/* Copyright (C) 2007 Michael Widenius 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, Fifth Floor, Boston, MA 02110-1335 USA */ /* Storage of records in block */ #define LSN_SIZE 7 #define DIR_COUNT_SIZE 1 /* Stores number of rows on page */ #define DIR_FREE_SIZE 1 /* Pointer to first free dir entry */ #define EMPTY_SPACE_SIZE 2 /* Stores empty space on page */ #define PAGE_TYPE_SIZE 1 #define PAGE_SUFFIX_SIZE 4 /* Bytes for checksum */ #define PAGE_HEADER_SIZE_RAW (LSN_SIZE + DIR_COUNT_SIZE + DIR_FREE_SIZE + \ EMPTY_SPACE_SIZE + PAGE_TYPE_SIZE) #define PAGE_HEADER_SIZE(share) (PAGE_HEADER_SIZE_RAW + \ (share)->crypt_page_header_space) #define PAGE_OVERHEAD_SIZE_RAW (PAGE_HEADER_SIZE_RAW + DIR_ENTRY_SIZE + \ PAGE_SUFFIX_SIZE) #define PAGE_OVERHEAD_SIZE(share) (PAGE_OVERHEAD_SIZE_RAW + \ (share)->crypt_page_header_space) #define BLOCK_RECORD_POINTER_SIZE 6 #define FULL_PAGE_HEADER_SIZE(share) (LSN_SIZE + PAGE_TYPE_SIZE + \ (share)->crypt_page_header_space) #define FULL_PAGE_SIZE(share) ((share)->block_size - \ FULL_PAGE_HEADER_SIZE(share) - \ PAGE_SUFFIX_SIZE) #define FULL_PAGE_SIZE2(block_size, crypt_size) \ ((block_size) - (LSN_SIZE + PAGE_TYPE_SIZE + PAGE_SUFFIX_SIZE + (crypt_size))) #define ROW_EXTENT_PAGE_SIZE 5 #define ROW_EXTENT_COUNT_SIZE 2 #define SUB_RANGE_SIZE 2 #define BLOCK_FILLER_SIZE 2 #define ROW_EXTENT_SIZE (ROW_EXTENT_PAGE_SIZE + ROW_EXTENT_COUNT_SIZE) #define TAIL_BIT 0x8000U /* Bit in page_count to signify tail */ #define START_EXTENT_BIT 0x4000U /* Bit in page_count to signify start*/ /* page_count set by bitmap code for tail pages */ #define TAIL_PAGE_COUNT_MARKER 0xffff /* Number of extents reserved MARIA_BITMAP_BLOCKS to store head part */ #define ELEMENTS_RESERVED_FOR_MAIN_PART 4 /* This is just used to prealloc a dynamic array */ #define AVERAGE_BLOB_SIZE (1024L*1024L) /* Number of pages to store continuous blob parts */ #define BLOB_SEGMENT_MIN_SIZE 128 /* Fields before 'row->null_field_lengths' used by find_where_to_split_row */ #define EXTRA_LENGTH_FIELDS 3 /* Size for the different parts in the row header (and head page) */ #define FLAG_SIZE 1 #define VERPTR_SIZE 7 #define DIR_ENTRY_SIZE 4 #define FIELD_OFFSET_SIZE 2 /* size of pointers to field starts */ /* Minimum header size needed for a new row */ #define BASE_ROW_HEADER_SIZE FLAG_SIZE #define PAGE_TYPE_MASK 7 enum en_page_type { UNALLOCATED_PAGE, HEAD_PAGE, TAIL_PAGE, BLOB_PAGE, MAX_PAGE_TYPE }; #define PAGE_CAN_BE_COMPACTED 128U /* Bit in PAGE_TYPE */ #define PAGE_TYPE_OFFSET LSN_SIZE #define DIR_COUNT_OFFSET (LSN_SIZE+PAGE_TYPE_SIZE) #define DIR_FREE_OFFSET (DIR_COUNT_OFFSET+DIR_COUNT_SIZE) #define EMPTY_SPACE_OFFSET (DIR_FREE_OFFSET+DIR_FREE_SIZE) /* for encryption */ #define KEY_VERSION_OFFSET (EMPTY_SPACE_OFFSET+EMPTY_SPACE_SIZE) #define FULL_PAGE_KEY_VERSION_OFFSET (PAGE_TYPE_OFFSET + PAGE_TYPE_SIZE) /* Bits used