/* Copyright (C) 2009 Jiri Moskovcak (jmoskovc@redhat.com) Copyright (C) 2009 RedHat inc. 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., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ #if HAVE_LOCALE_H # include #endif #include #include #include #include /* res_init */ #include #include #include /* ioctl(FIONREAD) */ #include #include #include #include "abrtlib.h" #include "abrt_exception.h" #include "CrashWatcher.h" #include "Daemon.h" using namespace std; #define VAR_RUN_LOCK_FILE VAR_RUN"/abrt/abrtd.lock" #define VAR_RUN_PIDFILE VAR_RUN"/abrtd.pid" #define SOCKET_FILE VAR_RUN"/abrt/abrt.socket" #define SOCKET_PERMISSION 0666 /* Maximum number of simultaneously opened client connections. */ #define MAX_CLIENT_COUNT 10 /* Daemon initializes, then sits in glib main loop, waiting for events. * Events can be: * - inotify: something new appeared under /var/spool/abrt * - DBus: dbus message arrived * - signal: we got SIGTERM or SIGINT * * DBus methods we have: * - GetCrashInfos(): returns a vector_map_crash_data_t (vector_map_vector_string_t) * of crashes for given uid * v[N]["executable"/"uid"/"kernel"/"backtrace"][N] = "contents" * - StartJob(crash_id,force): starts creating a report for /var/spool/abrt/DIR with this UID:UUID. * Returns job id (uint64). * After thread returns, when report creation thread has finished, * JobDone() dbus signal is emitted. * - CreateReport(crash_id): returns map_crash_data_t (map_vector_string_t) * - Report(map_crash_data_t (map_vector_string_t[, map_map_string_t])): * "Please report this crash": calls Report() of all registered reporter plugins. * Returns report_status_t (map_vector_string_t) - the status of each call. * 2nd parameter is the contents of user's abrt.conf. * - DeleteDebugDump(crash_id): delete it from DB and delete corresponding /var/spool/abrt/DIR * - GetPluginsInfo(): returns map_map_string_t * map["plugin"] = { "Name": "plugin", "Enabled": "yes" ... } * - GetPluginSettings(PluginName): returns map_plugin_settings_t (map_string_t) * - SetPluginSettings(PluginName, map_plugin_settings_t): returns void * - RegisterPlugin(PluginName): returns void * - UnRegisterPlugin(PluginName): returns void * - GetSettings(): returns map_abrt_settings_t (map_map_string_t) * - SetSettings(map_abrt_settings_t): returns void * * DBus signals we emit: * - Crash(progname, crash_id, uid) - a new crash occurred (new /var/spool/abrt/DIR is found) * - JobDone(client_dbus_ID) - see StartJob above. * Sent as unicast to the client which did StartJob. * - Warning(msg) * - Update(msg) * Both are sent as unicast to last client set by set_client_name(name). * If set_client_name(NULL) was done, they are not sent. */ CCommLayerServer* g_pCommLayer; static bool daemonize = true; static volatile sig_atomic_t s_sig_caught; static int s_signal_pipe[2]; static int s_signal_pipe_write = -1; static int s_upload_watch = -1; static unsigned s_timeout; static bool s_exiting; static GIOChannel *socket_channel = NULL; static guint socket_channel_cb_id = 0; static int socket_client_count = 0; /* Helpers */ static guint add_watch_or_die(GIOChannel *channel, unsigned condition, GIOFunc func) { errno = 0; guint r = g_io_add_watch(channel, (GIOCondition)condition, func, NULL); if (!r) perror_msg_and_die("g_io_add_watch failed"); return r; } /* Socket handling */ /* Callback called by glib main loop when a client connects to ABRT's socket. */ static gboolean server_socket_cb(GIOChannel *source, GIOCondition condition, gpointer ptr_unused) { /* Check the limit for number of simultaneously attached clients. */ if (socket_client_count >= MAX_CLIENT_COUNT) { error_msg("Too many clients, refusing connections to '%s'", SOCKET_FILE); /* To avoid infinite loop caused by the descriptor in "ready" state, * the callback must be disabled. * It is added back in client_free(). */ g_source_remove(socket_channel_cb_id); socket_channel_cb_id = 0; return TRUE; } int socket = accept(g_io_channel_unix_get_fd(source), NULL, NULL); if (socket == -1) { perror_msg("accept"); return TRUE; } log("New client connected"); pid_t pid = fork(); if (pid < 0) { perror_msg("fork"); close(socket); return TRUE; } if (pid == 0) /* child */ { xmove_fd(socket, 0); xdup2(0, 1); char *argv[3]; /* abrt-server [-s] NULL */ char **pp = argv; *pp++ = (char*)"abrt-server"; if (logmode & LOGMODE_SYSLOG) *pp++ = (char*)"-s"; *pp = NULL; execvp(argv[0], argv); perror_msg_and_die("Can't execute '%s'", argv[0]); } /* parent */ socket_client_count++; close(socket); return TRUE; } /* Initializes the dump socket, usually in /var/run directory * (the path depends on compile-time configuration). */ static void dumpsocket_init() { unlink(SOCKET_FILE); /* not caring about the result */ int socketfd = xsocket(AF_UNIX, SOCK_STREAM, 0); close_on_exec_on(socketfd); struct sockaddr_un local; memset(&local, 0, sizeof(local)); local.sun_family = AF_UNIX; strcpy(local.sun_path, SOCKET_FILE); xbind(socketfd, (struct sockaddr*)&local, sizeof(local)); xlisten(socketfd, MAX_CLIENT_COUNT); if (chmod(SOCKET_FILE, SOCKET_PERMISSION) != 0) perror_msg_and_die("chmod '%s'", SOCKET_FILE); socket_channel = g_io_channel_unix_new(socketfd); g_io_channel_set_close_on_unref(socket_channel, TRUE); socket_channel_cb_id = add_watch_or_die(socket_channel, G_IO_IN | G_IO_PRI, server_socket_cb); } /* Releases all resources used by dumpsocket. */ static void dumpsocket_shutdown() { /* Set everything to pre-initialization state. */ if (socket_channel) { /* Undo add_watch_or_die */ g_source_remove(socket_channel_cb_id); /* Undo g_io_channel_unix_new */ g_io_channel_unref(socket_channel); socket_channel = NULL; } } /* Cron handling */ typedef struct cron_callback_data_t { std::string m_sPluginName; std::string m_sPluginArgs; unsigned int m_nTimeout; cron_callback_data_t( const std::string& pPluginName, const std::string& pPluginArgs, const unsigned int& pTimeout) : m_sPluginName(pPluginName), m_sPluginArgs(pPluginArgs), m_nTimeout(pTimeout) {} } cron_callback_data_t; static void cron_delete_callback_data_cb(gpointer data) { cron_callback_data_t* cronDeleteCallbackData = static_cast(data); delete cronDeleteCallbackData; } static gboolean cron_activation_periodic_cb(gpointer data) { cron_callback_data_t* cronPeriodicCallbackData = static_cast(data); VERB1 log("Activating plugin: %s", cronPeriodicCallbackData->m_sPluginName.c_str()); RunAction(DEBUG_DUMPS_DIR, cronPeriodicCallbackData->m_sPluginName.c_str(), cronPeriodicCallbackData->m_sPluginArgs.c_str() ); return TRUE; } static gboolean cron_activation_one_cb(gpointer data) { cron_callback_data_t* cronOneCallbackData = static_cast(data); VERB1 log("Activating plugin: %s", cronOneCallbackData->m_sPluginName.c_str()); RunAction(DEBUG_DUMPS_DIR, cronOneCallbackData->m_sPluginName.c_str(), cronOneCallbackData->m_sPluginArgs.c_str() ); return FALSE; } static gboolean cron_activation_reshedule_cb(gpointer data) { cron_callback_data_t* cronResheduleCallbackData = static_cast(data); VERB1 log("Rescheduling plugin: %s", cronResheduleCallbackData->m_sPluginName.c_str()); cron_callback_data_t* cronPeriodicCallbackData = new