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mariadb/sql/sql_prepare.cc
Dmitry Lenev eba5d30e67 Implement new type-of-operation-aware metadata locks. 
Add a wait-for graph based deadlock detector to the
MDL subsystem.

Fixes bug #46272 "MySQL 5.4.4, new MDL: unnecessary deadlock" and
bug #37346 "innodb does not detect deadlock between update and
alter table".

The first bug manifested itself as an unwarranted abort of a
transaction with ER_LOCK_DEADLOCK error by a concurrent ALTER
statement, when this transaction tried to repeat use of a
table, which it has already used in a similar fashion before
ALTER started.

The second bug showed up as a deadlock between table-level
locks and InnoDB row locks, which was "detected" only after
innodb_lock_wait_timeout timeout.

A transaction would start using the table and modify a few
rows.
Then ALTER TABLE would come in, and start copying rows
into a temporary table. Eventually it would stumble on
the modified records and get blocked on a row lock.
The first transaction would try to do more updates, and get
blocked on thr_lock.c lock.
This situation of circular wait would only get resolved
by a timeout.

Both these bugs stemmed from inadequate solutions to the
problem of deadlocks occurring between different
locking subsystems.

In the first case we tried to avoid deadlocks between metadata
locking and table-level locking subsystems, when upgrading shared
metadata lock to exclusive one.
Transactions holding the shared lock on the table and waiting for
some table-level lock used to be aborted too aggressively.

We also allowed ALTER TABLE to start in presence of transactions
that modify the subject table. ALTER TABLE acquires
TL_WRITE_ALLOW_READ lock at start, and that block all writes
against the table (naturally, we don't want any writes to be lost
when switching the old and the new table). TL_WRITE_ALLOW_READ
lock, in turn, would block the started transaction on thr_lock.c
lock, should they do more updates. This, again, lead to the need
to abort such transactions.

The second bug occurred simply because we didn't have any
mechanism to detect deadlocks between the table-level locks
in thr_lock.c and row-level locks in InnoDB, other than
innodb_lock_wait_timeout.

This patch solves both these problems by moving lock conflicts
which are causing these deadlocks into the metadata locking
subsystem, thus making it possible to avoid or detect such
deadlocks inside MDL.

To do this we introduce new type-of-operation-aware metadata
locks, which allow MDL subsystem to know not only the fact that
transaction has used or is going to use some object but also what
kind of operation it has carried out or going to carry out on the
object.

This, along with the addition of a special kind of upgradable
metadata lock, allows ALTER TABLE to wait until all
transactions which has updated the table to go away.
This solves the second issue.
Another special type of upgradable metadata lock is acquired
by LOCK TABLE WRITE. This second lock type allows to solve the
first issue, since abortion of table-level locks in event of
DDL under LOCK TABLES becomes also unnecessary.

Below follows the list of incompatible changes introduced by
this patch:

- From now on, ALTER TABLE and CREATE/DROP TRIGGER SQL (i.e. those
  statements that acquire TL_WRITE_ALLOW_READ lock)
  wait for all transactions which has *updated* the table to
  complete.

- From now on, LOCK TABLES ... WRITE, REPAIR/OPTIMIZE TABLE
  (i.e. all statements which acquire TL_WRITE table-level lock) wait
  for all transaction which *updated or read* from the table
  to complete.
  As a consequence, innodb_table_locks=0 option no longer applies
  to LOCK TABLES ... WRITE.

- DROP DATABASE, DROP TABLE, RENAME TABLE no longer abort
  statements or transactions which use tables being dropped or
  renamed, and instead wait for these transactions to complete.

- Since LOCK TABLES WRITE now takes a special metadata lock,
  not compatible with with reads or writes against the subject table
  and transaction-wide, thr_lock.c deadlock avoidance algorithm
  that used to ensure absence of deadlocks between LOCK TABLES
  WRITE and other statements is no longer sufficient, even for
  MyISAM. The wait-for graph based deadlock detector of MDL
  subsystem may sometimes be necessary and is involved. This may
  lead to ER_LOCK_DEADLOCK error produced for multi-statement
  transactions even if these only use MyISAM:

  session 1:         session 2:
  begin;

  update t1 ...      lock table t2 write, t1 write;
                     -- gets a lock on t2, blocks on t1

  update t2 ...
  (ER_LOCK_DEADLOCK)

- Finally,  support of LOW_PRIORITY option for LOCK TABLES ... WRITE
  was abandoned.
  LOCK TABLE ... LOW_PRIORITY WRITE from now on has the same
  priority as the usual LOCK TABLE ... WRITE.
  SELECT HIGH PRIORITY no longer trumps LOCK TABLE ... WRITE  in
  the wait queue.

- We do not take upgradable metadata locks on implicitly
  locked tables. So if one has, say, a view v1 that uses
  table t1, and issues:
  LOCK TABLE v1 WRITE;
  FLUSH TABLE t1; -- (or just 'FLUSH TABLES'),
  an error is produced.
  In order to be able to perform DDL on a table under LOCK TABLES,
  the table must be locked explicitly in the LOCK TABLES list.

mysql-test/include/handler.inc:
  Adjusted test case to trigger an execution path on which bug 41110
  "crash with handler command when used concurrently with alter
  table" and bug 41112 "crash in mysql_ha_close_table/get_lock_data
  with alter table" were originally discovered. Left old test case
  which no longer triggers this execution path for the sake of
  coverage.
  Added test coverage for HANDLER SQL statements and type-aware
  metadata locks.
  Added a test for the global shared lock and HANDLER SQL.
  Updated tests to take into account that the old simple deadlock
  detection heuristics was replaced with a graph-based deadlock
  detector.
mysql-test/r/debug_sync.result:
  Updated results (see debug_sync.test).
mysql-test/r/handler_innodb.result:
  Updated results (see handler.inc test).
mysql-test/r/handler_myisam.result:
  Updated results (see handler.inc test).
mysql-test/r/innodb-lock.result:
  Updated results (see innodb-lock.test).
mysql-test/r/innodb_mysql_lock.result:
  Updated results (see innodb_mysql_lock.test).
mysql-test/r/lock.result:
  Updated results (see lock.test).
mysql-test/r/lock_multi.result:
  Updated results (see lock_multi.test).
mysql-test/r/lock_sync.result:
  Updated results (see lock_sync.test).
mysql-test/r/mdl_sync.result:
  Updated results (see mdl_sync.test).
mysql-test/r/sp-threads.result:
  SHOW PROCESSLIST output has changed due to the fact that waiting
  for LOCK TABLES WRITE now happens within metadata locking
  subsystem.
mysql-test/r/truncate_coverage.result:
  Updated results (see truncate_coverage.test).
mysql-test/suite/funcs_1/datadict/processlist_val.inc:
  SELECT FROM I_S.PROCESSLIST output has changed due to fact that
  waiting for LOCK TABLES WRITE now happens within metadata locking
  subsystem.
mysql-test/suite/funcs_1/r/processlist_val_no_prot.result:
  SELECT FROM I_S.PROCESSLIST output has changed due to fact that
  waiting for LOCK TABLES WRITE now happens within metadata locking
  subsystem.
mysql-test/suite/rpl/t/rpl_sp.test:
  Updated to a new SHOW PROCESSLIST state name.
mysql-test/t/debug_sync.test:
  Use LOCK TABLES READ instead of LOCK TABLES WRITE as the latter
  no longer allows to trigger execution path involving waiting on
  thr_lock.c lock and therefore reaching debug sync-point covered
  by this test.
mysql-test/t/innodb-lock.test:
  Adjusted test case to the fact that innodb_table_locks=0 option is
  no longer supported, since LOCK TABLES WRITE handles all its
  conflicts within MDL subsystem.
mysql-test/t/innodb_mysql_lock.test:
  Added test for bug #37346 "innodb does not detect deadlock between
  update and alter table".
mysql-test/t/lock.test:
  Added test coverage which checks the fact that we no longer support
  DDL under LOCK TABLES on tables which were locked implicitly.
  Adjusted existing test cases accordingly.
mysql-test/t/lock_multi.test:
  Added test for bug #46272 "MySQL 5.4.4, new MDL: unnecessary
  deadlock".  Adjusted other test cases to take into account the
  fact that waiting for LOCK TABLES ... WRITE now happens within MDL
  subsystem.
mysql-test/t/lock_sync.test:
  Since LOCK TABLES ... WRITE now takes SNRW metadata lock for
  tables locked explicitly we have to implicitly lock InnoDB tables
  (through view) to trigger the table-level lock conflict between
  TL_WRITE and TL_WRITE_ALLOW_WRITE.
mysql-test/t/mdl_sync.test:
  Added basic test coverage for type-of-operation-aware metadata
  locks. Also covered with tests some use cases involving HANDLER
  statements in which a deadlock could arise.
  Adjusted existing tests to take type-of-operation-aware MDL into
  account.
mysql-test/t/multi_update.test:
  Update to a new SHOW PROCESSLIST state name.
mysql-test/t/truncate_coverage.test:
  Adjusted test case after making LOCK TABLES WRITE to wait until
  transactions that use the table to be locked are completed.
  Updated to the changed name of DEBUG_SYNC point.
sql/handler.cc:
  Global read lock functionality has been
  moved into a class.
sql/lock.cc:
  Global read lock functionality has been
  moved into a class.
  Updated code to use the new MDL API.
sql/mdl.cc:
  Introduced new type-of-operation aware metadata locks.
  To do this:
  - Changed MDL_lock to use one list for waiting requests and one
    list for granted requests. For each list, added a bitmap
    that holds information what lock types a list contains.
    Added a helper class MDL_lock::List to manipulate with granted
    and waited lists while keeping the bitmaps in sync
    with list contents.
  - Changed lock-compatibility functions to use bitmaps that
    define compatibility.
  - Introduced a graph based deadlock detector inspired by
    waiting_threads.c from Maria implementation.
  - Now that we have a deadlock detector, and no longer have
    a global lock to protect individual lock objects, but rather
    use an rw lock per object, removed redundant code for upgrade,
    and the global read lock. Changed the MDL API to
    no longer require the caller to acquire the global
    intention exclusive lock by means of a separate method.
    Removed a few more methods that became redundant.
  - Removed deadlock detection heuristic, it has been made
    obsolete by the deadlock detector.
  - With operation-type-aware metadata locks, MDL subsystem has
    become aware of potential conflicts between DDL and open
    transactions. This made it possible to remove calls to
    mysql_abort_transactions_with_shared_lock() from acquisition
    paths for exclusive lock and lock upgrade. Now we can simply
    wait for these transactions to complete without fear of
    deadlock. Function mysql_lock_abort() has also become
    unnecessary for all conflicting cases except when a DDL
    conflicts with a connection that has an open HANDLER.
sql/mdl.h:
  Introduced new type-of-operation aware metadata locks.
  Introduced a graph based deadlock detector and supporting
  methods.
  Added comments.
  God rid of redundant API calls.
  Renamed m_lt_or_ha_sentinel to m_trans_sentinel,
  since now it guards the global read lock as well as
  LOCK TABLES and HANDLER locks.
sql/mysql_priv.h:
  Moved the global read lock functionality into a
  class.
  Added MYSQL_OPEN_FORCE_SHARED_MDL flag which forces
  open_tables() to take MDL_SHARED on tables instead of
  metadata locks specified in the parser. We use this to
  allow PREPARE run concurrently in presence of
  LOCK TABLES ... WRITE.
  Added signature for find_table_for_mdl_ugprade().
sql/set_var.cc:
  Global read lock functionality has been
  moved into a class.
sql/sp_head.cc:
  When creating TABLE_LIST elements for prelocking or
  system tables set the type of request for metadata
  lock according to the operation that will be performed
  on the table.
sql/sql_base.cc:
  - Updated code to use the new MDL API.
  - In order to avoid locks starvation we take upgradable
    locks all at once. As result implicitly locked tables no
    longer get an upgradable lock. Consequently DDL and FLUSH
    TABLES for such tables is prohibited.
    find_write_locked_table() was replaced by
    find_table_for_mdl_upgrade() function.
    open_table() was adjusted to return TABLE instance with
    upgradable ticket when necessary.
  - We no longer wait for all locks on OT_WAIT back off
    action -- only on the lock that caused the wait
    conflict. Moreover, now we distinguish cases when we
    have to wait due to conflict in MDL and old version
    of table in TDC.
  - Upate mysql_notify_threads_having_share_locks()
    to only abort thr_lock.c waits of threads that
    have open HANDLERs, since lock conflicts with only
    these threads now can lead to deadlocks not detectable
    by the MDL deadlock detector.
  - Remove mysql_abort_transactions_with_shared_locks()
    which is no longer needed.
sql/sql_class.cc:
  Global read lock functionality has been moved into a class.
  Re-arranged code in THD::cleanup() to simplify assert.
sql/sql_class.h:
  Introduced class to incapsulate global read lock
  functionality.
  Now sentinel in MDL subsystem guards the global read lock
  as well as LOCK TABLES and HANDLER locks. Adjusted code
  accordingly.
sql/sql_db.cc:
  Global read lock functionality has been moved into a class.
sql/sql_delete.cc:
  We no longer acquire upgradable metadata locks on tables
  which are locked by LOCK TABLES implicitly. As result
  TRUNCATE TABLE is no longer allowed for such tables.
  Updated code to use the new MDL API.
sql/sql_handler.cc:
  Inform MDL_context about presence of open HANDLERs.
  Since HANLDERs break MDL protocol by acquiring table-level
  lock while holding only S metadata lock on a table MDL
  subsystem should take special care about such contexts (Now
  this is the only case when mysql_lock_abort() is used).
sql/sql_parse.cc:
  Global read lock functionality has been moved into a class.
  Do not take upgradable metadata locks when opening tables
  for CREATE TABLE SELECT as it is not necessary and limits
  concurrency.
  When initializing TABLE_LIST objects before adding them
  to the table list set the type of request for metadata lock
  according to the operation that will be performed on the
  table.
  We no longer acquire upgradable metadata locks on tables
  which are locked by LOCK TABLES implicitly. As result FLUSH
  TABLES is no longer allowed for such tables.
sql/sql_prepare.cc:
  Use MYSQL_OPEN_FORCE_SHARED_MDL flag when opening
  tables during PREPARE. This allows PREPARE to run
  concurrently in presence of LOCK TABLES ... WRITE.
sql/sql_rename.cc:
  Global read lock functionality has been moved into a class.
sql/sql_show.cc:
  Updated code to use the new MDL API.
sql/sql_table.cc:
  Global read lock functionality has been moved into a class.
  We no longer acquire upgradable metadata locks on tables
  which are locked by LOCK TABLES implicitly. As result DROP
  TABLE is no longer allowed for such tables.
  Updated code to use the new MDL API.
sql/sql_trigger.cc:
  Global read lock functionality has been moved into a class.
  We no longer acquire upgradable metadata locks on tables
  which are locked by LOCK TABLES implicitly. As result
  CREATE/DROP TRIGGER is no longer allowed for such tables.
  Updated code to use the new MDL API.
sql/sql_view.cc:
  Global read lock functionality has been moved into a class.
  Fixed results of wrong merge that led to misuse of GLR API.
  CREATE VIEW statement is not a commit statement.
sql/table.cc:
  When resetting TABLE_LIST objects for PS or SP re-execution
  set the type of request for metadata lock according to the
  operation that will be performed on the table. Do the same
  in auxiliary function initializing metadata lock requests
  in a table list.
sql/table.h:
  When initializing TABLE_LIST objects set the type of request
  for metadata lock according to the operation that will be
  performed on the table.
sql/transaction.cc:
  Global read lock functionality has been moved into a class.
2010-02-01 14:43:06 +03:00

