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

#include "config.h"
#include "util.h"
#include "main.h"
#include "message.h"
#include "symbols_cache.h"
#include "view.h"
#include "cfg_file.h"

#define WEIGHT_MULT 2.0
#define FREQUENCY_MULT 100.0
#define TIME_MULT -1.0

/* After which number of messages try to resort cache */
#define MAX_USES 100
/*
 * Symbols cache utility functions
 */

#define MIN_CACHE 17

static guint64                 total_frequency = 0;
static guint32                 nsymbols = 0;

gint
cache_cmp (const void *p1, const void *p2)
{
	const struct cache_item        *i1 = p1, *i2 = p2;

	return strcmp (i1->s->symbol, i2->s->symbol);
}

gint
cache_logic_cmp (const void *p1, const void *p2)
{
	const struct cache_item        *i1 = p1, *i2 = p2;
	double                          w1, w2;
	double                          f1 = 0, f2 = 0;

	if (i1->priority == 0 && i2->priority == 0) {
		if (total_frequency > 0) {
			f1 = ((double)i1->s->frequency * nsymbols) / (double)total_frequency;
			f2 = ((double)i2->s->frequency * nsymbols) / (double)total_frequency;
		}
		w1 = abs (i1->s->weight) * WEIGHT_MULT + f1 * FREQUENCY_MULT + i1->s->avg_time * TIME_MULT;
		w2 = abs (i2->s->weight) * WEIGHT_MULT + f2 * FREQUENCY_MULT + i2->s->avg_time * TIME_MULT;
	}
	else {
		/* Strict sorting */
		w1 = abs (i1->priority);
		w2 = abs (i2->priority);
	}

	return (gint)w2 - w1;
}

static GChecksum               *
get_mem_cksum (struct symbols_cache *cache)
{
	GChecksum                      *result;
	GList                          *cur;
	struct cache_item              *item;

	result = g_checksum_new (G_CHECKSUM_SHA1);

	cur = g_list_first (cache->negative_items);
	while (cur) {
		item = cur->data;
		if (item->s->symbol[0] != '\0') {
			g_checksum_update (result, item->s->symbol, strlen (item->s->symbol));
		}
		cur = g_list_next (cur);
	}
	cur = g_list_first (cache->static_items);
	while (cur) {
		item = cur->data;
		if (item->s->symbol[0] != '\0') {
			g_checksum_update (result, item->s->symbol, strlen (item->s->symbol));
		}
		total_frequency += item->s->frequency;
		cur = g_list_next (cur);
	}

	return result;
}

/* Sort items in logical order */
static void
post_cache_init (struct symbols_cache *cache)
{
	GList                          *cur;
	struct cache_item              *item;

	total_frequency = 0;
	nsymbols = cache->used_items;
	cur = g_list_first (cache->negative_items);
	while (cur) {
		item = cur->data;
		total_frequency += item->s->frequency;
		cur = g_list_next (cur);
	}
	cur = g_list_first (cache->static_items);
	while (cur) {
		item = cur->data;
		total_frequency += item->s->frequency;
		cur = g_list_next (cur);
	}

	cache->negative_items = g_list_sort (cache->negative_items, cache_logic_cmp);
	cache->static_items = g_list_sort (cache->static_items, cache_logic_cmp);
}

/* Unmap cache file */
static void
unmap_cache_file (gpointer arg)
{
	struct symbols_cache           *cache = arg;
	
	/* A bit ugly usage */
	munmap (cache->map, cache->used_items * sizeof (struct saved_cache_item));
}

static                          gboolean
mmap_cache_file (struct symbols_cache *cache, gint fd, memory_pool_t *pool)
{
	guint8                         *map;
	gint                            i;
	GList                          *cur;
	struct cache_item              *item;

