/* Copyright (c) 2000, 2011, Oracle and/or its affiliates. All rights reserved. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; version 2 of the License. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA */ /* ** A class for static sized hash tables where old entries are deleted in ** first-in-last-out to usage. */ #ifndef HASH_FILO_H #define HASH_FILO_H #ifdef USE_PRAGMA_INTERFACE #pragma interface /* gcc class interface */ #endif #include "hash.h" /* my_hash_get_key, my_hash_free_key, HASH */ #include "m_string.h" /* bzero */ #include "mysqld.h" /* key_hash_filo_lock */ class hash_filo_element { private: hash_filo_element *next_used,*prev_used; public: hash_filo_element() {} hash_filo_element *next() { return next_used; } hash_filo_element *prev() { return prev_used; } friend class hash_filo; }; class hash_filo { private: const uint key_offset, key_length; const my_hash_get_key get_key; /** Size of this hash table. */ uint m_size; my_hash_free_key free_element; bool init; CHARSET_INFO *hash_charset; hash_filo_element *first_link,*last_link; public: mysql_mutex_t lock; HASH cache; hash_filo(uint size_arg, uint key_offset_arg , uint key_length_arg, my_hash_get_key get_key_arg, my_hash_free_key free_element_arg, CHARSET_INFO *hash_charset_arg) :key_offset(key_offset_arg), key_length(key_length_arg), get_key(get_key_arg), m_size(size_arg), free_element(free_element_arg),init(0), hash_charset(hash_charset_arg), first_link(NULL), last_link(NULL) { bzero((char*) &cache,sizeof(cache)); } ~hash_filo() { if (init) { if (cache.array.buffer) /* Avoid problems with thread library */ (void) my_hash_free(&cache); mysql_mutex_destroy(&lock); } } void clear(bool locked=0) { if (!init) { init=1; mysql_mutex_init(key_hash_filo_lock, &lock, MY_MUTEX_INIT_FAST); } if (!locked) mysql_mutex_lock(&lock); first_link= NULL; last_link= NULL; (void) my_hash_free(&cache); (void) my_hash_init(&cache,hash_charset,m_size,key_offset, key_length, get_key, free_element,0); if (!locked) mysql_mutex_unlock(&lock); } hash_filo_element *first() { mysql_mutex_assert_owner(&lock); return first_link; } hash_filo_element *last() { mysql_mutex_assert_owner(&lock); return last_link; } hash_filo_element *search(uchar* key, size_t length) { mysql_mutex_assert_owner(&lock); hash_filo_element *entry=(hash_filo_element*) my_hash_search(&cache,(uchar*) key,length); if (entry) { // Found; link it first DBUG_ASSERT(first_link != NULL); DBUG_ASSERT(last_link != NULL); if (entry != first_link) { // Relink used-chain if (entry == last_link) { last_link= last_link->prev_used; /* The list must have at least 2 elements, otherwise entry would be equal to first_link. */ DBUG_ASSERT(last_link != NULL); last_link->next_used= NULL; } else { DBUG_ASSERT(entry->next_used != NULL); DBUG_ASSERT(entry->prev_used != NULL); entry->next_used->prev_used = entry->prev_used; entry->prev_used->next_used = entry->next_used; } entry->prev_used= NULL; entry->next_used= first_link; first_link->prev_used= entry; first_link=entry; } } return entry; } bool add(hash_filo_element *entry) { if (!m_size) return 1; if (cache.records == m_size) { hash_filo_element *tmp=last_link; last_link= last_link->prev_used; if (last_link != NULL) { last_link->next_used= NULL; } else { /* Pathological case, m_size == 1 */ first_link= NULL; } my_hash_delete(&cache,(uchar*) tmp); } if (my_hash_insert(&cache,(uchar*) entry)) { if (free_element) (*free_element)(entry); // This should never happen return 1; } entry->prev_used= NULL; entry->next_used= first_link; if (first_link != NULL) first_link->prev_used= entry; else last_link= entry; first_link= entry; return 0; } uint size() { return m_size; } void resize(uint new_size) { mysql_mutex_lock(&lock); m_size= new_size; clear(true); mysql_mutex_unlock(&lock); } }; #endif