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444 lines
15 KiB
444 lines
15 KiB
/* Copyright (c) 2002, 2018, Oracle and/or its affiliates. All rights reserved.
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This program is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License, version 2.0,
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as published by the Free Software Foundation.
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This program is also distributed with certain software (including
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but not limited to OpenSSL) that is licensed under separate terms,
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as designated in a particular file or component or in included license
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documentation. The authors of MySQL hereby grant you an additional
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permission to link the program and your derivative works with the
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separately licensed software that they have included with MySQL.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License, version 2.0, for more details.
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You should have received a copy of the GNU General Public License
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along with this program; if not, write to the Free Software
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Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA */
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#ifndef _SP_RCONTEXT_H_
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#define _SP_RCONTEXT_H_
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#include <stddef.h>
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#include <sys/types.h>
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#include "my_dbug.h"
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#include "my_inttypes.h"
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#include "prealloced_array.h" // Prealloced_array
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#include "sql/item.h"
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#include "sql/query_result.h" // Query_result_interceptor
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#include "sql/sql_array.h"
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#include "sql/sql_error.h"
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#include "sql/table.h"
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class Field;
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class Query_arena;
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class SELECT_LEX_UNIT;
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class Server_side_cursor;
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class THD;
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class sp_cursor;
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class sp_handler;
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class sp_head;
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class sp_instr;
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class sp_instr_cpush;
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class sp_pcontext;
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class sp_variable;
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template <class T>
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class List;
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///////////////////////////////////////////////////////////////////////////
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// sp_rcontext declaration.
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///////////////////////////////////////////////////////////////////////////
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/*
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This class is a runtime context of a Stored Routine. It is used in an
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execution and is intended to contain all dynamic objects (i.e. objects, which
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can be changed during execution), such as:
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- stored routine variables;
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- cursors;
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- handlers;
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Runtime context is used with sp_head class. sp_head class is intended to
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contain all static things, related to the stored routines (code, for example).
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sp_head instance creates runtime context for the execution of a stored
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routine.
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There is a parsing context (an instance of sp_pcontext class), which is used
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on parsing stage. However, now it contains some necessary for an execution
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things, such as definition of used stored routine variables. That's why
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runtime context needs a reference to the parsing context.
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*/
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class sp_rcontext {
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public:
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/// Construct and properly initialize a new sp_rcontext instance. The static
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/// create-function is needed because we need a way to return an error from
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/// the constructor.
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///
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/// @param thd Thread handle.
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/// @param root_parsing_ctx Top-level parsing context for this stored program.
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/// @param return_value_fld Field object to store the return value
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/// (for stored functions only).
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///
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/// @return valid sp_rcontext object or NULL in case of OOM-error.
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static sp_rcontext *create(THD *thd, const sp_pcontext *root_parsing_ctx,
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Field *return_value_fld);
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~sp_rcontext();
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private:
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sp_rcontext(const sp_pcontext *root_parsing_ctx, Field *return_value_fld,
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bool in_sub_stmt);
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// Prevent use of copying constructor and operator.
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sp_rcontext(const sp_rcontext &);
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void operator=(sp_rcontext &);
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private:
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/// This is an auxillary class to store entering instruction pointer for an
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/// SQL-handler.
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class sp_handler_entry {
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public:
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/// Handler definition (from parsing context).
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const sp_handler *handler;
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/// Instruction pointer to the first instruction.
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uint first_ip;
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/// The constructor.
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///
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/// @param _handler sp_handler object.
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/// @param _first_ip first instruction pointer.
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sp_handler_entry(const sp_handler *_handler, uint _first_ip)
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: handler(_handler), first_ip(_first_ip) {}
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};
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public:
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/// This class represents a call frame of SQL-handler (one invocation of a
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/// handler). Basically, it's needed to store continue instruction pointer for
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/// CONTINUE SQL-handlers.
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class Handler_call_frame {
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public:
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/// Handler definition (from parsing context).
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const sp_handler *handler;
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/// SQL-condition, triggered handler activation.
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Sql_condition *sql_condition;
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/// Continue-instruction-pointer for CONTINUE-handlers.
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/// The attribute contains 0 for EXIT-handlers.
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uint continue_ip;
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/// The Diagnostics Area which will be pushed when the handler activates
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/// and popped when the handler completes.
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Diagnostics_area handler_da;
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/// The constructor.
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///
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/// @param _handler SQL-handler
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/// @param _sql_condition SQL-condition, triggered handler activation.
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/// @param _continue_ip Continue instruction pointer.
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Handler_call_frame(const sp_handler *_handler,
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Sql_condition *_sql_condition, uint _continue_ip)
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: handler(_handler),
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sql_condition(_sql_condition),
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continue_ip(_continue_ip),
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handler_da(false) {}
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};
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public:
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/// Arena used to (re) allocate items on. E.g. reallocate INOUT/OUT
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/// SP-variables when they don't fit into prealloced items. This is common
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/// situation with String items. It is used mainly in sp_eval_func_item().
