/***************************************************************************** Copyright (c) 2000, 2017, Oracle and/or its affiliates. All Rights Reserved. Copyright (c) 2013, 2022, 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, Fifth Floor, Boston, MA 02110-1335 USA *****************************************************************************/ #ifdef WITH_WSREP # include # include "../../../wsrep/wsrep_api.h" #endif /* WITH_WSREP */ #include "table.h" /* The InnoDB handler: the interface between MySQL and InnoDB. */ /** "GEN_CLUST_INDEX" is the name reserved for InnoDB default system clustered index when there is no primary key. */ extern const char innobase_index_reserve_name[]; /** Prebuilt structures in an InnoDB table handle used within MySQL */ struct row_prebuilt_t; /** InnoDB transaction */ struct trx_t; /** Engine specific table options are defined using this struct */ struct ha_table_option_struct { bool page_compressed; /*!< Table is using page compression if this option is true. */ ulonglong page_compression_level; /*!< Table page compression level 0-9. */ uint atomic_writes; /*!< Use atomic writes for this table if this options is ON or in DEFAULT if innodb_use_atomic_writes. Atomic writes are not used if value OFF.*/ uint encryption; /*!< DEFAULT, ON, OFF */ ulonglong encryption_key_id; /*!< encryption key id */ }; /* JAN: TODO: MySQL 5.7 handler.h */ struct st_handler_tablename { const char *db; const char *tablename; }; /** The class defining a handle to an Innodb table */ class ha_innobase: public handler { public: ha_innobase(handlerton* hton, TABLE_SHARE* table_arg); ~ha_innobase(); /** Get the row type from the storage engine. If this method returns ROW_TYPE_NOT_USED, the information in HA_CREATE_INFO should be used. */ enum row_type get_row_type() const; const char* table_type() const; const char* index_type(uint key_number); const char** bas_ext() const; Table_flags table_flags() const; ulong index_flags(uint idx, uint part, bool all_parts) const; uint max_supported_keys() const; uint max_supported_key_length() const; uint max_supported_key_part_length() const; const key_map* keys_to_use_for_scanning(); void column_bitmaps_signal(); /** Opens dictionary table object using table name. For partition, we need to try alternative lower/upper case names to support moving data files across platforms. @param[in] table_name name of the table/partition @param[in] norm_name normalized name of the table/partition @param[in] is_partition if this is a partition of a table @param[in] ignore_err error to ignore for loading dictionary object @return dictionary table object or NULL if not found */ static dict_table_t* open_dict_table( const char* table_name, const char* norm_name, bool is_partition, dict_err_ignore_t ignore_err); int open(const char *name, int mode, uint test_if_locked); handler* clone(const char *name, MEM_ROOT *mem_root); int close(void); double scan_time(); double read_time(uint index, uint ranges, ha_rows rows); int write_row(uchar * buf); int update_row(const uchar * old_data, const uchar * new_data); int delete_row(const uchar * buf); bool was_semi_consistent_read(); void try_semi_consistent_read(bool yes); void unlock_row(); int index_init(uint index, bool sorted); int index_end(); int index_read( uchar* buf, const uchar* key, uint key_len, ha_rkey_function find_flag); int index_read_last(uchar * buf, const uchar * key, uint key_len); int index_next(uchar * buf); int index_next_same(uchar * buf, const uchar *key, uint keylen); int index_prev(uchar * buf); int index_first(uchar * buf); int index_last(uchar * buf); /* Copy a cached MySQL row. If requested, also avoids overwriting non-read columns. */ void copy_cached_row(uchar *to_rec, const uchar *from_rec, uint rec_length); int rnd_init(bool scan); int rnd_end(); int rnd_next(uchar *buf); int rnd_pos(uchar * buf, uchar *pos); int ft_init(); void ft_end() { rnd_end(); } FT_INFO *ft_init_ext(uint flags, uint inx, String* key); int ft_read(uchar* buf); void position(const uchar *record); int info(uint); int analyze(THD* thd,HA_CHECK_OPT* check_opt); int optimize(THD* thd,HA_CHECK_OPT* check_opt); int discard_or_import_tablespace(my_bool discard); int extra(ha_extra_function operation); int reset(); int external_lock(THD *thd, int lock_type); int start_stmt(THD *thd, thr_lock_type lock_type); void position(uchar *record); ha_rows records_in_range( uint inx, key_range* min_key, key_range* max_key); ha_rows estimate_rows_upper_bound(); void update_create_info(HA_CREATE_INFO* create_info); inline int create( const char* name, TABLE* form, HA_CREATE_INFO* create_info, bool file_per_table, trx_t* trx = NULL); int create( const char* name, TABLE* form, HA_CREATE_INFO* create_info); const char* check_table_options(THD *thd, TABLE* table, HA_CREATE_INFO* create_info, const bool use_tablespace, const ulint file_format); inline int delete_table(const char* name, enum_sql_command sqlcom); int truncate(); int delete_table(const char *name); int rename_table(const char* from, const char* to); inline int defragment_table(const char* name); int check(THD* thd, HA_CHECK_OPT* check_opt); char* get_foreign_key_create_info(); int get_foreign_key_list(THD *thd, List *f_key_list); int get_parent_foreign_key_list( THD* thd, List* f_key_list); int get_cascade_foreign_key_table_list( THD* thd, List* fk_table_list); bool can_switch_engines(); uint referenced_by_foreign_key(); void free_foreign_key_create_info(char* str); uint lock_count(void) const; THR_LOCK_DATA** store_lock( THD* thd, THR_LOCK_DATA** to, thr_lock_type lock_type); void init_table_handle_for_HANDLER(); virtual void get_auto_increment( ulonglong offset, ulonglong increment, ulonglong nb_desired_values, ulonglong* first_value, ulonglong* nb_reserved_values); virtual bool get_error_message(int error, String *buf); virtual bool get_foreign_dup_key(char*, uint, char*, uint); uint8 table_cache_type(); /** Ask handler about permission to cache table during query registration */ my_bool register_query_cache_table( THD* thd, const char* table_key, uint key_length, qc_engine_callback* call_back, ulonglong* engine_data); bool primary_key_is_clustered(); int cmp_ref(const uchar* ref1, const uchar* ref2); /** On-line ALTER TABLE interface @see handler0alter.cc @{ */ /** Check if InnoDB supports a particular alter table in-place @param altered_table TABLE object for new version of table. @param ha_alter_info Structure describing changes to be done by ALTER TABLE and holding data used during in-place alter. @retval HA_ALTER_INPLACE_NOT_SUPPORTED Not supported @retval HA_ALTER_INPLACE_INSTANT MDL_EXCLUSIVE is needed for executing prepare_inplace_alter_table() and commit_inplace_alter_table(). inplace_alter_table() will not be called. @retval HA_ALTER_INPLACE_COPY_NO_LOCK MDL_EXCLUSIVE in prepare_inplace_alter_table(), which can be downgraded to LOCK=NONE for rebuilding the table in inplace_alter_table() @retval HA_ALTER_INPLACE_COPY_LOCK MDL_EXCLUSIVE in prepare_inplace_alter_table(), which can be downgraded to LOCK=SHARED for rebuilding the table in inplace_alter_table() @retval HA_ALTER_INPLACE_NOCOPY_NO_LOCK MDL_EXCLUSIVE in prepare_inplace_alter_table(), which can be downgraded to LOCK=NONE for inplace_alter_table() which will not rebuild the table @retval HA_ALTER_INPLACE_NOCOPY_LOCK MDL_EXCLUSIVE in prepare_inplace_alter_table(), which can be downgraded to LOCK=SHARED for inplace_alter_table() which will not rebuild the table. */ enum_alter_inplace_result check_if_supported_inplace_alter( TABLE* altered_table, Alter_inplace_info* ha_alter_info); /** Allows InnoDB to update internal structures with concurrent writes blocked (provided that check_if_supported_inplace_alter() did not return HA_ALTER_INPLACE_NO_LOCK). This will be invoked before inplace_alter_table(). @param altered_table TABLE object for new version of table. @param ha_alter_info Structure describing changes to be done by ALTER TABLE and holding data used during in-place alter. @retval true Failure @retval false Success */ bool prepare_inplace_alter_table( TABLE* altered_table, Alter_inplace_info* ha_alter_info); /** Alter the table structure in-place with operations specified using HA_ALTER_FLAGS and Alter_inplace_information. The level of concurrency allowed during this operation depends on the return value from check_if_supported_inplace_alter(). @param altered_table TABLE object for new version of table. @param ha_alter_info Structure describing changes to be done by ALTER TABLE and holding data used during in-place alter. @retval true Failure @retval false Success */ bool inplace_alter_table( TABLE* altered_table, Alter_inplace_info* ha_alter_info); /** Commit or rollback the changes made