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|
/*
Copyright (c) 2000, 2016, Oracle and/or its affiliates.
Copyright (c) 2010, 2018, MariaDB Corporation
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; version 2 of the License.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
*/
/* Insert of records */
/*
INSERT DELAYED
Insert delayed is distinguished from a normal insert by lock_type ==
TL_WRITE_DELAYED instead of TL_WRITE. It first tries to open a
"delayed" table (delayed_get_table()), but falls back to
open_and_lock_tables() on error and proceeds as normal insert then.
Opening a "delayed" table means to find a delayed insert thread that
has the table open already. If this fails, a new thread is created and
waited for to open and lock the table.
If accessing the thread succeeded, in
Delayed_insert::get_local_table() the table of the thread is copied
for local use. A copy is required because the normal insert logic
works on a target table, but the other threads table object must not
be used. The insert logic uses the record buffer to create a record.
And the delayed insert thread uses the record buffer to pass the
record to the table handler. So there must be different objects. Also
the copied table is not included in the lock, so that the statement
can proceed even if the real table cannot be accessed at this moment.
Copying a table object is not a trivial operation. Besides the TABLE
object there are the field pointer array, the field objects and the
record buffer. After copying the field objects, their pointers into
the record must be "moved" to point to the new record buffer.
After this setup the normal insert logic is used. Only that for
delayed inserts write_delayed() is called instead of write_record().
It inserts the rows into a queue and signals the delayed insert thread
instead of writing directly to the table.
The delayed insert thread awakes from the signal. It locks the table,
inserts the rows from the queue, unlocks the table, and waits for the
next signal. It does normally live until a FLUSH TABLES or SHUTDOWN.
*/
#include "mariadb.h" /* NO_EMBEDDED_ACCESS_CHECKS */
#include "sql_priv.h"
#include "sql_insert.h"
#include "sql_update.h" // compare_record
#include "sql_base.h" // close_thread_tables
#include "sql_cache.h" // query_cache_*
#include "key.h" // key_copy
#include "lock.h" // mysql_unlock_tables
#include "sp_head.h"
#include "sql_view.h" // check_key_in_view, insert_view_fields
#include "sql_table.h" // mysql_create_table_no_lock
#include "sql_acl.h" // *_ACL, check_grant_all_columns
#include "sql_trigger.h"
#include "sql_select.h"
#include "sql_show.h"
#include "slave.h"
#include "sql_parse.h" // end_active_trans
#include "rpl_mi.h"
#include "transaction.h"
#include "sql_audit.h"
#include "sql_derived.h" // mysql_handle_derived
#include "sql_prepare.h"
#include <my_bit.h>
#include "debug_sync.h"
#ifndef EMBEDDED_LIBRARY
static bool delayed_get_table(THD *thd, MDL_request *grl_protection_request,
TABLE_LIST *table_list);
static int write_delayed(THD *thd, TABLE *table, enum_duplicates duplic,
LEX_STRING query, bool ignore, bool log_on);
static void end_delayed_insert(THD *thd);
pthread_handler_t handle_delayed_insert(void *arg);
static void unlink_blobs(TABLE *table);
#endif
static bool check_view_insertability(THD *thd, TABLE_LIST *view);
/*
Check that insert/update fields are from the same single table of a view.
@param fields The insert/update fields to be checked.
@param values The insert/update values to be checked, NULL if
checking is not wanted.
@param view The view for insert.
@param map [in/out] The insert table map.
This function is called in 2 cases:
1. to check insert fields. In this case *map will be set to 0.
Insert fields are checked to be all from the same single underlying
table of the given view. Otherwise the error is thrown. Found table
map is returned in the map parameter.
2. to check update fields of the ON DUPLICATE KEY UPDATE clause.
In this case *map contains table_map found on the previous call of
the function to check insert fields. Update fields are checked to be
from the same table as the insert fields.
@returns false if success.
*/
static bool check_view_single_update(List<Item> &fields, List<Item> *values,
TABLE_LIST *view, table_map *map,
bool insert)
{
/* it is join view => we need to find the table for update */
List_iterator_fast<Item> it(fields);
Item *item;
TABLE_LIST *tbl= 0; // reset for call to check_single_table()
table_map tables= 0;
while ((item= it++))
tables|= item->used_tables();
/*
Check that table is only one
(we can not rely on check_single_table because it skips some
types of tables)
*/
if (my_count_bits(tables) > 1)
goto error;
if (values)
{
it.init(*values);
while ((item= it++))
tables|= item->view_used_tables(view);
}
/* Convert to real table bits */
tables&= ~PSEUDO_TABLE_BITS;
/* Check found map against provided map */
if (*map)
{
if (tables != *map)
goto error;
return FALSE;
}
if (view->check_single_table(&tbl, tables, view) || tbl == 0)
goto error;
/* view->table should have been set in mysql_derived_merge_for_insert */
DBUG_ASSERT(view->table);
/*
Use buffer for the insert values that was allocated for the merged view.
