/***************************************************************************** Copyright (C) 2000, 2010, MySQL AB & Innobase Oy. All Rights Reserved. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; version 2 of the License. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA *****************************************************************************/ /* This file is based on ha_berkeley.h of MySQL distribution This file defines the Innodb Cursor: the interface between MySQL and Innodb */ #pragma once #ifndef INNODB_HANDLER_HA_INNODB_H #define INNODB_HANDLER_HA_INNODB_H #include #include #include using namespace drizzled; /* Structure defines translation table between mysql index and innodb index structures */ typedef struct innodb_idx_translate_struct { ulint index_count; /*!< number of valid index entries in the index_mapping array */ ulint array_size; /*!< array size of index_mapping */ dict_index_t** index_mapping; /*!< index pointer array directly maps to index in Innodb from MySQL array index */ } innodb_idx_translate_t; /** InnoDB table share */ typedef struct st_innobase_share { THR_LOCK lock; /*!< MySQL lock protecting this structure */ char table_name[FN_REFLEN]; /*!< InnoDB table name */ uint use_count; /*!< reference count, incremented in get_share() and decremented in free_share() */ void* table_name_hash;/*!< hash table chain node */ innodb_idx_translate_t idx_trans_tbl; /*!< index translation table between MySQL and Innodb */ st_innobase_share(const char *arg) : use_count(0) { strncpy(table_name, arg, FN_REFLEN); } } INNOBASE_SHARE; /** InnoDB B-tree index */ struct dict_index_struct; /** Prebuilt structures in an Innobase table handle used within MySQL */ struct row_prebuilt_struct; /** InnoDB B-tree index */ typedef struct dict_index_struct dict_index_t; /** Prebuilt structures in an Innobase table handle used within MySQL */ typedef struct row_prebuilt_struct row_prebuilt_t; /** The class defining a handle to an Innodb table */ class ha_innobase: public Cursor { row_prebuilt_t* prebuilt; /*!< prebuilt struct in InnoDB, used to save CPU time with prebuilt data structures*/ Session* user_session; /*!< the thread handle of the user currently using the handle; this is set in external_lock function */ THR_LOCK_DATA lock; INNOBASE_SHARE* share; /*!< information for MySQL table locking */ std::vector upd_buff; /*!< buffer used in updates */ std::vector key_val_buff; /*!< buffer used in converting search key values from MySQL format to Innodb format */ ulong upd_and_key_val_buff_len; /* the length of each of the previous two buffers */ uint primary_key; ulong start_of_scan; /*!< this is set to 1 when we are starting a table scan but have not yet fetched any row, else 0 */ uint last_match_mode;/* match mode of the latest search: ROW_SEL_EXACT, ROW_SEL_EXACT_PREFIX, or undefined */ uint num_write_row; /*!< number of doInsertRecord() calls */ UNIV_INTERN uint store_key_val_for_row(uint keynr, char* buff, uint buff_len, const unsigned char* record); UNIV_INTERN void update_session(Session* session); UNIV_INTERN int change_active_index(uint32_t keynr); UNIV_INTERN int general_fetch(unsigned char* buf, uint32_t direction, uint32_t match_mode); UNIV_INTERN ulint innobase_lock_autoinc(); UNIV_INTERN uint64_t innobase_peek_autoinc(); UNIV_INTERN ulint innobase_set_max_autoinc(uint64_t auto_inc); UNIV_INTERN ulint innobase_reset_autoinc(uint64_t auto_inc); UNIV_INTERN ulint innobase_get_autoinc(uint64_t* value); ulint innobase_update_autoinc(uint64_t auto_inc); UNIV_INTERN void innobase_initialize_autoinc(); UNIV_INTERN dict_index_t* innobase_get_index(uint keynr); /* Init values for the class: */ public: UNIV_INTERN ha_innobase(plugin::StorageEngine &engine, Table &table_arg); UNIV_INTERN ~ha_innobase(); /** * Returns the plugin::TransactionStorageEngine pointer * of the cursor's underlying engine. * * @todo * * Have a TransactionalCursor subclass... */ UNIV_INTERN plugin::TransactionalStorageEngine *getTransactionalEngine() { return static_cast(getEngine()); } UNIV_INTERN const char* index_type(uint key_number); UNIV_INTERN const key_map* keys_to_use_for_scanning(); UNIV_INTERN int doOpen(const drizzled::identifier::Table &identifier, int mode, uint test_if_locked); UNIV_INTERN int close(void); UNIV_INTERN double scan_time(); UNIV_INTERN double read_time(uint index, uint ranges, ha_rows rows); UNIV_INTERN int doInsertRecord(unsigned char * buf); UNIV_INTERN int doUpdateRecord(const unsigned char * old_data, unsigned char * new_data); UNIV_INTERN int doDeleteRecord(const unsigned char * buf); UNIV_INTERN bool was_semi_consistent_read(); UNIV_INTERN void try_semi_consistent_read(bool yes); UNIV_INTERN void