/***************************************************************************** Copyright (c) 1995, 2016, Oracle and/or its affiliates. All Rights Reserved. Copyright (c) 2013, 2017, MariaDB Corporation. 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 Street, Suite 500, Boston, MA 02110-1335 USA *****************************************************************************/ /**************************************************//** @file include/buf0buf.h The database buffer pool high-level routines Created 11/5/1995 Heikki Tuuri *******************************************************/ #ifndef buf0buf_h #define buf0buf_h /** Magic value to use instead of checksums when they are disabled */ #define BUF_NO_CHECKSUM_MAGIC 0xDEADBEEFUL #include "fil0fil.h" #include "mtr0types.h" #include "buf0types.h" #ifndef UNIV_INNOCHECKSUM #include "hash0hash.h" #include "ut0byte.h" #include "page0types.h" #include "ut0rbt.h" #include "os0proc.h" #include "log0log.h" #include "srv0srv.h" #include // Forward declaration struct fil_addr_t; /** @name Modes for buf_page_get_gen */ /* @{ */ #define BUF_GET 10 /*!< get always */ #define BUF_GET_IF_IN_POOL 11 /*!< get if in pool */ #define BUF_PEEK_IF_IN_POOL 12 /*!< get if in pool, do not make the block young in the LRU list */ #define BUF_GET_NO_LATCH 14 /*!< get and bufferfix, but set no latch; we have separated this case, because it is error-prone programming not to set a latch, and it should be used with care */ #define BUF_GET_IF_IN_POOL_OR_WATCH 15 /*!< Get the page only if it's in the buffer pool, if not then set a watch on the page. */ #define BUF_GET_POSSIBLY_FREED 16 /*!< Like BUF_GET, but do not mind if the file page has been freed. */ /* @} */ /** @name Modes for buf_page_get_known_nowait */ /* @{ */ #define BUF_MAKE_YOUNG 51 /*!< Move the block to the start of the LRU list if there is a danger that the block would drift out of the buffer pool*/ #define BUF_KEEP_OLD 52 /*!< Preserve the current LRU position of the block. */ /* @} */ #define MAX_BUFFER_POOLS_BITS 6 /*!< Number of bits to representing a buffer pool ID */ #define MAX_BUFFER_POOLS (1 << MAX_BUFFER_POOLS_BITS) /*!< The maximum number of buffer pools that can be defined */ #define BUF_POOL_WATCH_SIZE (srv_n_purge_threads + 1) /*!< Maximum number of concurrent buffer pool watches */ #define MAX_PAGE_HASH_LOCKS 1024 /*!< The maximum number of page_hash locks */ extern buf_pool_t* buf_pool_ptr; /*!< The buffer pools of the database */ extern volatile bool buf_pool_withdrawing; /*!< true when withdrawing buffer pool pages might cause page relocation */ extern volatile ulint buf_withdraw_clock; /*!< the clock is incremented every time a pointer to a page may become obsolete */ # ifdef UNIV_DEBUG extern my_bool buf_disable_resize_buffer_pool_debug; /*!< if TRUE, resizing buffer pool is not allowed. */ # endif /* UNIV_DEBUG */ /** @brief States of a control block @see buf_page_t The enumeration values must be 0..7. */ enum buf_page_state { BUF_BLOCK_POOL_WATCH, /*!< a sentinel for the buffer pool watch, element of buf_pool->watch[] */ BUF_BLOCK_ZIP_PAGE, /*!< contains a clean compressed page */ BUF_BLOCK_ZIP_DIRTY, /*!< contains a compressed page that is in the buf_pool->flush_list */ BUF_BLOCK_NOT_USED, /*!< is in the free list; must be after the BUF_BLOCK_ZIP_ constants for compressed-only pages @see buf_block_state_valid() */ BUF_BLOCK_READY_FOR_USE, /*!< when buf_LRU_get_free_block returns a block, it is in this state */ BUF_BLOCK_FILE_PAGE, /*!< contains a buffered file page */ BUF_BLOCK_MEMORY, /*!< contains some main memory object */ BUF_BLOCK_REMOVE_HASH /*!< hash index should be removed before putting to the free list */ }; /** This structure defines information we will fetch from each buffer pool. It will be used to print table IO stats */ struct buf_pool_info_t{ /* General buffer pool info */ ulint pool_unique_id; /*!< Buffer Pool ID */ ulint pool_size; /*!< Buffer Pool size in pages */ ulint lru_len; /*!< Length of buf_pool->LRU */ ulint old_lru_len; /*!< buf_pool->LRU_old_len */ ulint free_list_len; /*!< Length of buf_pool->free list */ ulint flush_list_len; /*!< Length of buf_pool->flush_list */ ulint n_pend_unzip; /*!< buf_pool->n_pend_unzip, pages pending decompress */ ulint n_pend_reads; /*!< buf_pool->n_pend_reads, pages pending read */ ulint n_pending_flush_lru; /*!< Pages pending flush in LRU */ ulint n_pending_flush_single_page;/*!< Pages pending to be flushed as part of single page flushes issued by various user threads */ ulint n_pending_flush_list; /*!< Pages pending flush in FLUSH LIST */ ulint n_pages_made_young; /*!< number of pages made young */ ulint n_pages_not_made_young; /*!< number of pages not made young */ ulint n_pages_read; /*!< buf_pool->n_pages_read */ ulint n_pages_created; /*!< buf_pool->n_pages_created */ ulint n_pages_written; /*!< buf_pool->n_pages_written */ ulint n_page_gets; /*!< buf_pool->n_page_gets */ ulint n_ra_pages_read_rnd; /*!< buf_pool->n_ra_pages_read_rnd, number of pages readahead */ ulint n_ra_pages_read; /*!< buf_pool->n_ra_pages_read, number of pages readahead */ ulint n_ra_pages_evicted; /*!< buf_pool->n_ra_pages_evicted, number of readahead pages evicted without access */ ulint n_page_get_delta; /*!< num of buffer pool page gets since last printout */ /* Buffer pool access stats */ double page_made_young_rate; /*!< page made young rate in pages per second */ double page_not_made_young_rate;/*!< page not made young rate in pages per second */ double pages_read_rate; /*!< num of pages read per second */ double pages_created_rate; /*!< num of pages create per second */ double pages_written_rate; /*!< num of pages written per second */ ulint page_read_delta; /*!< num of pages read since last printout */ ulint young_making_delta; /*!< num of pages made young since last printout */ ulint not_young_making_delta; /*!< num of pages not make young since last printout */ /* Statistics about read ahead algorithm. */ double pages_readahead_rnd_rate;/*!< random readahead rate in pages per second */ double pages_readahead_rate; /*!< readahead rate in pages per second */ double pages_evicted_rate; /*!< rate of readahead page evicted without access, in pages per second */ /* Stats about LRU eviction */ ulint unzip_lru_len; /*!< length of buf_pool->unzip_LRU list */ /* Counters for LRU policy */ ulint io_sum; /*!< buf_LRU_stat_sum.io */ ulint io_cur; /*!< buf_LRU_stat_cur.io, num of IO for current interval */ ulint unzip_sum; /*!< buf_LRU_stat_sum.unzip */ ulint unzip_cur; /*!< buf_LRU_stat_cur.unzip, num pages decompressed in current interval */ }; /** The occupied bytes of lists in all buffer pools */ struct buf_pools_list_size_t { ulint LRU_bytes; /*!< LRU size in bytes */ ulint unzip_LRU_bytes; /*!< unzip_LRU size in bytes */ ulint flush_list_bytes; /*!< flush_list size in bytes */ }; /** Page identifier. */ class page_id_t { public: /** Constructor from (space, page_no). @param[in] space tablespace id @param[in] page_no page number */ page_id_t(ulint space, ulint page_no) : m_space(static_cast(space)), m_page_no(static_cast(page_no)), m_fold(ULINT_UNDEFINED) { ut_ad(space <= 0xFFFFFFFFU); ut_ad(page_no <= 0xFFFFFFFFU); } /** Retrieve the tablespace id. @return tablespace id */ inline ib_uint32_t space() const { return(m_space); } /** Retrieve the page number. @return page number */ inline ib_uint32_t page_no() const { return(m_page_no); } /** Retrieve the fold value. @return fold value */ inline ulint fold() const { /* Initialize m_fold if it has not been initialized yet. */ if (m_fold == ULINT_UNDEFINED) { m_fold = (m_space << 20) + m_space + m_page_no; ut_ad(m_fold != ULINT_UNDEFINED); } return(m_fold); } /** Copy the values from a given page_id_t object. @param[in] src page id object whose values to fetch */ inline void copy_from(const page_id_t& src) { m_space = src.space(); m_page_no = src.page_no(); m_fold = src.fold(); } /** Reset the values from a (space, page_no). @param[in] space tablespace id @param[in] page_no page number */ inline void reset(ulint space, ulint page_no) { m_space = static_cast(space); m_page_no = static_cast(page_no); m_fold = ULINT_UNDEFINED; ut_ad(space <= 0xFFFFFFFFU); ut_ad(page_no <= 0xFFFFFFFFU); } /** Reset the page number only. @param[in] page_no page number */ inline void set_page_no(ulint page_no) { m_page_no = static_cast(page_no); m_fold = ULINT_UNDEFINED; ut_ad(page_no <= 0xFFFFFFFFU); } /** Check if a given page_id_t object is equal to the current one. @param[in] a page_id_t object to compare @return true if equal */ inline bool equals_to(const page_id_t& a) const { return(a.space() == m_space && a.page_no() == m_page_no); } private: /** Tablespace id. */ ib_uint32_t m_space; /** Page number. */ ib_uint32_t m_page_no; /** A fold value derived from m_space and m_page_no, used in hashing. */ mutable ulint m_fold; /* Disable implicit copying. */ void operator=(const page_id_t&); /** Declare the overloaded global operator<< as a friend of this class. Refer to the global declaration for further details. Print the given page_id_t object. @param[in,out] out the output stream @param[in] page_id the page_id_t object to be printed @return the output stream */ friend std::ostream& operator<<( std::ostream& out, const page_id_t& page_id); }; /** Print the given page_id_t object. @param[in,out] out the output stream @param[in] page_id the page_id_t object to be printed @return the output stream */ std::ostream& operator<<( std::ostream& out, const page_id_t& page_id); /********************************************************************//** Acquire mutex on all buffer pool instances */ UNIV_INLINE void buf_pool_mutex_enter_all(void); /*===========================*/ /********************************************************************//** Release mutex on all buffer pool instances */ UNIV_INLINE void buf_pool_mutex_exit_all(void); /*==========================*/ /********************************************************************//** Creates the buffer pool. @return DB_SUCCESS if success, DB_ERROR if not enough memory or error */ dberr_t buf_pool_init( /*=========*/ ulint size, /*!