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/* Copyright (C) 1995-2002 MySQL AB
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; version 2 of the License.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */
/**
@file
This file contains the implementation of prepared statements.
When one prepares a statement:
- Server gets the query from client with command 'COM_STMT_PREPARE';
in the following format:
[COM_STMT_PREPARE:1] [query]
- Parse the query and recognize any parameter markers '?' and
store its information list in lex->param_list
- Allocate a new statement for this prepare; and keep this in
'thd->stmt_map'.
- Without executing the query, return back to client the total
number of parameters along with result-set metadata information
(if any) in the following format:
@verbatim
[STMT_ID:4]
[Column_count:2]
[Param_count:2]
[Params meta info (stubs only for now)] (if Param_count > 0)
[Columns meta info] (if Column_count > 0)
@endverbatim
During prepare the tables used in a statement are opened, but no
locks are acquired. Table opening will block any DDL during the
operation, and we do not need any locks as we neither read nor
modify any data during prepare. Tables are closed after prepare
finishes.
When one executes a statement:
- Server gets the command 'COM_STMT_EXECUTE' to execute the
previously prepared query. If there are any parameter markers, then the
client will send the data in the following format:
@verbatim
[COM_STMT_EXECUTE:1]
[STMT_ID:4]
[NULL_BITS:(param_count+7)/8)]
[TYPES_SUPPLIED_BY_CLIENT(0/1):1]
[[length]data]
[[length]data] .. [[length]data].
@endverbatim
(Note: Except for string/binary types; all other types will not be
supplied with length field)
- If it is a first execute or types of parameters were altered by client,
then setup the conversion routines.
- Assign parameter items from the supplied data.
- Execute the query without re-parsing and send back the results
to client
During execution of prepared statement tables are opened and locked
the same way they would for normal (non-prepared) statement
execution. Tables are unlocked and closed after the execution.
When one supplies long data for a placeholder:
- Server gets the long data in pieces with command type
'COM_STMT_SEND_LONG_DATA'.
- The packet recieved will have the format as:
[COM_STMT_SEND_LONG_DATA:1][STMT_ID:4][parameter_number:2][data]
- data from the packet is appended to the long data value buffer for this
placeholder.
- It's up to the client to stop supplying data chunks at any point. The
server doesn't care; also, the server doesn't notify the client whether
it got the data or not; if there is any error, then it will be returned
at statement execute.
*/
#include "mysql_priv.h"
#include "sql_prepare.h"
#include "sql_select.h" // for JOIN
#include "sql_cursor.h"
#include "sp_head.h"
#include "sp.h"
#include "sp_cache.h"
#include "probes_mysql.h"
#ifdef EMBEDDED_LIBRARY
/* include MYSQL_BIND headers */
#include <mysql.h>
#else
#include <mysql_com.h>
#endif
/**
A result class used to send cursor rows using the binary protocol.
*/
class Select_fetch_protocol_binary: public select_send
{
Protocol_binary protocol;
public:
Select_fetch_protocol_binary(THD *thd);
virtual bool send_result_set_metadata(List<Item> &list, uint flags);
virtual bool send_data(List<Item> &items);
virtual bool send_eof();
#ifdef EMBEDDED_LIBRARY
void begin_dataset()
{
protocol.begin_dataset();
}
#endif
};
/****************************************************************************/
/**
Prepared_statement: a statement that can contain placeholders.
*/
class Prepared_statement: public Statement
{
public:
enum flag_values
{
IS_IN_USE= 1,
IS_SQL_PREPARE= 2
};
THD *thd;
Select_fetch_protocol_binary result;
Item_param **param_array;
uint param_count;
uint last_errno;
uint flags;
char last_error[MYSQL_ERRMSG_SIZE];
#ifndef EMBEDDED_LIBRARY
bool (*set_params)(Prepared_statement *st, uchar *data, uchar *data_end,
uchar *read_pos, String *expanded_query);
#else
bool (*set_params_data)(Prepared_statement *st, String *expanded_query);
#endif
bool (*set_params_from_vars)(Prepared_statement *stmt,
List<LEX_STRING>& varnames,
String *expanded_query);
public:
Prepared_statement(THD *thd_arg);
virtual ~Prepared_statement();
void setup_set_params();
virtual Query_arena::Type type() const;
virtual void cleanup_stmt();
bool set_name(LEX_STRING *name);
inline void close_cursor() { delete cursor; cursor= 0; }
inline bool is_in_use() { return flags & (uint) IS_IN_USE; }
inline bool is_sql_prepare() const { return flags & (uint) IS_SQL_PREPARE; }
void set_sql_prepare() { flags|= (uint) IS_SQL_PREPARE; }
bool prepare(const char *packet, uint packet_length);
bool execute_loop(String *expanded_query,
bool open_cursor,
uchar *packet_arg, uchar *packet_end_arg);
bool execute_server_runnable(Server_runnable *server_runnable);
/* Destroy this statement */
void deallocate();
private:
/**
The memory root to allocate parsed tree elements (instances of Item,
SELECT_LEX and other classes).
*/
MEM_ROOT main_mem_root;
private:
bool set_db(const char *db, uint db_length);
bool set_parameters(String *expanded_query,
uchar *packet, uchar *packet_end);
bool execute(String *expanded_query, bool open_cursor);
bool reprepare();
bool validate_metadata(Prepared_statement *copy);
void swap_prepared_statement(Prepared_statement *copy);
};
/**
Execute one SQL statement in an isolated context.
*/
class Execute_sql_statement: public Server_runnable
{
public:
Execute_sql_statement(LEX_STRING sql_text);
virtual bool execute_server_code(THD *thd);
private:
LEX_STRING m_sql_text;
};
class Ed_connection;
/**
Protocol_local: a helper class to intercept the result
of the data written to the network.
*/
class Protocol_local :public Protocol
{
public:
Protocol_local(THD *thd, Ed_connection *ed_connection);
~Protocol_local() { free_root(&m_rset_root, MYF(0)); }
protected:
virtual void prepare_for_resend();
virtual bool write();
virtual bool store_null();
virtual bool store_tiny(longlong from);
virtual bool store_short(longlong from);
virtual bool store_long(longlong from);
virtual bool store_longlong(longlong from, bool unsigned_flag);
virtual bool store_decimal(const my_decimal *);
virtual bool store(const char *from, size_t length, CHARSET_INFO *cs);
virtual bool store(const char *from, size_t length,
CHARSET_INFO *fromcs, CHARSET_INFO *tocs);
virtual bool store(MYSQL_TIME *time);
virtual bool store_date(MYSQL_TIME *time);
virtual bool store_time(MYSQL_TIME *time);
virtual bool store(float value, uint32 decimals, String *buffer);
virtual bool store(double value, uint32 decimals, String *buffer);
virtual bool store(Field *field);
virtual bool send_result_set_metadata(List<Item> *list, uint flags);
virtual bool send_out_parameters(List<Item_param> *sp_params);
#ifdef EMBEDDED_LIBRARY
void remove_last_row();
#endif
virtual enum enum_protocol_type type() { return PROTOCOL_LOCAL; };
virtual bool send_ok(uint server_status, uint statement_warn_count,
ulonglong affected_rows, ulonglong last_insert_id,
const char *message);
virtual bool send_eof(uint server_status, uint statement_warn_count);
virtual bool send_error(uint sql_errno, const char *err_msg, const char* sqlstate);
private:
bool store_string(const char *str, size_t length,
CHARSET_INFO *src_cs, CHARSET_INFO *dst_cs);
bool store_column(const void *data, size_t length);
void opt_add_row_to_rset();
private:
Ed_connection *m_connection;
MEM_ROOT m_rset_root;
List<Ed_row> *m_rset;
size_t m_column_count;
Ed_column *m_current_row;
Ed_column *m_current_column;
};
/******************************************************************************
Implementation
******************************************************************************/
inline bool is_param_null(const uchar *pos, ulong param_no)
{
return pos[param_no/8] & (1 << (param_no & 7));
}
/**
Find a prepared statement in the statement map by id.
Try to find a prepared statement and set THD error if it's not found.
@param thd thread handle
@param id statement id
@param where the place from which this function is called (for
error reporting).
@return
0 if the statement was not found, a pointer otherwise.
*/
static Prepared_statement *
find_prepared_statement(THD *thd, ulong id)
{
/*
To strictly separate namespaces of SQL prepared statements and C API
prepared statements find() will return 0 if there is a named prepared
statement with such id.
*/
Statement *stmt= thd->stmt_map.find(id);
if (stmt == 0 || stmt->type() != Query_arena::PREPARED_STATEMENT)
return NULL;
return (Prepared_statement *) stmt;
}
/**
Send prepared statement id and metadata to the client after prepare.
@todo
Fix this nasty upcast from List<Item_param> to List<Item>
@return
0 in case of success, 1 otherwise
*/
#ifndef EMBEDDED_LIBRARY
static bool send_prep_stmt(Prepared_statement *stmt, uint columns)
{
NET *net= &stmt->thd->net;
uchar buff[12];
uint tmp;
int error;
THD *thd= stmt->thd;
DBUG_ENTER("send_prep_stmt");
buff[0]= 0; /* OK packet indicator */
int4store(buff+1, stmt->id);
int2store(buff+5, columns);
int2store(buff+7, stmt->param_count);
buff[9]= 0; // Guard against a 4.1 client
tmp= min(stmt->thd->warning_info->statement_warn_count(), 65535);
int2store(buff+10, tmp);
/*
Send types and names of placeholders to the client
XXX: fix this nasty upcast from List<Item_param> to List<Item>
*/
error= my_net_write(net, buff, sizeof(buff));
if (stmt->param_count && ! error)
{
error= thd->protocol_text.send_result_set_metadata((List<Item> *)
&stmt->lex->param_list,
Protocol::SEND_EOF);
}
/* Flag that a response has already been sent */
thd->stmt_da->disable_status();
DBUG_RETURN(error);
}
#else
static bool send_prep_stmt(Prepared_statement *stmt,
uint columns __attribute__((unused)))
{
THD *thd= stmt->thd;
thd->client_stmt_id= stmt->id;
thd->client_param_count= stmt->param_count;
thd->clear_error();
thd->stmt_da->disable_status();
return 0;
}
#endif /*!EMBEDDED_LIBRARY*/
#ifndef EMBEDDED_LIBRARY
/**
Read the length of the parameter data and return it back to
the caller.
Read data length, position the packet to the first byte after it,
and return the length to the caller.
@param packet a pointer to the data
@param len remaining packet length
@return
Length of data piece.
*/
static ulong get_param_length(uchar **packet, ulong len)
{
reg1 uchar *pos= *packet;
if (len < 1)
return 0;
if (*pos < 251)
{
(*packet)++;
return (ulong) *pos;
}
if (len < 3)
return 0;
if (*pos == 252)
{
(*packet)+=3;
return (ulong) uint2korr(pos+1);
}
if (len < 4)
return 0;
if (*pos == 253)
{
(*packet)+=4;
return (ulong) uint3korr(pos+1);
}
if (len < 5)
return 0;
(*packet)+=9; // Must be 254 when here
/*
In our client-server protocol all numbers bigger than 2^24
stored as 8 bytes with uint8korr. Here we always know that
parameter length is less than 2^4 so don't look at the second
4 bytes. But still we need to obey the protocol hence 9 in the
assignment above.
*/
return (ulong) uint4korr(pos+1);
}
#else
#define get_param_length(packet, len) len
#endif /*!EMBEDDED_LIBRARY*/
/**
Data conversion routines.
All these functions read the data from pos, convert it to requested
type and assign to param; pos is advanced to predefined length.
Make a note that the NULL handling is examined at first execution
(i.e. when input types altered) and for all subsequent executions
we don't read any values for this.
@param param parameter item
@param pos input data buffer
@param len length of data in the buffer
*/
static void set_param_tiny(Item_param *param, uchar **pos, ulong len)
{
#ifndef EMBEDDED_LIBRARY
if (len < 1)
return;
#endif
int8 value= (int8) **pos;
param->set_int(param->unsigned_flag ? (longlong) ((uint8) value) :
(longlong) value, 4);
*pos+= 1;
}
static void set_param_short(Item_param *param, uchar **pos, ulong len)
{
int16 value;
#ifndef EMBEDDED_LIBRARY
if (len < 2)
return;
value= sint2korr(*pos);
#else
shortget(value, *pos);
#endif
param->set_int(param->unsigned_flag ? (longlong) ((uint16) value) :
(longlong) value, 6);
*pos+= 2;
}
static void set_param_int32(Item_param *param, uchar **pos, ulong len)
{
int32 value;
#ifndef EMBEDDED_LIBRARY
if (len < 4)
return;
value= sint4korr(*pos);
#else
longget(value, *pos);
#endif
param->set_int(param->unsigned_flag ? (longlong) ((uint32) value) :
(longlong) value, 11);
*pos+= 4;
}
static void set_param_int64(Item_param *param, uchar **pos, ulong len)
{
longlong value;
#ifndef EMBEDDED_LIBRARY
if (len < 8)
return;
value= (longlong) sint8korr(*pos);
#else
longlongget(value, *pos);
#endif
param->set_int(value, 21);
*pos+= 8;
}
static void set_param_float(Item_param *param, uchar **pos, ulong len)
{
float data;
#ifndef EMBEDDED_LIBRARY
if (len < 4)
return;
float4get(data,*pos);
#else
floatget(data, *pos);
#endif
param->set_double((double) data);
*pos+= 4;
}
static void set_param_double(Item_param *param, uchar **pos, ulong len)
{
double data;
#ifndef EMBEDDED_LIBRARY
if (len < 8)
return;
float8get(data,*pos);
#else
doubleget(data, *pos);
#endif
param->set_double((double) data);
*pos+= 8;
}
static void set_param_decimal(Item_param *param, uchar **pos, ulong len)
{
ulong length= get_param_length(pos, len);
param->set_decimal((char*)*pos, length);
*pos+= length;
}
#ifndef EMBEDDED_LIBRARY
/*
Read date/time/datetime parameter values from network (binary
protocol). See writing counterparts of these functions in
libmysql.c (store_param_{time,date,datetime}).
*/
/**
@todo
Add warning 'Data truncated' here
*/
static void set_param_time(Item_param *param, uchar **pos, ulong len)
{
MYSQL_TIME tm;
ulong length= get_param_length(pos, len);
if (length >= 8)
{
uchar *to= *pos;
uint day;
tm.neg= (bool) to[0];
day= (uint) sint4korr(to+1);
tm.hour= (uint) to[5] + day * 24;
tm.minute= (uint) to[6];
tm.second= (uint) to[7];
tm.second_part= (length > 8) ? (ulong) sint4korr(to+8) : 0;
if (tm.hour > 838)
{
/* TODO: add warning 'Data truncated' here */
tm.hour= 838;
tm.minute= 59;
tm.second= 59;
}
tm.day= tm.year= tm.month= 0;
}
else
set_zero_time(&tm, MYSQL_TIMESTAMP_TIME);
param->set_time(&tm, MYSQL_TIMESTAMP_TIME,
MAX_TIME_WIDTH * MY_CHARSET_BIN_MB_MAXLEN);
*pos+= length;
}
static void set_param_datetime(Item_param *param, uchar **pos, ulong len)
{
MYSQL_TIME tm;
ulong length= get_param_length(pos, len);
if (length >= 4)
{
uchar *to= *pos;
tm.neg= 0;
tm.year= (uint) sint2korr(to);
tm.month= (uint) to[2];
tm.day= (uint) to[3];
if (length > 4)
{
tm.hour= (uint) to[4];
tm.minute= (uint) to[5];
tm.second= (uint) to[6];
}
else
tm.hour= tm.minute= tm.second= 0;
tm.second_part= (length > 7) ? (ulong) sint4korr(to+7) : 0;
}
else
set_zero_time(&tm, MYSQL_TIMESTAMP_DATETIME);
param->set_time(&tm, MYSQL_TIMESTAMP_DATETIME,
MAX_DATETIME_WIDTH * MY_CHARSET_BIN_MB_MAXLEN);
*pos+= length;
}
static void set_param_date(Item_param *param, uchar **pos, ulong len)
{
MYSQL_TIME tm;
ulong length= get_param_length(pos, len);
if (length >= 4)
{
uchar *to= *pos;
tm.year= (uint) sint2korr(to);
tm.month= (uint) to[2];
tm.day= (uint) to[3];
tm.hour= tm.minute= tm.second= 0;
tm.second_part= 0;
tm.neg= 0;
}
else
set_zero_time(&tm, MYSQL_TIMESTAMP_DATE);
param->set_time(&tm, MYSQL_TIMESTAMP_DATE,
MAX_DATE_WIDTH * MY_CHARSET_BIN_MB_MAXLEN);
*pos+= length;
}
#else/*!EMBEDDED_LIBRARY*/
/**
@todo
Add warning 'Data truncated' here
*/
void set_param_time(Item_param *param, uchar **pos, ulong len)
{
MYSQL_TIME tm= *((MYSQL_TIME*)*pos);
tm.hour+= tm.day * 24;
tm.day= tm.year= tm.month= 0;
if (tm.hour > 838)
