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/*
 * Copyright 2024 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.
 */
/*
 * Rspamd fuzzy storage server
 */

#include "config.h"
#include "libserver/fuzzy_wire.h"
#include "util.h"
#include "rspamd.h"
#include "libserver/maps/map.h"
#include "libserver/maps/map_helpers.h"
#include "libserver/fuzzy_backend/fuzzy_backend.h"
#include "ottery.h"
#include "ref.h"
#include "xxhash.h"
#include "libserver/worker_util.h"
#include "libserver/rspamd_control.h"
#include "libcryptobox/cryptobox.h"
#include "libcryptobox/keypairs_cache.h"
#include "libcryptobox/keypair.h"
#include "libutil/hash.h"
#include "libserver/maps/map_private.h"
#include "contrib/uthash/utlist.h"
#include "lua/lua_common.h"
#include "unix-std.h"

#include <math.h>

/* Resync value in seconds */
#define DEFAULT_SYNC_TIMEOUT 60.0
#define DEFAULT_KEYPAIR_CACHE_SIZE 512
#define DEFAULT_MASTER_TIMEOUT 10.0
#define DEFAULT_UPDATES_MAXFAIL 3
#define DEFAULT_MAX_BUCKETS 2000
#define DEFAULT_BUCKET_TTL 3600
#define DEFAULT_BUCKET_MASK 24
/* Update stats on keys each 1 hour */
#define KEY_STAT_INTERVAL 3600.0

static const char *local_db_name = "local";

/* Init functions */
gpointer init_fuzzy(struct rspamd_config *cfg);
void start_fuzzy(struct rspamd_worker *worker);

worker_t fuzzy_worker = {
	"fuzzy",     /* Name */
	init_fuzzy,  /* Init function */
	start_fuzzy, /* Start function */
	RSPAMD_WORKER_HAS_SOCKET | RSPAMD_WORKER_NO_STRICT_CONFIG,
	RSPAMD_WORKER_SOCKET_UDP, /* UDP socket */
	RSPAMD_WORKER_VER         /* Version info */
};

struct fuzzy_global_stat {
	uint64_t fuzzy_hashes;
	/**< number of fuzzy hashes stored					*/
	uint64_t fuzzy_hashes_expired;
	/**< number of fuzzy hashes expired					*/
	uint64_t fuzzy_hashes_checked[RSPAMD_FUZZY_EPOCH_MAX];
	/**< amount of check requests for each epoch		*/
	uint64_t fuzzy_shingles_checked[RSPAMD_FUZZY_EPOCH_MAX];
	/**< amount of shingle check requests for each epoch	*/
	uint64_t fuzzy_hashes_found[RSPAMD_FUZZY_EPOCH_MAX];
	/**< amount of invalid requests				*/
	uint64_t invalid_requests;
	/**< amount of delayed hashes found				*/
	uint64_t delayed_hashes;
};

struct fuzzy_key_stat {
	uint64_t checked;
	uint64_t matched;
	uint64_t added;
	uint64_t deleted;
	uint64_t errors;
	/* Store averages for checked/matched per minute */
	struct rspamd_counter_data checked_ctr;
	struct rspamd_counter_data matched_ctr;
	double last_checked_time;
	uint64_t last_checked_count;
	uint64_t last_matched_count;
	struct rspamd_cryptobox_keypair *keypair;
	rspamd_lru_hash_t *last_ips;

	ref_entry_t ref;
};

struct rspamd_leaky_bucket_elt {
	rspamd_inet_addr_t *addr;
	double last;
	double cur;
};

static const uint64_t rspamd_fuzzy_storage_magic = 0x291a3253eb1b3ea5ULL;

static int64_t
fuzzy_kp_hash(const unsigned char *p)
{
	int64_t res;

	memcpy(&res, p, sizeof(res));
	return res;
}
static bool
fuzzy_kp_equal(gconstpointer a, gconstpointer b)
{
	const unsigned char *pa = a, *pb = b;

	return (memcmp(pa, pb, RSPAMD_FUZZY_KEYLEN) == 0);
}

KHASH_SET_INIT_INT(fuzzy_key_ids_set);
KHASH_INIT(fuzzy_key_flag_stat, int, struct fuzzy_key_stat, 1, kh_int_hash_func,
		   kh_int_hash_equal);
struct fuzzy_key {
	char *name;
	struct rspamd_cryptobox_keypair *key;
	struct rspamd_cryptobox_pubkey *pk;
	struct fuzzy_key_stat *stat;
	khash_t(fuzzy_key_flag_stat) * flags_stat;
	khash_t(fuzzy_key_ids_set) * forbidden_ids;
	struct rspamd_leaky_bucket_elt *rl_bucket;
	double burst;
	double rate;
	ev_tstamp expire;
	bool expired;
	ref_entry_t ref;
};

KHASH_INIT(rspamd_fuzzy_keys_hash,
		   const unsigned char *, struct fuzzy_key *, 1,
		   fuzzy_kp_hash, fuzzy_kp_equal);

struct rspamd_fuzzy_storage_ctx {
	uint64_t magic;
	/* Events base */
	struct ev_loop *event_loop;
	/* DNS resolver */
	struct rspamd_dns_resolver *resolver;
	/* Config */
	struct rspamd_config *cfg;
	/* END OF COMMON PART */
	struct fuzzy_global_stat stat;
	double expire;
	double sync_timeout;
	double delay;
	struct rspamd_radix_map_helper *update_ips;
	struct rspamd_hash_map_helper *update_keys;
	struct rspamd_radix_map_helper *blocked_ips;
	struct rspamd_radix_map_helper *ratelimit_whitelist;
	struct rspamd_radix_map_helper *delay_whitelist;

	const ucl_object_t *update_map;
	const ucl_object_t *update_keys_map;
	const ucl_object_t *delay_whitelist_map;
	const ucl_object_t *blocked_map;
	const ucl_object_t *ratelimit_whitelist_map;
	const ucl_object_t *dynamic_keys_map;

	unsigned int keypair_cache_size;
	ev_timer stat_ev;
	ev_io peer_ev;

	/* Local keypair */
	struct rspamd_cryptobox_keypair *default_keypair; /* Bad clash, need for parse keypair */
	struct fuzzy_key *default_key;
	khash_t(rspamd_fuzzy_keys_hash) * keys;
	/* Those are loaded via map */
	khash_t(rspamd_fuzzy_keys_hash) * dynamic_keys;

	gboolean encrypted_only;
	gboolean read_only;
	gboolean dedicated_update_worker;
	struct rspamd_keypair_cache *keypair_cache;
	struct rspamd_http_context *http_ctx;
	rspamd_lru_hash_t *errors_ips;
	rspamd_lru_hash_t *ratelimit_buckets;
	struct rspamd_fuzzy_backend *backend;
	GArray *updates_pending;
	unsigned int updates_failed;
	unsigned int updates_maxfail;
	/* Used to send data between workers */
	int peer_fd;

	/* Ratelimits */
	unsigned int leaky_bucket_ttl;
	unsigned int leaky_bucket_mask;
	unsigned int max_buckets;
	gboolean ratelimit_log_only;
	double leaky_bucket_burst;
	double leaky_bucket_rate;

	struct rspamd_worker *worker;
	const ucl_object_t *skip_map;
	struct rspamd_hash_map_helper *skip_hashes;
	int lua_pre_handler_cbref;
	int lua_post_handler_cbref;
	int lua_blacklist_cbref;
	khash_t(fuzzy_key_ids_set) * default_forbidden_ids;
	/* Ids that should not override other ids */
	khash_t(fuzzy_key_ids_set) * weak_ids;
};

enum fuzzy_cmd_type {
	CMD_NORMAL,
	CMD_SHINGLE,
	CMD_ENCRYPTED_NORMAL,
	CMD_ENCRYPTED_SHINGLE
};

struct fuzzy_session {
	struct rspamd_worker *worker;
	rspamd_inet_addr_t *addr;
	struct rspamd_fuzzy_storage_ctx *ctx;

	struct rspamd_fuzzy_shingle_cmd cmd;       /* Can handle both shingles and non-shingles */
	struct rspamd_fuzzy_encrypted_reply reply; /* Again: contains everything */
	struct fuzzy_key_stat *ip_stat;

	enum rspamd_fuzzy_epoch epoch;
	enum fuzzy_cmd_type cmd_type;
	int fd;
	ev_tstamp timestamp;
	struct ev_io io;
	ref_entry_t ref;
	struct fuzzy_key *key;
	struct rspamd_fuzzy_cmd_extension *extensions;
	unsigned char nm[rspamd_cryptobox_MAX_NMBYTES];
};

struct fuzzy_peer_request {
	ev_io io_ev;
	struct fuzzy_peer_cmd cmd;
};

struct rspamd_updates_cbdata {
	GArray *updates_pending;
	struct rspamd_fuzzy_storage_ctx *ctx;
	char *source;
	gboolean final;
};


static void rspamd_fuzzy_write_reply(struct fuzzy_session *session);
static gboolean rspamd_fuzzy_process_updates_queue(struct rspamd_fuzzy_storage_ctx *ctx,
												   const char *source, gboolean final);
static gboolean rspamd_fuzzy_check_client(struct rspamd_fuzzy_storage_ctx *ctx,
										  rspamd_inet_addr_t *addr);
static void rspamd_fuzzy_maybe_call_blacklisted(struct rspamd_fuzzy_storage_ctx *ctx,
												rspamd_inet_addr_t *addr,
												const char *reason);
static struct fuzzy_key *fuzzy_add_keypair_from_ucl(struct rspamd_config *cfg,
													const ucl_object_t *obj,
													khash_t(rspamd_fuzzy_keys_hash) * target);

struct fuzzy_keymap_ucl_buf {
	rspamd_fstring_t *buf;
	struct rspamd_fuzzy_storage_ctx *ctx;
};

/* Callbacks for reading json dynamic rules */
static char *
ucl_keymap_read_cb(char *chunk,
				   int len,
				   struct map_cb_data *data,
				   gboolean final)
{
	struct fuzzy_keymap_ucl_buf *jb, *pd;

	pd = data->prev_data;

	g_assert(pd != NULL);

	if (data->cur_data == NULL) {
		jb = g_malloc0(sizeof(*jb));
		jb->ctx = pd->ctx;
		data->cur_data = jb;
	}
	else {
		jb = data->cur_data;
	}

	if (jb->buf == NULL) {
		/* Allocate memory for buffer */
		jb->buf = rspamd_fstring_sized_new(MAX(len, 4096));
	}

	jb->buf = rspamd_fstring_append(jb->buf, chunk, len);

	return NULL;
}

static void
ucl_keymap_fin_cb(struct map_cb_data *data, void **target)
{
	struct fuzzy_keymap_ucl_buf *jb;
	ucl_object_t *top;
	struct ucl_parser *parser;
	struct rspamd_config *cfg;

	/* Now parse ucl */
	if (data->cur_data) {
		jb = data->cur_data;
		cfg = jb->ctx->cfg;
	}
	else {
		msg_err("no cur data in the map! might be a bug");
		return;
	}

	if (jb->buf->len == 0) {
		msg_err_config("no data read");

		return;
	}

	parser = ucl_parser_new(UCL_PARSER_NO_FILEVARS);

	if (!ucl_parser_add_chunk(parser, jb->buf->str, jb->buf->len)) {
		msg_err_config("cannot load ucl data: parse error %s",
					   ucl_parser_get_error(parser));
		ucl_parser_free(parser);
		return;
	}

	top = ucl_parser_get_object(parser);
	ucl_parser_free(parser);

	if (ucl_object_type(top) != UCL_ARRAY) {
		ucl_object_unref(top);
		msg_err_config("loaded ucl is not an array");
		return;
	}

	if (target) {
		*target = data->cur_data;
	}

	if (data->prev_data) {
		jb = data->prev_data;
		/* Clean prev data */
		if (jb->buf) {
			rspamd_fstring_free(jb->buf);
		}

		/* Clean the existing keys */
		struct fuzzy_key *key;
		kh_foreach_value(jb->ctx->dynamic_keys, key, {
			REF_RELEASE(key);
		});
		kh_clear(rspamd_fuzzy_keys_hash, jb->ctx->dynamic_keys);

		/* Insert new keys */
		const ucl_object_t *cur;
		ucl_object_iter_t it = NULL;
		int success = 0;

		while ((cur = ucl_object_iterate(top, &it, true)) != NULL) {
			struct fuzzy_key *nk;

			nk = fuzzy_add_keypair_from_ucl(cfg, cur, jb->ctx->dynamic_keys);

			if (nk == NULL) {
				msg_warn_config("cannot add dynamic keypair");
			}
			success++;
		}

		msg_info_config("loaded %d dynamic keypairs", success);

		g_free(jb);
	}

	ucl_object_unref(top);
}

static void
ucl_keymap_dtor_cb(struct map_cb_data *data)
{
	struct fuzzy_keymap_ucl_buf *jb;

	if (data->cur_data) {
		jb = data->cur_data;
		/* Clean prev data */
		if (jb->buf) {
			rspamd_fstring_free(jb->buf);
		}

		struct fuzzy_key *key;
		kh_foreach_value(jb->ctx->dynamic_keys, key, {
			REF_RELEASE(key);
		});
		kh_destroy(rspamd_fuzzy_keys_hash, jb->ctx->dynamic_keys);

		g_free(jb);
	}
}

enum rspamd_ratelimit_check_result {
	ratelimit_pass,
	ratelimit_new,
	ratelimit_existing,
};

enum rspamd_ratelimit_check_policy {
	ratelimit_policy_permanent,
	ratelimit_policy_normal,
};

static enum rspamd_ratelimit_check_result
rspamd_fuzzy_check_ratelimit_bucket(struct fuzzy_session *session, struct rspamd_leaky_bucket_elt *elt,
									enum rspamd_ratelimit_check_policy policy, double max_burst, double max_rate)
{
	gboolean ratelimited = FALSE, new_ratelimit = FALSE;

	if (isnan(elt->cur)) {
		/* There is an issue with the previous logic: the TTL is updated each time
		 * we see that new bucket. Hence, we need to check the `last` and act accordingly
		 */
		if (elt->last < session->timestamp && session->timestamp - elt->last >= session->ctx->leaky_bucket_ttl) {
			/*
				 * We reset bucket to it's 90% capacity to allow some requests
				 * This should cope with the issue when we block an IP network for some burst and never unblock it
				 */
			elt->cur = max_burst * 0.9;
			elt->last = session->timestamp;
		}
		else {
			ratelimited = TRUE;
		}
	}
	else {
		/* Update bucket: leak some elements */
		if (elt->last < session->timestamp) {
			elt->cur -= max_rate * (session->timestamp - elt->last);
			elt->last = session->timestamp;

			if (elt->cur < 0) {
				elt->cur = 0;
			}
		}
		else {
			elt->last = session->timestamp;
		}

		/* Check the bucket */
		if (elt->cur >= max_burst) {

			if (policy == ratelimit_policy_permanent) {
				elt->cur = NAN;
			}
			new_ratelimit = TRUE;
			ratelimited = TRUE;
		}
		else {
			elt->cur++; /* Allow one more request */
		}
	}

	if (ratelimited) {
		rspamd_fuzzy_maybe_call_blacklisted(session->ctx, session->addr, "ratelimit");
	}

	if (new_ratelimit) {
		return ratelimit_new;
	}

	return ratelimited ? ratelimit_existing : ratelimit_pass;
}

static gboolean
rspamd_fuzzy_check_ratelimit(struct fuzzy_session *session)
{
	rspamd_inet_addr_t *masked;
	struct rspamd_leaky_bucket_elt *elt;

	if (!session->addr) {
		return TRUE;
	}

	if (session->ctx->ratelimit_whitelist != NULL) {
		if (rspamd_match_radix_map_addr(session->ctx->ratelimit_whitelist,
										session->addr) != NULL) {
			return TRUE;
		}
	}