< in: Size of the total pool in bytes */ ulint n_instances); /*!< in: Number of instances */ /********************************************************************//** Frees the buffer pool at shutdown. This must not be invoked before freeing all mutexes. */ void buf_pool_free( /*==========*/ ulint n_instances); /*!< in: numbere of instances to free */ /** Determines if a block is intended to be withdrawn. @param[in] buf_pool buffer pool instance @param[in] block pointer to control block @retval true if will be withdrawn */ bool buf_block_will_withdrawn( buf_pool_t* buf_pool, const buf_block_t* block); /** Determines if a frame is intended to be withdrawn. @param[in] buf_pool buffer pool instance @param[in] ptr pointer to a frame @retval true if will be withdrawn */ bool buf_frame_will_withdrawn( buf_pool_t* buf_pool, const byte* ptr); /** This is the thread for resizing buffer pool. It waits for an event and when waked up either performs a resizing and sleeps again. @return this function does not return, calls os_thread_exit() */ extern "C" os_thread_ret_t DECLARE_THREAD(buf_resize_thread)(void*); #ifdef BTR_CUR_HASH_ADAPT /** Clear the adaptive hash index on all pages in the buffer pool. */ void buf_pool_clear_hash_index(); #endif /* BTR_CUR_HASH_ADAPT */ /*********************************************************************//** Gets the current size of buffer buf_pool in bytes. @return size in bytes */ UNIV_INLINE ulint buf_pool_get_curr_size(void); /*========================*/ /*********************************************************************//** Gets the current size of buffer buf_pool in frames. @return size in pages */ UNIV_INLINE ulint buf_pool_get_n_pages(void); /*=======================*/ /********************************************************************//** Gets the smallest oldest_modification lsn for any page in the pool. Returns zero if all modified pages have been flushed to disk. @return oldest modification in pool, zero if none */ lsn_t buf_pool_get_oldest_modification(void); /*==================================*/ /********************************************************************//** Allocates a buf_page_t descriptor. This function must succeed. In case of failure we assert in this function. */ UNIV_INLINE buf_page_t* buf_page_alloc_descriptor(void) /*===========================*/ MY_ATTRIBUTE((malloc)); /********************************************************************//** Free a buf_page_t descriptor. */ UNIV_INLINE void buf_page_free_descriptor( /*=====================*/ buf_page_t* bpage) /*!< in: bpage descriptor to free. */ MY_ATTRIBUTE((nonnull)); /********************************************************************//** Allocates a buffer block. @return own: the allocated block, in state BUF_BLOCK_MEMORY */ buf_block_t* buf_block_alloc( /*============*/ buf_pool_t* buf_pool); /*!< in: buffer pool instance, or NULL for round-robin selection of the buffer pool */ /********************************************************************//** Frees a buffer block which does not contain a file page. */ UNIV_INLINE void buf_block_free( /*===========*/ buf_block_t* block); /*!< in, own: block to be freed */ /*********************************************************************//** Copies contents of a buffer frame to a given buffer. @return buf */ UNIV_INLINE byte* buf_frame_copy( /*===========*/ byte* buf, /*!< in: buffer to copy to */ const buf_frame_t* frame); /*!< in: buffer frame */ /**************************************************************//** NOTE! The following macros should be used instead of buf_page_get_gen, to improve debugging. Only values RW_S_LATCH and RW_X_LATCH are allowed in LA! */ #define buf_page_get(ID, SIZE, LA, MTR) \ buf_page_get_gen(ID, SIZE, LA, NULL, BUF_GET, __FILE__, __LINE__, MTR, NULL) /**************************************************************//** Use these macros to bufferfix a page with no latching. Remember not to read the contents of the page unless you know it is safe. Do not modify the contents of the page! We have separated this case, because it is error-prone programming not to set a latch, and it should be used with care. */ #define buf_page_get_with_no_latch(ID, SIZE, MTR) \ buf_page_get_gen(ID, SIZE, RW_NO_LATCH, NULL, BUF_GET_NO_LATCH, \ __FILE__, __LINE__, MTR, NULL) /********************************************************************//** This is the general function used to get optimistic access to a database page. @return TRUE if success */ ibool buf_page_optimistic_get( /*====================*/ ulint rw_latch,/*!< in: RW_S_LATCH, RW_X_LATCH */ buf_block_t* block, /*!< in: guessed block */ ib_uint64_t modify_clock,/*!< in: modify clock value */ const char* file, /*!< in: file name */ unsigned line, /*!< in: line where called */ mtr_t* mtr); /*!< in: mini-transaction */ /********************************************************************//** This is used to get access to a known database page, when no waiting can be done. @return TRUE if success */ ibool buf_page_get_known_nowait( /*======================*/ ulint rw_latch,/*!< in: RW_S_LATCH, RW_X_LATCH */ buf_block_t* block, /*!< in: the known page */ ulint mode, /*!< in: BUF_MAKE_YOUNG or BUF_KEEP_OLD */ const char* file, /*!< in: file name */ unsigned line, /*!< in: line where called */ mtr_t* mtr); /*!< in: mini-transaction */ /** Given a tablespace id and page number tries to get that page. If the page is not in the buffer pool it is not loaded and NULL is returned. Suitable for using when holding the lock_sys_t::mutex. @param[in] page_id page id @param[in] file file name @param[in] line line where called @param[in] mtr mini-transaction @return pointer to a page or NULL */ buf_block_t* buf_page_try_get_func( const page_id_t& page_id, const char* file, unsigned line, mtr_t* mtr); /** Tries to get a page. If the page is not in the buffer pool it is not loaded. Suitable for using when holding the lock_sys_t::mutex. @param[in] page_id page identifier @param[in] mtr mini-transaction @return the page if in buffer pool, NULL if not */ #define buf_page_try_get(page_id, mtr) \ buf_page_try_get_func((page_id), __FILE__, __LINE__, mtr); /** Get read access to a compressed page (usually of type FIL_PAGE_TYPE_ZBLOB or FIL_PAGE_TYPE_ZBLOB2). The page must be released with buf_page_release_zip(). NOTE: the page is not protected by any latch. Mutual exclusion has to be implemented at a higher level. In other words, all possible accesses to a given page through this function must be protected by the same set of mutexes or latches. @param[in] page_id page id @param[in] page_size page size @return pointer to the block */ buf_page_t* buf_page_get_zip( const page_id_t& page_id, const page_size_t& page_size); /** This is the general function used to get access to a database page. @param[in] page_id page id @param[in] rw_latch RW_S_LATCH, RW_X_LATCH, RW_NO_LATCH @param[in] guess guessed block or NULL @param[in] mode BUF_GET, BUF_GET_IF_IN_POOL, BUF_PEEK_IF_IN_POOL, BUF_GET_NO_LATCH, or BUF_GET_IF_IN_POOL_OR_WATCH @param[in] file file name @param[in] line line where called @param[in] mtr mini-transaction @param[out] err DB_SUCCESS or error code @return pointer to the block or NULL */ buf_block_t* buf_page_get_gen( const page_id_t& page_id, const page_size_t& page_size, ulint rw_latch, buf_block_t* guess, ulint mode, const char* file, unsigned line, mtr_t* mtr, dberr_t* err); /** Initializes a page to the buffer buf_pool. The page is usually not read from a file even if it cannot be found in the buffer buf_pool. This is one of the functions which perform to a block a state transition NOT_USED => FILE_PAGE (the other is buf_page_get_gen). @param[in] page_id page id @param[in] page_size page size @param[in] mtr mini-transaction @return pointer to the block, page bufferfixed */ buf_block_t* buf_page_create( const page_id_t& page_id, const page_size_t& page_size, mtr_t* mtr); /********************************************************************//** Releases a compressed-only page acquired with buf_page_get_zip(). */ UNIV_INLINE void buf_page_release_zip( /*=================*/ buf_page_t* bpage); /*!< in: buffer block */ /********************************************************************//** Releases a latch, if specified. */ UNIV_INLINE void buf_page_release_latch( /*=====================*/ buf_block_t* block, /*!< in: buffer block */ ulint rw_latch); /*!< in: RW_S_LATCH, RW_X_LATCH, RW_NO_LATCH */ /********************************************************************//** Moves a page to the start of the buffer pool LRU list. This high-level function can be used to prevent an important page from slipping out of the buffer pool. */ void buf_page_make_young( /*================*/ buf_page_t* bpage); /*!< in: buffer block of a file page */ /** Returns TRUE if the page can be found in the buffer pool hash table. NOTE that it is possible that the page is not yet read from disk, though. @param[in] page_id page id @return TRUE if found in the page hash table */ UNIV_INLINE ibool buf_page_peek( const page_id_t& page_id); #ifdef UNIV_DEBUG /** Sets file_page_was_freed TRUE if the page is found in the buffer pool. This function should be called when we free a file page and want the debug version to check that it is not accessed any more unless reallocated. @param[in] page_id page id @return control block if found in page hash table, otherwise NULL */ buf_page_t* buf_page_set_file_page_was_freed( const page_id_t& page_id); /** Sets file_page_was_freed FALSE if the page is found in the buffer pool. This function should be called when we free a file page and want the debug version to check that it is not accessed any more unless reallocated. @param[in] page_id page id @return control block if found in page hash table, otherwise NULL */ buf_page_t* buf_page_reset_file_page_was_freed( const page_id_t& page_id); #endif /* UNIV_DEBUG */ /********************************************************************//** Reads the freed_page_clock of a buffer block. @return freed_page_clock */ UNIV_INLINE unsigned buf_page_get_freed_page_clock( /*==========================*/ const buf_page_t* bpage) /*!