{
/* TODO: add warning 'Data truncated' here */
tm.hour= 838;
tm.minute= 59;
tm.second= 59;
}
param->set_time(&tm, MYSQL_TIMESTAMP_TIME,
MAX_TIME_WIDTH * MY_CHARSET_BIN_MB_MAXLEN);
}
void set_param_datetime(Item_param *param, uchar **pos, ulong len)
{
MYSQL_TIME tm= *((MYSQL_TIME*)*pos);
tm.neg= 0;
param->set_time(&tm, MYSQL_TIMESTAMP_DATETIME,
MAX_DATETIME_WIDTH * MY_CHARSET_BIN_MB_MAXLEN);
}
void set_param_date(Item_param *param, uchar **pos, ulong len)
{
MYSQL_TIME *to= (MYSQL_TIME*)*pos;
param->set_time(to, MYSQL_TIMESTAMP_DATE,
MAX_DATE_WIDTH * MY_CHARSET_BIN_MB_MAXLEN);
}
#endif /*!EMBEDDED_LIBRARY*/
static void set_param_str(Item_param *param, uchar **pos, ulong len)
{
ulong length= get_param_length(pos, len);
if (length > len)
length= len;
param->set_str((const char *)*pos, length);
*pos+= length;
}
#undef get_param_length
static void setup_one_conversion_function(THD *thd, Item_param *param,
uchar param_type)
{
switch (param_type) {
case MYSQL_TYPE_TINY:
param->set_param_func= set_param_tiny;
param->item_type= Item::INT_ITEM;
param->item_result_type= INT_RESULT;
break;
case MYSQL_TYPE_SHORT:
param->set_param_func= set_param_short;
param->item_type= Item::INT_ITEM;
param->item_result_type= INT_RESULT;
break;
case MYSQL_TYPE_LONG:
param->set_param_func= set_param_int32;
param->item_type= Item::INT_ITEM;
param->item_result_type= INT_RESULT;
break;
case MYSQL_TYPE_LONGLONG:
param->set_param_func= set_param_int64;
param->item_type= Item::INT_ITEM;
param->item_result_type= INT_RESULT;
break;
case MYSQL_TYPE_FLOAT:
param->set_param_func= set_param_float;
param->item_type= Item::REAL_ITEM;
param->item_result_type= REAL_RESULT;
break;
case MYSQL_TYPE_DOUBLE:
param->set_param_func= set_param_double;
param->item_type= Item::REAL_ITEM;
param->item_result_type= REAL_RESULT;
break;
case MYSQL_TYPE_DECIMAL:
case MYSQL_TYPE_NEWDECIMAL:
param->set_param_func= set_param_decimal;
param->item_type= Item::DECIMAL_ITEM;
param->item_result_type= DECIMAL_RESULT;
break;
case MYSQL_TYPE_TIME:
param->set_param_func= set_param_time;
param->item_type= Item::STRING_ITEM;
param->item_result_type= STRING_RESULT;
break;
case MYSQL_TYPE_DATE:
param->set_param_func= set_param_date;
param->item_type= Item::STRING_ITEM;
param->item_result_type= STRING_RESULT;
break;
case MYSQL_TYPE_DATETIME:
case MYSQL_TYPE_TIMESTAMP:
param->set_param_func= set_param_datetime;
param->item_type= Item::STRING_ITEM;
param->item_result_type= STRING_RESULT;
break;
case MYSQL_TYPE_TINY_BLOB:
case MYSQL_TYPE_MEDIUM_BLOB:
case MYSQL_TYPE_LONG_BLOB:
case MYSQL_TYPE_BLOB:
param->set_param_func= set_param_str;
param->value.cs_info.character_set_of_placeholder= &my_charset_bin;
param->value.cs_info.character_set_client=
thd->variables.character_set_client;
DBUG_ASSERT(thd->variables.character_set_client);
param->value.cs_info.final_character_set_of_str_value= &my_charset_bin;
param->item_type= Item::STRING_ITEM;
param->item_result_type= STRING_RESULT;
break;
default:
/*
The client library ensures that we won't get any other typecodes
except typecodes above and typecodes for string types. Marking
label as 'default' lets us to handle malformed packets as well.
*/
{
CHARSET_INFO *fromcs= thd->variables.character_set_client;
CHARSET_INFO *tocs= thd->variables.collation_connection;
uint32 dummy_offset;
param->value.cs_info.character_set_of_placeholder= fromcs;
param->value.cs_info.character_set_client= fromcs;
/*
Setup source and destination character sets so that they
are different only if conversion is necessary: this will
make later checks easier.
*/
param->value.cs_info.final_character_set_of_str_value=
String::needs_conversion(0, fromcs, tocs, &dummy_offset) ?
tocs : fromcs;
param->set_param_func= set_param_str;
/*
Exact value of max_length is not known unless data is converted to
charset of connection, so we have to set it later.
*/
param->item_type= Item::STRING_ITEM;
param->item_result_type= STRING_RESULT;
}
}
param->param_type= (enum enum_field_types) param_type;
}
#ifndef EMBEDDED_LIBRARY
/**
Routines to assign parameters from data supplied by the client.
Update the parameter markers by reading data from the packet and
and generate a valid query for logging.
@note
This function, along with other _with_log functions is called when one of
binary, slow or general logs is open. Logging of prepared statements in
all cases is performed by means of conventional queries: if parameter
data was supplied from C API, each placeholder in the query is
replaced with its actual value; if we're logging a [Dynamic] SQL
prepared statement, parameter markers are replaced with variable names.
Example:
@verbatim
mysqld_stmt_prepare("UPDATE t1 SET a=a*1.25 WHERE a=?")
--> general logs gets [Prepare] UPDATE t1 SET a*1.25 WHERE a=?"
mysqld_stmt_execute(stmt);
--> general and binary logs get
[Execute] UPDATE t1 SET a*1.25 WHERE a=1"
@endverbatim
If a statement has been prepared using SQL syntax:
@verbatim
PREPARE stmt FROM "UPDATE t1 SET a=a*1.25 WHERE a=?"
--> general log gets
[Query] PREPARE stmt FROM "UPDATE ..."
EXECUTE stmt USING @a
--> general log gets
[Query] EXECUTE stmt USING @a;
@endverbatim
@retval
0 if success
@retval
1 otherwise
*/
static bool insert_params_with_log(Prepared_statement *stmt, uchar *null_array,
uchar *read_pos, uchar *data_end,
String *query)
{
THD *thd= stmt->thd;
Item_param **begin= stmt->param_array;
Item_param **end= begin + stmt->param_count;
uint32 length= 0;
String str;
const String *res;
DBUG_ENTER("insert_params_with_log");
if (query->copy(stmt->query(), stmt->query_length(), default_charset_info))
DBUG_RETURN(1);
for (Item_param **it= begin; it < end; ++it)
{
Item_param *param= *it;
if (param->state != Item_param::LONG_DATA_VALUE)
{
if (is_param_null(null_array, (uint) (it - begin)))
param->set_null();
else
{
if (read_pos >= data_end)
DBUG_RETURN(1);
param->set_param_func(param, &read_pos, (uint) (data_end - read_pos));
if (param->state == Item_param::NO_VALUE)
DBUG_RETURN(1);
}
}
res= param->query_val_str(&str);
if (param->convert_str_value(thd))
DBUG_RETURN(1); /* out of memory */
if (query->replace(param->pos_in_query+length, 1, *res))
DBUG_RETURN(1);
length+= res->length()-1;
}
DBUG_RETURN(0);
}
static bool insert_params(Prepared_statement *stmt, uchar *null_array,
uchar *read_pos, uchar *data_end,
String *expanded_query)
{
Item_param **begin= stmt->param_array;
Item_param **end= begin + stmt->param_count;
DBUG_ENTER("insert_params");
for (Item_param **it= begin; it < end; ++it)
{
Item_param *param= *it;
if (param->state != Item_param::LONG_DATA_VALUE)
{
if (is_param_null(null_array, (uint) (it - begin)))
param->set_null();
else
{
if (read_pos >= data_end)
DBUG_RETURN(1);
param->set_param_func(param, &read_pos, (uint) (data_end - read_pos));
if (param->state == Item_param::NO_VALUE)
DBUG_RETURN(1);
}
}
if (param->convert_str_value(stmt->thd))
DBUG_RETURN(1); /* out of memory */
}
DBUG_RETURN(0);
}
static bool setup_conversion_functions(Prepared_statement *stmt,
uchar **data, uchar *data_end)
{
/* skip null bits */
uchar *read_pos= *data + (stmt->param_count+7) / 8;
DBUG_ENTER("setup_conversion_functions");
if (*read_pos++) //types supplied / first execute
{
/*
First execute or types altered by the client, setup the
conversion routines for all parameters (one time)
*/
Item_param **it= stmt->param_array;
Item_param **end= it + stmt->param_count;
THD *thd= stmt->thd;
for (; it < end; ++it)
{
ushort typecode;
const uint signed_bit= 1 << 15;
if (read_pos >= data_end)
DBUG_RETURN(1);
typecode= sint2korr(read_pos);
read_pos+= 2;
(**it).unsigned_flag= test(typecode & signed_bit);
setup_one_conversion_function(thd, *it, (uchar) (typecode & ~signed_bit));
}
}
*data= read_pos;
DBUG_RETURN(0);
}
#else
/**
Embedded counterparts of parameter assignment routines.
The main difference between the embedded library and the server is
that in embedded case we don't serialize/deserialize parameters data.
Additionally, for unknown reason, the client-side flag raised for
changed types of placeholders is ignored and we simply setup conversion
functions at each execute (TODO: fix).
*/
static bool emb_insert_params(Prepared_statement *stmt, String *expanded_query)
{
THD *thd= stmt->thd;
Item_param **it= stmt->param_array;
Item_param **end= it + stmt->param_count;
MYSQL_BIND *client_param= stmt->thd->client_params;
DBUG_ENTER("emb_insert_params");
for (; it < end; ++it, ++client_param)
{
Item_param *param= *it;
setup_one_conversion_function(thd, param, client_param->buffer_type);
if (param->state != Item_param::LONG_DATA_VALUE)
{
if (*client_param->is_null)
param->set_null();
else
{
uchar *buff= (uchar*) client_param->buffer;
param->unsigned_flag= client_param->is_unsigned;
param->set_param_func(param, &buff,
client_param->length ?
*client_param->length :
client_param->buffer_length);
if (param->state == Item_param::NO_VALUE)
DBUG_RETURN(1);
}
}
if (param->convert_str_value(thd))
DBUG_RETURN(1); /* out of memory */
}
DBUG_RETURN(0);
}
static bool emb_insert_params_with_log(Prepared_statement *stmt,
String *query)
{
THD *thd= stmt->thd;
Item_param **it= stmt->param_array;
Item_param **end= it + stmt->param_count;
MYSQL_BIND *client_param= thd->client_params;
String str;
const String *res;
uint32 length= 0;
DBUG_ENTER("emb_insert_params_with_log");
if (query->copy(stmt->query(), stmt->query_length(), default_charset_info))
DBUG_RETURN(1);
for (; it < end; ++it, ++client_param)
{
Item_param *param= *it;
setup_one_conversion_function(thd, param, client_param->buffer_type);
if (param->state != Item_param::LONG_DATA_VALUE)
{
if (*client_param->is_null)
param->set_null();
else
{
uchar *buff= (uchar*)client_param->buffer;
param->unsigned_flag= client_param->is_unsigned;
param->set_param_func(param, &buff,
client_param->length ?
*client_param->length :
client_param->buffer_length);
if (param->state == Item_param::NO_VALUE)
DBUG_RETURN(1);
}
}
res= param->query_val_str(&str);
if (param->convert_str_value(thd))
DBUG_RETURN(1); /* out of memory */
if (query->replace(param->pos_in_query+length, 1, *res))
DBUG_RETURN(1);
length+= res->length()-1;
}
DBUG_RETURN(0);
}
#endif /*!EMBEDDED_LIBRARY*/
/**
Setup data conversion routines using an array of parameter
markers from the original prepared statement.
Swap the parameter data of the original prepared
statement to the new one.
Used only when we re-prepare a prepared statement.
There are two reasons for this function to exist:
1) In the binary client/server protocol, parameter metadata
is sent only at first execute. Consequently, if we need to
reprepare a prepared statement at a subsequent execution,
we may not have metadata information in the packet.
In that case we use the parameter array of the original
prepared statement to setup parameter types of the new
prepared statement.
2) In the binary client/server protocol, we may supply
long data in pieces. When the last piece is supplied,
we assemble the pieces and convert them from client
character set to the connection character set. After
that the parameter value is only available inside
the parameter, the original pieces are lost, and thus
we can only assign the corresponding parameter of the
reprepared statement from the original value.
@param[out] param_array_dst parameter markers of the new statement
@param[in] param_array_src parameter markers of the original
statement
@param[in] param_count total number of parameters. Is the
same in src and dst arrays, since
the statement query is the same
@return this function never fails
*/
static void
swap_parameter_array(Item_param **param_array_dst,
Item_param **param_array_src,
uint param_count)
{
Item_param **dst= param_array_dst;
Item_param **src= param_array_src;
Item_param **end= param_array_dst + param_count;
for (; dst < end; ++src, ++dst)
(*dst)->set_param_type_and_swap_value(*src);
}
/**
Assign prepared statement parameters from user variables.
@param stmt Statement
@param varnames List of variables. Caller must ensure that number
of variables in the list is equal to number of statement
parameters
@param query Ignored
*/
static bool insert_params_from_vars(Prepared_statement *stmt,
List<LEX_STRING>& varnames,
String *query __attribute__((unused)))
{
Item_param **begin= stmt->param_array;
Item_param **end= begin + stmt->param_count;
user_var_entry *entry;
LEX_STRING *varname;
List_iterator<LEX_STRING> var_it(varnames);
DBUG_ENTER("insert_params_from_vars");
for (Item_param **it= begin; it < end; ++it)
{
Item_param *param= *it;
varname= var_it++;
entry= (user_var_entry*)my_hash_search(&stmt->thd->user_vars,
(uchar*) varname->str,
varname->length);
if (param->set_from_user_var(stmt->thd, entry) ||
param->convert_str_value(stmt->thd))
DBUG_RETURN(1);
}
DBUG_RETURN(0);
}
/**
Do the same as insert_params_from_vars but also construct query text for
binary log.
@param stmt Prepared statement
@param varnames List of variables. Caller must ensure that number of
variables in the list is equal to number of statement
parameters
@param query The query with parameter markers replaced with corresponding
user variables that were used to execute the query.
*/
static bool insert_params_from_vars_with_log(Prepared_statement *stmt,
List<LEX_STRING>& varnames,
String *query)
{
Item_param **begin= stmt->param_array;
Item_param **end= begin + stmt->param_count;
user_var_entry *entry;
LEX_STRING *varname;
List_iterator<LEX_STRING> var_it(varnames);
String buf;
const String *val;
uint32 length= 0;
THD *thd= stmt->thd;
DBUG_ENTER("insert_params_from_vars");
if (query->copy(stmt->query(), stmt->query_length(), default_charset_info))
DBUG_RETURN(1);
for (Item_param **it= begin; it < end; ++it)
{
Item_param *param= *it;
varname= var_it++;
entry= (user_var_entry *) my_hash_search(&thd->user_vars, (uchar*)
varname->str, varname->length);
/*
We have to call the setup_one_conversion_function() here to set
the parameter's members that might be needed further
(e.g. value.cs_info.character_set_client is used in the query_val_str()).
*/
setup_one_conversion_function(thd, param, param->param_type);
if (param->set_from_user_var(thd, entry))
DBUG_RETURN(1);
val= param->query_val_str(&buf);
if (param->convert_str_value(thd))
DBUG_RETURN(1); /* out of memory */
if (query->replace(param->pos_in_query+length, 1, *val))
DBUG_RETURN(1);
length+= val->length()-1;
}
DBUG_RETURN(0);
}
/**
Validate INSERT statement.
@param stmt prepared statement
@param tables global/local table list
@retval
FALSE success
@retval
TRUE error, error message is set in THD
*/
static bool mysql_test_insert(Prepared_statement *stmt,
TABLE_LIST *table_list,
List<Item> &fields,
List<List_item> &values_list,
List<Item> &update_fields,
List<Item> &update_values,
enum_duplicates duplic)
{
THD *thd= stmt->thd;
List_iterator_fast<List_item> its(values_list);
List_item *values;
DBUG_ENTER("mysql_test_insert");
if (insert_precheck(thd, table_list))
goto error;
/*
open temporary memory pool for temporary data allocated by derived
tables & preparation procedure
Note that this is done without locks (should not be needed as we will not
access any data here)
If we would use locks, then we have to ensure we are not using
TL_WRITE_DELAYED as having two such locks can cause table corruption.
*/
if (open_normal_and_derived_tables(thd, table_list,
MYSQL_OPEN_FORCE_SHARED_MDL))
goto error;
if ((values= its++))
{
uint value_count;
ulong counter= 0;
Item *unused_conds= 0;
if (table_list->table)
{
// don't allocate insert_values