	/*
	if (rspamd_inet_address_is_local (session->addr, TRUE)) {
		return TRUE;
	}
	*/

	masked = rspamd_inet_address_copy(session->addr, NULL);

	if (rspamd_inet_address_get_af(masked) == AF_INET) {
		rspamd_inet_address_apply_mask(masked,
									   MIN(session->ctx->leaky_bucket_mask, 32));
	}
	else {
		/* Must be at least /64 */
		rspamd_inet_address_apply_mask(masked,
									   MIN(MAX(session->ctx->leaky_bucket_mask * 4, 64), 128));
	}

	elt = rspamd_lru_hash_lookup(session->ctx->ratelimit_buckets, masked,
								 (time_t) session->timestamp);

	if (elt) {
		enum rspamd_ratelimit_check_result res = rspamd_fuzzy_check_ratelimit_bucket(session, elt,
																					 ratelimit_policy_permanent,
																					 session->ctx->leaky_bucket_burst,
																					 session->ctx->leaky_bucket_rate);

		if (res == ratelimit_new) {
			msg_info("ratelimiting %s (%s), %.1f max elts",
					 rspamd_inet_address_to_string(session->addr),
					 rspamd_inet_address_to_string(masked),
					 session->ctx->leaky_bucket_burst);

			struct rspamd_srv_command srv_cmd;

			srv_cmd.type = RSPAMD_SRV_FUZZY_BLOCKED;
			srv_cmd.cmd.fuzzy_blocked.af = rspamd_inet_address_get_af(masked);

			if (srv_cmd.cmd.fuzzy_blocked.af == AF_INET || srv_cmd.cmd.fuzzy_blocked.af == AF_INET6) {
				socklen_t slen;
				struct sockaddr *sa = rspamd_inet_address_get_sa(masked, &slen);

				if (slen <= sizeof(srv_cmd.cmd.fuzzy_blocked.addr)) {
					memcpy(&srv_cmd.cmd.fuzzy_blocked.addr, sa, slen);
					msg_debug("propagating blocked address to other workers");
					rspamd_srv_send_command(session->worker, session->ctx->event_loop, &srv_cmd, -1, NULL, NULL);
				}
				else {
					msg_err("bad address length: %d, expected to be %d", (int) slen, (int) sizeof(srv_cmd.cmd.fuzzy_blocked.addr));
				}
			}

			rspamd_fuzzy_maybe_call_blacklisted(session->ctx, session->addr, "ratelimit");
		}
		else if (res == ratelimit_existing) {
			rspamd_fuzzy_maybe_call_blacklisted(session->ctx, session->addr, "ratelimit");
		}

		rspamd_inet_address_free(masked);

		return res == ratelimit_pass;
	}
	else {
		/* New bucket */
		elt = g_malloc(sizeof(*elt));
		elt->addr = masked; /* transfer ownership */
		elt->cur = 1;
		elt->last = session->timestamp;

		rspamd_lru_hash_insert(session->ctx->ratelimit_buckets,
							   masked,
							   elt,
							   session->timestamp,
							   session->ctx->leaky_bucket_ttl);
	}

	return TRUE;
}

static void
rspamd_fuzzy_maybe_call_blacklisted(struct rspamd_fuzzy_storage_ctx *ctx,
									rspamd_inet_addr_t *addr,
									const char *reason)
{
	if (ctx->lua_blacklist_cbref != -1) {
		lua_State *L = ctx->cfg->lua_state;
		int err_idx, ret;

		lua_pushcfunction(L, &rspamd_lua_traceback);
		err_idx = lua_gettop(L);
		lua_rawgeti(L, LUA_REGISTRYINDEX, ctx->lua_blacklist_cbref);
		/* client IP */
		rspamd_lua_ip_push(L, addr);
		/* block reason */
		lua_pushstring(L, reason);

		if ((ret = lua_pcall(L, 2, 0, err_idx)) != 0) {
			msg_err("call to lua_blacklist_cbref "
					"script failed (%d): %s",
					ret, lua_tostring(L, -1));
		}

		lua_settop(L, 0);
	}
}

static gboolean
rspamd_fuzzy_check_client(struct rspamd_fuzzy_storage_ctx *ctx,
						  rspamd_inet_addr_t *addr)
{
	if (ctx->blocked_ips != NULL) {
		if (rspamd_match_radix_map_addr(ctx->blocked_ips,
										addr) != NULL) {

			rspamd_fuzzy_maybe_call_blacklisted(ctx, addr, "blacklisted");
			return FALSE;
		}
	}

	return TRUE;
}

static gboolean
rspamd_fuzzy_check_write(struct fuzzy_session *session)
{
	if (session->ctx->read_only) {
		return FALSE;
	}

	if (session->ctx->update_ips != NULL && session->addr) {
		if (rspamd_inet_address_get_af(session->addr) == AF_UNIX) {
			return TRUE;
		}
		if (rspamd_match_radix_map_addr(session->ctx->update_ips,
										session->addr) == NULL) {
			return FALSE;
		}
		else {
			return TRUE;
		}
	}

	if (session->ctx->update_keys != NULL && session->key->stat && session->key->key) {
		static char base32_buf[rspamd_cryptobox_HASHBYTES * 2 + 1];
		unsigned int raw_len;
		const unsigned char *pk_raw = rspamd_keypair_component(session->key->key,
															   RSPAMD_KEYPAIR_COMPONENT_ID, &raw_len);
		int encoded_len = rspamd_encode_base32_buf(pk_raw, raw_len,
												   base32_buf, sizeof(base32_buf),
												   RSPAMD_BASE32_DEFAULT);

		if (rspamd_match_hash_map(session->ctx->update_keys, base32_buf, encoded_len)) {
			return TRUE;
		}
	}

	return FALSE;
}

static void
fuzzy_key_stat_dtor(gpointer p)
{
	struct fuzzy_key_stat *st = p;

	if (st->last_ips) {
		rspamd_lru_hash_destroy(st->last_ips);
	}

	if (st->keypair) {
		rspamd_keypair_unref(st->keypair);
	}

	g_free(st);
}

static void
fuzzy_key_stat_unref(gpointer p)
{
	struct fuzzy_key_stat *st = p;

	REF_RELEASE(st);
}

static void
fuzzy_key_dtor(gpointer p)
{
	struct fuzzy_key *key = p;

	if (key) {
		if (key->stat) {
			REF_RELEASE(key->stat);
		}

		if (key->flags_stat) {
			kh_destroy(fuzzy_key_flag_stat, key->flags_stat);
		}

		if (key->forbidden_ids) {
			kh_destroy(fuzzy_key_ids_set, key->forbidden_ids);
		}

		if (key->rl_bucket) {
			/* TODO: save bucket stats */
			g_free(key->rl_bucket);
		}

		if (key->name) {
			g_free(key->name);
		}

		g_free(key);
	}
}

static void
fuzzy_hash_table_dtor(khash_t(rspamd_fuzzy_keys_hash) * hash)
{
	struct fuzzy_key *key;
	kh_foreach_value(hash, key, {
		REF_RELEASE(key);
	});
	kh_destroy(rspamd_fuzzy_keys_hash, hash);
}

static void
fuzzy_count_callback(uint64_t count, void *ud)
{
	struct rspamd_fuzzy_storage_ctx *ctx = ud;

	ctx->stat.fuzzy_hashes = count;
}

static void
fuzzy_rl_bucket_free(gpointer p)
{
	struct rspamd_leaky_bucket_elt *elt = (struct rspamd_leaky_bucket_elt *) p;

	rspamd_inet_address_free(elt->addr);
	g_free(elt);
}

static void
fuzzy_stat_count_callback(uint64_t count, void *ud)
{
	struct rspamd_fuzzy_storage_ctx *ctx = ud;

	ev_timer_again(ctx->event_loop, &ctx->stat_ev);
	ctx->stat.fuzzy_hashes = count;
}

static void
rspamd_fuzzy_stat_callback(EV_P_ ev_timer *w, int revents)
{
	struct rspamd_fuzzy_storage_ctx *ctx =
		(struct rspamd_fuzzy_storage_ctx *) w->data;
	rspamd_fuzzy_backend_count(ctx->backend, fuzzy_stat_count_callback, ctx);
}


static void
fuzzy_update_version_callback(uint64_t ver, void *ud)
{
}

static void
rspamd_fuzzy_updates_cb(gboolean success,
						unsigned int nadded,
						unsigned int ndeleted,
						unsigned int nextended,
						unsigned int nignored,
						void *ud)
{
	struct rspamd_updates_cbdata *cbdata = ud;
	struct rspamd_fuzzy_storage_ctx *ctx;
	const char *source;

	ctx = cbdata->ctx;
	source = cbdata->source;

	if (success) {
		rspamd_fuzzy_backend_count(ctx->backend, fuzzy_count_callback, ctx);

		msg_info("successfully updated fuzzy storage %s: %d updates in queue; "
				 "%d pending currently; "
				 "%d added; %d deleted; %d extended; %d duplicates",
				 ctx->worker->cf->bind_conf ? ctx->worker->cf->bind_conf->bind_line : "unknown",
				 cbdata->updates_pending->len,
				 ctx->updates_pending->len,
				 nadded, ndeleted, nextended, nignored);
		rspamd_fuzzy_backend_version(ctx->backend, source,
									 fuzzy_update_version_callback, NULL);
		ctx->updates_failed = 0;

		if (cbdata->final || ctx->worker->state != rspamd_worker_state_running) {
			/* Plan exit */
			ev_break(ctx->event_loop, EVBREAK_ALL);
		}
	}
	else {
		if (++ctx->updates_failed > ctx->updates_maxfail) {
			msg_err("cannot commit update transaction to fuzzy backend %s, discard "
					"%ud updates after %d retries",
					ctx->worker->cf->bind_conf ? ctx->worker->cf->bind_conf->bind_line : "unknown",
					cbdata->updates_pending->len,
					ctx->updates_maxfail);
			ctx->updates_failed = 0;

			if (cbdata->final || ctx->worker->state != rspamd_worker_state_running) {
				/* Plan exit */
				ev_break(ctx->event_loop, EVBREAK_ALL);
			}
		}
		else {
			if (ctx->updates_pending) {
				msg_err("cannot commit update transaction to fuzzy backend %s; "
						"%ud updates are still left; %ud currently pending;"
						" %d retries remaining",
						ctx->worker->cf->bind_conf ? ctx->worker->cf->bind_conf->bind_line : "unknown",
						cbdata->updates_pending->len,
						ctx->updates_pending->len,
						ctx->updates_maxfail - ctx->updates_failed);
				/* Move the remaining updates to ctx queue */
				g_array_append_vals(ctx->updates_pending,
									cbdata->updates_pending->data,
									cbdata->updates_pending->len);

				if (cbdata->final) {
					/* Try one more time */
					rspamd_fuzzy_process_updates_queue(cbdata->ctx, cbdata->source,
													   cbdata->final);
				}
			}
			else {
				/* We have lost our ctx, so it is a race condition case */
				msg_err("cannot commit update transaction to fuzzy backend %s; "
						"%ud updates are still left; no more retries: a worker is terminated",
						ctx->worker->cf->bind_conf ? ctx->worker->cf->bind_conf->bind_line : "unknown",
						cbdata->updates_pending->len);
			}
		}
	}

	g_array_free(cbdata->updates_pending, TRUE);
	g_free(cbdata->source);
	g_free(cbdata);
}

static gboolean
rspamd_fuzzy_process_updates_queue(struct rspamd_fuzzy_storage_ctx *ctx,
								   const char *source, gboolean final)
{

	struct rspamd_updates_cbdata *cbdata;

	if (ctx->updates_pending->len > 0) {
		cbdata = g_malloc(sizeof(*cbdata));
		cbdata->ctx = ctx;
		cbdata->final = final;
		cbdata->updates_pending = ctx->updates_pending;
		ctx->updates_pending = g_array_sized_new(FALSE, FALSE,
												 sizeof(struct fuzzy_peer_cmd),
												 MAX(cbdata->updates_pending->len, 1024));
		cbdata->source = g_strdup(source);
		rspamd_fuzzy_backend_process_updates(ctx->backend,
											 cbdata->updates_pending,
											 source, rspamd_fuzzy_updates_cb, cbdata);
		return TRUE;
	}
	else if (final) {
		/* No need to sync */
		ev_break(ctx->event_loop, EVBREAK_ALL);
	}

	return FALSE;
}

static void
rspamd_fuzzy_reply_io(EV_P_ ev_io *w, int revents)
{
	struct fuzzy_session *session = (struct fuzzy_session *) w->data;

	ev_io_stop(EV_A_ w);
	rspamd_fuzzy_write_reply(session);
	REF_RELEASE(session);
}

static void
rspamd_fuzzy_write_reply(struct fuzzy_session *session)
{
	gssize r;
	gsize len;
	gconstpointer data;

	if (session->cmd_type == CMD_ENCRYPTED_NORMAL ||
		session->cmd_type == CMD_ENCRYPTED_SHINGLE) {
		/* Encrypted reply */
		data = &session->reply;

		if (session->epoch > RSPAMD_FUZZY_EPOCH10) {
			len = sizeof(session->reply);
		}
		else {
			len = sizeof(session->reply.hdr) + sizeof(session->reply.rep.v1);
		}
	}
	else {
		data = &session->reply.rep;

		if (session->epoch > RSPAMD_FUZZY_EPOCH10) {
			len = sizeof(session->reply.rep);
		}
		else {
			len = sizeof(session->reply.rep.v1);
		}
	}

	r = rspamd_inet_address_sendto(session->fd, data, len, 0,
								   session->addr);

	if (r == -1) {
		if (errno == EINTR || errno == EWOULDBLOCK || errno == EAGAIN) {
			/* Grab reference to avoid early destruction */
			REF_RETAIN(session);
			session->io.data = session;
			ev_io_init(&session->io,
					   rspamd_fuzzy_reply_io, session->fd, EV_WRITE);
			ev_io_start(session->ctx->event_loop, &session->io);
		}
		else {
			msg_err("error while writing reply: %s", strerror(errno));
		}
	}
}

static void
rspamd_fuzzy_update_key_stat(gboolean matched,
							 struct fuzzy_key_stat *key_stat,
							 unsigned int cmd,
							 struct rspamd_fuzzy_reply *res,
							 ev_tstamp timestamp)
{
	if (!matched && res->v1.value != 0) {
		key_stat->errors++;
	}
	else {
		if (cmd == FUZZY_CHECK) {
			key_stat->checked++;

			if (matched) {
				key_stat->matched++;
			}

			if (G_UNLIKELY(key_stat->last_checked_time == 0.0)) {
				key_stat->last_checked_time = timestamp;
				key_stat->last_checked_count = key_stat->checked;
				key_stat->last_matched_count = key_stat->matched;
			}
			else if (G_UNLIKELY(timestamp > key_stat->last_checked_time + KEY_STAT_INTERVAL)) {
				uint64_t nchecked = key_stat->checked - key_stat->last_checked_count;
				uint64_t nmatched = key_stat->matched - key_stat->last_matched_count;

				rspamd_set_counter_ema(&key_stat->checked_ctr, nchecked, 0.5f);
				rspamd_set_counter_ema(&key_stat->matched_ctr, nmatched, 0.5f);
				key_stat->last_checked_time = timestamp;
				key_stat->last_checked_count = key_stat->checked;
				key_stat->last_matched_count = key_stat->matched;
			}
		}
		else if (cmd == FUZZY_WRITE) {
			key_stat->added++;
		}
		else if (cmd == FUZZY_DEL) {
			key_stat->deleted++;
		}
	}
}

static void
rspamd_fuzzy_update_stats(struct rspamd_fuzzy_storage_ctx *ctx,
						  enum rspamd_fuzzy_epoch epoch,
						  gboolean matched,
						  gboolean is_shingle,
						  gboolean is_delayed,
						  struct fuzzy_key *key,
						  struct fuzzy_key_stat *ip_stat,
						  unsigned int cmd,
						  struct rspamd_fuzzy_reply *res,
						  ev_tstamp timestamp)
{
	ctx->stat.fuzzy_hashes_checked[epoch]++;

	if (matched) {
		ctx->stat.fuzzy_hashes_found[epoch]++;
	}
	if (is_shingle) {
		ctx->stat.fuzzy_shingles_checked[epoch]++;
	}
	if (is_delayed) {
		ctx->stat.delayed_hashes++;
	}

	if (key) {
		rspamd_fuzzy_update_key_stat(matched, key->stat, cmd, res, timestamp);

		if (matched || ((cmd == FUZZY_WRITE || cmd == FUZZY_DEL) && res->v1.value == 0)) {
			/* Update per flag stats */
			khiter_t k;
			struct fuzzy_key_stat *flag_stat;
			k = kh_get(fuzzy_key_flag_stat, key->flags_stat, res->v1.flag);

			if (k == kh_end(key->flags_stat)) {
				/* Insert new flag */
				int r;
				k = kh_put(fuzzy_key_flag_stat, key->flags_stat, res->v1.flag, &r);
				memset(&kh_value(key->flags_stat, k), 0, sizeof(struct fuzzy_key_stat));
			}

			flag_stat = &kh_value(key->flags_stat, k);
			rspamd_fuzzy_update_key_stat(matched, flag_stat, cmd, res, timestamp);
		}
	}

	if (ip_stat) {
		if (!matched && res->v1.value != 0) {
			ip_stat->errors++;
		}
		else {
			if (cmd == FUZZY_CHECK) {
				ip_stat->checked++;

				if (matched) {
					ip_stat->matched++;
				}
			}
			else if (cmd == FUZZY_WRITE) {
				ip_stat->added++;
			}
			else if (cmd == FUZZY_DEL) {
				ip_stat->deleted++;
			}
		}
	}
}

enum rspamd_fuzzy_reply_flags {
	RSPAMD_FUZZY_REPLY_ENCRYPTED = 0x1u << 0u,
	RSPAMD_FUZZY_REPLY_SHINGLE = 0x1u << 1u,
	RSPAMD_FUZZY_REPLY_DELAY = 0x1u << 2u,
};

static void
rspamd_fuzzy_make_reply(struct rspamd_fuzzy_cmd *cmd,
						struct rspamd_fuzzy_reply *result,
						struct fuzzy_session *session,
						int flags)
{
	gsize len;

	if (cmd) {
		result->v1.tag = cmd->tag;
		memcpy(&session->reply.rep, result, sizeof(*result));

		if (flags & RSPAMD_FUZZY_REPLY_DELAY) {
			/* Hash is too fresh, need to delay it */
			session->reply.rep.ts = 0;
			session->reply.rep.v1.prob = 0.0f;
			session->reply.rep.v1.value = 0;
		}

		bool default_disabled = false;

