/* Copyright (C) 2000 MySQL AB & MySQL Finland AB & TCX DataKonsult 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; either version 2 of the License, or (at your option) any later version. 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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ /* YACC and LEX Definitions */ /* These may not be declared yet */ class Table_ident; class sql_exchange; class LEX_COLUMN; class sp_head; class sp_name; class sp_instr; class sp_pcontext; /* The following hack is needed because mysql_yacc.cc does not define YYSTYPE before including this file */ #include "set_var.h" #ifdef MYSQL_YACC #define LEX_YYSTYPE void * #else #include "lex_symbol.h" #if MYSQL_LEX #include "sql_yacc.h" #define LEX_YYSTYPE YYSTYPE * #else #define LEX_YYSTYPE void * #endif #endif /* When a command is added here, be sure it's also added in mysqld.cc in "struct show_var_st status_vars[]= {" ... */ enum enum_sql_command { SQLCOM_SELECT, SQLCOM_CREATE_TABLE, SQLCOM_CREATE_INDEX, SQLCOM_ALTER_TABLE, SQLCOM_UPDATE, SQLCOM_INSERT, SQLCOM_INSERT_SELECT, SQLCOM_DELETE, SQLCOM_TRUNCATE, SQLCOM_DROP_TABLE, SQLCOM_DROP_INDEX, SQLCOM_SHOW_DATABASES, SQLCOM_SHOW_TABLES, SQLCOM_SHOW_FIELDS, SQLCOM_SHOW_KEYS, SQLCOM_SHOW_VARIABLES, SQLCOM_SHOW_LOGS, SQLCOM_SHOW_STATUS, SQLCOM_SHOW_INNODB_STATUS, SQLCOM_SHOW_NDBCLUSTER_STATUS, SQLCOM_SHOW_MUTEX_STATUS, SQLCOM_SHOW_PROCESSLIST, SQLCOM_SHOW_MASTER_STAT, SQLCOM_SHOW_SLAVE_STAT, SQLCOM_SHOW_GRANTS, SQLCOM_SHOW_CREATE, SQLCOM_SHOW_CHARSETS, SQLCOM_SHOW_COLLATIONS, SQLCOM_SHOW_CREATE_DB, SQLCOM_SHOW_TABLE_STATUS, SQLCOM_SHOW_TRIGGERS, SQLCOM_LOAD,SQLCOM_SET_OPTION,SQLCOM_LOCK_TABLES,SQLCOM_UNLOCK_TABLES, SQLCOM_GRANT, SQLCOM_CHANGE_DB, SQLCOM_CREATE_DB, SQLCOM_DROP_DB, SQLCOM_ALTER_DB, SQLCOM_REPAIR, SQLCOM_REPLACE, SQLCOM_REPLACE_SELECT, SQLCOM_CREATE_FUNCTION, SQLCOM_DROP_FUNCTION, SQLCOM_REVOKE,SQLCOM_OPTIMIZE, SQLCOM_CHECK, SQLCOM_ASSIGN_TO_KEYCACHE, SQLCOM_PRELOAD_KEYS, SQLCOM_FLUSH, SQLCOM_KILL, SQLCOM_ANALYZE, SQLCOM_ROLLBACK, SQLCOM_ROLLBACK_TO_SAVEPOINT, SQLCOM_COMMIT, SQLCOM_SAVEPOINT, SQLCOM_RELEASE_SAVEPOINT, SQLCOM_SLAVE_START, SQLCOM_SLAVE_STOP, SQLCOM_BEGIN, SQLCOM_LOAD_MASTER_TABLE, SQLCOM_CHANGE_MASTER, SQLCOM_RENAME_TABLE, SQLCOM_BACKUP_TABLE, SQLCOM_RESTORE_TABLE, SQLCOM_RESET, SQLCOM_PURGE, SQLCOM_PURGE_BEFORE, SQLCOM_SHOW_BINLOGS, SQLCOM_SHOW_OPEN_TABLES, SQLCOM_LOAD_MASTER_DATA, SQLCOM_HA_OPEN, SQLCOM_HA_CLOSE, SQLCOM_HA_READ, SQLCOM_SHOW_SLAVE_HOSTS, SQLCOM_DELETE_MULTI, SQLCOM_UPDATE_MULTI, SQLCOM_SHOW_BINLOG_EVENTS, SQLCOM_SHOW_NEW_MASTER, SQLCOM_DO, SQLCOM_SHOW_WARNS, SQLCOM_EMPTY_QUERY, SQLCOM_SHOW_ERRORS, SQLCOM_SHOW_COLUMN_TYPES, SQLCOM_SHOW_STORAGE_ENGINES, SQLCOM_SHOW_PRIVILEGES, SQLCOM_HELP, SQLCOM_CREATE_USER, SQLCOM_DROP_USER, SQLCOM_RENAME_USER, SQLCOM_REVOKE_ALL, SQLCOM_CHECKSUM, SQLCOM_CREATE_PROCEDURE, SQLCOM_CREATE_SPFUNCTION, SQLCOM_CALL, SQLCOM_DROP_PROCEDURE, SQLCOM_ALTER_PROCEDURE,SQLCOM_ALTER_FUNCTION, SQLCOM_SHOW_CREATE_PROC, SQLCOM_SHOW_CREATE_FUNC, SQLCOM_SHOW_STATUS_PROC, SQLCOM_SHOW_STATUS_FUNC, SQLCOM_PREPARE, SQLCOM_EXECUTE, SQLCOM_DEALLOCATE_PREPARE, SQLCOM_CREATE_VIEW, SQLCOM_DROP_VIEW, SQLCOM_CREATE_TRIGGER, SQLCOM_DROP_TRIGGER, SQLCOM_XA_START, SQLCOM_XA_END, SQLCOM_XA_PREPARE, SQLCOM_XA_COMMIT, SQLCOM_XA_ROLLBACK, SQLCOM_XA_RECOVER, SQLCOM_SHOW_PROC_CODE, SQLCOM_SHOW_FUNC_CODE, /* This should be the last !!! */ SQLCOM_END }; // describe/explain types #define DESCRIBE_NORMAL 1 #define DESCRIBE_EXTENDED 2 enum enum_sp_suid_behaviour { SP_IS_DEFAULT_SUID= 0, SP_IS_NOT_SUID, SP_IS_SUID }; enum enum_sp_data_access { SP_DEFAULT_ACCESS= 0, SP_CONTAINS_SQL, SP_NO_SQL, SP_READS_SQL_DATA, SP_MODIFIES_SQL_DATA }; const LEX_STRING sp_data_access_name[]= { { (char*) STRING_WITH_LEN("") }, { (char*) STRING_WITH_LEN("CONTAINS SQL") }, { (char*) STRING_WITH_LEN("NO SQL") }, { (char*) STRING_WITH_LEN("READS SQL DATA") }, { (char*) STRING_WITH_LEN("MODIFIES SQL DATA") } }; #define DERIVED_SUBQUERY 1 #define DERIVED_VIEW 2 enum enum_view_create_mode { VIEW_CREATE_NEW, // check that there are not such VIEW/table VIEW_ALTER, // check that VIEW .frm with such name exists VIEW_CREATE_OR_REPLACE // check only that there are not such table }; enum enum_drop_mode { DROP_DEFAULT, // mode is not specified DROP_CASCADE, // CASCADE option DROP_RESTRICT // RESTRICT option }; typedef List<Item> List_item; typedef struct st_lex_master_info { char *host, *user, *password, *log_file_name; uint port, connect_retry; ulonglong pos; ulong server_id; /* Variable for MASTER_SSL option. MASTER_SSL=0 in CHANGE MASTER TO corresponds to SSL_DISABLE MASTER_SSL=1 corresponds to SSL_ENABLE */ enum {SSL_UNCHANGED=0, SSL_DISABLE, SSL_ENABLE} ssl; char *ssl_key, *ssl_cert, *ssl_ca, *ssl_capath, *ssl_cipher; char *relay_log_name; ulong relay_log_pos; } LEX_MASTER_INFO; enum sub_select_type { UNSPECIFIED_TYPE,UNION_TYPE, INTERSECT_TYPE, EXCEPT_TYPE, GLOBAL_OPTIONS_TYPE, DERIVED_TABLE_TYPE, OLAP_TYPE }; enum olap_type { UNSPECIFIED_OLAP_TYPE, CUBE_TYPE, ROLLUP_TYPE }; enum tablespace_op_type { NO_TABLESPACE_OP, DISCARD_TABLESPACE, IMPORT_TABLESPACE }; /* The state of the lex parsing for selects master and slaves are pointers to select_lex. master is pointer to upper level node. slave is pointer to lower level node select_lex is a SELECT without union unit is container of either - One SELECT - UNION of selects select_lex and unit are both inherited form select_lex_node neighbors are two select_lex or units on the same level All select describing structures linked with following pointers: - list of neighbors (next/prev) (prev of first element point to slave pointer of upper structure) - For select this is a list of UNION's (or one element list) - For units this is a list of sub queries for the upper level select - pointer to master (master), which is If this is a unit - pointer to outer select_lex If this is a select_lex - pointer to outer unit structure for select - pointer to slave (slave), which is either: If this is a unit: - first SELECT that belong to this unit If this is a select_lex - first unit that belong to this SELECT (subquries or derived tables) - list of all select_lex (link_next/link_prev) This is to be used for things like derived tables creation, where we go through this list and create the derived tables. If unit contain several selects (UNION now, INTERSECT etc later) then it have special select_lex called fake_select_lex. It used for storing global parameters (like ORDER BY, LIMIT) and executing union. Subqueries used in global ORDER BY clause will be attached to this fake_select_lex, which will allow them correctly resolve fields of 'upper' UNION and outer selects. For example for following query: select * from table1 where table1.field IN (select * from table1_1_1 union select * from table1_1_2) union select * from table2 where table2.field=(select (select f1 from table2_1_1_1_1 where table2_1_1_1_1.f2=table2_1_1.f3) from table2_1_1 where table2_1_1.f1=table2.f2) union select * from table3; we will have following structure: select1: (select * from table1 ...) select2: (select * from table2 ...) select3: (select * from table3) select1.1.1: (select * from table1_1_1) ... main unit fake0 select1 select2 select3 |^^ |^ s||| ||master l||| |+---------------------------------+ a||| +---------------------------------+| v|||master slave || e||+-------------------------+ || V| neighbor | V| unit1.1<+==================>unit1.2 unit2.1 fake1.1 select1.1.1 select 1.1.2 select1.2.1 select2.1.1 |^ || V| unit2.1.1.1 select2.1.1.1.1 relation in main unit will be following: (bigger picture for: main unit fake0 select1 select2 select3 in the above picture) main unit |^^^^|fake_select_lex |||||+--------------------------------------------+ ||||+--------------------------------------------+| |||+------------------------------+ || ||+--------------+ | || slave||master | | || V| neighbor | neighbor | master|V select1<========>select2<========>select3 fake0 list of all select_lex will be following (as it will be constructed by parser): select1->select2->select3->select2.1.1->select 2.1.2->select2.1.1.1.1-+ | +---------------------------------------------------------------------+ | +->select1.1.1->select1.1.2 */ /* Base class for st_select_lex (SELECT_LEX) & st_select_lex_unit (SELECT_LEX_UNIT) */ struct st_lex; class st_select_lex; class st_select_lex_unit; class st_select_lex_node { protected: st_select_lex_node *next, **prev, /* neighbor list */ *master, *slave, /* vertical links */ *link_next, **link_prev; /* list of whole SELECT_LEX */ public: ulonglong options; /* In sql_cache we