< in: block */ MY_ATTRIBUTE((warn_unused_result)); /********************************************************************//** Reads the freed_page_clock of a buffer block. @return freed_page_clock */ UNIV_INLINE unsigned buf_block_get_freed_page_clock( /*===========================*/ const buf_block_t* block) /*!< in: block */ MY_ATTRIBUTE((warn_unused_result)); /********************************************************************//** Tells if a block is still close enough to the MRU end of the LRU list meaning that it is not in danger of getting evicted and also implying that it has been accessed recently. Note that this is for heuristics only and does not reserve buffer pool mutex. @return TRUE if block is close to MRU end of LRU */ UNIV_INLINE ibool buf_page_peek_if_young( /*===================*/ const buf_page_t* bpage); /*!< in: block */ /********************************************************************//** Recommends a move of a block to the start of the LRU list if there is danger of dropping from the buffer pool. NOTE: does not reserve the buffer pool mutex. @return TRUE if should be made younger */ UNIV_INLINE ibool buf_page_peek_if_too_old( /*=====================*/ const buf_page_t* bpage); /*!< in: block to make younger */ /********************************************************************//** Gets the youngest modification log sequence number for a frame. Returns zero if not file page or no modification occurred yet. @return newest modification to page */ UNIV_INLINE lsn_t buf_page_get_newest_modification( /*=============================*/ const buf_page_t* bpage); /*!< in: block containing the page frame */ /********************************************************************//** Increments the modify clock of a frame by 1. The caller must (1) own the buf_pool->mutex and block bufferfix count has to be zero, (2) or own an x-lock on the block. */ UNIV_INLINE void buf_block_modify_clock_inc( /*=======================*/ buf_block_t* block); /*!< in: block */ /********************************************************************//** Returns the value of the modify clock. The caller must have an s-lock or x-lock on the block. @return value */ UNIV_INLINE ib_uint64_t buf_block_get_modify_clock( /*=======================*/ buf_block_t* block); /*!< in: block */ /*******************************************************************//** Increments the bufferfix count. */ UNIV_INLINE void buf_block_buf_fix_inc_func( /*=======================*/ # ifdef UNIV_DEBUG const char* file, /*!< in: file name */ unsigned line, /*!< in: line */ # endif /* UNIV_DEBUG */ buf_block_t* block) /*!< in/out: block to bufferfix */ MY_ATTRIBUTE((nonnull)); /** Increments the bufferfix count. @param[in,out] bpage block to bufferfix @return the count */ UNIV_INLINE ulint buf_block_fix( buf_page_t* bpage); /** Increments the bufferfix count. @param[in,out] block block to bufferfix @return the count */ UNIV_INLINE ulint buf_block_fix( buf_block_t* block); /** Decrements the bufferfix count. @param[in,out] bpage block to bufferunfix @return the remaining buffer-fix count */ UNIV_INLINE ulint buf_block_unfix( buf_page_t* bpage); /** Decrements the bufferfix count. @param[in,out] block block to bufferunfix @return the remaining buffer-fix count */ UNIV_INLINE ulint buf_block_unfix( buf_block_t* block); # ifdef UNIV_DEBUG /** Increments the bufferfix count. @param[in,out] b block to bufferfix @param[in] f file name where requested @param[in] l line number where requested */ # define buf_block_buf_fix_inc(b,f,l) buf_block_buf_fix_inc_func(f,l,b) # else /* UNIV_DEBUG */ /** Increments the bufferfix count. @param[in,out] b block to bufferfix @param[in] f file name where requested @param[in] l line number where requested */ # define buf_block_buf_fix_inc(b,f,l) buf_block_buf_fix_inc_func(b) # endif /* UNIV_DEBUG */ #endif /* !UNIV_INNOCHECKSUM */ /** Checks if the page is in crc32 checksum format. @param[in] read_buf database page @param[in] checksum_field1 new checksum field @param[in] checksum_field2 old checksum field @param[in] use_legacy_big_endian use legacy big endian algorithm @return true if the page is in crc32 checksum format. */ bool buf_page_is_checksum_valid_crc32( const byte* read_buf, ulint checksum_field1, ulint checksum_field2, bool use_legacy_big_endian) MY_ATTRIBUTE((nonnull(1), warn_unused_result)); /** Checks if the page is in innodb checksum format. @param[in] read_buf database page @param[in] checksum_field1 new checksum field @param[in] checksum_field2 old checksum field @return true if the page is in innodb checksum format. */ bool buf_page_is_checksum_valid_innodb( const byte* read_buf, ulint checksum_field1, ulint checksum_field2) MY_ATTRIBUTE((nonnull(1), warn_unused_result)); /** Checks if the page is in none checksum format. @param[in] read_buf database page @param[in] checksum_field1 new checksum field @param[in] checksum_field2 old checksum field @return true if the page is in none checksum format. */ bool buf_page_is_checksum_valid_none( const byte* read_buf, ulint checksum_field1, ulint checksum_field2) MY_ATTRIBUTE((nonnull(1), warn_unused_result)); /** Checks if a page contains only zeroes. @param[in] read_buf database page @param[in] page_size page size @return true if page is filled with zeroes */ bool buf_page_is_zeroes( const byte* read_buf, const page_size_t& page_size); /** Check if a page is corrupt. @param[in] check_lsn whether the LSN should be checked @param[in] read_buf database page @param[in] page_size page size @param[in] space tablespace @return whether the page is corrupted */ bool buf_page_is_corrupted( bool check_lsn, const byte* read_buf, const page_size_t& page_size, const fil_space_t* space = NULL) MY_ATTRIBUTE((warn_unused_result)); #ifndef UNIV_INNOCHECKSUM /**********************************************************************//** Gets the space id, page offset, and byte offset within page of a pointer pointing to a buffer frame containing a file page. */ UNIV_INLINE void buf_ptr_get_fsp_addr( /*=================*/ const void* ptr, /*!< in: pointer to a buffer frame */ ulint* space, /*!< out: space id */ fil_addr_t* addr); /*!< out: page offset and byte offset */ /**********************************************************************//** Gets the hash value of a block. This can be used in searches in the lock hash table. @return lock hash value */ UNIV_INLINE unsigned buf_block_get_lock_hash_val( /*========================*/ const buf_block_t* block) /*!< in: block */ MY_ATTRIBUTE((warn_unused_result)); #ifdef UNIV_DEBUG /*********************************************************************//** Finds a block in the buffer pool that points to a given compressed page. @return buffer block pointing to the compressed page, or NULL */ buf_block_t* buf_pool_contains_zip( /*==================*/ buf_pool_t* buf_pool, /*!< in: buffer pool instance */ const void* data); /*!< in: pointer to compressed page */ #endif /* UNIV_DEBUG */ /*********************************************************************** FIXME_FTS: Gets the frame the pointer is pointing to. */ UNIV_INLINE buf_frame_t* buf_frame_align( /*============*/ /* out: pointer to frame */ byte* ptr); /* in: pointer to a frame */ #if defined UNIV_DEBUG || defined UNIV_BUF_DEBUG /*********************************************************************//** Validates the buffer pool data structure. @return TRUE */ ibool buf_validate(void); /*==============*/ #endif /* UNIV_DEBUG || UNIV_BUF_DEBUG */ #if defined UNIV_DEBUG_PRINT || defined UNIV_DEBUG || defined UNIV_BUF_DEBUG /*********************************************************************//** Prints info of the buffer pool data structure. */ void buf_print(void); /*============*/ #endif /* UNIV_DEBUG_PRINT || UNIV_DEBUG || UNIV_BUF_DEBUG */ enum buf_page_print_flags { /** Do not crash at the end of buf_page_print(). */ BUF_PAGE_PRINT_NO_CRASH = 1, /** Do not print the full page dump. */ BUF_PAGE_PRINT_NO_FULL = 2 }; /** Prints a page to stderr. @param[in] read_buf a database page @param[in] page_size page size @param[in] flags 0 or BUF_PAGE_PRINT_NO_CRASH or BUF_PAGE_PRINT_NO_FULL */ void buf_page_print( const byte* read_buf, const page_size_t& page_size, ulint flags); /********************************************************************//** Decompress a block. @return TRUE if successful */ ibool buf_zip_decompress( /*===============*/ buf_block_t* block, /*!< in/out: block */ ibool check); /*!< in: TRUE=verify the page checksum */ #ifdef UNIV_DEBUG /*********************************************************************//** Returns the number of latched pages in the buffer pool. @return number of latched pages */ ulint buf_get_latched_pages_number(void); /*==============================*/ #endif /* UNIV_DEBUG */ /*********************************************************************//** Returns the number of pending buf pool read ios. @return number of pending read I/O operations */ ulint buf_get_n_pending_read_ios(void); /*============================*/ /*********************************************************************//** Prints info of the buffer i/o. */ void buf_print_io( /*=========*/ FILE* file); /*!< in: file where to print */ /*******************************************************************//** Collect buffer pool stats information for a buffer pool. Also record aggregated stats if there are more than one buffer pool in the server */ void buf_stats_get_pool_info( /*====================*/ buf_pool_t* buf_pool, /*!< in: buffer pool */ ulint pool_id, /*!< in: buffer pool ID */ buf_pool_info_t* all_pool_info); /*!