/* * Copyright (c) 2009, Rambler media * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY Rambler media ''AS IS'' AND ANY * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL Rambler BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include "config.h" #include "main.h" #include "cfg_file.h" #include "util.h" #include "lmtp.h" #include "smtp.h" #include "map.h" #include "fuzzy_storage.h" #include "cfg_xml.h" #include "symbols_cache.h" #ifndef WITHOUT_PERL # include /* from the Perl distribution */ # include /* from the Perl distribution */ # ifndef PERL_IMPLICIT_CONTEXT # undef dTHXa # define dTHXa(a) # endif # include "perl.h" #elif defined(WITH_LUA) # include "lua/lua_common.h" #endif /* 2 seconds to fork new process in place of dead one */ #define SOFT_FORK_TIME 2 rspamd_hash_t *counters; static struct rspamd_worker *fork_worker (struct rspamd_main *, struct worker_conf *); static gboolean load_rspamd_config (struct config_file *cfg, gboolean init_modules); static void init_cfg_cache (struct config_file *cfg); sig_atomic_t do_restart; sig_atomic_t do_terminate; sig_atomic_t child_dead; sig_atomic_t got_alarm; #ifdef HAVE_SA_SIGINFO GQueue *signals_info; #endif static gboolean config_test; static gboolean no_fork; static gchar *cfg_name; static gchar *rspamd_user; static gchar *rspamd_group; static gchar *rspamd_pidfile; static gboolean dump_vars; static gboolean dump_cache; static gboolean is_debug; /* List of workers that are pending to start */ static GList *workers_pending = NULL; /* List of active listen sockets indexed by worker type */ static GHashTable *listen_sockets; /* Commandline options */ static GOptionEntry entries[] = { { "config-test", 't', 0, G_OPTION_ARG_NONE, &config_test, "Do config test and exit", NULL }, { "no-fork", 'f', 0, G_OPTION_ARG_NONE, &no_fork, "Do not daemonize main process", NULL }, { "config", 'c', 0, G_OPTION_ARG_STRING, &cfg_name, "Specify config file", NULL }, { "user", 'u', 0, G_OPTION_ARG_STRING, &rspamd_user, "User to run rspamd as", NULL }, { "group", 'g', 0, G_OPTION_ARG_STRING, &rspamd_group, "Group to run rspamd as", NULL }, { "pid", 'p', 0, G_OPTION_ARG_STRING, &rspamd_pidfile, "Path to pidfile", NULL }, { "dump-vars", 'V', 0, G_OPTION_ARG_NONE, &dump_vars, "Print all rspamd variables and exit", NULL }, { "dump-cache", 'C', 0, G_OPTION_ARG_NONE, &dump_cache, "Dump symbols cache stats and exit", NULL }, { "debug", 'd', 0, G_OPTION_ARG_NONE, &is_debug, "Force debug output", NULL }, { NULL, 0, 0, G_OPTION_ARG_NONE, NULL, NULL, NULL } }; #ifndef HAVE_SA_SIGINFO static void sig_handler (gint signo) #else static void sig_handler (gint signo, siginfo_t *info, void *unused) #endif { #ifdef HAVE_SA_SIGINFO siginfo_t *new_info; new_info = g_malloc (sizeof (siginfo_t)); memcpy (new_info, info, sizeof (siginfo_t)); g_queue_push_head (signals_info, new_info); #endif switch (signo) { case SIGHUP: do_restart = 1; break; case SIGINT: case SIGTERM: do_terminate = 1; break; case SIGCHLD: child_dead = 1; break; case SIGUSR1: do_reopen_log = 1; break; case SIGUSR2: /* Do nothing */ break; case SIGALRM: got_alarm = 1; break; } } #ifdef HAVE_SA_SIGINFO static const gchar * chldsigcode (gint code) { switch (code) { #ifdef CLD_EXITED case CLD_EXITED: return "Child exited normally"; case CLD_KILLED: return "Child has terminated abnormally but did not create a core file"; case CLD_DUMPED: return "Child has terminated abnormally and created a core file"; case CLD_TRAPPED: return "Traced child has trapped"; #endif default: return "Unknown reason"; } } /* Prints