store SQL_CACHE flag as specified by user to be able to restore SELECT statement from internal structures. */ enum e_sql_cache { SQL_CACHE_UNSPECIFIED, SQL_NO_CACHE, SQL_CACHE }; e_sql_cache sql_cache; /* result of this query can't be cached, bit field, can be : UNCACHEABLE_DEPENDENT UNCACHEABLE_RAND UNCACHEABLE_SIDEEFFECT UNCACHEABLE_EXPLAIN UNCACHEABLE_PREPARE */ uint8 uncacheable; enum sub_select_type linkage; bool no_table_names_allowed; /* used for global order by */ bool no_error; /* suppress error message (convert it to warnings) */ static void *operator new(size_t size) { return (void*) sql_alloc((uint) size); } static void *operator new(size_t size, MEM_ROOT *mem_root) { return (void*) alloc_root(mem_root, (uint) size); } static void operator delete(void *ptr,size_t size) { TRASH(ptr, size); } static void operator delete(void *ptr, MEM_ROOT *mem_root) {} st_select_lex_node(): linkage(UNSPECIFIED_TYPE) {} virtual ~st_select_lex_node() {} inline st_select_lex_node* get_master() { return master; } virtual void init_query(); virtual void init_select(); void include_down(st_select_lex_node *upper); void include_neighbour(st_select_lex_node *before); void include_standalone(st_select_lex_node *sel, st_select_lex_node **ref); void include_global(st_select_lex_node **plink); void exclude(); virtual st_select_lex_unit* master_unit()= 0; virtual st_select_lex* outer_select()= 0; virtual st_select_lex* return_after_parsing()= 0; virtual bool set_braces(bool value); virtual bool inc_in_sum_expr(); virtual uint get_in_sum_expr(); virtual TABLE_LIST* get_table_list(); virtual List<Item>* get_item_list(); virtual List<String>* get_use_index(); virtual List<String>* get_ignore_index(); virtual ulong get_table_join_options(); virtual TABLE_LIST *add_table_to_list(THD *thd, Table_ident *table, LEX_STRING *alias, ulong table_options, thr_lock_type flags= TL_UNLOCK, List<String> *use_index= 0, List<String> *ignore_index= 0, LEX_STRING *option= 0); virtual void set_lock_for_tables(thr_lock_type lock_type) {} friend class st_select_lex_unit; friend bool mysql_new_select(struct st_lex *lex, bool move_down); friend bool mysql_make_view(THD *thd, File_parser *parser, TABLE_LIST *table, uint flags); private: void fast_exclude(); }; typedef class st_select_lex_node SELECT_LEX_NODE; /* SELECT_LEX_UNIT - unit of selects (UNION, INTERSECT, ...) group SELECT_LEXs */ class THD; class select_result; class JOIN; class select_union; class Procedure; class st_select_lex_unit: public st_select_lex_node { protected: TABLE_LIST result_table_list; select_union *union_result; TABLE *table; /* temporary table using for appending UNION results */ select_result *result; ulong found_rows_for_union; bool res; public: bool prepared, // prepare phase already performed for UNION (unit) optimized, // optimize phase already performed for UNION (unit) executed, // already executed cleaned; // list of fields which points to temporary table for union List<Item> item_list; /* list of types of items inside union (used for union & derived tables) Item_type_holders from which this list consist may have pointers to Field, pointers is valid only after preparing SELECTS of this unit and before any SELECT of this unit execution */ List<Item> types; /* Pointer to 'last' select or pointer to unit where stored global parameters for union */ st_select_lex *global_parameters; //node on wich we should return current_select pointer after parsing subquery st_select_lex *return_to; /* LIMIT clause runtime counters */ ha_rows select_limit_cnt, offset_limit_cnt; /* not NULL if unit used in subselect, point to subselect item */ Item_subselect *item; /* thread handler */ THD *thd; /* SELECT_LEX for hidden SELECT in onion which process global ORDER BY and LIMIT */ st_select_lex *fake_select_lex; st_select_lex *union_distinct; /* pointer to the last UNION DISTINCT */ bool describe; /* union exec() called for EXPLAIN */ Procedure *last_procedure; /* Pointer to procedure, if such exists */ void init_query(); st_select_lex_unit* master_unit(); st_select_lex* outer_select(); st_select_lex* first_select() { return my_reinterpret_cast(st_select_lex*)(slave); } st_select_lex_unit* next_unit() { return my_reinterpret_cast(st_select_lex_unit*)(next); } st_select_lex* return_after_parsing() { return