/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2010 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "smbd.h" #define DRV_DEVICE_PATH "/devices/pseudo/smbsrv@0:smbsrv" #define SMB_DBDIR "/var/smb" static void *smbd_nbt_listener(void *); static void *smbd_tcp_listener(void *); static void *smbd_nbt_receiver(void *); static void *smbd_tcp_receiver(void *); static int smbd_daemonize_init(void); static void smbd_daemonize_fini(int, int); static int smb_init_daemon_priv(int, uid_t, gid_t); static int smbd_kernel_bind(void); static void smbd_kernel_unbind(void); static int smbd_already_running(void); static int smbd_service_init(void); static void smbd_service_fini(void); static int smbd_setup_options(int argc, char *argv[]); static void smbd_usage(FILE *fp); static void smbd_report(const char *fmt, ...); static void smbd_sig_handler(int sig); static int32_t smbd_gmtoff(void); static int smbd_localtime_init(void); static void *smbd_localtime_monitor(void *arg); static pthread_t localtime_thr; static int smbd_refresh_init(void); static void smbd_refresh_fini(void); static void *smbd_refresh_monitor(void *); static void smbd_refresh_dc(void); static void *smbd_nbt_receiver(void *); static void *smbd_nbt_listener(void *); static void *smbd_tcp_receiver(void *); static void *smbd_tcp_listener(void *); static int smbd_start_listeners(void); static void smbd_stop_listeners(void); static int smbd_kernel_start(void); static void smbd_fatal_error(const char *); static pthread_t refresh_thr; static pthread_cond_t refresh_cond; static pthread_mutex_t refresh_mutex; static cond_t listener_cv; static mutex_t listener_mutex; /* * Mutex to ensure that smbd_service_fini() and smbd_service_init() * are atomic w.r.t. one another. Otherwise, if a shutdown begins * before initialization is complete, resources can get deallocated * while initialization threads are still using them. */ static mutex_t smbd_service_mutex; static cond_t smbd_service_cv; smbd_t smbd; /* * Use SMF error codes only on return or exit. */ int main(int argc, char *argv[]) { struct sigaction act; sigset_t set; uid_t uid; int pfd = -1; uint_t sigval; smbd.s_pname = basename(argv[0]); openlog(smbd.s_pname, LOG_PID | LOG_NOWAIT, LOG_DAEMON); if (smbd_setup_options(argc, argv) != 0) return (SMF_EXIT_ERR_FATAL); if ((uid = getuid()) != smbd.s_uid) { smbd_report("user %d: %s", uid, strerror(EPERM)); return (SMF_EXIT_ERR_FATAL); } if (getzoneid() != GLOBAL_ZONEID) { smbd_report("non-global zones are not supported"); return (SMF_EXIT_ERR_FATAL); } if (is_system_labeled()) { smbd_report("Trusted Extensions not supported"); return (SMF_EXIT_ERR_FATAL); } if (smbd_already_running()) return (SMF_EXIT_OK); (void) sigfillset(&set); (void) sigdelset(&set, SIGABRT); (void) sigfillset(&act.sa_mask); act.sa_handler = smbd_sig_handler; act.sa_flags = 0; (void) sigaction(SIGABRT, &act, NULL); (void) sigaction(SIGTERM, &act, NULL); (void) sigaction(SIGHUP, &act, NULL); (void) sigaction(SIGINT, &act, NULL); (void) sigaction(SIGPIPE, &act, NULL); (void) sigdelset(&set, SIGTERM); (void) sigdelset(&set, SIGHUP); (void) sigdelset(&set, SIGINT); (void) sigdelset(&set, SIGPIPE); if (smbd.s_fg) { (void) sigdelset(&set, SIGTSTP); (void) sigdelset(&set, SIGTTIN); (void) sigdelset(&set, SIGTTOU); if (smbd_service_init() != 0) { smbd_report("service initialization failed"); exit(SMF_EXIT_ERR_FATAL); } } else { /* * "pfd" is a pipe descriptor -- any fatal errors * during subsequent initialization of the child * process should be written to this pipe and the * parent will report this error as the exit status. */ pfd = smbd_daemonize_init(); if (smbd_service_init() != 0) { smbd_report("daemon initialization failed"); exit(SMF_EXIT_ERR_FATAL); } smbd_daemonize_fini(pfd, SMF_EXIT_OK); } (void) atexit(smb_kmod_stop); while (!smbd.s_shutting_down) { if (smbd.s_sigval == 0 && smbd.s_refreshes == 0) (void) sigsuspend(&set); sigval = atomic_swap_uint(&smbd.s_sigval, 0); switch (sigval) { case 0: case SIGPIPE: case SIGABRT: break; case SIGHUP: syslog(LOG_DEBUG, "refresh requested"); (void) pthread_cond_signal(&refresh_cond); break; default: /* * Typically SIGINT or SIGTERM. */ smbd.s_shutting_down = B_TRUE; break; } } smbd_service_fini(); closelog(); return ((smbd.s_fatal_error) ? SMF_EXIT_ERR_FATAL : SMF_EXIT_OK); } /* * This function will fork off a child process, * from which only the child will return. * * Use SMF error codes only on exit. */ static int smbd_daemonize_init(void) { int status, pfds[2]; sigset_t set, oset; pid_t pid; int rc; /* * Reset privileges to the minimum set required. We continue * to run as root to create and access files in /var. */ rc = smb_init_daemon_priv(PU_RESETGROUPS, smbd.s_uid, smbd.s_gid); if (rc != 0) { smbd_report("insufficient privileges"); exit(SMF_EXIT_ERR_FATAL); } /* * Block all signals prior to the fork and leave them blocked in the * parent so we don't get in a situation where the parent gets SIGINT * and returns non-zero exit status and the child is actually running. * In the child, restore the signal mask once we've done our setsid(). */ (void) sigfillset(&set); (void) sigdelset(&set, SIGABRT); (void) sigprocmask(SIG_BLOCK, &set, &oset); if (pipe(pfds) == -1) { smbd_report("unable to create pipe"); exit(SMF_EXIT_ERR_FATAL); } closelog(); if ((pid = fork()) == -1) { openlog(smbd.s_pname, LOG_PID | LOG_NOWAIT, LOG_DAEMON); smbd_report("unable to fork"); closelog(); exit(SMF_EXIT_ERR_FATAL); } /* * If we're the parent process, wait for either the child to send us * the appropriate exit status over the pipe or for the read to fail * (presumably with 0 for EOF if our child terminated abnormally). * If the read fails, exit with either the child's exit status if it * exited or with SMF_EXIT_ERR_FATAL if it died from a fatal signal. */ if (pid != 0) { (void) close(pfds[1]); if (read(pfds[0], &status, sizeof (status)) == sizeof (status)) _exit(status); if (waitpid(pid, &status, 0) == pid && WIFEXITED(status)) _exit(WEXITSTATUS(status)); _exit(SMF_EXIT_ERR_FATAL); } openlog(smbd.s_pname, LOG_PID | LOG_NOWAIT, LOG_DAEMON); (void) setsid(); (void) sigprocmask(SIG_SETMASK, &oset, NULL); (void) chdir("/"); (void) umask(022); (void) close(pfds[0]); return (pfds[1]); } /* * This function is based on __init_daemon_priv() and replaces * __init_daemon_priv() since we want smbd to have all privileges so that it * can execute map/unmap commands with all privileges during share * connection/disconnection. Unused privileges are disabled until command * execution. The permitted and the limit set contains all privileges. The * inheritable set contains no privileges. */ static const char root_cp[] = "/core.%f.%t"; static const char daemon_cp[] = "/var/tmp/core.%f.