*/
tbl->table->insert_values= view->table->insert_values;
view->table= tbl->table;
if (!tbl->single_table_updatable())
{
if (insert)
my_error(ER_NON_INSERTABLE_TABLE, MYF(0), view->alias.str, "INSERT");
else
my_error(ER_NON_UPDATABLE_TABLE, MYF(0), view->alias.str, "UPDATE");
return TRUE;
}
*map= tables;
return FALSE;
error:
my_error(ER_VIEW_MULTIUPDATE, MYF(0),
view->view_db.str, view->view_name.str);
return TRUE;
}
/*
Check if insert fields are correct.
@param thd The current thread.
@param table_list The table we are inserting into (may be view)
@param fields The insert fields.
@param values The insert values.
@param check_unique If duplicate values should be rejected.
@param fields_and_values_from_different_maps If 'values' are allowed to
refer to other tables than those of 'fields'
@param map See check_view_single_update
@returns 0 if success, -1 if error
*/
static int check_insert_fields(THD *thd, TABLE_LIST *table_list,
List<Item> &fields, List<Item> &values,
bool check_unique,
bool fields_and_values_from_different_maps,
table_map *map)
{
TABLE *table= table_list->table;
DBUG_ENTER("check_insert_fields");
if (!table_list->single_table_updatable())
{
my_error(ER_NON_INSERTABLE_TABLE, MYF(0), table_list->alias.str, "INSERT");
DBUG_RETURN(-1);
}
if (fields.elements == 0 && values.elements != 0)
{
if (!table)
{
my_error(ER_VIEW_NO_INSERT_FIELD_LIST, MYF(0),
table_list->view_db.str, table_list->view_name.str);
DBUG_RETURN(-1);
}
if (values.elements != table->s->visible_fields)
{
my_error(ER_WRONG_VALUE_COUNT_ON_ROW, MYF(0), 1L);
DBUG_RETURN(-1);
}
#ifndef NO_EMBEDDED_ACCESS_CHECKS
Field_iterator_table_ref field_it;
field_it.set(table_list);
if (check_grant_all_columns(thd, INSERT_ACL, &field_it))
DBUG_RETURN(-1);
#endif
/*
No fields are provided so all fields must be provided in the values.
Thus we set all bits in the write set.
*/
bitmap_set_all(table->write_set);
}
else
{ // Part field list
SELECT_LEX *select_lex= &thd->lex->select_lex;
Name_resolution_context *context= &select_lex->context;
Name_resolution_context_state ctx_state;
int res;
if (fields.elements != values.elements)
{
my_error(ER_WRONG_VALUE_COUNT_ON_ROW, MYF(0), 1L);
DBUG_RETURN(-1);
}
thd->dup_field= 0;
select_lex->no_wrap_view_item= TRUE;
/* Save the state of the current name resolution context. */
ctx_state.save_state(context, table_list);
/*
Perform name resolution only in the first table - 'table_list',
which is the table that is inserted into.
*/
table_list->next_local= 0;
context->resolve_in_table_list_only(table_list);
/* 'Unfix' fields to allow correct marking by the setup_fields function. */
if (table_list->is_view())
unfix_fields(fields);
res= setup_fields(thd, Ref_ptr_array(),
fields, MARK_COLUMNS_WRITE, 0, NULL, 0);
/* Restore the current context. */
ctx_state.restore_state(context, table_list);
thd->lex->select_lex.no_wrap_view_item= FALSE;
if (res)
DBUG_RETURN(-1);
if (table_list->is_view() && table_list->is_merged_derived())
{
if (check_view_single_update(fields,
fields_and_values_from_different_maps ?
