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/*
 * Copyright (c) 2009-2012, Vsevolod Stakhov
 * All rights reserved.
 *
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions are met:
 *     * Redistributions of source code must retain the above copyright
 *       notice, this list of conditions and the following disclaimer.
 *     * Redistributions in binary form must reproduce the above copyright
 *       notice, this list of conditions and the following disclaimer in the
 *       documentation and/or other materials provided with the distribution.
 *
 * THIS SOFTWARE IS PROVIDED BY AUTHOR ''AS IS'' AND ANY
 * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
 * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
 * DISCLAIMED. IN NO EVENT SHALL AUTHOR BE LIABLE FOR ANY
 * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
 * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
 * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
 * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
 * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
 * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
 */

/*
 * Rspamd fuzzy storage server
 */

#include "config.h"
#include "util.h"
#include "main.h"
#include "protocol.h"
#include "upstream.h"
#include "cfg_file.h"
#include "cfg_xml.h"
#include "url.h"
#include "message.h"
#include "fuzzy.h"
#include "bloom.h"
#include "map.h"
#include "fuzzy_storage.h"

#ifdef WITH_JUDY
#include <Judy.h>
#endif

/* This number is used as limit while comparing two fuzzy hashes, this value can vary from 0 to 100 */
#define LEV_LIMIT 99
/* This number is used as limit while we are making decision to write new hash file or not */
#define DEFAULT_MOD_LIMIT 10000
/* This number is used as expire time in seconds for cache items  (2 days) */
#define DEFAULT_EXPIRE 172800L
/* Resync value in seconds */
#define SYNC_TIMEOUT 60
/* Number of hash buckets */
#define BUCKETS 1024
/* Number of insuccessfull bind retries */
#define MAX_RETRIES 40
/* Weight of hash to consider it frequent */
#define DEFAULT_FREQUENT_SCORE 100
/* Magic sequence for hashes file */
#define FUZZY_FILE_MAGIC "rsh"
/* Current version of fuzzy hash file format */
#define CURRENT_FUZZY_VERSION 1

#define INVALID_NODE_TIME (guint64)-1

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

worker_t fuzzy_worker = {
	"fuzzy",					/* Name */
	init_fuzzy,					/* Init function */
	start_fuzzy,				/* Start function */
	TRUE,						/* No socket */
	TRUE,						/* Unique */
	TRUE,						/* Threaded */
	FALSE,						/* Non killable */
	SOCK_DGRAM					/* UDP socket */
};

static GQueue                  *hashes[BUCKETS];
static GQueue                  *frequent;
#ifdef WITH_JUDY
static gpointer                 jtree;
#endif
static bloom_filter_t          *bf;

/* Number of cache modifications */
static guint32                 mods = 0;
/* For evtimer */
static struct timeval           tmv;
static struct event             tev;
static struct rspamd_stat      *server_stat;
static sig_atomic_t             wanna_die = 0;

struct rspamd_fuzzy_storage_ctx {
	gboolean                        use_judy;
	char                           *hashfile;
	gdouble                         expire;
	guint32                         frequent_score;
	guint32                         max_mods;
	radix_tree_t                   *update_ips;
	gchar                          *update_map;
	struct event_base             *ev_base;
	rspamd_rwlock_t                *tree_lock;
	rspamd_mutex_t                 *update_mtx;
	GCond                          *update_cond;
	GThread                        *update_thread;
};

struct rspamd_fuzzy_node {
	gint32                          value;
	gint32                          flag;
	guint64                         time;
	fuzzy_hash_t                    h;
};

struct fuzzy_session {
	struct rspamd_worker *worker;
	struct fuzzy_cmd cmd;
	gint fd;
	u_char *pos;
	socklen_t salen;
	guint64 time;
	union {
		struct sockaddr ss;
		struct sockaddr_storage sa;
		struct sockaddr_in s4;
		struct sockaddr_in6 v6;
	} client_addr;
	struct rspamd_fuzzy_storage_ctx *ctx;
};

#ifndef HAVE_SA_SIGINFO
static void
sig_handler (gint signo)
#else
static void
sig_handler (gint signo, siginfo_t *info, void *unused)
#endif
{
	switch (signo) {
	case SIGINT:
	case SIGTERM:
		/* Ignore SIGINT and SIGTERM as they are handled by libevent handler */
		return;
		break;
	}
}

static gint
compare_nodes (gconstpointer a, gconstpointer b, gpointer unused)
{
	const struct rspamd_fuzzy_node *n1 = a, *n2 = b;