	if (cache->used_items > 0) {
		map = mmap (NULL, cache->used_items * sizeof (struct saved_cache_item), PROT_READ | PROT_WRITE, MAP_SHARED, fd, 0);
		if (map == MAP_FAILED) {
			msg_err ("cannot mmap cache file: %d, %s", errno, strerror (errno));
			close (fd);
			return FALSE;
		}
		/* Close descriptor as it would never be used */
		close (fd);
		cache->map = map;
		/* Now free old values for saved cache items and fill them with mmapped ones */
		i = 0;
		cur = g_list_first (cache->negative_items);
		while (cur) {
			item = cur->data;
			item->s = (struct saved_cache_item *)(map + i * sizeof (struct saved_cache_item));
			cur = g_list_next (cur);
			i ++;
		}
		cur = g_list_first (cache->static_items);
		while (cur) {
			item = cur->data;
			item->s = (struct saved_cache_item *)(map + i * sizeof (struct saved_cache_item));
			cur = g_list_next (cur);
			i ++;
		}

		post_cache_init (cache);
	}

	return TRUE;
}

/* Fd must be opened for writing, after creating file is mmapped */
static                          gboolean
create_cache_file (struct symbols_cache *cache, const gchar *filename, gint fd, memory_pool_t *pool)
{
	GChecksum                      *cksum;
	u_char                         *digest;
	gsize                           cklen;
	GList                          *cur;
	struct cache_item              *item;

	/* Calculate checksum */
	cksum = get_mem_cksum (cache);
	if (cksum == NULL) {
		msg_err ("cannot calculate checksum for symbols");
		close (fd);
		return FALSE;
	}

	cklen = g_checksum_type_get_length (G_CHECKSUM_SHA1);
	digest = g_malloc (cklen);

	g_checksum_get_digest (cksum, digest, &cklen);
	/* Now write data to file */
	cur = g_list_first (cache->negative_items);
	while (cur) {
		item = cur->data;
		if (write (fd, item->s, sizeof (struct saved_cache_item)) == -1) {
			msg_err ("cannot write to file %d, %s", errno, strerror (errno));
			close (fd);
			g_checksum_free (cksum);
			g_free (digest);
			return FALSE;
		}
		cur = g_list_next (cur);
	}
	cur = g_list_first (cache->static_items);
	while (cur) {
		item = cur->data;
		if (write (fd, item->s, sizeof (struct saved_cache_item)) == -1) {
			msg_err ("cannot write to file %d, %s", errno, strerror (errno));
			close (fd);
			g_checksum_free (cksum);
			g_free (digest);
			return FALSE;
		}
		cur = g_list_next (cur);
	}
	/* Write checksum */
	if (write (fd, digest, cklen) == -1) {
		msg_err ("cannot write to file %d, %s", errno, strerror (errno));
		close (fd);
		g_checksum_free (cksum);
		g_free (digest);
		return FALSE;
	}

	close (fd);
	g_checksum_free (cksum);
	g_free (digest);
	/* Reopen for reading */
	if ((fd = open (filename, O_RDWR)) == -1) {
		msg_info ("cannot open file %s, error %d, %s", errno, strerror (errno));
		return FALSE;
	}

	return mmap_cache_file (cache, fd, pool);
}

enum rspamd_symbol_type {
	SYMBOL_TYPE_NORMAL,
	SYMBOL_TYPE_VIRTUAL,
	SYMBOL_TYPE_CALLBACK
};

static void
register_symbol_common (struct symbols_cache **cache, const gchar *name, double weight, gint priority,
		symbol_func_t func, gpointer user_data, enum rspamd_symbol_type type)
{
	struct cache_item              *item = NULL;
	struct symbols_cache           *pcache = *cache;
	GList                         **target;
	double                         *w;  

	if (*cache == NULL) {
		pcache = g_new0 (struct symbols_cache, 1);
		*cache = pcache;
		pcache->static_pool = memory_pool_new (memory_pool_get_size ());
		pcache->items_by_symbol = g_hash_table_new (g_str_hash, g_str_equal);
	}
	
	item = memory_pool_alloc0 (pcache->static_pool, sizeof (struct cache_item));
	item->s = memory_pool_alloc0 (pcache->static_pool, sizeof (struct saved_cache_item));
	rspamd_strlcpy (item->s->symbol, name, sizeof (item->s->symbol));
	item->func = func;
	item->user_data = user_data;
	item->priority = priority;

	switch (type) {
	case SYMBOL_TYPE_NORMAL:
		break;
	case SYMBOL_TYPE_VIRTUAL:
		item->is_virtual = TRUE;
		break;
	case SYMBOL_TYPE_CALLBACK:
		item->is_callback = TRUE;
		break;
	}