table_list->table->insert_values=(uchar *)1;
}
if (mysql_prepare_insert(thd, table_list, table_list->table,
fields, values, update_fields, update_values,
duplic, &unused_conds, FALSE, FALSE, FALSE))
goto error;
value_count= values->elements;
its.rewind();
if (table_list->lock_type == TL_WRITE_DELAYED &&
!(table_list->table->file->ha_table_flags() & HA_CAN_INSERT_DELAYED))
{
my_error(ER_DELAYED_NOT_SUPPORTED, MYF(0), (table_list->view ?
table_list->view_name.str :
table_list->table_name));
goto error;
}
while ((values= its++))
{
counter++;
if (values->elements != value_count)
{
my_error(ER_WRONG_VALUE_COUNT_ON_ROW, MYF(0), counter);
goto error;
}
if (setup_fields(thd, 0, *values, MARK_COLUMNS_NONE, 0, 0))
goto error;
}
}
DBUG_RETURN(FALSE);
error:
/* insert_values is cleared in open_table */
DBUG_RETURN(TRUE);
}
/**
Validate UPDATE statement.
@param stmt prepared statement
@param tables list of tables used in this query
@todo
- here we should send types of placeholders to the client.
@retval
0 success
@retval
1 error, error message is set in THD
@retval
2 convert to multi_update
*/
static int mysql_test_update(Prepared_statement *stmt,
TABLE_LIST *table_list)
{
int res;
THD *thd= stmt->thd;
uint table_count= 0;
SELECT_LEX *select= &stmt->lex->select_lex;
#ifndef NO_EMBEDDED_ACCESS_CHECKS
uint want_privilege;
#endif
DBUG_ENTER("mysql_test_update");
if (update_precheck(thd, table_list) ||
open_tables(thd, &table_list, &table_count, MYSQL_OPEN_FORCE_SHARED_MDL))
goto error;
if (table_list->multitable_view)
{
DBUG_ASSERT(table_list->view != 0);
DBUG_PRINT("info", ("Switch to multi-update"));
/* pass counter value */
thd->lex->table_count= table_count;
/* convert to multiupdate */
DBUG_RETURN(2);
}
/*
thd->fill_derived_tables() is false here for sure (because it is
preparation of PS, so we even do not check it).
*/
if (mysql_handle_derived(thd->lex, &mysql_derived_prepare))
goto error;
#ifndef NO_EMBEDDED_ACCESS_CHECKS
/* Force privilege re-checking for views after they have been opened. */
want_privilege= (table_list->view ? UPDATE_ACL :
table_list->grant.want_privilege);
#endif
if (mysql_prepare_update(thd, table_list, &select->where,
select->order_list.elements,
(ORDER *) select->order_list.first))
goto error;
#ifndef NO_EMBEDDED_ACCESS_CHECKS
table_list->grant.want_privilege= want_privilege;
table_list->table->grant.want_privilege= want_privilege;
table_list->register_want_access(want_privilege);
#endif
thd->lex->select_lex.no_wrap_view_item= TRUE;
res= setup_fields(thd, 0, select->item_list, MARK_COLUMNS_READ, 0, 0);
thd->lex->select_lex.no_wrap_view_item= FALSE;
if (res)
goto error;
#ifndef NO_EMBEDDED_ACCESS_CHECKS
/* Check values */
table_list->grant.want_privilege=
table_list->table->grant.want_privilege=
(SELECT_ACL & ~table_list->table->grant.privilege);
table_list->register_want_access(SELECT_ACL);
#endif
if (setup_fields(thd, 0, stmt->lex->value_list, MARK_COLUMNS_NONE, 0, 0))
goto error;
/* TODO: here we should send types of placeholders to the client. */
DBUG_RETURN(0);
error:
DBUG_RETURN(1);
}
/**
Validate DELETE statement.
@param stmt prepared statement
@param tables list of tables used in this query
@retval
FALSE success
@retval
TRUE error, error message is set in THD
*/
static bool mysql_test_delete(Prepared_statement *stmt,
TABLE_LIST *table_list)
{
THD *thd= stmt->thd;
LEX *lex= stmt->lex;
DBUG_ENTER("mysql_test_delete");
if (delete_precheck(thd, table_list) ||
open_normal_and_derived_tables(thd, table_list,
MYSQL_OPEN_FORCE_SHARED_MDL))
goto error;
if (!table_list->table)
{
my_error(ER_VIEW_DELETE_MERGE_VIEW, MYF(0),
table_list->view_db.str, table_list->view_name.str);
goto error;
}
DBUG_RETURN(mysql_prepare_delete(thd, table_list, &lex->select_lex.where));
error:
DBUG_RETURN(TRUE);
}
/**
Validate SELECT statement.
In case of success, if this query is not EXPLAIN, send column list info
back to the client.
@param stmt prepared statement
@param tables list of tables used in the query
@retval
0 success
@retval
1 error, error message is set in THD
@retval
2 success, and statement metadata has been sent
*/
static int mysql_test_select(Prepared_statement *stmt,
TABLE_LIST *tables)
{
THD *thd= stmt->thd;
LEX *lex= stmt->lex;
SELECT_LEX_UNIT *unit= &lex->unit;
DBUG_ENTER("mysql_test_select");
lex->select_lex.context.resolve_in_select_list= TRUE;
ulong privilege= lex->exchange ? SELECT_ACL | FILE_ACL : SELECT_ACL;
if (tables)
{
if (check_table_access(thd, privilege, tables, FALSE, UINT_MAX, FALSE))
goto error;
}
else if (check_access(thd, privilege, any_db,0,0,0,0))
goto error;
if (!lex->result && !(lex->result= new (stmt->mem_root) select_send))
{
my_error(ER_OUTOFMEMORY, MYF(0), sizeof(select_send));
goto error;
}
if (open_normal_and_derived_tables(thd, tables, MYSQL_OPEN_FORCE_SHARED_MDL))
goto error;
thd->used_tables= 0; // Updated by setup_fields
/*
JOIN::prepare calls
It is not SELECT COMMAND for sure, so setup_tables will be called as
usual, and we pass 0 as setup_tables_done_option
*/
if (unit->prepare(thd, 0, 0))
goto error;
if (!lex->describe && !stmt->is_sql_prepare())
{
/* Make copy of item list, as change_columns may change it */
List<Item> fields(lex->select_lex.item_list);
/* Change columns if a procedure like analyse() */
if (unit->last_procedure && unit->last_procedure->change_columns(fields))
goto error;
/*
We can use lex->result as it should've been prepared in
unit->prepare call above.
*/
if (send_prep_stmt(stmt, lex->result->field_count(fields)) ||
lex->result->send_result_set_metadata(fields, Protocol::SEND_EOF) ||
thd->protocol->flush())
goto error;
DBUG_RETURN(2);
}
DBUG_RETURN(0);
error:
DBUG_RETURN(1);
}
/**
Validate and prepare for execution DO statement expressions.
@param stmt prepared statement
@param tables list of tables used in this query
@param values list of expressions
@retval
FALSE success
@retval
TRUE error, error message is set in THD
*/
static bool mysql_test_do_fields(Prepared_statement *stmt,
TABLE_LIST *tables,
List<Item> *values)
{
THD *thd= stmt->thd;
DBUG_ENTER("mysql_test_do_fields");
if (tables && check_table_access(thd, SELECT_ACL, tables, FALSE,
UINT_MAX, FALSE))
DBUG_RETURN(TRUE);
if (open_normal_and_derived_tables(thd, tables, MYSQL_OPEN_FORCE_SHARED_MDL))
DBUG_RETURN(TRUE);
DBUG_RETURN(setup_fields(thd, 0, *values, MARK_COLUMNS_NONE, 0, 0));
}
/**
Validate and prepare for execution SET statement expressions.
@param stmt prepared statement
@param tables list of tables used in this query
@param values list of expressions
@retval
FALSE success
@retval
TRUE error, error message is set in THD
*/
static bool mysql_test_set_fields(Prepared_statement *stmt,
TABLE_LIST *tables,
List<set_var_base> *var_list)
{
DBUG_ENTER("mysql_test_set_fields");
List_iterator_fast<set_var_base> it(*var_list);
THD *thd= stmt->thd;
set_var_base *var;
if ((tables && check_table_access(thd, SELECT_ACL, tables, FALSE,
UINT_MAX, FALSE)) ||
open_normal_and_derived_tables(thd, tables, MYSQL_OPEN_FORCE_SHARED_MDL))
goto error;
while ((var= it++))
{
if (var->light_check(thd))
goto error;
}
DBUG_RETURN(FALSE);
error:
DBUG_RETURN(TRUE);
}
/**
Validate and prepare for execution CALL statement expressions.
@param stmt prepared statement
@param tables list of tables used in this query
@param value_list list of expressions
@retval FALSE success
@retval TRUE error, error message is set in THD
*/
static bool mysql_test_call_fields(Prepared_statement *stmt,
TABLE_LIST *tables,
List<Item> *value_list)
{
DBUG_ENTER("mysql_test_call_fields");
List_iterator<Item> it(*value_list);
THD *thd= stmt->thd;
Item *item;
if ((tables && check_table_access(thd, SELECT_ACL, tables, FALSE,
UINT_MAX, FALSE)) ||
open_normal_and_derived_tables(thd, tables, MYSQL_OPEN_FORCE_SHARED_MDL))
goto err;
while ((item= it++))
{
if ((!item->fixed && item->fix_fields(thd, it.ref())) ||
item->check_cols(1))
goto err;
}
DBUG_RETURN(FALSE);
err:
DBUG_RETURN(TRUE);
}
/**
Check internal SELECT of the prepared command.
@param stmt prepared statement
@param specific_prepare function of command specific prepare
@param setup_tables_done_option options to be passed to LEX::unit.prepare()
@note
This function won't directly open tables used in select. They should
be opened either by calling function (and in this case you probably
should use select_like_stmt_test_with_open()) or by
"specific_prepare" call (like this happens in case of multi-update).
@retval
FALSE success
@retval
TRUE error, error message is set in THD
*/
static bool select_like_stmt_test(Prepared_statement *stmt,
int (*specific_prepare)(THD *thd),
ulong setup_tables_done_option)
{
DBUG_ENTER("select_like_stmt_test");
THD *thd= stmt->thd;
LEX *lex= stmt->lex;
lex->select_lex.context.resolve_in_select_list= TRUE;
if (specific_prepare && (*specific_prepare)(thd))
DBUG_RETURN(TRUE);
thd->used_tables= 0; // Updated by setup_fields
/* Calls JOIN::prepare */
DBUG_RETURN(lex->unit.prepare(thd, 0, setup_tables_done_option));
}
/**
Check internal SELECT of the prepared command (with opening of used
tables).
@param stmt prepared statement
@param tables list of tables to be opened
before calling specific_prepare function
@param specific_prepare function of command specific prepare
@param setup_tables_done_option options to be passed to LEX::unit.prepare()
@retval
FALSE success
@retval
TRUE error
*/
static bool
select_like_stmt_test_with_open(Prepared_statement *stmt,
TABLE_LIST *tables,
int (*specific_prepare)(THD *thd),
ulong setup_tables_done_option)
{
DBUG_ENTER("select_like_stmt_test_with_open");
/*
We should not call LEX::unit.cleanup() after this
open_normal_and_derived_tables() call because we don't allow
prepared EXPLAIN yet so derived tables will clean up after
themself.
*/
if (open_normal_and_derived_tables(stmt->thd, tables,
MYSQL_OPEN_FORCE_SHARED_MDL))
DBUG_RETURN(TRUE);
DBUG_RETURN(select_like_stmt_test(stmt, specific_prepare,
setup_tables_done_option));
}
/**
Validate and prepare for execution CREATE TABLE statement.
@param stmt prepared statement
@param tables list of tables used in this query
@retval
FALSE success
@retval
TRUE error, error message is set in THD
*/
static bool mysql_test_create_table(Prepared_statement *stmt)
{
DBUG_ENTER("mysql_test_create_table");
THD *thd= stmt->thd;
LEX *lex= stmt->lex;
SELECT_LEX *select_lex= &lex->select_lex;
bool res= FALSE;
bool link_to_local;
TABLE_LIST *create_table= lex->query_tables;
TABLE_LIST *tables= lex->create_last_non_select_table->next_global;
if (create_table_precheck(thd, tables, create_table))
DBUG_RETURN(TRUE);
/*
The open and lock strategies will be set again once the
statement is executed. These values are only meaningful
for the prepare phase.
*/
create_table->open_strategy= TABLE_LIST::OPEN_IF_EXISTS;
create_table->lock_strategy= TABLE_LIST::SHARED_MDL;
if (select_lex->item_list.elements)
{
if (open_normal_and_derived_tables(stmt->thd, lex->query_tables,
MYSQL_OPEN_FORCE_SHARED_MDL))
DBUG_RETURN(TRUE);
select_lex->context.resolve_in_select_list= TRUE;
lex->unlink_first_table(&link_to_local);
res= select_like_stmt_test(stmt, 0, 0);
lex->link_first_table_back(create_table, &link_to_local);
}
else
{
/*
Check that the source table exist, and also record
its metadata version. Even though not strictly necessary,
we validate metadata of all CREATE TABLE statements,
which keeps metadata validation code simple.
*/
if (open_normal_and_derived_tables(stmt->thd, lex->query_tables,
MYSQL_OPEN_FORCE_SHARED_MDL))
DBUG_RETURN(TRUE);
}
DBUG_RETURN(res);
}
/**
@brief Validate and prepare for execution CREATE VIEW statement
@param stmt prepared statement
@note This function handles create view commands.
@retval FALSE Operation was a success.
@retval TRUE An error occured.
*/
static bool mysql_test_create_view(Prepared_statement *stmt)
{
DBUG_ENTER("mysql_test_create_view");
THD *thd= stmt->thd;
LEX *lex= stmt->lex;
bool res= TRUE;
/* Skip first table, which is the view we are creating */
bool link_to_local;
TABLE_LIST *view= lex->unlink_first_table(&link_to_local);
TABLE_LIST *tables= lex->query_tables;
if (create_view_precheck(thd, tables, view, lex->create_view_mode))
goto err;
if (open_normal_and_derived_tables(thd, tables, MYSQL_OPEN_FORCE_SHARED_MDL))
goto err;
lex->view_prepare_mode= 1;
res= select_like_stmt_test(stmt, 0, 0);
err:
/* put view back for PS rexecuting */
lex->link_first_table_back(view, link_to_local);
DBUG_RETURN(res);
}
/*
Validate and prepare for execution a multi update statement.
@param stmt prepared statement
@param tables list of tables used in this query
@param converted converted to multi-update from usual update
@retval
FALSE success
@retval
TRUE error, error message is set in THD
*/
static bool mysql_test_multiupdate(Prepared_statement *stmt,
TABLE_LIST *tables,
bool converted)
{
/* if we switched from normal update, rights are checked */
if (!converted && multi_update_precheck(stmt->thd, tables))
return TRUE;
return select_like_stmt_test(stmt, &mysql_multi_update_prepare,
OPTION_SETUP_TABLES_DONE);
}
/**
Validate and prepare for execution a multi delete statement.
@param stmt prepared statement
@param tables list of tables used in this query
@retval
FALSE success
@retval
TRUE error, error message in THD is set.
*/
static bool mysql_test_multidelete(Prepared_statement *stmt,
TABLE_LIST *tables)
{
stmt->thd->lex->current_select= &stmt->thd->lex->select_lex;
if (add_item_to_list(stmt->thd, new Item_null()))
{
my_error(ER_OUTOFMEMORY, MYF(0), 0);
goto error;
}
if (multi_delete_precheck(stmt->thd, tables) ||
select_like_stmt_test_with_open(stmt, tables,
&mysql_multi_delete_prepare,
OPTION_SETUP_TABLES_DONE))
goto error;
if (!tables->table)
{
my_error(ER_VIEW_DELETE_MERGE_VIEW, MYF(0),
tables->view_db.str, tables->view_name.str);
goto error;
}
return FALSE;
error:
return TRUE;
}
/**
Wrapper for mysql_insert_select_prepare, to make change of local tables
after open_normal_and_derived_tables() call.
@param thd thread handle
@note
We need to remove the first local table after
open_normal_and_derived_tables(), because mysql_handle_derived
uses local tables lists.
*/
static int mysql_insert_select_prepare_tester(THD *thd)
{
SELECT_LEX *first_select= &thd->lex->select_lex;
TABLE_LIST *second_table= ((TABLE_LIST*)first_select->table_list.first)->
next_local;
/* Skip first table, which is the table we are inserting in */
first_select->table_list.first= (uchar *) second_table;
thd->lex->select_lex.context.table_list=
thd->lex->select_lex.context.first_name_resolution_table= second_table;
return mysql_insert_select_prepare(thd);
}
/**
Validate and prepare for execution INSERT ... SELECT statement.
@param stmt prepared statement
@param tables list of tables used in this query
@retval
FALSE success
@retval
TRUE error, error message is set in THD
*/
static bool mysql_test_insert_select(Prepared_statement *stmt,
TABLE_LIST *tables)
{
int res;
LEX *lex= stmt->lex;
TABLE_LIST *first_local_table;
if (tables->table)
{
// don't allocate insert_values
tables->table->insert_values=(uchar *)1;
}
if (insert_precheck(stmt->thd, tables))
return 1;
/* store it, because mysql_insert_select_prepare_tester change it */
first_local_table= (TABLE_LIST *)lex->select_lex.table_list.first;
DBUG_ASSERT(first_local_table != 0);
res=
select_like_stmt_test_with_open(stmt, tables,
&mysql_insert_select_prepare_tester,
OPTION_SETUP_TABLES_DONE);
/* revert changes made by mysql_insert_select_prepare_tester */
lex->select_lex.table_list.first= (uchar*) first_local_table;