%t"; static int smb_init_daemon_priv(int flags, uid_t uid, gid_t gid) { priv_set_t *perm = NULL; int ret = -1; char buf[1024]; /* * This is not a significant failure: it allows us to start programs * with sufficient privileges and with the proper uid. We don't * care enough about the extra groups in that case. */ if (flags & PU_RESETGROUPS) (void) setgroups(0, NULL); if (gid != (gid_t)-1 && setgid(gid) != 0) goto end; perm = priv_allocset(); if (perm == NULL) goto end; /* E = P */ (void) getppriv(PRIV_PERMITTED, perm); (void) setppriv(PRIV_SET, PRIV_EFFECTIVE, perm); /* Now reset suid and euid */ if (uid != (uid_t)-1 && setreuid(uid, uid) != 0) goto end; /* I = 0 */ priv_emptyset(perm); ret = setppriv(PRIV_SET, PRIV_INHERITABLE, perm); end: priv_freeset(perm); if (core_get_process_path(buf, sizeof (buf), getpid()) == 0 && strcmp(buf, "core") == 0) { if ((uid == (uid_t)-1 ? geteuid() : uid) == 0) { (void) core_set_process_path(root_cp, sizeof (root_cp), getpid()); } else { (void) core_set_process_path(daemon_cp, sizeof (daemon_cp), getpid()); } } (void) setpflags(__PROC_PROTECT, 0); return (ret); } /* * Most privileges, except the ones that are required for smbd, are turn off * in the effective set. They will be turn on when needed for command * execution during share connection/disconnection. */ static void smbd_daemonize_fini(int fd, int exit_status) { priv_set_t *pset; /* * Now that we're running, if a pipe fd was specified, write an exit * status to it to indicate that our parent process can safely detach. * Then proceed to loading the remaining non-built-in modules. */ if (fd >= 0) (void) write(fd, &exit_status, sizeof (exit_status)); (void) close(fd); pset = priv_allocset(); if (pset == NULL) return; priv_basicset(pset); /* list of privileges for smbd */ (void) priv_addset(pset, PRIV_NET_MAC_AWARE); (void) priv_addset(pset, PRIV_NET_PRIVADDR); (void) priv_addset(pset, PRIV_PROC_AUDIT); (void) priv_addset(pset, PRIV_SYS_DEVICES); (void) priv_addset(pset, PRIV_SYS_SMB); (void) priv_addset(pset, PRIV_SYS_MOUNT); priv_inverse(pset); /* turn off unneeded privileges */ (void) setppriv(PRIV_OFF, PRIV_EFFECTIVE, pset); priv_freeset(pset); /* reenable core dumps */ __fini_daemon_priv(NULL); } /* * smbd_service_init */ static int smbd_service_init(void) { static struct dir { char *name; int perm; } dir[] = { { SMB_DBDIR, 0700 }, { SMB_CVOL, 0755 }, { SMB_SYSROOT, 0755 }, { SMB_SYSTEM32, 0755 }, { SMB_VSS, 0755 } }; int rc, i; (void) mutex_lock(&smbd_service_mutex); smbd.s_pid = getpid(); for (i = 0; i < sizeof (dir)/sizeof (dir[0]); ++i) { if ((mkdir(dir[i].name, dir[i].perm) < 0) && (errno != EEXIST)) { smbd_report("mkdir %s: %s", dir[i].name, strerror(errno)); (void) mutex_unlock(&smbd_service_mutex); return (-1); } } if ((rc = smb_ccache_init(SMB_VARRUN_DIR, SMB_CCACHE_FILE)) != 0) { if (rc == -1) smbd_report("mkdir %s: %s", SMB_VARRUN_DIR, strerror(errno)); else smbd_report("unable to set KRB5CCNAME"); (void) mutex_unlock(&smbd_service_mutex); return (-1); } smb_codepage_init(); if (smb_nicmon_start(SMBD_DEFAULT_INSTANCE_FMRI) != 0) smbd_report("NIC monitoring failed to start"); (void) dyndns_start(); smb_ipc_init(); if (smb_netbios_start() != 0) smbd_report("NetBIOS services failed to start"); else smbd_report("NetBIOS services started"); smbd.s_secmode = smb_config_get_secmode(); if ((rc = smb_domain_init(smbd.s_secmode)) != 0) { if (rc == SMB_DOMAIN_NOMACHINE_SID) { smbd_report( "no machine SID: check idmap configuration"); (void) mutex_unlock(&smbd_service_mutex); return (-1); } } smb_ads_init(); if (mlsvc_init() != 0) { smbd_report("msrpc initialization failed"); (void) mutex_unlock(&smbd_service_mutex); return (-1); } if (smbd.s_secmode == SMB_SECMODE_DOMAIN) if (smbd_locate_dc_start() != 0) smbd_report("dc discovery failed %s", strerror(errno)); smbd.s_door_srv = smbd_door_start(); smbd.s_door_opipe = smbd_opipe_start(); if (smbd.s_door_srv < 0 || smbd.s_door_opipe < 0) { smbd_report("door initialization failed %s", strerror(errno)); (void) mutex_unlock(&smbd_service_mutex); return (-1); } if (smbd_refresh_init() != 