(List<Item>*) 0 : &values,
table_list, map, true))
DBUG_RETURN(-1);
table= table_list->table;
}
if (check_unique && thd->dup_field)
{
my_error(ER_FIELD_SPECIFIED_TWICE, MYF(0),
thd->dup_field->field_name.str);
DBUG_RETURN(-1);
}
}
// For the values we need select_priv
#ifndef NO_EMBEDDED_ACCESS_CHECKS
table->grant.want_privilege= (SELECT_ACL & ~table->grant.privilege);
#endif
if (check_key_in_view(thd, table_list) ||
(table_list->view &&
check_view_insertability(thd, table_list)))
{
my_error(ER_NON_INSERTABLE_TABLE, MYF(0), table_list->alias.str, "INSERT");
DBUG_RETURN(-1);
}
DBUG_RETURN(0);
}
static bool has_no_default_value(THD *thd, Field *field, TABLE_LIST *table_list)
{
if ((field->flags & NO_DEFAULT_VALUE_FLAG) && field->real_type() != MYSQL_TYPE_ENUM)
{
bool view= false;
if (table_list)
{
table_list= table_list->top_table();
view= table_list->view != NULL;
}
if (view)
{
push_warning_printf(thd, Sql_condition::WARN_LEVEL_WARN, ER_NO_DEFAULT_FOR_VIEW_FIELD,
ER_THD(thd, ER_NO_DEFAULT_FOR_VIEW_FIELD),
table_list->view_db.str, table_list->view_name.str);
}
else
{
push_warning_printf(thd, Sql_condition::WARN_LEVEL_WARN, ER_NO_DEFAULT_FOR_FIELD,
ER_THD(thd, ER_NO_DEFAULT_FOR_FIELD),
field->field_name.str);
}
return thd->really_abort_on_warning();
}
return false;
}
/**
Check if update fields are correct.
@param thd The current thread.
@param insert_table_list The table we are inserting into (may be view)
@param update_fields The update fields.
@param update_values The update values.
@param fields_and_values_from_different_maps If 'update_values' are allowed to
refer to other tables than those of 'update_fields'
@param map See check_view_single_update
@note
If the update fields include an autoinc field, set the
table->next_number_field_updated flag.
@returns 0 if success, -1 if error
*/
static int check_update_fields(THD *thd, TABLE_LIST *insert_table_list,
List<Item> &update_fields,
List<Item> &update_values,
bool fields_and_values_from_different_maps,
table_map *map)
{
TABLE *table= insert_table_list->table;
my_bool UNINIT_VAR(autoinc_mark);
table->next_number_field_updated= FALSE;
if (table->found_next_number_field)
{
/*
Unmark the auto_increment field so that we can check if this is modified
by update_fields
*/
autoinc_mark= bitmap_test_and_clear(table->write_set,
table->found_next_number_field->
field_index);
}
/* Check the fields we are going to modify */
if (setup_fields(thd, Ref_ptr_array(),
update_fields, MARK_COLUMNS_WRITE, 0, NULL, 0))
return -1;
if (insert_table_list->is_view() &&
insert_table_list->is_merged_derived() &&
check_view_single_update(update_fields,
fields_and_values_from_different_maps ?
(List<Item>*) 0 : &update_values,
insert_table_list, map, false))
return -1;
if (table->default_field)
table->mark_default_fields_for_write(FALSE);
if (table->found_next_number_field)
{
if (bitmap_is_set(table->write_set,
table->found_next_number_field->field_index))
table->next_number_field_updated= TRUE;
if (autoinc_mark)
bitmap_set_bit(table->write_set,
table->found_next_number_field->field_index);
}
return 0;
}
/**
Upgrade table-level lock of INSERT statement to TL_WRITE if
a more concurrent lock is infeasible for some reason. This is
necessary for engines without internal locking support (MyISAM).
An engine with internal locking implementation might later
downgrade the lock in handler::store_lock() method.
*/
static
void upgrade_lock_type(THD *thd, thr_lock_type *lock_type,
enum_duplicates duplic)
{
if (duplic == DUP_UPDATE ||
(duplic == DUP_REPLACE && *lock_type == TL_WRITE_CONCURRENT_INSERT))
{
*lock_type= TL_WRITE_DEFAULT;
return;
}
if (*lock_type == TL_WRITE_DELAYED)
{
/*
We do not use delayed threads if:
- we're running in the safe mode or skip-new mode -- the
feature is disabled in these modes
- we're executing this statement on a replication slave --
we need to ensure serial execution of queries on the
slave
- it is INSERT .. ON DUPLICATE KEY UPDATE - in this case the
insert cannot be concurrent
- this statement is directly or indirectly invoked from
a stored function or trigger (under pre-locking) - to
avoid deadlocks, since INSERT DELAYED involves a lock
upgrade (TL_WRITE_DELAYED -> TL_WRITE) which we should not
attempt while keeping other table level locks.