< in/out: buffer pool info to fill */ /** Return the ratio in percents of modified pages in the buffer pool / database pages in the buffer pool. @return modified page percentage ratio */ double buf_get_modified_ratio_pct(void); /** Refresh the statistics used to print per-second averages. */ void buf_refresh_io_stats_all(void); /** Assert that all file pages in the buffer are in a replaceable state. @return TRUE */ ibool buf_all_freed(void); /*********************************************************************//** Checks that there currently are no pending i/o-operations for the buffer pool. @return number of pending i/o operations */ ulint buf_pool_check_no_pending_io(void); /*==============================*/ /*********************************************************************//** Invalidates the file pages in the buffer pool when an archive recovery is completed. All the file pages buffered must be in a replaceable state when this function is called: not latched and not modified. */ void buf_pool_invalidate(void); /*=====================*/ /*======================================================================== --------------------------- LOWER LEVEL ROUTINES ------------------------- =========================================================================*/ #ifdef UNIV_DEBUG /*********************************************************************//** Adds latch level info for the rw-lock protecting the buffer frame. This should be called in the debug version after a successful latching of a page if we know the latching order level of the acquired latch. */ UNIV_INLINE void buf_block_dbg_add_level( /*====================*/ buf_block_t* block, /*!< in: buffer page where we have acquired latch */ latch_level_t level); /*!< in: latching order level */ #else /* UNIV_DEBUG */ # define buf_block_dbg_add_level(block, level) /* nothing */ #endif /* UNIV_DEBUG */ /*********************************************************************//** Gets the state of a block. @return state */ UNIV_INLINE enum buf_page_state buf_page_get_state( /*===============*/ const buf_page_t* bpage); /*!< in: pointer to the control block */ /*********************************************************************//** Gets the state name for state of a block @return name or "CORRUPTED" */ UNIV_INLINE const char* buf_get_state_name( /*===============*/ const buf_block_t* block); /*!< in: pointer to the control block */ /*********************************************************************//** Gets the state of a block. @return state */ UNIV_INLINE enum buf_page_state buf_block_get_state( /*================*/ const buf_block_t* block) /*!< in: pointer to the control block */ MY_ATTRIBUTE((warn_unused_result)); /*********************************************************************//** Sets the state of a block. */ UNIV_INLINE void buf_page_set_state( /*===============*/ buf_page_t* bpage, /*!< in/out: pointer to control block */ enum buf_page_state state); /*!< in: state */ /*********************************************************************//** Sets the state of a block. */ UNIV_INLINE void buf_block_set_state( /*================*/ buf_block_t* block, /*!< in/out: pointer to control block */ enum buf_page_state state); /*!< in: state */ /*********************************************************************//** Determines if a block is mapped to a tablespace. @return TRUE if mapped */ UNIV_INLINE ibool buf_page_in_file( /*=============*/ const buf_page_t* bpage) /*!< in: pointer to control block */ MY_ATTRIBUTE((warn_unused_result)); /*********************************************************************//** Determines if a block should be on unzip_LRU list. @return TRUE if block belongs to unzip_LRU */ UNIV_INLINE ibool buf_page_belongs_to_unzip_LRU( /*==========================*/ const buf_page_t* bpage) /*!< in: pointer to control block */ MY_ATTRIBUTE((warn_unused_result)); /*********************************************************************//** Gets the mutex of a block. @return pointer to mutex protecting bpage */ UNIV_INLINE BPageMutex* buf_page_get_mutex( /*===============*/ const buf_page_t* bpage) /*!< in: pointer to control block */ MY_ATTRIBUTE((warn_unused_result)); /*********************************************************************//** Get the flush type of a page. @return flush type */ UNIV_INLINE buf_flush_t buf_page_get_flush_type( /*====================*/ const buf_page_t* bpage) /*!< in: buffer page */ MY_ATTRIBUTE((warn_unused_result)); /*********************************************************************//** Set the flush type of a page. */ UNIV_INLINE void buf_page_set_flush_type( /*====================*/ buf_page_t* bpage, /*!< in: buffer page */ buf_flush_t flush_type); /*!< in: flush type */ /** Map a block to a file page. @param[in,out] block pointer to control block @param[in] page_id page id */ UNIV_INLINE void buf_block_set_file_page( buf_block_t* block, const page_id_t& page_id); /*********************************************************************//** Gets the io_fix state of a block. @return io_fix state */ UNIV_INLINE enum buf_io_fix buf_page_get_io_fix( /*================*/ const buf_page_t* bpage) /*!< in: pointer to the control block */ MY_ATTRIBUTE((warn_unused_result)); /*********************************************************************//** Gets the io_fix state of a block. @return io_fix state */ UNIV_INLINE enum buf_io_fix buf_block_get_io_fix( /*================*/ const buf_block_t* block) /*!< in: pointer to the control block */ MY_ATTRIBUTE((warn_unused_result)); /*********************************************************************//** Sets the io_fix state of a block. */ UNIV_INLINE void buf_page_set_io_fix( /*================*/ buf_page_t* bpage, /*!< in/out: control block */ enum buf_io_fix io_fix);/*!< in: io_fix state */ /*********************************************************************//** Sets the io_fix state of a block. */ UNIV_INLINE void buf_block_set_io_fix( /*=================*/ buf_block_t* block, /*!< in/out: control block */ enum buf_io_fix io_fix);/*!< in: io_fix state */ /*********************************************************************//** Makes a block sticky. A sticky block implies that even after we release the buf_pool->mutex and the block->mutex: * it cannot be removed from the flush_list * the block descriptor cannot be relocated * it cannot be removed from the LRU list Note that: * the block can still change its position in the LRU list * the next and previous pointers can change. */ UNIV_INLINE void buf_page_set_sticky( /*================*/ buf_page_t* bpage); /*!< in/out: control block */ /*********************************************************************//** Removes stickiness of a block. */ UNIV_INLINE void buf_page_unset_sticky( /*==================*/ buf_page_t* bpage); /*!< in/out: control block */ /********************************************************************//** Determine if a buffer block can be relocated in memory. The block can be dirty, but it must not be I/O-fixed or bufferfixed. */ UNIV_INLINE ibool buf_page_can_relocate( /*==================*/ const buf_page_t* bpage) /*!< control block being relocated */ MY_ATTRIBUTE((warn_unused_result)); /*********************************************************************//** Determine if a block has been flagged old. @return TRUE if old */ UNIV_INLINE ibool buf_page_is_old( /*============*/ const buf_page_t* bpage) /*!< in: control block */ MY_ATTRIBUTE((warn_unused_result)); /*********************************************************************//** Flag a block old. */ UNIV_INLINE void buf_page_set_old( /*=============*/ buf_page_t* bpage, /*!< in/out: control block */ bool old); /*!< in: old */ /*********************************************************************//** Determine the time of first access of a block in the buffer pool. @return ut_time_ms() at the time of first access, 0 if not accessed */ UNIV_INLINE unsigned buf_page_is_accessed( /*=================*/ const buf_page_t* bpage) /*!< in: control block */ MY_ATTRIBUTE((warn_unused_result)); /*********************************************************************//** Flag a block accessed. */ UNIV_INLINE void buf_page_set_accessed( /*==================*/ buf_page_t* bpage) /*!< in/out: control block */ MY_ATTRIBUTE((nonnull)); /*********************************************************************//** Gets the buf_block_t handle of a buffered file block if an uncompressed page frame exists, or NULL. Note: even though bpage is not declared a const we don't update its value. @return control block, or NULL */ UNIV_INLINE buf_block_t* buf_page_get_block( /*===============*/ buf_page_t* bpage) /*!< in: control block, or NULL */ MY_ATTRIBUTE((warn_unused_result)); #ifdef UNIV_DEBUG /*********************************************************************//** Gets a pointer to the memory frame of a block. @return pointer to the frame */ UNIV_INLINE buf_frame_t* buf_block_get_frame( /*================*/ const buf_block_t* block) /*!< in: pointer to the control block */ MY_ATTRIBUTE((warn_unused_result)); #else /* UNIV_DEBUG */ # define buf_block_get_frame(block) (block)->frame #endif /* UNIV_DEBUG */ /*********************************************************************//** Gets the compressed page descriptor corresponding to an uncompressed page if applicable. */ #define buf_block_get_page_zip(block) \ ((block)->page.zip.data ? &(block)->page.zip : NULL) #ifdef BTR_CUR_HASH_ADAPT /** Get a buffer block from an adaptive hash index pointer. This function does not return if the block is not identified. @param[in] ptr pointer to within a page frame @return pointer to block, never NULL */ buf_block_t* buf_block_from_ahi(const byte* ptr); #endif /* BTR_CUR_HASH_ADAPT */ /********************************************************************//** Find out if a pointer belongs to a buf_block_t. It can be a pointer to the buf_block_t itself or a member of it @return TRUE if ptr belongs to a buf_block_t struct */ ibool buf_pointer_is_block_field( /*=======================*/ const void* ptr); /*!