return_to; } void exclude_level(); void exclude_tree(); /* UNION methods */ bool prepare(THD *thd, select_result *result, ulong additional_options); bool exec(); bool cleanup(); inline void unclean() { cleaned= 0; } void reinit_exec_mechanism(); void print(String *str); bool add_fake_select_lex(THD *thd); void init_prepare_fake_select_lex(THD *thd); inline bool is_prepared() { return prepared; } bool change_result(select_subselect *result, select_subselect *old_result); void set_limit(st_select_lex *values); void set_thd(THD *thd_arg) { thd= thd_arg; } friend void lex_start(THD *thd, uchar *buf, uint length); friend int subselect_union_engine::exec(); List<Item> *get_unit_column_types(); }; typedef class st_select_lex_unit SELECT_LEX_UNIT; /* SELECT_LEX - store information of parsed SELECT statment */ class st_select_lex: public st_select_lex_node { public: Name_resolution_context context; char *db; Item *where, *having; /* WHERE & HAVING clauses */ Item *prep_where; /* saved WHERE clause for prepared statement processing */ Item *prep_having;/* saved HAVING clause for prepared statement processing */ /* point on lex in which it was created, used in view subquery detection */ st_lex *parent_lex; enum olap_type olap; /* FROM clause - points to the beginning of the TABLE_LIST::next_local list. */ SQL_LIST table_list; SQL_LIST group_list; /* GROUP BY clause. */ List<Item> item_list; /* list of fields & expressions */ List<String> interval_list, use_index, *use_index_ptr, ignore_index, *ignore_index_ptr; bool is_item_list_lookup; /* Usualy it is pointer to ftfunc_list_alloc, but in union used to create fake select_lex for calling mysql_select under results of union */ List<Item_func_match> *ftfunc_list; List<Item_func_match> ftfunc_list_alloc; JOIN *join; /* after JOIN::prepare it is pointer to corresponding JOIN */ List<TABLE_LIST> top_join_list; /* join list of the top level */ List<TABLE_LIST> *join_list; /* list for the currently parsed join */ TABLE_LIST *embedding; /* table embedding to the above list */ /* Beginning of the list of leaves in a FROM clause, where the leaves inlcude all base tables including view tables. The tables are connected by TABLE_LIST::next_leaf, so leaf_tables points to the left-most leaf. */ TABLE_LIST *leaf_tables; const char *type; /* type of select for EXPLAIN */ SQL_LIST order_list; /* ORDER clause */ List<List_item> expr_list; List<List_item> when_list; /* WHEN clause (expression) */ SQL_LIST *gorder_list; Item *select_limit, *offset_limit; /* LIMIT clause parameters */ // Arrays of pointers to top elements of all_fields list Item **ref_pointer_array; /* number of items in select_list and HAVING clause used to get number bigger then can be number of entries that will be added to all item list during split_sum_func */ uint select_n_having_items; uint cond_count; /* number of arguments of and/or/xor in where/having/on */ uint between_count; /* number of between predicates in where/having/on */ enum_parsing_place parsing_place; /* where we are parsing expression */ bool with_sum_func; /* sum function indicator */ /* PS or SP cond natural joins was alredy processed with permanent arena and all additional items which we need alredy stored in it */ bool conds_processed_with_permanent_arena; ulong table_join_options; uint in_sum_expr; uint select_number; /* number of select (used for EXPLAIN) */ int nest_level; /* nesting level of select */ Item_sum *inner_sum_func_list; /* list of sum func in nested selects */ uint with_wild; /* item list contain '*' */ bool braces; /* SELECT ... UNION (SELECT ... ) <- this braces */ /* TRUE when having fix field called in processing of this SELECT */ bool having_fix_field; /* Number of Item_sum-derived objects in this SELECT */ uint n_sum_items; /* Number of Item_sum-derived objects in children and descendant SELECTs */ uint n_child_sum_items; /* explicit LIMIT clause was used */ bool explicit_limit; /* there are subquery in HAVING clause => we can't close tables before query processing end even if we use temporary table */ bool subquery_in_having; /* This variable is required to ensure proper work of subqueries and stored procedures. Generally, one should use the states of Query_arena to determine if it's a statement prepare or first execution of a stored