0) { (void) mutex_unlock(&smbd_service_mutex); return (-1); } dyndns_update_zones(); (void) smbd_localtime_init(); (void) smb_lgrp_start(); smb_pwd_init(B_TRUE); if (smb_shr_start() != 0) { smbd_report("share initialization failed: %s", strerror(errno)); (void) mutex_unlock(&smbd_service_mutex); return (-1); } smbd.s_door_lmshr = smbd_share_start(); if (smbd.s_door_lmshr < 0) smbd_report("share initialization failed"); if (smbd_kernel_bind() != 0) { (void) mutex_unlock(&smbd_service_mutex); return (-1); } if (smb_shr_load() != 0) { smbd_report("failed to start loading shares: %s", strerror(errno)); (void) mutex_unlock(&smbd_service_mutex); return (-1); } smbd.s_initialized = B_TRUE; smbd_report("service initialized"); (void) cond_signal(&smbd_service_cv); (void) mutex_unlock(&smbd_service_mutex); return (0); } /* * Shutdown smbd and smbsrv kernel services. * * Shutdown will not begin until initialization has completed. * Only one thread is allowed to perform the shutdown. Other * threads will be blocked on fini_in_progress until the process * has exited. */ static void smbd_service_fini(void) { static uint_t fini_in_progress; (void) mutex_lock(&smbd_service_mutex); while (!smbd.s_initialized) (void) cond_wait(&smbd_service_cv, &smbd_service_mutex); if (atomic_swap_uint(&fini_in_progress, 1) != 0) { while (fini_in_progress) (void) cond_wait(&smbd_service_cv, &smbd_service_mutex); /*NOTREACHED*/ } smbd.s_shutting_down = B_TRUE; smbd_report("service shutting down"); smb_kmod_stop(); smb_logon_abort(); smb_lgrp_stop(); smbd_opipe_stop(); smbd_door_stop(); smbd_refresh_fini(); smbd_kernel_unbind(); smbd_share_stop(); smb_shr_stop(); dyndns_stop(); smb_nicmon_stop(); smb_ccache_remove(SMB_CCACHE_PATH); smb_pwd_fini(); smb_domain_fini(); mlsvc_fini(); smb_ads_fini(); smb_netbios_stop(); smbd.s_initialized = B_FALSE; smbd_report("service terminated"); (void) mutex_unlock(&smbd_service_mutex); exit((smbd.s_fatal_error) ? SMF_EXIT_ERR_FATAL : SMF_EXIT_OK); } /* * smbd_refresh_init() * * SMB service refresh thread initialization. This thread waits for a * refresh event and updates the daemon's view of the configuration * before going back to sleep. */ static int smbd_refresh_init() { pthread_attr_t tattr; pthread_condattr_t cattr; int rc; (void) pthread_condattr_init(&cattr); (void) pthread_cond_init(&refresh_cond, &cattr); (void) pthread_condattr_destroy(&cattr); (void) pthread_mutex_init(&refresh_mutex, NULL); (void) pthread_attr_init(&tattr); (void) pthread_attr_setdetachstate(&tattr, PTHREAD_CREATE_DETACHED); rc = pthread_create(&refresh_thr, &tattr, smbd_refresh_monitor, 0); (void) pthread_attr_destroy(&tattr); return (rc); } /* * smbd_refresh_fini() * * Stop the refresh thread. */ static void smbd_refresh_fini() { if (pthread_self() != refresh_thr) { (void) pthread_cancel(refresh_thr); (void) pthread_cond_destroy(&refresh_cond); (void) pthread_mutex_destroy(&refresh_mutex); } } /* * smbd_refresh_monitor() * * Wait for a refresh event. When this thread wakes up, update the * smbd configuration from the SMF config information then go back to * wait for the next refresh. */ /*ARGSUSED*/ static void * smbd_refresh_monitor(void *arg) { smb_kmod_cfg_t cfg; int error; while (!smbd.s_shutting_down) { (void) pthread_mutex_lock(&refresh_mutex); while ((atomic_swap_uint(&smbd.s_refreshes, 0) == 0) && (!smbd.s_shutting_down)) (void) pthread_cond_wait(&refresh_cond, &refresh_mutex); (void) pthread_mutex_unlock(&refresh_mutex); if (smbd.s_shutting_down) { smbd_service_fini(); /*NOTREACHED*/ } (void) mutex_lock(&smbd_service_mutex); /* * We've been