	/* Handle weight using default metric */
	if (pcache->cfg && pcache->cfg->default_metric && (w = g_hash_table_lookup (pcache->cfg->default_metric->symbols, name)) != NULL) {
		item->s->weight = weight * (*w);
	}
	else {
		item->s->weight = weight;
	}

	/* If we have undefined priority determine list according to weight */
	if (priority == 0) {
		if (item->s->weight > 0) {
			target = &(*cache)->static_items;
		}
		else {
			target = &(*cache)->negative_items;
		}
	}
	else {
		/* Items with more priority are called before items with less priority */
		if (priority < 0) {
			target = &(*cache)->negative_items;
		}
		else {
			target = &(*cache)->static_items;
		}
	}

	pcache->used_items++;
	g_hash_table_insert (pcache->items_by_symbol, item->s->symbol, item);
	msg_debug ("used items: %d, added symbol: %s", (*cache)->used_items, name);
	set_counter (item->s->symbol, 0);

	*target = g_list_prepend (*target, item);
}

void
register_symbol (struct symbols_cache **cache, const gchar *name, double weight,
		symbol_func_t func, gpointer user_data)
{
	register_symbol_common (cache, name, weight, 0, func, user_data, SYMBOL_TYPE_NORMAL);
}

void
register_virtual_symbol (struct symbols_cache **cache, const gchar *name, double weight)
{
	register_symbol_common (cache, name, weight, 0, NULL, NULL, SYMBOL_TYPE_VIRTUAL);
}

void
register_callback_symbol (struct symbols_cache **cache, const gchar *name, double weight,
		symbol_func_t func, gpointer user_data)
{
	register_symbol_common (cache, name, weight, 0, func, user_data, SYMBOL_TYPE_CALLBACK);
}

void
register_callback_symbol_priority (struct symbols_cache **cache, const gchar *name, double weight, gint priority,
		symbol_func_t func, gpointer user_data)
{
	register_symbol_common (cache, name, weight, priority, func, user_data, SYMBOL_TYPE_CALLBACK);
}

void
register_dynamic_symbol (memory_pool_t *dynamic_pool, struct symbols_cache **cache,
		const gchar *name, double weight, symbol_func_t func, 
		gpointer user_data, GList *networks)
{
	struct cache_item              *item = NULL;
	struct symbols_cache           *pcache = *cache;
	GList                          *t, *cur;
	uintptr_t                       r;
	double                         *w;  
	guint32                         mask = 0xFFFFFFFF;
	struct dynamic_map_item        *it;
	gint                            rr;

	if (*cache == NULL) {
		pcache = g_new0 (struct symbols_cache, 1);
		*cache = pcache;
		pcache->static_pool = memory_pool_new (memory_pool_get_size ());
	}
	
	item = memory_pool_alloc0 (dynamic_pool, sizeof (struct cache_item));
	item->s = memory_pool_alloc (dynamic_pool, sizeof (struct saved_cache_item));
	rspamd_strlcpy (item->s->symbol, name, sizeof (item->s->symbol));
	item->func = func;
	item->user_data = user_data;
	/* Handle weight using default metric */
	if (pcache->cfg && pcache->cfg->default_metric && (w = g_hash_table_lookup (pcache->cfg->default_metric->symbols, name)) != NULL) {
		item->s->weight = weight * (*w);
	}
	else {
		item->s->weight = weight;
	}
	item->is_dynamic = TRUE;
	item->priority = 0;

	pcache->used_items++;
	msg_debug ("used items: %d, added symbol: %s", (*cache)->used_items, name);
	set_counter (item->s->symbol, 0);
	
