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path: root/src/libserver/worker_util.c
blob: 74a3cf887530d9552818d98d8d4d913bd0d0068a (plain)
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/*
 * Copyright 2023 Vsevolod Stakhov
 *
 * Licensed under the Apache License, Version 2.0 (the "License");
 * you may not use this file except in compliance with the License.
 * You may obtain a copy of the License at
 *
 *    http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */
#include "config.h"
#include "rspamd.h"
#include "lua/lua_common.h"
#include "worker_util.h"
#include "unix-std.h"
#include "utlist.h"
#include "ottery.h"
#include "rspamd_control.h"
#include "libserver/maps/map.h"
#include "libserver/maps/map_private.h"
#include "libserver/http/http_private.h"
#include "libserver/http/http_router.h"
#include "libutil/rrd.h"

/* sys/resource.h */
#ifdef HAVE_SYS_RESOURCE_H
#include <sys/resource.h>
#endif
/* pwd and grp */
#ifdef HAVE_PWD_H
#include <pwd.h>
#endif
#ifdef HAVE_GRP_H
#include <grp.h>
#endif
#ifdef HAVE_LIBUTIL_H
#include <libutil.h>
#endif
#include "zlib.h"

#ifdef HAVE_UCONTEXT_H
#include <ucontext.h>
#elif defined(HAVE_SYS_UCONTEXT_H)
#include <sys/ucontext.h>
#endif

#ifdef HAVE_SYS_WAIT_H
#include <sys/wait.h>
#include <math.h>

#endif

#include "contrib/libev/ev.h"
#include "libstat/stat_api.h"

struct rspamd_worker *rspamd_current_worker = NULL;

/* Forward declaration */
static void rspamd_worker_heartbeat_start(struct rspamd_worker *,
										  struct ev_loop *);

static void rspamd_worker_ignore_signal(struct rspamd_worker_signal_handler *);
/**
 * Return worker's control structure by its type
 * @param type
 * @return worker's control structure or NULL
 */
worker_t *
rspamd_get_worker_by_type(struct rspamd_config *cfg, GQuark type)
{
	worker_t **pwrk;

	pwrk = cfg->compiled_workers;
	while (pwrk && *pwrk) {
		if (rspamd_check_worker(cfg, *pwrk)) {
			if (g_quark_from_string((*pwrk)->name) == type) {
				return *pwrk;
			}
		}

		pwrk++;
	}

	return NULL;
}

static void
rspamd_worker_check_finished(EV_P_ ev_timer *w, int revents)
{
	int *pnchecks = (int *) w->data;

	if (*pnchecks > SOFT_SHUTDOWN_TIME * 10) {
		msg_warn("terminating worker before finishing of terminate handlers");
		ev_break(EV_A_ EVBREAK_ONE);
	}
	else {
		int refcount = ev_active_cnt(EV_A);

		if (refcount == 1) {
			ev_break(EV_A_ EVBREAK_ONE);
		}
		else {
			ev_timer_again(EV_A_ w);
		}
	}
}

static gboolean
rspamd_worker_finalize(gpointer user_data)
{
	struct rspamd_task *task = user_data;

	if (!(task->flags & RSPAMD_TASK_FLAG_PROCESSING)) {
		msg_info_task("finishing actions has been processed, terminating");
		/* ev_break (task->event_loop, EVBREAK_ALL); */
		task->worker->state = rspamd_worker_wanna_die;
		rspamd_session_destroy(task->s);

		return TRUE;
	}

	return FALSE;
}

gboolean
rspamd_worker_call_finish_handlers(struct rspamd_worker *worker)
{
	struct rspamd_task *task;
	struct rspamd_config *cfg = worker->srv->cfg;
	struct rspamd_abstract_worker_ctx *ctx;
	struct rspamd_config_cfg_lua_script *sc;

	if (cfg->on_term_scripts) {
		ctx = (struct rspamd_abstract_worker_ctx *) worker->ctx;
		/* Create a fake task object for async events */
		task = rspamd_task_new(worker, cfg, NULL, NULL, ctx->event_loop, FALSE);
		task->resolver = ctx->resolver;
		task->flags |= RSPAMD_TASK_FLAG_PROCESSING;
		task->s = rspamd_session_create(task->task_pool,
										rspamd_worker_finalize,
										NULL,
										(event_finalizer_t) rspamd_task_free,
										task);

		DL_FOREACH(cfg->on_term_scripts, sc)
		{
			lua_call_finish_script(sc, task);
		}

		task->flags &= ~RSPAMD_TASK_FLAG_PROCESSING;

		if (rspamd_session_pending(task->s)) {
			return TRUE;
		}
	}

	return FALSE;
}

static void
rspamd_worker_terminate_handlers(struct rspamd_worker *w)
{
	if (w->nconns == 0 &&
		(!(w->flags & RSPAMD_WORKER_SCANNER) || w->srv->cfg->on_term_scripts == NULL)) {
		/*
		 * We are here either:
		 * - No active connections are represented
		 * - No term scripts are registered
		 * - Worker is not a scanner, so it can die safely
		 */
		w->state = rspamd_worker_wanna_die;
	}
	else {
		if (w->nconns > 0) {
			/*
			 * Wait until all connections are terminated
			 */
			w->state = rspamd_worker_wait_connections;
		}
		else {
			/*
			 * Start finish scripts
			 */
			if (w->state != rspamd_worker_wait_final_scripts) {
				w->state = rspamd_worker_wait_final_scripts;

				if ((w->flags & RSPAMD_WORKER_SCANNER) &&
					rspamd_worker_call_finish_handlers(w)) {
					msg_info("performing async finishing actions");
					w->state = rspamd_worker_wait_final_scripts;
				}
				else {
					/*
					 * We are done now
					 */
					msg_info("no async finishing actions, terminating");
					w->state = rspamd_worker_wanna_die;
				}
			}
		}
	}
}

static void
rspamd_worker_on_delayed_shutdown(EV_P_ ev_timer *w, int revents)
{
	struct rspamd_worker *worker = (struct rspamd_worker *) w->data;

	worker->state = rspamd_worker_wanna_die;
	ev_timer_stop(EV_A_ w);
	ev_break(loop, EVBREAK_ALL);
}

static void
rspamd_worker_shutdown_check(EV_P_ ev_timer *w, int revents)
{
	struct rspamd_worker *worker = (struct rspamd_worker *) w->data;

	if (worker->state != rspamd_worker_wanna_die) {
		rspamd_worker_terminate_handlers(worker);

		if (worker->state == rspamd_worker_wanna_die) {
			/* We are done, kill event loop */
			ev_timer_stop(EV_A_ w);
			ev_break(EV_A_ EVBREAK_ALL);
		}
		else {
			/* Try again later */
			ev_timer_again(EV_A_ w);
		}
	}
	else {
		ev_timer_stop(EV_A_ w);
		ev_break(EV_A_ EVBREAK_ALL);
	}
}

/*
 * Config reload is designed by sending sigusr2 to active workers and pending shutdown of them
 */
static gboolean
rspamd_worker_usr2_handler(struct rspamd_worker_signal_handler *sigh, void *arg)
{
	/* Do not accept new connections, preparing to end worker's process */
	if (sigh->worker->state == rspamd_worker_state_running) {
		static ev_timer shutdown_ev, shutdown_check_ev;
		ev_tstamp shutdown_ts;

		if (sigh->worker->flags & RSPAMD_WORKER_NO_TERMINATE_DELAY) {
			shutdown_ts = 0.0;
		}
		else {
			shutdown_ts = MAX(SOFT_SHUTDOWN_TIME,
							  sigh->worker->srv->cfg->task_timeout * 2.0);
		}

		rspamd_worker_ignore_signal(sigh);
		sigh->worker->state = rspamd_worker_state_terminating;

		rspamd_default_log_function(G_LOG_LEVEL_INFO,
									sigh->worker->srv->server_pool->tag.tagname,
									sigh->worker->srv->server_pool->tag.uid,
									G_STRFUNC,
									"worker's shutdown is pending in %.2f sec",
									shutdown_ts);

		/* Soft shutdown timer */
		shutdown_ev.data = sigh->worker;
		ev_timer_init(&shutdown_ev, rspamd_worker_on_delayed_shutdown,
					  shutdown_ts, 0.0);
		ev_timer_start(sigh->event_loop, &shutdown_ev);

		if (!(sigh->worker->flags & RSPAMD_WORKER_NO_TERMINATE_DELAY)) {
			/* This timer checks if we are ready to die and is called frequently */
			shutdown_check_ev.data = sigh->worker;
			ev_timer_init(&shutdown_check_ev, rspamd_worker_shutdown_check,
						  0.5, 0.5);
			ev_timer_start(sigh->event_loop, &shutdown_check_ev);
		}

		rspamd_worker_stop_accept(sigh->worker);
	}

	/* No more signals */
	return FALSE;
}

/*
 * Reopen log is designed by sending sigusr1 to active workers and pending shutdown of them
 */
static gboolean
rspamd_worker_usr1_handler(struct rspamd_worker_signal_handler *sigh, void *arg)
{
	struct rspamd_main *rspamd_main = sigh->worker->srv;

	rspamd_log_reopen(sigh->worker->srv->logger, rspamd_main->cfg, -1, -1);
	msg_info_main("logging reinitialised");