info about incoming signals by parsing siginfo structures */ static void print_signals_info () { siginfo_t *inf; while ((inf = g_queue_pop_head (signals_info))) { if (inf->si_signo == SIGCHLD) { msg_info ("got SIGCHLD from child: %P; reason: '%s'", inf->si_pid, chldsigcode (inf->si_code)); } else { msg_info ("got signal: '%s'; received from pid: %P; uid: %ul", g_strsignal (inf->si_signo), inf->si_pid, (gulong)inf->si_uid); } g_free (inf); } } #endif static void read_cmd_line (gint argc, gchar **argv, struct config_file *cfg) { GError *error = NULL; GOptionContext *context; context = g_option_context_new ("- run rspamd daemon"); g_option_context_set_summary (context, "Summary:\n Rspamd daemon version " RVERSION "\n Release id: " RID); g_option_context_add_main_entries (context, entries, NULL); if (!g_option_context_parse (context, &argc, &argv, &error)) { fprintf (stderr, "option parsing failed: %s\n", error->message); exit (1); } cfg->no_fork = no_fork; cfg->config_test = config_test; cfg->rspamd_user = rspamd_user; cfg->rspamd_group = rspamd_group; cfg->cfg_name = cfg_name; cfg->pid_file = rspamd_pidfile; } static void drop_priv (struct config_file *cfg) { struct passwd *pwd; struct group *grp; if (geteuid () == 0 && cfg->rspamd_user) { pwd = getpwnam (cfg->rspamd_user); if (pwd == NULL) { msg_err ("user specified does not exists (%s), aborting", strerror (errno)); exit (-errno); } if (cfg->rspamd_group) { grp = getgrnam (cfg->rspamd_group); if (grp == NULL) { msg_err ("group specified does not exists (%s), aborting", strerror (errno)); exit (-errno); } if (setgid (grp->gr_gid) == -1) { msg_err ("cannot setgid to %d (%s), aborting", (gint)grp->gr_gid, strerror (errno)); exit (-errno); } if (initgroups (cfg->rspamd_user, grp->gr_gid) == -1) { msg_err ("initgroups failed (%s), aborting", strerror (errno)); exit (-errno); } } if (setuid (pwd->pw_uid) == -1) { msg_err ("cannot setuid to %d (%s), aborting", (gint)pwd->pw_uid, strerror (errno)); exit (-errno); } } } static void config_logger (struct rspamd_main *rspamd, gboolean is_fatal) { rspamd_set_logger (rspamd->cfg->log_type, TYPE_MAIN, rspamd->cfg); if (open_log () == -1) { if (is_fatal) { fprintf (stderr, "Fatal error, cannot open logfile, exiting\n"); exit (EXIT_FAILURE); } else { msg_err ("cannot log to file, logfile unaccessable"); } } } static void reread_config (struct rspamd_main *rspamd) { struct config_file *tmp_cfg; gchar *cfg_file; GList *l; struct filter *filt; tmp_cfg = (struct config_file *)g_malloc (sizeof (struct config_file)); if (tmp_cfg) { bzero (tmp_cfg, sizeof (struct config_file)); tmp_cfg->cfg_pool = memory_pool_new (memory_pool_get_size ()); init_defaults (tmp_cfg); cfg_file = memory_pool_strdup (tmp_cfg->cfg_pool, rspamd->cfg->cfg_name); /* Save some variables */ tmp_cfg->cfg_name = cfg_file; init_lua (tmp_cfg); if (! load_rspamd_config (tmp_cfg, FALSE)) { msg_err ("cannot parse new config file, revert to old one"); free_config (tmp_cfg); } else { msg_debug ("replacing config"); free_config (rspamd->cfg); close_log (); g_free (rspamd->cfg); rspamd->cfg = tmp_cfg; /* Force debug log */ if (is_debug) { rspamd->cfg->log_level = G_LOG_LEVEL_DEBUG; } config_logger (rspamd, FALSE); /* Pre-init of cache */ rspamd->cfg->cache = g_new0 (struct symbols_cache, 1); rspamd->cfg->cache->static_pool = memory_pool_new (memory_pool_get_size ()); rspamd->cfg->cache->cfg = rspamd->cfg; /* Perform modules configuring */ l = g_list_first (rspamd->cfg->filters); while (l) { filt = l->data; if (filt->module) { (void)filt->module->module_reconfig_func (rspamd->cfg); msg_debug ("reconfig of %s", filt->module->name); } l = g_list_next (l); } init_lua_filters (rspamd->cfg); init_cfg_cache (rspamd->cfg); msg_info ("config rereaded successfully"); } } } static void set_worker_limits (struct worker_conf *cf) { struct rlimit rlmt; if (cf->rlimit_nofile != 0) { rlmt.rlim_cur = (rlim_t) cf->rlimit_nofile; rlmt.rlim_max = (rlim_t) cf->rlimit_nofile; if (setrlimit(RLIMIT_NOFILE, &rlmt) == -1) { msg_warn ("cannot set files rlimit: %d, %s", cf->rlimit_nofile, strerror (errno)); } } if (cf->rlimit_maxcore != 0) { rlmt.rlim_cur = (rlim_t) cf->rlimit_maxcore; rlmt.rlim_max = (rlim_t) cf->rlimit_maxcore; if (setrlimit(RLIMIT_CORE, &rlmt) == -1) { msg_warn ("cannot set max core rlimit: %d, %s", cf->rlimit_maxcore, strerror (errno)); } } } static struct rspamd_worker * fork_worker (struct rspamd_main *rspamd, struct worker_conf *cf) { struct rspamd_worker *cur; /* Starting worker process */ cur = (struct rspamd_worker *)g_malloc (sizeof (struct rspamd_worker)); if (cur) { bzero (cur, sizeof (struct rspamd_worker)); cur->srv = rspamd; cur->type = cf->type; cur->pid = fork (); cur->cf = g_malloc (sizeof (struct worker_conf)); cur->ctx = rspamd->workers_ctx[cf->type]; memcpy (cur->cf, cf, sizeof (struct worker_conf)); cur->pending = FALSE; switch (cur->pid) { case 0: /* Update pid for logging */ update_log_pid (cf->type); /* Drop privilleges */ drop_priv (rspamd->cfg); /* Set limits */ set_worker_limits (cf); switch (cf->type) { case TYPE_CONTROLLER: setproctitle ("controller process"); pidfile_close (rspamd->pfh); msg_info ("starting controller process %P", getpid ()); start_controller (cur); break; case TYPE_LMTP: setproctitle ("lmtp process"); pidfile_close (rspamd->pfh); msg_info ("starting lmtp process %P", getpid ()); start_lmtp_worker (cur); break; case TYPE_SMTP: setproctitle ("smtp process"); pidfile_close (rspamd->pfh); msg_info ("starting smtp process %P", getpid ()); start_smtp_worker (cur); break; case TYPE_FUZZY: setproctitle ("fuzzy storage"); pidfile_close (rspamd->pfh); msg_info ("starting fuzzy storage process %P", getpid ()); start_fuzzy_storage (cur); break; case TYPE_GREYLIST: setproctitle ("greylist storage"); pidfile_close (rspamd->pfh); msg_info ("starting greylist storage process %P", getpid ()); start_greylist_storage (cur); break; case TYPE_WORKER: default: setproctitle ("worker process"); pidfile_close (rspamd->pfh); msg_info ("starting worker process %P", getpid ()); start_worker (cur); break; } break; case -1: msg_err ("cannot fork main process. %s", strerror (errno)); pidfile_remove (rspamd->pfh); exit (-errno); break; default: /* Insert worker into worker's table, pid is index */ g_hash_table_insert (rspamd->workers, GSIZE_TO_POINTER (cur->pid), cur); break; } } return cur; } static void delay_fork (struct worker_conf *cf) { workers_pending = g_list_prepend (workers_pending, cf); (void)alarm (SOFT_FORK_TIME); } static void dump_module_variables (gpointer key, gpointer value, gpointer data) { GList *cur_opt; struct module_opt *cur; cur_opt = (GList *) value; while (cur_opt) { cur = cur_opt->data; if (cur->value) { printf ("$%s = \"%s\"\n", cur->param, cur->value); } cur_opt = g_list_next (cur_opt); } } static void dump_all_variables (gpointer key, gpointer value, gpointer data) { printf ("$%s = \"%s\"\n", (gchar *)key, (gchar *)value); } static void dump_cfg_vars (struct config_file *cfg) { g_hash_table_foreach (cfg->variables, dump_all_variables, NULL); } static gint create_listen_socket (struct