cron_callback_data_t(cronResheduleCallbackData->m_sPluginName, cronResheduleCallbackData->m_sPluginArgs, cronResheduleCallbackData->m_nTimeout); g_timeout_add_seconds_full(G_PRIORITY_DEFAULT, cronPeriodicCallbackData->m_nTimeout, cron_activation_periodic_cb, static_cast(cronPeriodicCallbackData), cron_delete_callback_data_cb ); return FALSE; } static int SetUpMW() { VERB1 log("Adding actions or reporters"); vector_pair_string_string_t::iterator it_ar = g_settings_vectorActionsAndReporters.begin(); for (; it_ar != g_settings_vectorActionsAndReporters.end(); it_ar++) { AddActionOrReporter(it_ar->first.c_str(), it_ar->second.c_str()); } VERB1 log("Adding analyzers, actions or reporters"); map_analyzer_actions_and_reporters_t::iterator it_aar = g_settings_mapAnalyzerActionsAndReporters.begin(); for (; it_aar != g_settings_mapAnalyzerActionsAndReporters.end(); it_aar++) { vector_pair_string_string_t::iterator it_ar = it_aar->second.begin(); for (; it_ar != it_aar->second.end(); it_ar++) { AddAnalyzerActionOrReporter(it_aar->first.c_str(), it_ar->first.c_str(), it_ar->second.c_str()); } } return 0; } static int SetUpCron() { map_cron_t::iterator it_c = g_settings_mapCron.begin(); for (; it_c != g_settings_mapCron.end(); it_c++) { std::string::size_type pos = it_c->first.find(":"); int timeout = 0; int nH = -1; int nM = -1; int nS = -1; //TODO: rewrite using good old sscanf? if (pos != std::string::npos) { std::string sH; std::string sM; sH = it_c->first.substr(0, pos); nH = xatou(sH.c_str()); nH = nH > 23 ? 23 : nH; nH = nH < 0 ? 0 : nH; timeout += nH * 60 * 60; sM = it_c->first.substr(pos + 1); nM = xatou(sM.c_str()); nM = nM > 59 ? 59 : nM; nM = nM < 0 ? 0 : nM; timeout += nM * 60; } else { std::string sS; sS = it_c->first; nS = xatou(sS.c_str()); nS = nS <= 0 ? 1 : nS; timeout = nS; } if (nS != -1) { vector_pair_string_string_t::iterator it_ar = it_c->second.begin(); for (; it_ar != it_c->second.end(); it_ar++) { cron_callback_data_t* cronPeriodicCallbackData = new cron_callback_data_t(it_ar->first, it_ar->second, timeout); g_timeout_add_seconds_full(G_PRIORITY_DEFAULT, timeout, cron_activation_periodic_cb, static_cast(cronPeriodicCallbackData), cron_delete_callback_data_cb); } } else { time_t actTime = time(NULL); struct tm locTime; localtime_r(&actTime, &locTime); locTime.tm_hour = nH; locTime.tm_min = nM; locTime.tm_sec = 0; time_t nextTime = mktime(&locTime); if (nextTime == ((time_t)-1)) { /* paranoia */ perror_msg("Can't set up cron time"); return -1; } if (actTime > nextTime) { timeout = 24*60*60 + (nextTime - actTime); } else { timeout = nextTime - actTime; } vector_pair_string_string_t::iterator it_ar = it_c->second.begin(); for (; it_ar != it_c->second.end(); it_ar++) { cron_callback_data_t* cronOneCallbackData = new cron_callback_data_t(it_ar->first, it_ar->second, timeout); g_timeout_add_seconds_full(G_PRIORITY_DEFAULT, timeout, cron_activation_one_cb, static_cast(cronOneCallbackData), cron_delete_callback_data_cb); cron_callback_data_t* cronResheduleCallbackData = new cron_callback_data_t(it_ar->first, it_ar->second, 24 * 60 * 60); g_timeout_add_seconds_full(G_PRIORITY_DEFAULT, timeout, cron_activation_reshedule_cb, static_cast(cronResheduleCallbackData), cron_delete_callback_data_cb); } } } return 0; } static void FindNewDumps(const char* pPath) { /* Get all debugdump directories in the pPath directory */ vector_string_t dirs; DIR *dp = opendir(pPath); if (dp == NULL) { perror_msg("Can't open directory '%s'", pPath); return; } struct dirent *ep; while ((ep = readdir(dp))) { if (dot_or_dotdot(ep->d_name)) continue; /* skip "." and ".." */ char *dname = concat_path_file(pPath, ep->d_name); struct stat stats; if (lstat(dname, &stats) == 0) { if (S_ISDIR(stats.st_mode)) { VERB1 