	/* Get more signals */
	return TRUE;
}

static gboolean
rspamd_worker_term_handler(struct rspamd_worker_signal_handler *sigh, void *arg)
{
	if (sigh->worker->state == rspamd_worker_state_running) {
		static ev_timer shutdown_ev, shutdown_check_ev;
		ev_tstamp shutdown_ts;

		if (sigh->worker->flags & RSPAMD_WORKER_NO_TERMINATE_DELAY) {
			shutdown_ts = 0.0;
		}
		else {
			shutdown_ts = MAX(SOFT_SHUTDOWN_TIME,
							  sigh->worker->srv->cfg->task_timeout * 2.0);
		}

		rspamd_worker_ignore_signal(sigh);
		sigh->worker->state = rspamd_worker_state_terminating;
		rspamd_default_log_function(G_LOG_LEVEL_INFO,
									sigh->worker->srv->server_pool->tag.tagname,
									sigh->worker->srv->server_pool->tag.uid,
									G_STRFUNC,
									"terminating after receiving signal %s",
									g_strsignal(sigh->signo));

		rspamd_worker_stop_accept(sigh->worker);
		rspamd_worker_terminate_handlers(sigh->worker);

		/* Check if we are ready to die */
		if (sigh->worker->state != rspamd_worker_wanna_die) {
			/* This timer is called when we have no choices but to die */
			shutdown_ev.data = sigh->worker;
			ev_timer_init(&shutdown_ev, rspamd_worker_on_delayed_shutdown,
						  shutdown_ts, 0.0);
			ev_timer_start(sigh->event_loop, &shutdown_ev);

			if (!(sigh->worker->flags & RSPAMD_WORKER_NO_TERMINATE_DELAY)) {
				/* This timer checks if we are ready to die and is called frequently */
				shutdown_check_ev.data = sigh->worker;
				ev_timer_init(&shutdown_check_ev, rspamd_worker_shutdown_check,
							  0.5, 0.5);
				ev_timer_start(sigh->event_loop, &shutdown_check_ev);
			}
		}
		else {
			/* Flag to die has been already set */
			ev_break(sigh->event_loop, EVBREAK_ALL);
		}
	}

	/* Stop reacting on signals */
	return FALSE;
}

static void
rspamd_worker_signal_handle(EV_P_ ev_signal *w, int revents)
{
	struct rspamd_worker_signal_handler *sigh =
		(struct rspamd_worker_signal_handler *) w->data;
	struct rspamd_worker_signal_handler_elt *cb, *cbtmp;

	/* Call all signal handlers registered */
	DL_FOREACH_SAFE(sigh->cb, cb, cbtmp)
	{
		if (!cb->handler(sigh, cb->handler_data)) {
			DL_DELETE(sigh->cb, cb);
			g_free(cb);
		}
	}
}

static void
rspamd_worker_ignore_signal(struct rspamd_worker_signal_handler *sigh)
{
	sigset_t set;

	ev_signal_stop(sigh->event_loop, &sigh->ev_sig);
	sigemptyset(&set);
	sigaddset(&set, sigh->signo);
	sigprocmask(SIG_BLOCK, &set, NULL);
}

static void
rspamd_worker_default_signal(int signo)
{
	struct sigaction sig;

	sigemptyset(&sig.sa_mask);
	sigaddset(&sig.sa_mask, signo);
	sig.sa_handler = SIG_DFL;
	sig.sa_flags = 0;
	sigaction(signo, &sig, NULL);
}

static void
rspamd_sigh_free(void *p)
{
	struct rspamd_worker_signal_handler *sigh = p;
	struct rspamd_worker_signal_handler_elt *cb, *tmp;

	DL_FOREACH_SAFE(sigh->cb, cb, tmp)
	{
		DL_DELETE(sigh->cb, cb);
		g_free(cb);
	}

	ev_signal_stop(sigh->event_loop, &sigh->ev_sig);
	rspamd_worker_default_signal(sigh->signo);
	g_free(sigh);
}

void rspamd_worker_set_signal_handler(int signo, struct rspamd_worker *worker,
									  struct ev_loop *event_loop,
									  rspamd_worker_signal_cb_t handler,
									  void *handler_data)
{
	struct rspamd_worker_signal_handler *sigh;
	struct rspamd_worker_signal_handler_elt *cb;

	sigh = g_hash_table_lookup(worker->signal_events, GINT_TO_POINTER(signo));

	if (sigh == NULL) {
		sigh = g_malloc0(sizeof(*sigh));
		sigh->signo = signo;
		sigh->worker = worker;
		sigh->event_loop = event_loop;
		sigh->enabled = TRUE;

		sigh->ev_sig.data = sigh;
		ev_signal_init(&sigh->ev_sig, rspamd_worker_signal_handle, signo);
		ev_signal_start(event_loop, &sigh->ev_sig);

		g_hash_table_insert(worker->signal_events,
							GINT_TO_POINTER(signo),
							sigh);
	}

	cb = g_malloc0(sizeof(*cb));
	cb->handler = handler;
	cb->handler_data = handler_data;
	DL_APPEND(sigh->cb, cb);
}

void rspamd_worker_init_signals(struct rspamd_worker *worker,
								struct ev_loop *event_loop)
{
	/* A set of terminating signals */
	rspamd_worker_set_signal_handler(SIGTERM, worker, event_loop,
									 rspamd_worker_term_handler, NULL);
	rspamd_worker_set_signal_handler(SIGINT, worker, event_loop,
									 rspamd_worker_term_handler, NULL);
	rspamd_worker_set_signal_handler(SIGHUP, worker, event_loop,
									 rspamd_worker_term_handler, NULL);

	/* Special purpose signals */
	rspamd_worker_set_signal_handler(SIGUSR1, worker, event_loop,
									 rspamd_worker_usr1_handler, NULL);
	rspamd_worker_set_signal_handler(SIGUSR2, worker, event_loop,
									 rspamd_worker_usr2_handler, NULL);
}


struct ev_loop *
rspamd_prepare_worker(struct rspamd_worker *worker, const char *name,
					  rspamd_accept_handler hdl)
{
	struct ev_loop *event_loop;
	GList *cur;
	struct rspamd_worker_listen_socket *ls;
	struct rspamd_worker_accept_event *accept_ev;

	worker->signal_events = g_hash_table_new_full(g_direct_hash, g_direct_equal,
												  NULL, rspamd_sigh_free);

	event_loop = ev_loop_new(rspamd_config_ev_backend_get(worker->srv->cfg));

	worker->srv->event_loop = event_loop;

	rspamd_worker_init_signals(worker, event_loop);
	rspamd_control_worker_add_default_cmd_handlers(worker, event_loop);
	rspamd_worker_heartbeat_start(worker, event_loop);
	rspamd_redis_pool_config(worker->srv->cfg->redis_pool,
							 worker->srv->cfg, event_loop);

	/* Accept all sockets */
	if (hdl) {
		cur = worker->cf->listen_socks;

		while (cur) {
			ls = cur->data;

			if (ls->fd != -1) {
				accept_ev = g_malloc0(sizeof(*accept_ev));
				accept_ev->event_loop = event_loop;
				accept_ev->accept_ev.data = worker;
				ev_io_init(&accept_ev->accept_ev, hdl, ls->fd, EV_READ);
				ev_io_start(event_loop, &accept_ev->accept_ev);

				DL_APPEND(worker->accept_events, accept_ev);
			}

			cur = g_list_next(cur);
		}
	}

	return event_loop;
}

void rspamd_worker_stop_accept(struct rspamd_worker *worker)
{
	struct rspamd_worker_accept_event *cur, *tmp;

	/* Remove all events */
	DL_FOREACH_SAFE(worker->accept_events, cur, tmp)
	{

		if (ev_can_stop(&cur->accept_ev)) {
			ev_io_stop(cur->event_loop, &cur->accept_ev);
		}


		if (ev_can_stop(&cur->throttling_ev)) {
			ev_timer_stop(cur->event_loop, &cur->throttling_ev);
		}

		g_free(cur);
	}

	/* XXX: we need to do it much later */
#if 0
	g_hash_table_iter_init (&it, worker->signal_events);

	while (g_hash_table_iter_next (&it, &k, &v)) {
		sigh = (struct rspamd_worker_signal_handler *)v;
		g_hash_table_iter_steal (&it);

		if (sigh->enabled) {
			event_del (&sigh->ev);
		}

		g_free (sigh);
	}

	g_hash_table_unref (worker->signal_events);
#endif
}

static rspamd_fstring_t *
rspamd_controller_maybe_compress(struct rspamd_http_connection_entry *entry,
								 rspamd_fstring_t *buf, struct rspamd_http_message *msg)
{
	if (entry->support_gzip) {
		if (rspamd_fstring_gzip(&buf)) {
			rspamd_http_message_add_header(msg, "Content-Encoding", "gzip");
		}
	}

	return buf;
}

void rspamd_controller_send_error(struct rspamd_http_connection_entry *entry,
								  gint code, const gchar *error_msg, ...)
{
	struct rspamd_http_message *msg;
	va_list args;
	rspamd_fstring_t *reply;

	msg = rspamd_http_new_message(HTTP_RESPONSE);

	va_start(args, error_msg);
	msg->status = rspamd_fstring_new();
	rspamd_vprintf_fstring(&msg->status, error_msg, args);
	va_end(args);

	msg->date = time(NULL);
	msg->code = code;
	reply = rspamd_fstring_sized_new(msg->status->len + 16);
	rspamd_printf_fstring(&reply, "{\"error\":\"%V\"}", msg->status);
	rspamd_http_message_set_body_from_fstring_steal(msg,
													rspamd_controller_maybe_compress(entry, reply, msg));
	rspamd_http_connection_reset(entry->conn);
	rspamd_http_router_insert_headers(entry->rt, msg);
	rspamd_http_connection_write_message(entry->conn,
										 msg,
										 NULL,
										 "application/json",
										 entry,
										 entry->rt->timeout);
	entry->is_reply = TRUE;
}

void rspamd_controller_send_openmetrics(struct rspamd_http_connection_entry *entry,
										rspamd_fstring_t *str)
{
	struct rspamd_http_message *msg;