< in: pointer not dereferenced */ /** Find out if a pointer corresponds to a buf_block_t::mutex. @param m in: mutex candidate @return TRUE if m is a buf_block_t::mutex */ #define buf_pool_is_block_mutex(m) \ buf_pointer_is_block_field((const void*)(m)) /** Find out if a pointer corresponds to a buf_block_t::lock. @param l in: rw-lock candidate @return TRUE if l is a buf_block_t::lock */ #define buf_pool_is_block_lock(l) \ buf_pointer_is_block_field((const void*)(l)) /** Initialize a page for read to the buffer buf_pool. If the page is (1) already in buf_pool, or (2) if we specify to read only ibuf pages and the page is not an ibuf page, or (3) if the space is deleted or being deleted, then this function does nothing. Sets the io_fix flag to BUF_IO_READ and sets a non-recursive exclusive lock on the buffer frame. The io-handler must take care that the flag is cleared and the lock released later. @param[out] err DB_SUCCESS or DB_TABLESPACE_DELETED @param[in] mode BUF_READ_IBUF_PAGES_ONLY, ... @param[in] page_id page id @param[in] unzip whether the uncompressed page is requested (for ROW_FORMAT=COMPRESSED) @return pointer to the block @retval NULL in case of an error */ buf_page_t* buf_page_init_for_read( dberr_t* err, ulint mode, const page_id_t& page_id, const page_size_t& page_size, bool unzip); /** Complete a read or write request of a file page to or from the buffer pool. @param[in,out] bpage Page to complete @param[in] evict whether or not to evict the page from LRU list. @return whether the operation succeeded @retval DB_SUCCESS always when writing, or if a read page was OK @retval DB_PAGE_CORRUPTED if the checksum fails on a page read @retval DB_DECRYPTION_FAILED if page post encryption checksum matches but after decryption normal page checksum does not match */ UNIV_INTERN dberr_t buf_page_io_complete(buf_page_t* bpage, bool evict = false) MY_ATTRIBUTE((nonnull)); /********************************************************************//** Calculates the index of a buffer pool to the buf_pool[] array. @return the position of the buffer pool in buf_pool[] */ UNIV_INLINE unsigned buf_pool_index( /*===========*/ const buf_pool_t* buf_pool) /*!< in: buffer pool */ MY_ATTRIBUTE((warn_unused_result)); /******************************************************************//** Returns the buffer pool instance given a page instance @return buf_pool */ UNIV_INLINE buf_pool_t* buf_pool_from_bpage( /*================*/ const buf_page_t* bpage); /*!< in: buffer pool page */ /******************************************************************//** Returns the buffer pool instance given a block instance @return buf_pool */ UNIV_INLINE buf_pool_t* buf_pool_from_block( /*================*/ const buf_block_t* block); /*!< in: block */ /** Returns the buffer pool instance given a page id. @param[in] page_id page id @return buffer pool */ UNIV_INLINE buf_pool_t* buf_pool_get( const page_id_t& page_id); /******************************************************************//** Returns the buffer pool instance given its array index @return buffer pool */ UNIV_INLINE buf_pool_t* buf_pool_from_array( /*================*/ ulint index); /*!< in: array index to get buffer pool instance from */ /** Returns the control block of a file page, NULL if not found. @param[in] buf_pool buffer pool instance @param[in] page_id page id @return block, NULL if not found */ UNIV_INLINE buf_page_t* buf_page_hash_get_low( buf_pool_t* buf_pool, const page_id_t& page_id); /** Returns the control block of a file page, NULL if not found. If the block is found and lock is not NULL then the appropriate page_hash lock is acquired in the specified lock mode. Otherwise, mode value is ignored. It is up to the caller to release the lock. If the block is found and the lock is NULL then the page_hash lock is released by this function. @param[in] buf_pool buffer pool instance @param[in] page_id page id @param[in,out] lock lock of the page hash acquired if bpage is found, NULL otherwise. If NULL is passed then the hash_lock is released by this function. @param[in] lock_mode RW_LOCK_X or RW_LOCK_S. Ignored if lock == NULL @param[in] watch if true, return watch sentinel also. @return pointer to the bpage or NULL; if NULL, lock is also NULL or a watch sentinel. */ UNIV_INLINE buf_page_t* buf_page_hash_get_locked( buf_pool_t* buf_pool, const page_id_t& page_id, rw_lock_t** lock, ulint lock_mode, bool watch = false); /** Returns the control block of a file page, NULL if not found. If the block is found and lock is not NULL then the appropriate page_hash lock is acquired in the specified lock mode. Otherwise, mode value is ignored. It is up to the caller to release the lock. If the block is found and the lock is NULL then the page_hash lock is released by this function. @param[in] buf_pool buffer pool instance @param[in] page_id page id @param[in,out] lock lock of the page hash acquired if bpage is found, NULL otherwise. If NULL is passed then the hash_lock is released by this function. @param[in] lock_mode RW_LOCK_X or RW_LOCK_S. Ignored if lock == NULL @return pointer to the block or NULL; if NULL, lock is also NULL. */ UNIV_INLINE buf_block_t* buf_block_hash_get_locked( buf_pool_t* buf_pool, const page_id_t& page_id, rw_lock_t** lock, ulint lock_mode); /* There are four different ways we can try to get a bpage or block from the page hash: 1) Caller already holds the appropriate page hash lock: in the case call buf_page_hash_get_low() function. 2) Caller wants to hold page hash lock in x-mode 3) Caller wants to hold page hash lock in s-mode 4) Caller doesn't want to hold page hash lock */ #define buf_page_hash_get_s_locked(b, page_id, l) \ buf_page_hash_get_locked(b, page_id, l, RW_LOCK_S) #define buf_page_hash_get_x_locked(b, page_id, l) \ buf_page_hash_get_locked(b, page_id, l, RW_LOCK_X) #define buf_page_hash_get(b, page_id) \ buf_page_hash_get_locked(b, page_id, NULL, 0) #define buf_page_get_also_watch(b, page_id) \ buf_page_hash_get_locked(b, page_id, NULL, 0, true) #define buf_block_hash_get_s_locked(b, page_id, l) \ buf_block_hash_get_locked(b, page_id, l, RW_LOCK_S) #define buf_block_hash_get_x_locked(b, page_id, l) \ buf_block_hash_get_locked(b, page_id, l, RW_LOCK_X) #define buf_block_hash_get(b, page_id) \ buf_block_hash_get_locked(b, page_id, NULL, 0) /********************************************************************//** Determine if a block is a sentinel for a buffer pool watch. @return TRUE if a sentinel for a buffer pool watch, FALSE if not */ ibool buf_pool_watch_is_sentinel( /*=======================*/ const buf_pool_t* buf_pool, /*!< buffer pool instance */ const buf_page_t* bpage) /*!< in: block */ MY_ATTRIBUTE((nonnull, warn_unused_result)); /** Stop watching if the page has been read in. buf_pool_watch_set(space,offset) must have returned NULL before. @param[in] page_id page id */ void buf_pool_watch_unset( const page_id_t& page_id); /** Check if the page has been read in. This may only be called after buf_pool_watch_set(space,offset) has returned NULL and before invoking buf_pool_watch_unset(space,offset). @param[in] page_id page id @return FALSE if the given page was not read in, TRUE if it was */ ibool buf_pool_watch_occurred( const page_id_t& page_id) MY_ATTRIBUTE((warn_unused_result)); /********************************************************************//** Get total buffer pool statistics. */ void buf_get_total_list_len( /*===================*/ ulint* LRU_len, /*!< out: length of all LRU lists */ ulint* free_len, /*!< out: length of all free lists */ ulint* flush_list_len);/*!< out: length of all flush lists */ /********************************************************************//** Get total list size in bytes from all buffer pools. */ void buf_get_total_list_size_in_bytes( /*=============================*/ buf_pools_list_size_t* buf_pools_list_size); /*!< out: list sizes in all buffer pools */ /********************************************************************//** Get total buffer pool statistics. */ void buf_get_total_stat( /*===============*/ buf_pool_stat_t*tot_stat); /*!< out: buffer pool stats */ /*********************************************************************//** Get the nth chunk's buffer block in the specified buffer pool. @return the nth chunk's buffer block. */ UNIV_INLINE buf_block_t* buf_get_nth_chunk_block( /*====================*/ const buf_pool_t* buf_pool, /*!< in: buffer pool instance */ ulint n, /*!< in: nth chunk in the buffer pool */ ulint* chunk_size); /*!< in: chunk size */ /** Verify the possibility that a stored page is not in buffer pool. @param[in] withdraw_clock withdraw clock when stored the page @retval true if the page might be relocated */ UNIV_INLINE bool buf_pool_is_obsolete( ulint withdraw_clock); /** Calculate aligned buffer pool size based on srv_buf_pool_chunk_unit, if needed. @param[in] size size in bytes @return aligned size */ UNIV_INLINE ulint buf_pool_size_align( ulint size); /** Calculate the checksum of a page from compressed table and update the page. @param[in,out] page page to update @param[in] size compressed page size @param[in] lsn LSN to stamp on the page */ void buf_flush_update_zip_checksum( buf_frame_t* page, ulint size, lsn_t lsn); /** Encryption and page_compression hook that is called just before a page is written to disk. @param[in,out] space tablespace @param[in,out] bpage buffer page @param[in] src_frame physical page frame that is being encrypted @return page frame to be written to file (may be src_frame or an encrypted/compressed copy of it) */ UNIV_INTERN byte* buf_page_encrypt_before_write( fil_space_t* space, buf_page_t* bpage, byte* src_frame); /** @brief The temporary memory structure. NOTE! The definition appears here only for other modules of this directory (buf) to see it. Do not use from outside! */ typedef struct { bool reserved; /*!< true if this slot is reserved */ #ifdef HAVE_LZO byte* lzo_mem; /*!< Temporal memory used by LZO */ #endif byte* crypt_buf; /*!