log("Will check directory '%s'", ep->d_name); dirs.push_back(dname); } } free(dname); } closedir(dp); unsigned size = dirs.size(); if (size == 0) return; log("Checking for unsaved crashes (dirs to check:%u)", size); /* Get potentially non-processed debugdumps */ vector_string_t::iterator itt = dirs.begin(); for (; itt != dirs.end(); ++itt) { try { const char *dir_name = itt->c_str(); map_crash_data_t crashinfo; mw_result_t res = SaveDebugDump(dir_name, crashinfo); switch (res) { case MW_OK: /* Not VERB1: this is new, unprocessed crash dump. * Last abrtd somehow missed it - need to inform user */ log("Non-processed crash in %s, saving into database", dir_name); /* Run automatic actions and reporters on it (if we have them configured) */ RunActionsAndReporters(dir_name); break; case MW_IN_DB: /* This debugdump was found in DB, nothing else was done * by SaveDebugDump or needs to be done by us */ VERB1 log("%s is already saved in database", dir_name); break; case MW_REPORTED: /* already reported dup */ case MW_OCCURRED: /* not-yet-reported dup */ VERB1 log("Duplicate crash %s, deleting", dir_name); delete_debug_dump_dir(dir_name); break; default: log("Corrupted or bad crash %s (res:%d), deleting", dir_name, (int)res); delete_debug_dump_dir(dir_name); break; } } catch (CABRTException& e) { error_msg("%s", e.what()); } } log("Done checking for unsaved crashes"); } static int CreatePidFile() { int fd; /* JIC */ unlink(VAR_RUN_PIDFILE); /* open the pidfile */ fd = open(VAR_RUN_PIDFILE, O_WRONLY|O_CREAT|O_EXCL, 0644); if (fd >= 0) { /* write our pid to it */ char buf[sizeof(long)*3 + 2]; int len = sprintf(buf, "%lu\n", (long)getpid()); write(fd, buf, len); close(fd); return 0; } /* something went wrong */ perror_msg("Can't open '%s'", VAR_RUN_PIDFILE); return -1; } static int Lock() { int lfd = open(VAR_RUN_LOCK_FILE, O_RDWR|O_CREAT, 0640); if (lfd < 0) { perror_msg("Can't open '%s'", VAR_RUN_LOCK_FILE); return -1; } if (lockf(lfd, F_TLOCK, 0) < 0) { perror_msg("Can't lock file '%s'", VAR_RUN_LOCK_FILE); return -1; } close_on_exec_on(lfd); return 0; /* we leak opened lfd intentionally */ } static void handle_signal(int signo) { // Enable for debugging only, malloc/printf are unsafe in signal handlers //VERB3 log("Got signal %d", signo); uint8_t l_sig_caught; s_sig_caught = l_sig_caught = signo; /* Using local copy of s_sig_caught so that concurrent signal * won't change it under us */ if (s_signal_pipe_write >= 0) write(s_signal_pipe_write, &l_sig_caught, 1); } /* Signal pipe handler */ static gboolean handle_signal_cb(GIOChannel *gio, GIOCondition condition, gpointer ptr_unused) { char signo; gsize len = 0; g_io_channel_read(gio, &signo, 1, &len); if (len == 1) { /* we did receive a signal */ VERB3 log("Got signal %d through signal pipe", signo); if (signo != SIGCHLD) s_exiting = 1; else { if (socket_client_count) socket_client_count--; if (!socket_channel_cb_id) { log("Accepting connections on '%s'", SOCKET_FILE); socket_channel_cb_id = add_watch_or_die(socket_channel, G_IO_IN | G_IO_PRI, server_socket_cb); } } return TRUE; } return FALSE; } /* Inotify handler */ static gboolean handle_inotify_cb(GIOChannel *gio, GIOCondition condition, gpointer ptr_unused) { /* Default size: 128 simultaneous actions (about 1/2 meg) */ #define INOTIFY_BUF_SIZE ((sizeof(struct inotify_event) + FILENAME_MAX)*128) /* Determine how much to read (it usually is much smaller) */ /* NB: this variable _must_ be int-sized, ioctl expects that! */ int inotify_bytes = INOTIFY_BUF_SIZE; if (ioctl(g_io_channel_unix_get_fd(gio), FIONREAD, &inotify_bytes) != 0 || inotify_bytes < sizeof(struct inotify_event) || inotify_bytes > INOTIFY_BUF_SIZE ) { inotify_bytes = INOTIFY_BUF_SIZE; } VERB3 log("FIONREAD:%d", inotify_bytes); char *buf = (char*)xmalloc(inotify_bytes); errno = 0; gsize len; GIOError err = g_io_channel_read(gio, buf, inotify_bytes, &len); if (err != G_IO_ERROR_NONE) { perror_msg("Error reading inotify fd"); free(buf); return FALSE; } /* Reconstruct each event and send message to the dbus */ gsize i = 0; while (i < len) { struct inotify_event *event = (struct inotify_event *) &buf[i]; const char *name = NULL; if (event->len) name = event->name; //log("i:%d len:%d event->mask:%x IN_ISDIR:%x IN_CLOSE_WRITE:%x event->len:%d", // i, len, event->mask, IN_ISDIR, IN_CLOSE_WRITE, event->len); i += sizeof(*event) + event->len; if (event->wd == s_upload_watch) { /* Was the (presumable newly created) file closed in upload dir, * or a file moved to upload dir? */ if (!(event->mask & IN_ISDIR) && event->mask & (IN_CLOSE_WRITE|IN_MOVED_TO) && name ) { const char *ext = strrchr(name, '.'); if (ext && strcmp(ext + 1, "working") == 0) continue; const char *dir = g_settings_sWatchCrashdumpArchiveDir.c_str(); log("Detected creation of file '%s' in upload directory '%s'", name, dir); if (fork() == 0) { xchdir(dir); execlp("abrt-handle-upload", "abrt-handle-upload", DEBUG_DUMPS_DIR, dir, name, (char*)NULL); error_msg_and_die("Can't execute '%s'", "abrt-handle-upload"); } } continue; } if (!(event->mask & IN_ISDIR) || !name) { /* ignore lock files and such */ // Happens all the time during normal run //VERB3 log("File '%s' creation detected, ignoring", name); continue; } if (strcmp(strchrnul(name, '.'), ".new") == 0) { //VERB3 log("Directory '%s' creation detected, ignoring", name); continue; } log("Directory '%s' creation detected", name); if (g_settings_nMaxCrashReportsSize > 0) { char *worst_dir = NULL; while (g_settings_nMaxCrashReportsSize > 0 && get_dirsize_find_largest_dir(DEBUG_DUMPS_DIR, &worst_dir, name) / (1024*1024) >= g_settings_nMaxCrashReportsSize && worst_dir ) { log("Size of '%s' >= %u MB, deleting '%s'", DEBUG_DUMPS_DIR, g_settings_nMaxCrashReportsSize, worst_dir); g_pCommLayer->QuotaExceed(_("The size of the report exceeded the quota. Please check system's MaxCrashReportsSize value in abrt.conf.")); /* deletes both directory and DB record */ char *d = concat_path_file(DEBUG_DUMPS_DIR, worst_dir); free(worst_dir); worst_dir = NULL; DeleteDebugDump_by_dir(d); free(d); } } char *fullname = NULL; try { fullname = concat_path_file(DEBUG_DUMPS_DIR, name); /* Note: SaveDebugDump does not save crashinfo, it _fetches_ crashinfo */ map_crash_data_t crashinfo; mw_result_t res = SaveDebugDump(fullname, crashinfo); switch (res) { case MW_OK: log("New crash %s, processing", fullname); /* Run automatic actions and reporters on it (if we have them configured) */ RunActionsAndReporters(fullname); /* Fall through */ case MW_REPORTED: /* already reported dup */ case MW_OCCURRED: /* not-yet-reported dup */ { if (res != MW_OK) { const char *first = get_crash_data_item_content(crashinfo, CD_DUMPDIR).c_str(); log("Deleting crash %s (dup of %s), sending dbus signal", strrchr(fullname, '/') + 1, strrchr(first, '/') + 1); delete_debug_dump_dir(fullname); } #define fullname fullname_should_not_be_used_here const char *analyzer = get_crash_data_item_content(crashinfo, FILENAME_ANALYZER).c_str(); const char *uid_str = get_crash_data_item_content(crashinfo, CD_UID).c_str(); /* Autoreport it if configured to do so */ if (res != MW_REPORTED && analyzer_has_AutoReportUIDs(analyzer, uid_str) ) { VERB1 log("Reporting the crash automatically"); map_crash_data_t