	msg = rspamd_http_new_message(HTTP_RESPONSE);
	msg->date = time(NULL);
	msg->code = 200;
	msg->status = rspamd_fstring_new_init("OK", 2);

	rspamd_http_message_set_body_from_fstring_steal(msg,
													rspamd_controller_maybe_compress(entry, str, msg));
	rspamd_http_connection_reset(entry->conn);
	rspamd_http_router_insert_headers(entry->rt, msg);
	rspamd_http_connection_write_message(entry->conn,
										 msg,
										 NULL,
										 "application/openmetrics-text; version=1.0.0; charset=utf-8",
										 entry,
										 entry->rt->timeout);
	entry->is_reply = TRUE;
}

void rspamd_controller_send_string(struct rspamd_http_connection_entry *entry,
								   const gchar *str)
{
	struct rspamd_http_message *msg;
	rspamd_fstring_t *reply;

	msg = rspamd_http_new_message(HTTP_RESPONSE);
	msg->date = time(NULL);
	msg->code = 200;
	msg->status = rspamd_fstring_new_init("OK", 2);

	if (str) {
		reply = rspamd_fstring_new_init(str, strlen(str));
	}
	else {
		reply = rspamd_fstring_new_init("null", 4);
	}

	rspamd_http_message_set_body_from_fstring_steal(msg,
													rspamd_controller_maybe_compress(entry, reply, msg));
	rspamd_http_connection_reset(entry->conn);
	rspamd_http_router_insert_headers(entry->rt, msg);
	rspamd_http_connection_write_message(entry->conn,
										 msg,
										 NULL,
										 "application/json",
										 entry,
										 entry->rt->timeout);
	entry->is_reply = TRUE;
}

void rspamd_controller_send_ucl(struct rspamd_http_connection_entry *entry,
								ucl_object_t *obj)
{
	struct rspamd_http_message *msg;
	rspamd_fstring_t *reply;

	msg = rspamd_http_new_message(HTTP_RESPONSE);
	msg->date = time(NULL);
	msg->code = 200;
	msg->status = rspamd_fstring_new_init("OK", 2);
	reply = rspamd_fstring_sized_new(BUFSIZ);
	rspamd_ucl_emit_fstring(obj, UCL_EMIT_JSON_COMPACT, &reply);
	rspamd_http_message_set_body_from_fstring_steal(msg,
													rspamd_controller_maybe_compress(entry, reply, msg));
	rspamd_http_connection_reset(entry->conn);
	rspamd_http_router_insert_headers(entry->rt, msg);
	rspamd_http_connection_write_message(entry->conn,
										 msg,
										 NULL,
										 "application/json",
										 entry,
										 entry->rt->timeout);
	entry->is_reply = TRUE;
}

static void
rspamd_worker_drop_priv(struct rspamd_main *rspamd_main)
{
	if (rspamd_main->is_privileged) {
		if (setgid(rspamd_main->workers_gid) == -1) {
			msg_err_main("cannot setgid to %d (%s), aborting",
						 (gint) rspamd_main->workers_gid,
						 strerror(errno));
			exit(-errno);
		}

		if (rspamd_main->cfg->rspamd_user &&
			initgroups(rspamd_main->cfg->rspamd_user,
					   rspamd_main->workers_gid) == -1) {
			msg_err_main("initgroups failed (%s), aborting", strerror(errno));
			exit(-errno);
		}

		if (setuid(rspamd_main->workers_uid) == -1) {
			msg_err_main("cannot setuid to %d (%s), aborting",
						 (gint) rspamd_main->workers_uid,
						 strerror(errno));
			exit(-errno);
		}
	}
}

static void
rspamd_worker_set_limits(struct rspamd_main *rspamd_main,
						 struct rspamd_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_main("cannot set files rlimit: %L, %s",
						  cf->rlimit_nofile,
						  strerror(errno));
		}

		memset(&rlmt, 0, sizeof(rlmt));

		if (getrlimit(RLIMIT_NOFILE, &rlmt) == -1) {
			msg_warn_main("cannot get max files rlimit: %HL, %s",
						  cf->rlimit_maxcore,
						  strerror(errno));
		}
		else {
			msg_info_main("set max file descriptors limit: %HL cur and %HL max",
						  (guint64) rlmt.rlim_cur,
						  (guint64) rlmt.rlim_max);
		}
	}
	else {
		/* Just report */
		if (getrlimit(RLIMIT_NOFILE, &rlmt) == -1) {
			msg_warn_main("cannot get max files rlimit: %HL, %s",
						  cf->rlimit_maxcore,
						  strerror(errno));
		}
		else {
			msg_info_main("use system max file descriptors limit: %HL cur and %HL max",
						  (guint64) rlmt.rlim_cur,
						  (guint64) rlmt.rlim_max);
		}
	}

	if (rspamd_main->cores_throttling) {
		msg_info_main("disable core files for the new worker as limits are reached");
		rlmt.rlim_cur = 0;
		rlmt.rlim_max = 0;

		if (setrlimit(RLIMIT_CORE, &rlmt) == -1) {
			msg_warn_main("cannot disable core dumps: error when setting limits: %s",
						  strerror(errno));
		}
	}
	else {
		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_main("cannot set max core size limit: %HL, %s",
							  cf->rlimit_maxcore,
							  strerror(errno));
			}

			/* Ensure that we did it */
			memset(&rlmt, 0, sizeof(rlmt));

			if (getrlimit(RLIMIT_CORE, &rlmt) == -1) {
				msg_warn_main("cannot get max core size rlimit: %HL, %s",
							  cf->rlimit_maxcore,
							  strerror(errno));
			}
			else {
				if (rlmt.rlim_cur != cf->rlimit_maxcore ||
					rlmt.rlim_max != cf->rlimit_maxcore) {
					msg_warn_main("setting of core file limits was unsuccessful: "
								  "%HL was wanted, "
								  "but we have %HL cur and %HL max",
								  cf->rlimit_maxcore,
								  (guint64) rlmt.rlim_cur,
								  (guint64) rlmt.rlim_max);
				}
				else {
					msg_info_main("set max core size limit: %HL cur and %HL max",
								  (guint64) rlmt.rlim_cur,
								  (guint64) rlmt.rlim_max);
				}
			}
		}
		else {
			/* Just report */
			if (getrlimit(RLIMIT_CORE, &rlmt) == -1) {
				msg_warn_main("cannot get max core size limit: %HL, %s",
							  cf->rlimit_maxcore,
							  strerror(errno));
			}
			else {
				msg_info_main("use system max core size limit: %HL cur and %HL max",
							  (guint64) rlmt.rlim_cur,
							  (guint64) rlmt.rlim_max);
			}
		}
	}
}

static void
rspamd_worker_on_term(EV_P_ ev_child *w, int revents)
{
	struct rspamd_worker *wrk = (struct rspamd_worker *) w->data;

	if (wrk->ppid == getpid()) {
		if (wrk->term_handler) {
			wrk->term_handler(EV_A_ w, wrk->srv, wrk);
		}
		else {
			rspamd_check_termination_clause(wrk->srv, wrk, w->rstatus);
		}
	}
	else {
		/* Ignore SIGCHLD for not our children... */
	}
}

static void
rspamd_worker_heartbeat_cb(EV_P_ ev_timer *w, int revents)
{
	struct rspamd_worker *wrk = (struct rspamd_worker *) w->data;
	struct rspamd_srv_command cmd;

	memset(&cmd, 0, sizeof(cmd));
	cmd.type = RSPAMD_SRV_HEARTBEAT;
	rspamd_srv_send_command(wrk, EV_A, &cmd, -1, NULL, NULL);
}

static void
rspamd_worker_heartbeat_start(struct rspamd_worker *wrk, struct ev_loop *event_loop)
{
	wrk->hb.heartbeat_ev.data = (void *) wrk;
	ev_timer_init(&wrk->hb.heartbeat_ev, rspamd_worker_heartbeat_cb,
				  0.0, wrk->srv->cfg->heartbeat_interval);
	ev_timer_start(event_loop, &wrk->hb.heartbeat_ev);
}

static void
rspamd_main_heartbeat_cb(EV_P_ ev_timer *w, int revents)
{
	struct rspamd_worker *wrk = (struct rspamd_worker *) w->data;
	gdouble time_from_last = ev_time();
	struct rspamd_main *rspamd_main;
	static struct rspamd_control_command cmd;
	struct tm tm;
	gchar timebuf[64];
	gchar usec_buf[16];
	gint r;

	time_from_last -= wrk->hb.last_event;
	rspamd_main = wrk->srv;

	if (wrk->hb.last_event > 0 &&
		time_from_last > 0 &&
		time_from_last >= rspamd_main->cfg->heartbeat_interval * 2) {

		rspamd_localtime(wrk->hb.last_event, &tm);
		r = strftime(timebuf, sizeof(timebuf), "%F %H:%M:%S", &tm);
		rspamd_snprintf(usec_buf, sizeof(usec_buf), "%.5f",
						wrk->hb.last_event - (gdouble) (time_t) wrk->hb.last_event);
		rspamd_snprintf(timebuf + r, sizeof(timebuf) - r,
						"%s", usec_buf + 1);

