PTR_DIFF(q, outbuf), True); q += dos_PutUniCode(q, ascuser, sizeof(outbuf) - PTR_DIFF(q, outbuf), True); q += dos_PutUniCode(q, lp_workgroup(), sizeof(outbuf) - PTR_DIFF(q, outbuf), True); } #ifdef HAVE_ADS else { struct GUID domain_guid; UUID_FLAT flat_guid; char *domain; char *hostname; char *component, *dc, *q1; char *q_orig = q; int str_offset; char *saveptr = NULL; domain = get_mydnsdomname(talloc_tos()); if (!domain) { DEBUG(2, ("get_mydnsdomname failed.\n")); return; } hostname = get_myname(talloc_tos()); if (!hostname) { DEBUG(2, ("get_myname failed.\n")); return; } if (sizeof(outbuf) - PTR_DIFF(q, outbuf) < 8) { return; } if (SVAL(uniuser, 0) == 0) { SIVAL(q, 0, LOGON_SAM_LOGON_USER_UNKNOWN_EX); /* user unknown */ } else { SIVAL(q, 0, LOGON_SAM_LOGON_RESPONSE_EX); } q += 4; SIVAL(q, 0, NBT_SERVER_PDC|NBT_SERVER_GC|NBT_SERVER_LDAP|NBT_SERVER_DS| NBT_SERVER_KDC|NBT_SERVER_TIMESERV|NBT_SERVER_CLOSEST|NBT_SERVER_WRITABLE); q += 4; /* Push Domain GUID */ if (sizeof(outbuf) - PTR_DIFF(q, outbuf) < UUID_FLAT_SIZE) { return; } if (False == secrets_fetch_domain_guid(domain, &domain_guid)) { DEBUG(2, ("Could not fetch DomainGUID for %s\n", domain)); return; } smb_uuid_pack(domain_guid, &flat_guid); memcpy(q, &flat_guid.info, UUID_FLAT_SIZE); q += UUID_FLAT_SIZE; /* Forest */ str_offset = q - q_orig; dc = domain; q1 = q; while ((component = strtok_r(dc, ".", &saveptr)) != NULL) { dc = NULL; if (sizeof(outbuf) - PTR_DIFF(q, outbuf) < 1) { return; } size = push_ascii(&q[1], component, sizeof(outbuf) - PTR_DIFF(q+1, outbuf), 0); if (size == (size_t)-1 || size > 0xff) { return; } SCVAL(q, 0, size); q += (size + 1); } /* Unk0 */ if (sizeof(outbuf) - PTR_DIFF(q, outbuf) < 4) { return; } SCVAL(q, 0, 0); q++; /* Domain */ SCVAL(q, 0, 0xc0 | ((str_offset >> 8) & 0x3F)); SCVAL(q, 1, str_offset & 0xFF); q += 2; /* Hostname */ size = push_ascii(&q[1], hostname, sizeof(outbuf) - PTR_DIFF(q+1, outbuf), 0); if (size == (size_t)-1 || size > 0xff) { return; } SCVAL(q, 0, size); q += (size + 1); if (sizeof(outbuf) - PTR_DIFF(q, outbuf) < 3) { return; } SCVAL(q, 0, 0xc0 | ((str_offset >> 8) & 0x3F)); SCVAL(q, 1, str_offset & 0xFF); q += 2; /* NETBIOS of domain */ size = push_ascii(&q[1], lp_workgroup(), sizeof(outbuf) - PTR_DIFF(q+1, outbuf), STR_UPPER); if (size == (size_t)-1 || size > 0xff) { return; } SCVAL(q, 0, size); q += (size + 1); /* Unk1 */ if (sizeof(outbuf) - PTR_DIFF(q, outbuf) < 2) { return; } SCVAL(q, 0, 0); q++; /* NETBIOS of hostname */ size = push_ascii(&q[1], my_name, sizeof(outbuf) - PTR_DIFF(q+1, outbuf), 0); if (size == (size_t)-1 || size > 0xff) { return; } SCVAL(q, 0, size); q += (size + 1); /* Unk2 */ if (sizeof(outbuf) - PTR_DIFF(q, outbuf) < 4) { return; } SCVAL(q, 0, 0); q++; /* User name */ if (SVAL(uniuser, 0) != 0) { size = push_ascii(&q[1], ascuser, sizeof(outbuf) - PTR_DIFF(q+1, outbuf), 0); if (size == (size_t)-1 || size > 0xff) { return; } SCVAL(q, 0, size); q += (size + 1); } q_orig = q; /* Site name */ if (sizeof(outbuf) - PTR_DIFF(q, outbuf) < 1) { return; } size = push_ascii(&q[1], "Default-First-Site-Name", sizeof(outbuf) - PTR_DIFF(q+1, outbuf), 0); if (size == (size_t)-1 || size > 0xff) { return; } SCVAL(q, 0, size); q += (size + 1); if (sizeof(outbuf) - PTR_DIFF(q, outbuf) < 18) { return; } /* Site name (2) */ str_offset = q - q_orig; SCVAL(q, 0, 0xc0 | ((str_offset >> 8) & 0x3F)); SCVAL(q, 1, str_offset & 0xFF); q += 2; SCVAL(q, 0, PTR_DIFF(q,q1)); SCVAL(q, 1, 0x10); /* unknown */ SIVAL(q, 0, 0x00000002); q += 4; /* unknown */ SIVAL(q, 0, ntohl(ip.s_addr)); q += 4; SIVAL(q, 0, 0x00000000); q += 4; /* unknown */ SIVAL(q, 0, 0x00000000); q += 4; /* unknown */ } #endif if (sizeof(outbuf) - PTR_DIFF(q, outbuf) < 8) { return; } /* tell the client what version we are */ SIVAL(q, 0, ((ntversion < 11) || (SEC_ADS != lp_security())) ? 1 : 13); /* our ntversion */ SSVAL(q, 4, 0xffff); /* our lmnttoken */ SSVAL(q, 6, 0xffff); /* our lm20token */ q += 8; dump_data(4, (uint8 *)outbuf, PTR_DIFF(q, outbuf)); pull_ascii_fstring(getdc_str, getdc); source_addr = SMB_STRDUP(inet_ntoa(dgram->header.source_ip)); if (source_addr == NULL) { DEBUG(3, ("out of memory copying client" " address string\n")); return; } /* * handle delay. * packets requeued after delay are marked as * locked. */ if ((p->locked == False) && (strlen(ascuser) == 0) && delay_logon(source_name, source_addr)) { struct timeval when; DEBUG(3, ("process_logon_packet: " "delaying initial logon " "reply for client %s(%s) for " "%u milliseconds\n", source_name, source_addr, lp_init_logon_delay())); when = timeval_current_ofs(0, lp_init_logon_delay() * 1000); p->locked = true; event_add_timed(nmbd_event_context(), NULL, when, delayed_init_logon_handler, p); } else { DEBUG(3, ("process_logon_packet: " "processing delayed initial " "logon reply for client " "%s(%s)\n", source_name, source_addr)); p->locked = false; send_mailslot(true, getdc, outbuf,PTR_DIFF(q,outbuf), global_myname(), 0x0, source_name, dgram->source_name.name_type, p->ip, ip, p->port); } SAFE_FREE(source_addr); break; } /* Announce change to UAS or SAM. Send by the domain controller when a replication event is required. */ case NETLOGON_ANNOUNCE_UAS: DEBUG(5, ("Got NETLOGON_ANNOUNCE_UAS\n")); break; default: DEBUG(3,("process_logon_packet: Unknown domain request %d\n", request.command)); return; } }