during prepare_inplace_alter_table() and inplace_alter_table() inside the storage engine. Note that the allowed level of concurrency during this operation will be the same as for inplace_alter_table() and thus might be higher than during prepare_inplace_alter_table(). (E.g concurrent writes were blocked during prepare, but might not be during commit). @param altered_table TABLE object for new version of table. @param ha_alter_info Structure describing changes to be done by ALTER TABLE and holding data used during in-place alter. @param commit true => Commit, false => Rollback. @retval true Failure @retval false Success */ bool commit_inplace_alter_table( TABLE* altered_table, Alter_inplace_info* ha_alter_info, bool commit); /** @} */ bool check_if_incompatible_data( HA_CREATE_INFO* info, uint table_changes); /** @name Multi Range Read interface @{ */ /** Initialize multi range read @see DsMrr_impl::dsmrr_init @param seq @param seq_init_param @param n_ranges @param mode @param buf */ int multi_range_read_init( RANGE_SEQ_IF* seq, void* seq_init_param, uint n_ranges, uint mode, HANDLER_BUFFER* buf); /** Process next multi range read @see DsMrr_impl::dsmrr_next @param range_info */ int multi_range_read_next(range_id_t *range_info); /** Initialize multi range read and get information. @see ha_myisam::multi_range_read_info_const @see DsMrr_impl::dsmrr_info_const @param keyno @param seq @param seq_init_param @param n_ranges @param bufsz @param flags @param cost */ ha_rows multi_range_read_info_const( uint keyno, RANGE_SEQ_IF* seq, void* seq_init_param, uint n_ranges, uint* bufsz, uint* flags, Cost_estimate* cost); /** Initialize multi range read and get information. @see DsMrr_impl::dsmrr_info @param keyno @param seq @param seq_init_param @param n_ranges @param bufsz @param flags @param cost */ ha_rows multi_range_read_info(uint keyno, uint n_ranges, uint keys, uint key_parts, uint* bufsz, uint* flags, Cost_estimate* cost); int multi_range_read_explain_info(uint mrr_mode, char *str, size_t size); /** Attempt to push down an index condition. @param[in] keyno MySQL key number @param[in] idx_cond Index condition to be checked @return idx_cond if pushed; NULL if not pushed */ Item* idx_cond_push(uint keyno, Item* idx_cond); /* @} */ /** Check if InnoDB is not storing virtual column metadata for a table. @param s table definition (based on .frm file) @return whether InnoDB will omit virtual column metadata */ static bool omits_virtual_cols(const TABLE_SHARE& s) { return s.frm_versionkey_info{} */ uint m_primary_key; /** this is set to 1 when we are starting a table scan but have not yet fetched any row, else false */ bool m_start_of_scan; /*!< match mode of the latest search: ROW_SEL_EXACT, ROW_SEL_EXACT_PREFIX, or undefined */ uint m_last_match_mode; /** If mysql has locked with external_lock() */ bool m_mysql_has_locked; }; /* Some accessor functions which the InnoDB plugin needs, but which can not be added to mysql/plugin.h as part of the public interface; the definitions are bracketed with #ifdef INNODB_COMPATIBILITY_HOOKS */ #ifndef INNODB_COMPATIBILITY_HOOKS #error InnoDB needs MySQL to be built with #define INNODB_COMPATIBILITY_HOOKS #endif extern "C" { /** Check if a user thread is a replication slave thread @param thd user thread @retval 0 the user thread is not a replication slave thread @retval 1 the user thread is a replication slave thread */ int thd_slave_thread(const MYSQL_THD thd); /** Check if a user thread is running a non-transactional update @param thd user thread @retval 0 the user thread is not running a non-transactional update @retval 1 the user thread is running a non-transactional update */ int thd_non_transactional_update(const MYSQL_THD thd); /** Get high resolution timestamp for the current query start time. The timestamp is not anchored to any specific point in time, but can be used for comparison. @param thd user thread @retval timestamp in microseconds precision */ unsigned long long thd_start_utime(const MYSQL_THD thd); /** Get the user thread's binary logging format @param thd user thread @return Value to be used as index into the binlog_format_names array */ int thd_binlog_format(const MYSQL_THD thd); /** Check if binary logging is filtered for thread's current db. @param thd Thread handle @retval 1 the query is not filtered, 0 otherwise. */ bool thd_binlog_filter_ok(const