< for encryption the data needs to be copied to a separate buffer before it's encrypted&written. this as a page can be read while it's being flushed */ byte* crypt_buf_free; /*!< for encryption, allocated buffer that is then alligned */ byte* comp_buf; /*!< for compression we need temporal buffer because page can be read while it's being flushed */ byte* comp_buf_free; /*!< for compression, allocated buffer that is then alligned */ byte* out_buf; /*!< resulting buffer after encryption/compression. This is a pointer and not allocated. */ } buf_tmp_buffer_t; /** The common buffer control block structure for compressed and uncompressed frames */ /** Number of bits used for buffer page states. */ #define BUF_PAGE_STATE_BITS 3 class buf_page_t { public: /** @name General fields None of these bit-fields must be modified without holding buf_page_get_mutex() [buf_block_t::mutex or buf_pool->zip_mutex], since they can be stored in the same machine word. Some of these fields are additionally protected by buf_pool->mutex. */ /* @{ */ /** Page id. Protected by buf_pool mutex. */ page_id_t id; /** Page size. Protected by buf_pool mutex. */ page_size_t size; /** Count of how manyfold this block is currently bufferfixed. */ ib_uint32_t buf_fix_count; /** type of pending I/O operation; also protected by buf_pool->mutex for writes only */ buf_io_fix io_fix; /** Block state. @see buf_page_in_file */ buf_page_state state; unsigned flush_type:2; /*!< if this block is currently being flushed to disk, this tells the flush_type. @see buf_flush_t */ unsigned buf_pool_index:6;/*!< index number of the buffer pool that this block belongs to */ # if MAX_BUFFER_POOLS > 64 # error "MAX_BUFFER_POOLS > 64; redefine buf_pool_index:6" # endif /* @} */ page_zip_des_t zip; /*!< compressed page; zip.data (but not the data it points to) is also protected by buf_pool->mutex; state == BUF_BLOCK_ZIP_PAGE and zip.data == NULL means an active buf_pool->watch */ ulint write_size; /* Write size is set when this page is first time written and then if written again we check is TRIM operation needed. */ bool encrypted; /*!< page is still encrypted */ ulint real_size; /*!< Real size of the page Normal pages == UNIV_PAGE_SIZE page compressed pages, payload size alligned to sector boundary. */ buf_tmp_buffer_t* slot; /*!< Slot for temporary memory used for encryption/compression or NULL */ buf_page_t* hash; /*!< node used in chaining to buf_pool->page_hash or buf_pool->zip_hash */ #ifdef UNIV_DEBUG ibool in_page_hash; /*!< TRUE if in buf_pool->page_hash */ ibool in_zip_hash; /*!< TRUE if in buf_pool->zip_hash */ #endif /* UNIV_DEBUG */ /** @name Page flushing fields All these are protected by buf_pool->mutex. */ /* @{ */ UT_LIST_NODE_T(buf_page_t) list; /*!< based on state, this is a list node, protected either by buf_pool->mutex or by buf_pool->flush_list_mutex, in one of the following lists in buf_pool: - BUF_BLOCK_NOT_USED: free, withdraw - BUF_BLOCK_FILE_PAGE: flush_list - BUF_BLOCK_ZIP_DIRTY: flush_list - BUF_BLOCK_ZIP_PAGE: zip_clean If bpage is part of flush_list then the node pointers are covered by buf_pool->flush_list_mutex. Otherwise these pointers are protected by buf_pool->mutex. The contents of the list node is undefined if !in_flush_list && state == BUF_BLOCK_FILE_PAGE, or if state is one of BUF_BLOCK_MEMORY, BUF_BLOCK_REMOVE_HASH or BUF_BLOCK_READY_IN_USE. */ #ifdef UNIV_DEBUG ibool in_flush_list; /*!< TRUE if in buf_pool->flush_list; when buf_pool->flush_list_mutex is free, the following should hold: in_flush_list == (state == BUF_BLOCK_FILE_PAGE || state == BUF_BLOCK_ZIP_DIRTY) Writes to this field must be covered by both block->mutex and buf_pool->flush_list_mutex. Hence reads can happen while holding any one of the two mutexes */ ibool in_free_list; /*!< TRUE if in buf_pool->free; when buf_pool->mutex is free, the following should hold: in_free_list == (state == BUF_BLOCK_NOT_USED) */ #endif /* UNIV_DEBUG */ FlushObserver* flush_observer; /*!< flush observer */ lsn_t newest_modification; /*!< log sequence number of the youngest modification to this block, zero if not modified. Protected by block mutex */ lsn_t oldest_modification; /*!< log sequence number of the START of the log entry written of the oldest modification to this block which has not yet been flushed on disk; zero if all modifications are on disk. Writes to this field must be covered by both block->mutex and buf_pool->flush_list_mutex. Hence reads can happen while holding any one of the two mutexes */ /* @} */ /** @name LRU replacement algorithm fields These fields are protected by buf_pool->mutex only (not buf_pool->zip_mutex or buf_block_t::mutex). */ /* @{ */ UT_LIST_NODE_T(buf_page_t) LRU; /*!< node of the LRU list */ #ifdef UNIV_DEBUG ibool in_LRU_list; /*!< TRUE if the page is in the LRU list; used in debugging */ #endif /* UNIV_DEBUG */ unsigned old:1; /*!< TRUE if the block is in the old blocks in buf_pool->LRU_old */ unsigned freed_page_clock:31;/*!< the value of buf_pool->freed_page_clock when this block was the last time put to the head of the LRU list; a thread is allowed to read this for heuristic purposes without holding any mutex or latch */ /* @} */ unsigned access_time; /*!< time of first access, or 0 if the block was never accessed in the buffer pool. Protected by block mutex */ # ifdef UNIV_DEBUG ibool file_page_was_freed; /*!< this is set to TRUE when fsp frees a page in buffer pool; protected by buf_pool->zip_mutex or buf_block_t::mutex. */ # endif /* UNIV_DEBUG */ }; /** The buffer control block structure */ struct buf_block_t{ /** @name General fields */ /* @{ */ buf_page_t page; /*!< page information; this must be the first field, so that buf_pool->page_hash can point to buf_page_t or buf_block_t */ byte* frame; /*!< pointer to buffer frame which is of size UNIV_PAGE_SIZE, and aligned to an address divisible by UNIV_PAGE_SIZE */ BPageLock lock; /*!< read-write lock of the buffer frame */ UT_LIST_NODE_T(buf_block_t) unzip_LRU; /*!< node of the decompressed LRU list; a block is in the unzip_LRU list if page.state == BUF_BLOCK_FILE_PAGE and page.zip.data != NULL */ #ifdef UNIV_DEBUG ibool in_unzip_LRU_list;/*!< TRUE if the page is in the decompressed LRU list; used in debugging */ ibool in_withdraw_list; #endif /* UNIV_DEBUG */ unsigned lock_hash_val:32;/*!< hashed value of the page address in the record lock hash table; protected by buf_block_t::lock (or buf_block_t::mutex, buf_pool->mutex in buf_page_get_gen(), buf_page_init_for_read() and buf_page_create()) */ /* @} */ /** @name Optimistic search field */ /* @{ */ ib_uint64_t modify_clock; /*!< this clock is incremented every time a pointer to a record on the page may become obsolete; this is used in the optimistic cursor positioning: if the modify clock has not changed, we know that the pointer is still valid; this field may be changed if the thread (1) owns the pool mutex and the page is not bufferfixed, or (2) the thread has an x-latch on the block */ /* @} */ #ifdef BTR_CUR_HASH_ADAPT /** @name Hash search fields (unprotected) NOTE that these fields are NOT protected by any semaphore! */ /* @{ */ ulint n_hash_helps; /*!< counter which controls building of a new hash index for the page */ volatile ulint n_bytes; /*!< recommended prefix length for hash search: number of bytes in an incomplete last field */ volatile ulint n_fields; /*!< recommended prefix length for hash search: number of full fields */ volatile bool left_side; /*!< true or false, depending on whether the leftmost record of several records with the same prefix should be indexed in the hash index */ /* @} */ /** @name Hash search fields These 5 fields may only be modified when: we are holding the appropriate x-latch in btr_search_latches[], and one of the following holds: (1) the block state is BUF_BLOCK_FILE_PAGE, and we are holding an s-latch or x-latch on buf_block_t::lock, or (2) buf_block_t::buf_fix_count == 0, or (3) the block state is BUF_BLOCK_REMOVE_HASH. An exception to this is when we init or create a page in the buffer pool in buf0buf.cc. Another exception for buf_pool_clear_hash_index() is that assigning block->index = NULL (and block->n_pointers = 0) is allowed whenever btr_search_own_all(RW_LOCK_X). Another exception is that ha_insert_for_fold_func() may decrement n_pointers without holding the appropriate latch in btr_search_latches[]. Thus, n_pointers must be protected by atomic memory access. This implies that the fields may be read without race condition whenever any of the following hold: - the btr_search_latches[] s-latch or x-latch is being held, or - the block state is not BUF_BLOCK_FILE_PAGE or BUF_BLOCK_REMOVE_HASH, and holding some latch prevents the state from changing to that. Some use of assert_block_ahi_empty() or assert_block_ahi_valid() is prone to race conditions while buf_pool_clear_hash_index() is executing (the adaptive hash index is being disabled). Such use is explicitly commented. */ /* @{ */ # if defined UNIV_AHI_DEBUG || defined UNIV_DEBUG ulint n_pointers; /*!< used in debugging: the number of pointers in the adaptive hash index pointing to this frame; protected by atomic memory access or btr_search_own_all(). */ # define assert_block_ahi_empty(block) \ ut_a(my_atomic_addlint(&(block)->n_pointers, 0) == 0) # define assert_block_ahi_empty_on_init(block) do { \ UNIV_MEM_VALID(&(block)->n_pointers, sizeof (block)->n_pointers); \ assert_block_ahi_empty(block); \ } while (0) # define assert_block_ahi_valid(block) \ ut_a((block)->index \ || my_atomic_addlint(&(block)->n_pointers, 0) == 0) # else /* UNIV_AHI_DEBUG || UNIV_DEBUG */ # define assert_block_ahi_empty(block) /* nothing */ # define assert_block_ahi_empty_on_init(block) /* nothing */ # define assert_block_ahi_valid(block) /* nothing */ # endif /* UNIV_AHI_DEBUG || UNIV_DEBUG */ unsigned curr_n_fields:10;/*!< prefix length for hash indexing: number of full fields */ unsigned curr_n_bytes:15;/*!< number of bytes in hash indexing */ unsigned curr_left_side:1;/*!