- this statement itself may require pre-locking.
We should upgrade the lock even though in most cases
delayed functionality may work. Unfortunately, we can't
easily identify whether the subject table is not used in
the statement indirectly via a stored function or trigger:
if it is used, that will lead to a deadlock between the
client connection and the delayed thread.
*/
if (specialflag & (SPECIAL_NO_NEW_FUNC | SPECIAL_SAFE_MODE) ||
thd->variables.max_insert_delayed_threads == 0 ||
thd->locked_tables_mode > LTM_LOCK_TABLES ||
thd->lex->uses_stored_routines() /*||
thd->lex->describe*/)
{
*lock_type= TL_WRITE;
return;
}
if (thd->slave_thread)
{
/* Try concurrent insert */
*lock_type= (duplic == DUP_UPDATE || duplic == DUP_REPLACE) ?
TL_WRITE : TL_WRITE_CONCURRENT_INSERT;
return;
}
bool log_on= (thd->variables.option_bits & OPTION_BIN_LOG);
if (global_system_variables.binlog_format == BINLOG_FORMAT_STMT &&
log_on && mysql_bin_log.is_open())
{
/*
Statement-based binary logging does not work in this case, because:
a) two concurrent statements may have their rows intermixed in the
queue, leading to autoincrement replication problems on slave (because
the values generated used for one statement don't depend only on the
value generated for the first row of this statement, so are not
replicable)
b) if first row of the statement has an error the full statement is
not binlogged, while next rows of the statement may be inserted.
c) if first row succeeds, statement is binlogged immediately with a
zero error code (i.e. "no error"), if then second row fails, query
will fail on slave too and slave will stop (wrongly believing that the
master got no error).
So we fallback to non-delayed INSERT.
Note that to be fully correct, we should test the "binlog format which
the delayed thread is going to use for this row". But in the common case
where the global binlog format is not changed and the session binlog
format may be changed, that is equal to the global binlog format.
We test it without mutex for speed reasons (condition rarely true), and
in the common case (global not changed) it is as good as without mutex;
if global value is changed, anyway there is uncertainty as the delayed
thread may be old and use the before-the-change value.
*/
*lock_type= TL_WRITE;
}
}
}
/**
Find or create a delayed insert thread for the first table in
the table list, then open and lock the remaining tables.
If a table can not be used with insert delayed, upgrade the lock
and open and lock all tables using the standard mechanism.
@param thd thread context
@param table_list list of "descriptors" for tables referenced
directly in statement SQL text.
The first element in the list corresponds to
the destination table for inserts, remaining
tables, if any, are usually tables referenced
by sub-queries in the right part of the
INSERT.
@return Status of the operation. In case of success 'table'
member of every table_list element points to an instance of
class TABLE.
@sa open_and_lock_tables for more information about MySQL table
level locking
*/
static
bool open_and_lock_for_insert_delayed(THD *thd, TABLE_LIST *table_list)
{
MDL_request protection_request;
DBUG_ENTER("open_and_lock_for_insert_delayed");
#ifndef EMBEDDED_LIBRARY
/* INSERT DELAYED is not allowed in a read only transaction. */
if (thd->tx_read_only)
{
my_error(ER_CANT_EXECUTE_IN_READ_ONLY_TRANSACTION, MYF(0));
DBUG_RETURN(true);
}
/*
In order for the deadlock detector to be able to find any deadlocks
caused by the handler thread waiting for GRL or this table, we acquire
protection against GRL (global IX metadata lock) and metadata lock on
table to being inserted into inside the connection thread.
If this goes ok, the tickets are cloned and added to the list of granted
locks held by the handler thread.
*/
if (thd->global_read_lock.can_acquire_protection())
DBUG_RETURN(TRUE);
protection_request.init(MDL_key::GLOBAL, "", "", MDL_INTENTION_EXCLUSIVE,
MDL_STATEMENT);
if (thd->mdl_context.acquire_lock(&protection_request,
thd->variables.lock_wait_timeout))
DBUG_RETURN(TRUE);
if (thd->mdl_context.acquire_lock(&table_list->mdl_request,
thd->variables.lock_wait_timeout))
/*
If a lock can't be acquired, it makes no sense to try normal insert.
Therefore we just abort the statement.
*/
DBUG_RETURN(TRUE);
bool error= FALSE;
if (delayed_get_table(thd, &protection_request, table_list))
error= TRUE;
else if (table_list->table)
{
/*
Open tables used for sub-selects or in stored functions, will also
cache these functions.