return res;
}
/**
Perform semantic analysis of the parsed tree and send a response packet
to the client.
This function
- opens all tables and checks access rights
- validates semantics of statement columns and SQL functions
by calling fix_fields.
@param stmt prepared statement
@retval
FALSE success, statement metadata is sent to client
@retval
TRUE error, error message is set in THD (but not sent)
*/
static bool check_prepared_statement(Prepared_statement *stmt)
{
THD *thd= stmt->thd;
LEX *lex= stmt->lex;
SELECT_LEX *select_lex= &lex->select_lex;
TABLE_LIST *tables;
enum enum_sql_command sql_command= lex->sql_command;
int res= 0;
DBUG_ENTER("check_prepared_statement");
DBUG_PRINT("enter",("command: %d param_count: %u",
sql_command, stmt->param_count));
lex->first_lists_tables_same();
tables= lex->query_tables;
/* set context for commands which do not use setup_tables */
lex->select_lex.context.resolve_in_table_list_only(select_lex->
get_table_list());
/* Reset warning count for each query that uses tables */
if (tables)
thd->warning_info->opt_clear_warning_info(thd->query_id);
switch (sql_command) {
case SQLCOM_REPLACE:
case SQLCOM_INSERT:
res= mysql_test_insert(stmt, tables, lex->field_list,
lex->many_values,
lex->update_list, lex->value_list,
lex->duplicates);
break;
case SQLCOM_UPDATE:
res= mysql_test_update(stmt, tables);
/* mysql_test_update returns 2 if we need to switch to multi-update */
if (res != 2)
break;
case SQLCOM_UPDATE_MULTI:
res= mysql_test_multiupdate(stmt, tables, res == 2);
break;
case SQLCOM_DELETE:
res= mysql_test_delete(stmt, tables);
break;
/* The following allow WHERE clause, so they must be tested like SELECT */
case SQLCOM_SHOW_DATABASES:
case SQLCOM_SHOW_TABLES:
case SQLCOM_SHOW_TRIGGERS:
case SQLCOM_SHOW_EVENTS:
case SQLCOM_SHOW_OPEN_TABLES:
case SQLCOM_SHOW_FIELDS:
case SQLCOM_SHOW_KEYS:
case SQLCOM_SHOW_COLLATIONS:
case SQLCOM_SHOW_CHARSETS:
case SQLCOM_SHOW_VARIABLES:
case SQLCOM_SHOW_STATUS:
case SQLCOM_SHOW_TABLE_STATUS:
case SQLCOM_SHOW_STATUS_PROC:
case SQLCOM_SHOW_STATUS_FUNC:
case SQLCOM_SELECT:
res= mysql_test_select(stmt, tables);
if (res == 2)
{
/* Statement and field info has already been sent */
DBUG_RETURN(FALSE);
}
break;
case SQLCOM_CREATE_TABLE:
res= mysql_test_create_table(stmt);
break;
case SQLCOM_CREATE_VIEW:
if (lex->create_view_mode == VIEW_ALTER)
{
my_message(ER_UNSUPPORTED_PS, ER(ER_UNSUPPORTED_PS), MYF(0));
goto error;
}
res= mysql_test_create_view(stmt);
break;
case SQLCOM_DO:
res= mysql_test_do_fields(stmt, tables, lex->insert_list);
break;
case SQLCOM_CALL:
res= mysql_test_call_fields(stmt, tables, &lex->value_list);
break;
case SQLCOM_SET_OPTION:
res= mysql_test_set_fields(stmt, tables, &lex->var_list);
break;
case SQLCOM_DELETE_MULTI:
res= mysql_test_multidelete(stmt, tables);
break;
case SQLCOM_INSERT_SELECT:
case SQLCOM_REPLACE_SELECT:
res= mysql_test_insert_select(stmt, tables);
break;
/*
Note that we don't need to have cases in this list if they are
marked with CF_STATUS_COMMAND in sql_command_flags
*/
case SQLCOM_DROP_TABLE:
case SQLCOM_RENAME_TABLE:
case SQLCOM_ALTER_TABLE:
case SQLCOM_COMMIT:
case SQLCOM_CREATE_INDEX:
case SQLCOM_DROP_INDEX:
case SQLCOM_ROLLBACK:
case SQLCOM_TRUNCATE:
case SQLCOM_DROP_VIEW:
case SQLCOM_REPAIR:
case SQLCOM_ANALYZE:
case SQLCOM_OPTIMIZE:
case SQLCOM_CHANGE_MASTER:
case SQLCOM_RESET:
case SQLCOM_FLUSH:
case SQLCOM_SLAVE_START:
case SQLCOM_SLAVE_STOP:
case SQLCOM_INSTALL_PLUGIN:
case SQLCOM_UNINSTALL_PLUGIN:
case SQLCOM_CREATE_DB:
case SQLCOM_DROP_DB:
case SQLCOM_ALTER_DB_UPGRADE:
case SQLCOM_CHECKSUM:
case SQLCOM_CREATE_USER:
case SQLCOM_RENAME_USER:
case SQLCOM_DROP_USER:
case SQLCOM_ASSIGN_TO_KEYCACHE:
case SQLCOM_PRELOAD_KEYS:
case SQLCOM_GRANT:
case SQLCOM_REVOKE:
case SQLCOM_KILL:
break;
case SQLCOM_PREPARE:
case SQLCOM_EXECUTE:
case SQLCOM_DEALLOCATE_PREPARE:
default:
/*
Trivial check of all status commands. This is easier than having
things in the above case list, as it's less chance for mistakes.
*/
if (!(sql_command_flags[sql_command] & CF_STATUS_COMMAND))
{
/* All other statements are not supported yet. */
my_message(ER_UNSUPPORTED_PS, ER(ER_UNSUPPORTED_PS), MYF(0));
goto error;
}
break;
}
if (res == 0)
DBUG_RETURN(stmt->is_sql_prepare() ?
FALSE : (send_prep_stmt(stmt, 0) || thd->protocol->flush()));
error:
DBUG_RETURN(TRUE);
}
/**
Initialize array of parameters in statement from LEX.
(We need to have quick access to items by number in mysql_stmt_get_longdata).
This is to avoid using malloc/realloc in the parser.
*/
static bool init_param_array(Prepared_statement *stmt)
{
LEX *lex= stmt->lex;
if ((stmt->param_count= lex->param_list.elements))
{
if (stmt->param_count > (uint) UINT_MAX16)
{
/* Error code to be defined in 5.0 */
my_message(ER_PS_MANY_PARAM, ER(ER_PS_MANY_PARAM), MYF(0));
return TRUE;
}
Item_param **to;
List_iterator<Item_param> param_iterator(lex->param_list);
/* Use thd->mem_root as it points at statement mem_root */
stmt->param_array= (Item_param **)
alloc_root(stmt->thd->mem_root,
sizeof(Item_param*) * stmt->param_count);
if (!stmt->param_array)
return TRUE;
for (to= stmt->param_array;
to < stmt->param_array + stmt->param_count;
++to)
{
*to= param_iterator++;
}
}
return FALSE;
}
/**
COM_STMT_PREPARE handler.
Given a query string with parameter markers, create a prepared
statement from it and send PS info back to the client.
If parameter markers are found in the query, then store the information
using Item_param along with maintaining a list in lex->param_array, so
that a fast and direct retrieval can be made without going through all
field items.
@param packet query to be prepared
@param packet_length query string length, including ignored
trailing NULL or quote char.
@note
This function parses the query and sends the total number of parameters
and resultset metadata information back to client (if any), without
executing the query i.e. without any log/disk writes. This allows the
queries to be re-executed without re-parsing during execute.
@return
none: in case of success a new statement id and metadata is sent
to the client, otherwise an error message is set in THD.
*/
void mysqld_stmt_prepare(THD *thd, const char *packet, uint packet_length)
{
Protocol *save_protocol= thd->protocol;
Prepared_statement *stmt;
DBUG_ENTER("mysqld_stmt_prepare");
DBUG_PRINT("prep_query", ("%s", packet));
/* First of all clear possible warnings from the previous command */
mysql_reset_thd_for_next_command(thd);
if (! (stmt= new Prepared_statement(thd)))
DBUG_VOID_RETURN; /* out of memory: error is set in Sql_alloc */
if (thd->stmt_map.insert(thd, stmt))
{
/*
The error is set in the insert. The statement itself
will be also deleted there (this is how the hash works).
*/
DBUG_VOID_RETURN;
}
thd->protocol= &thd->protocol_binary;
if (stmt->prepare(packet, packet_length))
{
/* Statement map deletes statement on erase */
thd->stmt_map.erase(stmt);
}
thd->protocol= save_protocol;
/* check_prepared_statemnt sends the metadata packet in case of success */
DBUG_VOID_RETURN;
}
/**
Get an SQL statement text from a user variable or from plain text.
If the statement is plain text, just assign the
pointers, otherwise allocate memory in thd->mem_root and copy
the contents of the variable, possibly with character
set conversion.
@param[in] lex main lex
@param[out] query_len length of the SQL statement (is set only
in case of success)
@retval
non-zero success
@retval
0 in case of error (out of memory)
*/
static const char *get_dynamic_sql_string(LEX *lex, uint *query_len)
{
THD *thd= lex->thd;
char *query_str= 0;
if (lex->prepared_stmt_code_is_varref)
{
/* This is PREPARE stmt FROM or EXECUTE IMMEDIATE @var. */
String str;
CHARSET_INFO *to_cs= thd->variables.collation_connection;
bool needs_conversion;
user_var_entry *entry;
String *var_value= &str;
uint32 unused, len;
/*
Convert @var contents to string in connection character set. Although
it is known that int/real/NULL value cannot be a valid query we still
convert it for error messages to be uniform.
*/
if ((entry=
(user_var_entry*)my_hash_search(&thd->user_vars,
(uchar*)lex->prepared_stmt_code.str,
lex->prepared_stmt_code.length))
&& entry->value)
{
my_bool is_var_null;
var_value= entry->val_str(&is_var_null, &str, NOT_FIXED_DEC);
/*
NULL value of variable checked early as entry->value so here
we can't get NULL in normal conditions
*/
DBUG_ASSERT(!is_var_null);
if (!var_value)
goto end;
}
else
{
/*
variable absent or equal to NULL, so we need to set variable to
something reasonable to get a readable error message during parsing
*/
str.set(STRING_WITH_LEN("NULL"), &my_charset_latin1);
}
needs_conversion= String::needs_conversion(var_value->length(),
var_value->charset(), to_cs,
&unused);
len= (needs_conversion ? var_value->length() * to_cs->mbmaxlen :
var_value->length());
if (!(query_str= (char*) alloc_root(thd->mem_root, len+1)))
goto end;
if (needs_conversion)
{
uint dummy_errors;
len= copy_and_convert(query_str, len, to_cs, var_value->ptr(),
var_value->length(), var_value->charset(),
&dummy_errors);
}
else
memcpy(query_str, var_value->ptr(), var_value->length());
query_str[len]= '\0'; // Safety (mostly for debug)
*query_len= len;
}
else
{
query_str= lex->prepared_stmt_code.str;
*query_len= lex->prepared_stmt_code.length;
}
end:
return query_str;
}
/** Init PS/SP specific parse tree members. */
static void init_stmt_after_parse(LEX *lex)
{
SELECT_LEX *sl= lex->all_selects_list;
/*
Switch off a temporary flag that prevents evaluation of
subqueries in statement prepare.
*/
for (; sl; sl= sl->next_select_in_list())
sl->uncacheable&= ~UNCACHEABLE_PREPARE;
}
/**
SQLCOM_PREPARE implementation.
Prepare an SQL prepared statement. This is called from
mysql_execute_command and should therefore behave like an
ordinary query (e.g. should not reset any global THD data).
@param thd thread handle
@return
none: in case of success, OK packet is sent to the client,
otherwise an error message is set in THD
*/
void mysql_sql_stmt_prepare(THD *thd)
{
LEX *lex= thd->lex;
LEX_STRING *name= &lex->prepared_stmt_name;
Prepared_statement *stmt;
const char *query;
uint query_len= 0;
DBUG_ENTER("mysql_sql_stmt_prepare");
if ((stmt= (Prepared_statement*) thd->stmt_map.find_by_name(name)))
{
/*
If there is a statement with the same name, remove it. It is ok to
remove old and fail to insert a new one at the same time.
*/
if (stmt->is_in_use())
{
my_error(ER_PS_NO_RECURSION, MYF(0));
DBUG_VOID_RETURN;
}
stmt->deallocate();
}
if (! (query= get_dynamic_sql_string(lex, &query_len)) ||
! (stmt= new Prepared_statement(thd)))
{
DBUG_VOID_RETURN; /* out of memory */
}
stmt->set_sql_prepare();
/* Set the name first, insert should know that this statement has a name */
if (stmt->set_name(name))
{
delete stmt;
DBUG_VOID_RETURN;
}
if (thd->stmt_map.insert(thd, stmt))
{
/* The statement is deleted and an error is set if insert fails */
DBUG_VOID_RETURN;
}
if (stmt->prepare(query, query_len))
{
/* Statement map deletes the statement on erase */
thd->stmt_map.erase(stmt);
}
else
my_ok(thd, 0L, 0L, "Statement prepared");
DBUG_VOID_RETURN;
}
/**
Reinit prepared statement/stored procedure before execution.
@todo
When the new table structure is ready, then have a status bit
to indicate the table is altered, and re-do the setup_*
and open the tables back.
*/
void reinit_stmt_before_use(THD *thd, LEX *lex)
{
SELECT_LEX *sl= lex->all_selects_list;
DBUG_ENTER("reinit_stmt_before_use");
/*
We have to update "thd" pointer in LEX, all its units and in LEX::result,
since statements which belong to trigger body are associated with TABLE
object and because of this can be used in different threads.
*/
lex->thd= thd;
if (lex->empty_field_list_on_rset)
{
lex->empty_field_list_on_rset= 0;
lex->field_list.empty();
}
for (; sl; sl= sl->next_select_in_list())
{
if (!sl->first_execution)
{
/* remove option which was put by mysql_explain_union() */
sl->options&= ~SELECT_DESCRIBE;
/* see unique_table() */
sl->exclude_from_table_unique_test= FALSE;
/*
Copy WHERE, HAVING clause pointers to avoid damaging them
by optimisation
*/
if (sl->prep_where)
{
sl->where= sl->prep_where->copy_andor_structure(thd);
sl->where->cleanup();
}
if (sl->prep_having)
{
sl->having= sl->prep_having->copy_andor_structure(thd);
sl->having->cleanup();
}
DBUG_ASSERT(sl->join == 0);
ORDER *order;
/* Fix GROUP list */
for (order= (ORDER *)sl->group_list.first; order; order= order->next)
order->item= &order->item_ptr;
/* Fix ORDER list */
for (order= (ORDER *)sl->order_list.first; order; order= order->next)
order->item= &order->item_ptr;
/* clear the no_error flag for INSERT/UPDATE IGNORE */
sl->no_error= FALSE;
}
{
SELECT_LEX_UNIT *unit= sl->master_unit();
unit->unclean();
unit->types.empty();
/* for derived tables & PS (which can't be reset by Item_subquery) */
unit->reinit_exec_mechanism();
unit->set_thd(thd);
}
}
/*
TODO: When the new table structure is ready, then have a status bit
to indicate the table is altered, and re-do the setup_*
and open the tables back.
*/
/*
NOTE: We should reset whole table list here including all tables added
by prelocking algorithm (it is not a problem for substatements since
they have their own table list).
*/
for (TABLE_LIST *tables= lex->query_tables;
tables;
tables= tables->next_global)
{
tables->reinit_before_use(thd);
}
/* Reset MDL tickets for procedures/functions */
for (Sroutine_hash_entry *rt=
(Sroutine_hash_entry*)thd->lex->sroutines_list.first;
rt; rt= rt->next)
rt->mdl_request.ticket= NULL;
/*
Cleanup of the special case of DELETE t1, t2 FROM t1, t2, t3 ...
(multi-delete). We do a full clean up, although at the moment all we
need to clean in the tables of MULTI-DELETE list is 'table' member.
*/
for (TABLE_LIST *tables= (TABLE_LIST*) lex->auxiliary_table_list.first;
tables;
tables= tables->next_global)
{
tables->reinit_before_use(thd);
}
lex->current_select= &lex->select_lex;
/* restore original list used in INSERT ... SELECT */
if (lex->leaf_tables_insert)
lex->select_lex.leaf_tables= lex->leaf_tables_insert;
if (lex->result)
{
lex->result->cleanup();
lex->result->set_thd(thd);
}
lex->allow_sum_func= 0;
lex->in_sum_func= NULL;
DBUG_VOID_RETURN;
}
/**
Clears parameters from data left from previous execution or long data.
@param stmt prepared statement for which parameters should
be reset
*/
static void reset_stmt_params(Prepared_statement *stmt)
{
Item_param **item= stmt->param_array;
Item_param **end= item + stmt->param_count;
for (;item < end ; ++item)
(**item).reset();
}
/**
COM_STMT_EXECUTE handler: execute a previously prepared statement.
If there are any parameters, then replace parameter markers with the
data supplied from the client, and then execute the statement.
This function uses binary protocol to send a possible result set
to the client.
@param thd current thread
@param packet_arg parameter types and data, if any
@param packet_length packet length, including the terminator character.
@return
none: in case of success OK packet or a result set is sent to the
client, otherwise an error message is set in THD.
*/
void mysqld_stmt_execute(THD *thd, char *packet_arg, uint packet_length)
{
uchar *packet= (uchar*)packet_arg; // GCC 4.0.1 workaround
ulong stmt_id= uint4korr(packet);
ulong flags= (ulong) packet[4];
/* Query text for binary, general or slow log, if any of them is open */
String expanded_query;
uchar *packet_end= packet + packet_length;
Prepared_statement *stmt;
Protocol *save_protocol= thd->protocol;
bool open_cursor;