	g_hash_table_insert (pcache->items_by_symbol, item->s->symbol, item);

	if (networks == NULL) {
		pcache->dynamic_items = g_list_prepend (pcache->dynamic_items, item);
	}
	else {
		if (pcache->dynamic_map == NULL) {
			pcache->dynamic_map = radix_tree_create ();
			pcache->negative_dynamic_map = radix_tree_create ();
		}
		cur = networks;
		while (cur) {
			it = cur->data;
			mask = mask << (32 - it->mask);
			r = ntohl (it->addr.s_addr & mask);
			if (it->negative) {
				/* For negatve items insert into list and into negative cache map */
				if ((r = radix32tree_find (pcache->negative_dynamic_map, r)) != RADIX_NO_VALUE) {
					t = (GList *)((gpointer)r);
					t = g_list_prepend (t, item);
					/* Replace pointers in radix tree and in destructor function */
					memory_pool_replace_destructor (dynamic_pool, (pool_destruct_func)g_list_free, (gpointer)r, t);
					rr = radix32tree_replace (pcache->negative_dynamic_map, ntohl (it->addr.s_addr), mask, (uintptr_t)t);
					if (rr == -1) {
						msg_warn ("cannot replace ip to tree: %s, mask %X", inet_ntoa (it->addr), mask);
					}
				}
				else {
					t = g_list_prepend (NULL, item);
					memory_pool_add_destructor (dynamic_pool, (pool_destruct_func)g_list_free, t);
					rr = radix32tree_insert (pcache->negative_dynamic_map, ntohl (it->addr.s_addr), mask, (uintptr_t)t);
					if (rr == -1) {
						msg_warn ("cannot insert ip to tree: %s, mask %X", inet_ntoa (it->addr), mask);
					}
					else if (rr == 1) {
						msg_warn ("ip %s, mask %X, value already exists", inet_ntoa (it->addr), mask);
					}
				}
				/* Insert into list */
				pcache->dynamic_items = g_list_prepend (pcache->dynamic_items, item);
			}
			else {
				if ((r = radix32tree_find (pcache->dynamic_map, r)) != RADIX_NO_VALUE) {
					t = (GList *)((gpointer)r);
					t = g_list_prepend (t, item);
					/* Replace pointers in radix tree and in destructor function */
					memory_pool_replace_destructor (dynamic_pool, (pool_destruct_func)g_list_free, (gpointer)r, t);
					rr = radix32tree_replace (pcache->dynamic_map, ntohl (it->addr.s_addr), mask, (uintptr_t)t);
					if (rr == -1) {
						msg_warn ("cannot replace ip to tree: %s, mask %X", inet_ntoa (it->addr), mask);
					}
				}
				else {
					t = g_list_prepend (NULL, item);
					memory_pool_add_destructor (dynamic_pool, (pool_destruct_func)g_list_free, t);
					rr = radix32tree_insert (pcache->dynamic_map, ntohl (it->addr.s_addr), mask, (uintptr_t)t);
					if (rr == -1) {
						msg_warn ("cannot insert ip to tree: %s, mask %X", inet_ntoa (it->addr), mask);
					}
					else if (rr == 1) {
						msg_warn ("ip %s, mask %X, value already exists", inet_ntoa (it->addr), mask);
					}
				}
			}
			cur = g_list_next (cur);
		}
	}
}

void
remove_dynamic_rules (struct symbols_cache *cache)
{
	if (cache->dynamic_items) {
		g_list_free (cache->dynamic_items);
		cache->dynamic_items = NULL;
	}

	if (cache->dynamic_map) {
		radix_tree_free (cache->dynamic_map);
		cache->dynamic_map = NULL;
	}
	if (cache->negative_dynamic_map) {
		radix_tree_free (cache->negative_dynamic_map);
		cache->negative_dynamic_map = NULL;
	}
}

static void
free_cache (gpointer arg)
{
	struct symbols_cache           *cache = arg;
	
