/* * 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) Jeremy Allison 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. */ #ifdef SYSLOG #undef SYSLOG #endif #include "includes.h" extern int DEBUGLEVEL; extern pstring scope; extern pstring global_myname; /**************************************************************************** Generate the next creds to use. ****************************************************************************/ static void gen_next_creds( struct cli_state *cli, DOM_CRED *new_clnt_cred) { /* * Create the new client credentials. */ cli->clnt_cred.timestamp.time = time(NULL); memcpy(new_clnt_cred, &cli->clnt_cred, sizeof(*new_clnt_cred)); /* Calculate the new credentials. */ cred_create(cli->sess_key, &(cli->clnt_cred.challenge), new_clnt_cred->timestamp, &(new_clnt_cred->challenge)); } #if UNUSED_CODE /**************************************************************************** do a LSA Logon Control2 ****************************************************************************/ BOOL cli_net_logon_ctrl2(struct cli_state *cli, uint32 status_level) { prs_struct rbuf; prs_struct buf; NET_Q_LOGON_CTRL2 q_l; BOOL ok = False; prs_init(&buf , 1024, 4, SAFETY_MARGIN, False); prs_init(&rbuf, 0, 4, SAFETY_MARGIN, True ); /* create and send a MSRPC command with api NET_LOGON_CTRL2 */ DEBUG(4,("do_net_logon_ctrl2 from %s status level:%x\n", global_myname, status_level)); /* store the parameters */ make_q_logon_ctrl2(&q_l, cli->srv_name_slash, status_level); /* turn parameters into data stream */ net_io_q_logon_ctrl2("", &q_l, &buf, 0); /* send the data on \PIPE\ */ if (rpc_api_pipe_req(cli, NET_LOGON_CTRL2, &buf, &rbuf)) { NET_R_LOGON_CTRL2 r_l; net_io_r_logon_ctrl2("", &r_l, &rbuf, 0); ok = (rbuf.offset != 0); if (ok && r_l.status != 0) { /* report error code */ DEBUG(0,("do_net_logon_ctrl2: Error %s\n", get_nt_error_msg(r_l.status))); cli->nt_error = r_l.status; ok = False; } } prs_mem_free(&rbuf); prs_mem_free(&buf ); return ok; } #endif /**************************************************************************** LSA Authenticate 2 Send the client credential, receive back a server credential. Ensure that the server credential returned matches the session key encrypt of the server challenge originally received. JRA. ****************************************************************************/ BOOL cli_net_auth2(struct cli_state *cli, uint16 sec_chan, uint32 neg_flags, DOM_CHAL *srv_chal) { prs_struct rbuf; prs_struct buf; NET_Q_AUTH_2 q_a; BOOL ok = False; prs_init(&buf , 1024, 4, SAFETY_MARGIN, False); prs_init(&rbuf, 0, 4, SAFETY_MARGIN, True ); /* create and send a MSRPC command with api NET_AUTH2 */ DEBUG(4,("cli_net_auth2: srv:%s acct:%s sc:%x mc: %s chal %s neg: %x\n", cli->srv_name_slash, cli->mach_acct, sec_chan, global_myname, credstr(cli->clnt_cred.challenge.data), neg_flags)); /* store the parameters */ make_q_auth_2(&q_a, cli->srv_name_slash, cli->mach_acct, sec_chan, global_myname, &cli->clnt_cred.challenge, neg_flags); /* turn parameters into data stream */ net_io_q_auth_2("", &q_a, &buf, 0); /* send the data on \PIPE\ */ if (rpc_api_pipe_req(cli, NET_AUTH2, &buf, &rbuf)) { NET_R_AUTH_2 r_a; net_io_r_auth_2("", &r_a, &rbuf, 0); ok = (rbuf.offset != 0); if (ok && r_a.status != 0) { /* report error code */ DEBUG(0,("cli_net_auth2: Error %s\n", get_nt_error_msg(r_a.status))); cli->nt_error = r_a.status; ok = False; } if (ok) { /* * Check the returned value using the initial * server received challenge. */ UTIME zerotime; zerotime.time = 0; if(cred_assert( &r_a.srv_chal, cli->sess_key, srv_chal, zerotime) == 0) { /* * Server replied with bad credential. Fail. */ DEBUG(0,("cli_net_auth2: server %s replied with bad credential (bad machine \ password ?).