DBUG_ENTER("mysqld_stmt_execute");
packet+= 9; /* stmt_id + 5 bytes of flags */
/* First of all clear possible warnings from the previous command */
mysql_reset_thd_for_next_command(thd);
if (!(stmt= find_prepared_statement(thd, stmt_id)))
{
char llbuf[22];
my_error(ER_UNKNOWN_STMT_HANDLER, MYF(0), sizeof(llbuf),
llstr(stmt_id, llbuf), "mysqld_stmt_execute");
DBUG_VOID_RETURN;
}
#if defined(ENABLED_PROFILING)
thd->profiling.set_query_source(stmt->query(), stmt->query_length());
#endif
DBUG_PRINT("exec_query", ("%s", stmt->query()));
DBUG_PRINT("info",("stmt: 0x%lx", (long) stmt));
open_cursor= test(flags & (ulong) CURSOR_TYPE_READ_ONLY);
thd->protocol= &thd->protocol_binary;
stmt->execute_loop(&expanded_query, open_cursor, packet, packet_end);
thd->protocol= save_protocol;
/* Close connection socket; for use with client testing (Bug#43560). */
DBUG_EXECUTE_IF("close_conn_after_stmt_execute", vio_close(thd->net.vio););
DBUG_VOID_RETURN;
}
/**
SQLCOM_EXECUTE implementation.
Execute prepared statement using parameter values from
lex->prepared_stmt_params and send result to the client using
text protocol. This is called from mysql_execute_command and
therefore should behave like an ordinary query (e.g. not change
global THD data, such as warning count, server status, etc).
This function uses text protocol to send a possible result set.
@param thd thread handle
@return
none: in case of success, OK (or result set) packet is sent to the
client, otherwise an error is set in THD
*/
void mysql_sql_stmt_execute(THD *thd)
{
LEX *lex= thd->lex;
Prepared_statement *stmt;
LEX_STRING *name= &lex->prepared_stmt_name;
/* Query text for binary, general or slow log, if any of them is open */
String expanded_query;
DBUG_ENTER("mysql_sql_stmt_execute");
DBUG_PRINT("info", ("EXECUTE: %.*s\n", (int) name->length, name->str));
if (!(stmt= (Prepared_statement*) thd->stmt_map.find_by_name(name)))
{
my_error(ER_UNKNOWN_STMT_HANDLER, MYF(0),
name->length, name->str, "EXECUTE");
DBUG_VOID_RETURN;
}
if (stmt->param_count != lex->prepared_stmt_params.elements)
{
my_error(ER_WRONG_ARGUMENTS, MYF(0), "EXECUTE");
DBUG_VOID_RETURN;
}
DBUG_PRINT("info",("stmt: 0x%lx", (long) stmt));
(void) stmt->execute_loop(&expanded_query, FALSE, NULL, NULL);
DBUG_VOID_RETURN;
}
/**
COM_STMT_FETCH handler: fetches requested amount of rows from cursor.
@param thd Thread handle
@param packet Packet from client (with stmt_id & num_rows)
@param packet_length Length of packet
*/
void mysqld_stmt_fetch(THD *thd, char *packet, uint packet_length)
{
/* assume there is always place for 8-16 bytes */
ulong stmt_id= uint4korr(packet);
ulong num_rows= uint4korr(packet+4);
Prepared_statement *stmt;
Statement stmt_backup;
Server_side_cursor *cursor;
DBUG_ENTER("mysqld_stmt_fetch");
/* First of all clear possible warnings from the previous command */
mysql_reset_thd_for_next_command(thd);
status_var_increment(thd->status_var.com_stmt_fetch);
if (!(stmt= find_prepared_statement(thd, stmt_id)))
{
char llbuf[22];
my_error(ER_UNKNOWN_STMT_HANDLER, MYF(0), sizeof(llbuf),
llstr(stmt_id, llbuf), "mysqld_stmt_fetch");
DBUG_VOID_RETURN;
}
cursor= stmt->cursor;
if (!cursor)
{
my_error(ER_STMT_HAS_NO_OPEN_CURSOR, MYF(0), stmt_id);
DBUG_VOID_RETURN;
}
thd->stmt_arena= stmt;
thd->set_n_backup_statement(stmt, &stmt_backup);
cursor->fetch(num_rows);
if (!cursor->is_open())
{
stmt->close_cursor();
thd->cursor= 0;
reset_stmt_params(stmt);
}
thd->restore_backup_statement(stmt, &stmt_backup);
thd->stmt_arena= thd;
DBUG_VOID_RETURN;
}
/**
Reset a prepared statement in case there was a recoverable error.
This function resets statement to the state it was right after prepare.
It can be used to:
- clear an error happened during mysqld_stmt_send_long_data
- cancel long data stream for all placeholders without
having to call mysqld_stmt_execute.
- close an open cursor
Sends 'OK' packet in case of success (statement was reset)
or 'ERROR' packet (unrecoverable error/statement not found/etc).
@param thd Thread handle
@param packet Packet with stmt id
*/
void mysqld_stmt_reset(THD *thd, char *packet)
{
/* There is always space for 4 bytes in buffer */
ulong stmt_id= uint4korr(packet);
Prepared_statement *stmt;
DBUG_ENTER("mysqld_stmt_reset");
/* First of all clear possible warnings from the previous command */
mysql_reset_thd_for_next_command(thd);
status_var_increment(thd->status_var.com_stmt_reset);
if (!(stmt= find_prepared_statement(thd, stmt_id)))
{
char llbuf[22];
my_error(ER_UNKNOWN_STMT_HANDLER, MYF(0), sizeof(llbuf),
llstr(stmt_id, llbuf), "mysqld_stmt_reset");
DBUG_VOID_RETURN;
}
stmt->close_cursor();
/*
Clear parameters from data which could be set by
mysqld_stmt_send_long_data() call.
*/
reset_stmt_params(stmt);
stmt->state= Query_arena::PREPARED;
general_log_print(thd, thd->command, NullS);
my_ok(thd);
DBUG_VOID_RETURN;
}
/**
Delete a prepared statement from memory.
@note
we don't send any reply to this command.
*/
void mysqld_stmt_close(THD *thd, char *packet)
{
/* There is always space for 4 bytes in packet buffer */
ulong stmt_id= uint4korr(packet);
Prepared_statement *stmt;
DBUG_ENTER("mysqld_stmt_close");
thd->stmt_da->disable_status();
if (!(stmt= find_prepared_statement(thd, stmt_id)))
DBUG_VOID_RETURN;
/*
The only way currently a statement can be deallocated when it's
in use is from within Dynamic SQL.
*/
DBUG_ASSERT(! stmt->is_in_use());
stmt->deallocate();
general_log_print(thd, thd->command, NullS);
DBUG_VOID_RETURN;
}
/**
SQLCOM_DEALLOCATE implementation.
Close an SQL prepared statement. As this can be called from Dynamic
SQL, we should be careful to not close a statement that is currently
being executed.
@return
none: OK packet is sent in case of success, otherwise an error
message is set in THD
*/
void mysql_sql_stmt_close(THD *thd)
{
Prepared_statement* stmt;
LEX_STRING *name= &thd->lex->prepared_stmt_name;
DBUG_PRINT("info", ("DEALLOCATE PREPARE: %.*s\n", (int) name->length,
name->str));
if (! (stmt= (Prepared_statement*) thd->stmt_map.find_by_name(name)))
my_error(ER_UNKNOWN_STMT_HANDLER, MYF(0),
name->length, name->str, "DEALLOCATE PREPARE");
else if (stmt->is_in_use())
my_error(ER_PS_NO_RECURSION, MYF(0));
else
{
stmt->deallocate();
my_ok(thd);
}
}
/**
Handle long data in pieces from client.
Get a part of a long data. To make the protocol efficient, we are
not sending any return packets here. If something goes wrong, then
we will send the error on 'execute' We assume that the client takes
care of checking that all parts are sent to the server. (No checking
that we get a 'end of column' in the server is performed).
@param thd Thread handle
@param packet String to append
@param packet_length Length of string (including end \\0)
*/
void mysql_stmt_get_longdata(THD *thd, char *packet, ulong packet_length)
{
ulong stmt_id;
uint param_number;
Prepared_statement *stmt;
Item_param *param;
#ifndef EMBEDDED_LIBRARY
char *packet_end= packet + packet_length;
#endif
DBUG_ENTER("mysql_stmt_get_longdata");
status_var_increment(thd->status_var.com_stmt_send_long_data);
thd->stmt_da->disable_status();
#ifndef EMBEDDED_LIBRARY
/* Minimal size of long data packet is 6 bytes */
if (packet_length < MYSQL_LONG_DATA_HEADER)
DBUG_VOID_RETURN;
#endif
stmt_id= uint4korr(packet);
packet+= 4;
if (!(stmt=find_prepared_statement(thd, stmt_id)))
DBUG_VOID_RETURN;
param_number= uint2korr(packet);
packet+= 2;
#ifndef EMBEDDED_LIBRARY
if (param_number >= stmt->param_count)
{
/* Error will be sent in execute call */
stmt->state= Query_arena::ERROR;
stmt->last_errno= ER_WRONG_ARGUMENTS;
sprintf(stmt->last_error, ER(ER_WRONG_ARGUMENTS),
"mysqld_stmt_send_long_data");
DBUG_VOID_RETURN;
}
#endif
param= stmt->param_array[param_number];
#ifndef EMBEDDED_LIBRARY
if (param->set_longdata(packet, (ulong) (packet_end - packet)))
#else
if (param->set_longdata(thd->extra_data, thd->extra_length))
#endif
{
stmt->state= Query_arena::ERROR;
stmt->last_errno= ER_OUTOFMEMORY;
sprintf(stmt->last_error, ER(ER_OUTOFMEMORY), 0);
}
general_log_print(thd, thd->command, NullS);
DBUG_VOID_RETURN;
}
/***************************************************************************
Select_fetch_protocol_binary
****************************************************************************/
Select_fetch_protocol_binary::Select_fetch_protocol_binary(THD *thd_arg)
:protocol(thd_arg)
{}
bool Select_fetch_protocol_binary::send_result_set_metadata(List<Item> &list, uint flags)
{
bool rc;
Protocol *save_protocol= thd->protocol;
/*
Protocol::send_result_set_metadata caches the information about column types:
this information is later used to send data. Therefore, the same
dedicated Protocol object must be used for all operations with
a cursor.
*/
thd->protocol= &protocol;
rc= select_send::send_result_set_metadata(list, flags);
thd->protocol= save_protocol;
return rc;
}
bool Select_fetch_protocol_binary::send_eof()
{
::my_eof(thd);
return FALSE;
}
bool
Select_fetch_protocol_binary::send_data(List<Item> &fields)
{
Protocol *save_protocol= thd->protocol;
bool rc;
thd->protocol= &protocol;
rc= select_send::send_data(fields);
thd->protocol= save_protocol;
return rc;
}
/*******************************************************************
* Reprepare_observer
*******************************************************************/
/** Push an error to the error stack and return TRUE for now. */
bool
Reprepare_observer::report_error(THD *thd)
{
/*
This 'error' is purely internal to the server:
- No exception handler is invoked,
- No condition is added in the condition area (warn_list).
The diagnostics area is set to an error status to enforce
that this thread execution stops and returns to the caller,
backtracking all the way to Prepared_statement::execute_loop().
*/
thd->stmt_da->set_error_status(thd, ER_NEED_REPREPARE,
ER(ER_NEED_REPREPARE), "HY000");
m_invalidated= TRUE;
return TRUE;
}
/*******************************************************************
* Server_runnable
*******************************************************************/
Server_runnable::~Server_runnable()
{
}
///////////////////////////////////////////////////////////////////////////
Execute_sql_statement::
Execute_sql_statement(LEX_STRING sql_text)
:m_sql_text(sql_text)
{}
/**
Parse and execute a statement. Does not prepare the query.
Allows to execute a statement from within another statement.
The main property of the implementation is that it does not
affect the environment -- i.e. you can run many
executions without having to cleanup/reset THD in between.
*/
bool
Execute_sql_statement::execute_server_code(THD *thd)
{
bool error;
if (alloc_query(thd, m_sql_text.str, m_sql_text.length))
return TRUE;
Parser_state parser_state(thd, thd->query(), thd->query_length());
parser_state.m_lip.multi_statements= FALSE;
lex_start(thd);
error= parse_sql(thd, &parser_state, NULL) || thd->is_error();
if (error)
goto end;
thd->lex->set_trg_event_type_for_tables();
error= mysql_execute_command(thd);
if (thd->killed_errno())
{
if (! thd->stmt_da->is_set())
thd->send_kill_message();
}
/* report error issued during command execution */
if (error == 0 && thd->spcont == NULL)
general_log_write(thd, COM_STMT_EXECUTE,
thd->query(), thd->query_length());
end:
lex_end(thd->lex);
return error;
}
/***************************************************************************
Prepared_statement
****************************************************************************/
Prepared_statement::Prepared_statement(THD *thd_arg)
:Statement(NULL, &main_mem_root,
INITIALIZED, ++thd_arg->statement_id_counter),
thd(thd_arg),
result(thd_arg),
param_array(0),
param_count(0),
last_errno(0),
flags((uint) IS_IN_USE)
{
init_sql_alloc(&main_mem_root, thd_arg->variables.query_alloc_block_size,
thd_arg->variables.query_prealloc_size);
*last_error= '\0';
}
void Prepared_statement::setup_set_params()
{
/*
Note: BUG#25843 applies here too (query cache lookup uses thd->db, not
db from "prepare" time).
*/
if (query_cache_maybe_disabled(thd)) // we won't expand the query
lex->safe_to_cache_query= FALSE; // so don't cache it at Execution
/*
Decide if we have to expand the query (because we must write it to logs or
because we want to look it up in the query cache) or not.
*/
if ((mysql_bin_log.is_open() && is_update_query(lex->sql_command)) ||
opt_log || opt_slow_log ||
query_cache_is_cacheable_query(lex))
{
set_params_from_vars= insert_params_from_vars_with_log;
#ifndef EMBEDDED_LIBRARY
set_params= insert_params_with_log;
#else
set_params_data= emb_insert_params_with_log;
#endif
}
else
{
set_params_from_vars= insert_params_from_vars;
#ifndef EMBEDDED_LIBRARY
set_params= insert_params;
#else
set_params_data= emb_insert_params;
#endif
}
}
/**
Destroy this prepared statement, cleaning up all used memory
and resources.
This is called from ::deallocate() to handle COM_STMT_CLOSE and
DEALLOCATE PREPARE or when THD ends and all prepared statements are freed.
*/
Prepared_statement::~Prepared_statement()
{
DBUG_ENTER("Prepared_statement::~Prepared_statement");
DBUG_PRINT("enter",("stmt: 0x%lx cursor: 0x%lx",
(long) this, (long) cursor));
delete cursor;
/*
We have to call free on the items even if cleanup is called as some items,
like Item_param, don't free everything until free_items()
*/
free_items();
if (lex)
{
delete lex->result;
delete (st_lex_local *) lex;
}
free_root(&main_mem_root, MYF(0));
DBUG_VOID_RETURN;
}
Query_arena::Type Prepared_statement::type() const
{
return PREPARED_STATEMENT;
}
void Prepared_statement::cleanup_stmt()
{
DBUG_ENTER("Prepared_statement::cleanup_stmt");
DBUG_PRINT("enter",("stmt: 0x%lx", (long) this));
delete lex->sphead;
lex->sphead= 0;
/* The order is important */
lex->unit.cleanup();
cleanup_items(free_list);
thd->cleanup_after_query();
close_thread_tables(thd);
thd->rollback_item_tree_changes();
DBUG_VOID_RETURN;
}
bool Prepared_statement::set_name(LEX_STRING *name_arg)
{
name.length= name_arg->length;
name.str= (char*) memdup_root(mem_root, name_arg->str, name_arg->length);
return name.str == 0;
}
/**
Remember the current database.
We must reset/restore the current database during execution of
a prepared statement since it affects execution environment:
privileges, @@character_set_database, and other.
@return Returns an error if out of memory.
*/
bool
Prepared_statement::set_db(const char *db_arg, uint db_length_arg)
{
/* Remember the current database. */
if (db_arg && db_length_arg)
{
db= this->strmake(db_arg, db_length_arg);
db_length= db_length_arg;
}
else
{
db= NULL;
db_length= 0;
}
return db_arg != NULL && db == NULL;
}
/**************************************************************************
Common parts of mysql_[sql]_stmt_prepare, mysql_[sql]_stmt_execute.
Essentially, these functions do all the magic of preparing/executing
a statement, leaving network communication, input data handling and
global THD state management to the caller.
***************************************************************************/
/**
Parse statement text, validate the statement, and prepare it for execution.
You should not change global THD state in this function, if at all
possible: it may be called from any context, e.g. when executing
a COM_* command, and SQLCOM_* command, or a stored procedure.
@param packet statement text
@param packet_len
@note
Precondition:
The caller must ensure that thd->change_list and thd->free_list
is empty: this function will not back them up but will free
in the end of its execution.
@note
Postcondition:
thd->mem_root contains unused memory allocated during validation.
*/
bool Prepared_statement::prepare(const char *packet, uint packet_len)
{
bool error;
Statement stmt_backup;
Query_arena *old_stmt_arena;
MDL_ticket *mdl_savepoint= NULL;
DBUG_ENTER("Prepared_statement::prepare");
/*
If this is an SQLCOM_PREPARE, we also increase Com_prepare_sql.
However, it seems handy if com_stmt_prepare is increased always,
no matter what kind of prepare is processed.
*/
status_var_increment(thd->status_var.com_stmt_prepare);
if (! (lex= new (mem_root) st_lex_local))
DBUG_RETURN(TRUE);
if (set_db(thd->db, thd->db_length))
DBUG_RETURN(TRUE);
/*
alloc_query() uses thd->memroot && thd->query, so we should call
both of backup_statement() and backup_query_arena() here.
*/
thd->set_n_backup_statement(this, &stmt_backup);
thd->set_n_backup_active_arena(this, &stmt_backup);
if (alloc_query(thd, packet, packet_len))
{
thd->restore_backup_statement(this, &stmt_backup);
thd->restore_active_arena(this, &stmt_backup);
DBUG_RETURN(TRUE);
}
old_stmt_arena= thd->stmt_arena;
thd->stmt_arena= this;
Parser_state parser_state(thd, thd->query(), thd->query_length());
parser_state.m_lip.stmt_prepare_mode= TRUE;
parser_state.m_lip.multi_statements= FALSE;
lex_start(thd);
error= parse_sql(thd, & parser_state, NULL) ||
thd->is_error() ||
init_param_array(this);
lex->set_trg_event_type_for_tables();
/*
While doing context analysis of the query (in check_prepared_statement)
we allocate a lot of additional memory: for open tables, JOINs, derived
tables, etc. Let's save a snapshot of current parse tree to the
statement and restore original THD. In cases when some tree
transformation can be reused on execute, we set again thd->mem_root from
stmt->mem_root (see setup_wild for one place where we do that).
*/
thd->restore_active_arena(this, &stmt_backup);
/*
If called from a stored procedure, ensure that we won't rollback
external changes when cleaning up after validation.
*/
DBUG_ASSERT(thd->change_list.is_empty());
/*
Marker used to release metadata locks acquired while the prepared
statement is being checked.
*/
mdl_savepoint= thd->mdl_context.mdl_savepoint();
/*
The only case where we should have items in the thd->free_list is
after stmt->set_params_from_vars(), which may in some cases create
Item_null objects.
*/
if (error == 0)
error= check_prepared_statement(this);
/*
Currently CREATE PROCEDURE/TRIGGER/EVENT are prohibited in prepared
statements: ensure we have no memory leak here if by someone tries
to PREPARE stmt FROM "CREATE PROCEDURE ..."
*/
DBUG_ASSERT(lex->sphead == NULL || error != 0);
if (lex->sphead)
{
delete lex->sphead;
lex->sphead= NULL;
}
lex_end(lex);
cleanup_stmt();
/*
If not inside a multi-statement transaction, the metadata
locks have already been released and our savepoint points
to ticket which has been released as well.
*/
if (thd->in_multi_stmt_transaction())
thd->mdl_context.rollback_to_savepoint(mdl_savepoint);
thd->restore_backup_statement(this, &stmt_backup);
thd->stmt_arena= old_stmt_arena;
if (error == 0)
{
setup_set_params();
init_stmt_after_parse(lex);
state= Query_arena::PREPARED;
flags&= ~ (uint) IS_IN_USE;
/*
Log COM_EXECUTE to the general log. Note, that in case of SQL
prepared statements this causes two records to be output:
Query PREPARE stmt from @user_variable
Prepare <statement SQL text>
This is considered user-friendly, since in the
second log entry we output the actual statement text.
Do not print anything if this is an SQL prepared statement and
we're inside a stored procedure (also called Dynamic SQL) --
sub-statements inside stored procedures are not logged into
the general log.
*/
if (thd->spcont == NULL)
general_log_write(thd, COM_STMT_PREPARE, query(), query_length());
}
DBUG_RETURN(error);
}
/**
Assign parameter values either from variables, in case of SQL PS
or from the execute packet.
@param expanded_query a container with the original SQL statement.
'?' placeholders will be replaced with
their values in case of success.
The result is used for logging and replication
@param packet pointer to execute packet.
NULL in case of SQL PS
@param packet_end end of the packet. NULL in case of SQL PS
@todo Use a paremeter source class family instead of 'if's, and
support stored procedure variables.
@retval TRUE an error occurred when assigning a parameter (likely
a conversion error or out of memory, or malformed packet)
@retval FALSE success
*/
bool
Prepared_statement::set_parameters(String *expanded_query,
uchar *packet, uchar *packet_end)
{
bool is_sql_ps= packet == NULL;
bool res= FALSE;
if (is_sql_ps)
{
/* SQL prepared statement */
res= set_params_from_vars(this, thd->lex->prepared_stmt_params,
expanded_query);
}
else if (param_count)
{
#ifndef EMBEDDED_LIBRARY
uchar *null_array= packet;
res= (setup_conversion_functions(this, &packet, packet_end) ||
set_params(this, null_array, packet, packet_end, expanded_query));
#else
/*
In embedded library we re-install conversion routines each time
we set parameters, and also we don't need to parse packet.
So we do it in one function.
*/
res= set_params_data(this, expanded_query);
#endif
}
if (res)
{
my_error(ER_WRONG_ARGUMENTS, MYF(0),
is_sql_ps ? "EXECUTE" : "mysqld_stmt_execute");
reset_stmt_params(this);
}
return res;
}
/**
Execute a prepared statement. Re-prepare it a limited number
of times if necessary.
Try to execute a prepared statement. If there is a metadata
validation error, prepare a new copy of the prepared statement,
swap the old and the new statements, and try again.
If there is a validation error again, repeat the above, but
perform no more than MAX_REPREPARE_ATTEMPTS.
@note We have to try several times in a loop since we
release metadata locks on tables after prepared statement
prepare. Therefore, a DDL statement may sneak in between prepare
and execute of a new statement. If this happens repeatedly
more than MAX_REPREPARE_ATTEMPTS times, we give up.
In future we need to be able to keep the metadata locks between
prepare and execute, but right now open_and_lock_tables(), as
well as close_thread_tables() are buried deep inside
execution code (mysql_execute_command()).
@return TRUE if an error, FALSE if success
@retval TRUE either MAX_REPREPARE_ATTEMPTS has been reached,
or some general error
@retval FALSE successfully executed the statement, perhaps
after having reprepared it a few times.
*/
bool
Prepared_statement::execute_loop(String *expanded_query,
bool open_cursor,
uchar *packet,
uchar *packet_end)
{
const int MAX_REPREPARE_ATTEMPTS= 3;
Reprepare_observer reprepare_observer;
bool error;
int reprepare_attempt= 0;
if (set_parameters(expanded_query, packet, packet_end))
return TRUE;
reexecute:
reprepare_observer.reset_reprepare_observer();
/*
If the free_list is not empty, we'll wrongly free some externally
allocated items when cleaning up after validation of the prepared
statement.
*/
DBUG_ASSERT(thd->free_list == NULL);
/*
Install the metadata observer. If some metadata version is
different from prepare time and an observer is installed,
the observer method will be invoked to push an error into
the error stack.
*/
if (sql_command_flags[lex->sql_command] &
CF_REEXECUTION_FRAGILE)
{
DBUG_ASSERT(thd->m_reprepare_observer == NULL);
thd->m_reprepare_observer = &reprepare_observer;
}
error= execute(expanded_query, open_cursor) || thd->is_error();
thd->m_reprepare_observer= NULL;
if (error && !thd->is_fatal_error && !thd->killed &&
reprepare_observer.is_invalidated() &&
reprepare_attempt++ < MAX_REPREPARE_ATTEMPTS)
{
DBUG_ASSERT(thd->stmt_da->sql_errno() == ER_NEED_REPREPARE);
thd->clear_error();
error= reprepare();
if (! error) /* Success */
goto reexecute;
}
reset_stmt_params(this);
return error;
}
bool
Prepared_statement::execute_server_runnable(Server_runnable *server_runnable)
{
Statement stmt_backup;
bool error;
Query_arena *save_stmt_arena= thd->stmt_arena;
Item_change_list save_change_list;
thd->change_list.move_elements_to(&save_change_list);
state= CONVENTIONAL_EXECUTION;
if (!(lex= new (mem_root) st_lex_local))
return TRUE;
thd->set_n_backup_statement(this, &stmt_backup);
thd->set_n_backup_active_arena(this, &stmt_backup);
thd->stmt_arena= this;
error= server_runnable->execute_server_code(thd);
delete lex->sphead;
lex->sphead= 0;
/* The order is important */
lex->unit.cleanup();
close_thread_tables(thd);
thd->cleanup_after_query();
thd->restore_active_arena(this, &stmt_backup);
thd->restore_backup_statement(this, &stmt_backup);
thd->stmt_arena= save_stmt_arena;
save_change_list.move_elements_to(&thd->change_list);
/* Items and memory will freed in destructor */
return error;
}
/**
Reprepare this prepared statement.
Currently this is implemented by creating a new prepared
statement, preparing it with the original query and then
swapping the new statement and the original one.
@retval TRUE an error occurred. Possible errors include
incompatibility of new and old result set
metadata
@retval FALSE success, the statement has been reprepared
*/
bool
Prepared_statement::reprepare()
{
char saved_cur_db_name_buf[NAME_LEN+1];
LEX_STRING saved_cur_db_name=
{ saved_cur_db_name_buf, sizeof(saved_cur_db_name_buf) };
LEX_STRING stmt_db_name= { db, db_length };
bool cur_db_changed;
bool error;
Prepared_statement copy(thd);
copy.set_sql_prepare(); /* To suppress sending metadata to the client. */
status_var_increment(thd->status_var.com_stmt_reprepare);
if (mysql_opt_change_db(thd, &stmt_db_name, &saved_cur_db_name, TRUE,
&cur_db_changed))
return TRUE;
error= ((name.str && copy.set_name(&name)) ||
copy.prepare(query(), query_length()) ||
validate_metadata(&copy));
if (cur_db_changed)
mysql_change_db(thd, &saved_cur_db_name, TRUE);
if (! error)
{
swap_prepared_statement(&copy);
swap_parameter_array(param_array, copy.param_array, param_count);
#ifndef DBUG_OFF
is_reprepared= TRUE;
#endif
/*
Clear possible warnings during reprepare, it has to be completely
transparent to the user. We use clear_warning_info() since
there were no separate query id issued for re-prepare.
Sic: we can't simply silence warnings during reprepare, because if
it's failed, we need to return all the warnings to the user.
*/
thd->warning_info->clear_warning_info(thd->query_id);
}
return error;
}
/**
Validate statement result set metadata (if the statement returns
a result set).
Currently we only check that the number of columns of the result
set did not change.
This is a helper method used during re-prepare.
@param[in] copy the re-prepared prepared statement to verify
the metadata of
@retval TRUE error, ER_PS_REBIND is reported
@retval FALSE statement return no or compatible metadata
*/
bool Prepared_statement::validate_metadata(Prepared_statement *copy)
{
/**
If this is an SQL prepared statement or EXPLAIN,
return FALSE -- the metadata of the original SELECT,
if any, has not been sent to the client.
*/
if (is_sql_prepare() || lex->describe)
return FALSE;
if (lex->select_lex.item_list.elements !=
copy->lex->select_lex.item_list.elements)
{
/** Column counts mismatch, update the client */
thd->server_status|= SERVER_STATUS_METADATA_CHANGED;
}
return FALSE;
}
/**
Replace the original prepared statement with a prepared copy.
This is a private helper that is used as part of statement
reprepare
@return This function does not return any errors.
*/
void
Prepared_statement::swap_prepared_statement(Prepared_statement *copy)
{
Statement tmp_stmt;
/* Swap memory roots. */
swap_variables(MEM_ROOT, main_mem_root, copy->main_mem_root);
/* Swap the arenas */
tmp_stmt.set_query_arena(this);
set_query_arena(copy);
copy->set_query_arena(&tmp_stmt);
/* Swap the statement parent classes */
tmp_stmt.set_statement(this);
set_statement(copy);
copy->set_statement(&tmp_stmt);
/* Swap ids back, we need the original id */
swap_variables(ulong, id, copy->id);
/* Swap mem_roots back, they must continue pointing at the main_mem_roots */
swap_variables(MEM_ROOT *, mem_root, copy->mem_root);
/*
Swap the old and the new parameters array. The old array
is allocated in the old arena.
*/
swap_variables(Item_param **, param_array, copy->param_array);
/* Don't swap flags: the copy has IS_SQL_PREPARE always set. */
/* swap_variables(uint, flags, copy->flags); */
/* Swap names, the old name is allocated in the wrong memory root */
swap_variables(LEX_STRING, name, copy->name);
/* Ditto */
swap_variables(char *, db, copy->db);
DBUG_ASSERT(db_length == copy->db_length);
DBUG_ASSERT(param_count == copy->param_count);
DBUG_ASSERT(thd == copy->thd);
last_error[0]= '\0';
last_errno= 0;
}
/**
Execute a prepared statement.
You should not change global THD state in this function, if at all
possible: it may be called from any context, e.g. when executing
a COM_* command, and SQLCOM_* command, or a stored procedure.
@param expanded_query A query for binlogging which has all parameter
markers ('?') replaced with their actual values.
@param open_cursor True if an attempt to open a cursor should be made.
Currenlty used only in the binary protocol.
@note
Preconditions, postconditions.
- See the comment for Prepared_statement::prepare().
@retval
FALSE ok
@retval
TRUE Error
*/
bool Prepared_statement::execute(String *expanded_query, bool open_cursor)
{
Statement stmt_backup;
Query_arena *old_stmt_arena;
bool error= TRUE;
char saved_cur_db_name_buf[NAME_LEN+1];
LEX_STRING saved_cur_db_name=
{ saved_cur_db_name_buf, sizeof(saved_cur_db_name_buf) };
bool cur_db_changed;
LEX_STRING stmt_db_name= { db, db_length };
status_var_increment(thd->status_var.com_stmt_execute);
/* Check if we got an error when sending long data */
if (state == Query_arena::ERROR)
{
my_message(last_errno, last_error, MYF(0));
return TRUE;
}
if (flags & (uint) IS_IN_USE)
{
my_error(ER_PS_NO_RECURSION, MYF(0));
return TRUE;
}
/*
For SHOW VARIABLES lex->result is NULL, as it's a non-SELECT
command. For such queries we don't return an error and don't
open a cursor -- the client library will recognize this case and
materialize the result set.
For SELECT statements lex->result is created in
check_prepared_statement. lex->result->simple_select() is FALSE
in INSERT ... SELECT and similar commands.
*/
if (open_cursor && lex->result && lex->result->check_simple_select())
{
DBUG_PRINT("info",("Cursor asked for not SELECT stmt"));
return TRUE;
}
/* In case the command has a call to SP which re-uses this statement name */
flags|= IS_IN_USE;
close_cursor();
/*
If the free_list is not empty, we'll wrongly free some externally
allocated items when cleaning up after execution of this statement.
*/
DBUG_ASSERT(thd->change_list.is_empty());
/*
The only case where we should have items in the thd->free_list is
after stmt->set_params_from_vars(), which may in some cases create
Item_null objects.
*/
thd->set_n_backup_statement(this, &stmt_backup);
/*
Change the current database (if needed).
Force switching, because the database of the prepared statement may be
NULL (prepared statements can be created while no current database
selected).
*/
if (mysql_opt_change_db(thd, &stmt_db_name, &saved_cur_db_name, TRUE,
&cur_db_changed))
goto error;
/* Allocate query. */
if (expanded_query->length() &&
alloc_query(thd, (char*) expanded_query->ptr(),
expanded_query->length()))
{
my_error(ER_OUTOFMEMORY, 0, expanded_query->length());
goto error;
}
/*
Expanded query is needed for slow logging, so we want thd->query
to point at it even after we restore from backup. This is ok, as
expanded query was allocated in thd->mem_root.
*/