		{
			khiter_t k;

			k = kh_get(fuzzy_key_ids_set, session->ctx->default_forbidden_ids, session->reply.rep.v1.flag);

			if (k != kh_end(session->ctx->default_forbidden_ids)) {
				/* Hash is from a forbidden flag by default */
				default_disabled = true;
			}
		}

		if (flags & RSPAMD_FUZZY_REPLY_ENCRYPTED) {

			if (session->reply.rep.v1.prob > 0 && session->key && session->key->forbidden_ids) {
				khiter_t k;

				k = kh_get(fuzzy_key_ids_set, session->key->forbidden_ids, session->reply.rep.v1.flag);

				if (k != kh_end(session->key->forbidden_ids)) {
					/* Hash is from a forbidden flag for this key */
					session->reply.rep.ts = 0;
					session->reply.rep.v1.prob = 0.0f;
					session->reply.rep.v1.value = 0;
					session->reply.rep.v1.flag = 0;
				}
			}
			else if (default_disabled) {
				/* Hash is from a forbidden flag by default */
				session->reply.rep.ts = 0;
				session->reply.rep.v1.prob = 0.0f;
				session->reply.rep.v1.value = 0;
				session->reply.rep.v1.flag = 0;
			}

			/* We need also to encrypt reply */
			ottery_rand_bytes(session->reply.hdr.nonce,
							  sizeof(session->reply.hdr.nonce));

			/*
			 * For old replies we need to encrypt just old part, otherwise
			 * decryption would fail due to mac verification mistake
			 */

			if (session->epoch > RSPAMD_FUZZY_EPOCH10) {
				len = sizeof(session->reply.rep);
			}
			else {
				len = sizeof(session->reply.rep.v1);
			}

			/* Update stats before encryption */
			if (cmd->cmd != FUZZY_STAT && cmd->cmd <= FUZZY_CLIENT_MAX) {
				rspamd_fuzzy_update_stats(session->ctx,
										  session->epoch,
										  session->reply.rep.v1.prob > 0.5f,
										  flags & RSPAMD_FUZZY_REPLY_SHINGLE,
										  flags & RSPAMD_FUZZY_REPLY_DELAY,
										  session->key,
										  session->ip_stat,
										  cmd->cmd,
										  &session->reply.rep,
										  session->timestamp);
			}

			rspamd_cryptobox_encrypt_nm_inplace((unsigned char *) &session->reply.rep,
												len,
												session->reply.hdr.nonce,
												session->nm,
												session->reply.hdr.mac);
		}
		else if (default_disabled) {
			/* Hash is from a forbidden flag by default, and there is no encryption override */
			session->reply.rep.ts = 0;
			session->reply.rep.v1.prob = 0.0f;
			session->reply.rep.v1.value = 0;
			session->reply.rep.v1.flag = 0;
		}
		if (!(flags & RSPAMD_FUZZY_REPLY_ENCRYPTED)) {
			if (cmd->cmd != FUZZY_STAT && cmd->cmd <= FUZZY_CLIENT_MAX) {
				rspamd_fuzzy_update_stats(session->ctx,
										  session->epoch,
										  session->reply.rep.v1.prob > 0.5f,
										  flags & RSPAMD_FUZZY_REPLY_SHINGLE,
										  flags & RSPAMD_FUZZY_REPLY_DELAY,
										  session->key,
										  session->ip_stat,
										  cmd->cmd,
										  &session->reply.rep,
										  session->timestamp);
			}
		}
	}

	rspamd_fuzzy_write_reply(session);
}

static gboolean
fuzzy_peer_try_send(int fd, struct fuzzy_peer_request *up_req)
{
	gssize r;

	r = write(fd, &up_req->cmd, sizeof(up_req->cmd));

	if (r != sizeof(up_req->cmd)) {
		return FALSE;
	}

	return TRUE;
}

static void
fuzzy_peer_send_io(EV_P_ ev_io *w, int revents)
{
	struct fuzzy_peer_request *up_req = (struct fuzzy_peer_request *) w->data;

	if (!fuzzy_peer_try_send(w->fd, up_req)) {
		msg_err("cannot send update request to the peer: %s", strerror(errno));
	}

	ev_io_stop(EV_A_ w);
	g_free(up_req);
}

static void
rspamd_fuzzy_extensions_tolua(lua_State *L,
							  struct fuzzy_session *session)
{
	struct rspamd_fuzzy_cmd_extension *ext;
	rspamd_inet_addr_t *addr;

	lua_createtable(L, 0, 0);

	LL_FOREACH(session->extensions, ext)
	{
		switch (ext->ext) {
		case RSPAMD_FUZZY_EXT_SOURCE_DOMAIN:
			lua_pushlstring(L, ext->payload, ext->length);
			lua_setfield(L, -2, "domain");
			break;
		case RSPAMD_FUZZY_EXT_SOURCE_IP4:
			addr = rspamd_inet_address_new(AF_INET, ext->payload);
			rspamd_lua_ip_push(L, addr);
			rspamd_inet_address_free(addr);
			lua_setfield(L, -2, "ip");
			break;
		case RSPAMD_FUZZY_EXT_SOURCE_IP6:
			addr = rspamd_inet_address_new(AF_INET6, ext->payload);
			rspamd_lua_ip_push(L, addr);
			rspamd_inet_address_free(addr);
			lua_setfield(L, -2, "ip");
			break;
		}
	}
}

static void
rspamd_fuzzy_check_callback(struct rspamd_fuzzy_reply *result, void *ud)
{
	struct fuzzy_session *session = ud;
	gboolean is_shingle = FALSE, __attribute__((unused)) encrypted = FALSE;
	struct rspamd_fuzzy_cmd *cmd = NULL;
	const struct rspamd_shingle *shingle = NULL;
	struct rspamd_shingle sgl_cpy;
	int send_flags = 0;

	switch (session->cmd_type) {
	case CMD_ENCRYPTED_NORMAL:
		encrypted = TRUE;
		send_flags |= RSPAMD_FUZZY_REPLY_ENCRYPTED;
		/* Fallthrough */
	case CMD_NORMAL:
		cmd = &session->cmd.basic;
		break;

	case CMD_ENCRYPTED_SHINGLE:
		encrypted = TRUE;
		send_flags |= RSPAMD_FUZZY_REPLY_ENCRYPTED;
		/* Fallthrough */
	case CMD_SHINGLE:
		cmd = &session->cmd.basic;
		memcpy(&sgl_cpy, &session->cmd.sgl, sizeof(sgl_cpy));
		shingle = &sgl_cpy;
		is_shingle = TRUE;
		send_flags |= RSPAMD_FUZZY_REPLY_SHINGLE;
		break;
	}

	if (session->ctx->lua_post_handler_cbref != -1) {
		/* Start lua post handler */
		lua_State *L = session->ctx->cfg->lua_state;
		int err_idx, ret;

		lua_pushcfunction(L, &rspamd_lua_traceback);
		err_idx = lua_gettop(L);
		/* Preallocate stack (small opt) */
		lua_checkstack(L, err_idx + 9);
		/* function */
		lua_rawgeti(L, LUA_REGISTRYINDEX, session->ctx->lua_post_handler_cbref);
		/* client IP */
		if (session->addr) {
			rspamd_lua_ip_push(L, session->addr);
		}
		else {
			lua_pushnil(L);
		}
		/* client command */
		lua_pushinteger(L, cmd->cmd);
		/* command value (push as rspamd_text) */
		(void) lua_new_text(L, result->digest, sizeof(result->digest), FALSE);
		/* is shingle */
		lua_pushboolean(L, is_shingle);
		/* result value */
		lua_pushinteger(L, result->v1.value);
		/* result probability */
		lua_pushnumber(L, result->v1.prob);
		/* result flag */
		lua_pushinteger(L, result->v1.flag);
		/* result timestamp */
		lua_pushinteger(L, result->ts);
		/* TODO: add additional data maybe (encryption, pubkey, etc) */
		rspamd_fuzzy_extensions_tolua(L, session);

		if ((ret = lua_pcall(L, 9, LUA_MULTRET, err_idx)) != 0) {
			msg_err("call to lua_post_handler lua "
					"script failed (%d): %s",
					ret, lua_tostring(L, -1));
		}
		else {
			/* Return values order:
			 * the first reply will be on err_idx + 1
			 * if it is true, then we need to read the former ones:
			 * 2-nd will be reply code
			 * 3-rd will be probability (or 0.0 if missing)
			 * 4-th value is flag (or default flag if missing)
			 */
			ret = lua_toboolean(L, err_idx + 1);

			if (ret) {
				/* Artificial reply */
				result->v1.value = lua_tointeger(L, err_idx + 2);

				if (lua_isnumber(L, err_idx + 3)) {
					result->v1.prob = lua_tonumber(L, err_idx + 3);
				}
				else {
					result->v1.prob = 0.0f;
				}

				if (lua_isnumber(L, err_idx + 4)) {
					result->v1.flag = lua_tointeger(L, err_idx + 4);
				}

				lua_settop(L, 0);
				rspamd_fuzzy_make_reply(cmd, result, session, send_flags);
				REF_RELEASE(session);

				return;
			}
		}

		lua_settop(L, 0);
	}

	if (!isnan(session->ctx->delay) &&
		rspamd_match_radix_map_addr(session->ctx->delay_whitelist,
									session->addr) == NULL) {
		double hash_age = rspamd_get_calendar_ticks() - result->ts;
		double jittered_age = rspamd_time_jitter(session->ctx->delay,
												 session->ctx->delay / 2.0);

		if (hash_age < jittered_age) {
			send_flags |= RSPAMD_FUZZY_REPLY_DELAY;
		}
	}

	/* Refresh hash if found with strong confidence */
	if (result->v1.prob > 0.9 && !session->ctx->read_only) {
		struct fuzzy_peer_cmd up_cmd;
		struct fuzzy_peer_request *up_req;

		if (session->worker->index == 0) {
			/* Just add to the queue */
			memset(&up_cmd, 0, sizeof(up_cmd));
			up_cmd.is_shingle = is_shingle;
			memcpy(up_cmd.cmd.normal.digest, result->digest,
				   sizeof(up_cmd.cmd.normal.digest));
			up_cmd.cmd.normal.flag = result->v1.flag;
			up_cmd.cmd.normal.cmd = FUZZY_REFRESH;
			up_cmd.cmd.normal.shingles_count = cmd->shingles_count;

			if (is_shingle && shingle) {
				memcpy(&up_cmd.cmd.shingle.sgl, shingle,
					   sizeof(up_cmd.cmd.shingle.sgl));
			}

			g_array_append_val(session->ctx->updates_pending, up_cmd);
		}
		else {
			/* We need to send request to the peer */
			up_req = g_malloc0(sizeof(*up_req));
			up_req->cmd.is_shingle = is_shingle;

			memcpy(up_req->cmd.cmd.normal.digest, result->digest,
				   sizeof(up_req->cmd.cmd.normal.digest));
			up_req->cmd.cmd.normal.flag = result->v1.flag;
			up_req->cmd.cmd.normal.cmd = FUZZY_REFRESH;
			up_req->cmd.cmd.normal.shingles_count = cmd->shingles_count;

			if (is_shingle && shingle) {
				memcpy(&up_req->cmd.cmd.shingle.sgl, shingle,
					   sizeof(up_req->cmd.cmd.shingle.sgl));
			}

			if (!fuzzy_peer_try_send(session->ctx->peer_fd, up_req)) {
				up_req->io_ev.data = up_req;
				ev_io_init(&up_req->io_ev, fuzzy_peer_send_io,
						   session->ctx->peer_fd, EV_WRITE);
				ev_io_start(session->ctx->event_loop, &up_req->io_ev);
			}
			else {
				g_free(up_req);
			}
		}
	}

	rspamd_fuzzy_make_reply(cmd, result, session, send_flags);

	REF_RELEASE(session);
}

static void
rspamd_fuzzy_process_command(struct fuzzy_session *session)
{
	gboolean is_shingle = FALSE, __attribute__((unused)) encrypted = FALSE;
	struct rspamd_fuzzy_cmd *cmd = NULL;
	struct rspamd_fuzzy_reply result;
	struct fuzzy_peer_cmd up_cmd;
	struct fuzzy_peer_request *up_req;
	struct fuzzy_key_stat *ip_stat = NULL;
	char hexbuf[rspamd_cryptobox_HASHBYTES * 2 + 1];
	rspamd_inet_addr_t *naddr;
	gpointer ptr;
	gsize up_len = 0;
	int send_flags = 0;

	cmd = &session->cmd.basic;

	switch (session->cmd_type) {
	case CMD_NORMAL:
		up_len = sizeof(session->cmd.basic);
		break;
	case CMD_SHINGLE:
		up_len = sizeof(session->cmd);
		is_shingle = TRUE;
		send_flags |= RSPAMD_FUZZY_REPLY_SHINGLE;
		break;
	case CMD_ENCRYPTED_NORMAL:
		up_len = sizeof(session->cmd.basic);
		encrypted = TRUE;
		send_flags |= RSPAMD_FUZZY_REPLY_ENCRYPTED;
		break;
	case CMD_ENCRYPTED_SHINGLE:
		up_len = sizeof(session->cmd);
		encrypted = TRUE;
		is_shingle = TRUE;
		send_flags |= RSPAMD_FUZZY_REPLY_SHINGLE | RSPAMD_FUZZY_REPLY_ENCRYPTED;
		break;
	default:
		msg_err("invalid command type: %d", session->cmd_type);
		return;
	}

	memset(&result, 0, sizeof(result));
	memcpy(result.digest, cmd->digest, sizeof(result.digest));
	result.v1.flag = cmd->flag;
	result.v1.tag = cmd->tag;

	if (session->ctx->lua_pre_handler_cbref != -1) {
		/* Start lua pre handler */
		lua_State *L = session->ctx->cfg->lua_state;
		int err_idx, ret;

		lua_pushcfunction(L, &rspamd_lua_traceback);
		err_idx = lua_gettop(L);
		/* Preallocate stack (small opt) */
		lua_checkstack(L, err_idx + 5);
		/* function */
		lua_rawgeti(L, LUA_REGISTRYINDEX, session->ctx->lua_pre_handler_cbref);
		/* client IP */
		rspamd_lua_ip_push(L, session->addr);
		/* client command */
		lua_pushinteger(L, cmd->cmd);
		/* command value (push as rspamd_text) */
		(void) lua_new_text(L, cmd->digest, sizeof(cmd->digest), FALSE);
		/* is shingle */
		lua_pushboolean(L, is_shingle);
		/* TODO: add additional data maybe (encryption, pubkey, etc) */
		rspamd_fuzzy_extensions_tolua(L, session);