crash_report; string crash_id = ssprintf("%s:%s", uid_str, get_crash_data_item_content(crashinfo, CD_UUID).c_str()); mw_result_t crash_result = CreateCrashReport( crash_id.c_str(), /*caller_uid:*/ 0, /*force:*/ 0, crash_report ); if (crash_result == MW_OK) { map_analyzer_actions_and_reporters_t::const_iterator it = g_settings_mapAnalyzerActionsAndReporters.find(analyzer); map_analyzer_actions_and_reporters_t::const_iterator end = g_settings_mapAnalyzerActionsAndReporters.end(); if (it != end) { vector_pair_string_string_t keys = it->second; unsigned size = keys.size(); for (unsigned ii = 0; ii < size; ii++) { autoreport(keys[ii], crash_report); } } } } /* Send dbus signal */ if (analyzer_has_InformAllUsers(analyzer)) uid_str = NULL; char *crash_id = xasprintf("%s:%s", get_crash_data_item_content(crashinfo, CD_UID).c_str(), get_crash_data_item_content(crashinfo, CD_UUID).c_str() ); g_pCommLayer->Crash(get_crash_data_item_content(crashinfo, FILENAME_PACKAGE).c_str(), crash_id, uid_str); free(crash_id); break; #undef fullname } case MW_IN_DB: log("Huh, this crash is already in db?! Nothing to do"); break; case MW_CORRUPTED: case MW_GPG_ERROR: default: log("Corrupted or bad crash %s (res:%d), deleting", fullname, (int)res); delete_debug_dump_dir(fullname); break; } } catch (CABRTException& e) { error_msg("%s", e.what()); } catch (...) { free(fullname); free(buf); throw; } free(fullname); } /* while */ free(buf); return TRUE; } /* Run main loop with idle timeout. * Basically, almost like glib's g_main_run(loop) */ static void run_main_loop(GMainLoop* loop) { GMainContext *context = g_main_loop_get_context(loop); time_t old_time = 0; time_t dns_conf_hash = 0; int fds_size = 0; GPollFD *fds = NULL; while (!s_exiting) { gboolean some_ready; gint max_priority; gint timeout; gint nfds; some_ready = g_main_context_prepare(context, &max_priority); if (some_ready) g_main_context_dispatch(context); while (1) { nfds = g_main_context_query(context, max_priority, &timeout, fds, fds_size); if (nfds <= fds_size) break; fds_size = nfds + 16; /* +16: optimizing realloc frequency */ fds = (GPollFD *)xrealloc(fds, fds_size * sizeof(fds[0])); } if (s_timeout) alarm(s_timeout); g_poll(fds, nfds, timeout); if (s_timeout) alarm(0); /* res_init() makes glibc reread /etc/resolv.conf. * I'd think libc should be clever enough to do it itself * at every name resolution attempt, but no... * We need to guess ourself whether we want to do it. */ time_t now = time(NULL) >> 2; if (old_time != now) /* check once in 4 seconds */ { old_time = now; time_t hash = 0; struct stat sb; if (stat("/etc/resolv.conf", &sb) == 0) hash = sb.st_mtime; if (stat("/etc/host.conf", &sb) == 0) hash += sb.st_mtime; if (stat("/etc/hosts", &sb) == 0) hash += sb.st_mtime; if (stat("/etc/nsswitch.conf", &sb) == 0) hash += sb.st_mtime; if (dns_conf_hash != hash) { dns_conf_hash = hash; res_init(); } } some_ready = g_main_context_check(context, max_priority, fds, nfds); if (some_ready) g_main_context_dispatch(context); } free(fds); g_main_context_unref(context); } static void start_syslog_logging() { /* Open stdin to /dev/null */ xmove_fd(xopen("/dev/null", O_RDWR), STDIN_FILENO); /* We must not leave fds 0,1,2 closed. * Otherwise fprintf(stderr) dumps messages into random fds, etc. */ xdup2(STDIN_FILENO, STDOUT_FILENO); xdup2(STDIN_FILENO, STDERR_FILENO); openlog("abrtd", 0, LOG_DAEMON); logmode = LOGMODE_SYSLOG; } static void ensure_writable_dir(const char *dir, mode_t mode, const char *user) { struct stat sb; if (mkdir(dir, mode) != 0 && errno != EEXIST) perror_msg_and_die("Can't create '%s'", dir); if (stat(dir, &sb) != 0 || !S_ISDIR(sb.st_mode)) error_msg_and_die("'%s' is not a directory", dir); struct passwd *pw = getpwnam(user); if (!pw) perror_msg_and_die("Can't find user '%s'", user); if ((sb.st_uid != pw->pw_uid || sb.st_gid != pw->pw_gid) && chown(dir, pw->pw_uid, pw->pw_gid) != 0) perror_msg_and_die("Can't set owner %u:%u on '%s'", (unsigned int)pw->pw_uid, (unsigned int)pw->pw_gid, dir); if ((sb.st_mode & 07777) != mode && chmod(dir, mode) != 0) perror_msg_and_die("Can't set mode %o on '%s'", mode, dir); } static void sanitize_dump_dir_rights() { /* We can't allow everyone to create dumps: otherwise users can flood * us with thousands of bogus or malicious dumps */ /* 07000 bits are setuid, setgit, and sticky, and they must be unset */ /* 00777 bits are usual "rwxrwxrwx" access rights */ ensure_writable_dir(DEBUG_DUMPS_DIR, 0755, "abrt"); /* debuginfo cache */ ensure_writable_dir(DEBUG_INFO_DIR, 0755, "root"); /* temp dir */ ensure_writable_dir(VAR_RUN"/abrt", 0755, "root"); } int main(int argc, char** argv) { int opt; int parent_pid = getpid(); setlocale(LC_ALL, ""); #if ENABLE_NLS bindtextdomain(PACKAGE, LOCALEDIR); textdomain(PACKAGE); #endif if (getuid() != 0) error_msg_and_die("ABRT daemon must be run as root"); char *env_verbose = getenv("ABRT_VERBOSE"); if (env_verbose) g_verbose = atoi(env_verbose); while ((opt = getopt(argc, argv, "dsvt:")) != -1) { unsigned long ul; switch (opt) { case 'd': daemonize = false; break; case 's': start_syslog_logging(); break; case 'v': g_verbose++; break; case 't': char *end; errno = 0; s_timeout = ul = strtoul(optarg, &end, 0); if (errno == 0 && *end == '\0' && ul <= INT_MAX) break; /* fall through to error */ default: error_msg_and_die( "Usage: abrtd [-dsv] [-t SEC]\n" "\nOptions:" "\n\t-d\tDo not daemonize" "\n\t-s\tLog to syslog even with -d" "\n\t-t SEC\tExit after SEC seconds of inactivity" "\n\t-v\tVerbose" ); } } putenv(xasprintf("ABRT_VERBOSE=%u", g_verbose)); msg_prefix = "abrtd"; /* for log(), error_msg() and such */ xpipe(s_signal_pipe); close_on_exec_on(s_signal_pipe[0]); close_on_exec_on(s_signal_pipe[1]); signal(SIGTERM, handle_signal); signal(SIGINT, handle_signal); signal(SIGCHLD, handle_signal); if (s_timeout) signal(SIGALRM, handle_signal); /* Daemonize unless -d */ if (daemonize) { /* forking to background */ pid_t pid = fork(); if (pid < 0) { perror_msg_and_die("fork"); } if (pid > 0) { /* Parent */ /* Wait for child to notify us via SIGTERM that it feels ok */ int i = 20; /* 2 sec */ while (s_sig_caught == 0 && --i) { usleep(100 * 1000); } if (s_sig_caught == SIGTERM) { exit(0); } if (s_sig_caught) { error_msg_and_die("Failed to start: got sig %d", s_sig_caught); } error_msg_and_die("Failed to start: timeout waiting for child"); } /* Child (daemon) continues */ setsid(); /* never fails */ if (g_verbose == 0 && logmode != LOGMODE_SYSLOG) start_syslog_logging(); } GMainLoop* pMainloop = NULL; GIOChannel* channel_inotify = NULL; guint channel_inotify_event_id = 0; GIOChannel* channel_signal = NULL; guint channel_signal_event_id = 0; bool lockfile_created = false; bool pidfile_created = false; CCrashWatcher watcher; /* Initialization */ try { init_daemon_logging(&watcher); VERB1 log("Loading settings"); if (LoadSettings() != 0) throw 1; VERB1 log("Initializing XML-RPC library"); xmlrpc_env env; xmlrpc_env_init(&env); xmlrpc_client_setup_global_const(&env); if (env.fault_occurred) error_msg_and_die("XML-RPC Fault: %s(%d)", env.fault_string, env.fault_code); xmlrpc_env_clean(&env); VERB1 log("Creating glib main loop"); pMainloop = g_main_loop_new(NULL, FALSE); VERB1 log("Initializing