in_addr *addr, gint port, gint family, gchar *path) { gint listen_sock = -1; struct sockaddr_un *un_addr; /* Create listen socket */ if (family == AF_INET) { if ((listen_sock = make_tcp_socket (addr, port, TRUE, TRUE)) == -1) { msg_err ("cannot create tcp listen socket. %s", strerror (errno)); } } else { un_addr = (struct sockaddr_un *)alloca (sizeof (struct sockaddr_un)); if (!un_addr || (listen_sock = make_unix_socket (path, un_addr, TRUE)) == -1) { msg_err ("cannot create unix listen socket. %s", strerror (errno)); } } if (listen_sock != -1) { if (listen (listen_sock, -1) == -1) { msg_err ("cannot listen on socket. %s", strerror (errno)); } } return listen_sock; } static void fork_delayed (struct rspamd_main *rspamd) { GList *cur; struct worker_conf *cf; while (workers_pending != NULL) { cur = workers_pending; cf = cur->data; workers_pending = g_list_remove_link (workers_pending, cur); fork_worker (rspamd, cf); g_list_free_1 (cur); } } static inline uintptr_t make_listen_key (struct in_addr *addr, gint port, gint family, gchar *path) { uintptr_t res = 0; gchar *key; if (family == AF_INET) { /* Make fnv hash from bytes of addr and port */ key = (gchar *)&addr->s_addr; while (key - (gchar *)&addr->s_addr < sizeof (addr->s_addr)) { res ^= (gchar)*key++; res += (res << 1) + (res << 4) + (res << 7) + (res << 8) + (res << 24); } key = (gchar *)&port; while (key - (gchar *)&port < sizeof (addr->s_addr)) { res ^= (gchar)*key++; res += (res << 1) + (res << 4) + (res << 7) + (res << 8) + (res << 24); } } else { /* Make fnv hash from bytes of path */ key = path; while (*key) { res ^= (gchar)*key++; res += (res << 1) + (res << 4) + (res << 7) + (res << 8) + (res << 24); } } return res; } static void spawn_workers (struct rspamd_main *rspamd) { GList *cur; struct worker_conf *cf; gint i, listen_sock; gpointer p; cur = rspamd->cfg->workers; while (cur) { cf = cur->data; if (cf->has_socket) { if ((p = g_hash_table_lookup (listen_sockets, GINT_TO_POINTER ( make_listen_key (&cf->bind_addr, cf->bind_port, cf->bind_family, cf->bind_host)))) == NULL) { /* Create listen socket */ listen_sock = create_listen_socket (&cf->bind_addr, cf->bind_port, cf->bind_family, cf->bind_host); if (listen_sock == -1) { exit (-errno); } g_hash_table_insert (listen_sockets, GINT_TO_POINTER ( make_listen_key (&cf->bind_addr, cf->bind_port, cf->bind_family, cf->bind_host)), GINT_TO_POINTER (listen_sock)); } else { /* We had socket for this type of worker */ listen_sock = GPOINTER_TO_INT (p); } cf->listen_sock = listen_sock; } if (cf->type == TYPE_FUZZY || cf->type == TYPE_GREYLIST) { if (cf->count > 1) { msg_err ("cannot spawn more than 1 fuzzy storage worker, so spawn one"); } fork_worker (rspamd, cf); } else { for (i = 0; i < cf->count; i++) { fork_worker (rspamd, cf); } } cur = g_list_next (cur); } } static void kill_old_workers (gpointer key, gpointer value, gpointer unused) { struct rspamd_worker *w = value; kill (w->pid, SIGUSR2); msg_info ("send signal to worker %P", w->pid); } static gboolean wait_for_workers (gpointer key, gpointer value, gpointer unused) { struct rspamd_worker *w = value; gint res = 0; waitpid (w->pid, &res, 0); msg_debug ("%s process %P terminated", process_to_str (w->type), w->pid); g_free (w->cf); g_free (w); return TRUE; } static void reopen_log_handler (gpointer key, gpointer value, gpointer unused) { struct rspamd_worker *w = value; if (kill (w->pid, SIGUSR1) == -1) { msg_err ("kill failed for pid %P: %s", w->pid, strerror (errno)); } } #if 0 /* XXX: remove this as it is unused now */ static