	return n1->value - n2->value;
}

/**
 * Expire nodes from list (need to be called in tree write lock)
 * @param to_expire nodes that should be removed (if judy it is an array of nodes,
 * and it is array of GList * otherwise)
 * @param expired_num number of elements to expire
 * @param ctx context
 */
static void
expire_nodes (gpointer *to_expire, gint expired_num,
		struct rspamd_fuzzy_storage_ctx *ctx)
{
	gint                            i;
	struct rspamd_fuzzy_node      *node;
	GList                          *cur;
	GQueue                         *head;

	for (i = 0; i < expired_num; i ++) {
#ifdef WITH_JUDY
		if (ctx->use_judy) {
			node = (struct rspamd_fuzzy_node *)to_expire[i];
			if (node->time != INVALID_NODE_TIME) {
				server_stat->fuzzy_hashes_expired ++;
			}
			server_stat->fuzzy_hashes --;
			JudySLDel (&jtree, node->h.hash_pipe, PJE0);
			bloom_del (bf, node->h.hash_pipe);
			g_slice_free1 (sizeof (struct rspamd_fuzzy_node), node);
		}
		else {
#endif
		cur = (GList *)to_expire[i];
		node = (struct rspamd_fuzzy_node *)cur->data;
		head = hashes[node->h.block_size % BUCKETS];
		g_queue_delete_link (head, cur);
		bloom_del (bf, node->h.hash_pipe);
		if (node->time != INVALID_NODE_TIME) {
			server_stat->fuzzy_hashes_expired ++;
		}
		server_stat->fuzzy_hashes--;
		g_slice_free1 (sizeof(struct rspamd_fuzzy_node), node);
#ifdef WITH_JUDY
		}
#endif
	}
}

static gpointer
sync_cache (gpointer ud)
{
	static const int              max_expired = 8192;
	struct rspamd_worker          *wrk = ud;
	gint                            fd, i, expired_num = 0;
	gchar                          *filename, header[4];
	GList                          *cur;
	struct rspamd_fuzzy_node      *node;
	gpointer                       *nodes_expired = NULL;
	guint64                         expire, now;
	struct rspamd_fuzzy_storage_ctx *ctx;
#ifdef WITH_JUDY
	PPvoid_t                        pvalue;
	gchar                           indexbuf[1024];
#endif

	ctx = wrk->ctx;

	for (;;) {

		rspamd_mutex_lock (ctx->update_mtx);

		/* Check for modifications */
		while (mods < ctx->max_mods && !wanna_die) {
			rspamd_cond_wait (ctx->update_cond, ctx->update_mtx);
		}

		msg_info ("syncing fuzzy hash storage");
		filename = ctx->hashfile;
		if (filename == NULL ) {
			rspamd_mutex_unlock (ctx->update_mtx);
			if (wanna_die) {
				return NULL;
			}
			continue;
		}
		expire = ctx->expire;

		if ((fd = open (filename, O_WRONLY | O_TRUNC | O_CREAT,
				S_IWUSR | S_IRUSR | S_IRGRP | S_IROTH)) == -1) {
			msg_err(
					"cannot create hash file %s: %s", filename, strerror (errno));
			rspamd_mutex_unlock (ctx->update_mtx);
			if (wanna_die) {
				return NULL;
			}
			continue;
		}

		(void) lock_file (fd, FALSE);

		now = (guint64) time (NULL );

		/* Fill header */
		memcpy (header, FUZZY_FILE_MAGIC, 3);
		header[3] = (gchar) CURRENT_FUZZY_VERSION;
		if (write (fd, header, sizeof(header)) == -1) {
			msg_err(
					"cannot write file %s while writing header: %s", filename, strerror (errno));
			goto end;
		}

#ifdef WITH_JUDY
		if (ctx->use_judy) {
			rspamd_rwlock_reader_lock (ctx->tree_lock);
			indexbuf[0] = '\0';
			pvalue = JudySLFirst (jtree, indexbuf, PJE0);
			while (pvalue) {
				node = *((struct rspamd_fuzzy_node **)pvalue);
				if (node->time == INVALID_NODE_TIME || now - node->time > expire) {
					if (nodes_expired == NULL) {
						nodes_expired = g_malloc (max_expired * sizeof (gpointer));
					}

					if (expired_num < max_expired) {
						nodes_expired[expired_num ++] = node;
					}
					pvalue = JudySLNext (jtree, indexbuf, PJE0);
					continue;
				}
				if (write (fd, node, sizeof (struct rspamd_fuzzy_node)) == -1) {
					msg_err ("cannot write file %s: %s", filename, strerror (errno));
					goto end;
				}
				pvalue = JudySLNext (jtree, indexbuf, PJE0);
			}
			rspamd_rwlock_reader_unlock (ctx->tree_lock);
		}
		else {
#endif
		rspamd_rwlock_reader_lock (ctx->tree_lock);
		cur = frequent->head;
		while (cur) {
			node = cur->data;
			if (write (fd, node, sizeof(struct rspamd_fuzzy_node)) == -1) {
				msg_err("cannot write file %s: %s", filename, strerror (errno));
			}
			cur = g_list_next (cur);
		}
		for (i = 0; i < BUCKETS; i++) {
			cur = hashes[i]->head;
			while (cur) {
				node = cur->data;
				if (now - node->time > expire) {
					if (nodes_expired == NULL) {
						nodes_expired = g_malloc (max_expired * sizeof (gpointer));
					}