procedure. However, in case when there was an error during the first execution of a stored procedure, the SP body is not expelled from the SP cache. Therefore, a deeply nested subquery might be left unoptimized. So we need this per-subquery variable to inidicate the optimization/execution state of every subquery. Prepared statements work OK in that regard, as in case of an error during prepare the PS is not created. */ bool first_execution; bool first_cond_optimization; /* do not wrap view fields with Item_ref */ bool no_wrap_view_item; /* exclude this select from check of unique_table() */ bool exclude_from_table_unique_test; void init_query(); void init_select(); st_select_lex_unit* master_unit(); st_select_lex_unit* first_inner_unit() { return (st_select_lex_unit*) slave; } st_select_lex* outer_select(); st_select_lex* next_select() { return (st_select_lex*) next; } st_select_lex* next_select_in_list() { return (st_select_lex*) link_next; } st_select_lex_node** next_select_in_list_addr() { return &link_next; } st_select_lex* return_after_parsing() { return master_unit()->return_after_parsing(); } void mark_as_dependent(st_select_lex *last); bool set_braces(bool value); bool inc_in_sum_expr(); uint get_in_sum_expr(); bool add_item_to_list(THD *thd, Item *item); bool add_group_to_list(THD *thd, Item *item, bool asc); bool add_ftfunc_to_list(Item_func_match *func); bool add_order_to_list(THD *thd, Item *item, bool asc); TABLE_LIST* add_table_to_list(THD *thd, Table_ident *table, LEX_STRING *alias, ulong table_options, thr_lock_type flags= TL_UNLOCK, List<String> *use_index= 0, List<String> *ignore_index= 0, LEX_STRING *option= 0); TABLE_LIST* get_table_list(); bool init_nested_join(THD *thd); TABLE_LIST *end_nested_join(THD *thd); TABLE_LIST *nest_last_join(THD *thd); void add_joined_table(TABLE_LIST *table); TABLE_LIST *convert_right_join(); List<Item>* get_item_list(); List<String>* get_use_index(); List<String>* get_ignore_index(); ulong get_table_join_options(); void set_lock_for_tables(thr_lock_type lock_type); inline void init_order() { order_list.elements= 0; order_list.first= 0; order_list.next= (byte**) &order_list.first; } /* This method created for reiniting LEX in mysql_admin_table() and can be used only if you are going remove all SELECT_LEX & units except belonger to LEX (LEX::unit & LEX::select, for other purposes there are SELECT_LEX_UNIT::exclude_level & SELECT_LEX_UNIT::exclude_tree */ void cut_subtree() { slave= 0; } bool test_limit(); friend void lex_start(THD *thd, uchar *buf, uint length); st_select_lex() : n_sum_items(0), n_child_sum_items(0) {} void make_empty_select() { init_query(); init_select(); } bool setup_ref_array(THD *thd, uint order_group_num); void print(THD *thd, String *str); static void print_order(String *str, ORDER *order); void print_limit(THD *thd, String *str); void fix_prepare_information(THD *thd, Item **conds, Item **having_conds); /* Destroy the used execution plan (JOIN) of this subtree (this SELECT_LEX and all nested SELECT_LEXes and SELECT_LEX_UNITs). */ bool cleanup(); /* Recursively cleanup the join of this select lex and of all nested select lexes. */ void cleanup_all_joins(bool full); }; typedef class st_select_lex SELECT_LEX; #define ALTER_ADD_COLUMN 1 #define ALTER_DROP_COLUMN 2 #define ALTER_CHANGE_COLUMN 4 #define ALTER_ADD_INDEX 8 #define ALTER_DROP_INDEX 16 #define ALTER_RENAME 32 #define ALTER_ORDER 64 #define ALTER_OPTIONS 128 #define ALTER_CHANGE_COLUMN_DEFAULT 256 #define ALTER_KEYS_ONOFF 512 #define ALTER_CONVERT 1024 #define ALTER_FORCE 2048 typedef struct st_alter_info { List<Alter_drop> drop_list; List<Alter_column> alter_list; uint flags; enum enum_enable_or_disable keys_onoff; enum tablespace_op_type tablespace_op; st_alter_info(){clear();} void clear(){keys_onoff= LEAVE_AS_IS;tablespace_op= NO_TABLESPACE_OP;} void reset(){drop_list.empty();alter_list.empty();clear();} } ALTER_INFO; struct st_sp_chistics { LEX_STRING comment; enum enum_sp_suid_behaviour suid; bool detistic; enum enum_sp_data_access daccess; }; struct st_trg_chistics { enum trg_action_time_type action_time; enum trg_event_type event; }; extern sys_var_long_ptr trg_new_row_fake_var; enum xa_option_words {XA_NONE, XA_JOIN, XA_RESUME, XA_ONE_PHASE, XA_SUSPEND, XA_FOR_MIGRATE}; /* Class