	if (cache->map != NULL) {
		unmap_cache_file (cache);
	}

	if (cache->static_items) {
		g_list_free (cache->static_items);
	}
	if (cache->negative_items) {
		g_list_free (cache->negative_items);
	}
	if (cache->dynamic_items) {
		g_list_free (cache->dynamic_items);
	}
	if (cache->dynamic_map) {
		radix_tree_free (cache->dynamic_map);
	}
	if (cache->negative_dynamic_map) {
		radix_tree_free (cache->negative_dynamic_map);
	}
	g_hash_table_destroy (cache->items_by_symbol);
	memory_pool_delete (cache->static_pool);

	g_free (cache);
}

gboolean
init_symbols_cache (memory_pool_t * pool, struct symbols_cache *cache, struct config_file *cfg,
		const gchar *filename, gboolean ignore_checksum)
{
	struct stat                     st;
	gint                            fd;
	GChecksum                      *cksum;
	u_char                         *mem_sum, *file_sum;
	gsize                           cklen;
	gboolean                        res;

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

	/* Init locking */
	cache->lock = memory_pool_get_rwlock (pool);

	cache->cfg = cfg;

	/* Just in-memory cache */
	if (filename == NULL) {
		post_cache_init (cache);
		return TRUE;
	}
	
	/* First of all try to stat file */
	if (stat (filename, &st) == -1) {
		/* Check errno */
		if (errno == ENOENT) {
			/* Try to create file */
			if ((fd = open (filename, O_RDWR | O_TRUNC | O_CREAT, S_IWUSR | S_IRUSR)) == -1) {
				msg_info ("cannot create file %s, error %d, %s", filename, errno, strerror (errno));
				return FALSE;
			}
			else {
				return create_cache_file (cache, filename, fd, pool);
			}
		}
		else {
			msg_info ("cannot stat file %s, error %d, %s", filename, errno, strerror (errno));
			return FALSE;
		}
	}
	else {
		if ((fd = open (filename, O_RDWR)) == -1) {
			msg_info ("cannot open file %s, error %d, %s", filename, errno, strerror (errno));
			return FALSE;
		}
	}

	if (!ignore_checksum) {
		/* Calculate checksum */
		cksum = get_mem_cksum (cache);
		if (cksum == NULL) {
			msg_err ("cannot calculate checksum for symbols");
			close (fd);
			return FALSE;
		}

		cklen = g_checksum_type_get_length (G_CHECKSUM_SHA1);
		mem_sum = g_malloc (cklen);

		g_checksum_get_digest (cksum, mem_sum, &cklen);
		/* Now try to read file sum */
		if (lseek (fd, -(cklen), SEEK_END) == -1) {
			if (errno == EINVAL) {
				/* Try to create file */
				msg_info ("recreate cache file");
				if ((fd = open (filename, O_RDWR | O_TRUNC | O_CREAT, S_IWUSR | S_IRUSR)) == -1) {
					msg_info ("cannot create file %s, error %d, %s", filename, errno, strerror (errno));
					return FALSE;
				}
				else {
					return create_cache_file (cache, filename, fd, pool);
				}
			}
			close (fd);
			g_free (mem_sum);
			g_checksum_free (cksum);
			msg_err ("cannot seek to read checksum, %d, %s", errno, strerror (errno));
			return FALSE;
		}
		file_sum = g_malloc (cklen);
		if (read (fd, file_sum, cklen) == -1) {
			close (fd);
			g_free (mem_sum);
			g_free (file_sum);
			g_checksum_free (cksum);
			msg_err ("cannot read checksum, %d, %s", errno, strerror (errno));
			return FALSE;
		}

		if (memcmp (file_sum, mem_sum, cklen) != 0) {
			close (fd);
			g_free (mem_sum);
			g_free (file_sum);
			g_checksum_free (cksum);
			msg_info ("checksum mismatch, recreating file");
			/* Reopen with rw permissions */
			if ((fd = open (filename, O_RDWR | O_TRUNC | O_CREAT, S_IWUSR | S_IRUSR)) == -1) {
				msg_info ("cannot create file %s, error %d, %s", filename, errno, strerror (errno));
				return FALSE;
			}
			else {
				return create_cache_file (cache, filename, fd, pool);
			}
		}