for flag uchar (one byte, first in record) */ #define ROW_FLAG_TRANSID 1U #define ROW_FLAG_VER_PTR 2U #define ROW_FLAG_DELETE_TRANSID 4U #define ROW_FLAG_NULLS_EXTENDED 8U #define ROW_FLAG_EXTENTS 128U #define ROW_FLAG_ALL (1U+2U+4U+8U+128U) /* Size for buffer to hold information about bitmap */ #define MAX_BITMAP_INFO_LENGTH ((MARIA_MAX_KEY_BLOCK_LENGTH*8/3)*(61*11/60)+10) /******** Variables that affects how data pages are utilized ********/ /* Minimum size of tail segment */ #define MIN_TAIL_SIZE 32U /* Fixed length part of Max possible header size; See row data structure table in ma_blockrec.c. */ #define MAX_FIXED_HEADER_SIZE (FLAG_SIZE + 3 + ROW_EXTENT_SIZE + 3) #define TRANS_MAX_FIXED_HEADER_SIZE (MAX_FIXED_HEADER_SIZE + \ TRANSID_SIZE + VERPTR_SIZE + \ TRANSID_SIZE) /* We use 1 uchar in record header to store number of directory entries */ #define MAX_ROWS_PER_PAGE 255 #define END_OF_DIR_FREE_LIST ((uchar) 255) /* Bits for MARIA_BITMAP_BLOCKS->used */ /* We stored data on disk in the block */ #define BLOCKUSED_USED 1 /* Bitmap on disk is block->org_bitmap_value ; Happens only on update */ #define BLOCKUSED_USE_ORG_BITMAP 2 /* We stored tail data on disk for the block */ #define BLOCKUSED_TAIL 4 /******* defines that affects allocation (density) of data *******/ /* If the tail part (from the main block or a blob) would use more than 75 % of the size of page, store the tail on a full page instead of a shared tail page. */ #define MAX_TAIL_SIZE(block_size) ((block_size) *3 / 4) /* Don't allocate memory for too many row extents on the stack */ #define ROW_EXTENTS_ON_STACK 32 /* Functions to convert MARIA_RECORD_POS to/from page:offset */ static inline MARIA_RECORD_POS ma_recordpos(pgcache_page_no_t page, uint dir_entry) { DBUG_ASSERT(dir_entry <= 255); DBUG_ASSERT(page > 0); /* page 0 is bitmap, not data page */ return (MARIA_RECORD_POS) (((ulonglong) page << 8) | dir_entry); } static inline pgcache_page_no_t ma_recordpos_to_page(MARIA_RECORD_POS record_pos) { return (pgcache_page_no_t) (record_pos >> 8); } static inline uint ma_recordpos_to_dir_entry(MARIA_RECORD_POS record_pos) { return (uint) (record_pos & 255); } static inline uchar *dir_entry_pos(uchar *buff, uint block_size, uint pos) { return (buff + block_size - DIR_ENTRY_SIZE * pos - PAGE_SUFFIX_SIZE - DIR_ENTRY_SIZE); } /* ma_blockrec.c */ void _ma_init_block_record_data(void); my_bool _ma_once_init_block_record(MARIA_SHARE *share, File dfile); my_bool _ma_once_end_block_record(MARIA_SHARE *share); my_bool _ma_init_block_record(MARIA_HA *info); void _ma_end_block_record(MARIA_HA *info); my_bool _ma_update_block_record(MARIA_HA *info, MARIA_RECORD_POS pos, const uchar *oldrec, const uchar *newrec); my_bool _ma_delete_block_record(MARIA_HA *info, const uchar *record); int _ma_read_block_record(MARIA_HA *info, uchar *record, MARIA_RECORD_POS