representing list of all tables used by statement. It also contains information about stored functions used by statement since during its execution we may have to add all tables used by its stored functions/triggers to this list in order to pre-open and lock them. Also used by st_lex::reset_n_backup/restore_backup_query_tables_list() methods to save and restore this information. */ class Query_tables_list { public: /* Global list of all tables used by this statement */ TABLE_LIST *query_tables; /* Pointer to next_global member of last element in the previous list. */ TABLE_LIST **query_tables_last; /* If non-0 then indicates that query requires prelocking and points to next_global member of last own element in query table list (i.e. last table which was not added to it as part of preparation to prelocking). 0 - indicates that this query does not need prelocking. */ TABLE_LIST **query_tables_own_last; /* Set of stored routines called by statement. (Note that we use lazy-initialization for this hash). */ enum { START_SROUTINES_HASH_SIZE= 16 }; HASH sroutines; /* List linking elements of 'sroutines' set. Allows you to add new elements to this set as you iterate through the list of existing elements. 'sroutines_list_own_last' is pointer to ::next member of last element of this list which represents routine which is explicitly used by query. 'sroutines_list_own_elements' number of explicitly used routines. We use these two members for restoring of 'sroutines_list' to the state in which it was right after query parsing. */ SQL_LIST sroutines_list; byte **sroutines_list_own_last; uint sroutines_list_own_elements; /* These constructor and destructor serve for creation/destruction of Query_tables_list instances which are used as backup storage. */ Query_tables_list() {} ~Query_tables_list() {} /* Initializes (or resets) Query_tables_list object for "real" use. */ void reset_query_tables_list(bool init); void destroy_query_tables_list(); void set_query_tables_list(Query_tables_list *state) { *this= *state; } /* Direct addition to the list of query tables. If you are using this function, you must ensure that the table object, in particular table->db member, is initialized. */ void add_to_query_tables(TABLE_LIST *table) { *(table->prev_global= query_tables_last)= table; query_tables_last= &table->next_global; } bool requires_prelocking() { return test(query_tables_own_last); } void mark_as_requiring_prelocking(TABLE_LIST **tables_own_last) { query_tables_own_last= tables_own_last; } /* Return pointer to first not-own table in query-tables or 0 */ TABLE_LIST* first_not_own_table() { return ( query_tables_own_last ? *query_tables_own_last : 0); } void chop_off_not_own_tables() { if (query_tables_own_last) { *query_tables_own_last= 0; query_tables_last= query_tables_own_last; query_tables_own_last= 0; } } }; /* st_parsing_options contains the flags for constructions that are allowed in the current statement. */ struct st_parsing_options { bool allows_variable; bool allows_select_into; bool allows_select_procedure; bool allows_derived; st_parsing_options() : allows_variable(TRUE), allows_select_into(TRUE), allows_select_procedure(TRUE), allows_derived(TRUE) {} }; /* The state of the lex parsing. This is saved in the THD struct */ typedef struct st_lex : public Query_tables_list { uint yylineno,yytoklen; /* Simulate lex */ LEX_YYSTYPE yylval; SELECT_LEX_UNIT unit; /* most upper unit */ SELECT_LEX select_lex; /* first SELECT_LEX */ /* current SELECT_LEX in parsing */ SELECT_LEX *current_select; /* list of all SELECT_LEX */ SELECT_LEX *all_selects_list; uchar *buf; /* The beginning of string, used by SPs */ uchar *ptr,*tok_start,*tok_end,*end_of_query; /* The values of tok_start/tok_end as they were one call of MYSQLlex before */ uchar *tok_start_prev, *tok_end_prev; char *length,*dec,*change,*name; char *help_arg; char *backup_dir; /* For RESTORE/BACKUP */ char* to_log; /* For PURGE MASTER LOGS TO */ char* x509_subject,*x509_issuer,*ssl_cipher; char* found_semicolon; /* For multi queries - next query */ String *wild; sql_exchange *exchange; select_result *result; Item *default_value, *on_update_value; LEX_STRING comment, ident; LEX_USER *grant_user; XID *xid; gptr yacc_yyss,yacc_yyvs; THD *thd; CHARSET_INFO *charset, *underscore_charset; /* store