/* Unix SMB/CIFS implementation. Winbind daemon for ntdom nss module Copyright (C) by Tim Potter 2000-2002 Copyright (C) Andrew Tridgell 2002 Copyright (C) Jelmer Vernooij 2003 Copyright (C) Volker Lendecke 2004 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. */ #include "includes.h" #include "winbindd.h" BOOL opt_nocache = False; static BOOL interactive = False; extern BOOL override_logfile; /* Reload configuration */ static BOOL reload_services_file(void) { BOOL ret; if (lp_loaded()) { pstring fname; pstrcpy(fname,lp_configfile()); if (file_exist(fname,NULL) && !strcsequal(fname,dyn_CONFIGFILE)) { pstrcpy(dyn_CONFIGFILE,fname); } } reopen_logs(); ret = lp_load(dyn_CONFIGFILE,False,False,True); reopen_logs(); load_interfaces(); return(ret); } #if DUMP_CORE /**************************************************************************** ** Prepare to dump a core file - carefully! **************************************************************************** */ static BOOL dump_core(void) { char *p; pstring dname; pstrcpy( dname, lp_logfile() ); if ((p=strrchr(dname,'/'))) *p=0; pstrcat( dname, "/corefiles" ); mkdir( dname, 0700 ); sys_chown( dname, getuid(), getgid() ); chmod( dname, 0700 ); if ( chdir(dname) ) return( False ); umask( ~(0700) ); #ifdef HAVE_GETRLIMIT #ifdef RLIMIT_CORE { struct rlimit rlp; getrlimit( RLIMIT_CORE, &rlp ); rlp.rlim_cur = MAX( 4*1024*1024, rlp.rlim_cur ); setrlimit( RLIMIT_CORE, &rlp ); getrlimit( RLIMIT_CORE, &rlp ); DEBUG( 3, ( "Core limits now %d %d\n", (int)rlp.rlim_cur, (int)rlp.rlim_max ) ); } #endif #endif DEBUG(0,("Dumping core in %s\n",dname)); abort(); return( True ); } /* dump_core */ #endif /**************************************************************************** ** Handle a fault.. **************************************************************************** */ static void fault_quit(void) { #if DUMP_CORE dump_core(); #endif } static void winbindd_status(void) { struct winbindd_cli_state *tmp; DEBUG(0, ("winbindd status:\n")); /* Print client state information */ DEBUG(0, ("\t%d clients currently active\n", winbindd_num_clients())); if (DEBUGLEVEL >= 2 && winbindd_num_clients()) { DEBUG(2, ("\tclient list:\n")); for(tmp = winbindd_client_list(); tmp; tmp = tmp->next) { DEBUG(2, ("\t\tpid %lu, sock %d\n", (unsigned long)tmp->pid, tmp->sock)); } } } /* Print winbindd status to log file */ static void print_winbindd_status(void) { winbindd_status(); } /* Flush client cache */ static void flush_caches(void) { /* We need to invalidate cached user list entries on a SIGHUP otherwise cached access denied errors due to restrict anonymous hang around until the sequence number changes. */ wcache_invalidate_cache(); } /* Handle the signal by unlinking socket and exiting */ static void terminate(void) { pstring path; idmap_close(); /* Remove socket file */ pstr_sprintf(path, "%s/%s", WINBINDD_SOCKET_DIR, WINBINDD_SOCKET_NAME); unlink(path); #if 0 if (interactive) { TALLOC_CTX *mem_ctx = talloc_init("end_description"); char *description = talloc_describe_all(mem_ctx); DEBUG(3, ("tallocs left:\n%s\n", description)); talloc_destroy(mem_ctx); } #endif exit(0); } static BOOL do_sigterm; static void termination_handler(int signum) { do_sigterm = True; sys_select_signal(signum); } static BOOL do_sigusr2; static void sigusr2_handler(int signum) { do_sigusr2 = True; sys_select_signal(SIGUSR2); } static BOOL do_sighup; static void sighup_handler(int