		if (wrk->hb.nbeats > 0) {
			/* First time lost event */
			cmd.type = RSPAMD_CONTROL_CHILD_CHANGE;
			cmd.cmd.child_change.what = rspamd_child_offline;
			cmd.cmd.child_change.pid = wrk->pid;
			rspamd_control_broadcast_srv_cmd(rspamd_main, &cmd, wrk->pid);
			msg_warn_main("lost heartbeat from worker type %s with pid %P, "
						  "last beat on: %s (%L beats received previously)",
						  g_quark_to_string(wrk->type), wrk->pid,
						  timebuf,
						  wrk->hb.nbeats);
			wrk->hb.nbeats = -1;
			/* TODO: send notify about worker problem */
		}
		else {
			wrk->hb.nbeats--;
			msg_warn_main("lost %L heartbeat from worker type %s with pid %P, "
						  "last beat on: %s",
						  -(wrk->hb.nbeats),
						  g_quark_to_string(wrk->type),
						  wrk->pid,
						  timebuf);

			if (rspamd_main->cfg->heartbeats_loss_max > 0 &&
				-(wrk->hb.nbeats) >= rspamd_main->cfg->heartbeats_loss_max) {


				if (-(wrk->hb.nbeats) > rspamd_main->cfg->heartbeats_loss_max + 1) {
					msg_err_main("force kill worker type %s with pid %P, "
								 "last beat on: %s; %L heartbeat lost",
								 g_quark_to_string(wrk->type),
								 wrk->pid,
								 timebuf,
								 -(wrk->hb.nbeats));
					kill(wrk->pid, SIGKILL);
				}
				else {
					msg_err_main("terminate worker type %s with pid %P, "
								 "last beat on: %s; %L heartbeat lost",
								 g_quark_to_string(wrk->type),
								 wrk->pid,
								 timebuf,
								 -(wrk->hb.nbeats));
					kill(wrk->pid, SIGTERM);
				}
			}
		}
	}
	else if (wrk->hb.nbeats < 0) {
		rspamd_localtime(wrk->hb.last_event, &tm);
		r = strftime(timebuf, sizeof(timebuf), "%F %H:%M:%S", &tm);
		rspamd_snprintf(usec_buf, sizeof(usec_buf), "%.5f",
						wrk->hb.last_event - (gdouble) (time_t) wrk->hb.last_event);
		rspamd_snprintf(timebuf + r, sizeof(timebuf) - r,
						"%s", usec_buf + 1);

		cmd.type = RSPAMD_CONTROL_CHILD_CHANGE;
		cmd.cmd.child_change.what = rspamd_child_online;
		cmd.cmd.child_change.pid = wrk->pid;
		rspamd_control_broadcast_srv_cmd(rspamd_main, &cmd, wrk->pid);
		msg_info_main("received heartbeat from worker type %s with pid %P, "
					  "last beat on: %s (%L beats lost previously)",
					  g_quark_to_string(wrk->type), wrk->pid,
					  timebuf,
					  -(wrk->hb.nbeats));
		wrk->hb.nbeats = 1;
		/* TODO: send notify about worker restoration */
	}
}

static void
rspamd_main_heartbeat_start(struct rspamd_worker *wrk, struct ev_loop *event_loop)
{
	wrk->hb.heartbeat_ev.data = (void *) wrk;
	ev_timer_init(&wrk->hb.heartbeat_ev, rspamd_main_heartbeat_cb,
				  0.0, wrk->srv->cfg->heartbeat_interval * 2);
	ev_timer_start(event_loop, &wrk->hb.heartbeat_ev);
}

static bool
rspamd_maybe_reuseport_socket(struct rspamd_worker_listen_socket *ls)
{
	if (ls->is_systemd) {
		/* No need to reuseport */
		return true;
	}

	if (ls->fd != -1 && rspamd_inet_address_get_af(ls->addr) == AF_UNIX) {
		/* Just try listen */

		if (listen(ls->fd, -1) == -1) {
			return false;
		}

		return true;
	}

#if defined(SO_REUSEPORT) && defined(SO_REUSEADDR) && defined(LINUX)
	gint nfd = -1;

	if (ls->type == RSPAMD_WORKER_SOCKET_UDP) {
		nfd = rspamd_inet_address_listen(ls->addr,
										 (ls->type == RSPAMD_WORKER_SOCKET_UDP ? SOCK_DGRAM : SOCK_STREAM),
										 RSPAMD_INET_ADDRESS_LISTEN_ASYNC | RSPAMD_INET_ADDRESS_LISTEN_REUSEPORT,
										 -1);

		if (nfd == -1) {
			msg_warn("cannot create reuseport listen socket for %d: %s",
					 ls->fd, strerror(errno));
			nfd = ls->fd;
		}
		else {
			if (ls->fd != -1) {
				close(ls->fd);
			}
			ls->fd = nfd;
			nfd = -1;
		}
	}
	else {
		/*
		 * Reuseport is broken with the current architecture, so it is easier not
		 * to use it at all
		 */
		nfd = ls->fd;
	}
#endif

#if 0
	/* This needed merely if we have reuseport for tcp, but for now it is disabled */
	/* This means that we have an fd with no listening enabled */
	if (nfd != -1) {
		if (ls->type == RSPAMD_WORKER_SOCKET_TCP) {
			if (listen (nfd, -1) == -1) {
				return false;
			}
		}
	}
#endif

	return true;
}

/**
 * Handles worker after fork returned zero
 * @param wrk
 * @param rspamd_main
 * @param cf
 * @param listen_sockets
 */
static void __attribute__((noreturn))
rspamd_handle_child_fork(struct rspamd_worker *wrk,
						 struct rspamd_main *rspamd_main,
						 struct rspamd_worker_conf *cf,
						 GHashTable *listen_sockets)
{
	gint rc;
	struct rlimit rlim;

	/* Update pid for logging */
	rspamd_log_on_fork(cf->type, rspamd_main->cfg, rspamd_main->logger);
	wrk->pid = getpid();

	/* Init PRNG after fork */
	rc = ottery_init(rspamd_main->cfg->libs_ctx->ottery_cfg);
	if (rc != OTTERY_ERR_NONE) {
		msg_err_main("cannot initialize PRNG: %d", rc);
		abort();
	}

	rspamd_random_seed_fast();
#ifdef HAVE_EVUTIL_RNG_INIT
	evutil_secure_rng_init();
#endif

	/*
	 * Libev stores all signals in a global table, so
	 * previous handlers must be explicitly detached and forgotten
	 * before starting a new loop
	 */
	ev_signal_stop(rspamd_main->event_loop, &rspamd_main->int_ev);
	ev_signal_stop(rspamd_main->event_loop, &rspamd_main->term_ev);
	ev_signal_stop(rspamd_main->event_loop, &rspamd_main->hup_ev);
	ev_signal_stop(rspamd_main->event_loop, &rspamd_main->usr1_ev);
	/* Remove the inherited event base */
	ev_loop_destroy(rspamd_main->event_loop);
	rspamd_main->event_loop = NULL;

	/* Close unused sockets */
	GHashTableIter it;
	gpointer k, v;


	g_hash_table_iter_init(&it, listen_sockets);

	/*
	 * Close listen sockets of not our process (inherited from other forks)
	 */
	while (g_hash_table_iter_next(&it, &k, &v)) {
		GList *elt = (GList *) v;
		GList *our = cf->listen_socks;

		if (g_list_position(our, elt) == -1) {
			GList *cur = elt;

			while (cur) {
				struct rspamd_worker_listen_socket *ls =
					(struct rspamd_worker_listen_socket *) cur->data;

				if (ls->fd != -1 && close(ls->fd) == -1) {
					msg_err("cannot close fd %d (addr = %s): %s",
							ls->fd,
							rspamd_inet_address_to_string_pretty(ls->addr),
							strerror(errno));
				}

				ls->fd = -1;

				cur = g_list_next(cur);
			}
		}
	}

	/* Reuseport before dropping privs */
	GList *cur = cf->listen_socks;

	while (cur) {
		struct rspamd_worker_listen_socket *ls =
			(struct rspamd_worker_listen_socket *) cur->data;

		if (!rspamd_maybe_reuseport_socket(ls)) {
			msg_err("cannot listen on socket %s: %s",
					rspamd_inet_address_to_string_pretty(ls->addr),
					strerror(errno));
		}

		cur = g_list_next(cur);
	}

	/* Drop privileges */
	rspamd_worker_drop_priv(rspamd_main);
	/* Set limits */
	rspamd_worker_set_limits(rspamd_main, cf);
	/* Re-set stack limit */
	getrlimit(RLIMIT_STACK, &rlim);
	rlim.rlim_cur = 100 * 1024 * 1024;
	rlim.rlim_max = rlim.rlim_cur;
	setrlimit(RLIMIT_STACK, &rlim);

	if (cf->bind_conf) {
		rspamd_setproctitle("%s process (%s)", cf->worker->name,
							cf->bind_conf->bind_line);
	}
	else {
		rspamd_setproctitle("%s process", cf->worker->name);
	}

	if (rspamd_main->pfh) {
		rspamd_pidfile_close(rspamd_main->pfh);
	}

	if (rspamd_main->cfg->log_silent_workers) {
		rspamd_log_set_log_level(rspamd_main->logger, G_LOG_LEVEL_MESSAGE);
	}

	wrk->start_time = rspamd_get_calendar_ticks();

	if (cf->bind_conf) {
		GString *listen_conf_stringified = g_string_new(NULL);
		struct rspamd_worker_bind_conf *cur_conf;