MYSQL_THD thd); /** Check if the query may generate row changes which may end up in the binary. @param thd Thread handle @retval 1 the query may generate row changes, 0 otherwise. */ bool thd_sqlcom_can_generate_row_events(const MYSQL_THD thd); /** Is strict sql_mode set. @param thd Thread object @return True if sql_mode has strict mode (all or trans), false otherwise. */ bool thd_is_strict_mode(const MYSQL_THD thd); } /* extern "C" */ /** Get the file name and position of the MySQL binlog corresponding to the * current commit. */ extern void mysql_bin_log_commit_pos(THD *thd, ulonglong *out_pos, const char **out_file); struct trx_t; #ifdef WITH_WSREP //extern "C" int wsrep_trx_order_before(void *thd1, void *thd2); extern "C" bool wsrep_thd_is_wsrep_on(THD *thd); extern "C" void wsrep_thd_set_exec_mode(THD *thd, enum wsrep_exec_mode mode); extern "C" void wsrep_thd_set_query_state( THD *thd, enum wsrep_query_state state); extern "C" void wsrep_thd_set_trx_to_replay(THD *thd, uint64 trx_id); extern "C" uint32 wsrep_thd_wsrep_rand(THD *thd); extern "C" time_t wsrep_thd_query_start(THD *thd); extern "C" query_id_t wsrep_thd_query_id(THD *thd); extern "C" query_id_t wsrep_thd_wsrep_last_query_id(THD *thd); extern "C" void wsrep_thd_set_wsrep_last_query_id(THD *thd, query_id_t id); #endif extern const struct _ft_vft ft_vft_result; /** Structure Returned by ha_innobase::ft_init_ext() */ typedef struct new_ft_info { struct _ft_vft *please; struct _ft_vft_ext *could_you; row_prebuilt_t* ft_prebuilt; fts_result_t* ft_result; } NEW_FT_INFO; /** Allocates an InnoDB transaction for a MySQL handler object. @return InnoDB transaction handle */ trx_t* innobase_trx_allocate( MYSQL_THD thd); /*!< in: user thread handle */ /*********************************************************************//** This function checks each index name for a table against reserved system default primary index name 'GEN_CLUST_INDEX'. If a name matches, this function pushes an warning message to the client, and returns true. @return true if the index name matches the reserved name */ bool innobase_index_name_is_reserved( THD* thd, /*!< in/out: MySQL connection */ const KEY* key_info, /*!< in: Indexes to be created */ ulint num_of_keys) /*!< in: Number of indexes to be created. */ MY_ATTRIBUTE((nonnull(1), warn_unused_result)); /** Parse hint for table and its indexes, and update the information in dictionary. @param[in] thd Connection thread @param[in,out] table Target table @param[in] table_share Table definition */ void innobase_parse_hint_from_comment( THD* thd, dict_table_t* table, const TABLE_SHARE* table_share); /** Class for handling create table information. */ class create_table_info_t { public: /** Constructor. Used in two ways: - all but file_per_table is used, when creating the table. - all but name/path is used, when validating options and using flags. */ create_table_info_t( THD* thd, const TABLE* form, HA_CREATE_INFO* create_info, char* table_name, char* remote_path, bool file_per_table, trx_t* trx = NULL); /** Initialize the object. */ int initialize(); /** Set m_tablespace_type. */ void set_tablespace_type(bool table_being_altered_is_file_per_table); /** Create the internal innodb table. @param create_fk whether to add FOREIGN KEY constraints */ int create_table(bool create_fk = true); /** Update the internal data dictionary. */ int create_table_update_dict(); /** Validates the create options. Checks that the options KEY_BLOCK_SIZE, ROW_FORMAT, DATA DIRECTORY, TEMPORARY & TABLESPACE are compatible with each other and other settings. These CREATE OPTIONS are not validated here unless innodb_strict_mode is on. With strict mode, this function will report each problem it finds using a custom message with error code ER_ILLEGAL_HA_CREATE_OPTION, not its built-in message. @return NULL if valid, string name of bad option if not. */ const char* create_options_are_invalid(); bool gcols_in_fulltext_or_spatial(); /** Validates engine specific table options not handled by SQL-parser. @return NULL if valid, string name of bad option if not. */ const char* check_table_options(); /** Validate DATA DIRECTORY option. */ bool create_option_data_directory_is_valid(); /** Validate TABLESPACE option. */ bool create_option_tablespace_is_valid(); /** Prepare to create a table. */ int prepare_create_table(const char* name, bool