signum) { do_sighup = True; sys_select_signal(SIGHUP); } static BOOL do_sigchld; static void sigchld_handler(int signum) { do_sigchld = True; sys_select_signal(SIGCHLD); } /* React on 'smbcontrol winbindd reload-config' in the same way as on SIGHUP*/ static void msg_reload_services(int msg_type, struct process_id src, void *buf, size_t len) { /* Flush various caches */ flush_caches(); reload_services_file(); } /* React on 'smbcontrol winbindd shutdown' in the same way as on SIGTERM*/ static void msg_shutdown(int msg_type, struct process_id src, void *buf, size_t len) { do_sigterm = True; } static struct winbindd_dispatch_table { enum winbindd_cmd cmd; void (*fn)(struct winbindd_cli_state *state); const char *winbindd_cmd_name; } dispatch_table[] = { /* User functions */ { WINBINDD_GETPWNAM, winbindd_getpwnam, "GETPWNAM" }, { WINBINDD_GETPWUID, winbindd_getpwuid, "GETPWUID" }, { WINBINDD_SETPWENT, winbindd_setpwent, "SETPWENT" }, { WINBINDD_ENDPWENT, winbindd_endpwent, "ENDPWENT" }, { WINBINDD_GETPWENT, winbindd_getpwent, "GETPWENT" }, { WINBINDD_GETGROUPS, winbindd_getgroups, "GETGROUPS" }, { WINBINDD_GETUSERSIDS, winbindd_getusersids, "GETUSERSIDS" }, { WINBINDD_GETUSERDOMGROUPS, winbindd_getuserdomgroups, "GETUSERDOMGROUPS" }, /* Group functions */ { WINBINDD_GETGRNAM, winbindd_getgrnam, "GETGRNAM" }, { WINBINDD_GETGRGID, winbindd_getgrgid, "GETGRGID" }, { WINBINDD_SETGRENT, winbindd_setgrent, "SETGRENT" }, { WINBINDD_ENDGRENT, winbindd_endgrent, "ENDGRENT" }, { WINBINDD_GETGRENT, winbindd_getgrent, "GETGRENT" }, { WINBINDD_GETGRLST, winbindd_getgrent, "GETGRLST" }, /* PAM auth functions */ { WINBINDD_PAM_AUTH, winbindd_pam_auth, "PAM_AUTH" }, { WINBINDD_PAM_AUTH_CRAP, winbindd_pam_auth_crap, "AUTH_CRAP" }, { WINBINDD_PAM_CHAUTHTOK, winbindd_pam_chauthtok, "CHAUTHTOK" }, /* Enumeration functions */ { WINBINDD_LIST_USERS, winbindd_list_users, "LIST_USERS" }, { WINBINDD_LIST_GROUPS, winbindd_list_groups, "LIST_GROUPS" }, { WINBINDD_LIST_TRUSTDOM, winbindd_list_trusted_domains, "LIST_TRUSTDOM" }, { WINBINDD_SHOW_SEQUENCE, winbindd_show_sequence, "SHOW_SEQUENCE" }, /* SID related functions */ { WINBINDD_LOOKUPSID, winbindd_lookupsid, "LOOKUPSID" }, { WINBINDD_LOOKUPNAME, winbindd_lookupname, "LOOKUPNAME" }, /* Lookup related functions */ { WINBINDD_SID_TO_UID, winbindd_sid_to_uid, "SID_TO_UID" }, { WINBINDD_SID_TO_GID, winbindd_sid_to_gid, "SID_TO_GID" }, { WINBINDD_UID_TO_SID, winbindd_uid_to_sid, "UID_TO_SID" }, { WINBINDD_GID_TO_SID, winbindd_gid_to_sid, "GID_TO_SID" }, { WINBINDD_ALLOCATE_RID, winbindd_allocate_rid, "ALLOCATE_RID" }, { WINBINDD_ALLOCATE_RID_AND_GID, winbindd_allocate_rid_and_gid, "ALLOCATE_RID_AND_GID" }, /* Miscellaneous */ { WINBINDD_CHECK_MACHACC, winbindd_check_machine_acct, "CHECK_MACHACC" }, { WINBINDD_PING, winbindd_ping, "PING" }, { WINBINDD_INFO, winbindd_info, "INFO" }, { WINBINDD_INTERFACE_VERSION, winbindd_interface_version, "INTERFACE_VERSION" }, { WINBINDD_DOMAIN_NAME, winbindd_domain_name, "DOMAIN_NAME" }, { WINBINDD_DOMAIN_INFO, winbindd_domain_info, "DOMAIN_INFO" }, { WINBINDD_NETBIOS_NAME, winbindd_netbios_name, "NETBIOS_NAME" }, { WINBINDD_PRIV_PIPE_DIR, winbindd_priv_pipe_dir, "WINBINDD_PRIV_PIPE_DIR" }, { WINBINDD_GETDCNAME, winbindd_getdcname, "GETDCNAME" }, /* WINS functions */ { WINBINDD_WINS_BYNAME, winbindd_wins_byname, "WINS_BYNAME" }, { WINBINDD_WINS_BYIP, winbindd_wins_byip, "WINS_BYIP" }, /* End of list */ { WINBINDD_NUM_CMDS, NULL, "NONE" } }; static void process_request(struct winbindd_cli_state *state) { struct winbindd_dispatch_table *table = dispatch_table; /* Free response data - we may be interrupted and receive another command before being able to send this data off. */ SAFE_FREE(state->response.extra_data); ZERO_STRUCT(state->response); state->response.result = WINBINDD_PENDING; state->response.length = sizeof(struct winbindd_response); state->mem_ctx = talloc_init("winbind request"); if (state->mem_ctx == NULL) return; /* Process command */ for (table = dispatch_table; table->fn; table++) { if (state->request.cmd == table->cmd) { DEBUG(10,("process_request: request fn %s\n", table->winbindd_cmd_name )); table->fn(state); break; } } if (!table->fn) { DEBUG(10,("process_request: unknown request fn number %d\n", (int)state->request.cmd )); request_error(state); } } /* * A list of file descriptors being monitored by select in the main processing * loop. fd_event->handler is called whenever the socket is readable/writable. */ static struct fd_event *fd_events = NULL; void add_fd_event(struct fd_event *ev) { struct fd_event *match; /* only add unique fd_event structs */ for (match=fd_events; match; match=match->next ) { #ifdef DEVELOPER SMB_ASSERT( match != ev ); #else if ( match == ev ) return; #endif } DLIST_ADD(fd_events, ev); } void remove_fd_event(struct fd_event *ev) { DLIST_REMOVE(fd_events, ev); } /* * Handler for fd_events to complete a read/write request, set up by * setup_async_read/setup_async_write. */ static void rw_callback(struct fd_event *event, int flags) { size_t todo; ssize_t done = 0; todo = event->length - event->done; if (event->flags & EVENT_FD_WRITE) { SMB_ASSERT(flags == EVENT_FD_WRITE); done = sys_write(event->fd, &((char *)event->data)[event->done], todo); if (done <= 0) { event->flags = 0; event->finished(event->private_data, False); return; } } if (event->flags & EVENT_FD_READ) { SMB_ASSERT(flags == EVENT_FD_READ); done = sys_read(event->fd, &((char *)event->data)[event->done], todo); if (done <= 0) { event->flags = 0; event->finished(event->private_data, False); return; } } event->done += done; if (event->done == event->length) { event->flags = 0; event->finished(event->private_data, True); } } /* * Request an async read/write on a fd_event structure. (*finished) is called * when the request is completed or an error had occurred. */ void setup_async_read(struct fd_event *event, void *data, size_t length, void (*finished)(void *private_data, BOOL success), void *private_data) { SMB_ASSERT(event->flags == 0); event->data = data; event->length = length; event->done = 0; event->handler = rw_callback; event->finished = finished; event->private_data = private_data; event->flags = EVENT_FD_READ; } void setup_async_write(struct fd_event *event, void *data, size_t length, void (*finished)(void *private_data, BOOL success), void *private_data) { SMB_ASSERT(event->flags == 0); event->data = data; event->length = length; event->done = 0; event->handler = rw_callback; event->finished = finished; event->private_data = private_data; event->flags = EVENT_FD_WRITE; } /* * This is the main event loop of winbind requests. It goes through a * state-machine of 3 read/write requests, 4 if you have extra data to send. * * An idle winbind client has a read request of 4 bytes outstanding, * finalizing function is request_len_recv, checking the length. request_recv * then processes the packet. The processing function then at some point has * to call request_finished which schedules sending the response. */ static void request_len_recv(void *private_data, BOOL success); static void request_recv(void *private_data, BOOL success); static void request_main_recv(void *private_data, BOOL success); static void request_finished(struct winbindd_cli_state *state); void request_finished_cont(void *private_data, BOOL success); static void response_main_sent(void *private_data, BOOL success); static void response_extra_sent(void *private_data, BOOL success); static void response_extra_sent(void *private_data, BOOL success) { struct winbindd_cli_state *state = talloc_get_type_abort(private_data, struct winbindd_cli_state); if (state->mem_ctx != NULL) { talloc_destroy(state->mem_ctx); state->mem_ctx = NULL; } if (!success) { state->finished = True; return; } SAFE_FREE(state->request.extra_data); SAFE_FREE(state->response.extra_data); setup_async_read(&state->fd_event, &state->request, sizeof(uint32), request_len_recv, state); } static void response_main_sent(void *private_data, BOOL success) { struct winbindd_cli_state *state = talloc_get_type_abort(private_data, struct winbindd_cli_state); if (!success) { state->finished = True; return; } if (state->response.length == sizeof(state->response)) { if (state->mem_ctx != NULL) { talloc_destroy(state->mem_ctx); state->mem_ctx = NULL; } setup_async_read(&state->fd_event, &state->request, sizeof(uint32), request_len_recv, state); return; } setup_async_write(&state->fd_event, state->response.extra_data, state->response.length - sizeof(state->response), response_extra_sent, state); } static void request_finished(struct winbindd_cli_state *state) { setup_async_write(&state->fd_event, &state->response, sizeof(state->response), response_main_sent, state); } void request_error(struct winbindd_cli_state *state) { SMB_ASSERT(state->response.result == WINBINDD_PENDING); state->response.result = WINBINDD_ERROR; request_finished(state); } void request_ok(struct winbindd_cli_state *state) { SMB_ASSERT(state->response.result == WINBINDD_PENDING); state->response.result = WINBINDD_OK; request_finished(state); } void request_finished_cont(void *private_data, BOOL success) { struct winbindd_cli_state *state = talloc_get_type_abort(private_data, struct winbindd_cli_state); if (success) request_ok(state); else request_error(state); } static void request_len_recv(void *private_data, BOOL success) { struct winbindd_cli_state *state = talloc_get_type_abort(private_data, struct winbindd_cli_state); if (!success) { state->finished = True; return; } if (*(uint32 *)(&state->request) != sizeof(state->request)) { DEBUG(0,("request_len_recv: Invalid request size received: %d\n", *(uint32 *)(&state->request))); state->finished = True; return; } setup_async_read(&state->fd_event, (uint32 *)(&state->request)+1, sizeof(state->request) - sizeof(uint32), request_main_recv, state); } static void request_main_recv(void *private_data, BOOL success) { struct winbindd_cli_state *state = talloc_get_type_abort(private_data, struct winbindd_cli_state); if (!success) { state->finished = True; return; } if (state->request.extra_len == 0) { state->request.extra_data = NULL; request_recv(state, True); return; } if ((!state->privileged) && (state->request.extra_len > WINBINDD_MAX_EXTRA_DATA)) { DEBUG(3, ("Got request with %d bytes extra data on " "unprivileged socket\n", (int)state->request.extra_len)); state->request.extra_data = NULL; state->finished = True; return; } state->request.extra_data = SMB_MALLOC_ARRAY(char, state->request.extra_len + 1); if (state->request.extra_data == NULL) { DEBUG(0, ("malloc failed\n")); state->finished = True; return; } /* Ensure null termination */ state->request.extra_data[state->request.extra_len] = '\0'; setup_async_read(&state->fd_event, state->request.extra_data, state->request.extra_len, request_recv, state); } static void request_recv(void *private_data, BOOL success) { struct winbindd_cli_state *state = talloc_get_type_abort(private_data, struct winbindd_cli_state); if (!success) { state->finished = True; return; } process_request(state); } /* Process a new connection by adding it to the client connection list */ static void new_connection(int listen_sock, BOOL privileged) { struct sockaddr_un sunaddr; struct winbindd_cli_state *state; socklen_t len; int sock; /* Accept connection */ len = sizeof(sunaddr); do { sock = accept(listen_sock, (struct sockaddr *)&sunaddr, &len); } while (sock == -1 && errno == EINTR); if (sock == -1) return; DEBUG(6,("accepted socket %d\n", sock)); /* Create new connection structure */ if ((state = TALLOC_ZERO_P(NULL, struct winbindd_cli_state)) == NULL) return; state->sock = sock; state->last_access = time(NULL); state->privileged = privileged; state->fd_event.fd = state->sock; state->fd_event.flags = 0; add_fd_event(&state->fd_event); setup_async_read(&state->fd_event, &state->request, sizeof(uint32), request_len_recv, state); /* Add to connection list */ winbindd_add_client(state); } /* Remove a client connection from client connection list */ static void remove_client(struct winbindd_cli_state *state) { /* It's a dead client - hold a funeral */ if (state != NULL) { /* Close socket */ close(state->sock); /* Free any getent state */ free_getent_state(state->getpwent_state); free_getent_state(state->getgrent_state); /* We may have some extra data that was not freed if the client was killed unexpectedly */ SAFE_FREE(state->response.extra_data); if (state->mem_ctx != NULL) { talloc_destroy(state->mem_ctx); state->mem_ctx = NULL; } remove_fd_event(&state->fd_event); /* Remove from list and free */ winbindd_remove_client(state); talloc_free(state); } } /* Shutdown client connection which has been idle for the longest time */ static BOOL remove_idle_client(void) { struct winbindd_cli_state *state, *remove_state = NULL; time_t last_access = 0; int nidle = 0; for (state = winbindd_client_list(); state; state = state->next) { if (state->response.result != WINBINDD_PENDING && !state->getpwent_state && !state->getgrent_state) { nidle++; if (!last_access || state->last_access < last_access) { last_access = state->last_access; remove_state = state; } } } if (remove_state) { DEBUG(5,("Found %d idle client connections, shutting down sock %d, pid %u\n", nidle, remove_state->sock, (unsigned int)remove_state->pid)); remove_client(remove_state); return True; } return False; } /* Process incoming clients on listen_sock. We use a tricky non-blocking, non-forking, non-threaded model which allows us to handle many simultaneous connections while remaining impervious to many denial of service attacks. */ static void process_loop(void) { struct winbindd_cli_state *state; struct fd_event *ev; fd_set r_fds, w_fds; int maxfd, listen_sock, listen_priv_sock, selret; struct