record_pos); int _ma_read_block_record2(MARIA_HA *info, uchar *record, uchar *data, uchar *end_of_data); int _ma_scan_block_record(MARIA_HA *info, uchar *record, MARIA_RECORD_POS, my_bool); my_bool _ma_cmp_block_unique(MARIA_HA *info, MARIA_UNIQUEDEF *def, const uchar *record, MARIA_RECORD_POS pos); my_bool _ma_scan_init_block_record(MARIA_HA *info); void _ma_scan_end_block_record(MARIA_HA *info); int _ma_scan_remember_block_record(MARIA_HA *info, MARIA_RECORD_POS *lastpos); int _ma_scan_restore_block_record(MARIA_HA *info, MARIA_RECORD_POS lastpos); MARIA_RECORD_POS _ma_write_init_block_record(MARIA_HA *info, const uchar *record); my_bool _ma_write_block_record(MARIA_HA *info, const uchar *record); my_bool _ma_write_abort_block_record(MARIA_HA *info); my_bool _ma_compare_block_record(MARIA_HA *info, const uchar *record); void _ma_compact_block_page(MARIA_SHARE *share, uchar *buff, uint rownr, my_bool extend_block, TrID min_read_from, uint min_row_length); my_bool enough_free_entries_on_page(MARIA_SHARE *share, uchar *page_buff); TRANSLOG_ADDRESS maria_page_get_lsn(uchar *page, pgcache_page_no_t page_no, uchar* data_ptr); /* ma_bitmap.c */ extern const char *bits_to_txt[]; my_bool _ma_bitmap_init(MARIA_SHARE *share, File file, pgcache_page_no_t *last_page); my_bool _ma_bitmap_end(MARIA_SHARE *share); my_bool _ma_bitmap_flush(MARIA_SHARE *share); my_bool _ma_bitmap_flush_all(MARIA_SHARE *share); void _ma_bitmap_reset_cache(MARIA_SHARE *share); my_bool _ma_bitmap_find_place(MARIA_HA *info, MARIA_ROW *row, MARIA_BITMAP_BLOCKS *result_blocks); my_bool _ma_bitmap_release_unused(MARIA_HA *info, MARIA_BITMAP_BLOCKS *blocks); my_bool _ma_bitmap_free_full_pages(MARIA_HA *info, const uchar *extents, uint count); my_bool _ma_bitmap_set(MARIA_HA *info, pgcache_page_no_t pos, my_bool head, uint empty_space); my_bool _ma_bitmap_reset_full_page_bits(MARIA_HA *info, MARIA_FILE_BITMAP *bitmap, pgcache_page_no_t page, uint page_count); my_bool _ma_bitmap_set_full_page_bits(MARIA_HA *info, MARIA_FILE_BITMAP *bitmap, pgcache_page_no_t page, uint page_count); uint _ma_free_size_to_head_pattern(MARIA_FILE_BITMAP *bitmap, uint size); my_bool _ma_bitmap_find_new_place(MARIA_HA *info, MARIA_ROW *new_row, pgcache_page_no_t page, uint free_size, MARIA_BITMAP_BLOCKS *result_blocks); my_bool _ma_check_bitmap_data(MARIA_HA *info, enum en_page_type page_type, uint empty_space, uint bitmap_pattern); my_bool _ma_check_if_right_bitmap_type(MARIA_HA *info, enum en_page_type page_type, pgcache_page_no_t page, uint *bitmap_pattern); uint _ma_bitmap_get_page_bits(MARIA_HA *info, MARIA_FILE_BITMAP *bitmap, pgcache_page_no_t page); void _ma_bitmap_delete_all(MARIA_SHARE *share); int _ma_bitmap_create_first(MARIA_SHARE *share); void _ma_bitmap_flushable(MARIA_HA *info, int non_flushable_inc); void _ma_bitmap_lock(MARIA_SHARE *share); void _ma_bitmap_unlock(MARIA_SHARE *share); void _ma_bitmap_set_pagecache_callbacks(PAGECACHE_FILE *file, MARIA_SHARE *share); #ifndef DBUG_OFF void _ma_print_bitmap(MARIA_FILE_BITMAP *bitmap, uchar *data, pgcache_page_no_t page); #endif void _ma_get_bitmap_description(MARIA_FILE_BITMAP *bitmap, uchar *bitmap_data, pgcache_page_no_t page, char *out); uint _ma_apply_redo_insert_row_head_or_tail(MARIA_HA *info, LSN lsn, uint page_type, my_bool new_page, const uchar *header, const uchar *data, size_t data_length); uint _ma_apply_redo_purge_row_head_or_tail(MARIA_HA *info, LSN lsn, uint page_type, const uchar *header); uint _ma_apply_redo_free_blocks(MARIA_HA *info, LSN lsn, LSN rec_lsn, const uchar *header); uint _ma_apply_redo_free_head_or_tail(MARIA_HA *info, LSN lsn, const uchar *header); uint _ma_apply_redo_insert_row_blobs(MARIA_HA *info, LSN lsn, const uchar *header, LSN redo_lsn, uint * const number_of_blobs, uint * const number_of_ranges, pgcache_page_no_t * const first_page, pgcache_page_no_t * const last_page); my_bool _ma_apply_redo_bitmap_new_page(MARIA_HA *info, LSN lsn, const uchar *header); my_bool _ma_apply_undo_row_insert(MARIA_HA *info, LSN undo_lsn, const uchar *header); my_bool _ma_apply_undo_row_delete(MARIA_HA *info, LSN undo_lsn, const uchar *header, size_t length); my_bool _ma_apply_undo_row_update(MARIA_HA *info, LSN undo_lsn, const uchar *header, size_t length); my_bool _ma_apply_undo_bulk_insert(MARIA_HA *info, LSN undo_lsn); my_bool write_hook_for_redo(enum translog_record_type type, TRN *trn, MARIA_HA *tbl_info, LSN *lsn, void *hook_arg); my_bool write_hook_for_undo(enum translog_record_type type, TRN *trn, MARIA_HA *tbl_info, LSN *lsn, void *hook_arg); my_bool write_hook_for_redo_delete_all(enum translog_record_type type, TRN *trn, MARIA_HA *tbl_info, LSN *lsn, void *hook_arg); my_bool write_hook_for_undo_row_insert(enum translog_record_type type, TRN *trn, MARIA_HA *tbl_info, LSN *lsn, void *hook_arg); my_bool write_hook_for_undo_row_delete(enum translog_record_type type, TRN *trn, MARIA_HA *tbl_info, LSN *lsn, void *hook_arg); my_bool write_hook_for_undo_row_update(enum translog_record_type type, TRN *trn, MARIA_HA *tbl_info, LSN *lsn, void *hook_arg); my_bool write_hook_for_undo_bulk_insert(enum translog_record_type type, TRN *trn, MARIA_HA *tbl_info, LSN *lsn, void *hook_arg); my_bool write_hook_for_file_id(enum translog_record_type type, TRN *trn, MARIA_HA *tbl_info, LSN *lsn, void *hook_arg); my_bool write_hook_for_commit(enum translog_record_type type, TRN *trn, MARIA_HA *tbl_info, LSN *lsn, void *hook_arg); void _ma_block_get_status(void *param, my_bool concurrent_insert); my_bool _ma_block_start_trans(void* param); my_bool _ma_block_start_trans_no_versioning(void *param); void _ma_block_update_status(void *param); void _ma_block_restore_status(void *param); my_bool _ma_block_check_status(void *param);