\n", cli->desthost )); ok = False; } } #if 0 /* * Try commenting this out to see if this makes the connect * work for a NT 3.51 PDC. JRA. */ if (ok && r_a.srv_flgs.neg_flags != q_a.clnt_flgs.neg_flags) { /* report different neg_flags */ DEBUG(0,("cli_net_auth2: error neg_flags (q,r) differ - (%x,%x)\n", q_a.clnt_flgs.neg_flags, r_a.srv_flgs.neg_flags)); ok = False; } #endif } prs_mem_free(&rbuf); prs_mem_free(&buf ); return ok; } /**************************************************************************** LSA Request Challenge. Sends our challenge to server, then gets server response. These are used to generate the credentials. ****************************************************************************/ BOOL cli_net_req_chal(struct cli_state *cli, DOM_CHAL *clnt_chal, DOM_CHAL *srv_chal) { prs_struct rbuf; prs_struct buf; NET_Q_REQ_CHAL q_c; BOOL valid_chal = False; if (srv_chal == NULL || clnt_chal == NULL) return False; prs_init(&buf , 1024, 4, SAFETY_MARGIN, False); prs_init(&rbuf, 0, 4, SAFETY_MARGIN, True ); /* create and send a MSRPC command with api NET_REQCHAL */ DEBUG(4,("cli_net_req_chal: LSA Request Challenge from %s to %s: %s\n", cli->desthost, global_myname, credstr(clnt_chal->data))); /* store the parameters */ make_q_req_chal(&q_c, cli->srv_name_slash, global_myname, clnt_chal); /* turn parameters into data stream */ net_io_q_req_chal("", &q_c, &buf, 0); /* send the data on \PIPE\ */ if (rpc_api_pipe_req(cli, NET_REQCHAL, &buf, &rbuf)) { NET_R_REQ_CHAL r_c; BOOL ok; net_io_r_req_chal("", &r_c, &rbuf, 0); ok = (rbuf.offset != 0); if (ok && r_c.status != 0) { /* report error code */ DEBUG(0,("cli_net_req_chal: Error %s\n", get_nt_error_msg(r_c.status))); cli->nt_error = r_c.status; ok = False; } if (ok) { /* ok, at last: we're happy. return the challenge */ memcpy(srv_chal, r_c.srv_chal.data, sizeof(srv_chal->data)); valid_chal = True; } } prs_mem_free(&rbuf); prs_mem_free(&buf ); return valid_chal; } /*************************************************************************** LSA Server Password Set. ****************************************************************************/ BOOL cli_net_srv_pwset(struct cli_state *cli, uint8 hashed_mach_pwd[16]) { prs_struct rbuf; prs_struct buf; DOM_CRED new_clnt_cred; NET_Q_SRV_PWSET q_s; BOOL ok = False; uint16 sec_chan_type = 2; gen_next_creds( cli, &new_clnt_cred); prs_init(&buf , 1024, 4, SAFETY_MARGIN, False); prs_init(&rbuf, 0, 4, SAFETY_MARGIN, True ); /* create and send a MSRPC command with api NET_SRV_PWSET */ DEBUG(4,("cli_net_srv_pwset: srv:%s acct:%s sc: %d mc: %s clnt %s %x\n", cli->srv_name_slash, cli->mach_acct, sec_chan_type, global_myname, credstr(new_clnt_cred.challenge.data), new_clnt_cred.timestamp.time)); /* store the parameters */ make_q_srv_pwset(&q_s, cli->srv_name_slash, cli->mach_acct, sec_chan_type, global_myname, &new_clnt_cred, (char *)hashed_mach_pwd); /* turn