timeval timeout; /* We'll be doing this a lot */ /* Handle messages */ message_dispatch(); /* refresh the trusted domain cache */ rescan_trusted_domains(); /* Free up temporary memory */ lp_talloc_free(); main_loop_talloc_free(); /* Initialise fd lists for select() */ listen_sock = open_winbindd_socket(); listen_priv_sock = open_winbindd_priv_socket(); if (listen_sock == -1 || listen_priv_sock == -1) { perror("open_winbind_socket"); exit(1); } maxfd = MAX(listen_sock, listen_priv_sock); FD_ZERO(&r_fds); FD_ZERO(&w_fds); FD_SET(listen_sock, &r_fds); FD_SET(listen_priv_sock, &r_fds); timeout.tv_sec = WINBINDD_ESTABLISH_LOOP; timeout.tv_usec = 0; /* Set up client readers and writers */ state = winbindd_client_list(); while (state) { struct winbindd_cli_state *next = state->next; /* Dispose of client connection if it is marked as finished */ if (state->finished) remove_client(state); state = next; } for (ev = fd_events; ev; ev = ev->next) { if (ev->flags & EVENT_FD_READ) { FD_SET(ev->fd, &r_fds); maxfd = MAX(ev->fd, maxfd); } if (ev->flags & EVENT_FD_WRITE) { FD_SET(ev->fd, &w_fds); maxfd = MAX(ev->fd, maxfd); } } /* Call select */ selret = sys_select(maxfd + 1, &r_fds, &w_fds, NULL, &timeout); if (selret == 0) goto no_fds_ready; if ((selret == -1 && errno != EINTR) || selret == 0) { /* Select error, something is badly wrong */ perror("select"); exit(1); } ev = fd_events; while (ev != NULL) { struct fd_event *next = ev->next; int flags = 0; if (FD_ISSET(ev->fd, &r_fds)) flags |= EVENT_FD_READ; if (FD_ISSET(ev->fd, &w_fds)) flags |= EVENT_FD_WRITE; if (flags) ev->handler(ev, flags); ev = next; } if (FD_ISSET(listen_sock, &r_fds)) { while (winbindd_num_clients() > WINBINDD_MAX_SIMULTANEOUS_CLIENTS - 1) { DEBUG(5,("winbindd: Exceeding %d client " "connections, removing idle " "connection.\n", WINBINDD_MAX_SIMULTANEOUS_CLIENTS)); if (!remove_idle_client()) { DEBUG(0,("winbindd: Exceeding %d " "client connections, no idle " "connection found\n", WINBINDD_MAX_SIMULTANEOUS_CLIENTS)); break; } } /* new, non-privileged connection */ new_connection(listen_sock, False); } if (FD_ISSET(listen_priv_sock, &r_fds)) { while (winbindd_num_clients() > WINBINDD_MAX_SIMULTANEOUS_CLIENTS - 1) { DEBUG(5,("winbindd: Exceeding %d client " "connections, removing idle " "connection.\n", WINBINDD_MAX_SIMULTANEOUS_CLIENTS)); if (!remove_idle_client()) { DEBUG(0,("winbindd: Exceeding %d " "client connections, no idle " "connection found\n", WINBINDD_MAX_SIMULTANEOUS_CLIENTS)); break; } } /* new, privileged connection */ new_connection(listen_priv_sock, True); } no_fds_ready: #if 0 winbindd_check_cache_size(time(NULL)); #endif /* Check signal handling things */ if (do_sigterm) terminate(); if (do_sighup) { DEBUG(3, ("got SIGHUP\n")); msg_reload_services(MSG_SMB_CONF_UPDATED, pid_to_procid(0), NULL, 0); do_sighup = False; } if (do_sigusr2) { print_winbindd_status(); do_sigusr2 = False; } if (do_sigchld) { pid_t pid; do_sigchld = False; while ((pid = sys_waitpid(-1, NULL, WNOHANG)) > 0) { winbind_child_died(pid); } } } /* Main function */ struct winbindd_state server_state; /* Server state information */ int main(int argc, char **argv) { pstring logfile; static BOOL Fork = True; static BOOL log_stdout = False; struct poptOption long_options[] = { POPT_AUTOHELP { "stdout", 'S', POPT_ARG_VAL, &log_stdout, True, "Log to stdout" }, { "foreground", 'F', POPT_ARG_VAL, &Fork, False, "Daemon in foreground