woken up by a refresh event so go do * what is necessary. */ smb_ads_refresh(); smb_ccache_remove(SMB_CCACHE_PATH); /* * Start the dyndns thread, if required. * Clear the DNS zones for the existing interfaces * before updating the NIC interface list. */ (void) dyndns_start(); dyndns_clear_zones(); /* re-initialize NIC table */ if (smb_nic_init() != SMB_NIC_SUCCESS) smbd_report("failed to get NIC information"); smb_netbios_name_reconfig(); smb_browser_reconfig(); smbd_refresh_dc(); dyndns_update_zones(); (void) mutex_unlock(&smbd_service_mutex); if (smbd_set_netlogon_cred()) { /* * Restart required because the domain changed * or the credential chain setup failed. */ if (smb_smf_restart_service() != 0) { syslog(LOG_ERR, "unable to restart smb/server. " "Run 'svcs -xv smb/server' for more " "information."); smbd_service_fini(); /*NOTREACHED*/ } break; } if (!smbd.s_kbound) { if ((error = smbd_kernel_bind()) == 0) (void) smb_shr_load(); continue; } (void) smb_shr_load(); smb_load_kconfig(&cfg); error = smb_kmod_setcfg(&cfg); if (error < 0) smbd_report("configuration update failed: %s", strerror(error)); } return (NULL); } /* * Update DC information on a refresh. */ static void smbd_refresh_dc(void) { char fqdomain[MAXHOSTNAMELEN]; if (smb_config_get_secmode() != SMB_SECMODE_DOMAIN) return; if (smb_getfqdomainname(fqdomain, MAXHOSTNAMELEN)) return; if (smb_locate_dc(fqdomain, "", NULL)) smbd_report("DC discovery failed"); } void smbd_set_secmode(int secmode) { switch (secmode) { case SMB_SECMODE_WORKGRP: case SMB_SECMODE_DOMAIN: (void) smb_config_set_secmode(secmode); smbd.s_secmode = secmode; break; default: syslog(LOG_ERR, "invalid security mode: %d", secmode); syslog(LOG_ERR, "entering maintenance mode"); (void) smb_smf_maintenance_mode(); } } /* * The service is online if initialization is complete and shutdown * has not begun. */ boolean_t smbd_online(void) { return (smbd.s_initialized && !smbd.s_shutting_down); } /* * If the door has already been opened by another process (non-zero pid * in target), we assume that another smbd is already running. If there * is a race here, it will be caught later when smbsrv is opened because * only one process is allowed to open the device at a time. */ static int smbd_already_running(void) { door_info_t info; int door; if ((door = open(SMBD_DOOR_NAME, O_RDONLY)) < 0) return (0); if (door_info(door, &info) < 0) return (0); if (info.di_target > 0) { smbd_report("already running: pid %ld\n", info.di_target); (void) close(door); return (1); } (void) close(door); return (0); } /* * smbd_kernel_bind * * This function open the smbsrv device and start the kernel service. */ static int smbd_kernel_bind(void) { int rc; smbd_kernel_unbind(); if ((rc = smb_kmod_bind()) == 0) { rc = smbd_kernel_start(); if (rc != 0) smb_kmod_unbind(); else smbd.s_kbound = B_TRUE; } if (rc != 0) smbd_report("kernel bind error: %s", strerror(errno)); return (rc); } static int smbd_kernel_start(void) { smb_kmod_cfg_t cfg; int rc; smb_load_kconfig(&cfg); rc = smb_kmod_setcfg(&cfg); if (rc != 0) return (rc); rc = smb_kmod_setgmtoff(smbd_gmtoff()); if (rc != 0) return (rc); rc = smb_kmod_start(smbd.s_door_opipe, smbd.s_door_lmshr, smbd.s_door_srv); if (rc != 0) return (rc); rc = smbd_start_listeners(); if (rc != 0) return (rc); return (0); } /* * smbd_kernel_unbind */ static void smbd_kernel_unbind(void) { smbd_stop_listeners(); smb_kmod_unbind(); smbd.s_kbound = B_FALSE; } /* * Initialization of the localtime thread. * Returns 0 on success, an error number if thread creation fails. */ int smbd_localtime_init(void) { pthread_attr_t tattr; int