					if (expired_num < max_expired) {
						nodes_expired[expired_num ++] = cur;
					}
					cur = g_list_next (cur);
					continue;
				}
				if (write (fd, node, sizeof(struct rspamd_fuzzy_node)) == -1) {
					msg_err(
							"cannot write file %s: %s", filename, strerror (errno));
					goto end;
				}
				cur = g_list_next (cur);
			}
		}
		rspamd_rwlock_reader_unlock (ctx->tree_lock);
#ifdef WITH_JUDY
	}
#endif

		/* Now try to expire some nodes */
		if (expired_num > 0) {
			rspamd_rwlock_writer_lock (ctx->tree_lock);
			expire_nodes (nodes_expired, expired_num, ctx);
			rspamd_rwlock_writer_unlock (ctx->tree_lock);
		}
		mods = 0;
end:
		if (nodes_expired != NULL) {
			g_free (nodes_expired);
		}
		(void) unlock_file (fd, FALSE);
		close (fd);

		rspamd_mutex_unlock (ctx->update_mtx);
		if (wanna_die) {
			break;
		}
	}

	return NULL;
}

static void
sigterm_handler (gint fd, short what, void *arg)
{
	struct rspamd_worker           *worker = (struct rspamd_worker *)arg;
	struct rspamd_fuzzy_storage_ctx *ctx;
	static struct timeval           tv = {
		.tv_sec = 0,
		.tv_usec = 0
	};

	ctx = worker->ctx;
	event_del (&worker->sig_ev_usr1);
	event_del (&worker->sig_ev_usr2);

	rspamd_mutex_lock (ctx->update_mtx);
	mods = ctx->max_mods + 1;
	wanna_die = 1;
	g_cond_signal (ctx->update_cond);
	rspamd_mutex_unlock (ctx->update_mtx);

	(void)event_base_loopexit (ctx->ev_base, &tv);
}

/*
 * Config reload is designed by sending sigusr to active workers and pending shutdown of them
 */
static void
sigusr2_handler (gint fd, short what, void *arg)
{
	struct rspamd_worker           *worker = (struct rspamd_worker *)arg;
	/* Do not accept new connections, preparing to end worker's process */
	struct timeval                  tv;
	struct rspamd_fuzzy_storage_ctx *ctx;

	ctx = worker->ctx;
	tv.tv_sec = 0;
	tv.tv_usec = 0;
	event_del (&worker->sig_ev_usr1);
	event_del (&worker->sig_ev_usr2);
	worker_stop_accept (worker);
	msg_info ("worker's shutdown is pending in %d sec", SOFT_SHUTDOWN_TIME);
	rspamd_mutex_lock (ctx->update_mtx);
	mods = ctx->max_mods + 1;
	wanna_die = 1;
	g_cond_signal (ctx->update_cond);
	rspamd_mutex_unlock (ctx->update_mtx);

	event_base_loopexit (ctx->ev_base, &tv);
	return;
}

/*
 * Reopen log is designed by sending sigusr1 to active workers and pending shutdown of them
 */
static void
sigusr1_handler (gint fd, short what, void *arg)
{
	struct rspamd_worker           *worker = (struct rspamd_worker *) arg;

	reopen_log (worker->srv->logger);

	return;
}

static                          gboolean
read_hashes_file (struct rspamd_worker *wrk)
{
	gint                            r, fd, i, version = 0;
	struct stat                     st;
	gchar                           *filename, header[4];
	gboolean                        touch_stat = TRUE;
	struct rspamd_fuzzy_node       *node;
	struct rspamd_fuzzy_storage_ctx *ctx = wrk->ctx;
	struct {
		gint32                          value;
		guint64                         time;
		fuzzy_hash_t                    h;
	}								legacy_node;
#ifdef WITH_JUDY
	PPvoid_t                         pvalue;

	if (server_stat->fuzzy_hashes != 0) {
		touch_stat = FALSE;
	}

	if (ctx->use_judy) {
		jtree = NULL;
	}
	else {
#endif
	for (i = 0; i < BUCKETS; i++) {
		hashes[i] = g_queue_new ();
	}
	frequent = g_queue_new ();
#ifdef WITH_JUDY
	}
#endif

	filename = ctx->hashfile;
	if (filename == NULL) {
		return FALSE;
	}

	if ((fd = open (filename, O_RDONLY)) == -1) {
		msg_err ("cannot open hash file %s: %s", filename, strerror (errno));
		return FALSE;
	}