mode" }, { "interactive", 'i', POPT_ARG_NONE, NULL, 'i', "Interactive mode" }, { "no-caching", 'n', POPT_ARG_VAL, &opt_nocache, True, "Disable caching" }, POPT_COMMON_SAMBA POPT_TABLEEND }; poptContext pc; int opt; /* glibc (?) likes to print "User defined signal 1" and exit if a SIGUSR[12] is received before a handler is installed */ CatchSignal(SIGUSR1, SIG_IGN); CatchSignal(SIGUSR2, SIG_IGN); fault_setup((void (*)(void *))fault_quit ); /* Initialise for running in non-root mode */ sec_init(); set_remote_machine_name("winbindd", False); /* Set environment variable so we don't recursively call ourselves. This may also be useful interactively. */ setenv(WINBINDD_DONT_ENV, "1", 1); /* Initialise samba/rpc client stuff */ pc = poptGetContext("winbindd", argc, (const char **)argv, long_options, POPT_CONTEXT_KEEP_FIRST); while ((opt = poptGetNextOpt(pc)) != -1) { switch (opt) { /* Don't become a daemon */ case 'i': interactive = True; log_stdout = True; Fork = False; break; } } if (log_stdout && Fork) { printf("Can't log to stdout (-S) unless daemon is in foreground +(-F) or interactive (-i)\n"); poptPrintUsage(pc, stderr, 0); exit(1); } if (!override_logfile) { pstr_sprintf(logfile, "%s/log.winbindd", dyn_LOGFILEBASE); lp_set_logfile(logfile); } setup_logging("winbindd", log_stdout); reopen_logs(); DEBUG(1, ("winbindd version %s started.\n", SAMBA_VERSION_STRING) ); DEBUGADD( 1, ( "Copyright The Samba Team 2000-2004\n" ) ); if (!reload_services_file()) { DEBUG(0, ("error opening config file\n")); exit(1); } /* Setup names. */ if (!init_names()) exit(1); load_interfaces(); if (!secrets_init()) { DEBUG(0,("Could not initialize domain trust account secrets. Giving up\n")); return False; } /* Enable netbios namecache */ namecache_enable(); /* Check winbindd parameters are valid */ ZERO_STRUCT(server_state); /* Winbind daemon initialisation */ if ( (!winbindd_param_init()) || (!winbindd_upgrade_idmap()) || (!idmap_init(lp_idmap_backend())) ) { DEBUG(1, ("Could not init idmap -- netlogon proxy only\n")); idmap_set_proxyonly(); } /* Unblock all signals we are interested in as they may have been blocked by the parent process. */ BlockSignals(False, SIGINT); BlockSignals(False, SIGQUIT); BlockSignals(False, SIGTERM); BlockSignals(False, SIGUSR1); BlockSignals(False, SIGUSR2); BlockSignals(False, SIGHUP); BlockSignals(False, SIGCHLD); /* Setup signal handlers */ CatchSignal(SIGINT, termination_handler); /* Exit on these sigs */ CatchSignal(SIGQUIT, termination_handler); CatchSignal(SIGTERM, termination_handler); CatchSignal(SIGCHLD, sigchld_handler); CatchSignal(SIGPIPE, SIG_IGN); /* Ignore sigpipe */ CatchSignal(SIGUSR2, sigusr2_handler); /* Debugging sigs */ CatchSignal(SIGHUP, sighup_handler); if (!interactive) become_daemon(Fork); pidfile_create("winbindd"); #if HAVE_SETPGID /* * If we're interactive we want to set our own process group for * signal management. */ if (interactive) setpgid( (pid_t)0, (pid_t)0); #endif /* Initialise messaging system */ if (!message_init()) { DEBUG(0, ("unable to initialise messaging system\n")); exit(1); } /* React on 'smbcontrol winbindd reload-config' in the same way as to SIGHUP signal */ message_register(MSG_SMB_CONF_UPDATED, msg_reload_services); message_register(MSG_SHUTDOWN, msg_shutdown); poptFreeContext(pc); init_domain_list(); init_idmap_child(); /* Loop waiting for requests */ while (1) process_loop(); trustdom_cache_shutdown(); return 0; }