		g_free (mem_sum);
		g_free (file_sum);
		g_checksum_free (cksum);
	}
	/* MMap cache file and copy saved_cache structures */
	res = mmap_cache_file (cache, fd, pool);

	memory_pool_add_destructor (pool, (pool_destruct_func)free_cache, cache);

	return res;
}

static GList *
check_dynamic_item (struct worker_task *task, struct symbols_cache *cache)
{
#ifdef HAVE_INET_PTON
	/* TODO: radix doesn't support ipv6 addrs */
	return NULL;
#else
	GList                          *res = NULL;
	uintptr_t                       r;
	if (cache->dynamic_map != NULL && task->from_addr.s_addr != INADDR_NONE) {
		if ((r = radix32tree_find (cache->dynamic_map, ntohl (task->from_addr.s_addr))) != RADIX_NO_VALUE) {
			res = (GList *)((gpointer)r);
			return res;
		}
		else {
			return NULL;
		}
	}
	return res;
#endif
}

static gboolean
check_negative_dynamic_item (struct worker_task *task, struct symbols_cache *cache, struct cache_item *item)
{

#ifdef HAVE_INET_PTON
	/* TODO: radix doesn't support ipv6 addrs */
	return FALSE;
#else
	GList                          *res = NULL;
	uintptr_t                       r;

	if (cache->negative_dynamic_map != NULL && task->from_addr.s_addr != INADDR_NONE) {
		if ((r = radix32tree_find (cache->negative_dynamic_map, ntohl (task->from_addr.s_addr))) != RADIX_NO_VALUE) {
			res = (GList *)((gpointer)r);
			while (res) {
				if (res->data == (gpointer)item) {
					return TRUE;
				}
				res = g_list_next (res);
			}
		}
	}
	return FALSE;
#endif

}

static gboolean
check_debug_symbol (struct config_file *cfg, const gchar *symbol)
{
	GList                         *cur;

	cur = cfg->debug_symbols;
	while (cur) {
		if (strcmp (symbol, (const gchar *)cur->data) == 0) {
			return TRUE;
		}
		cur = g_list_next (cur);
	}

	return FALSE;
}


gboolean
validate_cache (struct symbols_cache *cache, struct config_file *cfg, gboolean strict)
{
	struct cache_item              *item;
	GList                          *cur, *p, *metric_symbols;
	gboolean                        res;

	if (cache == NULL) {
		msg_err ("empty cache is invalid");
		return FALSE;
	}

	/* Check each symbol in a cache and find its weight definition */
	cur = cache->negative_items;
	while (cur) {
		item = cur->data;
		if (!item->is_callback) {
			if (g_hash_table_lookup (cfg->metrics_symbols, item->s->symbol) == NULL) {
				if (strict) {
					msg_warn ("no weight registered for symbol %s", item->s->symbol);
					return FALSE;
				}
				else {
					msg_info ("no weight registered for symbol %s", item->s->symbol);
				}
			}
		}
		cur = g_list_next (cur);
	}
	cur = cache->static_items;
	while (cur) {
		item = cur->data;
		if (!item->is_callback) {
			if (g_hash_table_lookup (cfg->metrics_symbols, item->s->symbol) == NULL) {
				if (strict) {
					msg_warn ("no weight registered for symbol %s", item->s->symbol);
					return FALSE;
				}
				else {
					msg_info ("no weight registered for symbol %s", item->s->symbol);
				}
			}
		}
		cur = g_list_next (cur);
	}
#ifndef GLIB_HASH_COMPAT
	/* Now check each metric item and find corresponding symbol in a cache */
	metric_symbols = g_hash_table_get_keys (cfg->metrics_symbols);
	cur = metric_symbols;
	while (cur) {
		res = FALSE;
		p = cache->negative_items;
		while (p) {
			item = p->data;
			if (strcmp (item->s->symbol, cur->data) == 0) {
				res = TRUE;
				break;
			}
			p = g_list_next (p);
		}
		if (!res) {
			p = cache->static_items;
			while (p) {
				item = p->data;
				if (strcmp (item->s->symbol, cur->data) == 0) {
					res = TRUE;
					break;
				}
				p = g_list_next (p);
			}
		}
		if (!res) {
			msg_warn ("symbol '%s' is registered in metric but not found in cache", cur->data);
			if (strict) {
				return FALSE;
			}
		}
		cur = g_list_next (cur);
	}
	g_list_free (metric_symbols);
#endif /* GLIB_COMPAT */