rc; (void) pthread_attr_init(&tattr); (void) pthread_attr_setdetachstate(&tattr, PTHREAD_CREATE_DETACHED); rc = pthread_create(&localtime_thr, &tattr, smbd_localtime_monitor, 0); (void) pthread_attr_destroy(&tattr); return (rc); } /* * Local time thread to kernel land. * Send local gmtoff to kernel module one time at startup * and each time it changes (up to twice a year). * Local gmtoff is checked once every 15 minutes and * since some timezones are aligned on half and qtr hour boundaries, * once an hour would likely suffice. */ /*ARGSUSED*/ static void * smbd_localtime_monitor(void *arg) { struct tm local_tm; time_t secs; int32_t gmtoff, last_gmtoff = -1; int timeout; int error; for (;;) { gmtoff = smbd_gmtoff(); if ((last_gmtoff != gmtoff) && smbd.s_kbound) { error = smb_kmod_setgmtoff(gmtoff); if (error != 0) smbd_report("localtime set failed: %s", strerror(error)); } /* * Align the next iteration on a fifteen minute boundary. */ secs = time(0); (void) localtime_r(&secs, &local_tm); timeout = ((15 - (local_tm.tm_min % 15)) * SECSPERMIN); (void) sleep(timeout); last_gmtoff = gmtoff; } /*NOTREACHED*/ return (NULL); } /* * smbd_gmtoff * * Determine offset from GMT. If daylight saving time use altzone, * otherwise use timezone. */ static int32_t smbd_gmtoff(void) { time_t clock_val; struct tm *atm; int32_t gmtoff; (void) time(&clock_val); atm = localtime(&clock_val); gmtoff = (atm->tm_isdst) ? altzone : timezone; return (gmtoff); } static void smbd_sig_handler(int sigval) { if (smbd.s_sigval == 0) (void) atomic_swap_uint(&smbd.s_sigval, sigval); if (sigval == SIGHUP) { atomic_inc_uint(&smbd.s_refreshes); (void) pthread_cond_signal(&refresh_cond); } if (sigval == SIGINT || sigval == SIGTERM) { smbd.s_shutting_down = B_TRUE; (void) pthread_cond_signal(&refresh_cond); } } /* * Set up configuration options and parse the command line. * This function will determine if we will run as a daemon * or in the foreground. * * Failure to find a uid or gid results in using the default (0). */ static int smbd_setup_options(int argc, char *argv[]) { struct passwd *pwd; struct group *grp; int c; if ((pwd = getpwnam("root")) != NULL) smbd.s_uid = pwd->pw_uid; if ((grp = getgrnam("sys")) != NULL) smbd.s_gid = grp->gr_gid; smbd.s_fg = smb_config_get_fg_flag(); while ((c = getopt(argc, argv, ":f")) != -1) { switch (c) { case 'f': smbd.s_fg = 1; break; case ':': case '?': default: smbd_usage(stderr); return (-1); } } return (0); } static void smbd_usage(FILE *fp) { static char *help[] = { "-f run program in foreground" }; int i; (void) fprintf(fp, "Usage: %s [-f]\n", smbd.s_pname); for (i = 0; i < sizeof (help)/sizeof (help[0]); ++i) (void) fprintf(fp, " %s\n", help[i]); } static void smbd_report(const char *fmt, ...) { char buf[128]; va_list ap; if (fmt == NULL) return; va_start(ap, fmt); (void) vsnprintf(buf, 128, fmt, ap); va_end(ap); (void) fprintf(stderr, "smbd: %s\n", buf); } static int smbd_start_listeners(void) { int rc1; int rc2; pthread_attr_t tattr; (void) pthread_attr_init(&tattr); if (!smbd.s_nbt_listener_running) { rc1 = pthread_create(&smbd.s_nbt_listener_id, &tattr, smbd_nbt_listener, NULL); if (rc1 != 0) smbd_report("unable to start NBT service"); else smbd.s_nbt_listener_running = B_TRUE; } if (!smbd.s_tcp_listener_running) { rc2 = pthread_create(&smbd.s_tcp_listener_id, &tattr, smbd_tcp_listener, NULL); if (rc2 != 0) smbd_report("unable to start TCP service"); else smbd.s_tcp_listener_running = B_TRUE; } (void) pthread_attr_destroy(&tattr); if (rc1 != 0) return (rc1); return (rc2); } /* * Stop the listener threads. In an attempt to ensure