/* Copyright (C) 2006 MySQL AB & MySQL Finland AB & TCX DataKonsult AB Copyright (c) 2009, 2020, MariaDB Corporation Ab 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 */ /* This file is included by all internal maria files */ #ifndef MARIA_DEF_INCLUDED #define MARIA_DEF_INCLUDED #include #ifdef EMBEDDED_LIBRARY #undef WITH_S3_STORAGE_ENGINE #endif #include "maria.h" /* Structs & some defines */ #include "ma_pagecache.h" #include /* packing of keys */ #include #include #include #include #include #include "ma_loghandler.h" #include "ma_control_file.h" #include "ma_state.h" #include #include #define MARIA_CANNOT_ROLLBACK C_MODE_START /* Limit max keys according to HA_MAX_POSSIBLE_KEY; See myisamchk.h for details */ #if MAX_INDEXES > HA_MAX_POSSIBLE_KEY #define MARIA_MAX_KEY HA_MAX_POSSIBLE_KEY /* Max allowed keys */ #else #define MARIA_MAX_KEY MAX_INDEXES /* Max allowed keys */ #endif #define MARIA_NAME_IEXT ".MAI" #define MARIA_NAME_DEXT ".MAD" /* Max extra space to use when sorting keys */ #define MARIA_MAX_TEMP_LENGTH (2*1024L*1024L*1024L) /* Possible values for maria_block_size (must be power of 2) */ #define MARIA_KEY_BLOCK_LENGTH 8192 /* default key block length */ #define MARIA_MIN_KEY_BLOCK_LENGTH 1024 /* Min key block length */ #define MARIA_MAX_KEY_BLOCK_LENGTH 32768 /* Minimal page cache when we only want to be able to scan a table */ #define MARIA_MIN_PAGE_CACHE_SIZE (8192L*16L) /* In the following macros '_keyno_' is 0 .. keys-1. If there can be more keys than bits in the key_map, the highest bit is for all upper keys. They cannot be switched individually. This means that clearing of high keys is ignored, setting one high key sets all high keys. */ #define MARIA_KEYMAP_BITS (8 * SIZEOF_LONG_LONG) #define MARIA_KEYMAP_HIGH_MASK (1ULL << (MARIA_KEYMAP_BITS - 1)) #define maria_get_mask_all_keys_active(_keys_) \ (((_keys_) < MARIA_KEYMAP_BITS) ? \ ((1ULL << (_keys_)) - 1ULL) : \ (~ 0ULL)) #if MARIA_MAX_KEY > MARIA_KEYMAP_BITS #define maria_is_key_active(_keymap_,_keyno_) \ (((_keyno_) < MARIA_KEYMAP_BITS) ? \ MY_TEST((_keymap_) & (1ULL << (_keyno_))) : \ MY_TEST((_keymap_) & MARIA_KEYMAP_HIGH_MASK)) #define maria_set_key_active(_keymap_,_keyno_) \ (_keymap_)|= (((_keyno_) < MARIA_KEYMAP_BITS) ? \ (1ULL << (_keyno_)) : \ MARIA_KEYMAP_HIGH_MASK) #define maria_clear_key_active(_keymap_,_keyno_) \ (_keymap_)&= (((_keyno_) < MARIA_KEYMAP_BITS) ? \ (~ (1ULL << (_keyno_))) : \ (~ (0ULL)) /*ignore*/ ) #else #define maria_is_key_active(_keymap_,_keyno_) \ MY_TEST((_keymap_) & (1ULL << (_keyno_))) #define maria_set_key_active(_keymap_,_keyno_) \ (_keymap_)|= (1ULL << (_keyno_)) #define maria_clear_key_active(_keymap_,_keyno_) \ (_keymap_)&= (~ (1ULL << (_keyno_))) #endif #define maria_is_any_key_active(_keymap_) \ MY_TEST((_keymap_)) #define maria_is_all_keys_active(_keymap_,_keys_) \ ((_keymap_) == maria_get_mask_all_keys_active(_keys_)) #define maria_set_all_keys_active(_keymap_,_keys_) \ (_keymap_)= maria_get_mask_all_keys_active(_keys_) #define maria_clear_all_keys_active(_keymap_) \ (_keymap_)= 0 #define maria_intersect_keys_active(_to_,_from_) \ (_to_)&= (_from_) #define maria_is_any_intersect_keys_active(_keymap1_,_keys_,_keymap2_) \ ((_keymap1_) & (_keymap2_) & \ maria_get_mask_all_keys_active(_keys_)) #define maria_copy_keys_active(_to_,_maxkeys_,_from_) \ (_to_)= (maria_get_mask_all_keys_active(_maxkeys_) & \ (_from_)) /* Param to/from maria_info */ typedef struct st_maria_info { ha_rows records; /* Records in database */ ha_rows deleted; /* Deleted records in database */ MARIA_RECORD_POS recpos; /* Pos for last used record */ MARIA_RECORD_POS newrecpos; /* Pos if we write new record */ MARIA_RECORD_POS dup_key_pos; /* Position to record with dup key */ my_off_t data_file_length; /* Length of data file */ my_off_t max_data_file_length, index_file_length; my_off_t max_index_file_length, delete_length; ulonglong auto_increment; ulonglong key_map; /* Which keys are used */ time_t create_time; /* When table was created */ time_t check_time; time_t update_time; ulong record_offset; double *rec_per_key; /* for sql optimizing */ ulong reclength; /* Recordlength */ ulong mean_reclength; /* Mean recordlength (if packed) */ char *data_file_name, *index_file_name; enum data_file_type data_file_type; uint keys; /* Number of keys in use */ uint options; /* HA_OPTION_... used */ uint reflength; int errkey, /* With key was dupplicated on err */ sortkey; /* clustered by this key */ File filenr; /* (uniq) filenr for datafile */ } MARIA_INFO; struct st_maria_share; struct st_maria_handler; /* For referense */ struct st_maria_keydef; struct st_maria_key /* Internal info about a key */ { uchar *data; /* Data for key */ struct st_maria_keydef *keyinfo; /* Definition for key */ uint data_length; /* Length of key data */ uint ref_length; /* record ref + transid */ uint32 flag; /* 0 or SEARCH_PART_KEY */ }; struct st_maria_decode_tree /* Decode huff-table */ { uint16 *table; uint quick_table_bits; uchar *intervalls; }; typedef struct s3_info S3_INFO; extern ulong maria_block_size, maria_checkpoint_frequency; extern ulong maria_concurrent_insert; extern my_bool maria_flush, maria_single_user, maria_page_checksums; extern my_off_t maria_max_temp_length; extern ulong maria_bulk_insert_tree_size, maria_data_pointer_size; extern MY_TMPDIR *maria_tmpdir; extern my_bool maria_encrypt_tables; /* This is used to check if a symlink points into the mysql data home, which is normally forbidden as it can be used to get access to not privileged data */ extern int (*maria_test_invalid_symlink)(const char *filename); /* Prototypes for maria-functions */ extern int maria_init(void); extern void maria_end(void); extern my_bool maria_upgrade(void); extern int maria_close(MARIA_HA *file); extern int maria_delete(MARIA_HA *file, const uchar *buff); extern MARIA_HA *maria_open(const char *name, int mode, uint wait_if_locked, S3_INFO *s3); extern int maria_panic(enum ha_panic_function function); extern int maria_rfirst(MARIA_HA *file, uchar *buf, int inx); extern int maria_rkey(MARIA_HA *file, uchar *buf, int inx, const uchar *key, key_part_map keypart_map, enum ha_rkey_function search_flag); extern int maria_rlast(MARIA_HA *file, uchar *buf, int inx); extern int maria_rnext(MARIA_HA *file, uchar *buf, int inx); extern int maria_rnext_same(MARIA_HA *info, uchar *buf); extern int maria_rprev(MARIA_HA *file, uchar *buf, int inx); extern int maria_rrnd(MARIA_HA *file, uchar *buf, MARIA_RECORD_POS pos); extern int maria_scan_init(MARIA_HA *file); extern int maria_scan(MARIA_HA *file, uchar *buf); extern void maria_scan_end(MARIA_HA *file); extern int maria_rsame(MARIA_HA *file, uchar *record, int inx); extern int maria_rsame_with_pos(MARIA_HA *file, uchar *record, int inx, MARIA_RECORD_POS pos); extern int maria_update(MARIA_HA *file, const uchar *old, const uchar *new_record); extern int maria_write(MARIA_HA *file, const uchar *buff); extern MARIA_RECORD_POS maria_position(MARIA_HA *file); extern int maria_status(MARIA_HA *info, MARIA_INFO *x, uint flag); extern int maria_lock_database(MARIA_HA *file, int lock_type); extern int maria_delete_table(const char *name); extern int maria_rename(const char *from, const char *to); extern int maria_extra(MARIA_HA *file, enum ha_extra_function function, void *extra_arg); extern int maria_reset(MARIA_HA *file); extern ha_rows maria_records_in_range(MARIA_HA *info, int inx, const key_range *min_key, const key_range *max_key, page_range *page); extern int maria_is_changed(MARIA_HA *info); extern int maria_delete_all_rows(MARIA_HA *info); extern uint maria_get_pointer_length(ulonglong file_length, uint def); extern int maria_commit(MARIA_HA *info); extern int maria_begin(MARIA_HA *info); extern void maria_disable_logging(MARIA_HA *info); extern void maria_enable_logging(MARIA_HA *info); #define HA_RECOVER_NONE 0 /* No automatic recover */ #define HA_RECOVER_DEFAULT 1 /* Automatic recover active */ #define HA_RECOVER_BACKUP 2 /* Make a backupfile on recover */ #define HA_RECOVER_FORCE 4 /* Recover even if we loose rows */ #define HA_RECOVER_QUICK 8 /* Don't check rows in data file */ #define HA_RECOVER_ANY (HA_RECOVER_DEFAULT | HA_RECOVER_BACKUP | HA_RECOVER_FORCE | HA_RECOVER_QUICK) /* this is used to pass to mysql_mariachk_table */ #define MARIA_CHK_REPAIR 1 /* equivalent to mariachk -r */ #define MARIA_CHK_VERIFY 2 /* Verify, run repair if failure */ typedef uint maria_bit_type; typedef struct st_maria_bit_buff { /* Used for packing of record */ maria_bit_type current_byte; uint bits; uchar *pos, *end, *blob_pos, *blob_end; uint error; } MARIA_BIT_BUFF; /* functions in maria_check */ void maria_chk_init(HA_CHECK *param); void maria_chk_init_for_check(HA_CHECK *param, MARIA_HA *info); int maria_chk_status(HA_CHECK *param, MARIA_HA *info); int maria_chk_del(HA_CHECK *param, MARIA_HA *info, ulonglong test_flag); int maria_chk_size(HA_CHECK *param, MARIA_HA *info); int maria_chk_key(HA_CHECK *param, MARIA_HA *info); int maria_chk_data_link(HA_CHECK *param, MARIA_HA *info, my_bool extend); int maria_repair(HA_CHECK *param, MARIA_HA *info, char * name, my_bool); int maria_sort_index(HA_CHECK *param, MARIA_HA *info, char * name); int maria_zerofill(HA_CHECK *param, MARIA_HA *info, const char *name); int maria_repair_by_sort(HA_CHECK *param, MARIA_HA *info, const char *name, my_bool rep_quick); int maria_repair_parallel(HA_CHECK *param, MARIA_HA *info, const char *name, my_bool rep_quick); int maria_change_to_newfile(const char *filename, const char *old_ext, const char *new_ext, time_t backup_time, myf myflags); void maria_lock_memory(HA_CHECK *param); int maria_update_state_info(HA_CHECK *param, MARIA_HA *info, uint update); void maria_update_key_parts(MARIA_KEYDEF *keyinfo, double *rec_per_key_part, ulonglong *unique, ulonglong *notnull, ulonglong records); int maria_filecopy(HA_CHECK *param, File to, File from, my_off_t start, my_off_t length, const char *type); int maria_movepoint(MARIA_HA *info, uchar *record, my_off_t oldpos, my_off_t newpos, uint prot_key); int maria_test_if_almost_full(MARIA_HA *info); int maria_recreate_table(HA_CHECK *param, MARIA_HA **org_info, char *filename); int maria_disable_indexes(MARIA_HA *info); int maria_enable_indexes(MARIA_HA *info); int maria_indexes_are_disabled(MARIA_HA *info); void maria_disable_indexes_for_rebuild(MARIA_HA *info, ha_rows rows, my_bool all_keys); my_bool maria_test_if_sort_rep(MARIA_HA *info, ha_rows rows, ulonglong key_map, my_bool force); int maria_init_bulk_insert(MARIA_HA *info, size_t cache_size, ha_rows rows); void maria_flush_bulk_insert(MARIA_HA *info, uint inx); int maria_end_bulk_insert(MARIA_HA *info, my_bool abort); int maria_preload(MARIA_HA *info, ulonglong key_map, my_bool ignore_leaves); void maria_ignore_trids(MARIA_HA *info); my_bool maria_too_big_key_for_sort(MARIA_KEYDEF *key, ha_rows rows); /* fulltext functions */ FT_INFO *maria_ft_init_search(uint,void *, uint, uchar *, size_t, CHARSET_INFO *, uchar *); /* 'Almost-internal' Maria functions */ void _ma_update_auto_increment_key(HA_CHECK *param, MARIA_HA *info, my_bool repair); /* Do extra sanity checking */ #define SANITY_CHECKS 1 #ifdef EXTRA_DEBUG #define EXTRA_DEBUG_KEY_CHANGES #endif /* The following defines can be used when one has problems with redo logging Setting this will log the full key page which can be compared with the redo-changed key page. This will however make the aria log files MUCH bigger. */ #if defined(EXTRA_ARIA_DEBUG) #define EXTRA_STORE_FULL_PAGE_IN_KEY_CHANGES #endif /* For testing recovery */ #ifdef TO_BE_REMOVED #define IDENTICAL_PAGES_AFTER_RECOVERY 1 #endif #define MAX_NONMAPPED_INSERTS 1000 #define MARIA_MAX_TREE_LEVELS 32 #define MARIA_MAX_RECORD_ON_STACK 16384 /* maria_open() flag, specific for maria_pack */ #define HA_OPEN_IGNORE_MOVED_STATE (1U << 30) typedef struct st_sort_key_blocks MA_SORT_KEY_BLOCKS; typedef struct st_sort_ftbuf MA_SORT_FT_BUF; extern PAGECACHE maria_pagecache_var, *maria_pagecache; int maria_assign_to_pagecache(MARIA_HA *info, ulonglong key_map, PAGECACHE *key_cache); void maria_change_pagecache(PAGECACHE *old_key_cache, PAGECACHE *new_key_cache); typedef struct st_maria_sort_info { /* sync things */ mysql_mutex_t mutex; mysql_cond_t cond; MARIA_HA *info, *new_info; HA_CHECK *param; char *buff; MA_SORT_KEY_BLOCKS *key_block, *key_block_end; MA_SORT_FT_BUF *ft_buf; my_off_t filelength, dupp, buff_length; pgcache_page_no_t page; ha_rows max_records; uint current_key, total_keys; volatile uint got_error; uint threads_running; myf myf_rw; enum data_file_type new_data_file_type, org_data_file_type; } MARIA_SORT_INFO; typedef struct st_maria_sort_param { pthread_t thr; IO_CACHE read_cache, tempfile, tempfile_for_exceptions; DYNAMIC_ARRAY buffpek; MARIA_BIT_BUFF bit_buff; /* For parallel repair of packrec. */ MARIA_KEYDEF *keyinfo; MARIA_SORT_INFO *sort_info; HA_KEYSEG *seg; uchar **sort_keys; uchar *rec_buff; void *wordlist, *wordptr; MEM_ROOT wordroot; uchar *record; MY_TMPDIR *tmpdir; /* The next two are used to collect statistics, see maria_update_key_parts for description. */ ulonglong unique[HA_MAX_KEY_SEG+1]; ulonglong notnull[HA_MAX_KEY_SEG+1]; ulonglong sortbuff_size; MARIA_RECORD_POS pos,max_pos,filepos,start_recpos, current_filepos; uint key, key_length,real_key_length; uint maxbuffers, keys, find_length, sort_keys_length; my_bool fix_datafile, master; my_bool calc_checksum; /* calculate table checksum */ size_t rec_buff_size; int (*key_cmp)(struct st_maria_sort_param *, const void *, const void *); int (*key_read)(struct st_maria_sort_param *, uchar *); int (*key_write)(struct st_maria_sort_param *, const uchar *); void (*lock_in_memory)(HA_CHECK *); int (*write_keys)(struct st_maria_sort_param *, uchar **, ulonglong , struct st_buffpek *, IO_CACHE *); my_off_t (*read_to_buffer)(IO_CACHE *,struct st_buffpek *, uint); int (*write_key)(struct st_maria_sort_param *, IO_CACHE *,uchar *, uint, ulonglong); } MARIA_SORT_PARAM; int maria_write_data_suffix(MARIA_SORT_INFO *sort_info, my_bool fix_datafile); struct st_transaction; /* undef map from my_nosys; We need test-if-disk full */ #undef my_write #define CRC_SIZE 4 typedef struct st_maria_state_info { struct { /* Fileheader (24 bytes) */ uchar file_version[4]; uchar options[2]; uchar header_length[2]; uchar state_info_length[2]; uchar base_info_length[2]; uchar base_pos[2]; uchar key_parts[2]; /* Key parts */ uchar unique_key_parts[2]; /* Key parts + unique parts */ uchar keys; /* number of keys in file */ uchar uniques; /* number of UNIQUE definitions */ uchar not_used; /* Language for indexes */ uchar fulltext_keys; uchar data_file_type; /* Used by mariapack to store the original data_file_type */ uchar org_data_file_type; } header; MARIA_STATUS_INFO state; /* maria_ha->state points here for crash-safe but not versioned tables */ MARIA_STATUS_INFO common; /* State for a versioned table that is temporary non versioned */ MARIA_STATUS_INFO no_logging; ha_rows split; /* number of split blocks */ my_off_t dellink; /* Link to next removed block */ pgcache_page_no_t first_bitmap_with_space; ulonglong auto_increment; TrID create_trid; /* Minum trid for file */ TrID last_change_trn; /* selfdescriptive */ ulong update_count; /* Updated for each write lock */ ulong status; double *rec_per_key_part; ulong *nulls_per_key_part; ha_checksum checksum; /* Table checksum */ my_off_t *key_root; /* Start of key trees */ my_off_t key_del; /* delete links for index pages */ my_off_t records_at_analyze; /* Rows when calculating rec_per_key */ ulong sec_index_changed; /* Updated when new sec_index */ ulong sec_index_used; /* which extra index are in use */ ulonglong key_map; /* Which keys are in use */ ulong version; /* timestamp of create */ time_t create_time; /* Time when created database */ time_t recover_time; /* Time for last recover */ time_t check_time; /* Time for last check */ uint sortkey; /* sorted by this key (not used) */ uint open_count; uint changed; /* Changed since maria_chk */ uint org_changed; /* Changed since open */ /** Birthday of the table: no record in the log before this LSN should ever be applied to the table. Updated when created, renamed, explicitly repaired (REPAIR|OPTIMIZE TABLE, ALTER TABLE ENABLE KEYS, maria_chk). */ LSN create_rename_lsn; /** @brief Log horizon when state was last updated on disk */ TRANSLOG_ADDRESS is_of_horizon; /** REDO phase should ignore any record before this LSN. UNDO phase shouldn't, this is the difference with create_rename_lsn. skip_redo_lsn >= create_rename_lsn. The distinction is for these cases: - after a repair at end of bulk insert (enabling indices), REDO phase should skip the table but UNDO phase should not, so only skip_redo_lsn is increased, not create_rename_lsn - if one table is corrupted and so recovery fails, user may repair the table with maria_chk and let recovery restart: that recovery should then skip the repaired table even in the UNDO phase, so create_rename_lsn is increased. */ LSN skip_redo_lsn; /* LSN when we wrote