		LL_FOREACH(cf->bind_conf, cur_conf)
		{
			if (cur_conf->next) {
				rspamd_printf_gstring(listen_conf_stringified, "%s, ",
									  cur_conf->bind_line);
			}
			else {
				rspamd_printf_gstring(listen_conf_stringified, "%s",
									  cur_conf->bind_line);
			}
		}

		msg_info_main("starting %s process %P (%d); listen on: %v",
					  cf->worker->name,
					  getpid(), wrk->index, listen_conf_stringified);
		g_string_free(listen_conf_stringified, TRUE);
	}
	else {
		msg_info_main("starting %s process %P (%d); no listen",
					  cf->worker->name,
					  getpid(), wrk->index);
	}
	/* Close parent part of socketpair */
	close(wrk->control_pipe[0]);
	close(wrk->srv_pipe[0]);
	/*
	 * Read comments in `rspamd_handle_main_fork` for details why these channel
	 * is blocking.
	 */
	rspamd_socket_nonblocking(wrk->control_pipe[1]);
#if 0
	rspamd_socket_nonblocking (wrk->srv_pipe[1]);
#endif
	rspamd_main->cfg->cur_worker = wrk;
	/* Execute worker (this function should not return normally!) */
	cf->worker->worker_start_func(wrk);
	/* To distinguish from normal termination */
	exit(EXIT_FAILURE);
}

static void
rspamd_handle_main_fork(struct rspamd_worker *wrk,
						struct rspamd_main *rspamd_main,
						struct rspamd_worker_conf *cf,
						struct ev_loop *ev_base)
{
	/* Close worker part of socketpair */
	close(wrk->control_pipe[1]);
	close(wrk->srv_pipe[1]);

	/*
	 * There are no reasons why control pipes are blocking: the messages
	 * there are rare and are strictly bounded by command sizes, so if we block
	 * on some pipe, it is ok, as we still poll that for all operations.
	 * It is also impossible to block on writing in normal conditions.
	 * And if the conditions are not normal, e.g. a worker is unresponsive, then
	 * we can safely think that the non-blocking behaviour as it is implemented
	 * currently will not make things better, as it would lead to incomplete
	 * reads/writes that are not handled anyhow and are totally broken from the
	 * beginning.
	 */
#if 0
	rspamd_socket_nonblocking (wrk->srv_pipe[0]);
#endif
	rspamd_socket_nonblocking(wrk->control_pipe[0]);

	rspamd_srv_start_watching(rspamd_main, wrk, ev_base);
	/* Child event */
	wrk->cld_ev.data = wrk;
	ev_child_init(&wrk->cld_ev, rspamd_worker_on_term, wrk->pid, 0);
	ev_child_start(rspamd_main->event_loop, &wrk->cld_ev);
	/* Heartbeats */
	rspamd_main_heartbeat_start(wrk, rspamd_main->event_loop);
	/* Insert worker into worker's table, pid is index */
	g_hash_table_insert(rspamd_main->workers,
						GSIZE_TO_POINTER(wrk->pid), wrk);

#if defined(SO_REUSEPORT) && defined(SO_REUSEADDR) && defined(LINUX)
	/*
	 * Close listen sockets in the main process once a child is handling them,
	 * if we have reuseport
	 */
	GList *cur = cf->listen_socks;

	while (cur) {
		struct rspamd_worker_listen_socket *ls =
			(struct rspamd_worker_listen_socket *) cur->data;

		if (ls->fd != -1 && ls->type == RSPAMD_WORKER_SOCKET_UDP) {
			close(ls->fd);
			ls->fd = -1;
		}

		cur = g_list_next(cur);
	}
#endif
}

#ifndef SOCK_SEQPACKET
#define SOCK_SEQPACKET SOCK_DGRAM
#endif
struct rspamd_worker *
rspamd_fork_worker(struct rspamd_main *rspamd_main,
				   struct rspamd_worker_conf *cf,
				   guint index,
				   struct ev_loop *ev_base,
				   rspamd_worker_term_cb term_handler,
				   GHashTable *listen_sockets)
{
	struct rspamd_worker *wrk;

	/* Starting worker process */
	wrk = (struct rspamd_worker *) g_malloc0(sizeof(struct rspamd_worker));

	if (!rspamd_socketpair(wrk->control_pipe, SOCK_SEQPACKET)) {
		msg_err("socketpair failure: %s", strerror(errno));
		rspamd_hard_terminate(rspamd_main);
	}

	if (!rspamd_socketpair(wrk->srv_pipe, SOCK_SEQPACKET)) {
		msg_err("socketpair failure: %s", strerror(errno));
		rspamd_hard_terminate(rspamd_main);
	}

	if (cf->bind_conf) {
		msg_info_main("prepare to fork process %s (%d); listen on: %s",
					  cf->worker->name,
					  index, cf->bind_conf->name);
	}
	else {
		msg_info_main("prepare to fork process %s (%d), no bind socket",
					  cf->worker->name,
					  index);
	}

	wrk->srv = rspamd_main;
	wrk->type = cf->type;
	wrk->cf = cf;
	wrk->flags = cf->worker->flags;
	REF_RETAIN(cf);
	wrk->index = index;
	wrk->ctx = cf->ctx;
	wrk->ppid = getpid();
	wrk->pid = fork();
	wrk->cores_throttled = rspamd_main->cores_throttling;
	wrk->term_handler = term_handler;
	wrk->control_events_pending = g_hash_table_new_full(g_direct_hash, g_direct_equal,
														NULL, rspamd_pending_control_free);

	switch (wrk->pid) {
	case 0:
		rspamd_current_worker = wrk;
		rspamd_handle_child_fork(wrk, rspamd_main, cf, listen_sockets);
		break;
	case -1:
		msg_err_main("cannot fork main process: %s", strerror(errno));

		if (rspamd_main->pfh) {
			rspamd_pidfile_remove(rspamd_main->pfh);
		}

		rspamd_hard_terminate(rspamd_main);
		break;
	default:
		rspamd_handle_main_fork(wrk, rspamd_main, cf, ev_base);
		break;
	}

	return wrk;
}

void rspamd_worker_block_signals(void)
{
	sigset_t set;

	sigemptyset(&set);
	sigaddset(&set, SIGTERM);
	sigaddset(&set, SIGINT);
	sigaddset(&set, SIGHUP);
	sigaddset(&set, SIGUSR1);
	sigaddset(&set, SIGUSR2);
	sigprocmask(SIG_BLOCK, &set, NULL);
}

void rspamd_worker_unblock_signals(void)
{
	sigset_t set;

	sigemptyset(&set);
	sigaddset(&set, SIGTERM);
	sigaddset(&set, SIGINT);
	sigaddset(&set, SIGHUP);
	sigaddset(&set, SIGUSR1);
	sigaddset(&set, SIGUSR2);
	sigprocmask(SIG_UNBLOCK, &set, NULL);
}

void rspamd_hard_terminate(struct rspamd_main *rspamd_main)
{
	GHashTableIter it;
	gpointer k, v;
	struct rspamd_worker *w;
	sigset_t set;

	/* Block all signals */
	sigemptyset(&set);
	sigaddset(&set, SIGTERM);
	sigaddset(&set, SIGINT);
	sigaddset(&set, SIGHUP);
	sigaddset(&set, SIGUSR1);
	sigaddset(&set, SIGUSR2);
	sigaddset(&set, SIGCHLD);
	sigprocmask(SIG_BLOCK, &set, NULL);

	/* We need to terminate all workers that might be already spawned */
	rspamd_worker_block_signals();
	g_hash_table_iter_init(&it, rspamd_main->workers);

	while (g_hash_table_iter_next(&it, &k, &v)) {
		w = v;
		msg_err_main("kill worker %P as Rspamd is terminating due to "
					 "an unrecoverable error",
					 w->pid);
		kill(w->pid, SIGKILL);
	}

	msg_err_main("shutting down Rspamd due to fatal error");

	rspamd_log_close(rspamd_main->logger);
	exit(EXIT_FAILURE);
}

gboolean
rspamd_worker_is_scanner(struct rspamd_worker *w)
{

	if (w) {
		return !!(w->flags & RSPAMD_WORKER_SCANNER);
	}

	return FALSE;
}

gboolean
rspamd_worker_is_primary_controller(struct rspamd_worker *w)
{

	if (w) {
		return !!(w->flags & RSPAMD_WORKER_CONTROLLER) && w->index == 0;
	}

	return FALSE;
}

gboolean
rspamd_worker_check_controller_presence(struct rspamd_worker *w)
{
	if (w->index == 0) {
		GQuark our_type = w->type;
		gboolean controller_seen = FALSE;
		GList *cur;

		enum {
			low_priority_worker,
			high_priority_worker
		} our_priority;

		if (our_type == g_quark_from_static_string("rspamd_proxy")) {
			our_priority = low_priority_worker;
		}
		else if (our_type == g_quark_from_static_string("normal")) {
			our_priority = high_priority_worker;
		}
		else {
			msg_err("function is called for a wrong worker type: %s", g_quark_to_string(our_type));
			return FALSE;
		}

		cur = w->srv->cfg->workers;

		while (cur) {
			struct rspamd_worker_conf *cf;

			cf = (struct rspamd_worker_conf *) cur->data;

			if (our_priority == low_priority_worker) {
				if ((cf->type == g_quark_from_static_string("controller")) ||
					(cf->type == g_quark_from_static_string("normal"))) {

					if (cf->enabled && cf->count >= 0) {
						controller_seen = TRUE;
						break;
					}
				}
			}
			else {
				if (cf->type == g_quark_from_static_string("controller")) {
					if (cf->enabled && cf->count >= 0) {
						controller_seen = TRUE;
						break;
					}
				}
			}

			cur = g_list_next(cur);
		}

		if (!controller_seen) {
			msg_info("no controller or normal workers defined, execute "
					 "controller periodics in this worker");
			w->flags |= RSPAMD_WORKER_CONTROLLER;
			return TRUE;
		}
	}

	return FALSE;
}

struct rspamd_worker_session_elt {
	void *ptr;
	guint *pref;
	const gchar *tag;
	time_t when;
};

struct rspamd_worker_session_cache {
	struct ev_loop *ev_base;
	GHashTable *cache;
	struct rspamd_config *cfg;
	struct ev_timer periodic;
};

static gint
rspamd_session_cache_sort_cmp(gconstpointer pa, gconstpointer pb)
{
	const struct rspamd_worker_session_elt
		*e1 = *(const struct rspamd_worker_session_elt **) pa,
		*e2 = *(const struct rspamd_worker_session_elt **) pb;

	return e2->when < e1->when;
}

static void
rspamd_sessions_cache_periodic(EV_P_ ev_timer *w, int revents)
{
	struct rspamd_worker_session_cache *c =
		(struct rspamd_worker_session_cache *) w->data;
	GHashTableIter it;
	gchar timebuf[32];
	gpointer k, v;
	struct rspamd_worker_session_elt *elt;
	struct tm tms;
	GPtrArray *res;
	guint i;

	if (g_hash_table_size(c->cache) > c->cfg->max_sessions_cache) {
		res = g_ptr_array_sized_new(g_hash_table_size(c->cache));
		g_hash_table_iter_init(&it, c->cache);

		while (g_hash_table_iter_next(&it, &k, &v)) {
			g_ptr_array_add(res, v);
		}

		msg_err("sessions cache is overflowed %d elements where %d is limit",
				(gint) res->len, (gint) c->cfg->max_sessions_cache);
		g_ptr_array_sort(res, rspamd_session_cache_sort_cmp);