gboolean convert_old_config (struct rspamd_main *rspamd) { FILE *f; f = fopen (rspamd->cfg->cfg_name, "r"); if (f == NULL) { msg_err ("cannot open file: %s", rspamd->cfg->cfg_name); return EBADF; } yyin = f; yacc_cfg = rspamd->cfg; if (yyparse () != 0 || yynerrs > 0) { msg_err ("cannot parse config file, %d errors", yynerrs); return EBADF; } /* Strictly set temp dir */ if (!rspamd->cfg->temp_dir) { msg_warn ("tempdir is not set, trying to use $TMPDIR"); rspamd->cfg->temp_dir = memory_pool_strdup (rspamd->cfg->cfg_pool, getenv ("TMPDIR")); if (!rspamd->cfg->temp_dir) { msg_warn ("$TMPDIR is empty too, using /tmp as default"); rspamd->cfg->temp_dir = memory_pool_strdup (rspamd->cfg->cfg_pool, "/tmp"); } } fclose (f); /* Dump it to xml */ if (get_config_checksum (rspamd->cfg)) { if (xml_dump_config (rspamd->cfg, convert_config)) { rspamd->cfg->cfg_name = convert_config; return TRUE; } } return FALSE; } #endif static gboolean load_rspamd_config (struct config_file *cfg, gboolean init_modules) { GList *l; struct filter *filt; struct module_ctx *cur_module = NULL; if (! read_xml_config (cfg, cfg->cfg_name)) { return FALSE; } /* Strictly set temp dir */ if (!cfg->temp_dir) { msg_warn ("tempdir is not set, trying to use $TMPDIR"); cfg->temp_dir = memory_pool_strdup (cfg->cfg_pool, getenv ("TMPDIR")); if (!cfg->temp_dir) { msg_warn ("$TMPDIR is empty too, using /tmp as default"); cfg->temp_dir = memory_pool_strdup (cfg->cfg_pool, "/tmp"); } } /* Do post-load actions */ post_load_config (cfg); if (init_modules) { /* Init C modules */ l = g_list_first (cfg->filters); while (l) { filt = l->data; if (filt->module) { cur_module = memory_pool_alloc (cfg->cfg_pool, sizeof (struct module_ctx)); if (filt->module->module_init_func (cfg, &cur_module) == 0) { g_hash_table_insert (cfg->c_modules, (gpointer) filt->module->name, cur_module); } } l = g_list_next (l); } } return TRUE; } static void init_cfg_cache (struct config_file *cfg) { if (!init_symbols_cache (cfg->cfg_pool, cfg->cache, cfg, cfg->cache_filename)) { exit (EXIT_FAILURE); } } static void print_symbols_cache (struct config_file *cfg) { GList *cur; struct cache_item *item; gint i; if (!init_symbols_cache (cfg->cfg_pool, cfg->cache, cfg, cfg->cache_filename)) { exit (EXIT_FAILURE); } if (cfg->cache) { printf ("Symbols cache\n"); printf ("-----------------------------------------------------------------\n"); printf ("| Pri | Symbol | Weight | Frequency | Avg. time |\n"); i = 0; cur = cfg->cache->negative_items; while (cur) { item = cur->data; if (!item->is_callback) { printf ("-----------------------------------------------------------------\n"); printf ("| %3d | %22s | %6.1f | %9d | %9.3f |\n", i, item->s->symbol, item->s->weight, item->s->frequency, item->s->avg_time); } cur = g_list_next (cur); i ++; } cur = cfg->cache->static_items; while (cur) { item = cur->data; if (!item->is_callback) { printf ("-----------------------------------------------------------------\n"); printf ("| %3d | %22s | %6.1f | %9d | %9.3f |\n", i, item->s->symbol, item->s->weight, item->s->frequency, item->s->avg_time); } cur = g_list_next (cur); i ++; } printf ("-----------------------------------------------------------------\n"); } } static void init_workers_ctx (struct rspamd_main *main) { main->workers_ctx[TYPE_WORKER] = init_worker (); main->workers_ctx[TYPE_CONTROLLER] = init_controller (); main->workers_ctx[TYPE_FUZZY] = init_fuzzy_storage (); main->workers_ctx[TYPE_SMTP] = init_smtp_worker (); } gint main (gint argc, gchar **argv, gchar **env) { struct rspamd_main *rspamd; gint res = 0; struct sigaction signals; struct rspamd_worker *cur; struct rlimit rlim; struct filter *filt; pid_t wrk; GList *l; #ifdef HAVE_SA_SIGINFO signals_info = g_queue_new (); #endif rspamd = (struct rspamd_main *)g_malloc (sizeof (struct rspamd_main)); bzero (rspamd, sizeof (struct rspamd_main)); rspamd->server_pool = memory_pool_new (memory_pool_get_size ()); rspamd->cfg = (struct config_file *)g_malloc (sizeof (struct config_file)); if (!rspamd || !rspamd->cfg) { fprintf (stderr, "Cannot allocate memory\n"); exit (-errno); } do_terminate = 0; do_restart = 0; child_dead = 0; do_reopen_log = 0; #ifndef HAVE_SETPROCTITLE init_title (argc, argv, env); #endif rspamd->stat = memory_pool_alloc_shared (rspamd->server_pool, sizeof (struct rspamd_stat)); bzero (rspamd->stat, sizeof (struct rspamd_stat)); bzero (rspamd->cfg, sizeof (struct config_file)); rspamd->cfg->cfg_pool = memory_pool_new (memory_pool_get_size ()); init_defaults (rspamd->cfg); bzero (&signals, sizeof (struct sigaction)); read_cmd_line (argc, argv, rspamd->cfg); if (rspamd->cfg->cfg_name == NULL) { rspamd->cfg->cfg_name = FIXED_CONFIG_FILE; } if (rspamd->cfg->config_test || is_debug) { rspamd->cfg->log_level = G_LOG_LEVEL_DEBUG; } else { rspamd->cfg->log_level = G_LOG_LEVEL_CRITICAL; } #ifdef HAVE_SETLOCALE /* Set locale setting to C locale to avoid problems in future */ setlocale (LC_ALL, "C"); setlocale (LC_CTYPE, "C"); setlocale (LC_MESSAGES, "C"); setlocale (LC_TIME, "C"); #endif /* First set logger to console logger */ rspamd_set_logger (RSPAMD_LOG_CONSOLE, TYPE_MAIN, rspamd->cfg); (void)open_log (); g_log_set_default_handler (rspamd_glib_log_function, rspamd->cfg); init_lua (rspamd->cfg); /* Init counters */ counters = rspamd_hash_new_shared (rspamd->server_pool, g_str_hash, g_str_equal, 64); /* Init listen sockets hash */ listen_sockets = g_hash_table_new (g_direct_hash, g_direct_equal); /* Init contextes */ init_workers_ctx (rspamd); /* Init classifiers options */ register_classifier_opt ("bayes", "min_tokens"); register_classifier_opt ("winnow", "min_tokens"); register_classifier_opt ("winnow", "learn_threshold"); /* Pre-init of cache */ rspamd->cfg->cache = g_new0 (struct symbols_cache, 1); rspamd->cfg->cache->static_pool = memory_pool_new (memory_pool_get_size ()); rspamd->cfg->cache->cfg = rspamd->cfg; /* Load config */ if (! load_rspamd_config (rspamd->cfg, TRUE)) { exit (EXIT_FAILURE); } /* Force debug log */ if (is_debug) { rspamd->cfg->log_level = G_LOG_LEVEL_DEBUG; } if (rspamd->cfg->config_test || dump_vars || dump_cache) { /* Init events to test modules */ event_init (); res = TRUE; if (! init_lua_filters (rspamd->cfg)) { res = FALSE; } if (!check_modules_config (rspamd->cfg)) { res = FALSE; } /* Perform modules configuring */ l = g_list_first (rspamd->cfg->filters); while (l) { filt = l->data; if (filt->module) { if (!filt->module->module_config_func (rspamd->cfg)) { res = FALSE; } } l = g_list_next (l); } /* Insert classifiers symbols */ (void)insert_classifier_symbols (rspamd->cfg); if (! validate_cache (rspamd->cfg->cache, rspamd->cfg, TRUE)) { res = FALSE; } if (dump_vars) { dump_cfg_vars (rspamd->cfg); } if (dump_cache) { print_symbols_cache (rspamd->cfg); exit (EXIT_SUCCESS); } fprintf (stderr, "syntax %s\n", res ? "OK" : "BAD"); return res ? EXIT_SUCCESS : EXIT_FAILURE; } /* Set stack size for pcre */ getrlimit (RLIMIT_STACK, &rlim); rlim.rlim_cur = 100 * 1024 * 1024; setrlimit (RLIMIT_STACK, &rlim); config_logger (rspamd, TRUE); msg_info ("rspamd " RVERSION " is starting, build