		if ((ret = lua_pcall(L, 5, LUA_MULTRET, err_idx)) != 0) {
			msg_err("call to lua_pre_handler lua "
					"script failed (%d): %s",
					ret, lua_tostring(L, -1));
		}
		else {
			/* Return values order:
			 * the first reply will be on err_idx + 1
			 * if it is true, then we need to read the former ones:
			 * 2-nd will be reply code
			 * 3-rd will be probability (or 0.0 if missing)
			 */
			ret = lua_toboolean(L, err_idx + 1);

			if (ret) {
				/* Artificial reply */
				result.v1.value = lua_tointeger(L, err_idx + 2);

				if (lua_isnumber(L, err_idx + 3)) {
					result.v1.prob = lua_tonumber(L, err_idx + 3);
				}
				else {
					result.v1.prob = 0.0f;
				}

				lua_settop(L, 0);
				rspamd_fuzzy_make_reply(cmd, &result, session, send_flags);

				return;
			}
		}

		lua_settop(L, 0);
	}


	if (G_UNLIKELY(cmd == NULL || up_len == 0)) {
		result.v1.value = 500;
		result.v1.prob = 0.0f;
		rspamd_fuzzy_make_reply(cmd, &result, session, send_flags);
		return;
	}

	if (session->ctx->encrypted_only && !encrypted) {
		/* Do not accept unencrypted commands */
		result.v1.value = 415;
		result.v1.prob = 0.0f;
		rspamd_fuzzy_make_reply(cmd, &result, session, send_flags);
		return;
	}

	if (!rspamd_fuzzy_check_client(session->ctx, session->addr)) {
		result.v1.value = 503;
		result.v1.prob = 0.0f;
		rspamd_fuzzy_make_reply(cmd, &result, session, send_flags);
		return;
	}

	if (session->key && session->addr) {
		ip_stat = rspamd_lru_hash_lookup(session->key->stat->last_ips,
										 session->addr, -1);

		if (ip_stat == NULL) {
			naddr = rspamd_inet_address_copy(session->addr, NULL);
			ip_stat = g_malloc0(sizeof(*ip_stat));
			REF_INIT_RETAIN(ip_stat, fuzzy_key_stat_dtor);
			rspamd_lru_hash_insert(session->key->stat->last_ips,
								   naddr, ip_stat, -1, 0);
		}

		REF_RETAIN(ip_stat);
		session->ip_stat = ip_stat;
	}

	if (cmd->cmd == FUZZY_CHECK) {
		bool is_rate_allowed = true;

		if (session->ctx->ratelimit_buckets) {
			if (session->ctx->ratelimit_log_only) {
				(void) rspamd_fuzzy_check_ratelimit(session); /* Check but ignore */
			}
			else {
				is_rate_allowed = rspamd_fuzzy_check_ratelimit(session);
			}
		}

		if (session->key && session->key->rl_bucket) {
			/* Check per-key bucket */

			enum rspamd_ratelimit_check_result res = rspamd_fuzzy_check_ratelimit_bucket(session, session->key->rl_bucket,
																						 ratelimit_policy_normal,
																						 session->key->burst,
																						 session->key->rate);

			if (res == ratelimit_new) {
				msg_info("ratelimiting key %s %.1f max elts",
						 session->key->name ? session->key->name : "unknown",
						 session->key->burst);

				struct rspamd_srv_command srv_cmd;

				srv_cmd.type = RSPAMD_SRV_FUZZY_BLOCKED;
				srv_cmd.cmd.fuzzy_blocked.af = rspamd_inet_address_get_af(session->addr);

				if (srv_cmd.cmd.fuzzy_blocked.af == AF_INET || srv_cmd.cmd.fuzzy_blocked.af == AF_INET6) {
					socklen_t slen;
					struct sockaddr *sa = rspamd_inet_address_get_sa(session->addr, &slen);

					if (slen <= sizeof(srv_cmd.cmd.fuzzy_blocked.addr)) {
						memcpy(&srv_cmd.cmd.fuzzy_blocked.addr, sa, slen);
						msg_debug("propagating blocked address to other workers");
						rspamd_srv_send_command(session->worker,
												session->ctx->event_loop,
												&srv_cmd, -1, NULL, NULL);
					}
					else {
						msg_err("bad address length: %d, expected to be %d",
								(int) slen, (int) sizeof(srv_cmd.cmd.fuzzy_blocked.addr));
					}
				}

				rspamd_fuzzy_maybe_call_blacklisted(session->ctx, session->addr, "ratelimit");
				is_rate_allowed = session->ctx->ratelimit_log_only ? true : false;
			}
			else if (res == ratelimit_existing) {
				rspamd_fuzzy_maybe_call_blacklisted(session->ctx, session->addr, "ratelimit");
				is_rate_allowed = session->ctx->ratelimit_log_only ? true : false;
			}
		}

		if (session->key && !isnan(session->key->expire)) {
			/* Check expire */
			static ev_tstamp today = NAN;

			/*
			 * Update `today` sometimes
			 */
			if (isnan(today)) {
				today = ev_time();
			}
			else if (rspamd_random_uint64_fast() > 0xFFFF000000000000ULL) {
				today = ev_time();
			}

			if (today > session->key->expire) {
				if (!session->key->expired) {
					msg_info("key %s is expired", session->key->name);
					session->key->expired = true;
				}

				result.v1.value = 503;
				result.v1.prob = 0.0f;
				rspamd_fuzzy_make_reply(cmd, &result, session, send_flags);
				return;
			}
		}

		if (is_rate_allowed) {
			REF_RETAIN(session);
			rspamd_fuzzy_backend_check(session->ctx->backend, cmd,
									   rspamd_fuzzy_check_callback, session);
		}
		else {
			/* Should be 429 but we keep compatibility */
			result.v1.value = 403;
			result.v1.prob = 0.0f;
			result.v1.flag = 0;
			rspamd_fuzzy_make_reply(cmd, &result, session, send_flags);
		}
	}
	else if (cmd->cmd == FUZZY_STAT) {
		/* Store approximation (if needed) */
		result.v1.prob = session->ctx->stat.fuzzy_hashes;
		/* Store high qword in value and low qword in flag */
		result.v1.value = (int32_t) ((uint64_t) session->ctx->stat.fuzzy_hashes >> 32);
		result.v1.flag = (uint32_t) (session->ctx->stat.fuzzy_hashes & G_MAXUINT32);
		rspamd_fuzzy_make_reply(cmd, &result, session, send_flags);
	}
	else if (cmd->cmd == FUZZY_PING) {
		result.v1.prob = 1.0f;
		result.v1.value = cmd->value;
		rspamd_fuzzy_make_reply(cmd, &result, session, send_flags);
	}
	else {
		if (rspamd_fuzzy_check_write(session)) {
			/* Check whitelist */
			if (session->ctx->skip_hashes && cmd->cmd == FUZZY_WRITE) {
				rspamd_encode_hex_buf(cmd->digest, sizeof(cmd->digest),
									  hexbuf, sizeof(hexbuf) - 1);
				hexbuf[sizeof(hexbuf) - 1] = '\0';

				if (rspamd_match_hash_map(session->ctx->skip_hashes,
										  hexbuf, sizeof(hexbuf) - 1)) {
					result.v1.value = 401;
					result.v1.prob = 0.0f;

					goto reply;
				}
			}

			if (session->ctx->weak_ids && kh_get(fuzzy_key_ids_set, session->ctx->weak_ids, cmd->flag) != kh_end(session->ctx->weak_ids)) {
				/* Flag command as weak */
				cmd->version |= RSPAMD_FUZZY_FLAG_WEAK;
			}

			if (session->worker->index == 0 || session->ctx->peer_fd == -1) {
				/* Just add to the queue */
				up_cmd.is_shingle = is_shingle;
				ptr = is_shingle ? (gpointer) &up_cmd.cmd.shingle : (gpointer) &up_cmd.cmd.normal;
				memcpy(ptr, cmd, up_len);
				g_array_append_val(session->ctx->updates_pending, up_cmd);
			}
			else {
				/* We need to send request to the peer */
				up_req = g_malloc0(sizeof(*up_req));
				up_req->cmd.is_shingle = is_shingle;
				ptr = is_shingle ? (gpointer) &up_req->cmd.cmd.shingle : (gpointer) &up_req->cmd.cmd.normal;
				memcpy(ptr, cmd, up_len);

				if (!fuzzy_peer_try_send(session->ctx->peer_fd, up_req)) {
					up_req->io_ev.data = up_req;
					ev_io_init(&up_req->io_ev, fuzzy_peer_send_io,
							   session->ctx->peer_fd, EV_WRITE);
					ev_io_start(session->ctx->event_loop, &up_req->io_ev);
				}
				else {
					g_free(up_req);
				}
			}

			result.v1.value = 0;
			result.v1.prob = 1.0f;
		}
		else {
			result.v1.value = 503;
			result.v1.prob = 0.0f;
		}
	reply:
		rspamd_fuzzy_make_reply(cmd, &result, session, send_flags);
	}
}


static enum rspamd_fuzzy_epoch
rspamd_fuzzy_command_valid(struct rspamd_fuzzy_cmd *cmd, int r)
{
	enum rspamd_fuzzy_epoch ret = RSPAMD_FUZZY_EPOCH_MAX;

	switch (cmd->version & RSPAMD_FUZZY_VERSION_MASK) {
	case 4:
		if (cmd->shingles_count > 0) {
			if (r >= sizeof(struct rspamd_fuzzy_shingle_cmd)) {
				ret = RSPAMD_FUZZY_EPOCH11;
			}
		}
		else {
			if (r >= sizeof(*cmd)) {
				ret = RSPAMD_FUZZY_EPOCH11;
			}
		}
		break;
	case 3:
		if (cmd->shingles_count > 0) {
			if (r == sizeof(struct rspamd_fuzzy_shingle_cmd)) {
				ret = RSPAMD_FUZZY_EPOCH10;
			}
		}
		else {
			if (r == sizeof(*cmd)) {
				ret = RSPAMD_FUZZY_EPOCH10;
			}
		}
		break;
	default:
		break;
	}

	return ret;
}

static gboolean
rspamd_fuzzy_decrypt_command(struct fuzzy_session *s, unsigned char *buf, gsize buflen)
{
	struct rspamd_fuzzy_encrypted_req_hdr hdr;
	struct rspamd_cryptobox_pubkey *rk;
	struct fuzzy_key *key = NULL;

	if (s->ctx->default_key == NULL && s->ctx->dynamic_keys == NULL) {
		msg_warn("received encrypted request when encryption is not enabled");
		return FALSE;
	}

	if (buflen < sizeof(hdr)) {
		msg_warn("XXX: should not be reached");
		return FALSE;
	}

	memcpy(&hdr, buf, sizeof(hdr));
	buf += sizeof(hdr);
	buflen -= sizeof(hdr);

	/* Try to find the desired key */
	khiter_t k = kh_get(rspamd_fuzzy_keys_hash, s->ctx->keys, hdr.key_id);
	if (k == kh_end(s->ctx->keys)) {

		key = s->ctx->default_key;

		/* Check dynamic keys */
		if (s->ctx->dynamic_keys) {
			k = kh_get(rspamd_fuzzy_keys_hash, s->ctx->dynamic_keys, hdr.key_id);

			if (k != kh_end(s->ctx->keys)) {
				key = kh_val(s->ctx->dynamic_keys, k);
			}
		}
	}
	else {
		key = kh_val(s->ctx->keys, k);
	}

	if (key == NULL) {
		/* Cannot find any suitable decryption key */
		msg_debug("cannot find suitable decryption key");
		return FALSE;
	}

	/* Now process the remote pubkey */
	rk = rspamd_pubkey_from_bin(hdr.pubkey, sizeof(hdr.pubkey), RSPAMD_KEYPAIR_KEX);

	if (rk == NULL) {
		msg_err("bad key; ip=%s",
				rspamd_inet_address_to_string(s->addr));
		return FALSE;
	}

	/* Try to get the cached NM */
	rspamd_keypair_cache_process(s->ctx->keypair_cache, key->key, rk);

	/* Now decrypt request */
	if (!rspamd_cryptobox_decrypt_nm_inplace(buf, buflen, hdr.nonce,
											 rspamd_pubkey_get_nm(rk, key->key),
											 hdr.mac)) {
		msg_err("decryption failed; ip=%s",
				rspamd_inet_address_to_string(s->addr));
		rspamd_pubkey_unref(rk);

		return FALSE;
	}

	s->key = key;
	REF_RETAIN(key);

	memcpy(s->nm, rspamd_pubkey_get_nm(rk, key->key), sizeof(s->nm));
	rspamd_pubkey_unref(rk);

	return TRUE;
}


static gboolean
rspamd_fuzzy_extensions_from_wire(struct fuzzy_session *s, unsigned char *buf, gsize buflen)
{
	struct rspamd_fuzzy_cmd_extension *ext, *prev_ext;
	unsigned char *storage, *p = buf, *end = buf + buflen;
	gsize st_len = 0, n_ext = 0;

	/* Read number of extensions to allocate array */
	while (p < end) {
		unsigned char cmd = *p++;

		if (p < end) {
			if (cmd == RSPAMD_FUZZY_EXT_SOURCE_DOMAIN) {
				/* Next byte is buf length */
				unsigned char dom_len = *p++;

				if (dom_len <= (end - p)) {
					st_len += dom_len;
					n_ext++;
				}
				else {
					/* Truncation */
					return FALSE;
				}

				p += dom_len;
			}
			else if (cmd == RSPAMD_FUZZY_EXT_SOURCE_IP4) {
				if (end - p >= sizeof(in_addr_t)) {
					n_ext++;
					st_len += sizeof(in_addr_t);
				}
				else {
					/* Truncation */
					return FALSE;
				}

				p += sizeof(in_addr_t);
			}
			else if (cmd == RSPAMD_FUZZY_EXT_SOURCE_IP6) {
				if (end - p >= sizeof(struct in6_addr)) {
					n_ext++;
					st_len += sizeof(struct in6_addr);
				}
				else {
					/* Truncation */
					return FALSE;
				}

				p += sizeof(struct in6_addr);
			}
			else {
				/* Invalid command */
				return FALSE;
			}
		}
		else {
			/* Truncated extension */
			return FALSE;
		}
	}

	if (n_ext > 0) {
		p = buf;
		/*
		 * Memory layout: n_ext of struct rspamd_fuzzy_cmd_extension
		 *                payload for each extension in a continuous data segment
		 */
		storage = g_malloc(n_ext * sizeof(struct rspamd_fuzzy_cmd_extension) +
						   st_len);

		unsigned char *data_buf = storage +
								  n_ext * sizeof(struct rspamd_fuzzy_cmd_extension);
		ext = (struct rspamd_fuzzy_cmd_extension *) storage;

		/* All validation has been done, so we can just go further */
		while (p < end) {
			prev_ext = ext;
			unsigned char cmd = *p++;

			if (cmd == RSPAMD_FUZZY_EXT_SOURCE_DOMAIN) {
				/* Next byte is buf length */
				unsigned char dom_len = *p++;
				unsigned char *dest = data_buf;

				ext->ext = RSPAMD_FUZZY_EXT_SOURCE_DOMAIN;
				ext->next = ext + 1;
				ext->length = dom_len;
				ext->payload = dest;
				memcpy(dest, p, dom_len);
				p += dom_len;
				data_buf += dom_len;
				ext = ext->next;
			}
			else if (cmd == RSPAMD_FUZZY_EXT_SOURCE_IP4) {
				unsigned char *dest = data_buf;

				ext->ext = RSPAMD_FUZZY_EXT_SOURCE_IP4;
				ext->next = ext + 1;
				ext->length = sizeof(in_addr_t);
				ext->payload = dest;
				memcpy(dest, p, sizeof(in_addr_t));
				p += sizeof(in_addr_t);
				data_buf += sizeof(in_addr_t);
				ext = ext->next;
			}
			else if (cmd == RSPAMD_FUZZY_EXT_SOURCE_IP6) {
				unsigned char *dest = data_buf;

				ext->ext = RSPAMD_FUZZY_EXT_SOURCE_IP6;
				ext->next = ext + 1;
				ext->length = sizeof(struct in6_addr);
				ext->payload = dest;
				memcpy(dest, p, sizeof(struct in6_addr));
				p += sizeof(struct in6_addr);
				data_buf += sizeof(struct in6_addr);
				ext = ext->next;
			}
			else {
				g_assert_not_reached();
			}
		}