parameters into data stream */ net_io_q_srv_pwset("", &q_s, &buf, 0); /* send the data on \PIPE\ */ if (rpc_api_pipe_req(cli, NET_SRVPWSET, &buf, &rbuf)) { NET_R_SRV_PWSET r_s; net_io_r_srv_pwset("", &r_s, &rbuf, 0); ok = (rbuf.offset != 0); if (ok && r_s.status != 0) { /* report error code */ DEBUG(0,("cli_net_srv_pwset: %s\n", get_nt_error_msg(r_s.status))); cli->nt_error = r_s.status; ok = False; } /* Update the credentials. */ if (ok && !clnt_deal_with_creds(cli->sess_key, &(cli->clnt_cred), &(r_s.srv_cred))) { /* * Server replied with bad credential. Fail. */ DEBUG(0,("cli_net_srv_pwset: server %s replied with bad credential (bad machine \ password ?).\n", cli->desthost )); ok = False; } } prs_mem_free(&rbuf); prs_mem_free(&buf ); return ok; } /*************************************************************************** LSA SAM Logon - interactive or network. ****************************************************************************/ BOOL cli_net_sam_logon(struct cli_state *cli, NET_ID_INFO_CTR *ctr, NET_USER_INFO_3 *user_info3) { DOM_CRED new_clnt_cred; DOM_CRED dummy_rtn_creds; prs_struct rbuf; prs_struct buf; uint16 validation_level = 3; NET_Q_SAM_LOGON q_s; BOOL ok = False; gen_next_creds( cli, &new_clnt_cred); prs_init(&buf , 1024, 4, SAFETY_MARGIN, False); prs_init(&rbuf, 0, 4, SAFETY_MARGIN, True ); /* create and send a MSRPC command with api NET_SAMLOGON */ DEBUG(4,("cli_net_sam_logon: srv:%s mc:%s clnt %s %x ll: %d\n", cli->srv_name_slash, global_myname, credstr(new_clnt_cred.challenge.data), cli->clnt_cred.timestamp.time, ctr->switch_value)); memset(&dummy_rtn_creds, '\0', sizeof(dummy_rtn_creds)); dummy_rtn_creds.timestamp.time = time(NULL); /* store the parameters */ make_sam_info(&(q_s.sam_id), cli->srv_name_slash, global_myname, &new_clnt_cred, &dummy_rtn_creds, ctr->switch_value, ctr, validation_level); /* turn parameters into data stream */ net_io_q_sam_logon("", &q_s, &buf, 0); /* send the data on \PIPE\ */ if (rpc_api_pipe_req(cli, NET_SAMLOGON, &buf, &rbuf)) { NET_R_SAM_LOGON r_s; r_s.user = user_info3; net_io_r_sam_logon("", &r_s, &rbuf, 0); ok = (rbuf.offset != 0); if (ok && r_s.status != 0) { /* report error code */ DEBUG(0,("cli_net_sam_logon: %s\n", get_nt_error_msg(r_s.status))); cli->nt_error = r_s.status; ok = False; } /* Update the credentials. */ if (ok && !clnt_deal_with_creds(cli->sess_key, &(cli->clnt_cred), &(r_s.srv_creds))) { /* * Server replied with bad credential. Fail. */ DEBUG(0,("cli_net_sam_logon: server %s replied with bad credential (bad machine \ password ?).\n", cli->desthost )); ok = False; } if (ok && r_s.switch_value != 3) { /* report different switch_value */ DEBUG(0,("cli_net_sam_logon: switch_value of 3 expected %x\n", r_s.switch_value)); ok = False; } } prs_mem_free(&rbuf); prs_mem_free(&buf ); return ok; } /*************************************************************************** LSA SAM Logoff. This currently doesnt work correctly as the domain controller returns NT_STATUS_INVALID_INFO_CLASS - we obviously need to send a different info level. Right now though, I'm not sure what that needs to be (I need to see one on the wire before I can be sure). JRA. ****************************************************************************/ BOOL cli_net_sam_logoff(struct cli_state *cli, NET_ID_INFO_CTR *ctr) { DOM_CRED new_clnt_cred; DOM_CRED dummy_rtn_creds; prs_struct rbuf; prs_struct buf; NET_Q_SAM_LOGOFF q_s; uint16 validation_level = 3; BOOL ok = False; gen_next_creds( cli, &new_clnt_cred); prs_init(&buf , 1024, 4, SAFETY_MARGIN, False); prs_init(&rbuf, 0, 4, SAFETY_MARGIN, True ); /* create and send a MSRPC command with api NET_SAMLOGOFF */ DEBUG(4,("cli_net_sam_logoff: srv:%s mc:%s clnt %s %x ll: %d\n", cli->srv_name_slash, global_myname, credstr(new_clnt_cred.challenge.data), new_clnt_cred.timestamp.time, ctr->switch_value)); memset(&dummy_rtn_creds, '\0', sizeof(dummy_rtn_creds)); /* store the parameters */ make_sam_info(&(q_s.sam_id), cli->srv_name_slash, global_myname, &new_clnt_cred, &dummy_rtn_creds, ctr->switch_value, ctr, validation_level); /* turn parameters into data stream */ net_io_q_sam_logoff("", &q_s, &buf, 0); /* send the data on \PIPE\ */ if (rpc_api_pipe_req(cli, NET_SAMLOGOFF, &buf, &rbuf)) { NET_R_SAM_LOGOFF r_s; net_io_r_sam_logoff("", &r_s, &rbuf, 0); ok = (rbuf.offset != 0); if (ok && r_s.status != 0) { /* report error code */ DEBUG(0,("cli_net_sam_logoff: %s\n", get_nt_error_msg(r_s.status))); cli->nt_error = r_s.status; ok = False; } /* Update the credentials. */ if (ok && !clnt_deal_with_creds(cli->sess_key, &(cli->clnt_cred), &(r_s.srv_creds))) { /* * Server replied with bad credential. Fail. */ DEBUG(0,("cli_net_sam_logoff: server %s replied with bad credential (bad machine \ password ?).\n", cli->desthost )); ok = False; } } prs_mem_free(&rbuf); prs_mem_free(&buf ); return ok; } /********************************************************* Change the domain password on the PDC. **********************************************************/ static BOOL modify_trust_password( char *domain, char *remote_machine, unsigned char orig_trust_passwd_hash[16], unsigned char new_trust_passwd_hash[16]) { struct cli_state cli; struct nmb_name calling, called; ZERO_STRUCT(cli); if(cli_initialise(&cli) == False) { DEBUG(0,("modify_trust_password: unable to initialize client connection.\n")); return False; } if(!resolve_name( remote_machine, &cli.dest_ip, 0x20)) { DEBUG(0,("modify_trust_password: Can't resolve address for %s\n", remote_machine)); return False; } if (ismyip(cli.dest_ip)) { DEBUG(0,("modify_trust_password: Machine %s is one of our addresses. Cannot add \ to ourselves.\n", remote_machine)); return False; } if (!cli_connect(&cli, remote_machine, &cli.dest_ip)) { DEBUG(0,("modify_trust_password: unable to connect to SMB server on \ machine %s. Error was : %s.\n", remote_machine, cli_errstr(&cli) )); return False; } make_nmb_name(&calling, global_myname , 0x0 , scope); make_nmb_name(&called , remote_machine, 0x20, scope); if (!cli_session_request(&cli, &calling, &called)) { DEBUG(0,("modify_trust_password: machine %s rejected the session setup. \ Error was : %s.\n", remote_machine, cli_errstr(&cli) )); cli_shutdown(&cli); return False; } cli.protocol = PROTOCOL_NT1; if (!cli_negprot(&cli)) { DEBUG(0,("modify_trust_password: machine %s rejected the negotiate protocol. \ Error was : %s.\n", remote_machine, cli_errstr(&cli) )); cli_shutdown(&cli); return False; } if (cli.protocol != PROTOCOL_NT1) { DEBUG(0,("modify_trust_password: machine %s didn't negotiate NT protocol.