	(void)lock_file (fd, FALSE);

	fstat (fd, &st);

	/* First of all try to read magic and version number */
	if ((r = read (fd, header, sizeof (header))) == sizeof (header)) {
		if (memcmp (header, FUZZY_FILE_MAGIC, sizeof (header) - 1) == 0) {
			/* We have version in last byte of header */
			version = (gint)header[3];
			if (version > CURRENT_FUZZY_VERSION) {
				msg_err ("unsupported version of fuzzy hash file: %d", version);
				close (fd);
				return FALSE;
			}
			msg_info ("reading fuzzy hashes storage file of version %d of size %d", version, (gint)(st.st_size - sizeof (header)) / sizeof (struct rspamd_fuzzy_node));
		}
		else {
			/* Old version */
			version = 0;
			msg_info ("got old version of fuzzy hashes storage, it would be converted to new version %d automatically", CURRENT_FUZZY_VERSION);
			/* Rewind file */
			(void)lseek (fd, 0, SEEK_SET);
		}
	}

	for (;;) {
		node = g_slice_alloc (sizeof (struct rspamd_fuzzy_node));
		if (version == 0) {
			r = read (fd, &legacy_node, sizeof (legacy_node));
			if (r != sizeof (legacy_node)) {
				break;
			}
			node->value = legacy_node.value;
			node->time = legacy_node.time;
			memcpy (&node->h, &legacy_node.h, sizeof (fuzzy_hash_t));
			node->flag = 0;
		}
		else {
			r = read (fd, node, sizeof (struct rspamd_fuzzy_node));
			if (r != sizeof (struct rspamd_fuzzy_node)) {
				break;
			}
		}
#ifdef WITH_JUDY
		if (ctx->use_judy) {
			pvalue = JudySLIns (&jtree, node->h.hash_pipe, PJE0);
			*pvalue = node;
		}
		else {
#endif
		if (node->value > (gint)ctx->frequent_score) {
			g_queue_push_head (frequent, node);
		}
		else {
			g_queue_push_head (hashes[node->h.block_size % BUCKETS], node);
		}
#ifdef WITH_JUDY
		}
#endif
		bloom_add (bf, node->h.hash_pipe);
		if (touch_stat) {
			server_stat->fuzzy_hashes ++;
		}
	}

#ifdef WITH_JUDY
	if (!ctx->use_judy) {
#endif
	/* Sort everything */
	g_queue_sort (frequent, compare_nodes, NULL);
	for (i = 0; i < BUCKETS; i ++) {
		g_queue_sort (hashes[i], compare_nodes, NULL);
	}
#ifdef WITH_JUDY
	}
#endif

	(void)unlock_file (fd, FALSE);
	close (fd);

	if (r > 0) {
		msg_warn ("ignore garbadge at the end of file, length of garbadge: %d", r);
	}
	else if (r == -1) {
		msg_err ("cannot open read file %s: %s", filename, strerror (errno));
		return FALSE;
	}

	return TRUE;
}

static inline struct rspamd_fuzzy_node *
check_hash_node (GQueue *hash, fuzzy_hash_t *s, gint update_value,
		guint64 time, struct rspamd_fuzzy_storage_ctx *ctx)
{
	GList                          *cur;
	struct rspamd_fuzzy_node       *h;
	gint                            prob = 0;

#ifdef WITH_JUDY
	PPvoid_t                         pvalue;

	if (ctx->use_judy) {
		pvalue = JudySLGet (jtree, s->hash_pipe, PJE0);
		if (pvalue != NULL) {
			h = *((struct rspamd_fuzzy_node **)pvalue);

			if (h->time == INVALID_NODE_TIME) {
				/* Node is expired */
				return NULL;
			}
			else if (update_value == 0 && time - h->time > ctx->expire) {
				h->time = INVALID_NODE_TIME;
				server_stat->fuzzy_hashes_expired ++;
				return NULL;
			}
			else if (h->h.block_size== s->block_size) {
				msg_info ("fuzzy hash was found in judy tree");
				if (update_value) {
					h->value += update_value;
				}
				return h;
			}
		}
	}
	else {
#endif
	cur = frequent->head;
	while (cur) {
		h = cur->data;
		if ((prob = fuzzy_compare_hashes (&h->h, s)) > LEV_LIMIT) {
			msg_info ("fuzzy hash was found, probability %d%%", prob);
			if (h->time == INVALID_NODE_TIME) {
				return NULL;
			}
			else if (update_value) {
				msg_info ("new hash weight: %d", h->value);
				h->value += update_value;
			}
			else if (time - h->time > ctx->expire) {
				h->time = INVALID_NODE_TIME;
				server_stat->fuzzy_hashes_expired ++;
				return NULL;
			}
			return h;
		}
		cur = g_list_next (cur);
	}