stmt_backup.set_query_inner(thd->query(), thd->query_length());
/*
At first execution of prepared statement we may perform logical
transformations of the query tree. Such changes should be performed
on the parse tree of current prepared statement and new items should
be allocated in its memory root. Set the appropriate pointer in THD
to the arena of the statement.
*/
old_stmt_arena= thd->stmt_arena;
thd->stmt_arena= this;
reinit_stmt_before_use(thd, lex);
/* Go! */
if (open_cursor)
error= mysql_open_cursor(thd, (uint) ALWAYS_MATERIALIZED_CURSOR,
&result, &cursor);
else
{
/*
Try to find it in the query cache, if not, execute it.
Note that multi-statements cannot exist here (they are not supported in
prepared statements).
*/
if (query_cache_send_result_to_client(thd, thd->query(),
thd->query_length()) <= 0)
{
MYSQL_QUERY_EXEC_START(thd->query(),
thd->thread_id,
(char *) (thd->db ? thd->db : ""),
thd->security_ctx->priv_user,
(char *) thd->security_ctx->host_or_ip,
1);
error= mysql_execute_command(thd);
MYSQL_QUERY_EXEC_DONE(error);
}
}
/*
Restore the current database (if changed).
Force switching back to the saved current database (if changed),
because it may be NULL. In this case, mysql_change_db() would generate
an error.
*/
if (cur_db_changed)
mysql_change_db(thd, &saved_cur_db_name, TRUE);
/* Assert that if an error, no cursor is open */
DBUG_ASSERT(! (error && cursor));
if (! cursor)
cleanup_stmt();
thd->set_statement(&stmt_backup);
thd->stmt_arena= old_stmt_arena;
if (state == Query_arena::PREPARED)
state= Query_arena::EXECUTED;
if (this->lex->sql_command == SQLCOM_CALL)
{
if (is_sql_prepare())
thd->protocol_text.send_out_parameters(&this->lex->param_list);
else
thd->protocol->send_out_parameters(&this->lex->param_list);
}
/*
Log COM_EXECUTE to the general log. Note, that in case of SQL
prepared statements this causes two records to be output:
Query EXECUTE <statement name>
Execute <statement SQL text>
This is considered user-friendly, since in the
second log entry we output values of parameter markers.
Do not print anything if this is an SQL prepared statement and
we're inside a stored procedure (also called Dynamic SQL) --
sub-statements inside stored procedures are not logged into
the general log.
*/
if (error == 0 && thd->spcont == NULL)
general_log_write(thd, COM_STMT_EXECUTE, thd->query(), thd->query_length());
error:
flags&= ~ (uint) IS_IN_USE;
return error;
}
/** Common part of DEALLOCATE PREPARE and mysqld_stmt_close. */
void Prepared_statement::deallocate()
{
/* We account deallocate in the same manner as mysqld_stmt_close */
status_var_increment(thd->status_var.com_stmt_close);
/* Statement map calls delete stmt on erase */
thd->stmt_map.erase(this);
}
/***************************************************************************
* Ed_result_set
***************************************************************************/
/**
Use operator delete to free memory of Ed_result_set.
Accessing members of a class after the class has been destroyed
is a violation of the C++ standard but is commonly used in the
server code.
*/
void Ed_result_set::operator delete(void *ptr, size_t size) throw ()
{
if (ptr)
{
/*
Make a stack copy, otherwise free_root() will attempt to
write to freed memory.
*/
MEM_ROOT own_root= ((Ed_result_set*) ptr)->m_mem_root;
free_root(&own_root, MYF(0));
}
}
/**
Initialize an instance of Ed_result_set.
Instances of the class, as well as all result set rows, are
always allocated in the memory root passed over as the second
argument. In the constructor, we take over ownership of the
memory root. It will be freed when the class is destroyed.
sic: Ed_result_est is not designed to be allocated on stack.
*/
Ed_result_set::Ed_result_set(List<Ed_row> *rows_arg,
size_t column_count_arg,
MEM_ROOT *mem_root_arg)
:m_mem_root(*mem_root_arg),
m_column_count(column_count_arg),
m_rows(rows_arg),
m_next_rset(NULL)
{
/* Take over responsibility for the memory */
clear_alloc_root(mem_root_arg);
}
/***************************************************************************
* Ed_result_set
***************************************************************************/
/**
Create a new "execute direct" connection.
*/
Ed_connection::Ed_connection(THD *thd)
:m_warning_info(thd->query_id),
m_thd(thd),
m_rsets(0),
m_current_rset(0)
{
}
/**
Free all result sets of the previous statement, if any,
and reset warnings and errors.
Called before execution of the next query.
*/
void
Ed_connection::free_old_result()
{
while (m_rsets)
{
Ed_result_set *rset= m_rsets->m_next_rset;
delete m_rsets;
m_rsets= rset;
}
m_current_rset= m_rsets;
m_diagnostics_area.reset_diagnostics_area();
m_warning_info.clear_warning_info(m_thd->query_id);
}
/**
A simple wrapper that uses a helper class to execute SQL statements.
*/
bool
Ed_connection::execute_direct(LEX_STRING sql_text)
{
Execute_sql_statement execute_sql_statement(sql_text);
DBUG_PRINT("ed_query", ("%s", sql_text.str));
return execute_direct(&execute_sql_statement);
}
/**
Execute a fragment of server functionality without an effect on
thd, and store results in memory.
Conventions:
- the code fragment must finish with OK, EOF or ERROR.
- the code fragment doesn't have to close thread tables,
free memory, commit statement transaction or do any other
cleanup that is normally done in the end of dispatch_command().
@param server_runnable A code fragment to execute.
*/
bool Ed_connection::execute_direct(Server_runnable *server_runnable)
{
bool rc= FALSE;
Protocol_local protocol_local(m_thd, this);
Prepared_statement stmt(m_thd);
Protocol *save_protocol= m_thd->protocol;
Diagnostics_area *save_diagnostics_area= m_thd->stmt_da;
Warning_info *save_warning_info= m_thd->warning_info;
DBUG_ENTER("Ed_connection::execute_direct");
free_old_result(); /* Delete all data from previous execution, if any */
m_thd->protocol= &protocol_local;
m_thd->stmt_da= &m_diagnostics_area;
m_thd->warning_info= &m_warning_info;
rc= stmt.execute_server_runnable(server_runnable);
m_thd->protocol->end_statement();
m_thd->protocol= save_protocol;
m_thd->stmt_da= save_diagnostics_area;
m_thd->warning_info= save_warning_info;
/*
Protocol_local makes use of m_current_rset to keep
track of the last result set, while adding result sets to the end.
Reset it to point to the first result set instead.
*/
m_current_rset= m_rsets;
DBUG_RETURN(rc);
}
/**
A helper method that is called only during execution.
Although Ed_connection doesn't support multi-statements,
a statement may generate many result sets. All subsequent
result sets are appended to the end.
@pre This is called only by Protocol_local.
*/
void
Ed_connection::add_result_set(Ed_result_set *ed_result_set)
{
if (m_rsets)
{
m_current_rset->m_next_rset= ed_result_set;
/* While appending, use m_current_rset as a pointer to the tail. */
m_current_rset= ed_result_set;
}
else
m_current_rset= m_rsets= ed_result_set;
}
/**
Release ownership of the current result set to the client.
Since we use a simple linked list for result sets,
this method uses a linear search of the previous result
set to exclude the released instance from the list.
@todo Use double-linked list, when this is really used.
XXX: This has never been tested with more than one result set!
@pre There must be a result set.
*/
Ed_result_set *
Ed_connection::store_result_set()
{
Ed_result_set *ed_result_set;
DBUG_ASSERT(m_current_rset);
if (m_current_rset == m_rsets)
{
/* Assign the return value */
ed_result_set= m_current_rset;
/* Exclude the return value from the list. */
m_current_rset= m_rsets= m_rsets->m_next_rset;
}
else
{
Ed_result_set *prev_rset= m_rsets;
/* Assign the return value. */
ed_result_set= m_current_rset;
/* Exclude the return value from the list */
while (prev_rset->m_next_rset != m_current_rset)
prev_rset= ed_result_set->m_next_rset;
m_current_rset= prev_rset->m_next_rset= m_current_rset->m_next_rset;
}
ed_result_set->m_next_rset= NULL; /* safety */
return ed_result_set;
}
/*************************************************************************
* Protocol_local
**************************************************************************/
Protocol_local::Protocol_local(THD *thd, Ed_connection *ed_connection)
:Protocol(thd),
m_connection(ed_connection),
m_rset(NULL),
m_column_count(0),
m_current_row(NULL),
m_current_column(NULL)
{
clear_alloc_root(&m_rset_root);
}
/**
Called between two result set rows.
Prepare structures to fill result set rows.
Unfortunately, we can't return an error here. If memory allocation
fails, we'll have to return an error later. And so is done
in methods such as @sa store_column().
*/
void Protocol_local::prepare_for_resend()
{
DBUG_ASSERT(alloc_root_inited(&m_rset_root));
opt_add_row_to_rset();
/* Start a new row. */
m_current_row= (Ed_column *) alloc_root(&m_rset_root,
sizeof(Ed_column) * m_column_count);
m_current_column= m_current_row;
}
/**
In "real" protocols this is called to finish a result set row.
Unused in the local implementation.
*/
bool Protocol_local::write()
{
return FALSE;
}
/**
A helper function to add the current row to the current result
set. Called in @sa prepare_for_resend(), when a new row is started,
and in send_eof(), when the result set is finished.
*/
void Protocol_local::opt_add_row_to_rset()
{
if (m_current_row)
{
/* Add the old row to the result set */
Ed_row *ed_row= new (&m_rset_root) Ed_row(m_current_row, m_column_count);
if (ed_row)
m_rset->push_back(ed_row, &m_rset_root);
}
}
/**
Add a NULL column to the current row.
*/
bool Protocol_local::store_null()
{
if (m_current_column == NULL)
return TRUE; /* prepare_for_resend() failed to allocate memory. */
bzero(m_current_column, sizeof(*m_current_column));
++m_current_column;
return FALSE;
}
/**
A helper method to add any column to the current row
in its binary form.
Allocates memory for the data in the result set memory root.
*/
bool Protocol_local::store_column(const void *data, size_t length)
{
if (m_current_column == NULL)
return TRUE; /* prepare_for_resend() failed to allocate memory. */
/*
alloc_root() automatically aligns memory, so we don't need to
do any extra alignment if we're pointing to, say, an integer.
*/
m_current_column->str= (char*) memdup_root(&m_rset_root,
data,
length + 1 /* Safety */);
if (! m_current_column->str)
return TRUE;
m_current_column->str[length]= '\0'; /* Safety */
m_current_column->length= length;
++m_current_column;
return FALSE;
}
/**
Store a string value in a result set column, optionally
having converted it to character_set_results.
*/
bool
Protocol_local::store_string(const char *str, size_t length,
CHARSET_INFO *src_cs, CHARSET_INFO *dst_cs)
{
/* Store with conversion */
uint error_unused;
if (dst_cs && !my_charset_same(src_cs, dst_cs) &&
src_cs != &my_charset_bin &&
dst_cs != &my_charset_bin)
{
if (convert->copy(str, length, src_cs, dst_cs, &error_unused))
return TRUE;
str= convert->ptr();
length= convert->length();
}
return store_column(str, length);
}
/** Store a tiny int as is (1 byte) in a result set column. */
bool Protocol_local::store_tiny(longlong value)
{
char v= (char) value;
return store_column(&v, 1);
}
/** Store a short as is (2 bytes, host order) in a result set column. */
bool Protocol_local::store_short(longlong value)
{
int16 v= (int16) value;
return store_column(&v, 2);
}
/** Store a "long" as is (4 bytes, host order) in a result set column. */
bool Protocol_local::store_long(longlong value)
{
int32 v= (int32) value;
return store_column(&v, 4);
}
/** Store a "longlong" as is (8 bytes, host order) in a result set column. */
bool Protocol_local::store_longlong(longlong value, bool unsigned_flag)
{
int64 v= (int64) value;
return store_column(&v, 8);
}
/** Store a decimal in string format in a result set column */
bool Protocol_local::store_decimal(const my_decimal *value)
{
char buf[DECIMAL_MAX_STR_LENGTH];
String str(buf, sizeof (buf), &my_charset_bin);
int rc;
rc= my_decimal2string(E_DEC_FATAL_ERROR, value, 0, 0, 0, &str);
if (rc)
return TRUE;
return store_column(str.ptr(), str.length());
}
/** Convert to cs_results and store a string. */
bool Protocol_local::store(const char *str, size_t length,
CHARSET_INFO *src_cs)
{
CHARSET_INFO *dst_cs;
dst_cs= m_connection->m_thd->variables.character_set_results;
return store_string(str, length, src_cs, dst_cs);
}
/** Store a string. */
bool Protocol_local::store(const char *str, size_t length,
CHARSET_INFO *src_cs, CHARSET_INFO *dst_cs)
{
return store_string(str, length, src_cs, dst_cs);
}
/* Store MYSQL_TIME (in binary format) */
bool Protocol_local::store(MYSQL_TIME *time)
{
return store_column(time, sizeof(MYSQL_TIME));
}
/** Store MYSQL_TIME (in binary format) */
bool Protocol_local::store_date(MYSQL_TIME *time)
{
return store_column(time, sizeof(MYSQL_TIME));
}
/** Store MYSQL_TIME (in binary format) */
bool Protocol_local::store_time(MYSQL_TIME *time)
{
return store_column(time, sizeof(MYSQL_TIME));
}
/* Store a floating point number, as is. */
bool Protocol_local::store(float value, uint32 decimals, String *buffer)
{
return store_column(&value, sizeof(float));
}
/* Store a double precision number, as is. */
bool Protocol_local::store(double value, uint32 decimals, String *buffer)
{
return store_column(&value, sizeof (double));
}
/* Store a Field. */
bool Protocol_local::store(Field *field)
{
if (field->is_null())
return store_null();
return field->send_binary(this);
}
/** Called to start a new result set. */
bool Protocol_local::send_result_set_metadata(List<Item> *columns, uint)
{
DBUG_ASSERT(m_rset == 0 && !alloc_root_inited(&m_rset_root));
init_sql_alloc(&m_rset_root, MEM_ROOT_BLOCK_SIZE, 0);
if (! (m_rset= new (&m_rset_root) List<Ed_row>))
return TRUE;
m_column_count= columns->elements;
return FALSE;
}
/**
Normally this is a separate result set with OUT parameters
of stored procedures. Currently unsupported for the local
version.
*/
bool Protocol_local::send_out_parameters(List<Item_param> *sp_params)
{
return FALSE;
}
/** Called for statements that don't have a result set, at statement end. */
bool
Protocol_local::send_ok(uint server_status, uint statement_warn_count,
ulonglong affected_rows, ulonglong last_insert_id,
const char *message)
{
/*
Just make sure nothing is sent to the client, we have grabbed
the status information in the connection diagnostics area.
*/
return FALSE;
}
/**
Called at the end of a result set. Append a complete
result set to the list in Ed_connection.
Don't send anything to the client, but instead finish
building of the result set at hand.
*/
bool Protocol_local::send_eof(uint server_status, uint statement_warn_count)
{
Ed_result_set *ed_result_set;
DBUG_ASSERT(m_rset);
opt_add_row_to_rset();
m_current_row= 0;
ed_result_set= new (&m_rset_root) Ed_result_set(m_rset, m_column_count,
&m_rset_root);
m_rset= NULL;
if (! ed_result_set)
return TRUE;
/* In case of successful allocation memory ownership was transferred. */
DBUG_ASSERT(!alloc_root_inited(&m_rset_root));
/*
Link the created Ed_result_set instance into the list of connection
result sets. Never fails.
*/
m_connection->add_result_set(ed_result_set);
return FALSE;
}
/** Called to send an error to the client at the end of a statement. */
bool
Protocol_local::send_error(uint sql_errno, const char *err_msg, const char*)
{
/*
Just make sure that nothing is sent to the client (default
implementation).
*/
return FALSE;
}
#ifdef EMBEDDED_LIBRARY
void Protocol_local::remove_last_row()
{ }
#endif
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