file id to the log */ LSN logrec_file_id; uint8 dupp_key; /* Lastly processed index with */ /* violated uniqueness constraint */ /* the following isn't saved on disk */ uint state_diff_length; /* Should be 0 */ uint state_length; /* Length of state header in file */ ulong *key_info; } MARIA_STATE_INFO; /* Number of bytes written be _ma_state_info_write_sub() */ #define MARIA_STATE_INFO_SIZE \ (24 + 2 + LSN_STORE_SIZE*3 + 4 + 11*8 + 4*4 + 8 + 3*4 + 5*8) #define MARIA_FILE_OPEN_COUNT_OFFSET 0 #define MARIA_FILE_CHANGED_OFFSET 2 #define MARIA_FILE_CREATE_RENAME_LSN_OFFSET 4 #define MARIA_FILE_CREATE_TRID_OFFSET (4 + LSN_STORE_SIZE*3 + 11*8) #define MARIA_MAX_KEY_LENGTH 2300 #define MARIA_MAX_KEY_BUFF (MARIA_MAX_KEY_LENGTH+HA_MAX_KEY_SEG*6+8+8 + \ MARIA_MAX_PACK_TRANSID_SIZE) #define MARIA_MAX_POSSIBLE_KEY_BUFF (MARIA_MAX_KEY_LENGTH + 24+ 6+6) #define MARIA_STATE_KEY_SIZE (8 + 4) #define MARIA_STATE_KEYBLOCK_SIZE 8 #define MARIA_STATE_KEYSEG_SIZE 12 #define MARIA_STATE_EXTRA_SIZE (MARIA_MAX_KEY*MARIA_STATE_KEY_SIZE + MARIA_MAX_KEY*HA_MAX_KEY_SEG*MARIA_STATE_KEYSEG_SIZE) #define MARIA_KEYDEF_SIZE (2+ 5*2) #define MARIA_UNIQUEDEF_SIZE (2+1+1) #define HA_KEYSEG_SIZE (6+ 2*2 + 4*2) #define MARIA_COLUMNDEF_SIZE (2*7+1+1+4) #define MARIA_BASE_INFO_SIZE (MY_UUID_SIZE + 5*8 + 6*4 + 11*2 + 6 + 5*2 + 1 + 16) #define MARIA_INDEX_BLOCK_MARGIN 16 /* Safety margin for .MYI tables */ #define MARIA_MAX_POINTER_LENGTH 7 /* Node pointer */ /* Internal management bytes needed to store 2 transid/key on an index page */ #define MARIA_MAX_PACK_TRANSID_SIZE (TRANSID_SIZE+1) #define MARIA_TRANSID_PACK_OFFSET (256- TRANSID_SIZE - 1) #define MARIA_MIN_TRANSID_PACK_OFFSET (MARIA_TRANSID_PACK_OFFSET-TRANSID_SIZE) #define MARIA_INDEX_OVERHEAD_SIZE (MARIA_MAX_PACK_TRANSID_SIZE * 2 + \ MARIA_MAX_POINTER_LENGTH) #define MARIA_DELETE_KEY_NR 255 /* keynr for deleted blocks */ /* extra options */ #define MA_EXTRA_OPTIONS_ENCRYPTED (1 << 0) #define MA_EXTRA_OPTIONS_INSERT_ORDER (1 << 1) #include "ma_check.h" /* Basic information of the Maria table. This is stored on disk and not changed (unless we do DLL changes). */ typedef struct st_ma_base_info { my_off_t keystart; /* Start of keys */ my_off_t max_data_file_length; my_off_t max_key_file_length; my_off_t margin_key_file_length; ha_rows records, reloc; /* Create information */ ulong mean_row_length; /* Create information */ ulong reclength; /* length of unpacked record */ ulong pack_reclength; /* Length of full packed rec */ ulong min_pack_length; ulong max_pack_length; /* Max possibly length of packed rec */ ulong min_block_length; ulong s3_block_size; /* Block length for S3 files */ uint fields; /* fields in table */ uint fixed_not_null_fields; uint fixed_not_null_fields_length; uint max_field_lengths; uint pack_fields; /* packed fields in table */ uint varlength_fields; /* char/varchar/blobs */ /* Number of bytes in the index used to refer to a row (2-8) */ uint rec_reflength; /* Number of bytes in the index used to refer to another index page (2-8) */ uint key_reflength; /* = 2-8 */ uint keys; /* same as in state.header */ uint auto_key; /* Which key-1 is a auto key */ uint blobs; /* Number of blobs */ /* Length of packed bits (when table was created first time) */ uint pack_bytes; /* Length of null bits (when table was created first time) */ uint original_null_bytes; uint null_bytes; /* Null bytes in record */ uint field_offsets; /* Number of field offsets */ uint max_key_block_length; /* Max block length */ uint max_key_length; /* Max key length */ /* Extra allocation when using dynamic record format */ uint extra_alloc_bytes; uint extra_alloc_procent; uint is_nulls_extended; /* 1 if new null bytes */ uint default_row_flag; /* 0 or ROW_FLAG_NULLS_EXTENDED */ uint block_size; /* Size of initial record buffer */ uint default_rec_buff_size; /* Extra number of bytes the row format require in the record buffer */ uint extra_rec_buff_size; /* Tuning flags that can be ignored by older Maria versions */ uint extra_options; /* default language, not really used but displayed by maria_chk */ uint language; /* Compression library used. 0 for no compression */ uint compression_algorithm; /* The following are from the header */ uint key_parts, all_key_parts; uchar uuid[MY_UUID_SIZE]; /** @brief If false, we disable logging, versioning, transaction etc. Observe difference with MARIA_SHARE::now_transactional */ my_bool born_transactional; } MARIA_BASE_INFO; uchar *_ma_base_info_read(uchar *ptr, MARIA_BASE_INFO *base); /* Structs used intern in database */ typedef struct st_maria_blob /* Info of record */ { ulong offset; /* Offset to blob in record */ uint pack_length; /* Type of packed length */ ulong length; /* Calc:ed for each record */ } MARIA_BLOB; typedef struct st_maria_pack { ulong header_length; uint ref_length; uchar version; } MARIA_PACK; typedef struct st_maria_file_bitmap { struct st_maria_share *share; uchar *map; pgcache_page_no_t page; /* Page number for current bitmap */ pgcache_page_no_t last_bitmap_page; /* Last possible bitmap page */ my_bool changed; /* 1 if page needs to be written */ my_bool changed_not_flushed; /* 1 if some bitmap is not flushed */ my_bool return_first_match; /* Shortcut find_head() */ uint used_size; /* Size of bitmap head that is not 0 */ uint full_head_size; /* Where to start search for head */ uint full_tail_size; /* Where to start search for tail */ uint flush_all_requested; /**< If _ma_bitmap_flush_all waiting */ uint waiting_for_flush_all_requested; /* If someone is waiting for above */ uint non_flushable; /**< 0 if bitmap and log are in sync */ uint waiting_for_non_flushable; /* If someone is waiting for above */ PAGECACHE_FILE file; /* datafile where bitmap is stored */ mysql_mutex_t bitmap_lock; mysql_cond_t bitmap_cond; /**< When bitmap becomes flushable */ /* Constants, allocated when initiating bitmaps */ uint sizes[8]; /* Size per bit combination */ uint total_size; /* Total usable size of bitmap page */ uint max_total_size; /* Max value for total_size */ uint last_total_size; /* Size of bitmap on last_bitmap_page */ uint block_size; /* Block size of file */ ulong pages_covered; /* Pages covered by bitmap + 1 */ DYNAMIC_ARRAY pinned_pages; /**< not-yet-flushable bitmap pages */ } MARIA_FILE_BITMAP; #define MARIA_CHECKPOINT_LOOKS_AT_ME 1 #define MARIA_CHECKPOINT_SHOULD_FREE_ME 2 #define MARIA_CHECKPOINT_SEEN_IN_LOOP 4 typedef struct st_maria_crypt_data MARIA_CRYPT_DATA; struct ms3_st; typedef struct st_maria_share { /* Shared between opens */ MARIA_STATE_INFO state; MARIA_STATE_INFO checkpoint_state; /* Copy of saved state by checkpoint */ MARIA_BASE_INFO base; MARIA_STATE_HISTORY *state_history; MARIA_KEYDEF ft2_keyinfo; /* Second-level ft-key definition */ MARIA_KEYDEF *keyinfo; /* Key definitions */ MARIA_UNIQUEDEF *uniqueinfo; /* unique definitions */ HA_KEYSEG *keyparts; /* key part info */ MARIA_COLUMNDEF *columndef; /* Pointer to column information */ MARIA_PACK pack; /* Data about packed records */ MARIA_BLOB *blobs; /* Pointer to blobs */ uint16 *column_nr; /* Original column order */ LEX_STRING unique_file_name; /* realpath() of index file */ LEX_STRING data_file_name; /* Resolved path names from symlinks */ LEX_STRING index_file_name; LEX_STRING open_file_name; /* parameter to open filename */ uchar *file_map; /* mem-map of file if possible */ LIST *open_list; /* Tables open with this share */ PAGECACHE *pagecache; /* ref to the current key cache */ MARIA_DECODE_TREE *decode_trees; /* Previous auto-increment value. Used to verify if we can restore the auto-increment counter if we have to abort an insert (duplicate key). */ ulonglong last_auto_increment; uint16 *decode_tables; uint16 id; /**< 2-byte id by which log records refer to the table */ /* Called the first time the table instance is opened */ my_bool (*once_init)(struct st_maria_share *, File); /* Called when the last instance of the table is closed */ my_bool (*once_end)(struct st_maria_share *); /* Is called for every open of the table */ my_bool (*init)(MARIA_HA *); /* Is called for every close of the table */ void (*end)(MARIA_HA *); /* Called when we want to read a record from a specific position */ int (*read_record)(MARIA_HA *, uchar *, MARIA_RECORD_POS); /* Initialize a scan */ my_bool (*scan_init)(MARIA_HA *); /* Read next record while scanning */ int (*scan)(MARIA_HA *, uchar *, MARIA_RECORD_POS, my_bool); /* End scan */ void (*scan_end)(MARIA_HA *); int (*scan_remember_pos)(MARIA_HA *, MARIA_RECORD_POS*); int (*scan_restore_pos)(MARIA_HA *, MARIA_RECORD_POS); /* Pre-write of row (some handlers may do the actual write here) */ MARIA_RECORD_POS (*write_record_init)(MARIA_HA *, const uchar *); /* Write record (or accept write_record_init) */ my_bool (*write_record)(MARIA_HA *, const uchar *); /* Called when write failed */ my_bool (*write_record_abort)(MARIA_HA *); my_bool (*update_record)(MARIA_HA *, MARIA_RECORD_POS, const uchar *, const uchar *); my_bool (*delete_record)(MARIA_HA *, const uchar *record); my_bool (*compare_record)(MARIA_HA *, const uchar *); /* calculate checksum for a row */ ha_checksum(*calc_checksum)(MARIA_HA *, const uchar *); /* Calculate checksum for a row during write. May be 0 if we calculate the checksum in write_record_init() */ ha_checksum(*calc_write_checksum)(MARIA_HA *, const uchar *); /* calculate checksum for a row during check table */ ha_checksum(*calc_check_checksum)(MARIA_HA *, const uchar *); /* Compare a row in memory with a row on disk */ my_bool (*compare_unique)(MARIA_HA *, MARIA_UNIQUEDEF *, const uchar *record, MARIA_RECORD_POS pos); my_off_t (*keypos_to_recpos)(struct st_maria_share *share, my_off_t pos); my_off_t (*recpos_to_keypos)(struct st_maria_share *share, my_off_t pos); my_bool (*row_is_visible)(MARIA_HA *); /* Mapings to read/write the data file */ size_t (*file_read)(MARIA_HA *, uchar *, size_t, my_off_t, myf); size_t (*file_write)(MARIA_HA *, const uchar *, size_t, my_off_t, myf); /* query cache invalidator for merged tables */ invalidator_by_filename invalidator; /* query cache invalidator for changing state */ invalidator_by_filename chst_invalidator; my_off_t key_del_current; /* delete links for index pages */ ulong this_process; /* processid */ ulong last_process; /* For table-change-check */ ulong last_version; /* Version on start */ ulong options; /* Options used */ ulong min_pack_length; /* These are used by packed data */ ulong max_pack_length; ulong state_diff_length; uint rec_reflength; /* rec_reflength in use now */ uint keypage_header; uint32 ftkeys; /* Number of distinct full-text keys + 1 */ PAGECACHE_FILE kfile; /* Shared keyfile */ S3_INFO *s3_path; /* Connection and path in s3 */ File data_file; /* Shared data file */ int mode; /* mode of file on open */ uint reopen; /* How many times opened */ uint in_trans; /* Number of references by trn */ uint w_locks, r_locks, tot_locks; /* Number of read/write locks */ uint block_size; /* block_size of keyfile & data file*/ uint max_index_block_size; /* block_size - end_of_page_info */ /* Fixed length part of a packed row in BLOCK_RECORD format */ uint base_length; myf write_flag; enum data_file_type data_file_type; enum pagecache_page_type page_type; /* value depending transactional */ /** if Checkpoint looking at table; protected by close_lock or THR_LOCK_maria */ uint8 in_checkpoint; my_bool temporary; /* Below flag is needed to make log tables work with concurrent insert */ my_bool is_log_table; my_bool has_null_fields; my_bool has_varchar_fields; /* If table has varchar fields */ /* Set to 1 if open_count was wrong at open. Set to avoid asserts for wrong open count on close. */ my_bool open_count_not_zero_on_open; my_bool changed, /* If changed since lock */ global_changed, /* If changed since open */ not_flushed; my_bool internal_table; /* Internal tmp table */ my_bool lock_key_trees; /* If we have to lock trees on read */ my_bool non_transactional_concurrent_insert; my_bool delay_key_write; my_bool have_rtree; /** @brief if the table is transactional right now. It may have been created transactional (base.born_transactional==TRUE) but with transactionality (logging) temporarily disabled (now_transactional==FALSE). The opposite (FALSE, TRUE) is impossible. */ my_bool now_transactional; my_bool have_versioning; my_bool key_del_used; /* != 0 if key_del is locked */ my_bool deleting; /* we are going to delete this table */ my_bool redo_error_given; /* Used during recovery */ my_bool silence_encryption_errors; /* Used during recovery */ THR_LOCK lock; void (*lock_restore_status)(void *); /** Protects kfile, dfile, most members of the state, state disk writes, versioning information (like in_trans, state_history). @todo find the exhaustive list. */ mysql_mutex_t intern_lock; mysql_mutex_t key_del_lock; mysql_cond_t key_del_cond; /** _Always_ held while closing table; prevents checkpoint from looking at structures freed during closure (like bitmap). If you need close_lock and intern_lock, lock them in this order. */ mysql_mutex_t close_lock; my_off_t mmaped_length; uint nonmmaped_inserts; /* counter of writing in non-mmaped area */ MARIA_FILE_BITMAP bitmap; mysql_rwlock_t mmap_lock; LSN lsn_of_file_id; /**< LSN of its last LOGREC_FILE_ID */ /** Crypt data */ uint crypt_page_header_space; MARIA_CRYPT_DATA *crypt_data; /** Keep of track of last insert page, used to implement insert order */ uint last_insert_page; pgcache_page_no_t last_insert_bitmap; } MARIA_SHARE; typedef uchar MARIA_BITMAP_BUFFER; typedef struct st_maria_bitmap_block { pgcache_page_no_t page; /* Page number */ /* Number of continuous pages. TAIL_BIT is set if this is a tail page */ uint page_count; uint empty_space; /* Set for head and tail pages */ /* Number of BLOCKS for block-region (holds all non-blob-fields or one blob) */ uint sub_blocks; /* set to <> 0 in write_record() if this block was actually used */ uint8 used; uint8 org_bitmap_value; } MARIA_BITMAP_BLOCK; typedef struct st_maria_bitmap_blocks { MARIA_BITMAP_BLOCK *block; uint count; my_bool tail_page_skipped; /* If some tail pages was not used */ my_bool page_skipped; /* If some full pages was not used */ } MARIA_BITMAP_BLOCKS; /* Data about the currently read row */ typedef struct st_maria_row { MARIA_BITMAP_BLOCKS insert_blocks; MARIA_BITMAP_BUFFER *extents; MARIA_RECORD_POS lastpos, nextpos; MARIA_RECORD_POS *tail_positions; ha_checksum checksum; LSN orig_undo_lsn; /* Lsn at start of row insert */ TrID trid; /* Transaction id for current row */ uchar *empty_bits, *field_lengths; uint *null_field_lengths; /* All null field lengths */ ulong *blob_lengths; /* Length for each blob */ ulong min_length, normal_length, char_length, varchar_length; ulong blob_length, total_length; size_t extents_buffer_length; /* Size of 'extents' buffer */ uint head_length, header_length; uint field_lengths_length; /* Length of data in field_lengths */ uint extents_count; /* number of extents in 'extents' */ uint full_page_count, tail_count; /* For maria_chk */ uint space_on_head_page; } MARIA_ROW; /* Data to scan row in blocked format */ typedef struct st_maria_block_scan { uchar *bitmap_buff, *bitmap_pos, *bitmap_end, *page_buff; uchar *dir, *dir_end; pgcache_page_no_t bitmap_page, max_page; ulonglong bits; uint number_of_rows, bit_pos; MARIA_RECORD_POS row_base_page; ulonglong row_changes; } MARIA_BLOCK_SCAN; struct st_maria_handler { MARIA_SHARE *s; /* Shared between open:s */ struct st_ma_transaction *trn; /* Pointer to active transaction */ struct st_maria_handler *trn_next,**trn_prev; MARIA_STATUS_INFO *state, state_save; MARIA_STATUS_INFO *state_start; /* State at start of transaction */ MARIA_USED_TABLES *used_tables; struct ms3_st *s3; void **stack_end_ptr; MARIA_ROW cur_row; /* The active row that we just read */ MARIA_ROW new_row; /* Storage for a row during update */ MARIA_KEY last_key; /* Last found key */ MARIA_BLOCK_SCAN scan, *scan_save; MARIA_BLOB *blobs; /* Pointer to blobs */ MARIA_BIT_BUFF bit_buff; DYNAMIC_ARRAY bitmap_blocks; DYNAMIC_ARRAY pinned_pages; /* accumulate indexfile changes between write's */ TREE *bulk_insert; LEX_CUSTRING *log_row_parts; /* For logging */ DYNAMIC_ARRAY *ft1_to_ft2; /* used only in ft1->ft2 conversion */ MEM_ROOT ft_memroot; /* used by the parser */ MYSQL_FTPARSER_PARAM *ftparser_param; /* share info between init/deinit */ void *external_ref; /* For MariaDB TABLE */ uchar *buff; /* page buffer */ uchar *keyread_buff; /* Buffer for last key read */ uchar *lastkey_buff; /* Last used search key */ uchar *lastkey_buff2; uchar *first_mbr_key; /* Searhed spatial key */ uchar *rec_buff; /* Temp buffer for recordpack */ uchar *blob_buff; /* Temp buffer for blobs */ uchar *int_keypos; /* Save position for next/previous */ uchar *int_maxpos; /* -""- */ uint keypos_offset; /* Tmp storage for offset int_keypos */ uint maxpos_offset; /* Tmp storage for offset int_maxpos */ uchar *update_field_data; /* Used by update in rows-in-block */ uint int_nod_flag; /* -""- */ uint32 int_keytree_version; /* -""- */ int (*read_record)(MARIA_HA *, uchar*, MARIA_RECORD_POS); invalidator_by_filename invalidator; /* query cache invalidator */ ulonglong last_auto_increment; /* auto value at start of statement */ ulonglong row_changes; /* Incremented for each change */ ulonglong start_row_changes; /* Row changes since start trans */ ulong this_unique; /* uniq filenumber or thread */ ulong last_unique; /* last unique number */ ulong this_loop; /* counter for this open */ ulong last_loop; /* last used counter */ MARIA_RECORD_POS save_lastpos; MARIA_RECORD_POS dup_key_pos; TrID dup_key_trid; my_off_t pos; /* Intern variable */ my_off_t last_keypage; /* Last key page read */ my_off_t last_search_keypage; /* Last keypage when searching */ /* QQ: the folloing two xxx_length fields should be removed, as they are not compatible with parallel repair */ ulong packed_length, blob_length; /* Length of found, packed record */ size_t rec_buff_size, blob_buff_size; PAGECACHE_FILE dfile; /* The datafile */ IO_CACHE rec_cache; /* When cacheing records */ LIST open_list; LIST share_list; MY_BITMAP changed_fields; ulong row_base_length; /* Length of row header */ uint row_flag; /* Flag to store in row header */ uint opt_flag; /* Optim. for space/speed */ uint open_flags; /* Flags used in open() */ uint update; /* If file changed since open */ int lastinx; /* Last used index */ uint last_rkey_length; /* Last length in maria_rkey() */ uint *last_rtree_keypos; /* Last key positions for rtrees */ uint bulk_insert_ref_length; /* Lenght of row ref during bi */ uint non_flushable_state; enum ha_rkey_function last_key_func; /* CONTAIN, OVERLAP, etc */ uint save_lastkey_data_length; uint save_lastkey_ref_length; uint pack_key_length; /* For MARIA_MRG */ myf lock_wait; /* is 0 or MY_SHORT_WAIT */ int errkey; /* Got last error on this key */ int lock_type; /* How database was locked */ int tmp_lock_type; /* When locked by readinfo */ uint data_changed; /* Somebody has changed data */ uint save_update; /* When using KEY_READ */ int save_lastinx; uint preload_buff_size; /* When preloading indexes */ uint16 last_used_keyseg; /* For MARIAMRG */ uint8 key_del_used; /* != 0 if key_del is used */ my_bool was_locked; /* Was locked in panic */ my_bool intern_lock_locked; /* locked in ma_extra() */ my_bool append_insert_at_end; /* Set if concurrent insert */ my_bool quick_mode; my_bool in_check_table; /* We are running check tables */ /* Marker if key_del_changed */ /* If info->keyread_buff can't be used for rnext */ my_bool page_changed; /* If info->keyread_buff has to be re-read for rnext */ my_bool keyread_buff_used; my_bool once_flags; /* For MARIA_MRG */ /* For bulk insert enable/disable transactions control */ my_bool switched_transactional; /* If transaction will autocommit */ my_bool autocommit; #ifdef _WIN32 my_bool owned_by_merge; /* This Maria table is part of a merge union */ #endif THR_LOCK_DATA lock; uchar *maria_rtree_recursion_state; /* For RTREE */ uchar length_buff[5]; /* temp buff to store blob lengths */ int maria_rtree_recursion_depth; my_bool create_unique_index_by_sort; index_cond_func_t index_cond_func; /* Index condition function */ void *index_cond_func_arg; /* parameter for the func */ }; /* Table options for the Aria and S3 storage engine */ struct ha_table_option_struct { ulonglong s3_block_size; uint compression_algorithm; }; /* Some defines used by maria-functions */ #define USE_WHOLE_KEY 65535 /* Use whole key in _search() */ #define F_EXTRA_LCK -1 /* bits in opt_flag */ #define MEMMAP_USED 32U #define REMEMBER_OLD_POS 64U #define WRITEINFO_UPDATE_KEYFILE 1U #define WRITEINFO_NO_UNLOCK 2U /* once_flags */ #define USE_PACKED_KEYS 1U #define RRND_PRESERVE_LASTINX 2U /* bits in state.changed */ #define STATE_CHANGED 1U #define STATE_CRASHED 2U #define STATE_CRASHED_ON_REPAIR 4U #define STATE_NOT_ANALYZED 8U #define STATE_NOT_OPTIMIZED_KEYS 16U #define STATE_NOT_SORTED_PAGES 32U #define STATE_NOT_OPTIMIZED_ROWS 64U #define STATE_NOT_ZEROFILLED 128U #define STATE_NOT_MOVABLE 256U #define STATE_MOVED 512U /* set if base->uuid != maria_uuid */ #define STATE_IN_REPAIR 1024U /* We are running repair on table */ #define STATE_CRASHED_PRINTED 2048U #define STATE_DATA_FILE_FULL 4096U #define STATE_CRASHED_FLAGS (STATE_CRASHED | STATE_CRASHED_ON_REPAIR | STATE_CRASHED_PRINTED) /* options to maria_read_cache */ #define READING_NEXT 1U #define READING_HEADER 2U /* Number of bytes on key pages to indicate used size */ #define KEYPAGE_USED_SIZE 2U #define KEYPAGE_KEYID_SIZE 1U #define KEYPAGE_FLAG_SIZE 1U #define KEYPAGE_KEY_VERSION_SIZE 4U /* encryption */ #define KEYPAGE_CHECKSUM_SIZE 4U #define MAX_KEYPAGE_HEADER_SIZE (LSN_STORE_SIZE + KEYPAGE_USED_SIZE + \ KEYPAGE_KEYID_SIZE + KEYPAGE_FLAG_SIZE + \ TRANSID_SIZE + KEYPAGE_KEY_VERSION_SIZE) #define KEYPAGE_FLAG_ISNOD 1U #define KEYPAGE_FLAG_HAS_TRANSID 2U #define _ma_get_page_used(share,x) \ ((uint) mi_uint2korr((x) + (share)->keypage_header - KEYPAGE_USED_SIZE)) #define _ma_store_page_used(share,x,y) \ mi_int2store((x) + (share)->keypage_header - KEYPAGE_USED_SIZE, (y)) #define _ma_get_keypage_flag(share,x) x[(share)->keypage_header - KEYPAGE_USED_SIZE - KEYPAGE_FLAG_SIZE] #define _ma_test_if_nod(share,x) \ ((_ma_get_keypage_flag(share,x) & KEYPAGE_FLAG_ISNOD) ? (share)->base.key_reflength : 0) #define _ma_store_keynr(share, x, nr) x[(share)->keypage_header - KEYPAGE_KEYID_SIZE - KEYPAGE_FLAG_SIZE - KEYPAGE_USED_SIZE]= (nr) #define _ma_get_keynr(share, x) ((uchar) x[(share)->keypage_header - KEYPAGE_KEYID_SIZE - KEYPAGE_FLAG_SIZE - KEYPAGE_USED_SIZE]) #define _ma_store_transid(buff, transid) \ transid_store((buff) + LSN_STORE_SIZE, (transid)) #define _ma_korr_transid(buff) \ transid_korr((buff) + LSN_STORE_SIZE) #define _ma_store_keypage_flag(share,x,flag) x[(share)->keypage_header - KEYPAGE_USED_SIZE - KEYPAGE_FLAG_SIZE]= (flag) #define _ma_mark_page_with_transid(share, page) \ do { (page)->flag|= KEYPAGE_FLAG_HAS_TRANSID; \ (page)->buff[(share)->keypage_header - KEYPAGE_USED_SIZE - KEYPAGE_FLAG_SIZE]= (page)->flag; } while (0) #define KEYPAGE_KEY_VERSION(share, x) ((x) + \ (share)->keypage_header - \ (KEYPAGE_USED_SIZE + \ KEYPAGE_FLAG_SIZE + \ KEYPAGE_KEYID_SIZE + \ KEYPAGE_KEY_VERSION_SIZE)) #define _ma_get_key_version(share,x) \ ((uint) uint4korr(KEYPAGE_KEY_VERSION((share), (x)))) #define _ma_store_key_version(share,x,kv) \ int4store(KEYPAGE_KEY_VERSION((share), (x)), (kv)) /* TODO: write int4store_aligned as *((uint32 *) (T))= (uint32) (A) for architectures where it is possible */ #define int4store_aligned(A,B) int4store((A),(B)) #define maria_mark_crashed(x) do{(x)->s->state.changed|= STATE_CRASHED; \ DBUG_PRINT("error", ("Marked table crashed")); \ }while(0) #define maria_mark_crashed_share(x) \ do{(x)->state.changed|= STATE_CRASHED; \ DBUG_PRINT("error", ("Marked table crashed")); \ }while(0) #define maria_mark_crashed_on_repair(x) do{(x)->s->state.changed|= \ STATE_CRASHED|STATE_CRASHED_ON_REPAIR; \ (x)->update|= HA_STATE_CHANGED; \ DBUG_PRINT("error", ("Marked table crashed on repair")); \ }while(0) #define maria_mark_in_repair(x) do{(x)->s->state.changed|= \ STATE_CRASHED | STATE_IN_REPAIR; \ (x)->update|= HA_STATE_CHANGED; \ DBUG_PRINT("error", ("Marked table crashed for repair")); \ }while(0) #define maria_is_crashed(x) ((x)->s->state.changed & STATE_CRASHED) #define maria_is_crashed_on_repair(x) ((x)->s->state.changed & STATE_CRASHED_ON_REPAIR) #define maria_in_repair(x) ((x)->s->state.changed & STATE_IN_REPAIR) #ifdef EXTRA_DEBUG /** Brings additional information in certain debug builds and in standalone (non-ha_maria) programs. To help debugging. Not in ha_maria, to not spam the user (some messages can be produced many times per statement, or even wrongly during some repair operations). */ #define maria_print_error(SHARE, ERRNO) \ do{ if (!maria_in_ha_maria) \ _ma_report_error((ERRNO), &(SHARE)->index_file_name); } \ while(0) #else #define maria_print_error(SHARE, ERRNO) while (0) #endif #define DBUG_DUMP_KEY(name, key) DBUG_DUMP(name, (key)->data, (key)->data_length + (key)->ref_length) /* Functions to store length of space packed keys, VARCHAR or BLOB keys */ #define store_key_length(key,length) \ { if ((length) < 255) \ { *(key)=(length); } \ else \ { *(key)=255; mi_int2store((key)+1,(length)); } \ } #define get_key_full_length(length,key) \ { if (*(const uchar*) (key) != 255) \ length= ((uint) *(const uchar*) ((key)++))+1; \ else \ { length=mi_uint2korr((key)+1)+3; (key)+=3; } \ } #define get_key_full_length_rdonly(length,key) \ { if (*(const uchar*) (key) != 255) \ length= ((uint) *(const uchar*) ((key)))+1; \ else \ { length=mi_uint2korr((key)+1)+3; } \ } #define _ma_max_key_length() ((maria_block_size - MAX_KEYPAGE_HEADER_SIZE)/3 - MARIA_INDEX_OVERHEAD_SIZE) #define get_pack_length(length) ((length) >= 255 ? 