id: " RID); rspamd->cfg->cfg_name = memory_pool_strdup (rspamd->cfg->cfg_pool, rspamd->cfg->cfg_name); /* Daemonize */ if (!rspamd->cfg->no_fork && daemon (0, 0) == -1) { fprintf (stderr, "Cannot daemonize\n"); exit (-errno); } /* Write info */ rspamd->pid = getpid (); rspamd->type = TYPE_MAIN; init_signals (&signals, sig_handler); if (write_pid (rspamd) == -1) { msg_err ("cannot write pid file %s", rspamd->cfg->pid_file); exit (-errno); } /* Block signals to use sigsuspend in future */ sigprocmask (SIG_BLOCK, &signals.sa_mask, NULL); setproctitle ("main process"); /* Init statfile pool */ rspamd->statfile_pool = statfile_pool_new (rspamd->server_pool, rspamd->cfg->max_statfile_size); event_init (); g_mime_init (0); /* Init lua filters */ if (! init_lua_filters (rspamd->cfg)) { msg_err ("error loading lua plugins"); exit (EXIT_FAILURE); } /* Check configuration for modules */ (void)check_modules_config (rspamd->cfg); /* Insert classifiers symbols */ (void)insert_classifier_symbols (rspamd->cfg); /* Perform modules configuring */ l = g_list_first (rspamd->cfg->filters); while (l) { filt = l->data; if (filt->module) { if (!filt->module->module_config_func (rspamd->cfg)) { res = FALSE; } } l = g_list_next (l); } /* Init config cache */ init_cfg_cache (rspamd->cfg); /* Validate cache */ (void)validate_cache (rspamd->cfg->cache, rspamd->cfg, FALSE); /* Flush log */ flush_log_buf (); /* Spawn workers */ rspamd->workers = g_hash_table_new (g_direct_hash, g_direct_equal); spawn_workers (rspamd); /* Signal processing cycle */ for (;;) { msg_debug ("calling sigsuspend"); sigemptyset (&signals.sa_mask); sigsuspend (&signals.sa_mask); #ifdef HAVE_SA_SIGINFO print_signals_info (); #endif if (do_terminate) { msg_debug ("catch termination signal, waiting for childs"); pass_signal_worker (rspamd->workers, SIGTERM); break; } if (child_dead) { child_dead = 0; msg_debug ("catch SIGCHLD signal, finding terminated worker"); /* Remove dead child form childs list */ wrk = waitpid (0, &res, 0); if ((cur = g_hash_table_lookup (rspamd->workers, GSIZE_TO_POINTER (wrk))) != NULL) { /* Unlink dead process from queue and hash table */ g_hash_table_remove (rspamd->workers, GSIZE_TO_POINTER (wrk)); if (WIFEXITED (res) && WEXITSTATUS (res) == 0) { /* Normal worker termination, do not fork one more */ msg_info ("%s process %P terminated normally", process_to_str (cur->type), cur->pid); } else { if (WIFSIGNALED (res)) { msg_warn ("%s process %P terminated abnormally by signal: %d", process_to_str (cur->type), cur->pid, WTERMSIG (res)); } else { msg_warn ("%s process %P terminated abnormally", process_to_str (cur->type), cur->pid); } /* Fork another worker in replace of dead one */ delay_fork (cur->cf); } g_free (cur); } else { msg_err ("got SIGCHLD, but pid %P is not found in workers hash table, something goes wrong", wrk); } } if (do_restart) { do_restart = 0; reopen_log (); msg_info ("rspamd " RVERSION " is restarting"); g_hash_table_foreach (rspamd->workers, kill_old_workers, NULL); remove_all_maps (); reread_config (rspamd); spawn_workers (rspamd); } if (do_reopen_log) { do_reopen_log = 0; reopen_log (); g_hash_table_foreach (rspamd->workers, reopen_log_handler, NULL); } if (got_alarm) { got_alarm = 0; fork_delayed (rspamd); } } /* Wait for workers termination */ g_hash_table_foreach_remove (rspamd->workers, wait_for_workers, NULL); msg_info ("terminating..."); statfile_pool_delete (rspamd->statfile_pool); close_log (); free_config (rspamd->cfg); g_free (rspamd->cfg); g_free (rspamd); return (res); } /* * vi:ts=4 */