original leaf_tables for INSERT SELECT and PS/SP */ TABLE_LIST *leaf_tables_insert; /* Position (first character index) of SELECT of CREATE VIEW statement */ uint create_view_select_start; /* The definer of the object being created (view, trigger, stored routine). I.e. the value of DEFINER clause. */ LEX_USER *definer; List<key_part_spec> col_list; List<key_part_spec> ref_list; List<String> interval_list; List<LEX_USER> users_list; List<LEX_COLUMN> columns; List<Key> key_list; List<create_field> create_list; List<Item> *insert_list,field_list,value_list,update_list; List<List_item> many_values; List<set_var_base> var_list; List<Item_param> param_list; List<LEX_STRING> view_list; // view list (list of field names in view) /* A stack of name resolution contexts for the query. This stack is used at parse time to set local name resolution contexts for various parts of a query. For example, in a JOIN ... ON (some_condition) clause the Items in 'some_condition' must be resolved only against the operands of the the join, and not against the whole clause. Similarly, Items in subqueries should be resolved against the subqueries (and outer queries). The stack is used in the following way: when the parser detects that all Items in some clause need a local context, it creates a new context and pushes it on the stack. All newly created Items always store the top-most context in the stack. Once the parser leaves the clause that required a local context, the parser pops the top-most context. */ List<Name_resolution_context> context_stack; SQL_LIST proc_list, auxiliary_table_list, save_list; create_field *last_field; Item_sum *in_sum_func; udf_func udf; HA_CHECK_OPT check_opt; // check/repair options HA_CREATE_INFO create_info; LEX_MASTER_INFO mi; // used by CHANGE MASTER USER_RESOURCES mqh; ulong type; /* This variable is used in post-parse stage to declare that sum-functions, or functions which have sense only if GROUP BY is present, are allowed. For example in a query SELECT ... FROM ...WHERE MIN(i) == 1 GROUP BY ... HAVING MIN(i) > 2 MIN(i) in the WHERE clause is not allowed in the opposite to MIN(i) in the HAVING clause. Due to possible nesting of select construct the variable can contain 0 or 1 for each nest level. */ nesting_map allow_sum_func; enum_sql_command sql_command, orig_sql_command; thr_lock_type lock_option; enum SSL_type ssl_type; /* defined in violite.h */ enum my_lex_states next_state; enum enum_duplicates duplicates; enum enum_tx_isolation tx_isolation; enum enum_ha_read_modes ha_read_mode; union { enum ha_rkey_function ha_rkey_mode; enum xa_option_words xa_opt; }; enum enum_var_type option_type; enum enum_view_create_mode create_view_mode; enum enum_drop_mode drop_mode; uint uint_geom_type; uint grant, grant_tot_col, which_columns; uint fk_delete_opt, fk_update_opt, fk_match_option; uint slave_thd_opt, start_transaction_opt; int nest_level; /* In LEX representing update which were transformed to multi-update stores total number of tables. For LEX representing multi-delete holds number of tables from which we will delete records. */ uint table_count; uint8 describe; /* A flag that indicates what kinds of derived tables are present in the query (0 if no derived tables, otherwise a combination of flags DERIVED_SUBQUERY and DERIVED_VIEW). */ uint8 derived_tables; uint8 create_view_algorithm; uint8 create_view_check; bool drop_if_exists, drop_temporary, local_file, one_shot_set; bool in_comment, ignore_space, verbose, no_write_to_binlog; bool tx_chain, tx_release; /* Special JOIN::prepare mode: changing of query is prohibited. When creating a view, we need to just check its syntax omitting any optimizations: afterwards definition of the view will be reconstructed by means of ::print() methods and written to to an .frm file. We need this definition to stay untouched. */ bool view_prepare_mode; /* TRUE if we're parsing a prepared statement: in this mode we should allow placeholders and disallow multistatements. */ bool stmt_prepare_mode; bool safe_to_cache_query; bool subqueries, ignore; st_parsing_options parsing_options; ALTER_INFO alter_info; /* Prepared statements SQL syntax:*/ LEX_STRING prepared_stmt_name; /* Statement name (in all queries) */ /* Prepared statement query text or name of variable that