		/* Last next should be NULL */
		prev_ext->next = NULL;

		/* Rewind to the begin */
		ext = (struct rspamd_fuzzy_cmd_extension *) storage;
		s->extensions = ext;
	}

	return TRUE;
}

static gboolean
rspamd_fuzzy_cmd_from_wire(unsigned char *buf, unsigned int buflen, struct fuzzy_session *s)
{
	enum rspamd_fuzzy_epoch epoch;
	gboolean encrypted = FALSE;

	if (buflen < sizeof(struct rspamd_fuzzy_cmd)) {
		msg_debug("truncated fuzzy command of size %d received", buflen);
		return FALSE;
	}

	/* Now check encryption */

	if (buflen >= sizeof(struct rspamd_fuzzy_encrypted_cmd)) {
		if (memcmp(buf, fuzzy_encrypted_magic, sizeof(fuzzy_encrypted_magic)) == 0) {
			/* Encrypted command */
			encrypted = TRUE;
		}
	}

	if (encrypted) {
		/* Decrypt first */
		if (!rspamd_fuzzy_decrypt_command(s, buf, buflen)) {
			return FALSE;
		}
		else {
			/*
			 * Advance buffer to skip encrypted header.
			 * Note that after rspamd_fuzzy_decrypt_command buf is unencrypted
			 */
			buf += sizeof(struct rspamd_fuzzy_encrypted_req_hdr);
			buflen -= sizeof(struct rspamd_fuzzy_encrypted_req_hdr);
		}
	}

	/* Fill the normal command */
	if (buflen < sizeof(s->cmd.basic)) {
		msg_debug("truncated normal fuzzy command of size %d received", buflen);
		return FALSE;
	}

	memcpy(&s->cmd.basic, buf, sizeof(s->cmd.basic));
	epoch = rspamd_fuzzy_command_valid(&s->cmd.basic, buflen);

	if (epoch == RSPAMD_FUZZY_EPOCH_MAX) {
		msg_debug("invalid fuzzy command of size %d received", buflen);
		return FALSE;
	}

	s->epoch = epoch;

	/* Advance buf */
	buf += sizeof(s->cmd.basic);
	buflen -= sizeof(s->cmd.basic);

	if (s->cmd.basic.shingles_count > 0) {
		if (buflen >= sizeof(s->cmd.sgl)) {
			/* Copy the shingles part */
			memcpy(&s->cmd.sgl, buf, sizeof(s->cmd.sgl));
		}
		else {
			/* Truncated stuff */
			msg_debug("truncated fuzzy shingles command of size %d received", buflen);
			return FALSE;
		}

		buf += sizeof(s->cmd.sgl);
		buflen -= sizeof(s->cmd.sgl);

		if (encrypted) {
			s->cmd_type = CMD_ENCRYPTED_SHINGLE;
		}
		else {
			s->cmd_type = CMD_SHINGLE;
		}
	}
	else {
		if (encrypted) {
			s->cmd_type = CMD_ENCRYPTED_NORMAL;
		}
		else {
			s->cmd_type = CMD_NORMAL;
		}
	}

	if (buflen > 0) {
		/* Process possible extensions */
		if (!rspamd_fuzzy_extensions_from_wire(s, buf, buflen)) {
			msg_debug("truncated fuzzy shingles command of size %d received", buflen);
			return FALSE;
		}
	}

	return TRUE;
}


static void
fuzzy_session_destroy(gpointer d)
{
	struct fuzzy_session *session = d;

	rspamd_inet_address_free(session->addr);
	rspamd_explicit_memzero(session->nm, sizeof(session->nm));
	session->worker->nconns--;

	if (session->ip_stat) {
		REF_RELEASE(session->ip_stat);
	}

	if (session->extensions) {
		g_free(session->extensions);
	}

	if (session->key) {
		REF_RELEASE(session->key);
	}

	g_free(session);
}

#define FUZZY_INPUT_BUFLEN 1024
#ifdef HAVE_RECVMMSG
#define MSGVEC_LEN 16
#else
#define MSGVEC_LEN 1
#endif

union sa_union {
	struct sockaddr sa;
	struct sockaddr_in s4;
	struct sockaddr_in6 s6;
	struct sockaddr_un su;
	struct sockaddr_storage ss;
};
/*
 * Accept new connection and construct task
 */
static void
accept_fuzzy_socket(EV_P_ ev_io *w, int revents)
{
	struct rspamd_worker *worker = (struct rspamd_worker *) w->data;
	struct rspamd_fuzzy_storage_ctx *ctx;
	struct fuzzy_session *session;
	gssize r, msg_len;
	uint64_t *nerrors;
	struct iovec iovs[MSGVEC_LEN];
	uint8_t bufs[MSGVEC_LEN][FUZZY_INPUT_BUFLEN];
	union sa_union peer_sa[MSGVEC_LEN];
	socklen_t salen = sizeof(peer_sa[0]);
#ifdef HAVE_RECVMMSG
#define MSG_FIELD(msg, field) msg.msg_hdr.field
	struct mmsghdr msg[MSGVEC_LEN];
#else
#define MSG_FIELD(msg, field) msg.field
	struct msghdr msg[MSGVEC_LEN];
#endif

	memset(msg, 0, sizeof(*msg) * MSGVEC_LEN);
	ctx = (struct rspamd_fuzzy_storage_ctx *) worker->ctx;

	/* Prepare messages to receive */
	for (int i = 0; i < MSGVEC_LEN; i++) {
		/* Prepare msghdr structs */
		iovs[i].iov_base = bufs[i];
		iovs[i].iov_len = sizeof(bufs[i]);
		MSG_FIELD(msg[i], msg_name) = (void *) &peer_sa[i];
		MSG_FIELD(msg[i], msg_namelen) = salen;
		MSG_FIELD(msg[i], msg_iov) = &iovs[i];
		MSG_FIELD(msg[i], msg_iovlen) = 1;
	}

	/* Got some data */
	if (revents == EV_READ) {
		ev_now_update_if_cheap(ctx->event_loop);
		for (;;) {
#ifdef HAVE_RECVMMSG
			r = recvmmsg(w->fd, msg, MSGVEC_LEN, 0, NULL);
#else
			r = recvmsg(w->fd, msg, 0);
#endif

			if (r == -1) {
				if (errno == EINTR) {
					continue;
				}
				else if (errno == EAGAIN || errno == EWOULDBLOCK) {

					return;
				}

				msg_err("got error while reading from socket: %d, %s",
						errno,
						strerror(errno));
				return;
			}

#ifndef HAVE_RECVMMSG
			msg_len = r; /* Save real length in bytes here */
			r = 1;       /* Assume that we have received a single message */
#endif

			for (int i = 0; i < r; i++) {
				rspamd_inet_addr_t *client_addr;

				if (MSG_FIELD(msg[i], msg_namelen) >= sizeof(struct sockaddr)) {
					client_addr = rspamd_inet_address_from_sa(MSG_FIELD(msg[i], msg_name),
															  MSG_FIELD(msg[i], msg_namelen));
				}
				else {
					client_addr = NULL;
				}

				session = g_malloc0(sizeof(*session));
				REF_INIT_RETAIN(session, fuzzy_session_destroy);
				session->worker = worker;
				session->fd = w->fd;
				session->ctx = ctx;
				session->timestamp = ev_now(ctx->event_loop);
				session->addr = client_addr;
				worker->nconns++;

				/* Each message can have its length in case of recvmmsg */
#ifdef HAVE_RECVMMSG
				msg_len = msg[i].msg_len;
#endif

				if (rspamd_fuzzy_cmd_from_wire(iovs[i].iov_base,
											   msg_len, session)) {
					/* Check shingles count sanity */
					rspamd_fuzzy_process_command(session);
				}
				else {
					/* Discard input */
					session->ctx->stat.invalid_requests++;
					msg_debug("invalid fuzzy command of size %z received", r);

					if (session->addr) {
						nerrors = rspamd_lru_hash_lookup(session->ctx->errors_ips,
														 session->addr, -1);

						if (nerrors == NULL) {
							nerrors = g_malloc(sizeof(*nerrors));
							*nerrors = 1;
							rspamd_lru_hash_insert(session->ctx->errors_ips,
												   rspamd_inet_address_copy(session->addr, NULL),
												   nerrors, -1, -1);
						}
						else {
							*nerrors = *nerrors + 1;
						}
					}
				}

				REF_RELEASE(session);
			}
#ifdef HAVE_RECVMMSG
			/* Stop reading as we are using recvmmsg instead of recvmsg */
			break;
#endif
		}
	}
}

static gboolean
rspamd_fuzzy_storage_periodic_callback(void *ud)
{
	struct rspamd_fuzzy_storage_ctx *ctx = ud;

	if (ctx->updates_pending->len > 0) {
		rspamd_fuzzy_process_updates_queue(ctx, local_db_name, FALSE);

		return TRUE;
	}

	return FALSE;
}

static gboolean
rspamd_fuzzy_storage_sync(struct rspamd_main *rspamd_main,
						  struct rspamd_worker *worker, int fd,
						  int attached_fd,
						  struct rspamd_control_command *cmd,
						  gpointer ud)
{
	struct rspamd_fuzzy_storage_ctx *ctx = ud;
	struct rspamd_control_reply rep;

	rep.reply.fuzzy_sync.status = 0;
	rep.type = RSPAMD_CONTROL_FUZZY_SYNC;

	if (ctx->backend && worker->index == 0) {
		rspamd_fuzzy_process_updates_queue(ctx, local_db_name, FALSE);
		rspamd_fuzzy_backend_start_update(ctx->backend, ctx->sync_timeout,
										  rspamd_fuzzy_storage_periodic_callback, ctx);
	}

	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_fuzzy_control_blocked(struct rspamd_main *rspamd_main,
							 struct rspamd_worker *worker, int fd,
							 int attached_fd,
							 struct rspamd_control_command *cmd,
							 gpointer ud)
{
	struct rspamd_fuzzy_storage_ctx *ctx = (struct rspamd_fuzzy_storage_ctx *) ud;
	struct rspamd_control_reply rep;
	struct rspamd_leaky_bucket_elt *elt;
	ev_tstamp now = ev_now(ctx->event_loop);
	rspamd_inet_addr_t *addr = NULL;

	rep.type = RSPAMD_CONTROL_FUZZY_BLOCKED;
	rep.reply.fuzzy_blocked.status = 0;

	if (cmd->cmd.fuzzy_blocked.af == AF_INET) {
		addr = rspamd_inet_address_from_sa(&cmd->cmd.fuzzy_blocked.addr.sa,
										   sizeof(struct sockaddr_in));
	}
	else if (cmd->cmd.fuzzy_blocked.af == AF_INET6) {
		addr = rspamd_inet_address_from_sa(&cmd->cmd.fuzzy_blocked.addr.sa,
										   sizeof(struct sockaddr_in6));
	}
	else {
		msg_err("invalid address family: %d", cmd->cmd.fuzzy_blocked.af);
		rep.reply.fuzzy_blocked.status = -1;
	}

	if (addr) {
		elt = rspamd_lru_hash_lookup(ctx->ratelimit_buckets, addr,
									 (time_t) now);

		if (elt) {
			if (isnan(elt->cur)) {
				/* Already ratelimited, ignore */
			}
			else {
				elt->last = now;
				elt->cur = NAN;

				msg_info("propagating ratelimiting %s, %.1f max elts",
						 rspamd_inet_address_to_string(addr),
						 ctx->leaky_bucket_burst);
				rspamd_fuzzy_maybe_call_blacklisted(ctx, addr, "ratelimit");
			}

			rspamd_inet_address_free(addr);
		}
		else {
			/* New bucket */
			elt = g_malloc(sizeof(*elt));
			elt->addr = addr; /* transfer ownership */
			elt->cur = NAN;
			elt->last = now;

			rspamd_lru_hash_insert(ctx->ratelimit_buckets,
								   addr,
								   elt,
								   (time_t) now,
								   ctx->leaky_bucket_ttl);
			msg_info("propagating ratelimiting %s, %.1f max elts",
					 rspamd_inet_address_to_string(addr),
					 ctx->leaky_bucket_burst);
			rspamd_fuzzy_maybe_call_blacklisted(ctx, addr, "ratelimit");
		}
	}

	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_fuzzy_storage_reload(struct rspamd_main *rspamd_main,
							struct rspamd_worker *worker, int fd,
							int attached_fd,
							struct rspamd_control_command *cmd,
							gpointer ud)
{
	struct rspamd_fuzzy_storage_ctx *ctx = ud;
	GError *err = NULL;
	struct rspamd_control_reply rep;

	msg_info("reloading fuzzy storage after receiving reload command");

	if (ctx->backend) {
		/* Close backend and reopen it one more time */
		rspamd_fuzzy_backend_close(ctx->backend);
	}

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

	if ((ctx->backend = rspamd_fuzzy_backend_create(ctx->event_loop,
													worker->cf->options, rspamd_main->cfg,
													&err)) == NULL) {
		msg_err("cannot open backend after reload: %e", err);
		rep.reply.reload.status = err->code;
		g_error_free(err);
	}
	else {
		rep.reply.reload.status = 0;
	}

	if (ctx->backend && worker->index == 0) {
		rspamd_fuzzy_backend_start_update(ctx->backend, ctx->sync_timeout,
										  rspamd_fuzzy_storage_periodic_callback, ctx);
	}

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

	return TRUE;
}

static ucl_object_t *
rspamd_fuzzy_storage_stat_key(const struct fuzzy_key_stat *key_stat)
{
	ucl_object_t *res;

	res = ucl_object_typed_new(UCL_OBJECT);

	ucl_object_insert_key(res, ucl_object_fromint(key_stat->checked),
						  "checked", 0, false);
	ucl_object_insert_key(res, ucl_object_fromdouble(key_stat->checked_ctr.mean),
						  "checked_per_hour", 0, false);
	ucl_object_insert_key(res, ucl_object_fromint(key_stat->matched),
						  "matched", 0, false);
	ucl_object_insert_key(res, ucl_object_fromdouble(key_stat->matched_ctr.mean),
						  "matched_per_hour", 0, false);
	ucl_object_insert_key(res, ucl_object_fromint(key_stat->added),
						  "added", 0, false);
	ucl_object_insert_key(res, ucl_object_fromint(key_stat->deleted),
						  "deleted", 0, false);
	ucl_object_insert_key(res, ucl_object_fromint(key_stat->errors),
						  "errors", 0, false);

	return res;
}

static void
rspamd_fuzzy_key_stat_iter(const unsigned char *pk_iter, struct fuzzy_key *fuzzy_key, ucl_object_t *keys_obj, gboolean ip_stat)
{
	struct fuzzy_key_stat *key_stat = fuzzy_key->stat;
	char keyname[17];

	if (key_stat) {
		rspamd_snprintf(keyname, sizeof(keyname), "%8bs", pk_iter);

		ucl_object_t *elt = rspamd_fuzzy_storage_stat_key(key_stat);

		if (key_stat->last_ips && ip_stat) {
			int i = 0;
			ucl_object_t *ip_elt = ucl_object_typed_new(UCL_OBJECT);
			gpointer k, v;

			while ((i = rspamd_lru_hash_foreach(key_stat->last_ips,
												i, &k, &v)) != -1) {
				ucl_object_t *ip_cur = rspamd_fuzzy_storage_stat_key(v);
				ucl_object_insert_key(ip_elt, ip_cur,
									  rspamd_inet_address_to_string(k), 0, true);
			}
			ucl_object_insert_key(elt, ip_elt, "ips", 0, false);
		}

		int flag;
		struct fuzzy_key_stat *flag_stat;
		ucl_object_t *flags_ucl = ucl_object_typed_new(UCL_OBJECT);

		kh_foreach_key_value_ptr(fuzzy_key->flags_stat, flag, flag_stat, {
			char intbuf[16];
			rspamd_snprintf(intbuf, sizeof(intbuf), "%d", flag);
			ucl_object_insert_key(flags_ucl, rspamd_fuzzy_storage_stat_key(flag_stat),
								  intbuf, 0, true);
		});

		ucl_object_insert_key(elt, flags_ucl, "flags", 0, false);

		ucl_object_insert_key(elt,
							  rspamd_keypair_to_ucl(fuzzy_key->key, RSPAMD_KEYPAIR_ENCODING_DEFAULT,
													RSPAMD_KEYPAIR_DUMP_NO_SECRET | RSPAMD_KEYPAIR_DUMP_FLATTENED),
							  "keypair", 0, false);
		ucl_object_insert_key(keys_obj, elt, keyname, 0, true);
	}
}

static ucl_object_t *
rspamd_fuzzy_stat_to_ucl(struct rspamd_fuzzy_storage_ctx *ctx, gboolean ip_stat)
{
	struct fuzzy_key *fuzzy_key;
	ucl_object_t *obj, *keys_obj, *elt, *ip_elt;
	const unsigned char *pk_iter;

	obj = ucl_object_typed_new(UCL_OBJECT);

	keys_obj = ucl_object_typed_new(UCL_OBJECT);

	kh_foreach(ctx->keys, pk_iter, fuzzy_key, {
		rspamd_fuzzy_key_stat_iter(pk_iter, fuzzy_key, keys_obj, ip_stat);
	});

	ucl_object_insert_key(obj, keys_obj, "keys", 0, false);