		PTR_ARRAY_FOREACH(res, i, elt)
		{
			rspamd_localtime(elt->when, &tms);
			strftime(timebuf, sizeof(timebuf), "%F %H:%M:%S", &tms);

			msg_warn("redundant session; ptr: %p, "
					 "tag: %s, refcount: %d, time: %s",
					 elt->ptr, elt->tag ? elt->tag : "unknown",
					 elt->pref ? *elt->pref : 0,
					 timebuf);
		}
	}

	ev_timer_again(EV_A_ w);
}

void *
rspamd_worker_session_cache_new(struct rspamd_worker *w,
								struct ev_loop *ev_base)
{
	struct rspamd_worker_session_cache *c;
	static const gdouble periodic_interval = 60.0;

	c = g_malloc0(sizeof(*c));
	c->ev_base = ev_base;
	c->cache = g_hash_table_new_full(g_direct_hash, g_direct_equal,
									 NULL, g_free);
	c->cfg = w->srv->cfg;
	c->periodic.data = c;
	ev_timer_init(&c->periodic, rspamd_sessions_cache_periodic, periodic_interval,
				  periodic_interval);
	ev_timer_start(ev_base, &c->periodic);

	return c;
}


void rspamd_worker_session_cache_add(void *cache, const gchar *tag,
									 guint *pref, void *ptr)
{
	struct rspamd_worker_session_cache *c = cache;
	struct rspamd_worker_session_elt *elt;

	elt = g_malloc0(sizeof(*elt));
	elt->pref = pref;
	elt->ptr = ptr;
	elt->tag = tag;
	elt->when = time(NULL);

	g_hash_table_insert(c->cache, elt->ptr, elt);
}


void rspamd_worker_session_cache_remove(void *cache, void *ptr)
{
	struct rspamd_worker_session_cache *c = cache;

	g_hash_table_remove(c->cache, ptr);
}

static void
rspamd_worker_monitored_on_change(struct rspamd_monitored_ctx *ctx,
								  struct rspamd_monitored *m, gboolean alive,
								  void *ud)
{
	struct rspamd_worker *worker = ud;
	struct rspamd_config *cfg = worker->srv->cfg;
	struct ev_loop *ev_base;
	guchar tag[RSPAMD_MONITORED_TAG_LEN];
	static struct rspamd_srv_command srv_cmd;

	rspamd_monitored_get_tag(m, tag);
	ev_base = rspamd_monitored_ctx_get_ev_base(ctx);
	memset(&srv_cmd, 0, sizeof(srv_cmd));
	srv_cmd.type = RSPAMD_SRV_MONITORED_CHANGE;
	rspamd_strlcpy(srv_cmd.cmd.monitored_change.tag, tag,
				   sizeof(srv_cmd.cmd.monitored_change.tag));
	srv_cmd.cmd.monitored_change.alive = alive;
	srv_cmd.cmd.monitored_change.sender = getpid();
	msg_info_config("broadcast monitored update for %s: %s",
					srv_cmd.cmd.monitored_change.tag, alive ? "alive" : "dead");

	rspamd_srv_send_command(worker, ev_base, &srv_cmd, -1, NULL, NULL);
}

void rspamd_worker_init_monitored(struct rspamd_worker *worker,
								  struct ev_loop *ev_base,
								  struct rspamd_dns_resolver *resolver)
{
	rspamd_monitored_ctx_config(worker->srv->cfg->monitored_ctx,
								worker->srv->cfg, ev_base, resolver->r,
								rspamd_worker_monitored_on_change, worker);
}

#ifdef HAVE_SA_SIGINFO

static struct rspamd_main *saved_main = NULL;
static gboolean
rspamd_crash_propagate(gpointer key, gpointer value, gpointer unused)
{
	struct rspamd_worker *w = value;

	/* Kill children softly */
	kill(w->pid, SIGTERM);

	return TRUE;
}

#ifdef BACKWARD_ENABLE
/* See backtrace.cxx */
extern void rspamd_print_crash(void);
#endif

static void
rspamd_crash_sig_handler(int sig, siginfo_t *info, void *ctx)
{
	struct sigaction sa;
	ucontext_t *uap = ctx;
	pid_t pid;

	pid = getpid();
	msg_err("caught fatal signal %d(%s), "
			"pid: %P, trace: ",
			sig, strsignal(sig), pid);
	(void) uap;
#ifdef BACKWARD_ENABLE
	rspamd_print_crash();
#endif
	msg_err("please see Rspamd FAQ to learn how to dump core files and how to "
			"fill a bug report");

	if (saved_main) {
		if (pid == saved_main->pid) {
			/*
			 * Main process has crashed, propagate crash further to trigger
			 * monitoring alerts and mass panic
			 */
			g_hash_table_foreach_remove(saved_main->workers,
										rspamd_crash_propagate, NULL);
		}
	}

	/*
	 * Invoke signal with the default handler
	 */
	sigemptyset(&sa.sa_mask);
	sa.sa_handler = SIG_DFL;
	sa.sa_flags = 0;
	sigaction(sig, &sa, NULL);
	kill(pid, sig);
}
#endif

RSPAMD_NO_SANITIZE void
rspamd_set_crash_handler(struct rspamd_main *rspamd_main)
{
#ifdef HAVE_SA_SIGINFO
	struct sigaction sa;

#ifdef HAVE_SIGALTSTACK
	void *stack_mem;
	stack_t ss;
	memset(&ss, 0, sizeof ss);

	ss.ss_size = MAX(SIGSTKSZ, 8192 * 4);
	stack_mem = g_malloc0(ss.ss_size);
	ss.ss_sp = stack_mem;
	sigaltstack(&ss, NULL);
#endif
	saved_main = rspamd_main;
	sigemptyset(&sa.sa_mask);
	sa.sa_sigaction = &rspamd_crash_sig_handler;
	sa.sa_flags = SA_RESTART | SA_SIGINFO | SA_ONSTACK;
	sigaction(SIGSEGV, &sa, NULL);
	sigaction(SIGBUS, &sa, NULL);
	sigaction(SIGABRT, &sa, NULL);
	sigaction(SIGFPE, &sa, NULL);
	sigaction(SIGSYS, &sa, NULL);
#endif
}

RSPAMD_NO_SANITIZE void rspamd_unset_crash_handler(struct rspamd_main *unused_)
{
#ifdef HAVE_SIGALTSTACK
	int ret;
	stack_t ss;
	ret = sigaltstack(NULL, &ss);

	if (ret != -1) {
		if (ss.ss_size > 0 && ss.ss_sp) {
			g_free(ss.ss_sp);
		}

		ss.ss_size = 0;
		ss.ss_sp = NULL;
#ifdef SS_DISABLE
		ss.ss_flags |= SS_DISABLE;
#endif
		sigaltstack(&ss, NULL);
	}
#endif
}

static void
rspamd_enable_accept_event(EV_P_ ev_timer *w, int revents)
{
	struct rspamd_worker_accept_event *ac_ev =
		(struct rspamd_worker_accept_event *) w->data;

	ev_timer_stop(EV_A_ w);
	ev_io_start(EV_A_ & ac_ev->accept_ev);
}

void rspamd_worker_throttle_accept_events(gint sock, void *data)
{
	struct rspamd_worker_accept_event *head, *cur;
	const gdouble throttling = 0.5;

	head = (struct rspamd_worker_accept_event *) data;