3 : 1) #define _ma_have_versioning(info) ((info)->row_flag & ROW_FLAG_TRANSID) #define MARIA_MIN_BLOCK_LENGTH 20 /* Because of delete-link */ /* Don't use to small record-blocks */ #define MARIA_EXTEND_BLOCK_LENGTH 20 #define MARIA_SPLIT_LENGTH ((MARIA_EXTEND_BLOCK_LENGTH+4)*2) /* Max prefix of record-block */ #define MARIA_MAX_DYN_BLOCK_HEADER 20 #define MARIA_BLOCK_INFO_HEADER_LENGTH 20 #define MARIA_DYN_DELETE_BLOCK_HEADER 20 /* length of delete-block-header */ #define MARIA_DYN_MAX_BLOCK_LENGTH ((1L << 24)-4L) #define MARIA_DYN_MAX_ROW_LENGTH (MARIA_DYN_MAX_BLOCK_LENGTH - MARIA_SPLIT_LENGTH) #define MARIA_DYN_ALIGN_SIZE 4 /* Align blocks on this */ #define MARIA_MAX_DYN_HEADER_BYTE 13 /* max header uchar for dynamic rows */ #define MARIA_MAX_BLOCK_LENGTH ((((ulong) 1 << 24)-1) & (~ (ulong) (MARIA_DYN_ALIGN_SIZE-1))) #define MARIA_REC_BUFF_OFFSET ALIGN_SIZE(MARIA_DYN_DELETE_BLOCK_HEADER+sizeof(uint32)) #define MEMMAP_EXTRA_MARGIN 7 /* Write this as a suffix for file */ #define PACK_TYPE_SELECTED 1U /* Bits in field->pack_type */ #define PACK_TYPE_SPACE_FIELDS 2U #define PACK_TYPE_ZERO_FILL 4U #define MARIA_FOUND_WRONG_KEY INT_MAX32 /* Impossible value from ha_key_cmp */ #define MARIA_BLOCK_SIZE(key_length,data_pointer,key_pointer,block_size) (((((key_length)+(data_pointer)+(key_pointer))*4+(key_pointer)+2)/(block_size)+1)*(block_size)) #define MARIA_MAX_KEYPTR_SIZE 5 /* For calculating block lengths */ /* Marker for impossible delete link */ #define IMPOSSIBLE_PAGE_NO 0xFFFFFFFFFFLL /* The UNIQUE check is done with a hashed long key */ #define MARIA_UNIQUE_HASH_TYPE HA_KEYTYPE_ULONG_INT #define maria_unique_store(A,B) mi_int4store((A),(B)) extern mysql_mutex_t THR_LOCK_maria; #ifdef DONT_USE_RW_LOCKS #define mysql_rwlock_wrlock(A) {} #define mysql_rwlock_rdlock(A) {} #define mysql_rwlock_unlock(A) {} #endif /* Some tuning parameters */ #define MARIA_MIN_KEYBLOCK_LENGTH 50 /* When to split delete blocks */ #define MARIA_MIN_SIZE_BULK_INSERT_TREE 16384U /* this is per key */ #define MARIA_MIN_ROWS_TO_USE_BULK_INSERT 100 #define MARIA_MIN_ROWS_TO_DISABLE_INDEXES 100 #define MARIA_MIN_ROWS_TO_USE_WRITE_CACHE 10 /* Keep a small buffer for tables only using small blobs */ #define MARIA_SMALL_BLOB_BUFFER 1024U #define MARIA_MAX_CONTROL_FILE_LOCK_RETRY 30 /* Retry this many times */ /* Some extern variables */ extern LIST *maria_open_list; extern uchar maria_file_magic[], maria_pack_file_magic[]; extern uchar maria_uuid[MY_UUID_SIZE]; extern uint32 maria_read_vec[], maria_readnext_vec[]; extern uint maria_quick_table_bits; extern const char *maria_data_root; extern uchar maria_zero_string[]; extern my_bool maria_inited, maria_in_ha_maria, maria_recovery_changed_data; extern my_bool maria_recovery_verbose, maria_checkpoint_disabled; extern my_bool maria_assert_if_crashed_table, aria_readonly; extern ulong maria_checkpoint_min_log_activity; extern HASH maria_stored_state; extern int (*maria_create_trn_hook)(MARIA_HA *); extern my_bool (*ma_killed)(MARIA_HA *); extern void (*ma_debug_crash_here)(const char *keyword); #ifdef HAVE_PSI_INTERFACE extern PSI_mutex_key key_SHARE_BITMAP_lock, key_SORT_INFO_mutex, key_THR_LOCK_maria, key_TRANSLOG_BUFFER_mutex, key_LOCK_soft_sync, key_TRANSLOG_DESCRIPTOR_dirty_buffer_mask_lock, key_TRANSLOG_DESCRIPTOR_sent_to_disk_lock, key_TRANSLOG_DESCRIPTOR_log_flush_lock, key_TRANSLOG_DESCRIPTOR_file_header_lock, key_TRANSLOG_DESCRIPTOR_unfinished_files_lock, key_TRANSLOG_DESCRIPTOR_purger_lock, key_SHARE_intern_lock, key_SHARE_key_del_lock, key_SHARE_close_lock, key_SERVICE_THREAD_CONTROL_lock, key_PAGECACHE_cache_lock; extern PSI_mutex_key key_CRYPT_DATA_lock; extern PSI_cond_key key_SHARE_key_del_cond, key_SERVICE_THREAD_CONTROL_cond, key_SORT_INFO_cond, key_SHARE_BITMAP_cond, key_COND_soft_sync, key_TRANSLOG_BUFFER_waiting_filling_buffer, key_TRANSLOG_BUFFER_prev_sent_to_disk_cond, key_TRANSLOG_DESCRIPTOR_log_flush_cond, key_TRANSLOG_DESCRIPTOR_new_goal_cond; extern PSI_rwlock_key key_KEYINFO_root_lock, key_SHARE_mmap_lock, key_TRANSLOG_DESCRIPTOR_open_files_lock; extern PSI_thread_key key_thread_checkpoint, key_thread_find_all_keys, key_thread_soft_sync; extern PSI_file_key key_file_translog, key_file_kfile, key_file_dfile, key_file_control, key_file_tmp; #endif /* Note that PSI_stage_info globals must always be declared. */ extern PSI_stage_info stage_waiting_for_a_resource; /* This is used by _ma_calc_xxx_key_length och _ma_store_key */ typedef struct st_maria_s_param { const uchar *key; uchar *prev_key, *next_key_pos; uchar *key_pos; /* For balance page */ uint ref_length, key_length, n_ref_length; uint n_length, totlength, part_of_prev_key, prev_length, pack_marker; uint changed_length; int move_length; /* For balance_page */ my_bool store_not_null; } MARIA_KEY_PARAM; /* Used to store reference to pinned page */ typedef struct st_pinned_page { PAGECACHE_BLOCK_LINK *link; enum pagecache_page_lock unlock, write_lock; my_bool changed; } MARIA_PINNED_PAGE; /* Keeps all information about a page and related to a page */ typedef struct st_maria_page { MARIA_HA *info; const MARIA_KEYDEF *keyinfo; uchar *buff; /* Data for page */ my_off_t pos; /* Disk address to page */ uint size; /* Size of data on page */ uint org_size; /* Size of page at read or after log */ uint node; /* 0 or share->base.key_reflength */ uint flag; /* Page flag */ uint link_offset; } MARIA_PAGE; /* Prototypes for intern functions */ extern int _ma_read_dynamic_record(MARIA_HA *, uchar *, MARIA_RECORD_POS); extern int _ma_read_rnd_dynamic_record(MARIA_HA *, uchar *, MARIA_RECORD_POS, my_bool); extern my_bool _ma_write_dynamic_record(MARIA_HA *, const uchar *); extern my_bool _ma_update_dynamic_record(MARIA_HA *, MARIA_RECORD_POS, const uchar *, const uchar *); extern my_bool _ma_delete_dynamic_record(MARIA_HA *info, const uchar *record); extern my_bool _ma_cmp_dynamic_record(MARIA_HA *info, const uchar *record); extern my_bool _ma_write_blob_record(MARIA_HA *, const uchar *); extern my_bool _ma_update_blob_record(MARIA_HA *, MARIA_RECORD_POS, const uchar *, const uchar *); extern int _ma_read_static_record(MARIA_HA *info, uchar *, MARIA_RECORD_POS); extern int _ma_read_rnd_static_record(MARIA_HA *, uchar *, MARIA_RECORD_POS, my_bool); extern my_bool _ma_write_static_record(MARIA_HA *, const uchar *); extern my_bool _ma_update_static_record(MARIA_HA *, MARIA_RECORD_POS, const uchar *, const uchar *); extern my_bool _ma_delete_static_record(MARIA_HA *info, const uchar *record); extern my_bool _ma_cmp_static_record(MARIA_HA *info, const uchar *record); extern my_bool _ma_write_no_record(MARIA_HA *info, const uchar *record); extern my_bool _ma_update_no_record(MARIA_HA *info, MARIA_RECORD_POS pos, const uchar *oldrec, const uchar *record); extern my_bool _ma_delete_no_record(MARIA_HA *info, const uchar *record); extern int _ma_read_no_record(MARIA_HA *info, uchar *record, MARIA_RECORD_POS pos); extern int _ma_read_rnd_no_record(MARIA_HA *info, uchar *buf, MARIA_RECORD_POS filepos, my_bool skip_deleted_blocks); my_off_t _ma_no_keypos_to_recpos(MARIA_SHARE *share, my_off_t pos); extern my_bool _ma_ck_write(MARIA_HA *info, MARIA_KEY *key); extern my_bool _ma_enlarge_root(MARIA_HA *info, MARIA_KEY *key, MARIA_RECORD_POS *root); int _ma_insert(MARIA_HA *info, MARIA_KEY *key, MARIA_PAGE *anc_page, uchar *key_pos, uchar *key_buff, MARIA_PAGE *father_page, uchar *father_key_pos, my_bool insert_last); extern my_bool _ma_ck_real_write_btree(MARIA_HA *info, MARIA_KEY *key, MARIA_RECORD_POS *root, uint32 comp_flag); extern int _ma_split_page(MARIA_HA *info, MARIA_KEY *key, MARIA_PAGE *split_page, uint org_split_length, uchar *inserted_key_pos, uint changed_length, int move_length, uchar *key_buff, my_bool insert_last_key); extern uchar *_ma_find_half_pos(MARIA_KEY *key, MARIA_PAGE *page, uchar ** after_key); extern int _ma_calc_static_key_length(const MARIA_KEY *key, uint nod_flag, uchar *key_pos, uchar *org_key, uchar *key_buff, MARIA_KEY_PARAM *s_temp); extern int _ma_calc_var_key_length(const MARIA_KEY *key, uint nod_flag, uchar *key_pos, uchar *org_key, uchar *key_buff, MARIA_KEY_PARAM *s_temp); extern int _ma_calc_var_pack_key_length(const MARIA_KEY *key, uint nod_flag, uchar *next_key, uchar *org_key, uchar *prev_key, MARIA_KEY_PARAM *s_temp); extern int _ma_calc_bin_pack_key_length(const MARIA_KEY *key, uint nod_flag, uchar *next_key, uchar *org_key, uchar *prev_key, MARIA_KEY_PARAM *s_temp); extern void _ma_store_static_key(MARIA_KEYDEF *keyinfo, uchar *key_pos, MARIA_KEY_PARAM *s_temp); extern void _ma_store_var_pack_key(MARIA_KEYDEF *keyinfo, uchar *key_pos, MARIA_KEY_PARAM *s_temp); #ifdef NOT_USED extern void _ma_store_pack_key(MARIA_KEYDEF *keyinfo, uchar *key_pos, MARIA_KEY_PARAM *s_temp); #endif extern void _ma_store_bin_pack_key(MARIA_KEYDEF *keyinfo, uchar *key_pos, MARIA_KEY_PARAM *s_temp); extern my_bool _ma_ck_delete(MARIA_HA *info, MARIA_KEY *key); extern my_bool _ma_ck_real_delete(MARIA_HA *info, MARIA_KEY *key, my_off_t *root); extern int _ma_readinfo(MARIA_HA *info, int lock_flag, int check_keybuffer); extern int _ma_writeinfo(MARIA_HA *info, uint options); extern int _ma_test_if_changed(MARIA_HA *info); extern int _ma_mark_file_changed(MARIA_SHARE *info); extern int _ma_mark_file_changed_now(MARIA_SHARE *info); extern void _ma_mark_file_crashed(MARIA_SHARE *share); void _ma_set_fatal_error(MARIA_SHARE *share, int error); extern my_bool _ma_set_uuid(MARIA_SHARE *info, my_bool reset_uuid); extern my_bool _ma_check_if_zero(uchar *pos, size_t size); extern int _ma_decrement_open_count(MARIA_HA *info, my_bool lock_table); extern int _ma_check_index(MARIA_HA *info, int inx); extern int _ma_search(MARIA_HA *info, MARIA_KEY *key, uint32 nextflag, my_off_t pos); extern int _ma_bin_search(const MARIA_KEY *key, const MARIA_PAGE *page, uint32 comp_flag, uchar **ret_pos, uchar *buff, my_bool *was_last_key); extern int _ma_seq_search(const MARIA_KEY *key, const MARIA_PAGE *page, uint comp_flag, uchar ** ret_pos, uchar *buff, my_bool *was_last_key); extern int _ma_prefix_search(const MARIA_KEY *key, const MARIA_PAGE *page, uint32 comp_flag, uchar ** ret_pos, uchar *buff, my_bool *was_last_key); extern my_off_t _ma_kpos(uint nod_flag, const uchar *after_key); extern void _ma_kpointer(MARIA_HA *info, uchar *buff, my_off_t pos); MARIA_RECORD_POS _ma_row_pos_from_key(const MARIA_KEY *key); TrID _ma_trid_from_key(const MARIA_KEY *key); extern MARIA_RECORD_POS _ma_rec_pos(MARIA_SHARE *share, uchar *ptr); extern void _ma_dpointer(MARIA_SHARE *share, uchar *buff, MARIA_RECORD_POS pos); extern uint _ma_get_static_key(MARIA_KEY *key, uint page_flag, uint nod_flag, uchar **page); extern uchar *_ma_skip_static_key(MARIA_KEY *key, uint page_flag, uint nod_flag, uchar *page); extern uint _ma_get_pack_key(MARIA_KEY *key, uint page_flag, uint nod_flag, uchar **page); extern uchar *_ma_skip_pack_key(MARIA_KEY *key, uint page_flag, uint nod_flag, uchar *page); extern uint _ma_get_binary_pack_key(MARIA_KEY *key, uint page_flag, uint nod_flag, uchar **page_pos); uchar *_ma_skip_binary_pack_key(MARIA_KEY *key, uint page_flag, uint nod_flag, uchar *page); extern uchar *_ma_get_last_key(MARIA_KEY *key, MARIA_PAGE *page, uchar *endpos); extern uchar *_ma_get_key(MARIA_KEY *key, MARIA_PAGE *page, uchar *keypos); extern uint _ma_keylength(MARIA_KEYDEF *keyinfo, const uchar *key); extern uint _ma_keylength_part(MARIA_KEYDEF *keyinfo, const uchar *key, HA_KEYSEG *end); extern int _ma_search_next(MARIA_HA *info, MARIA_KEY *key, uint32 nextflag, my_off_t pos); extern int _ma_search_first(MARIA_HA *info, MARIA_KEYDEF *keyinfo, my_off_t pos); extern int _ma_search_last(MARIA_HA *info, MARIA_KEYDEF *keyinfo, my_off_t pos); extern my_off_t _ma_static_keypos_to_recpos(MARIA_SHARE *share, my_off_t pos); extern my_off_t _ma_static_recpos_to_keypos(MARIA_SHARE *share, my_off_t pos); extern my_off_t _ma_transparent_recpos(MARIA_SHARE *share, my_off_t pos); extern my_off_t _ma_transaction_keypos_to_recpos(MARIA_SHARE *, my_off_t pos); extern my_off_t _ma_transaction_recpos_to_keypos(MARIA_SHARE *, my_off_t pos); extern void _ma_page_setup(MARIA_PAGE *page, MARIA_HA *info, const MARIA_KEYDEF *keyinfo, my_off_t pos, uchar *buff); extern my_bool _ma_fetch_keypage(MARIA_PAGE *page, MARIA_HA *info, const MARIA_KEYDEF *keyinfo, my_off_t pos, enum pagecache_page_lock lock, int level, uchar *buff, my_bool return_buffer); extern my_bool _ma_write_keypage(MARIA_PAGE *page, enum pagecache_page_lock lock, int level); extern int _ma_dispose(MARIA_HA *info, my_off_t pos, my_bool page_not_read); extern my_off_t _ma_new(MARIA_HA *info, int level, MARIA_PINNED_PAGE **page_link); extern my_bool _ma_compact_keypage(MARIA_PAGE *page, TrID min_read_from); extern uint transid_store_packed(MARIA_HA *info, uchar *to, ulonglong trid); extern ulonglong transid_get_packed(MARIA_SHARE *share, const uchar *from); #define transid_packed_length(data) \ ((data)[0] < MARIA_MIN_TRANSID_PACK_OFFSET ? 1 : \ (uint) ((uchar) (data)[0]) - (MARIA_TRANSID_PACK_OFFSET - 1)) #define key_has_transid(key) (*(key) & 1) #define page_mark_changed(info, page) \ dynamic_element(&(info)->pinned_pages, (page)->link_offset, \ MARIA_PINNED_PAGE*)->changed= 1; #define page_store_size(share, page) \ _ma_store_page_used((share), (page)->buff, (page)->size); #define page_store_info(share, page) \ _ma_store_keypage_flag((share), (page)->buff, (page)->flag); \ _ma_store_page_used((share), (page)->buff, (page)->size); #ifdef IDENTICAL_PAGES_AFTER_RECOVERY void page_cleanup(MARIA_SHARE *share, MARIA_PAGE *page) #else #define page_cleanup(A,B) do { } while (0) #endif extern MARIA_KEY *_ma_make_key(MARIA_HA *info, MARIA_KEY *int_key, uint keynr, uchar *key, const uchar *record, MARIA_RECORD_POS filepos, ulonglong trid); extern MARIA_KEY *_ma_pack_key(MARIA_HA *info, MARIA_KEY *int_key, uint keynr, uchar *key, const uchar *old, key_part_map keypart_map, HA_KEYSEG ** last_used_keyseg); extern void _ma_copy_key(MARIA_KEY *to, const MARIA_KEY *from); extern int _ma_read_key_record(MARIA_HA *info, uchar *buf, MARIA_RECORD_POS); extern my_bool _ma_read_cache(MARIA_HA *, IO_CACHE *info, uchar *buff, MARIA_RECORD_POS pos, size_t length, uint re_read_if_possibly); extern ulonglong ma_retrieve_auto_increment(const uchar *key, uint8 key_type); extern my_bool _ma_alloc_buffer(uchar **old_addr, size_t *old_size, size_t new_size, myf flag); extern size_t _ma_rec_unpack(MARIA_HA *info, uchar *to, uchar *from, size_t reclength); extern my_bool _ma_rec_check(MARIA_HA *info, const uchar *record, uchar *packpos, ulong packed_length, my_bool with_checkum, ha_checksum checksum); extern int _ma_write_part_record(MARIA_HA *info, my_off_t filepos, ulong length, my_off_t next_filepos, uchar ** record, ulong *reclength, int *flag); extern void _ma_print_key(FILE *stream, MARIA_KEY *key); extern void _ma_print_keydata(FILE *stream, HA_KEYSEG *keyseg, const uchar *key, uint length); extern my_bool _ma_once_init_pack_row(MARIA_SHARE *share, File dfile); extern my_bool _ma_once_end_pack_row(MARIA_SHARE *share); extern int _ma_read_pack_record(MARIA_HA *info, uchar *buf, MARIA_RECORD_POS filepos); extern int _ma_read_rnd_pack_record(MARIA_HA *, uchar *, MARIA_RECORD_POS, my_bool); extern int _ma_pack_rec_unpack(MARIA_HA *info, MARIA_BIT_BUFF *bit_buff, uchar *to, uchar *from, ulong reclength); extern ulonglong _ma_safe_mul(ulonglong a, ulonglong b); extern int _ma_ft_update(MARIA_HA *info, uint keynr, uchar *keybuf, const uchar *oldrec, const uchar *newrec, my_off_t pos); /* Parameter to _ma_get_block_info The dynamic row header is read into this struct. For an explanation of the fields, look at the function _ma_get_block_info(). */ typedef struct st_maria_block_info { uchar header[MARIA_BLOCK_INFO_HEADER_LENGTH]; ulong rec_len; ulong data_len; ulong block_len; ulong blob_len; MARIA_RECORD_POS filepos; MARIA_RECORD_POS next_filepos; MARIA_RECORD_POS prev_filepos; uint second_read; uint offset; } MARIA_BLOCK_INFO; /* bits in return from _ma_get_block_info */ #define BLOCK_FIRST 1U #define BLOCK_LAST 2U #define BLOCK_DELETED 4U #define BLOCK_ERROR 8U /* Wrong data */ #define BLOCK_SYNC_ERROR 16U /* Right data at wrong place */ #define BLOCK_FATAL_ERROR 32U /* hardware-error */ #define NEED_MEM ((uint) 10*4*(IO_SIZE+32)+32) /* Nead for recursion */ #define MAXERR 20 #define BUFFERS_WHEN_SORTING 16 /* Alloc for sort-key-tree */ #define WRITE_COUNT MY_HOW_OFTEN_TO_WRITE #define INDEX_TMP_EXT ".TMM" #define DATA_TMP_EXT ".TMD" #define UPDATE_TIME 1U #define UPDATE_STAT 2U #define UPDATE_SORT 4U #define UPDATE_AUTO_INC 8U #define UPDATE_OPEN_COUNT 16U /* We use MY_ALIGN_DOWN here mainly to ensure that we get stable values for mysqld --help ) */ #define PAGE_BUFFER_INIT MY_ALIGN_DOWN(1024L*1024L*256L-MALLOC_OVERHEAD, 8192) #define READ_BUFFER_INIT MY_ALIGN_DOWN(1024L*256L-MALLOC_OVERHEAD, 1024) #define SORT_BUFFER_INIT MY_ALIGN_DOWN(1024L*1024L*256L-MALLOC_OVERHEAD, 1024) #define MIN_SORT_BUFFER 4096U #define fast_ma_writeinfo(INFO) if (!