	/* Now generic stats */
	ucl_object_insert_key(obj,
						  ucl_object_fromint(ctx->stat.fuzzy_hashes),
						  "fuzzy_stored",
						  0,
						  false);
	ucl_object_insert_key(obj,
						  ucl_object_fromint(ctx->stat.fuzzy_hashes_expired),
						  "fuzzy_expired",
						  0,
						  false);
	ucl_object_insert_key(obj,
						  ucl_object_fromint(ctx->stat.invalid_requests),
						  "invalid_requests",
						  0,
						  false);
	ucl_object_insert_key(obj,
						  ucl_object_fromint(ctx->stat.delayed_hashes),
						  "delayed_hashes",
						  0,
						  false);

	if (ctx->errors_ips && ip_stat) {
		gpointer k, v;
		int i = 0;
		ip_elt = ucl_object_typed_new(UCL_OBJECT);

		while ((i = rspamd_lru_hash_foreach(ctx->errors_ips, i, &k, &v)) != -1) {
			ucl_object_insert_key(ip_elt,
								  ucl_object_fromint(*(uint64_t *) v),
								  rspamd_inet_address_to_string(k), 0, true);
		}

		ucl_object_insert_key(obj,
							  ip_elt,
							  "errors_ips",
							  0,
							  false);
	}

	/* Checked by epoch */
	elt = ucl_object_typed_new(UCL_ARRAY);

	for (int i = RSPAMD_FUZZY_EPOCH10; i < RSPAMD_FUZZY_EPOCH_MAX; i++) {
		ucl_array_append(elt,
						 ucl_object_fromint(ctx->stat.fuzzy_hashes_checked[i]));
	}

	ucl_object_insert_key(obj, elt, "fuzzy_checked", 0, false);

	/* Shingles by epoch */
	elt = ucl_object_typed_new(UCL_ARRAY);

	for (int i = RSPAMD_FUZZY_EPOCH10; i < RSPAMD_FUZZY_EPOCH_MAX; i++) {
		ucl_array_append(elt,
						 ucl_object_fromint(ctx->stat.fuzzy_shingles_checked[i]));
	}

	ucl_object_insert_key(obj, elt, "fuzzy_shingles", 0, false);

	/* Matched by epoch */
	elt = ucl_object_typed_new(UCL_ARRAY);

	for (int i = RSPAMD_FUZZY_EPOCH10; i < RSPAMD_FUZZY_EPOCH_MAX; i++) {
		ucl_array_append(elt,
						 ucl_object_fromint(ctx->stat.fuzzy_hashes_found[i]));
	}

	ucl_object_insert_key(obj, elt, "fuzzy_found", 0, false);


	return obj;
}

static void
rspamd_fuzzy_maybe_load_ratelimits(struct rspamd_fuzzy_storage_ctx *ctx)
{
	char path[PATH_MAX];

	rspamd_snprintf(path, sizeof(path), "%s" G_DIR_SEPARATOR_S "fuzzy_ratelimits.ucl",
					RSPAMD_DBDIR);

	if (access(path, R_OK) != -1) {
		struct ucl_parser *parser = ucl_parser_new(UCL_PARSER_NO_IMPLICIT_ARRAYS | UCL_PARSER_DISABLE_MACRO);
		if (ucl_parser_add_file(parser, path)) {
			ucl_object_t *obj = ucl_parser_get_object(parser);
			int loaded = 0;

			if (ucl_object_type(obj) == UCL_ARRAY) {
				ucl_object_iter_t it = NULL;
				const ucl_object_t *cur;

				while ((cur = ucl_object_iterate(obj, &it, true)) != NULL) {
					const ucl_object_t *ip, *value, *last;
					const char *ip_str;
					double limit_val, last_val;

					ip = ucl_object_find_key(cur, "ip");
					value = ucl_object_find_key(cur, "value");
					last = ucl_object_find_key(cur, "last");

					if (ip == NULL || value == NULL || last == NULL) {
						msg_err("invalid ratelimit object");
						continue;
					}

					ip_str = ucl_object_tostring(ip);
					limit_val = ucl_object_todouble(value);
					last_val = ucl_object_todouble(last);

					if (ip_str == NULL || isnan(last_val)) {
						msg_err("invalid ratelimit object");
						continue;
					}

					rspamd_inet_addr_t *addr;
					if (rspamd_parse_inet_address(&addr, ip_str, strlen(ip_str),
												  RSPAMD_INET_ADDRESS_PARSE_NO_UNIX | RSPAMD_INET_ADDRESS_PARSE_NO_PORT)) {
						struct rspamd_leaky_bucket_elt *elt = g_malloc(sizeof(*elt));

						elt->cur = limit_val;
						elt->last = last_val;
						elt->addr = addr;
						rspamd_lru_hash_insert(ctx->ratelimit_buckets, addr, elt, elt->last, ctx->leaky_bucket_ttl);
						loaded++;
					}
					else {
						msg_err("invalid ratelimit ip: %s", ip_str);
						continue;
					}
				}

				msg_info("loaded %d ratelimit objects", loaded);
			}

			ucl_object_unref(obj);
		}

		ucl_parser_free(parser);
	}
}

static void
rspamd_fuzzy_maybe_save_ratelimits(struct rspamd_fuzzy_storage_ctx *ctx)
{
	char path[PATH_MAX];

	rspamd_snprintf(path, sizeof(path), "%s" G_DIR_SEPARATOR_S "fuzzy_ratelimits.ucl.new",
					RSPAMD_DBDIR);
	FILE *f = fopen(path, "w");

	if (f != NULL) {
		ucl_object_t *top = ucl_object_typed_new(UCL_ARRAY);
		int it = 0;
		gpointer k, v;

		ucl_object_reserve(top, rspamd_lru_hash_size(ctx->ratelimit_buckets));

		while ((it = rspamd_lru_hash_foreach(ctx->ratelimit_buckets, it, &k, &v)) != -1) {
			ucl_object_t *cur = ucl_object_typed_new(UCL_OBJECT);
			struct rspamd_leaky_bucket_elt *elt = (struct rspamd_leaky_bucket_elt *) v;

			ucl_object_insert_key(cur, ucl_object_fromdouble(elt->cur), "value", 0, false);
			ucl_object_insert_key(cur, ucl_object_fromdouble(elt->last), "last", 0, false);
			ucl_object_insert_key(cur, ucl_object_fromstring(rspamd_inet_address_to_string(elt->addr)), "ip", 0, false);
			ucl_array_append(top, cur);
		}

		if (ucl_object_emit_full(top, UCL_EMIT_JSON_COMPACT, ucl_object_emit_file_funcs(f), NULL)) {
			char npath[PATH_MAX];

			fflush(f);
			rspamd_snprintf(npath, sizeof(npath), "%s" G_DIR_SEPARATOR_S "fuzzy_ratelimits.ucl",
							RSPAMD_DBDIR);

			if (rename(path, npath) == -1) {
				msg_warn("cannot rename %s to %s: %s", path, npath, strerror(errno));
			}
			else {
				msg_info("saved %d ratelimits in %s", rspamd_lru_hash_size(ctx->ratelimit_buckets), npath);
			}
		}
		else {
			msg_warn("cannot serialize ratelimit buckets to %s: %s", path, strerror(errno));
		}

		fclose(f);
		ucl_object_unref(top);
	}
	else {
		msg_warn("cannot save ratelimit buckets to %s: %s", path, strerror(errno));
	}
}

static int
lua_fuzzy_add_pre_handler(lua_State *L)
{
	struct rspamd_worker *wrk, **pwrk = (struct rspamd_worker **)
								   rspamd_lua_check_udata(L, 1, rspamd_worker_classname);
	struct rspamd_fuzzy_storage_ctx *ctx;

	if (!pwrk) {
		return luaL_error(L, "invalid arguments, worker + function are expected");
	}

	wrk = *pwrk;

	if (wrk && lua_isfunction(L, 2)) {
		ctx = (struct rspamd_fuzzy_storage_ctx *) wrk->ctx;

		if (ctx->lua_pre_handler_cbref != -1) {
			/* Should not happen */
			luaL_unref(L, LUA_REGISTRYINDEX, ctx->lua_pre_handler_cbref);
		}

		lua_pushvalue(L, 2);
		ctx->lua_pre_handler_cbref = luaL_ref(L, LUA_REGISTRYINDEX);
	}
	else {
		return luaL_error(L, "invalid arguments, worker + function are expected");
	}

	return 0;
}

static int
lua_fuzzy_add_post_handler(lua_State *L)
{
	struct rspamd_worker *wrk, **pwrk = (struct rspamd_worker **)
								   rspamd_lua_check_udata(L, 1, rspamd_worker_classname);
	struct rspamd_fuzzy_storage_ctx *ctx;

	if (!pwrk) {
		return luaL_error(L, "invalid arguments, worker + function are expected");
	}

	wrk = *pwrk;

	if (wrk && lua_isfunction(L, 2)) {
		ctx = (struct rspamd_fuzzy_storage_ctx *) wrk->ctx;

		if (ctx->lua_post_handler_cbref != -1) {
			/* Should not happen */
			luaL_unref(L, LUA_REGISTRYINDEX, ctx->lua_post_handler_cbref);
		}

		lua_pushvalue(L, 2);
		ctx->lua_post_handler_cbref = luaL_ref(L, LUA_REGISTRYINDEX);
	}
	else {
		return luaL_error(L, "invalid arguments, worker + function are expected");
	}

	return 0;
}

static int
lua_fuzzy_add_blacklist_handler(lua_State *L)
{
	struct rspamd_worker *wrk, **pwrk = (struct rspamd_worker **)
								   rspamd_lua_check_udata(L, 1, rspamd_worker_classname);
	struct rspamd_fuzzy_storage_ctx *ctx;

	if (!pwrk) {
		return luaL_error(L, "invalid arguments, worker + function are expected");
	}

	wrk = *pwrk;

	if (wrk && lua_isfunction(L, 2)) {
		ctx = (struct rspamd_fuzzy_storage_ctx *) wrk->ctx;

		if (ctx->lua_blacklist_cbref != -1) {
			/* Should not happen */
			luaL_unref(L, LUA_REGISTRYINDEX, ctx->lua_blacklist_cbref);
		}

		lua_pushvalue(L, 2);
		ctx->lua_blacklist_cbref = luaL_ref(L, LUA_REGISTRYINDEX);
	}
	else {
		return luaL_error(L, "invalid arguments, worker + function are expected");
	}

	return 0;
}

static gboolean
rspamd_fuzzy_storage_stat(struct rspamd_main *rspamd_main,
						  struct rspamd_worker *worker, int fd,
						  int attached_fd,
						  struct rspamd_control_command *cmd,
						  gpointer ud)
{
	struct rspamd_fuzzy_storage_ctx *ctx = ud;
	struct rspamd_control_reply rep;
	ucl_object_t *obj;
	struct ucl_emitter_functions *emit_subr;
	unsigned char fdspace[CMSG_SPACE(sizeof(int))];
	struct iovec iov;
	struct msghdr msg;
	struct cmsghdr *cmsg;

	int outfd = -1;
	char tmppath[PATH_MAX];

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

	rspamd_snprintf(tmppath, sizeof(tmppath), "%s%c%s-XXXXXXXXXX",
					rspamd_main->cfg->temp_dir, G_DIR_SEPARATOR, "fuzzy-stat");

	if ((outfd = mkstemp(tmppath)) == -1) {
		rep.reply.fuzzy_stat.status = errno;
		msg_info_main("cannot make temporary stat file for fuzzy stat: %s",
					  strerror(errno));
	}
	else {
		rep.reply.fuzzy_stat.status = 0;

		memcpy(rep.reply.fuzzy_stat.storage_id,
			   rspamd_fuzzy_backend_id(ctx->backend),
			   sizeof(rep.reply.fuzzy_stat.storage_id));

		obj = rspamd_fuzzy_stat_to_ucl(ctx, TRUE);
		emit_subr = ucl_object_emit_fd_funcs(outfd);
		ucl_object_emit_full(obj, UCL_EMIT_JSON_COMPACT, emit_subr, NULL);
		ucl_object_emit_funcs_free(emit_subr);
		ucl_object_unref(obj);
		/* Rewind output file */
		close(outfd);
		outfd = open(tmppath, O_RDONLY);
		unlink(tmppath);
	}

	/* Now we can send outfd and status message */
	memset(&msg, 0, sizeof(msg));

	/* Attach fd to the message */
	if (outfd != -1) {
		memset(fdspace, 0, sizeof(fdspace));
		msg.msg_control = fdspace;
		msg.msg_controllen = sizeof(fdspace);
		cmsg = CMSG_FIRSTHDR(&msg);

		if (cmsg) {
			cmsg->cmsg_level = SOL_SOCKET;
			cmsg->cmsg_type = SCM_RIGHTS;
			cmsg->cmsg_len = CMSG_LEN(sizeof(int));
			memcpy(CMSG_DATA(cmsg), &outfd, sizeof(int));
		}
	}

	iov.iov_base = &rep;
	iov.iov_len = sizeof(rep);
	msg.msg_iov = &iov;
	msg.msg_iovlen = 1;

	if (sendmsg(fd, &msg, 0) == -1) {
		msg_err_main("cannot send fuzzy stat: %s", strerror(errno));
	}

	if (outfd != -1) {
		close(outfd);
	}

	return TRUE;
}

static gboolean
fuzzy_parse_ids(rspamd_mempool_t *pool,
				const ucl_object_t *obj,
				gpointer ud,
				struct rspamd_rcl_section *section,
				GError **err)
{
	struct rspamd_rcl_struct_parser *pd = (struct rspamd_rcl_struct_parser *) ud;
	khash_t(fuzzy_key_ids_set) * target;

	target = *(khash_t(fuzzy_key_ids_set) **) ((char *) pd->user_struct + pd->offset);

	if (ucl_object_type(obj) == UCL_ARRAY) {
		const ucl_object_t *cur;
		ucl_object_iter_t it = NULL;
		uint64_t id;

		while ((cur = ucl_object_iterate(obj, &it, true)) != NULL) {
			if (ucl_object_toint_safe(cur, &id)) {
				int r;

				kh_put(fuzzy_key_ids_set, target, id, &r);
			}
			else {
				return FALSE;
			}
		}

		return TRUE;
	}
	else if (ucl_object_type(obj) == UCL_INT) {
		int r;
		kh_put(fuzzy_key_ids_set, target, ucl_object_toint(obj), &r);

		return TRUE;
	}

	return FALSE;
}

static struct fuzzy_key *
fuzzy_add_keypair_from_ucl(struct rspamd_config *cfg, const ucl_object_t *obj,
						   khash_t(rspamd_fuzzy_keys_hash) * target)
{
	struct rspamd_cryptobox_keypair *kp = rspamd_keypair_from_ucl(obj);