	DL_FOREACH(head, cur)
	{

		ev_io_stop(cur->event_loop, &cur->accept_ev);
		cur->throttling_ev.data = cur;
		ev_timer_init(&cur->throttling_ev, rspamd_enable_accept_event,
					  throttling, 0.0);
		ev_timer_start(cur->event_loop, &cur->throttling_ev);
	}
}

gboolean
rspamd_check_termination_clause(struct rspamd_main *rspamd_main,
								struct rspamd_worker *wrk,
								int res)
{
	gboolean need_refork = TRUE;

	if (wrk->state != rspamd_worker_state_running || rspamd_main->wanna_die ||
		(wrk->flags & RSPAMD_WORKER_OLD_CONFIG)) {
		/* Do not refork workers that are intended to be terminated */
		need_refork = FALSE;
	}

	if (WIFEXITED(res) && WEXITSTATUS(res) == 0) {
		/* Normal worker termination, do not fork one more */

		if (wrk->flags & RSPAMD_WORKER_OLD_CONFIG) {
			/* Never re-fork old workers */
			msg_info_main("%s process %P terminated normally",
						  g_quark_to_string(wrk->type),
						  wrk->pid);
			need_refork = FALSE;
		}
		else {
			if (wrk->hb.nbeats < 0 && rspamd_main->cfg->heartbeats_loss_max > 0 &&
				-(wrk->hb.nbeats) >= rspamd_main->cfg->heartbeats_loss_max) {
				msg_info_main("%s process %P terminated normally, but lost %L "
							  "heartbeats, refork it",
							  g_quark_to_string(wrk->type),
							  wrk->pid,
							  -(wrk->hb.nbeats));
				need_refork = TRUE;
			}
			else {
				msg_info_main("%s process %P terminated normally",
							  g_quark_to_string(wrk->type),
							  wrk->pid);
				need_refork = FALSE;
			}
		}
	}
	else {
		if (WIFSIGNALED(res)) {
#ifdef WCOREDUMP
			if (WCOREDUMP(res)) {
				msg_warn_main(
					"%s process %P terminated abnormally by signal: %s"
					" and created core file; please see Rspamd FAQ "
					"to learn how to extract data from core file and "
					"fill a bug report",
					g_quark_to_string(wrk->type),
					wrk->pid,
					g_strsignal(WTERMSIG(res)));
			}
			else {
#ifdef HAVE_SYS_RESOURCE_H
				struct rlimit rlmt;
				(void) getrlimit(RLIMIT_CORE, &rlmt);

				msg_warn_main(
					"%s process %P terminated abnormally with exit code %d by "
					"signal: %s"
					" but NOT created core file (throttled=%s); "
					"core file limits: %L current, %L max",
					g_quark_to_string(wrk->type),
					wrk->pid,
					WEXITSTATUS(res),
					g_strsignal(WTERMSIG(res)),
					wrk->cores_throttled ? "yes" : "no",
					(gint64) rlmt.rlim_cur,
					(gint64) rlmt.rlim_max);
#else
				msg_warn_main(
					"%s process %P terminated abnormally with exit code %d by signal: %s"
					" but NOT created core file (throttled=%s); ",
					g_quark_to_string(wrk->type),
					wrk->pid, WEXITSTATUS(res),
					g_strsignal(WTERMSIG(res)),
					wrk->cores_throttled ? "yes" : "no");
#endif
			}
#else
			msg_warn_main(
				"%s process %P terminated abnormally with exit code %d by signal: %s",
				g_quark_to_string(wrk->type),
				wrk->pid, WEXITSTATUS(res),
				g_strsignal(WTERMSIG(res)));
#endif
			if (WTERMSIG(res) == SIGUSR2) {
				/*
				 * It is actually race condition when not started process
				 * has been requested to be reloaded.
				 *
				 * We shouldn't refork on this
				 */
				need_refork = FALSE;
			}
		}
		else {
			msg_warn_main("%s process %P terminated abnormally "
						  "(but it was not killed by a signal) "
						  "with exit code %d",
						  g_quark_to_string(wrk->type),
						  wrk->pid,
						  WEXITSTATUS(res));
		}
	}

	return need_refork;
}

#ifdef WITH_HYPERSCAN
gboolean
rspamd_worker_hyperscan_ready(struct rspamd_main *rspamd_main,
							  struct rspamd_worker *worker, gint fd,
							  gint attached_fd,
							  struct rspamd_control_command *cmd,
							  gpointer ud)
{
	struct rspamd_control_reply rep;
	struct rspamd_re_cache *cache = worker->srv->cfg->re_cache;

	memset(&rep, 0, sizeof(rep));
	rep.type = RSPAMD_CONTROL_HYPERSCAN_LOADED;

	if (rspamd_re_cache_is_hs_loaded(cache) != RSPAMD_HYPERSCAN_LOADED_FULL ||
		cmd->cmd.hs_loaded.forced) {

		msg_info("loading hyperscan expressions after receiving compilation "
				 "notice: %s",
				 (rspamd_re_cache_is_hs_loaded(cache) != RSPAMD_HYPERSCAN_LOADED_FULL) ? "new db" : "forced update");
		rep.reply.hs_loaded.status = rspamd_re_cache_load_hyperscan(
			worker->srv->cfg->re_cache, cmd->cmd.hs_loaded.cache_dir, false);
	}

	if (write(fd, &rep, sizeof(rep)) != sizeof(rep)) {
		msg_err("cannot write reply to the control socket: %s",
				strerror(errno));
	}

	return TRUE;
}
#endif /* With Hyperscan */

gboolean
rspamd_worker_check_context(gpointer ctx, guint64 magic)
{
	struct rspamd_abstract_worker_ctx *actx = (struct rspamd_abstract_worker_ctx *) ctx;

	return actx->magic == magic;
}

static gboolean
rspamd_worker_log_pipe_handler(struct rspamd_main *rspamd_main,
							   struct rspamd_worker *worker, gint fd,
							   gint attached_fd,
							   struct rspamd_control_command *cmd,
							   gpointer ud)
{
	struct rspamd_config *cfg = ud;
	struct rspamd_worker_log_pipe *lp;
	struct rspamd_control_reply rep;

	memset(&rep, 0, sizeof(rep));
	rep.type = RSPAMD_CONTROL_LOG_PIPE;

	if (attached_fd != -1) {
		lp = g_malloc0(sizeof(*lp));
		lp->fd = attached_fd;
		lp->type = cmd->cmd.log_pipe.type;

		DL_APPEND(cfg->log_pipes, lp);
		msg_info("added new log pipe");
	}
	else {
		rep.reply.log_pipe.status = ENOENT;
		msg_err("cannot attach log pipe: invalid fd");
	}

	if (write(fd, &rep, sizeof(rep)) != sizeof(rep)) {
		msg_err("cannot write reply to the control socket: %s",
				strerror(errno));
	}

	return TRUE;
}

static gboolean
rspamd_worker_monitored_handler(struct rspamd_main *rspamd_main,
								struct rspamd_worker *worker, gint fd,
								gint attached_fd,
								struct rspamd_control_command *cmd,
								gpointer ud)
{
	struct rspamd_control_reply rep;
	struct rspamd_monitored *m;
	struct rspamd_monitored_ctx *mctx = worker->srv->cfg->monitored_ctx;
	struct rspamd_config *cfg = ud;

	memset(&rep, 0, sizeof(rep));
	rep.type = RSPAMD_CONTROL_MONITORED_CHANGE;

	if (cmd->cmd.monitored_change.sender != getpid()) {
		m = rspamd_monitored_by_tag(mctx, cmd->cmd.monitored_change.tag);

		if (m != NULL) {
			rspamd_monitored_set_alive(m, cmd->cmd.monitored_change.alive);
			rep.reply.monitored_change.status = 1;
			msg_info_config("updated monitored status for %s: %s",
							cmd->cmd.monitored_change.tag,
							cmd->cmd.monitored_change.alive ? "alive" : "dead");
		}
		else {
			msg_err("cannot find monitored by tag: %*s", 32,
					cmd->cmd.monitored_change.tag);
			rep.reply.monitored_change.status = 0;
		}
	}

	if (write(fd, &rep, sizeof(rep)) != sizeof(rep)) {
		msg_err("cannot write reply to the control socket: %s",
				strerror(errno));
	}

	return TRUE;
}

void rspamd_worker_init_scanner(struct rspamd_worker *worker,
								struct ev_loop *ev_base,
								struct rspamd_dns_resolver *resolver,
								struct rspamd_lang_detector **plang_det)
{
	rspamd_stat_init(worker->srv->cfg, ev_base);
#ifdef WITH_HYPERSCAN
	rspamd_control_worker_add_cmd_handler(worker,
										  RSPAMD_CONTROL_HYPERSCAN_LOADED,
										  rspamd_worker_hyperscan_ready,
										  NULL);
#endif
	rspamd_control_worker_add_cmd_handler(worker,
										  RSPAMD_CONTROL_LOG_PIPE,
										  rspamd_worker_log_pipe_handler,
										  worker->srv->cfg);
	rspamd_control_worker_add_cmd_handler(worker,
										  RSPAMD_CONTROL_MONITORED_CHANGE,
										  rspamd_worker_monitored_handler,
										  worker->srv->cfg);

	*plang_det = worker->srv->cfg->lang_det;
}

void rspamd_controller_store_saved_stats(struct rspamd_main *rspamd_main,
										 struct rspamd_config *cfg)
{
	struct rspamd_stat *stat;
	ucl_object_t *top, *sub;
	struct ucl_emitter_functions *efuncs;
	gint i, fd;
	FILE *fp;
	gchar fpath[PATH_MAX];

	if (cfg->stats_file == NULL) {
		return;
	}

	rspamd_snprintf(fpath, sizeof(fpath), "%s.XXXXXXXX", cfg->stats_file);
	fd = g_mkstemp_full(fpath, O_WRONLY | O_TRUNC, 00644);

	if (fd == -1) {
		msg_err_config("cannot open for writing controller stats from %s: %s",
					   fpath, strerror(errno));
		return;
	}

	fp = fdopen(fd, "w");
	stat = rspamd_main->stat;

	top = ucl_object_typed_new(UCL_OBJECT);
	ucl_object_insert_key(top, ucl_object_fromint(stat->messages_scanned), "scanned", 0, false);
	ucl_object_insert_key(top, ucl_object_fromint(stat->messages_learned), "learned", 0, false);

	if (stat->messages_scanned > 0) {
		sub = ucl_object_typed_new(UCL_OBJECT);
		for (i = METRIC_ACTION_REJECT; i <= METRIC_ACTION_NOACTION; i++) {
			ucl_object_insert_key(sub,
								  ucl_object_fromint(stat->actions_stat[i]),
								  rspamd_action_to_str(i), 0, false);
		}
		ucl_object_insert_key(top, sub, "actions", 0, false);
	}