strict = true); void allocate_trx(); /** Checks that every index have sane size. Depends on strict mode */ bool row_size_is_acceptable(const dict_table_t& table, bool strict) const; /** Checks that given index have sane size. Depends on strict mode */ bool row_size_is_acceptable(const dict_index_t& index, bool strict) const; /** Determines InnoDB table flags. If strict_mode=OFF, this will adjust the flags to what should be assumed. @retval true if successful, false if error */ bool innobase_table_flags(); /** Set flags and append '/' to remote path if necessary. */ void set_remote_path_flags(); /** Get table flags. */ ulint flags() const { return(m_flags); } /** Update table flags. */ void flags_set(ulint flags) { m_flags |= flags; } /** Get table flags2. */ ulint flags2() const { return(m_flags2); } /** Get trx. */ trx_t* trx() const { return(m_trx); } /** Return table name. */ const char* table_name() const { return(m_table_name); } /** @return whether the table needs to be dropped on rollback */ bool drop_before_rollback() const { return m_drop_before_rollback; } THD* thd() const { return(m_thd); } /** Normalizes a table name string. A normalized name consists of the database name catenated to '/' and table name. An example: test/mytable. On Windows normalization puts both the database name and the table name always to lower case if "set_lower_case" is set to true. @param[in,out] norm_name Buffer to return the normalized name in. @param[in] name Table name string. @param[in] set_lower_case True if we want to set name to lower case. */ static void normalize_table_name_low( char* norm_name, const char* name, ibool set_lower_case); private: /** Parses the table name into normal name and either temp path or remote path if needed.*/ int parse_table_name( const char* name); /** Create the internal innodb table definition. */ int create_table_def(); /** Connection thread handle. */ THD* m_thd; /** InnoDB transaction handle. */ trx_t* m_trx; /** Information on table columns and indexes. */ const TABLE* m_form; /** Value of innodb_default_row_format */ const ulong m_default_row_format; /** Create options. */ HA_CREATE_INFO* m_create_info; /** Table name */ char* m_table_name; /** Table */ dict_table_t* m_table; /** Whether the table needs to be dropped before rollback */ bool m_drop_before_rollback; /** Remote path (DATA DIRECTORY) or zero length-string */ char* m_remote_path; /** Local copy of srv_file_per_table. */ bool m_innodb_file_per_table; /** Allow file_per_table for this table either because: 1) the setting innodb_file_per_table=on, 2) it was explicitly requested by tablespace=innodb_file_per_table. 3) the table being altered is currently file_per_table */ bool m_allow_file_per_table; /** After all considerations, this shows whether we will actually create a table and tablespace using file-per-table. */ bool m_use_file_per_table; /** Using DATA DIRECTORY */ bool m_use_data_dir; /** Table flags */ ulint m_flags; /** Table flags2 */ ulint m_flags2; }; /** Initialize the table FTS stopword list @return TRUE if success */ ibool innobase_fts_load_stopword( /*=======================*/ dict_table_t* table, /*!< in: Table has the FTS */ trx_t* trx, /*!< in: transaction */ THD* thd) /*!< in: current thread */ MY_ATTRIBUTE((warn_unused_result)); /** Some defines for innobase_fts_check_doc_id_index() return value */ enum fts_doc_id_index_enum { FTS_INCORRECT_DOC_ID_INDEX, FTS_EXIST_DOC_ID_INDEX, FTS_NOT_EXIST_DOC_ID_INDEX }; /** Check whether the table has a unique index with FTS_DOC_ID_INDEX_NAME on the Doc ID column. @return the status of the FTS_DOC_ID index */ fts_doc_id_index_enum innobase_fts_check_doc_id_index( const dict_table_t* table, /*!< in: table definition */ const TABLE* altered_table, /*!< in: MySQL table that is being altered */ ulint* fts_doc_col_no) /*!< out: The column number for Doc ID */ MY_ATTRIBUTE((warn_unused_result)); /** Check whether the table has a unique index with FTS_DOC_ID_INDEX_NAME on the Doc ID column in MySQL create index definition. @return FTS_EXIST_DOC_ID_INDEX if there exists the FTS_DOC_ID index, FTS_INCORRECT_DOC_ID_INDEX if the FTS_DOC_ID index is of wrong format */ fts_doc_id_index_enum innobase_fts_check_doc_id_index_in_def( ulint n_key, /*!< in: Number of keys */ const KEY* key_info) /*!