< TRUE or FALSE in hash indexing */ dict_index_t* index; /*!< Index for which the adaptive hash index has been created, or NULL if the page does not exist in the index. Note that it does not guarantee that the index is complete, though: there may have been hash collisions, record deletions, etc. */ /* @} */ #else /* BTR_CUR_HASH_ADAPT */ # define assert_block_ahi_empty(block) /* nothing */ # define assert_block_ahi_empty_on_init(block) /* nothing */ # define assert_block_ahi_valid(block) /* nothing */ #endif /* BTR_CUR_HASH_ADAPT */ bool skip_flush_check; /*!< Skip check in buf_dblwr_check_block during bulk load, protected by lock.*/ # ifdef UNIV_DEBUG /** @name Debug fields */ /* @{ */ rw_lock_t debug_latch; /*!< in the debug version, each thread which bufferfixes the block acquires an s-latch here; so we can use the debug utilities in sync0rw */ /* @} */ # endif BPageMutex mutex; /*!< mutex protecting this block: state (also protected by the buffer pool mutex), io_fix, buf_fix_count, and accessed; we introduce this new mutex in InnoDB-5.1 to relieve contention on the buffer pool mutex */ }; /** Check if a buf_block_t object is in a valid state @param block buffer block @return TRUE if valid */ #define buf_block_state_valid(block) \ (buf_block_get_state(block) >= BUF_BLOCK_NOT_USED \ && (buf_block_get_state(block) <= BUF_BLOCK_REMOVE_HASH)) /**********************************************************************//** Compute the hash fold value for blocks in buf_pool->zip_hash. */ /* @{ */ #define BUF_POOL_ZIP_FOLD_PTR(ptr) ((ulint) (ptr) / UNIV_PAGE_SIZE) #define BUF_POOL_ZIP_FOLD(b) BUF_POOL_ZIP_FOLD_PTR((b)->frame) #define BUF_POOL_ZIP_FOLD_BPAGE(b) BUF_POOL_ZIP_FOLD((buf_block_t*) (b)) /* @} */ /** A "Hazard Pointer" class used to iterate over page lists inside the buffer pool. A hazard pointer is a buf_page_t pointer which we intend to iterate over next and we want it remain valid even after we release the buffer pool mutex. */ class HazardPointer { public: /** Constructor @param buf_pool buffer pool instance @param mutex mutex that is protecting the hp. */ HazardPointer(const buf_pool_t* buf_pool, const ib_mutex_t* mutex) : m_buf_pool(buf_pool) #ifdef UNIV_DEBUG , m_mutex(mutex) #endif /* UNIV_DEBUG */ , m_hp() {} /** Destructor */ virtual ~HazardPointer() {} /** Get current value */ buf_page_t* get() const { ut_ad(mutex_own(m_mutex)); return(m_hp); } /** Set current value @param bpage buffer block to be set as hp */ void set(buf_page_t* bpage); /** Checks if a bpage is the hp @param bpage buffer block to be compared @return true if it is hp */ bool is_hp(const buf_page_t* bpage); /** Adjust the value of hp. This happens when some other thread working on the same list attempts to remove the hp from the list. Must be implemented by the derived classes. @param bpage buffer block to be compared */ virtual void adjust(const buf_page_t*) = 0; protected: /** Disable copying */ HazardPointer(const HazardPointer&); HazardPointer& operator=(const HazardPointer&); /** Buffer pool instance */ const buf_pool_t* m_buf_pool; #ifdef UNIV_DEBUG /** mutex that protects access to the m_hp. */ const ib_mutex_t* m_mutex; #endif /* UNIV_DEBUG */ /** hazard pointer. */ buf_page_t* m_hp; }; /** Class implementing buf_pool->flush_list hazard pointer */ class FlushHp: public HazardPointer { public: /** Constructor @param buf_pool buffer pool instance @param mutex mutex that is protecting the hp. */ FlushHp(const buf_pool_t* buf_pool, const ib_mutex_t* mutex) : HazardPointer(buf_pool, mutex) {} /** Destructor */ virtual ~FlushHp() {} /** Adjust the value of hp. This happens when some other thread working on the same list attempts to remove the hp from the list. @param bpage buffer block to be compared */ void adjust(const buf_page_t* bpage); }; /** Class implementing buf_pool->LRU hazard pointer */ class LRUHp: public HazardPointer { public: /** Constructor @param buf_pool buffer pool instance @param mutex mutex that is protecting the hp. */ LRUHp(const buf_pool_t* buf_pool, const ib_mutex_t* mutex) : HazardPointer(buf_pool, mutex) {} /** Destructor */ virtual ~LRUHp() {} /** Adjust the value of hp. This happens when some other thread working on the same list attempts to remove the hp from the list. @param bpage buffer block to be compared */ void adjust(const buf_page_t* bpage); }; /** Special purpose iterators to be used when scanning the LRU list. The idea is that when one thread finishes the scan it leaves the itr in that position and the other thread can start scan from there */ class LRUItr: public LRUHp { public: /** Constructor @param buf_pool buffer pool instance @param mutex mutex that is protecting the hp. */ LRUItr(const buf_pool_t* buf_pool, const ib_mutex_t* mutex) : LRUHp(buf_pool, mutex) {} /** Destructor */ virtual ~LRUItr() {} /** Selects from where to start a scan. If we have scanned too deep into the LRU list it resets the value to the tail of the LRU list. @return buf_page_t from where to start scan. */ buf_page_t* start(); }; /** Struct that is embedded in the free zip blocks */ struct buf_buddy_free_t { union { ulint size; /*!< size of the block */ byte bytes[FIL_PAGE_DATA]; /*!< stamp[FIL_PAGE_ARCH_LOG_NO_OR_SPACE_ID] == BUF_BUDDY_FREE_STAMP denotes a free block. If the space_id field of buddy block != BUF_BUDDY_FREE_STAMP, the block is not in any zip_free list. If the space_id is BUF_BUDDY_FREE_STAMP then stamp[0] will contain the buddy block size. */ } stamp; buf_page_t bpage; /*!< Embedded bpage descriptor */ UT_LIST_NODE_T(buf_buddy_free_t) list; /*!< Node of zip_free list */ }; /** @brief The buffer pool statistics structure. */ struct buf_pool_stat_t{ ulint n_page_gets; /*!< number of page gets performed; also successful searches through the adaptive hash index are counted as page gets; this field is NOT protected by the buffer pool mutex */ ulint n_pages_read; /*!< number read operations */ ulint n_pages_written;/*!< number write operations */ ulint n_pages_created;/*!< number of pages created in the pool with no read */ ulint n_ra_pages_read_rnd;/*!< number of pages read in as part of random read ahead */ ulint n_ra_pages_read;/*!< number of pages read in as part of read ahead */ ulint n_ra_pages_evicted;/*!< number of read ahead pages that are evicted without being accessed */ ulint n_pages_made_young; /*!< number of pages made young, in calls to buf_LRU_make_block_young() */ ulint n_pages_not_made_young; /*!< number of pages not made young because the first access was not long enough ago, in buf_page_peek_if_too_old() */ ulint LRU_bytes; /*!< LRU size in bytes */ ulint flush_list_bytes;/*!< flush_list size in bytes */ }; /** Statistics of buddy blocks of a given size. */ struct buf_buddy_stat_t { /** Number of blocks allocated from the buddy system. */ ulint used; /** Number of blocks relocated by the buddy system. */ ib_uint64_t relocated; /** Total duration of block relocations, in microseconds. */ ib_uint64_t relocated_usec; }; /** @brief The temporary memory array structure. NOTE! The definition appears here only for other modules of this directory (buf) to see it. Do not use from outside! */ typedef struct { ulint n_slots; /*!< Total number of slots */ buf_tmp_buffer_t *slots; /*!< Pointer to the slots in the array */ } buf_tmp_array_t; /** @brief The buffer pool structure. NOTE! The definition appears here only for other modules of this directory (buf) to see it. Do not use from outside! */ struct buf_pool_t{ /** @name General fields */ /* @{ */ BufPoolMutex mutex; /*!< Buffer pool mutex of this instance */ BufPoolZipMutex zip_mutex; /*!< Zip mutex of this buffer pool instance, protects compressed only pages (of type buf_page_t, not buf_block_t */ ulint instance_no; /*!< Array index of this buffer pool instance */ ulint curr_pool_size; /*!< Current pool size in bytes */ ulint LRU_old_ratio; /*!< Reserve this much of the buffer pool for "old" blocks */ #ifdef UNIV_DEBUG ulint buddy_n_frames; /*!< Number of frames allocated from the buffer pool to the buddy system */ #endif #if defined UNIV_DEBUG || defined UNIV_BUF_DEBUG ulint mutex_exit_forbidden; /*!< Forbid release mutex */ #endif ut_allocator allocator; /*!< Allocator used for allocating memory for the the "chunks" member. */ volatile ulint n_chunks; /*!< number of buffer pool chunks */ volatile ulint n_chunks_new; /*!< new number of buffer pool chunks */ buf_chunk_t* chunks; /*!< buffer pool chunks */ buf_chunk_t* chunks_old; /*!< old buffer pool chunks to be freed after resizing buffer pool */ ulint curr_size; /*!< current pool size in pages */ ulint old_size; /*!< previous pool size in pages */ ulint read_ahead_area;/*!< size in pages of the area which the read-ahead algorithms read if invoked */ hash_table_t* page_hash; /*!< hash table of buf_page_t or buf_block_t file pages, buf_page_in_file() == TRUE, indexed by (space_id, offset). page_hash is protected by an array of mutexes. Changes in page_hash are protected by buf_pool->mutex and the relevant page_hash mutex. Lookups can happen while holding the buf_pool->mutex or the relevant page_hash mutex. */ hash_table_t* page_hash_old; /*!< old pointer to page_hash to be freed after resizing buffer pool */ hash_table_t* zip_hash; /*!< hash table of buf_block_t blocks whose frames are allocated to the zip buddy system, indexed by block->frame */ ulint n_pend_reads; /*!< number of pending read operations */ ulint n_pend_unzip; /*!< number of pending decompressions */ time_t last_printout_time; /*!< when buf_print_io was last time called */ buf_buddy_stat_t buddy_stat[BUF_BUDDY_SIZES_MAX + 1]; /*!< Statistics of buddy system, indexed by block size */ buf_pool_stat_t stat; /*!< current statistics */ buf_pool_stat_t old_stat; /*!< old statistics */ /* @} */ /** @name Page flushing algorithm fields */ /* @{ */ FlushListMutex flush_list_mutex;/*!< mutex protecting the flush list access. This mutex protects flush_list, flush_rbt and bpage::list pointers when the bpage is on flush_list. It also protects writes to bpage::oldest_modification and flush_list_hp */ FlushHp flush_hp;/*!