	ucl_object_insert_key(top,
						  ucl_object_fromint(stat->connections_count),
						  "connections", 0, false);
	ucl_object_insert_key(top,
						  ucl_object_fromint(stat->control_connections_count),
						  "control_connections", 0, false);

	efuncs = ucl_object_emit_file_funcs(fp);
	if (!ucl_object_emit_full(top, UCL_EMIT_JSON_COMPACT,
							  efuncs, NULL)) {
		msg_err_config("cannot write stats to %s: %s",
					   fpath, strerror(errno));

		unlink(fpath);
	}
	else {
		if (rename(fpath, cfg->stats_file) == -1) {
			msg_err_config("cannot rename stats from %s to %s: %s",
						   fpath, cfg->stats_file, strerror(errno));
		}
	}

	ucl_object_unref(top);
	fclose(fp);
	ucl_object_emit_funcs_free(efuncs);
}

static ev_timer rrd_timer;

void rspamd_controller_on_terminate(struct rspamd_worker *worker,
									struct rspamd_rrd_file *rrd)
{
	struct rspamd_abstract_worker_ctx *ctx;

	ctx = (struct rspamd_abstract_worker_ctx *) worker->ctx;
	rspamd_controller_store_saved_stats(worker->srv, worker->srv->cfg);

	if (rrd) {
		ev_timer_stop(ctx->event_loop, &rrd_timer);
		msg_info("closing rrd file: %s", rrd->filename);
		rspamd_rrd_close(rrd);
	}
}

static void
rspamd_controller_load_saved_stats(struct rspamd_main *rspamd_main,
								   struct rspamd_config *cfg)
{
	struct ucl_parser *parser;
	ucl_object_t *obj;
	const ucl_object_t *elt, *subelt;
	struct rspamd_stat *stat, stat_copy;
	gint i;

	if (cfg->stats_file == NULL) {
		return;
	}

	if (access(cfg->stats_file, R_OK) == -1) {
		msg_err_config("cannot load controller stats from %s: %s",
					   cfg->stats_file, strerror(errno));
		return;
	}

	parser = ucl_parser_new(0);

	if (!ucl_parser_add_file(parser, cfg->stats_file)) {
		msg_err_config("cannot parse controller stats from %s: %s",
					   cfg->stats_file, ucl_parser_get_error(parser));
		ucl_parser_free(parser);

		return;
	}

	obj = ucl_parser_get_object(parser);
	ucl_parser_free(parser);

	stat = rspamd_main->stat;
	memcpy(&stat_copy, stat, sizeof(stat_copy));

	elt = ucl_object_lookup(obj, "scanned");

	if (elt != NULL && ucl_object_type(elt) == UCL_INT) {
		stat_copy.messages_scanned = ucl_object_toint(elt);
	}

	elt = ucl_object_lookup(obj, "learned");

	if (elt != NULL && ucl_object_type(elt) == UCL_INT) {
		stat_copy.messages_learned = ucl_object_toint(elt);
	}

	elt = ucl_object_lookup(obj, "actions");

	if (elt != NULL) {
		for (i = METRIC_ACTION_REJECT; i <= METRIC_ACTION_NOACTION; i++) {
			subelt = ucl_object_lookup(elt, rspamd_action_to_str(i));

			if (subelt && ucl_object_type(subelt) == UCL_INT) {
				stat_copy.actions_stat[i] = ucl_object_toint(subelt);
			}
		}
	}

	elt = ucl_object_lookup(obj, "connections_count");

	if (elt != NULL && ucl_object_type(elt) == UCL_INT) {
		stat_copy.connections_count = ucl_object_toint(elt);
	}

	elt = ucl_object_lookup(obj, "control_connections_count");

	if (elt != NULL && ucl_object_type(elt) == UCL_INT) {
		stat_copy.control_connections_count = ucl_object_toint(elt);
	}

	ucl_object_unref(obj);
	memcpy(stat, &stat_copy, sizeof(stat_copy));
}

struct rspamd_controller_periodics_cbdata {
	struct rspamd_worker *worker;
	struct rspamd_rrd_file *rrd;
	struct rspamd_stat *stat;
	ev_timer save_stats_event;
};

static void
rspamd_controller_rrd_update(EV_P_ ev_timer *w, int revents)
{
	struct rspamd_controller_periodics_cbdata *cbd =
		(struct rspamd_controller_periodics_cbdata *) w->data;
	struct rspamd_stat *stat;
	GArray ar;
	gdouble points[METRIC_ACTION_MAX];
	GError *err = NULL;
	guint i;

	g_assert(cbd->rrd != NULL);
	stat = cbd->stat;

	for (i = METRIC_ACTION_REJECT; i < METRIC_ACTION_MAX; i++) {
		points[i] = stat->actions_stat[i];
	}

	ar.data = (gchar *) points;
	ar.len = sizeof(points);

	if (!rspamd_rrd_add_record(cbd->rrd, &ar, rspamd_get_calendar_ticks(),
							   &err)) {
		msg_err("cannot update rrd file: %e", err);
		g_error_free(err);
	}

	/* Plan new event */
	ev_timer_again(EV_A_ w);
}

static void
rspamd_controller_stats_save_periodic(EV_P_ ev_timer *w, int revents)
{
	struct rspamd_controller_periodics_cbdata *cbd =
		(struct rspamd_controller_periodics_cbdata *) w->data;

	rspamd_controller_store_saved_stats(cbd->worker->srv, cbd->worker->srv->cfg);
	ev_timer_again(EV_A_ w);
}

void rspamd_worker_init_controller(struct rspamd_worker *worker,
								   struct rspamd_rrd_file **prrd)
{
	struct rspamd_abstract_worker_ctx *ctx;
	static const ev_tstamp rrd_update_time = 1.0;

	ctx = (struct rspamd_abstract_worker_ctx *) worker->ctx;
	rspamd_controller_load_saved_stats(worker->srv, worker->srv->cfg);

	if (worker->index == 0) {
		/* Enable periodics and other stuff */
		static struct rspamd_controller_periodics_cbdata cbd;
		const ev_tstamp save_stats_interval = 60; /* 1 minute */

		memset(&cbd, 0, sizeof(cbd));
		cbd.save_stats_event.data = &cbd;
		cbd.worker = worker;
		cbd.stat = worker->srv->stat;

		ev_timer_init(&cbd.save_stats_event,
					  rspamd_controller_stats_save_periodic,
					  save_stats_interval, save_stats_interval);
		ev_timer_start(ctx->event_loop, &cbd.save_stats_event);

		rspamd_map_watch(worker->srv->cfg, ctx->event_loop,
						 ctx->resolver, worker,
						 RSPAMD_MAP_WATCH_PRIMARY_CONTROLLER);

		if (prrd != NULL) {
			if (ctx->cfg->rrd_file && worker->index == 0) {
				GError *rrd_err = NULL;

				*prrd = rspamd_rrd_file_default(ctx->cfg->rrd_file, &rrd_err);

				if (*prrd) {
					cbd.rrd = *prrd;
					rrd_timer.data = &cbd;
					ev_timer_init(&rrd_timer, rspamd_controller_rrd_update,
								  rrd_update_time, rrd_update_time);
					ev_timer_start(ctx->event_loop, &rrd_timer);
				}
				else if (rrd_err) {
					msg_err("cannot load rrd from %s: %e", ctx->cfg->rrd_file,
							rrd_err);
					g_error_free(rrd_err);
				}
				else {
					msg_err("cannot load rrd from %s: unknown error",
							ctx->cfg->rrd_file);
				}
			}
			else {
				*prrd = NULL;
			}
		}

		if (!ctx->cfg->disable_monitored) {
			rspamd_worker_init_monitored(worker,
										 ctx->event_loop, ctx->resolver);
		}
	}
	else {
		rspamd_map_watch(worker->srv->cfg, ctx->event_loop,
						 ctx->resolver, worker, RSPAMD_MAP_WATCH_SCANNER);
	}
}

gdouble
rspamd_worker_check_and_adjust_timeout(struct rspamd_config *cfg, gdouble timeout)
{
	if (isnan(timeout)) {
		/* Use implicit timeout from cfg->task_timeout */
		timeout = cfg->task_timeout;
	}

	if (isnan(timeout)) {
		return timeout;
	}

	struct rspamd_symcache_timeout_result *tres = rspamd_symcache_get_max_timeout(cfg->cache);
	g_assert(tres != 0);

	if (tres->max_timeout > timeout) {
		msg_info_config("configured task_timeout %.2f is less than maximum symbols cache timeout %.2f; "
						"some symbols can be terminated before checks",
						timeout, tres->max_timeout);
		GString *buf = g_string_sized_new(512);
		static const int max_displayed_items = 12;

		for (int i = 0; i < MIN(tres->nitems, max_displayed_items); i++) {
			if (i == 0) {
				rspamd_printf_gstring(buf, "%s(%.2f)",
									  rspamd_symcache_item_name((struct rspamd_symcache_item *) tres->items[i].item),
									  tres->items[i].timeout);
			}
			else {
				rspamd_printf_gstring(buf, "; %s(%.2f)",
									  rspamd_symcache_item_name((struct rspamd_symcache_item *) tres->items[i].item),
									  tres->items[i].timeout);
			}
		}
		msg_info_config("list of top %d symbols by execution time: %v",
						(int) MIN(tres->nitems, max_displayed_items),
						buf);

		g_string_free(buf, TRUE);
	}

	rspamd_symcache_timeout_result_free(tres);

	/* TODO: maybe adjust timeout */
	return timeout;
}