unlock_row(); UNIV_INTERN int doStartIndexScan(uint index, bool sorted); UNIV_INTERN int doEndIndexScan(); UNIV_INTERN int index_read(unsigned char * buf, const unsigned char * key, uint key_len, enum ha_rkey_function find_flag); UNIV_INTERN int index_read_idx(unsigned char * buf, uint index, const unsigned char * key, uint key_len, enum ha_rkey_function find_flag); UNIV_INTERN int index_read_last(unsigned char * buf, const unsigned char * key, uint key_len); UNIV_INTERN int index_next(unsigned char * buf); UNIV_INTERN int index_next_same(unsigned char * buf, const unsigned char *key, uint keylen); UNIV_INTERN int index_prev(unsigned char * buf); UNIV_INTERN int index_first(unsigned char * buf); UNIV_INTERN int index_last(unsigned char * buf); UNIV_INTERN int doStartTableScan(bool scan); UNIV_INTERN int doEndTableScan(); UNIV_INTERN int rnd_next(unsigned char *buf); UNIV_INTERN int rnd_pos(unsigned char * buf, unsigned char *pos); UNIV_INTERN void position(const unsigned char *record); UNIV_INTERN int info(uint); UNIV_INTERN int analyze(Session* session); UNIV_INTERN int discard_or_import_tablespace(bool discard); UNIV_INTERN int extra(enum ha_extra_function operation); UNIV_INTERN int reset(); UNIV_INTERN int external_lock(Session *session, int lock_type); void position(unsigned char *record); UNIV_INTERN ha_rows records_in_range(uint inx, key_range *min_key, key_range *max_key); UNIV_INTERN ha_rows estimate_rows_upper_bound(); UNIV_INTERN int delete_all_rows(); UNIV_INTERN int check(Session* session); UNIV_INTERN char* update_table_comment(const char* comment); UNIV_INTERN char* get_foreign_key_create_info(); UNIV_INTERN int get_foreign_key_list(Session *session, List *f_key_list); UNIV_INTERN bool can_switch_engines(); UNIV_INTERN uint referenced_by_foreign_key(); UNIV_INTERN void free_foreign_key_create_info(char* str); UNIV_INTERN THR_LOCK_DATA **store_lock(Session *session, THR_LOCK_DATA **to, enum thr_lock_type lock_type); UNIV_INTERN virtual void get_auto_increment(uint64_t offset, uint64_t increment, uint64_t nb_desired_values, uint64_t *first_value, uint64_t *nb_reserved_values); UNIV_INTERN int reset_auto_increment(uint64_t value); UNIV_INTERN bool primary_key_is_clustered(); UNIV_INTERN int cmp_ref(const unsigned char *ref1, const unsigned char *ref2); /** Fast index creation (smart ALTER TABLE) @see handler0alter.cc @{ */ // Don't use these, I have just left them in here as reference for // the future. -Brian #if 0 UNIV_INTERN int add_index(Session *session, TABLE *table_arg, KeyInfo *key_info, uint num_of_keys); UNIV_INTERN int prepare_drop_index(Session *session, TABLE *table_arg, uint *key_num, uint num_of_keys); UNIV_INTERN int final_drop_index(Session *session, TABLE *table_arg); #endif /** @} */ public: int read_range_first(const key_range *start_key, const key_range *end_key, bool eq_range_arg, bool sorted); int read_range_next(); }; /** Get the file name of the MySQL binlog. * @return the name of the binlog file */ const char* drizzle_bin_log_file_name(void); /** Get the current position of the MySQL binlog. * @return byte offset from the beginning of the binlog */ uint64_t drizzle_bin_log_file_pos(void); /** Check if a user thread is a replication slave thread @param session user thread @retval 0 the user thread is not a replication slave thread @retval 1 the user thread is a replication slave thread */ int session_slave_thread(const Session *session); typedef struct trx_struct trx_t; /********************************************************************//** @file Cursor/ha_innodb.h Converts an InnoDB error code to a MySQL error code and also tells to MySQL about a possible transaction rollback inside InnoDB caused by a lock wait timeout or a deadlock. @return MySQL error code */ UNIV_INTERN int convert_error_code_to_mysql( /*========================*/ int error, /*!< in: InnoDB error code */ ulint flags, /*!< in: InnoDB table flags, or 0 */ Session *session); /*!< in: user thread handle or NULL */ /*********************************************************************//** Allocates an InnoDB transaction for a MySQL Cursor object. @return InnoDB transaction handle */ UNIV_INTERN trx_t* innobase_trx_allocate( /*==================*/ Session *session); /*!< 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 error message to the client, and returns true. */ bool innobase_index_name_is_reserved( /*============================*/ /* out: true if index name matches a reserved name */ const trx_t* trx, /* in: InnoDB transaction handle */ const drizzled::KeyInfo* key_info,/* in: Indexes to be created */ ulint num_of_keys); /* in: Number of indexes to be created. */ #endif /* INNODB_HANDLER_HA_INNODB_H */