	cur = hash->head;
	while (cur) {
		h = cur->data;
		if ((prob = fuzzy_compare_hashes (&h->h, s)) > LEV_LIMIT) {
			msg_info ("fuzzy hash was found, probability %d%%", prob);
			if (h->time == INVALID_NODE_TIME) {
				return NULL;
			}
			else if (update_value) {
				msg_info ("new hash weight: %d", h->value);
				h->value += update_value;
			}
			else if (time - h->time > ctx->expire) {
				h->time = INVALID_NODE_TIME;
				server_stat->fuzzy_hashes_expired ++;
				return NULL;
			}
			if (h->value > (gint)ctx->frequent_score) {
				g_queue_unlink (hash, cur);
				g_queue_push_head_link (frequent, cur);
				msg_info ("moved hash to frequent list");
			}
			return h;
		}
		cur = g_list_next (cur);
	}
#ifdef WITH_JUDY
	}
#endif

	return NULL;
}

static                          gint
process_check_command (struct fuzzy_cmd *cmd, gint *flag, guint64 time, struct rspamd_fuzzy_storage_ctx *ctx)
{
	fuzzy_hash_t                    s;
	struct rspamd_fuzzy_node       *h;


	if (!bloom_check (bf, cmd->hash)) {
		return 0;
	}

	memcpy (s.hash_pipe, cmd->hash, sizeof (s.hash_pipe));
	s.block_size = cmd->blocksize;

	rspamd_rwlock_reader_lock (ctx->tree_lock);
	h = check_hash_node (hashes[cmd->blocksize % BUCKETS], &s, 0, time, ctx);
	rspamd_rwlock_reader_unlock (ctx->tree_lock);

	if (h == NULL) {
		return 0;
	}
	else {
		*flag = h->flag;
		return h->value;
	}
}

static                          gboolean
update_hash (struct fuzzy_cmd *cmd, guint64 time, struct rspamd_fuzzy_storage_ctx *ctx)
{
	fuzzy_hash_t                    s;
	struct rspamd_fuzzy_node      *n;

	memcpy (s.hash_pipe, cmd->hash, sizeof (s.hash_pipe));
	s.block_size = cmd->blocksize;
	mods ++;

	rspamd_rwlock_writer_lock (ctx->tree_lock);
	n = check_hash_node (hashes[cmd->blocksize % BUCKETS], &s, cmd->value, time, ctx);
	rspamd_rwlock_writer_unlock (ctx->tree_lock);

	if (n != NULL) {
		n->time = time;
		return TRUE;
	}
	return FALSE;
}

static                          gboolean
process_write_command (struct fuzzy_cmd *cmd, guint64 time, struct rspamd_fuzzy_storage_ctx *ctx)
{
	struct rspamd_fuzzy_node       *h;
#ifdef WITH_JUDY
	PPvoid_t                         pvalue;
#endif

	if (bloom_check (bf, cmd->hash)) {
		if (update_hash (cmd, time, ctx)) {
			return TRUE;
		}
	}

	rspamd_rwlock_writer_lock (ctx->tree_lock);
	h = g_slice_alloc (sizeof (struct rspamd_fuzzy_node));
	memcpy (&h->h.hash_pipe, &cmd->hash, sizeof (cmd->hash));
	h->h.block_size = cmd->blocksize;
	h->time = time;
	h->value = cmd->value;
	h->flag = cmd->flag;
#ifdef WITH_JUDY
	if (ctx->use_judy) {
		pvalue = JudySLIns (&jtree, h->h.hash_pipe, PJE0);
		*pvalue = h;
	}
	else {
#endif

		g_queue_push_head (hashes[cmd->blocksize % BUCKETS], h);
#ifdef WITH_JUDY
	}
#endif
	rspamd_rwlock_writer_unlock (ctx->tree_lock);
	bloom_add (bf, cmd->hash);
	mods++;
	server_stat->fuzzy_hashes ++;
	msg_info ("fuzzy hash was successfully added");

	return TRUE;
}

static gboolean
delete_hash (GQueue *hash, fuzzy_hash_t *s, struct rspamd_fuzzy_storage_ctx *ctx)
{
	GList                          *cur, *tmp;
	struct rspamd_fuzzy_node       *h;
	gboolean                        res = FALSE;
#ifdef WITH_JUDY
	PPvoid_t                        pvalue;
	gpointer                        data;