	return TRUE;
}

struct symbol_callback_data {
	enum {
		CACHE_STATE_NEGATIVE,
		CACHE_STATE_DYNAMIC_MAP,
		CACHE_STATE_DYNAMIC,
		CACHE_STATE_STATIC
	} state;
	struct cache_item *saved_item;
	GList *list_pointer;
};

gboolean
call_symbol_callback (struct worker_task * task, struct symbols_cache * cache, gpointer *save)
{
#ifdef HAVE_CLOCK_GETTIME
	struct timespec                 ts1, ts2;
#else
	struct timeval                  tv1, tv2;
#endif
	guint64                         diff;
	struct cache_item              *item = NULL;
	struct symbol_callback_data    *s = *save;

	if (s == NULL) {
		if (cache == NULL) {
			return FALSE;
		}
		if (cache->uses++ >= MAX_USES) {
			msg_info ("resort symbols cache");
			memory_pool_wlock_rwlock (cache->lock);
			cache->uses = 0;
			/* Resort while having write lock */
			post_cache_init (cache);
			memory_pool_wunlock_rwlock (cache->lock);
		}
		s = memory_pool_alloc0 (task->task_pool, sizeof (struct symbol_callback_data));
		*save = s;
		if (cache->negative_items != NULL) {
			s->list_pointer = g_list_first (cache->negative_items);
			s->saved_item = s->list_pointer->data;
			s->state = CACHE_STATE_NEGATIVE;
		}
		else if ((s->list_pointer = check_dynamic_item (task, cache)) || cache->dynamic_items != NULL) {
			if (s->list_pointer == NULL) {
				s->list_pointer = g_list_first (cache->dynamic_items);
				s->saved_item = s->list_pointer->data;
				s->state = CACHE_STATE_DYNAMIC;
			}
			else {
				s->saved_item = s->list_pointer->data;
				s->state = CACHE_STATE_DYNAMIC_MAP;
			}
		}
		else {
			s->state = CACHE_STATE_STATIC;
			s->list_pointer = g_list_first (cache->static_items);
			if (s->list_pointer) {
				s->saved_item = s->list_pointer->data;
			}
			else {
				return FALSE;
			}
		}
		item = s->saved_item;
	}
	else {
		if (cache == NULL) {
			return FALSE;
		}
		switch (s->state) {
			case CACHE_STATE_NEGATIVE:
				s->list_pointer = g_list_next (s->list_pointer);
				if (s->list_pointer == NULL) {
					if ((s->list_pointer = check_dynamic_item (task, cache)) || cache->dynamic_items != NULL) {
						if (s->list_pointer == NULL) {
							s->list_pointer = g_list_first (cache->dynamic_items);
							s->saved_item = s->list_pointer->data;
							s->state = CACHE_STATE_DYNAMIC;
						}
						else {
							s->saved_item = s->list_pointer->data;
							s->state = CACHE_STATE_DYNAMIC_MAP;
						}
					}
					else {
						s->state = CACHE_STATE_STATIC;
						s->list_pointer = g_list_first (cache->static_items);
						if (s->list_pointer) {
							s->saved_item = s->list_pointer->data;
						}
						else {
							return FALSE;
						}
					}
				}
				else {
					s->saved_item = s->list_pointer->data;
				}
				item = s->saved_item;
				break;
			case CACHE_STATE_DYNAMIC_MAP:
				s->list_pointer = g_list_next (s->list_pointer);
				if (s->list_pointer == NULL) {
					s->list_pointer = g_list_first (cache->dynamic_items);
					if (s->list_pointer) {
						s->saved_item = s->list_pointer->data;
						s->state = CACHE_STATE_DYNAMIC;