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Query_arena *callers_arena;
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/// Flag to end an open result set before start executing an SQL-handler
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/// (if one is found). Otherwise the client will hang due to a violation
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/// of the client/server protocol.
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bool end_partial_result_set;
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/// The stored program for which this runtime context is created.
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sp_head *sp;
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/////////////////////////////////////////////////////////////////////////
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// SP-variables.
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/////////////////////////////////////////////////////////////////////////
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bool set_variable(THD *thd, uint var_idx, Item **value) {
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return set_variable(thd, m_var_table->field[var_idx], value);
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}
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Item *get_item(uint var_idx) const { return m_var_items[var_idx]; }
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Item **get_item_addr(uint var_idx) const {
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return m_var_items.array() + var_idx;
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}
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bool set_return_value(THD *thd, Item **return_value_item);
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bool is_return_value_set() const { return m_return_value_set; }
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/////////////////////////////////////////////////////////////////////////
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// SQL-handlers.
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/////////////////////////////////////////////////////////////////////////
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/// Create a new sp_handler_entry instance and push it to the handler call
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/// stack.
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///
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/// @param handler SQL-handler object.
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/// @param first_ip First instruction pointer of the handler.
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///
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/// @return error flag.
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/// @retval false on success.
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/// @retval true on error.
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bool push_handler(sp_handler *handler, uint first_ip);
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/// Pop and delete given number of sp_handler_entry instances from the handler
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/// call stack.
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///
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/// @param current_scope The current BEGIN..END block.
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void pop_handlers(sp_pcontext *current_scope);
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/// Get the Handler_call_frame representing the currently active handler.
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Handler_call_frame *current_handler_frame() const {
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return m_activated_handlers.size() ? m_activated_handlers.back() : NULL;
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}
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/// Handle current SQL condition (if any).
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///
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/// This is the public-interface function to handle SQL conditions in
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/// stored routines.
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///
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/// @param thd Thread handle.
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/// @param [out] ip Instruction pointer to the first handler
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/// instruction.
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/// @param cur_spi Current SP instruction.
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///
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/// @retval true if an SQL-handler has been activated. That means, all of
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/// the following conditions are satisfied:
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/// - the SP-instruction raised SQL-condition(s),
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/// - and there is an SQL-handler to process at least one of those
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/// SQL-conditions,
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/// - and that SQL-handler has been activated.
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/// Note, that the return value has nothing to do with "error flag"
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/// semantics.
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///
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/// @retval false otherwise.
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bool handle_sql_condition(THD *thd, uint *ip, const sp_instr *cur_spi);
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/// Handle return from SQL-handler.
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///
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/// @param thd Thread handle.
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/// @param target_scope The BEGIN..END block, containing
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/// the target (next) instruction.
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void exit_handler(THD *thd, sp_pcontext *target_scope);
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/// @return the continue instruction pointer of the last activated CONTINUE
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/// handler. This function must not be called for the EXIT handlers.
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uint get_last_handler_continue_ip() const {
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uint ip = m_activated_handlers.back()->continue_ip;
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DBUG_ASSERT(ip != 0);
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return ip;
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}
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/////////////////////////////////////////////////////////////////////////
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// Cursors.
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/////////////////////////////////////////////////////////////////////////
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/// Create a new sp_cursor instance and push it to the cursor stack.
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///
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/// @param i Cursor-push instruction.
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///
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/// @return error flag.
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/// @retval false on success.
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/// @retval true on error.
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bool push_cursor(sp_instr_cpush *i);
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/// Pop and delete given number of sp_cursor instance from the cursor stack.
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///
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/// @param count Number of cursors to pop & delete.
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void pop_cursors(uint count);
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void pop_all_cursors() { pop_cursors(m_ccount); }
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sp_cursor *get_cursor(uint i) const { return m_cstack[i]; }
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/////////////////////////////////////////////////////////////////////////
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// CASE expressions.
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/////////////////////////////////////////////////////////////////////////
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/// Set CASE expression to the specified value.
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///
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/// @param thd Thread handler.
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/// @param case_expr_id The CASE expression identifier.
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/// @param case_expr_item_ptr The CASE expression value
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///
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/// @return error flag.
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/// @retval false on success.
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/// @retval true on error.
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///
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/// @note The idea is to reuse Item_cache for the expression of the one
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/// CASE statement. This optimization takes place when there is CASE
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/// statement inside of a loop. So, in other words, we will use the same
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/// object on each iteration instead of creating a new one for each
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/// iteration.
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///
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/// TODO
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/// Hypothetically, a type of CASE expression can be different for each
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/// iteration. For instance, this can happen if the expression contains
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/// a session variable (something like @@VAR) and its type is changed
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/// from one iteration to another.