	if (kp == NULL) {
		return NULL;
	}

	if (rspamd_keypair_type(kp) != RSPAMD_KEYPAIR_KEX) {
		return FALSE;
	}

	struct fuzzy_key *key = g_malloc0(sizeof(*key));
	REF_INIT_RETAIN(key, fuzzy_key_dtor);
	key->key = kp;
	struct fuzzy_key_stat *keystat = g_malloc0(sizeof(*keystat));
	REF_INIT_RETAIN(keystat, fuzzy_key_stat_dtor);
	/* Hash of ip -> fuzzy_key_stat */
	keystat->last_ips = rspamd_lru_hash_new_full(1024,
												 (GDestroyNotify) rspamd_inet_address_free,
												 fuzzy_key_stat_unref,
												 rspamd_inet_address_hash, rspamd_inet_address_equal);
	key->stat = keystat;
	key->flags_stat = kh_init(fuzzy_key_flag_stat);
	key->burst = NAN;
	key->rate = NAN;
	key->expire = NAN;
	key->rl_bucket = NULL;
	/* Preallocate some space for flags */
	kh_resize(fuzzy_key_flag_stat, key->flags_stat, 8);
	const unsigned char *pk = rspamd_keypair_component(kp, RSPAMD_KEYPAIR_COMPONENT_PK,
													   NULL);
	keystat->keypair = rspamd_keypair_ref(kp);
	/* We map entries by pubkey in binary form for faster lookup */
	khiter_t k;
	int r;

	k = kh_put(rspamd_fuzzy_keys_hash, target, pk, &r);

	if (r == 0) {
		msg_err("duplicate keypair found: pk=%*bs",
				32, pk);
		REF_RELEASE(key);

		return FALSE;
	}
	else if (r == -1) {
		msg_err("hash insertion error: pk=%*bs",
				32, pk);
		REF_RELEASE(key);

		return FALSE;
	}

	kh_val(target, k) = key;

	const ucl_object_t *extensions = rspamd_keypair_get_extensions(kp);

	if (extensions) {
		lua_State *L = RSPAMD_LUA_CFG_STATE(cfg);
		const ucl_object_t *forbidden_ids = ucl_object_lookup(extensions, "forbidden_ids");

		if (forbidden_ids && ucl_object_type(forbidden_ids) == UCL_ARRAY) {
			key->forbidden_ids = kh_init(fuzzy_key_ids_set);
			const ucl_object_t *cur;
			ucl_object_iter_t it = NULL;

			while ((cur = ucl_object_iterate(forbidden_ids, &it, true)) != NULL) {
				if (ucl_object_type(cur) == UCL_INT || ucl_object_type(cur) == UCL_FLOAT) {
					int id = ucl_object_toint(cur);
					int r;

					kh_put(fuzzy_key_ids_set, key->forbidden_ids, id, &r);
				}
			}
		}

		const ucl_object_t *ratelimit = ucl_object_lookup(extensions, "ratelimit");

		static int ratelimit_lua_id = -1;

		if (ratelimit_lua_id == -1) {
			/* Load ratelimit parsing function */
			if (!rspamd_lua_require_function(L, "plugins/ratelimit", "parse_limit")) {
				msg_err_config("cannot load ratelimit parser from ratelimit plugin");
			}
			else {
				ratelimit_lua_id = luaL_ref(L, LUA_REGISTRYINDEX);
			}
		}

		if (ratelimit && ratelimit_lua_id != -1) {
			lua_rawgeti(L, LUA_REGISTRYINDEX, ratelimit_lua_id);
			lua_pushstring(L, "fuzzy_key_ratelimit");
			ucl_object_push_lua(L, ratelimit, false);

			if (lua_pcall(L, 2, 1, 0) != 0) {
				msg_err_config("cannot call ratelimit parser from ratelimit plugin");
			}
			else {
				if (lua_type(L, -1) == LUA_TTABLE) {
					/*
					 * The returned table is in form { rate = xx, burst = yy }
					 */
					lua_getfield(L, -1, "rate");
					key->rate = lua_tonumber(L, -1);
					lua_pop(L, 1);

					lua_getfield(L, -1, "burst");
					key->burst = lua_tonumber(L, -1);
					lua_pop(L, 1);

					key->rl_bucket = g_malloc0(sizeof(*key->rl_bucket));
				}
			}

			lua_settop(L, 0);
		}

		const ucl_object_t *expire = ucl_object_lookup(extensions, "expire");
		if (expire && ucl_object_type(expire) == UCL_STRING) {
			struct tm tm;

			/* DD-MM-YYYY */
			char *end = strptime(ucl_object_tostring(expire), "%d-%m-%Y", &tm);

			if (end != NULL && *end != '\0') {
				msg_err_config("cannot parse expire date: %s", ucl_object_tostring(expire));
			}
			else {
				key->expire = mktime(&tm);
			}
		}

		const ucl_object_t *name = ucl_object_lookup(extensions, "name");
		if (name && ucl_object_type(name) == UCL_STRING) {
			key->name = g_strdup(ucl_object_tostring(name));
		}
	}

	msg_debug("loaded keypair %*bs; expire=%f; rate=%f; burst=%f; name=%s", (int) crypto_box_publickeybytes(), pk,
			  key->expire, key->rate, key->burst, key->name);

	return key;
}


static gboolean
fuzzy_parse_keypair(rspamd_mempool_t *pool,
					const ucl_object_t *obj,
					gpointer ud,
					struct rspamd_rcl_section *section,
					GError **err)
{
	struct rspamd_rcl_struct_parser *pd = ud;
	struct rspamd_fuzzy_storage_ctx *ctx;
	struct fuzzy_key *key;
	const ucl_object_t *cur;
	ucl_object_iter_t it = NULL;
	gboolean ret;

	ctx = pd->user_struct;
	pd->offset = G_STRUCT_OFFSET(struct rspamd_fuzzy_storage_ctx, default_keypair);

	/*
	 * Single key
	 */
	if (ucl_object_type(obj) == UCL_STRING || ucl_object_type(obj) == UCL_OBJECT) {
		ret = rspamd_rcl_parse_struct_keypair(pool, obj, pd, section, err);

		if (!ret) {
			return ret;
		}

		key = fuzzy_add_keypair_from_ucl(ctx->cfg, obj, ctx->keys);

		if (key == NULL) {
			return FALSE;
		}

		/* Use the last one ? */
		ctx->default_key = key;
	}
	else if (ucl_object_type(obj) == UCL_ARRAY) {
		while ((cur = ucl_object_iterate(obj, &it, true)) != NULL) {
			if (!fuzzy_parse_keypair(pool, cur, pd, section, err)) {
				msg_err_pool("cannot parse keypair");
			}
		}
	}

	return TRUE;
}

gpointer
init_fuzzy(struct rspamd_config *cfg)
{
	struct rspamd_fuzzy_storage_ctx *ctx;
	GQuark type;

	type = g_quark_try_string("fuzzy");

	ctx = rspamd_mempool_alloc0(cfg->cfg_pool,
								sizeof(struct rspamd_fuzzy_storage_ctx));

	ctx->magic = rspamd_fuzzy_storage_magic;
	ctx->sync_timeout = DEFAULT_SYNC_TIMEOUT;
	ctx->keypair_cache_size = DEFAULT_KEYPAIR_CACHE_SIZE;
	ctx->lua_pre_handler_cbref = -1;
	ctx->lua_post_handler_cbref = -1;
	ctx->lua_blacklist_cbref = -1;
	ctx->keys = kh_init(rspamd_fuzzy_keys_hash);
	rspamd_mempool_add_destructor(cfg->cfg_pool,
								  (rspamd_mempool_destruct_t) fuzzy_hash_table_dtor, ctx->keys);
	ctx->errors_ips = rspamd_lru_hash_new_full(1024,
											   (GDestroyNotify) rspamd_inet_address_free, g_free,
											   rspamd_inet_address_hash, rspamd_inet_address_equal);
	rspamd_mempool_add_destructor(cfg->cfg_pool,
								  (rspamd_mempool_destruct_t) rspamd_lru_hash_destroy, ctx->errors_ips);
	ctx->cfg = cfg;
	ctx->updates_maxfail = DEFAULT_UPDATES_MAXFAIL;
	ctx->leaky_bucket_mask = DEFAULT_BUCKET_MASK;
	ctx->leaky_bucket_ttl = DEFAULT_BUCKET_TTL;
	ctx->max_buckets = DEFAULT_MAX_BUCKETS;
	ctx->leaky_bucket_burst = NAN;
	ctx->leaky_bucket_rate = NAN;
	ctx->delay = NAN;
	ctx->default_forbidden_ids = kh_init(fuzzy_key_ids_set);
	ctx->weak_ids = kh_init(fuzzy_key_ids_set);

	rspamd_rcl_register_worker_option(cfg,
									  type,
									  "sync",
									  rspamd_rcl_parse_struct_time,
									  ctx,
									  G_STRUCT_OFFSET(struct rspamd_fuzzy_storage_ctx,
													  sync_timeout),
									  RSPAMD_CL_FLAG_TIME_FLOAT,
									  "Time to perform database sync, default: " G_STRINGIFY(DEFAULT_SYNC_TIMEOUT) " seconds");

	rspamd_rcl_register_worker_option(cfg,
									  type,
									  "expire",
									  rspamd_rcl_parse_struct_time,
									  ctx,
									  G_STRUCT_OFFSET(struct rspamd_fuzzy_storage_ctx,
													  expire),
									  RSPAMD_CL_FLAG_TIME_FLOAT,
									  "Default expire time for hashes, default: " G_STRINGIFY(DEFAULT_EXPIRE) " seconds");

	rspamd_rcl_register_worker_option(cfg,
									  type,
									  "delay",
									  rspamd_rcl_parse_struct_time,
									  ctx,
									  G_STRUCT_OFFSET(struct rspamd_fuzzy_storage_ctx,
													  delay),
									  RSPAMD_CL_FLAG_TIME_FLOAT,
									  "Default delay time for hashes, default: not enabled");

	rspamd_rcl_register_worker_option(cfg,
									  type,
									  "allow_update",
									  rspamd_rcl_parse_struct_ucl,
									  ctx,
									  G_STRUCT_OFFSET(struct rspamd_fuzzy_storage_ctx, update_map),
									  0,
									  "Allow modifications from the following IP addresses");

	rspamd_rcl_register_worker_option(cfg,
									  type,
									  "allow_update_keys",
									  rspamd_rcl_parse_struct_ucl,
									  ctx,
									  G_STRUCT_OFFSET(struct rspamd_fuzzy_storage_ctx, update_keys_map),
									  0,
									  "Allow modifications for those using specific public keys");

	rspamd_rcl_register_worker_option(cfg,
									  type,
									  "delay_whitelist",
									  rspamd_rcl_parse_struct_ucl,
									  ctx,
									  G_STRUCT_OFFSET(struct rspamd_fuzzy_storage_ctx, delay_whitelist_map),
									  0,
									  "Disable delay check for the following IP addresses");

	rspamd_rcl_register_worker_option(cfg,
									  type,
									  "keypair",
									  fuzzy_parse_keypair,
									  ctx,
									  0,
									  RSPAMD_CL_FLAG_MULTIPLE,
									  "Encryption keypair (can be repeated for different keys)");

	rspamd_rcl_register_worker_option(cfg,
									  type,
									  "dynamic_keys_map",
									  rspamd_rcl_parse_struct_ucl,
									  ctx,
									  G_STRUCT_OFFSET(struct rspamd_fuzzy_storage_ctx, dynamic_keys_map),
									  0,
									  "Dynamic encryption keypairs (can be repeated for different keys)");

	rspamd_rcl_register_worker_option(cfg,
									  type,
									  "forbidden_ids",
									  fuzzy_parse_ids,
									  ctx,
									  G_STRUCT_OFFSET(struct rspamd_fuzzy_storage_ctx, default_forbidden_ids),
									  0,
									  "Deny specific flags by default");

	rspamd_rcl_register_worker_option(cfg,
									  type,
									  "weak_ids",
									  fuzzy_parse_ids,
									  ctx,
									  G_STRUCT_OFFSET(struct rspamd_fuzzy_storage_ctx, weak_ids),
									  0,
									  "Treat these flags as weak (i.e. they do not overwrite strong flags)");

	rspamd_rcl_register_worker_option(cfg,
									  type,
									  "keypair_cache_size",
									  rspamd_rcl_parse_struct_integer,
									  ctx,
									  G_STRUCT_OFFSET(struct rspamd_fuzzy_storage_ctx,
													  keypair_cache_size),
									  RSPAMD_CL_FLAG_UINT,
									  "Size of keypairs cache, default: " G_STRINGIFY(DEFAULT_KEYPAIR_CACHE_SIZE));

	rspamd_rcl_register_worker_option(cfg,
									  type,
									  "encrypted_only",
									  rspamd_rcl_parse_struct_boolean,
									  ctx,
									  G_STRUCT_OFFSET(struct rspamd_fuzzy_storage_ctx, encrypted_only),
									  0,
									  "Allow encrypted requests only (and forbid all unknown keys or plaintext requests)");
	rspamd_rcl_register_worker_option(cfg,
									  type,
									  "dedicated_update_worker",
									  rspamd_rcl_parse_struct_boolean,
									  ctx,
									  G_STRUCT_OFFSET(struct rspamd_fuzzy_storage_ctx, dedicated_update_worker),
									  0,
									  "Use worker 0 for updates only");

	rspamd_rcl_register_worker_option(cfg,
									  type,
									  "read_only",
									  rspamd_rcl_parse_struct_boolean,
									  ctx,
									  G_STRUCT_OFFSET(struct rspamd_fuzzy_storage_ctx, read_only),
									  0,
									  "Work in read only mode");


	rspamd_rcl_register_worker_option(cfg,
									  type,
									  "blocked",
									  rspamd_rcl_parse_struct_ucl,
									  ctx,
									  G_STRUCT_OFFSET(struct rspamd_fuzzy_storage_ctx, blocked_map),
									  0,
									  "Block requests from specific networks");


	rspamd_rcl_register_worker_option(cfg,
									  type,
									  "updates_maxfail",
									  rspamd_rcl_parse_struct_integer,
									  ctx,
									  G_STRUCT_OFFSET(struct rspamd_fuzzy_storage_ctx, updates_maxfail),
									  RSPAMD_CL_FLAG_UINT,
									  "Maximum number of updates to be failed before discarding");
	rspamd_rcl_register_worker_option(cfg,
									  type,
									  "skip_hashes",
									  rspamd_rcl_parse_struct_ucl,
									  ctx,
									  G_STRUCT_OFFSET(struct rspamd_fuzzy_storage_ctx, skip_map),
									  0,
									  "Skip specific hashes from the map");