(INFO)->s->tot_locks) (void) _ma_writeinfo((INFO),0) #define fast_ma_readinfo(INFO) ((INFO)->lock_type == F_UNLCK) && _ma_readinfo((INFO),F_RDLCK,1) extern uint _ma_get_block_info(MARIA_HA *, MARIA_BLOCK_INFO *, File, my_off_t); extern uint _ma_rec_pack(MARIA_HA *info, uchar *to, const uchar *from); extern uint _ma_pack_get_block_info(MARIA_HA *maria, MARIA_BIT_BUFF *bit_buff, MARIA_BLOCK_INFO *info, uchar **rec_buff_p, size_t *rec_buff_size, File file, my_off_t filepos); extern void _ma_store_blob_length(uchar *pos, uint pack_length, uint length); extern void _ma_report_error(int errcode, const LEX_STRING *file_name); extern my_bool _ma_memmap_file(MARIA_HA *info); extern void _ma_unmap_file(MARIA_HA *info); extern uint _ma_save_pack_length(uint version, uchar * block_buff, ulong length); extern uint _ma_calc_pack_length(uint version, ulong length); extern ulong _ma_calc_blob_length(uint length, const uchar *pos); extern size_t _ma_mmap_pread(MARIA_HA *info, uchar *Buffer, size_t Count, my_off_t offset, myf MyFlags); extern size_t _ma_mmap_pwrite(MARIA_HA *info, const uchar *Buffer, size_t Count, my_off_t offset, myf MyFlags); extern size_t _ma_nommap_pread(MARIA_HA *info, uchar *Buffer, size_t Count, my_off_t offset, myf MyFlags); extern size_t _ma_nommap_pwrite(MARIA_HA *info, const uchar *Buffer, size_t Count, my_off_t offset, myf MyFlags); /* my_pwrite instead of my_write used */ #define MA_STATE_INFO_WRITE_DONT_MOVE_OFFSET 1 /* info should be written */ #define MA_STATE_INFO_WRITE_FULL_INFO 2 /* intern_lock taking is needed */ #define MA_STATE_INFO_WRITE_LOCK 4 uint _ma_state_info_write(MARIA_SHARE *share, uint pWrite)__attribute__((visibility("default"))) ; uint _ma_state_info_write_sub(File file, MARIA_STATE_INFO *state, uint pWrite); uint _ma_state_info_read_dsk(File file, MARIA_STATE_INFO *state); uint _ma_base_info_write(File file, MARIA_BASE_INFO *base); my_bool _ma_keyseg_write(File file, const HA_KEYSEG *keyseg); uchar *_ma_keyseg_read(uchar *ptr, HA_KEYSEG *keyseg); my_bool _ma_keydef_write(File file, MARIA_KEYDEF *keydef); uchar *_ma_keydef_read(uchar *ptr, MARIA_KEYDEF *keydef); my_bool _ma_uniquedef_write(File file, MARIA_UNIQUEDEF *keydef); uchar *_ma_uniquedef_read(uchar *ptr, MARIA_UNIQUEDEF *keydef); my_bool _ma_columndef_write(File file, MARIA_COLUMNDEF *columndef); uchar *_ma_columndef_read(uchar *ptr, MARIA_COLUMNDEF *columndef); my_bool _ma_column_nr_write(File file, uint16 *offsets, uint columns); uchar *_ma_column_nr_read(uchar *ptr, uint16 *offsets, uint columns); ulong _ma_calc_total_blob_length(MARIA_HA *info, const uchar *record); ha_checksum _ma_checksum(MARIA_HA *info, const uchar *buf); ha_checksum _ma_static_checksum(MARIA_HA *info, const uchar *buf); my_bool _ma_check_unique(MARIA_HA *info, MARIA_UNIQUEDEF *def, const uchar *record, ha_checksum unique_hash, MARIA_RECORD_POS pos); ha_checksum _ma_unique_hash(MARIA_UNIQUEDEF *def, const uchar *buf); my_bool _ma_cmp_static_unique(MARIA_HA *info, MARIA_UNIQUEDEF *def, const uchar *record, MARIA_RECORD_POS pos); my_bool _ma_cmp_dynamic_unique(MARIA_HA *info, MARIA_UNIQUEDEF *def, const uchar *record, MARIA_RECORD_POS pos); my_bool _ma_unique_comp(MARIA_UNIQUEDEF *def, const uchar *a, const uchar *b, my_bool null_are_equal); void _ma_reset_status(MARIA_HA *maria); int _ma_def_scan_remember_pos(MARIA_HA *info, MARIA_RECORD_POS *lastpos); int _ma_def_scan_restore_pos(MARIA_HA *info, MARIA_RECORD_POS lastpos); #include "ma_commit.h" extern MARIA_HA *_ma_test_if_reopen(const char *filename); my_bool _ma_check_table_is_closed(const char *name, const char *where); int _ma_open_datafile(MARIA_HA *info, MARIA_SHARE *share); int _ma_open_keyfile(MARIA_SHARE *share); void _ma_setup_functions(MARIA_SHARE *share); my_bool _ma_dynmap_file(MARIA_HA *info, my_off_t size); void _ma_remap_file(MARIA_HA *info, my_off_t size); MARIA_RECORD_POS _ma_write_init_default(MARIA_HA *info, const uchar *record); my_bool _ma_write_abort_default(MARIA_HA *info); int maria_delete_table_files(const char *name, my_bool temporary, myf flags)__attribute__((visibility("default"))) ; /* This cannot be in my_base.h as it clashes with HA_SPATIAL. But it was introduced for Aria engine, and is only used there. So it can safely stay here, only visible to Aria */ #define HA_RTREE_INDEX 16384 /* For RTREE search */ #define MARIA_FLUSH_DATA 1 #define MARIA_FLUSH_INDEX 2 int _ma_flush_table_files(MARIA_HA *info, uint flush_data_or_index, enum flush_type flush_type_for_data, enum flush_type flush_type_for_index); /* Functions needed by _ma_check (are overridden in MySQL/ha_maria.cc). See ma_check_standalone.h . */ int _ma_killed_ptr(HA_CHECK *param); void _ma_report_progress(HA_CHECK *param, ulonglong progress, ulonglong max_progress); void _ma_check_print_error(HA_CHECK *param, const char *fmt, ...) ATTRIBUTE_FORMAT(printf, 2, 3); void _ma_check_print_warning(HA_CHECK *param, const char *fmt, ...) ATTRIBUTE_FORMAT(printf, 2, 3); void _ma_check_print_info(HA_CHECK *param, const char *fmt, ...) ATTRIBUTE_FORMAT(printf, 2, 3); my_bool write_log_record_for_repair(const HA_CHECK *param, MARIA_HA *info); int _ma_flush_pending_blocks(MARIA_SORT_PARAM *param); int _ma_sort_ft_buf_flush(MARIA_SORT_PARAM *sort_param); int _ma_thr_write_keys(MARIA_SORT_PARAM *sort_param); pthread_handler_t _ma_thr_find_all_keys(void *arg); int _ma_sort_write_record(MARIA_SORT_PARAM *sort_param); int _ma_create_index_by_sort(MARIA_SORT_PARAM *info, my_bool no_messages, size_t); int _ma_sync_table_files(const MARIA_HA *info); int _ma_initialize_data_file(MARIA_SHARE *share, File dfile); int _ma_update_state_lsns(MARIA_SHARE *share, LSN lsn, TrID create_trid, my_bool do_sync, my_bool update_create_rename_lsn); int _ma_update_state_lsns_sub(MARIA_SHARE *share, LSN lsn, TrID create_trid, my_bool do_sync, my_bool update_create_rename_lsn); void _ma_set_data_pagecache_callbacks(PAGECACHE_FILE *file, MARIA_SHARE *share); void _ma_set_index_pagecache_callbacks(PAGECACHE_FILE *file, MARIA_SHARE *share); void _ma_tmp_disable_logging_for_table(MARIA_HA *info, my_bool log_incomplete); my_bool _ma_reenable_logging_for_table(MARIA_HA *info, my_bool flush_pages); my_bool write_log_record_for_bulk_insert(MARIA_HA *info); void _ma_unpin_all_pages(MARIA_HA *info, LSN undo_lsn); #define MARIA_NO_CRC_NORMAL_PAGE 0xffffffff #define MARIA_NO_CRC_BITMAP_PAGE 0xfffffffe extern my_bool maria_page_crc_set_index(PAGECACHE_IO_HOOK_ARGS *args); extern my_bool maria_page_crc_set_normal(PAGECACHE_IO_HOOK_ARGS *args); extern my_bool maria_page_crc_check_bitmap(int, PAGECACHE_IO_HOOK_ARGS *args); extern my_bool maria_page_crc_check_data(int, PAGECACHE_IO_HOOK_ARGS *args); extern my_bool maria_page_crc_check_index(int, PAGECACHE_IO_HOOK_ARGS *args); extern my_bool maria_page_crc_check_none(int, PAGECACHE_IO_HOOK_ARGS *args); extern my_bool maria_page_crc_check(uchar *page, pgcache_page_no_t page_no, MARIA_SHARE *share, uint32 no_crc_val, int data_length); extern my_bool maria_page_filler_set_bitmap(PAGECACHE_IO_HOOK_ARGS *args); extern my_bool maria_page_filler_set_normal(PAGECACHE_IO_HOOK_ARGS *args); extern my_bool maria_page_filler_set_none(PAGECACHE_IO_HOOK_ARGS *args); extern void maria_page_write_failure(int error, PAGECACHE_IO_HOOK_ARGS *args); extern my_bool maria_flush_log_for_page(PAGECACHE_IO_HOOK_ARGS *args); extern my_bool maria_flush_log_for_page_none(PAGECACHE_IO_HOOK_ARGS *args); extern PAGECACHE *maria_log_pagecache; extern void ma_set_index_cond_func(MARIA_HA *info, index_cond_func_t func, void *func_arg); check_result_t ma_check_index_cond(MARIA_HA *info, uint keynr, uchar *record); extern my_bool ma_yield_and_check_if_killed(MARIA_HA *info, int inx); extern my_bool ma_killed_standalone(MARIA_HA *); extern uint _ma_file_callback_to_id(void *callback_data); extern void free_maria_share(MARIA_SHARE *share); static inline void unmap_file(MARIA_HA *info __attribute__((unused))) { #ifdef HAVE_MMAP if (info->s->file_map) _ma_unmap_file(info); #endif } static inline void decrement_share_in_trans(MARIA_SHARE *share) { /* Internal tables doesn't have transactions */ DBUG_ASSERT(!share->internal_table); if (!--share->in_trans) free_maria_share(share); else mysql_mutex_unlock(&share->intern_lock); } C_MODE_END #endif