inotify"); sanitize_dump_dir_rights(); errno = 0; int inotify_fd = inotify_init(); if (inotify_fd == -1) perror_msg_and_die("inotify_init failed"); close_on_exec_on(inotify_fd); /* Watching DEBUG_DUMPS_DIR for new files... */ if (inotify_add_watch(inotify_fd, DEBUG_DUMPS_DIR, IN_CREATE | IN_MOVED_TO) < 0) perror_msg_and_die("inotify_add_watch failed on '%s'", DEBUG_DUMPS_DIR); if (!g_settings_sWatchCrashdumpArchiveDir.empty()) { s_upload_watch = inotify_add_watch(inotify_fd, g_settings_sWatchCrashdumpArchiveDir.c_str(), IN_CLOSE_WRITE|IN_MOVED_TO); if (s_upload_watch < 0) perror_msg_and_die("inotify_add_watch failed on '%s'", g_settings_sWatchCrashdumpArchiveDir.c_str()); } VERB1 log("Adding inotify watch to glib main loop"); channel_inotify = g_io_channel_unix_new(inotify_fd); channel_inotify_event_id = g_io_add_watch(channel_inotify, G_IO_IN, handle_inotify_cb, NULL); VERB1 log("Loading plugins from "PLUGINS_LIB_DIR); g_pPluginManager = new CPluginManager(); g_pPluginManager->LoadPlugins(); if (SetUpMW() != 0) /* logging is inside */ throw 1; if (SetUpCron() != 0) throw 1; /* Add an event source which waits for INT/TERM signal */ VERB1 log("Adding signal pipe watch to glib main loop"); channel_signal = g_io_channel_unix_new(s_signal_pipe[0]); channel_signal_event_id = g_io_add_watch(channel_signal, G_IO_IN, handle_signal_cb, NULL); /* Mark the territory */ VERB1 log("Creating lock file"); if (Lock() != 0) throw 1; lockfile_created = true; VERB1 log("Creating pid file"); if (CreatePidFile() != 0) throw 1; pidfile_created = true; /* Open socket to receive new crashes. */ dumpsocket_init(); /* Note: this already may process a few dbus messages, * therefore it should be the last thing to initialize. */ VERB1 log("Initializing dbus"); g_pCommLayer = new CCommLayerServerDBus(); if (g_pCommLayer->m_init_error) throw 1; } catch (...) { /* Initialization error */ error_msg("Error while initializing daemon"); /* Inform parent that initialization failed */ if (daemonize) kill(parent_pid, SIGINT); goto cleanup; } /* Inform parent that we initialized ok */ if (daemonize) { VERB1 log("Signalling parent"); kill(parent_pid, SIGTERM); if (logmode != LOGMODE_SYSLOG) start_syslog_logging(); } /* Only now we want signal pipe to work */ s_signal_pipe_write = s_signal_pipe[1]; /* Enter the event loop */ try { /* This may take a while, therefore we don't do it in init section */ FindNewDumps(DEBUG_DUMPS_DIR); log("Init complete, entering main loop"); run_main_loop(pMainloop); } catch (CABRTException& e) { error_msg("Error: %s", e.what()); } catch (std::exception& e) { error_msg("Error: %s", e.what()); } cleanup: /* Error or INT/TERM. Clean up, in reverse order. * Take care to not undo things we did not do. */ xmlrpc_client_teardown_global_const(); dumpsocket_shutdown(); if (pidfile_created) unlink(VAR_RUN_PIDFILE); if (lockfile_created) unlink(VAR_RUN_LOCK_FILE); if (channel_signal_event_id > 0) g_source_remove(channel_signal_event_id); if (channel_signal) g_io_channel_unref(channel_signal); if (channel_inotify_event_id > 0) g_source_remove(channel_inotify_event_id); if (channel_inotify) g_io_channel_unref(channel_inotify); delete g_pCommLayer; if (g_pPluginManager) { /* This restores /proc/sys/kernel/core_pattern, among other things: */ g_pPluginManager->UnLoadPlugins(); delete g_pPluginManager; } if (pMainloop) g_main_loop_unref(pMainloop); /* Exiting */ if (s_sig_caught && s_sig_caught != SIGALRM && s_sig_caught != SIGCHLD) { error_msg_and_die("Got signal %d, exiting", s_sig_caught); signal(s_sig_caught, SIG_DFL); raise(s_sig_caught); } error_msg_and_die("Exiting"); }