< in: Key definitions */ MY_ATTRIBUTE((warn_unused_result)); /** Copy table flags from MySQL's TABLE_SHARE into an InnoDB table object. Those flags are stored in .frm file and end up in the MySQL table object, but are frequently used inside InnoDB so we keep their copies into the InnoDB table object. */ void innobase_copy_frm_flags_from_table_share( dict_table_t* innodb_table, /*!< in/out: InnoDB table */ const TABLE_SHARE* table_share); /*!< in: table share */ /** Set up base columns for virtual column @param[in] table the InnoDB table @param[in] field MySQL field @param[in,out] v_col virtual column to be set up */ void innodb_base_col_setup( dict_table_t* table, const Field* field, dict_v_col_t* v_col); /** Set up base columns for stored column @param[in] table InnoDB table @param[in] field MySQL field @param[in,out] s_col stored column */ void innodb_base_col_setup_for_stored( const dict_table_t* table, const Field* field, dict_s_col_t* s_col); /** whether this is a stored generated column */ #define innobase_is_s_fld(field) ((field)->vcol_info && (field)->stored_in_db()) /** Always normalize table name to lower case on Windows */ #ifdef _WIN32 #define normalize_table_name(norm_name, name) \ create_table_info_t::normalize_table_name_low(norm_name, name, TRUE) #else #define normalize_table_name(norm_name, name) \ create_table_info_t::normalize_table_name_low(norm_name, name, FALSE) #endif /* _WIN32 */ /** Converts a search mode flag understood by MySQL to a flag understood by InnoDB. @param[in] find_flag MySQL search mode flag. @return InnoDB search mode flag. */ page_cur_mode_t convert_search_mode_to_innobase( enum ha_rkey_function find_flag); /** Commits a transaction in an InnoDB database. @param[in] trx Transaction handle. */ void innobase_commit_low( trx_t* trx); extern my_bool innobase_stats_on_metadata; /** Calculate Record Per Key value. Need to exclude the NULL value if innodb_stats_method is set to "nulls_ignored" @param[in] index InnoDB index. @param[in] i The column we are calculating rec per key. @param[in] records Estimated total records. @return estimated record per key value */ /* JAN: TODO: MySQL 5.7 */ typedef float rec_per_key_t; rec_per_key_t innodb_rec_per_key( dict_index_t* index, ulint i, ha_rows records); /** Build template for the virtual columns and their base columns @param[in] table MySQL TABLE @param[in] ib_table InnoDB dict_table_t @param[in,out] s_templ InnoDB template structure @param[in] add_v new virtual columns added along with add index call @param[in] locked true if innobase_share_mutex is held */ void innobase_build_v_templ( const TABLE* table, const dict_table_t* ib_table, dict_vcol_templ_t* s_templ, const dict_add_v_col_t* add_v, bool locked); /** callback used by MySQL server layer to initialized the table virtual columns' template @param[in] table MySQL TABLE @param[in,out] ib_table InnoDB dict_table_t */ void innobase_build_v_templ_callback( const TABLE* table, void* ib_table); /** Callback function definition, used by MySQL server layer to initialized the table virtual columns' template */ typedef void (*my_gcolumn_templatecallback_t)(const TABLE*, void*); /** Convert MySQL column number to dict_table_t::cols[] offset. @param[in] field non-virtual column @return column number relative to dict_table_t::cols[] */ unsigned innodb_col_no(const Field* field) MY_ATTRIBUTE((nonnull, warn_unused_result)); /********************************************************************//** Helper function to push frm mismatch error to error log and if needed to sql-layer. */ UNIV_INTERN void ib_push_frm_error( /*==============*/ THD* thd, /*!< in: MySQL thd */ dict_table_t* ib_table, /*!< in: InnoDB table */ TABLE* table, /*!< in: MySQL table */ ulint n_keys, /*!< in: InnoDB #keys */ bool push_warning); /*!< in: print warning ? */ /** Check each index part length whether they not exceed the max limit @param[in] max_field_len maximum allowed key part length @param[in] key MariaDB key definition @return true if index column length exceeds limit */ MY_ATTRIBUTE((warn_unused_result)) bool too_big_key_part_length(size_t max_field_len, const KEY& key); /** This function is used to rollback one X/Open XA distributed transaction which is in the prepared state @param[in] hton InnoDB handlerton @param[in] xid X/Open XA transaction identification @return 0 or error number */ int innobase_rollback_by_xid(handlerton* hton, XID* xid);