that the listener * threads get the signal, we use the timed wait loop to harass the * threads into terminating. Then, if they are still running, we make * one final attempt to deliver the signal before calling thread join * to wait for them. Note: if these threads don't terminate, smbd will * hang here and SMF will probably end up killing the contract. */ static void smbd_stop_listeners(void) { void *status; timestruc_t delay; int rc = 0; (void) mutex_lock(&listener_mutex); while ((smbd.s_nbt_listener_running || smbd.s_tcp_listener_running) && (rc != ETIME)) { if (smbd.s_nbt_listener_running) (void) pthread_kill(smbd.s_nbt_listener_id, SIGTERM); if (smbd.s_tcp_listener_running) (void) pthread_kill(smbd.s_tcp_listener_id, SIGTERM); delay.tv_sec = 3; delay.tv_nsec = 0; rc = cond_reltimedwait(&listener_cv, &listener_mutex, &delay); } (void) mutex_unlock(&listener_mutex); if (smbd.s_nbt_listener_running) { syslog(LOG_WARNING, "NBT listener still running"); (void) pthread_kill(smbd.s_nbt_listener_id, SIGTERM); (void) pthread_join(smbd.s_nbt_listener_id, &status); smbd.s_nbt_listener_running = B_FALSE; } if (smbd.s_tcp_listener_running) { syslog(LOG_WARNING, "TCP listener still running"); (void) pthread_kill(smbd.s_tcp_listener_id, SIGTERM); (void) pthread_join(smbd.s_tcp_listener_id, &status); smbd.s_tcp_listener_running = B_FALSE; } } /* * Perform fatal error exit. */ static void smbd_fatal_error(const char *msg) { if (msg == NULL) msg = "Fatal error"; smbd_report("%s", msg); smbd.s_fatal_error = B_TRUE; (void) kill(smbd.s_pid, SIGTERM); } /*ARGSUSED*/ static void * smbd_nbt_receiver(void *arg) { (void) smb_kmod_nbtreceive(); return (NULL); } /*ARGSUSED*/ static void * smbd_nbt_listener(void *arg) { pthread_attr_t tattr; sigset_t set; sigset_t oset; pthread_t tid; int error = 0; (void) sigfillset(&set); (void) sigdelset(&set, SIGTERM); (void) sigdelset(&set, SIGINT); (void) pthread_sigmask(SIG_SETMASK, &set, &oset); (void) pthread_attr_init(&tattr); (void) pthread_attr_setdetachstate(&tattr, PTHREAD_CREATE_DETACHED); while (smb_kmod_nbtlisten(error) == 0) error = pthread_create(&tid, &tattr, smbd_nbt_receiver, NULL); (void) pthread_attr_destroy(&tattr); if (!smbd.s_shutting_down) smbd_fatal_error("NBT listener thread terminated unexpectedly"); (void) mutex_lock(&listener_mutex); smbd.s_nbt_listener_running = B_FALSE; (void) cond_broadcast(&listener_cv); (void) mutex_unlock(&listener_mutex); return (NULL); } /*ARGSUSED*/ static void * smbd_tcp_receiver(void *arg) { (void) smb_kmod_tcpreceive(); return (NULL); } /*ARGSUSED*/ static void * smbd_tcp_listener(void *arg) { pthread_attr_t tattr; sigset_t set; sigset_t oset; pthread_t tid; int error = 0; (void) sigfillset(&set); (void) sigdelset(&set, SIGTERM); (void) sigdelset(&set, SIGINT); (void) pthread_sigmask(SIG_SETMASK, &set, &oset); (void) pthread_attr_init(&tattr); (void) pthread_attr_setdetachstate(&tattr, PTHREAD_CREATE_DETACHED); while (smb_kmod_tcplisten(error) == 0) error = pthread_create(&tid, &tattr, smbd_tcp_receiver, NULL); (void) pthread_attr_destroy(&tattr); if (!smbd.s_shutting_down) smbd_fatal_error("TCP listener thread terminated unexpectedly"); (void) mutex_lock(&listener_mutex); smbd.s_tcp_listener_running = B_FALSE; (void) cond_broadcast(&listener_cv); (void) mutex_unlock(&listener_mutex); return (NULL); } /* * Enable libumem debugging by default on DEBUG builds. */ #ifdef DEBUG const char * _umem_debug_init(void) { return ("default,verbose"); /* $UMEM_DEBUG setting */ } const char * _umem_logging_init(void) { return ("fail,contents"); /* $UMEM_LOGGING setting */ } #endif