	if (ctx->use_judy) {
		rspamd_rwlock_writer_lock (ctx->tree_lock);
		pvalue = JudySLGet (jtree, s->hash_pipe, PJE0);
		if (pvalue) {
			data = *pvalue;
			res = JudySLDel (&jtree, s->hash_pipe, PJE0);
			g_slice_free1 (sizeof (struct rspamd_fuzzy_node), data);
			bloom_del (bf, s->hash_pipe);
			msg_info ("fuzzy hash was successfully deleted");
			server_stat->fuzzy_hashes --;
			mods++;
		}
		rspamd_rwlock_writer_unlock (ctx->tree_lock);
	}
	else {
#endif
	rspamd_rwlock_writer_lock (ctx->tree_lock);
	cur = hash->head;

	/* XXX: too slow way */
	while (cur) {
		h = cur->data;
		if (fuzzy_compare_hashes (&h->h, s) > LEV_LIMIT) {
			g_slice_free1 (sizeof (struct rspamd_fuzzy_node), h);
			tmp = cur;
			cur = g_list_next (cur);
			g_queue_delete_link (hash, tmp);
			bloom_del (bf, s->hash_pipe);
			msg_info ("fuzzy hash was successfully deleted");
			server_stat->fuzzy_hashes --;
			mods++;
			res = TRUE;
			continue;
		}
		cur = g_list_next (cur);
	}
	rspamd_rwlock_writer_unlock (ctx->tree_lock);
#ifdef WITH_JUDY
	}
#endif

	return res;

}

static                          gboolean
process_delete_command (struct fuzzy_cmd *cmd, guint64 time, struct rspamd_fuzzy_storage_ctx *ctx)
{
	fuzzy_hash_t                    s;
	gboolean                        res = FALSE;

	if (!bloom_check (bf, cmd->hash)) {
		return FALSE;
	}

	memcpy (s.hash_pipe, cmd->hash, sizeof (s.hash_pipe));
	s.block_size = cmd->blocksize;
#ifdef WITH_JUDY
	if (ctx->use_judy) {
		return delete_hash (NULL, &s, ctx);
	}
	else {
#endif
	res = delete_hash (frequent, &s, ctx);
	if (!res) {
		res = delete_hash (hashes[cmd->blocksize % BUCKETS], &s, ctx);
	}
	else {
		(void)delete_hash (hashes[cmd->blocksize % BUCKETS], &s, ctx);
	}
#ifdef WITH_JUDY
	}
#endif

	return res;
}

/**
 * Checks the client's address for update commands permission
 */
static gboolean
check_fuzzy_client (struct fuzzy_session *session)
{
	if (session->ctx->update_ips != NULL) {
		/* XXX: cannot work with ipv6 addresses */
		if (session->client_addr.ss.sa_family != AF_INET) {
			return FALSE;
		}
		if (radix32tree_find (session->ctx->update_ips,
				ntohl (session->client_addr.s4.sin_addr.s_addr)) == RADIX_NO_VALUE) {
			return FALSE;
		}
	}

	return TRUE;
}

#define CMD_PROCESS(x)																			\
do {																							\
if (process_##x##_command (&session->cmd, session->time, session->worker->ctx)) {				\
	if (sendto (session->fd, "OK" CRLF, sizeof ("OK" CRLF) - 1, 0, &session->client_addr.ss, session->salen) == -1) {							\
		msg_err ("error while writing reply: %s", strerror (errno));		\
	}																							\
}																								\
else {																							\
	if (sendto (session->fd, "ERR" CRLF, sizeof ("ERR" CRLF) - 1, 0, &session->client_addr.ss, session->salen) == -1) {						\
		msg_err ("error while writing reply: %s", strerror (errno));		\
	}																							\
}																								\
} while(0)

static void
process_fuzzy_command (struct fuzzy_session *session)
{
	gint                            r, flag = 0;
	gchar                           buf[64];