\n", remote_machine)); cli_shutdown(&cli); return False; } /* * Do an anonymous session setup. */ if (!cli_session_setup(&cli, "", "", 0, "", 0, "")) { DEBUG(0,("modify_trust_password: machine %s rejected the session setup. \ Error was : %s.\n", remote_machine, cli_errstr(&cli) )); cli_shutdown(&cli); return False; } if (!(cli.sec_mode & 1)) { DEBUG(0,("modify_trust_password: machine %s isn't in user level security mode\n", remote_machine)); cli_shutdown(&cli); return False; } if (!cli_send_tconX(&cli, "IPC$", "IPC", "", 1)) { DEBUG(0,("modify_trust_password: machine %s rejected the tconX on the IPC$ share. \ Error was : %s.\n", remote_machine, cli_errstr(&cli) )); cli_shutdown(&cli); return False; } /* * Ok - we have an anonymous connection to the IPC$ share. * Now start the NT Domain stuff :-). */ if(cli_nt_session_open(&cli, PIPE_NETLOGON) == False) { DEBUG(0,("modify_trust_password: unable to open the domain client session to \ machine %s. Error was : %s.\n", remote_machine, cli_errstr(&cli))); cli_nt_session_close(&cli); cli_ulogoff(&cli); cli_shutdown(&cli); return False; } if(cli_nt_setup_creds(&cli, orig_trust_passwd_hash) == False) { DEBUG(0,("modify_trust_password: unable to setup the PDC credentials to machine \ %s. Error was : %s.\n", remote_machine, cli_errstr(&cli))); cli_nt_session_close(&cli); cli_ulogoff(&cli); cli_shutdown(&cli); return False; } if( cli_nt_srv_pwset( &cli,new_trust_passwd_hash ) == False) { DEBUG(0,("modify_trust_password: unable to change password for machine %s in domain \ %s to Domain controller %s. Error was %s.\n", global_myname, domain, remote_machine, cli_errstr(&cli))); cli_close(&cli, cli.nt_pipe_fnum); cli_ulogoff(&cli); cli_shutdown(&cli); return False; } cli_nt_session_close(&cli); cli_ulogoff(&cli); cli_shutdown(&cli); return True; } /************************************************************************ Change the trust account password for a domain. The user of this function must have locked the trust password file for update. ************************************************************************/ BOOL change_trust_account_password( char *domain, char *remote_machine_list) { fstring remote_machine; unsigned char old_trust_passwd_hash[16]; unsigned char new_trust_passwd_hash[16]; time_t lct; BOOL res; if(!get_trust_account_password( old_trust_passwd_hash, &lct)) { DEBUG(0,("change_trust_account_password: unable to read the machine \ account password for domain %s.\n", domain)); return False; } /* * Create the new (random) password. */ generate_random_buffer( new_trust_passwd_hash, 16, True); while(remote_machine_list && next_token(&remote_machine_list, remote_machine, LIST_SEP, sizeof(remote_machine))) { strupper(remote_machine); if(modify_trust_password( domain, remote_machine, old_trust_passwd_hash, new_trust_passwd_hash)) { DEBUG(0,("%s : change_trust_account_password: Changed password for \ domain %s.\n", timestring(), domain)); /* * Return the result of trying to write the new password * back into the trust account file. */ res = set_trust_account_password(new_trust_passwd_hash); memset(new_trust_passwd_hash, 0, 16); memset(old_trust_passwd_hash, 0, 16); return res; } } memset(new_trust_passwd_hash, 0, 16); memset(old_trust_passwd_hash, 0, 16); DEBUG(0,("%s : change_trust_account_password: Failed to change password for \ domain %s.\n", timestring(), domain)); return False; }