					}
					else {
						s->state = CACHE_STATE_STATIC;
						s->list_pointer = g_list_first (cache->static_items);
						if (s->list_pointer) {
							s->saved_item = s->list_pointer->data;
						}
						else {
							return FALSE;
						}
					}
				}
				else {
					s->saved_item = s->list_pointer->data;
				}
				item = s->saved_item;
				break;
			case CACHE_STATE_DYNAMIC:
				s->list_pointer = g_list_next (s->list_pointer);
				if (s->list_pointer == NULL) {
					s->state = CACHE_STATE_STATIC;
					s->list_pointer = g_list_first (cache->static_items);
					if (s->list_pointer) {
						s->saved_item = s->list_pointer->data;
					}
					else {
						return FALSE;
					}
				}
				else {
					s->saved_item = s->list_pointer->data;
					/* Skip items that are in negative map */
					while (s->list_pointer != NULL && check_negative_dynamic_item (task, cache, s->saved_item)) {
						s->list_pointer = g_list_next (s->list_pointer);
						if (s->list_pointer != NULL) {
							s->saved_item = s->list_pointer->data;
						}
					}
					if (s->list_pointer == NULL) {
						s->state = CACHE_STATE_STATIC;
						s->list_pointer = g_list_first (cache->static_items);
						if (s->list_pointer) {
							s->saved_item = s->list_pointer->data;
						}
						else {
							return FALSE;
						}
					}
				}
				item = s->saved_item;
				break;
			case CACHE_STATE_STATIC:
				/* Next pointer */
				s->list_pointer = g_list_next (s->list_pointer);
				if (s->list_pointer) {
					s->saved_item = s->list_pointer->data;
				}
				else {
					return FALSE;
				}
				item = s->saved_item;
				break;
		}
	}
	if (!item) {
		return FALSE;
	}
	if (!item->is_virtual && check_view (task->cfg->views, item->s->symbol, task)) {
#ifdef HAVE_CLOCK_GETTIME
# ifdef HAVE_CLOCK_PROCESS_CPUTIME_ID
		clock_gettime (CLOCK_PROCESS_CPUTIME_ID, &ts1);
# elif defined(HAVE_CLOCK_VIRTUAL)
		clock_gettime (CLOCK_VIRTUAL, &ts1);
# else
		clock_gettime (CLOCK_REALTIME, &ts1);
# endif
#else
		if (gettimeofday (&tv1, NULL) == -1) {
			msg_warn ("gettimeofday failed: %s", strerror (errno));
		}
#endif
		if (G_UNLIKELY (check_debug_symbol (task->cfg, item->s->symbol))) {
			rspamd_log_debug (rspamd_main->logger);
			item->func (task, item->user_data);
			rspamd_log_nodebug (rspamd_main->logger);
		}
		else {
			item->func (task, item->user_data);
		}


#ifdef HAVE_CLOCK_GETTIME
# ifdef HAVE_CLOCK_PROCESS_CPUTIME_ID
		clock_gettime (CLOCK_PROCESS_CPUTIME_ID, &ts2);
# elif defined(HAVE_CLOCK_VIRTUAL)
		clock_gettime (CLOCK_VIRTUAL, &ts2);
# else
		clock_gettime (CLOCK_REALTIME, &ts2);
# endif
#else
		if (gettimeofday (&tv2, NULL) == -1) {
			msg_warn ("gettimeofday failed: %s", strerror (errno));
		}
#endif

#ifdef HAVE_CLOCK_GETTIME
		diff = (ts2.tv_sec - ts1.tv_sec) * 1000000 + (ts2.tv_nsec - ts1.tv_nsec) / 1000;
#else
		diff = (tv2.tv_sec - tv1.tv_sec) * 1000000 + (tv2.tv_usec - tv1.tv_usec);
#endif
		item->s->avg_time = set_counter (item->s->symbol, diff);
	}

	s->saved_item = item;

	return TRUE;

}