	switch (session->cmd.cmd) {
	case FUZZY_CHECK:
		r = process_check_command (&session->cmd, &flag, session->time, session->worker->ctx);
		if (r != 0) {
			r = rspamd_snprintf (buf, sizeof (buf), "OK %d %d" CRLF, r, flag);
			if (sendto (session->fd, buf, r, 0,
					&session->client_addr.ss, session->salen) == -1) {
				msg_err ("error while writing reply: %s", strerror (errno));
			}
		}
		else {
			if (sendto (session->fd, "ERR" CRLF, sizeof ("ERR" CRLF) - 1, 0,
					&session->client_addr.ss, session->salen) == -1) {
				msg_err ("error while writing reply: %s", strerror (errno));
			}
		}
		break;
	case FUZZY_WRITE:
		if (!check_fuzzy_client (session)) {
			msg_info ("try to insert a hash from an untrusted address");
			if (sendto (session->fd, "UNAUTH" CRLF, sizeof ("UNAUTH" CRLF) - 1, 0,
					&session->client_addr.ss, session->salen) == -1) {
				msg_err ("error while writing reply: %s", strerror (errno));
			}
		}
		else {
			CMD_PROCESS (write);
		}
		break;
	case FUZZY_DEL:
		if (!check_fuzzy_client (session)) {
			msg_info ("try to delete a hash from an untrusted address");
			if (sendto (session->fd, "UNAUTH" CRLF, sizeof ("UNAUTH" CRLF) - 1, 0,
					&session->client_addr.ss, session->salen) == -1) {
				msg_err ("error while writing reply: %s", strerror (errno));
			}
		}
		else {
			CMD_PROCESS (delete);
		}
		break;
	default:
		if (sendto (session->fd, "ERR" CRLF, sizeof ("ERR" CRLF) - 1, 0,
				&session->client_addr.ss, session->salen) == -1) {
			msg_err ("error while writing reply: %s", strerror (errno));
		}
		break;
	}
}

#undef CMD_PROCESS


/*
 * Accept new connection and construct task
 */
static void
accept_fuzzy_socket (gint fd, short what, void *arg)
{
	struct rspamd_worker           *worker = (struct rspamd_worker *)arg;
	struct fuzzy_session            session;
	ssize_t                         r;
	struct {
		u_char                      cmd;
		guint32                     blocksize;
		gint32                      value;
		u_char                      hash[FUZZY_HASHLEN];
	}								legacy_cmd;


	session.worker = worker;
	session.fd = fd;
	session.pos = (u_char *) & session.cmd;
	session.salen = sizeof (session.client_addr);
	session.ctx = worker->ctx;
	session.time = (guint64)time (NULL);

	/* Got some data */
	if (what == EV_READ) {
		while ((r = recvfrom (fd, session.pos, sizeof (struct fuzzy_cmd),
				MSG_WAITALL, &session.client_addr.ss, &session.salen)) == -1) {
			if (errno == EINTR) {
				continue;
			}
			msg_err ("got error while reading from socket: %d, %s", errno, strerror (errno));
			return;
		}
		if (r == sizeof (struct fuzzy_cmd)) {
			/* Assume that the whole command was read */
			process_fuzzy_command (&session);
		}
		else if (r == sizeof (legacy_cmd)) {
			/* Process requests from old rspamd */
			memcpy (&legacy_cmd, session.pos, sizeof (legacy_cmd));
			session.cmd.cmd = legacy_cmd.cmd;
			session.cmd.blocksize = legacy_cmd.blocksize;
			session.cmd.value = legacy_cmd.value;
			session.cmd.flag = 0;
			memcpy (session.cmd.hash, legacy_cmd.hash, sizeof (legacy_cmd.hash));
			process_fuzzy_command (&session);
		}
		else {
			msg_err ("got incomplete data while reading from socket: %d, %s", errno, strerror (errno));
			return;
		}
	}
}

static void
sync_callback (gint fd, short what, void *arg)
{
	struct rspamd_worker                  *worker = (struct rspamd_worker *)arg;
	struct rspamd_fuzzy_storage_ctx       *ctx;

	ctx = worker->ctx;
	/* Timer event */
	evtimer_set (&tev, sync_callback, worker);
	event_base_set (ctx->ev_base, &tev);
	/* Plan event with jitter */
	tmv.tv_sec = SYNC_TIMEOUT + SYNC_TIMEOUT * g_random_double ();
	tmv.tv_usec = 0;
	evtimer_add (&tev, &tmv);

	rspamd_mutex_lock (ctx->update_mtx);
	g_cond_signal (ctx->update_cond);
	rspamd_mutex_unlock (ctx->update_mtx);
}

static gboolean
parse_fuzzy_update_list (struct rspamd_fuzzy_storage_ctx *ctx)
{
	gchar                           **strvec, **cur;
	struct in_addr                   ina;
	guint32                           mask;

	strvec = g_strsplit_set (ctx->update_map, ",", 0);
	cur = strvec;

	while (*cur != NULL) {
		/* XXX: handle only ipv4 addresses */
		if (parse_ipmask_v4 (*cur, &ina, &mask)) {
			if (ctx->update_ips == NULL) {
				ctx->update_ips = radix_tree_create ();
			}
			radix32tree_add (ctx->update_ips, htonl (ina.s_addr), mask, 1);
		}
		cur ++;
	}

	return (ctx->update_ips != NULL);
}

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

	type = g_quark_try_string ("fuzzy");

	ctx = g_malloc0 (sizeof (struct rspamd_fuzzy_storage_ctx));