holds the prepared statement (in PREPARE ... queries) */ LEX_STRING prepared_stmt_code; /* If true, prepared_stmt_code is a name of variable that holds the query */ bool prepared_stmt_code_is_varref; /* Names of user variables holding parameters (in EXECUTE) */ List<LEX_STRING> prepared_stmt_params; /* Points to part of global table list which contains time zone tables implicitly used by the statement. */ TABLE_LIST *time_zone_tables_used; sp_head *sphead; sp_name *spname; bool sp_lex_in_use; /* Keep track on lex usage in SPs for error handling */ bool all_privileges; sp_pcontext *spcont; st_sp_chistics sp_chistics; bool only_view; /* used for SHOW CREATE TABLE/VIEW */ /* field_list was created for view and should be removed before PS/SP rexecuton */ bool empty_field_list_on_rset; /* view created to be run from definer (standard behaviour) */ uint8 create_view_suid; /* Characterstics of trigger being created */ st_trg_chistics trg_chistics; /* List of all items (Item_trigger_field objects) representing fields in old/new version of row in trigger. We use this list for checking whenever all such fields are valid at trigger creation time and for binding these fields to TABLE object at table open (altough for latter pointer to table being opened is probably enough). */ SQL_LIST trg_table_fields; /* stmt_definition_begin is intended to point to the next word after DEFINER-clause in the following statements: - CREATE TRIGGER (points to "TRIGGER"); - CREATE PROCEDURE (points to "PROCEDURE"); - CREATE FUNCTION (points to "FUNCTION" or "AGGREGATE"); This pointer is required to add possibly omitted DEFINER-clause to the DDL-statement before dumping it to the binlog. */ const char *stmt_definition_begin; /* Pointers to part of LOAD DATA statement that should be rewritten during replication ("LOCAL 'filename' REPLACE INTO" part). */ uchar *fname_start, *fname_end; bool escape_used; st_lex(); virtual ~st_lex() { destroy_query_tables_list(); } inline void uncacheable(uint8 cause) { safe_to_cache_query= 0; /* There are no sense to mark select_lex and union fields of LEX, but we should merk all subselects as uncacheable from current till most upper */ SELECT_LEX *sl; SELECT_LEX_UNIT *un; for (sl= current_select, un= sl->master_unit(); un != &unit; sl= sl->outer_select(), un= sl->master_unit()) { sl->uncacheable|= cause; un->uncacheable|= cause; } } TABLE_LIST *unlink_first_table(bool *link_to_local); void link_first_table_back(TABLE_LIST *first, bool link_to_local); void first_lists_tables_same(); bool add_time_zone_tables_to_query_tables(THD *thd); bool can_be_merged(); bool can_use_merged(); bool can_not_use_merged(); bool only_view_structure(); bool need_correct_ident(); uint8 get_effective_with_check(st_table_list *view); /* Is this update command where 'WHITH CHECK OPTION' clause is important SYNOPSIS st_lex::which_check_option_applicable() RETURN TRUE have to take 'WHITH CHECK OPTION' clause into account FALSE 'WHITH CHECK OPTION' clause do not need */ inline bool which_check_option_applicable() { switch (sql_command) { case SQLCOM_UPDATE: case SQLCOM_UPDATE_MULTI: case SQLCOM_INSERT: case SQLCOM_INSERT_SELECT: case SQLCOM_REPLACE: case SQLCOM_REPLACE_SELECT: case SQLCOM_LOAD: return TRUE; default: return FALSE; } } void cleanup_after_one_table_open(); bool push_context(Name_resolution_context *context) { return context_stack.push_front(context); } void pop_context() { context_stack.pop(); } Name_resolution_context *current_context() { return context_stack.head(); } void reset_n_backup_query_tables_list(Query_tables_list *backup); void restore_backup_query_tables_list(Query_tables_list *backup); } LEX; struct st_lex_local: public st_lex { static void *operator new(size_t size) { return (void*) sql_alloc((uint) size); } static void *operator new(size_t size, MEM_ROOT *mem_root) { return (void*) alloc_root(mem_root, (uint) size); } static void operator delete(void *ptr,size_t size) { TRASH(ptr, size); } static void operator delete(void *ptr, MEM_ROOT *mem_root) { /* Never called */ } }; extern void lex_init(void); extern void lex_free(void); extern void lex_start(THD *thd, uchar *buf,uint length); extern void lex_end(LEX *lex); extern int MYSQLlex(void *arg, void *yythd); extern uchar *skip_rear_comments(uchar *begin, uchar *end);