< "hazard pointer" used during scan of flush_list while doing flush list batch. Protected by flush_list_mutex */ UT_LIST_BASE_NODE_T(buf_page_t) flush_list; /*!< base node of the modified block list */ ibool init_flush[BUF_FLUSH_N_TYPES]; /*!< this is TRUE when a flush of the given type is being initialized */ ulint n_flush[BUF_FLUSH_N_TYPES]; /*!< this is the number of pending writes in the given flush type */ os_event_t no_flush[BUF_FLUSH_N_TYPES]; /*!< this is in the set state when there is no flush batch of the given type running; os_event_set() and os_event_reset() are protected by buf_pool_t::mutex */ ib_rbt_t* flush_rbt; /*!< a red-black tree is used exclusively during recovery to speed up insertions in the flush_list. This tree contains blocks in order of oldest_modification LSN and is kept in sync with the flush_list. Each member of the tree MUST also be on the flush_list. This tree is relevant only in recovery and is set to NULL once the recovery is over. Protected by flush_list_mutex */ unsigned freed_page_clock;/*!< a sequence number used to count the number of buffer blocks removed from the end of the LRU list; NOTE that this counter may wrap around at 4 billion! A thread is allowed to read this for heuristic purposes without holding any mutex or latch */ ibool try_LRU_scan; /*!< Set to FALSE when an LRU scan for free block fails. This flag is used to avoid repeated scans of LRU list when we know that there is no free block available in the scan depth for eviction. Set to TRUE whenever we flush a batch from the buffer pool. Protected by the buf_pool->mutex */ /* @} */ /** @name LRU replacement algorithm fields */ /* @{ */ UT_LIST_BASE_NODE_T(buf_page_t) free; /*!< base node of the free block list */ UT_LIST_BASE_NODE_T(buf_page_t) withdraw; /*!< base node of the withdraw block list. It is only used during shrinking buffer pool size, not to reuse the blocks will be removed */ ulint withdraw_target;/*!< target length of withdraw block list, when withdrawing */ /** "hazard pointer" used during scan of LRU while doing LRU list batch. Protected by buf_pool::mutex */ LRUHp lru_hp; /** Iterator used to scan the LRU list when searching for replacable victim. Protected by buf_pool::mutex. */ LRUItr lru_scan_itr; /** Iterator used to scan the LRU list when searching for single page flushing victim. Protected by buf_pool::mutex. */ LRUItr single_scan_itr; UT_LIST_BASE_NODE_T(buf_page_t) LRU; /*!< base node of the LRU list */ buf_page_t* LRU_old; /*!< pointer to the about LRU_old_ratio/BUF_LRU_OLD_RATIO_DIV oldest blocks in the LRU list; NULL if LRU length less than BUF_LRU_OLD_MIN_LEN; NOTE: when LRU_old != NULL, its length should always equal LRU_old_len */ ulint LRU_old_len; /*!< length of the LRU list from the block to which LRU_old points onward, including that block; see buf0lru.cc for the restrictions on this value; 0 if LRU_old == NULL; NOTE: LRU_old_len must be adjusted whenever LRU_old shrinks or grows! */ UT_LIST_BASE_NODE_T(buf_block_t) unzip_LRU; /*!< base node of the unzip_LRU list */ /* @} */ /** @name Buddy allocator fields The buddy allocator is used for allocating compressed page frames and buf_page_t descriptors of blocks that exist in the buffer pool only in compressed form. */ /* @{ */ #if defined UNIV_DEBUG || defined UNIV_BUF_DEBUG UT_LIST_BASE_NODE_T(buf_page_t) zip_clean; /*!< unmodified compressed pages */ #endif /* UNIV_DEBUG || UNIV_BUF_DEBUG */ UT_LIST_BASE_NODE_T(buf_buddy_free_t) zip_free[BUF_BUDDY_SIZES_MAX]; /*!< buddy free lists */ buf_page_t* watch; /*!< Sentinel records for buffer pool watches. Protected by buf_pool->mutex. */ buf_tmp_array_t* tmp_arr; /*!< Array for temporal memory used in compression and encryption */ #if BUF_BUDDY_LOW > UNIV_ZIP_SIZE_MIN # error "BUF_BUDDY_LOW > UNIV_ZIP_SIZE_MIN" #endif /* @} */ }; /** Print the given buf_pool_t object. @param[in,out] out the output stream @param[in] buf_pool the buf_pool_t object to be printed @return the output stream */ std::ostream& operator<<( std::ostream& out, const buf_pool_t& buf_pool); /** @name Accessors for buf_pool->mutex. Use these instead of accessing buf_pool->mutex directly. */ /* @{ */ /** Test if a buffer pool mutex is owned. */ #define buf_pool_mutex_own(b) mutex_own(&b->mutex) /** Acquire a buffer pool mutex. */ #define buf_pool_mutex_enter(b) do { \ ut_ad(!(b)->zip_mutex.is_owned()); \ mutex_enter(&(b)->mutex); \ } while (0) /** Test if flush list mutex is owned. */ #define buf_flush_list_mutex_own(b) mutex_own(&(b)->flush_list_mutex) /** Acquire the flush list mutex. */ #define buf_flush_list_mutex_enter(b) do { \ mutex_enter(&(b)->flush_list_mutex); \ } while (0) /** Release the flush list mutex. */ # define buf_flush_list_mutex_exit(b) do { \ mutex_exit(&(b)->flush_list_mutex); \ } while (0) /** Test if block->mutex is owned. */ #define buf_page_mutex_own(b) (b)->mutex.is_owned() /** Acquire the block->mutex. */ #define buf_page_mutex_enter(b) do { \ mutex_enter(&(b)->mutex); \ } while (0) /** Release the trx->mutex. */ #define buf_page_mutex_exit(b) do { \ (b)->mutex.exit(); \ } while (0) /** Get appropriate page_hash_lock. */ # define buf_page_hash_lock_get(buf_pool, page_id) \ hash_get_lock((buf_pool)->page_hash, (page_id).fold()) /** If not appropriate page_hash_lock, relock until appropriate. */ # define buf_page_hash_lock_s_confirm(hash_lock, buf_pool, page_id)\ hash_lock_s_confirm(hash_lock, (buf_pool)->page_hash, (page_id).fold()) # define buf_page_hash_lock_x_confirm(hash_lock, buf_pool, page_id)\ hash_lock_x_confirm(hash_lock, (buf_pool)->page_hash, (page_id).fold()) #ifdef UNIV_DEBUG /** Test if page_hash lock is held in s-mode. */ # define buf_page_hash_lock_held_s(buf_pool, bpage) \ rw_lock_own(buf_page_hash_lock_get((buf_pool), (bpage)->id), RW_LOCK_S) /** Test if page_hash lock is held in x-mode. */ # define buf_page_hash_lock_held_x(buf_pool, bpage) \ rw_lock_own(buf_page_hash_lock_get((buf_pool), (bpage)->id), RW_LOCK_X) /** Test if page_hash lock is held in x or s-mode. */ # define buf_page_hash_lock_held_s_or_x(buf_pool, bpage)\ (buf_page_hash_lock_held_s((buf_pool), (bpage)) \ || buf_page_hash_lock_held_x((buf_pool), (bpage))) # define buf_block_hash_lock_held_s(buf_pool, block) \ buf_page_hash_lock_held_s((buf_pool), &(block)->page) # define buf_block_hash_lock_held_x(buf_pool, block) \ buf_page_hash_lock_held_x((buf_pool), &(block)->page) # define buf_block_hash_lock_held_s_or_x(buf_pool, block) \ buf_page_hash_lock_held_s_or_x((buf_pool), &(block)->page) #else /* UNIV_DEBUG */ # define buf_page_hash_lock_held_s(b, p) (TRUE) # define buf_page_hash_lock_held_x(b, p) (TRUE) # define buf_page_hash_lock_held_s_or_x(b, p) (TRUE) # define buf_block_hash_lock_held_s(b, p) (TRUE) # define buf_block_hash_lock_held_x(b, p) (TRUE) # define buf_block_hash_lock_held_s_or_x(b, p) (TRUE) #endif /* UNIV_DEBUG */ #if defined UNIV_DEBUG || defined UNIV_BUF_DEBUG /** Forbid the release of the buffer pool mutex. */ # define buf_pool_mutex_exit_forbid(b) do { \ ut_ad(buf_pool_mutex_own(b)); \ b->mutex_exit_forbidden++; \ } while (0) /** Allow the release of the buffer pool mutex. */ # define buf_pool_mutex_exit_allow(b) do { \ ut_ad(buf_pool_mutex_own(b)); \ ut_a(b->mutex_exit_forbidden); \ b->mutex_exit_forbidden--; \ } while (0) /** Release the buffer pool mutex. */ # define buf_pool_mutex_exit(b) do { \ ut_a(!b->mutex_exit_forbidden); \ mutex_exit(&b->mutex); \ } while (0) #else /** Forbid the release of the buffer pool mutex. */ # define buf_pool_mutex_exit_forbid(b) ((void) 0) /** Allow the release of the buffer pool mutex. */ # define buf_pool_mutex_exit_allow(b) ((void) 0) /** Release the buffer pool mutex. */ # define buf_pool_mutex_exit(b) mutex_exit(&b->mutex) #endif /* @} */ /********************************************************************** Let us list the consistency conditions for different control block states. NOT_USED: is in free list, not in LRU list, not in flush list, nor page hash table READY_FOR_USE: is not in free list, LRU list, or flush list, nor page hash table MEMORY: is not in free list, LRU list, or flush list, nor page hash table FILE_PAGE: space and offset are defined, is in page hash table if io_fix == BUF_IO_WRITE, pool: no_flush[flush_type] is in reset state, pool: n_flush[flush_type] > 0 (1) if buf_fix_count == 0, then is in LRU list, not in free list is in flush list, if and only if oldest_modification > 0 is x-locked, if and only if io_fix == BUF_IO_READ is s-locked, if and only if io_fix == BUF_IO_WRITE (2) if buf_fix_count > 0, then is not in LRU list, not in free list is in flush list, if and only if oldest_modification > 0 if io_fix == BUF_IO_READ, is x-locked if io_fix == BUF_IO_WRITE, is s-locked State transitions: NOT_USED => READY_FOR_USE READY_FOR_USE => MEMORY READY_FOR_USE => FILE_PAGE MEMORY => NOT_USED FILE_PAGE => NOT_USED NOTE: This transition is allowed if and only if (1) buf_fix_count == 0, (2) oldest_modification == 0, and (3) io_fix == 0. */ #if defined UNIV_DEBUG || defined UNIV_BUF_DEBUG /** Functor to validate the LRU list. */ struct CheckInLRUList { void operator()(const buf_page_t* elem) const { ut_a(elem->in_LRU_list); } static void validate(const buf_pool_t* buf_pool) { CheckInLRUList check; ut_list_validate(buf_pool->LRU, check); } }; /** Functor to validate the LRU list. */ struct CheckInFreeList { void operator()(const buf_page_t* elem) const { ut_a(elem->in_free_list); } static void validate(const buf_pool_t* buf_pool) { CheckInFreeList check; ut_list_validate(buf_pool->free, check); } }; struct CheckUnzipLRUAndLRUList { void operator()(const buf_block_t* elem) const { ut_a(elem->page.in_LRU_list); ut_a(elem->in_unzip_LRU_list); } static void validate(const buf_pool_t* buf_pool) { CheckUnzipLRUAndLRUList check; ut_list_validate(buf_pool->unzip_LRU, check); } }; #endif /* UNIV_DEBUG || defined UNIV_BUF_DEBUG */ #include "buf0buf.ic" #endif /* !UNIV_INNOCHECKSUM */ #endif