	ctx->max_mods = DEFAULT_MOD_LIMIT;
	ctx->frequent_score = DEFAULT_FREQUENT_SCORE;
	ctx->expire = DEFAULT_EXPIRE;
	ctx->tree_lock = rspamd_rwlock_new ();
	ctx->update_mtx = rspamd_mutex_new ();
#if ((GLIB_MAJOR_VERSION == 2) && (GLIB_MINOR_VERSION > 30))
	ctx->update_cond = g_malloc0 (sizeof (GCond));
	g_cond_init (ctx->update_cond);
#else
	ctx->update_cond = g_cond_new ();
#endif

	rspamd_rcl_register_worker_option (cfg, type, "hashfile",
			rspamd_rcl_parse_struct_string, ctx,
			G_STRUCT_OFFSET (struct rspamd_fuzzy_storage_ctx, hashfile), 0);

	rspamd_rcl_register_worker_option (cfg, type, "max_mods",
			rspamd_rcl_parse_struct_integer, ctx,
			G_STRUCT_OFFSET (struct rspamd_fuzzy_storage_ctx, max_mods), RSPAMD_CL_FLAG_INT_32);

	rspamd_rcl_register_worker_option (cfg, type, "frequent_score",
			rspamd_rcl_parse_struct_integer, ctx,
			G_STRUCT_OFFSET (struct rspamd_fuzzy_storage_ctx, frequent_score), RSPAMD_CL_FLAG_INT_32);

	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);

	rspamd_rcl_register_worker_option (cfg, type, "use_judy",
			rspamd_rcl_parse_struct_boolean, ctx,
			G_STRUCT_OFFSET (struct rspamd_fuzzy_storage_ctx, use_judy), 0);

	rspamd_rcl_register_worker_option (cfg, type, "allow_update",
			rspamd_rcl_parse_struct_string, ctx,
			G_STRUCT_OFFSET (struct rspamd_fuzzy_storage_ctx, update_map), 0);


	return ctx;
}

/*
 * Start worker process
 */
void
start_fuzzy (struct rspamd_worker *worker)
{
	struct event                     sev;
	struct rspamd_fuzzy_storage_ctx *ctx = worker->ctx;
	GError                          *err = NULL;

	ctx->ev_base = prepare_worker (worker, "controller", sig_handler, accept_fuzzy_socket);

	server_stat = worker->srv->stat;

	/* SIGUSR2 handler */
	signal_set (&worker->sig_ev_usr2, SIGUSR2, sigusr2_handler, (void *) worker);
	event_base_set (ctx->ev_base, &worker->sig_ev_usr2);
	signal_add (&worker->sig_ev_usr2, NULL);

	/* SIGUSR1 handler */
	signal_set (&worker->sig_ev_usr1, SIGUSR1, sigusr1_handler, (void *) worker);
	event_base_set (ctx->ev_base, &worker->sig_ev_usr1);
	signal_add (&worker->sig_ev_usr1, NULL);

	signal_set (&sev, SIGTERM, sigterm_handler, (void *)worker);
	event_base_set (ctx->ev_base, &sev);
	signal_add (&sev, NULL);

	/* Init bloom filter */
	bf = bloom_create (20000000L, DEFAULT_BLOOM_HASHES);
	/* Try to read hashes from file */
	if (!read_hashes_file (worker)) {
		msg_err ("cannot read hashes file, it can be created after save procedure");
	}
	/* Timer event */
	evtimer_set (&tev, sync_callback, worker);
	event_base_set (ctx->ev_base, &tev);
	/* Plan event with jitter */
	tmv.tv_sec = SYNC_TIMEOUT + SYNC_TIMEOUT * g_random_double ();
	tmv.tv_usec = 0;
	evtimer_add (&tev, &tmv);

	/* Create radix tree */
	if (ctx->update_map != NULL) {
		if (!add_map (worker->srv->cfg, ctx->update_map, "Allow fuzzy updates from specified addresses",
				read_radix_list, fin_radix_list, (void **)&ctx->update_ips)) {
			if (!parse_fuzzy_update_list (ctx)) {
				msg_warn ("cannot load or parse ip list from '%s'", ctx->update_map);
			}
		}
	}

	/* Maps events */
	start_map_watch (worker->srv->cfg, ctx->ev_base);

	ctx->update_thread = rspamd_create_thread ("fuzzy update", sync_cache, worker, &err);
	if (ctx->update_thread == NULL) {
		msg_err ("error creating update thread: %s", err->message);
	}

	event_base_loop (ctx->ev_base, 0);

	if (ctx->update_thread != NULL) {
		g_thread_join (ctx->update_thread);
	}

	close_log (rspamd_main->logger);
	exit (EXIT_SUCCESS);
}