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///
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/// In order to cope with this problem, we check type each time, when we
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/// use already created object. If the type does not match, we re-create
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/// Item. This also can (should?) be optimized.
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bool set_case_expr(THD *thd, int case_expr_id, Item **case_expr_item_ptr);
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Item *get_case_expr(int case_expr_id) const {
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return m_case_expr_holders[case_expr_id];
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}
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Item **get_case_expr_addr(int case_expr_id) const {
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return (Item **)m_case_expr_holders.array() + case_expr_id;
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}
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private:
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/// Internal function to allocate memory for arrays.
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///
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/// @param thd Thread handle.
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///
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/// @return error flag: false on success, true in case of failure.
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bool alloc_arrays(THD *thd);
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/// Create and initialize a table to store SP-variables.
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///
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/// param thd Thread handle.
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///
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/// @return error flag.
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/// @retval false on success.
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/// @retval true on error.
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bool init_var_table(THD *thd);
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/// Create and initialize an Item-adapter (Item_field) for each SP-var field.
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///
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/// param thd Thread handle.
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///
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/// @return error flag.
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/// @retval false on success.
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/// @retval true on error.
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bool init_var_items(THD *thd);
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/// Create an instance of appropriate Item_cache class depending on the
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/// specified type in the callers arena.
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///
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/// @note We should create cache items in the callers arena, as they are
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/// used between in several instructions.
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///
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/// @param thd Thread handler.
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/// @param item Item to get the expression type.
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///
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/// @return Pointer to valid object on success, or NULL in case of error.
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Item_cache *create_case_expr_holder(THD *thd, const Item *item) const;
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bool set_variable(THD *thd, Field *field, Item **value);
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/// Pop the Handler_call_frame on top of the stack of active handlers.
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/// Also pop the matching Diagnostics Area and transfer conditions.
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void pop_handler_frame(THD *thd);
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private:
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/// Top-level (root) parsing context for this runtime context.
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const sp_pcontext *m_root_parsing_ctx;
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/// Virtual table for storing SP-variables.
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TABLE *m_var_table;
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/// Collection of Item_field proxies, each of them points to the
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/// corresponding field in m_var_table.
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Bounds_checked_array<Item *> m_var_items;
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/// This is a pointer to a field, which should contain return value for
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/// stored functions (only). For stored procedures, this pointer is NULL.
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Field *m_return_value_fld;
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/// Indicates whether the return value (in m_return_value_fld) has been
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/// set during execution.
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bool m_return_value_set;
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/// Flag to tell if the runtime context is created for a sub-statement.
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bool m_in_sub_stmt;
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/// Stack of visible handlers.
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Prealloced_array<sp_handler_entry *, 16> m_visible_handlers;
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/// Stack of caught SQL conditions.
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Prealloced_array<Handler_call_frame *, 16> m_activated_handlers;
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/// Stack of cursors.
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Bounds_checked_array<sp_cursor *> m_cstack;
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/// Current number of cursors in m_cstack.
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uint m_ccount;
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/// Array of CASE expression holders.
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Bounds_checked_array<Item_cache *> m_case_expr_holders;
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};
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///////////////////////////////////////////////////////////////////////////
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// sp_cursor declaration.
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///////////////////////////////////////////////////////////////////////////
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/* A mediator between stored procedures and server side cursors */
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class sp_cursor {
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private:
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/**
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An interceptor of cursor result set used to implement
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FETCH @<cname@> INTO @<varlist@>.
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*/
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class Query_fetch_into_spvars : public Query_result_interceptor {
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List<sp_variable> *spvar_list;
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uint field_count;
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public:
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Query_fetch_into_spvars() : Query_result_interceptor() {}
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uint get_field_count() { return field_count; }
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void set_spvar_list(List<sp_variable> *vars) { spvar_list = vars; }
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virtual bool send_eof(THD *) { return false; }
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virtual bool send_data(THD *thd, List<Item> &items);
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virtual bool prepare(THD *thd, List<Item> &list, SELECT_LEX_UNIT *u);
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};
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public:
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explicit sp_cursor(sp_instr_cpush *i)
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: m_result(), m_server_side_cursor(NULL), m_push_instr(i) {}
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virtual ~sp_cursor() { destroy(); }
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bool open(THD *thd);
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bool close();
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bool is_open() const { return m_server_side_cursor != nullptr; }
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bool fetch(List<sp_variable> *vars);
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sp_instr_cpush *get_push_instr() { return m_push_instr; }
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private:
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Query_fetch_into_spvars m_result;
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Server_side_cursor *m_server_side_cursor;
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sp_instr_cpush *m_push_instr;
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private:
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void destroy();
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}; // class sp_cursor
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#endif /* _SP_RCONTEXT_H_ */
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