	/* Ratelimits */
	rspamd_rcl_register_worker_option(cfg,
									  type,
									  "ratelimit_whitelist",
									  rspamd_rcl_parse_struct_ucl,
									  ctx,
									  G_STRUCT_OFFSET(struct rspamd_fuzzy_storage_ctx, ratelimit_whitelist_map),
									  0,
									  "Skip specific addresses from rate limiting");
	rspamd_rcl_register_worker_option(cfg,
									  type,
									  "ratelimit_max_buckets",
									  rspamd_rcl_parse_struct_integer,
									  ctx,
									  G_STRUCT_OFFSET(struct rspamd_fuzzy_storage_ctx, max_buckets),
									  RSPAMD_CL_FLAG_UINT,
									  "Maximum number of leaky buckets (default: " G_STRINGIFY(DEFAULT_MAX_BUCKETS) ")");
	rspamd_rcl_register_worker_option(cfg,
									  type,
									  "ratelimit_network_mask",
									  rspamd_rcl_parse_struct_integer,
									  ctx,
									  G_STRUCT_OFFSET(struct rspamd_fuzzy_storage_ctx, leaky_bucket_mask),
									  RSPAMD_CL_FLAG_UINT,
									  "Network mask to apply for IPv4 rate addresses (default: " G_STRINGIFY(DEFAULT_BUCKET_MASK) ")");
	rspamd_rcl_register_worker_option(cfg,
									  type,
									  "ratelimit_bucket_ttl",
									  rspamd_rcl_parse_struct_time,
									  ctx,
									  G_STRUCT_OFFSET(struct rspamd_fuzzy_storage_ctx, leaky_bucket_ttl),
									  RSPAMD_CL_FLAG_TIME_INTEGER,
									  "Time to live for ratelimit element (default: " G_STRINGIFY(DEFAULT_BUCKET_TTL) ")");
	rspamd_rcl_register_worker_option(cfg,
									  type,
									  "ratelimit_rate",
									  rspamd_rcl_parse_struct_double,
									  ctx,
									  G_STRUCT_OFFSET(struct rspamd_fuzzy_storage_ctx, leaky_bucket_rate),
									  0,
									  "Leak rate in requests per second");
	rspamd_rcl_register_worker_option(cfg,
									  type,
									  "ratelimit_burst",
									  rspamd_rcl_parse_struct_double,
									  ctx,
									  G_STRUCT_OFFSET(struct rspamd_fuzzy_storage_ctx, leaky_bucket_burst),
									  0,
									  "Peak value for ratelimit bucket");
	rspamd_rcl_register_worker_option(cfg,
									  type,
									  "ratelimit_log_only",
									  rspamd_rcl_parse_struct_boolean,
									  ctx,
									  G_STRUCT_OFFSET(struct rspamd_fuzzy_storage_ctx, ratelimit_log_only),
									  0,
									  "Don't really ban on ratelimit reaching, just log");


	return ctx;
}

static void
rspamd_fuzzy_peer_io(EV_P_ ev_io *w, int revents)
{
	struct fuzzy_peer_cmd cmd;
	struct rspamd_fuzzy_storage_ctx *ctx =
		(struct rspamd_fuzzy_storage_ctx *) w->data;
	gssize r;

	for (;;) {
		r = read(w->fd, &cmd, sizeof(cmd));

		if (r != sizeof(cmd)) {
			if (errno == EINTR) {
				continue;
			}
			if (errno != EAGAIN) {
				msg_err("cannot read command from peers: %s", strerror(errno));
			}

			break;
		}
		else {
			g_array_append_val(ctx->updates_pending, cmd);
		}
	}
}

static void
fuzzy_peer_rep(struct rspamd_worker *worker,
			   struct rspamd_srv_reply *rep, int rep_fd,
			   gpointer ud)
{
	struct rspamd_fuzzy_storage_ctx *ctx = ud;
	GList *cur;
	struct rspamd_worker_listen_socket *ls;
	struct rspamd_worker_accept_event *ac_ev;

	ctx->peer_fd = rep_fd;

	if (rep_fd == -1) {
		msg_err("cannot receive peer fd from the main process");
		exit(EXIT_FAILURE);
	}
	else {
		rspamd_socket_nonblocking(rep_fd);
	}

	msg_info("got peer fd reply from the main process");

	/* Start listening */
	cur = worker->cf->listen_socks;
	while (cur) {
		ls = cur->data;

		if (ls->fd != -1) {
			msg_info("start listening on %s",
					 rspamd_inet_address_to_string_pretty(ls->addr));

			if (ls->type == RSPAMD_WORKER_SOCKET_UDP) {
				ac_ev = g_malloc0(sizeof(*ac_ev));
				ac_ev->accept_ev.data = worker;
				ac_ev->event_loop = ctx->event_loop;
				ev_io_init(&ac_ev->accept_ev, accept_fuzzy_socket, ls->fd,
						   EV_READ);
				ev_io_start(ctx->event_loop, &ac_ev->accept_ev);
				DL_APPEND(worker->accept_events, ac_ev);
			}
			else {
				/* We allow TCP listeners only for a update worker */
				g_assert_not_reached();
			}
		}

		cur = g_list_next(cur);
	}

	if (ctx->peer_fd != -1) {
		if (worker->index == 0) {
			/* Listen for peer requests */
			shutdown(ctx->peer_fd, SHUT_WR);
			ctx->peer_ev.data = ctx;
			ev_io_init(&ctx->peer_ev, rspamd_fuzzy_peer_io, ctx->peer_fd, EV_READ);
			ev_io_start(ctx->event_loop, &ctx->peer_ev);
		}
		else {
			shutdown(ctx->peer_fd, SHUT_RD);
		}
	}
}

/*
 * Start worker process
 */
__attribute__((noreturn)) void
start_fuzzy(struct rspamd_worker *worker)
{
	struct rspamd_fuzzy_storage_ctx *ctx = worker->ctx;
	GError *err = NULL;
	struct rspamd_srv_command srv_cmd;
	struct rspamd_config *cfg = worker->srv->cfg;

	g_assert(rspamd_worker_check_context(worker->ctx, rspamd_fuzzy_storage_magic));
	ctx->event_loop = rspamd_prepare_worker(worker,
											"fuzzy",
											NULL);
	ctx->peer_fd = -1;
	ctx->worker = worker;
	ctx->cfg = worker->srv->cfg;
	ctx->resolver = rspamd_dns_resolver_init(worker->srv->logger,
											 ctx->event_loop,
											 worker->srv->cfg);
	rspamd_upstreams_library_config(worker->srv->cfg, ctx->cfg->ups_ctx,
									ctx->event_loop, ctx->resolver->r);
	/* Since this worker uses maps it needs a valid HTTP context */
	ctx->http_ctx = rspamd_http_context_create(ctx->cfg, ctx->event_loop,
											   ctx->cfg->ups_ctx);

	if (ctx->keypair_cache_size > 0) {
		/* Create keypairs cache */
		ctx->keypair_cache = rspamd_keypair_cache_new(ctx->keypair_cache_size);
	}


	if ((ctx->backend = rspamd_fuzzy_backend_create(ctx->event_loop,
													worker->cf->options, cfg, &err)) == NULL) {
		msg_err("cannot open backend: %e", err);
		if (err) {
			g_error_free(err);
		}
		exit(EXIT_SUCCESS);
	}

	rspamd_fuzzy_backend_count(ctx->backend, fuzzy_count_callback, ctx);


	if (worker->index == 0) {
		ctx->updates_pending = g_array_sized_new(FALSE, FALSE,
												 sizeof(struct fuzzy_peer_cmd), 1024);
		rspamd_fuzzy_backend_start_update(ctx->backend, ctx->sync_timeout,
										  rspamd_fuzzy_storage_periodic_callback, ctx);

		if (ctx->dedicated_update_worker && worker->cf->count > 1) {
			msg_info_config("stop serving clients request in dedicated update mode");
			rspamd_worker_stop_accept(worker);

			GList *cur = worker->cf->listen_socks;

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

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

				cur = g_list_next(cur);
			}
		}
	}

	ctx->stat_ev.data = ctx;
	ev_timer_init(&ctx->stat_ev, rspamd_fuzzy_stat_callback, ctx->sync_timeout,
				  ctx->sync_timeout);
	ev_timer_start(ctx->event_loop, &ctx->stat_ev);
	/* Register custom reload and stat commands for the control socket */
	rspamd_control_worker_add_cmd_handler(worker, RSPAMD_CONTROL_RELOAD,
										  rspamd_fuzzy_storage_reload, ctx);
	rspamd_control_worker_add_cmd_handler(worker, RSPAMD_CONTROL_FUZZY_STAT,
										  rspamd_fuzzy_storage_stat, ctx);
	rspamd_control_worker_add_cmd_handler(worker, RSPAMD_CONTROL_FUZZY_SYNC,
										  rspamd_fuzzy_storage_sync, ctx);
	rspamd_control_worker_add_cmd_handler(worker, RSPAMD_CONTROL_FUZZY_BLOCKED,
										  rspamd_fuzzy_control_blocked, ctx);


	if (ctx->update_map != NULL) {
		rspamd_config_radix_from_ucl(worker->srv->cfg, ctx->update_map,
									 "Allow fuzzy updates from specified addresses",
									 &ctx->update_ips, NULL, worker, "fuzzy update");
	}

	if (ctx->update_keys_map != NULL) {
		struct rspamd_map *m;

		if ((m = rspamd_map_add_from_ucl(worker->srv->cfg, ctx->update_keys_map,
										 "Allow fuzzy updates from specified public keys",
										 rspamd_kv_list_read,
										 rspamd_kv_list_fin,
										 rspamd_kv_list_dtor,
										 (void **) &ctx->update_keys, worker, RSPAMD_MAP_DEFAULT)) == NULL) {
			msg_warn_config("cannot load allow keys map from %s",
							ucl_object_tostring(ctx->update_keys_map));
		}
		else {
			m->active_http = TRUE;
		}
	}

	if (ctx->skip_map != NULL) {
		struct rspamd_map *m;

		if ((m = rspamd_map_add_from_ucl(cfg, ctx->skip_map,
										 "Skip hashes",
										 rspamd_kv_list_read,
										 rspamd_kv_list_fin,
										 rspamd_kv_list_dtor,
										 (void **) &ctx->skip_hashes,
										 worker, RSPAMD_MAP_DEFAULT)) == NULL) {
			msg_warn_config("cannot load hashes list from %s",
							ucl_object_tostring(ctx->skip_map));
		}
		else {
			m->active_http = TRUE;
		}
	}

	if (ctx->blocked_map != NULL) {
		rspamd_config_radix_from_ucl(worker->srv->cfg, ctx->blocked_map,
									 "Block fuzzy requests from the specific IPs",
									 &ctx->blocked_ips,
									 NULL,
									 worker, "fuzzy blocked");
	}

	/* Create radix trees */
	if (ctx->ratelimit_whitelist_map != NULL) {
		rspamd_config_radix_from_ucl(worker->srv->cfg, ctx->ratelimit_whitelist_map,
									 "Skip ratelimits from specific ip addresses/networks",
									 &ctx->ratelimit_whitelist,
									 NULL,
									 worker, "fuzzy ratelimit whitelist");
	}

	if (ctx->dynamic_keys_map) {
		struct fuzzy_keymap_ucl_buf *jb, **pjb;

		ctx->dynamic_keys = kh_init(rspamd_fuzzy_keys_hash);
		/* Now try to add map with ucl data */
		jb = g_malloc(sizeof(struct fuzzy_keymap_ucl_buf));
		pjb = g_malloc(sizeof(struct fuzzy_keymap_ucl_buf *));
		jb->buf = NULL;
		jb->ctx = ctx;
		*pjb = jb;
		rspamd_mempool_add_destructor(ctx->cfg->cfg_pool,
									  (rspamd_mempool_destruct_t) g_free,
									  pjb);

		if (!rspamd_map_add_from_ucl(cfg,
									 ctx->dynamic_keys_map,
									 "Dynamic fuzzy keys map",
									 ucl_keymap_read_cb,
									 ucl_keymap_fin_cb,
									 ucl_keymap_dtor_cb,
									 (void **) pjb, worker, RSPAMD_MAP_DEFAULT)) {
			msg_err("cannot add map for dynamic keys");
		}
	}

	if (!isnan(ctx->delay) && ctx->delay_whitelist_map != NULL) {
		rspamd_config_radix_from_ucl(worker->srv->cfg, ctx->delay_whitelist_map,
									 "Skip delay from the following ips",
									 &ctx->delay_whitelist, NULL, worker,
									 "fuzzy delayed whitelist");
	}

	/* Ratelimits */
	if (!isnan(ctx->leaky_bucket_rate) && !isnan(ctx->leaky_bucket_burst)) {
		ctx->ratelimit_buckets = rspamd_lru_hash_new_full(ctx->max_buckets,
														  NULL, fuzzy_rl_bucket_free,
														  rspamd_inet_address_hash, rspamd_inet_address_equal);

		rspamd_fuzzy_maybe_load_ratelimits(ctx);
	}

	/* Maps events */
	ctx->resolver = rspamd_dns_resolver_init(worker->srv->logger,
											 ctx->event_loop,
											 worker->srv->cfg);
	rspamd_map_watch(worker->srv->cfg, ctx->event_loop,
					 ctx->resolver, worker, RSPAMD_MAP_WATCH_WORKER);

	/* Get peer pipe */
	memset(&srv_cmd, 0, sizeof(srv_cmd));
	srv_cmd.type = RSPAMD_SRV_SOCKETPAIR;
	srv_cmd.cmd.spair.af = SOCK_DGRAM;
	srv_cmd.cmd.spair.pair_num = worker->index;
	memset(srv_cmd.cmd.spair.pair_id, 0, sizeof(srv_cmd.cmd.spair.pair_id));
	/* 6 bytes of id (including \0) and bind_conf id */
	G_STATIC_ASSERT(sizeof(srv_cmd.cmd.spair.pair_id) >=
					sizeof("fuzzy") + sizeof(uint64_t));

	memcpy(srv_cmd.cmd.spair.pair_id, "fuzzy", sizeof("fuzzy"));

	/* Distinguish workers from each others... */
	if (worker->cf->bind_conf && worker->cf->bind_conf->bind_line) {
		uint64_t bind_hash = rspamd_cryptobox_fast_hash(worker->cf->bind_conf->bind_line,
														strlen(worker->cf->bind_conf->bind_line), 0xdeadbabe);

		/* 8 more bytes */
		memcpy(srv_cmd.cmd.spair.pair_id + sizeof("fuzzy"), &bind_hash,
			   sizeof(bind_hash));
	}

	rspamd_srv_send_command(worker, ctx->event_loop, &srv_cmd, -1,
							fuzzy_peer_rep, ctx);

	/*
	 * Extra fields available for this particular worker
	 */
	luaL_Reg fuzzy_lua_reg = {
		.name = "add_fuzzy_pre_handler",
		.func = lua_fuzzy_add_pre_handler,
	};
	rspamd_lua_add_metamethod(ctx->cfg->lua_state, rspamd_worker_classname, &fuzzy_lua_reg);
	fuzzy_lua_reg = (luaL_Reg){
		.name = "add_fuzzy_post_handler",
		.func = lua_fuzzy_add_post_handler,
	};
	rspamd_lua_add_metamethod(ctx->cfg->lua_state, rspamd_worker_classname, &fuzzy_lua_reg);
	fuzzy_lua_reg = (luaL_Reg){
		.name = "add_fuzzy_blacklist_handler",
		.func = lua_fuzzy_add_blacklist_handler,
	};
	rspamd_lua_add_metamethod(ctx->cfg->lua_state, rspamd_worker_classname, &fuzzy_lua_reg);

	rspamd_lua_run_postloads(ctx->cfg->lua_state, ctx->cfg, ctx->event_loop,
							 worker);

	ev_loop(ctx->event_loop, 0);
	rspamd_worker_block_signals();

	if (ctx->peer_fd != -1) {
		if (worker->index == 0) {
			ev_io_stop(ctx->event_loop, &ctx->peer_ev);
		}
		close(ctx->peer_fd);
	}

	if (worker->index == 0 && ctx->updates_pending->len > 0) {

		msg_info_config("start another event loop to sync fuzzy storage");

		if (rspamd_fuzzy_process_updates_queue(ctx, local_db_name, TRUE)) {
			ev_loop(ctx->event_loop, 0);
			msg_info_config("sync cycle is done");
		}
		else {
			msg_info_config("no need to sync");
		}
	}

	rspamd_fuzzy_backend_close(ctx->backend);

	if (worker->index == 0) {
		g_array_free(ctx->updates_pending, TRUE);
		ctx->updates_pending = NULL;
	}

	if (ctx->keypair_cache) {
		rspamd_keypair_cache_destroy(ctx->keypair_cache);
	}

	if (ctx->ratelimit_buckets) {
		/* Try the best to save ratelimits from the proper worker */
		if ((!ctx->dedicated_update_worker && worker->index == 0) ||
			(ctx->dedicated_update_worker && worker->index == 1)) {
			rspamd_fuzzy_maybe_save_ratelimits(ctx);
		}

		rspamd_lru_hash_destroy(ctx->ratelimit_buckets);
	}

	if (ctx->lua_pre_handler_cbref != -1) {
		luaL_unref(ctx->cfg->lua_state, LUA_REGISTRYINDEX, ctx->lua_pre_handler_cbref);
	}

	if (ctx->lua_post_handler_cbref != -1) {
		luaL_unref(ctx->cfg->lua_state, LUA_REGISTRYINDEX, ctx->lua_post_handler_cbref);
	}

	if (ctx->lua_blacklist_cbref != -1) {
		luaL_unref(ctx->cfg->lua_state, LUA_REGISTRYINDEX, ctx->lua_blacklist_cbref);
	}

	if (ctx->default_forbidden_ids) {
		kh_destroy(fuzzy_key_ids_set, ctx->default_forbidden_ids);
	}

	if (ctx->weak_ids) {
		kh_destroy(fuzzy_key_ids_set, ctx->weak_ids);
	}

	REF_RELEASE(ctx->cfg);
	rspamd_log_close(worker->srv->logger);
	rspamd_unset_crash_handler(worker->srv);

	exit(EXIT_SUCCESS);
}