*/
if (open_and_lock_tables(thd, table_list->next_global, TRUE, 0))
{
end_delayed_insert(thd);
error= TRUE;
}
else
{
/*
First table was not processed by open_and_lock_tables(),
we need to set updatability flag "by hand".
*/
if (!table_list->derived && !table_list->view)
table_list->updatable= 1; // usual table
}
}
/*
We can't release protection against GRL and metadata lock on the table
being inserted into here. These locks might be required, for example,
because this INSERT DELAYED calls functions which may try to update
this or another tables (updating the same table is of course illegal,
but such an attempt can be discovered only later during statement
execution).
*/
/*
Reset the ticket in case we end up having to use normal insert and
therefore will reopen the table and reacquire the metadata lock.
*/
table_list->mdl_request.ticket= NULL;
if (error || table_list->table)
DBUG_RETURN(error);
#endif
/*
* This is embedded library and we don't have auxiliary
threads OR
* a lock upgrade was requested inside delayed_get_table
because
- there are too many delayed insert threads OR
- the table has triggers.
Use a normal insert.
*/
table_list->lock_type= TL_WRITE;
DBUG_RETURN(open_and_lock_tables(thd, table_list, TRUE, 0));
}
/**
Create a new query string for removing DELAYED keyword for
multi INSERT DEALAYED statement.
@param[in] thd Thread handler
@param[in] buf Query string
@return
0 ok
1 error
*/
static int
create_insert_stmt_from_insert_delayed(THD *thd, String *buf)
{
/* Make a copy of thd->query() and then remove the "DELAYED" keyword */
if (buf->append(thd->query()) ||
buf->replace(thd->lex->keyword_delayed_begin_offset,
thd->lex->keyword_delayed_end_offset -
thd->lex->keyword_delayed_begin_offset, 0))
return 1;
return 0;
}
static void save_insert_query_plan(THD* thd, TABLE_LIST *table_list)
{
Explain_insert* explain= new (thd->mem_root) Explain_insert(thd->mem_root);
explain->table_name.append(table_list->table->alias);
thd->lex->explain->add_insert_plan(explain);
/* See Update_plan::updating_a_view for details */
bool skip= MY_TEST(table_list->view);
/* Save subquery children */
for (SELECT_LEX_UNIT *unit= thd->lex->select_lex.first_inner_unit();
unit;
unit= unit->next_unit())
{
if (skip)
{
skip= false;
continue;
}
/*
Table elimination doesn't work for INSERTS, but let's still have this
here for consistency
*/
if (!(unit->item && unit->item->eliminated))
explain->add_child(unit->first_select()->select_number);
}
}
Field **TABLE::field_to_fill()
{
return triggers && triggers->nullable_fields() ? triggers->nullable_fields() : field;
}
/**
INSERT statement implementation
@note Like implementations of other DDL/DML in MySQL, this function
relies on the caller to close the thread tables. This is done in the
end of dispatch_command().
*/
bool mysql_insert(THD *thd,TABLE_LIST *table_list,
List<Item> &fields,
List<List_item> &values_list,
List<Item> &update_fields,
List<Item> &update_values,
enum_duplicates duplic,
bool ignore)
{
bool retval= true;
int error, res;
bool transactional_table, joins_freed= FALSE;
bool changed;
const bool was_insert_delayed= (table_list->lock_type == TL_WRITE_DELAYED);
bool using_bulk_insert= 0;
uint value_count;
ulong counter = 1;
/* counter of iteration in bulk PS operation*/
ulonglong iteration= 0;
ulonglong id;
COPY_INFO info;
TABLE *table= 0;
List_iterator_fast<List_item> its(values_list);
List_item *values;
Name_resolution_context *context;
Name_resolution_context_state ctx_state;
#ifndef EMBEDDED_LIBRARY
char *query= thd->query();
/*
log_on is about delayed inserts only.
By default, both logs are enabled (this won't cause problems if the server
runs without --log-bin).
*/
bool log_on= (thd->variables.option_bits & OPTION_BIN_LOG);
#endif
thr_lock_type lock_type;
Item *unused_conds= 0;
DBUG_ENTER("mysql_insert");
create_explain_query(thd->lex, thd->mem_root);
/*
Upgrade lock type if the requested lock is incompatible with
the current connection mode or table operation.
*/
upgrade_lock_type(thd, &table_list->lock_type, duplic);
/*
We can't write-delayed into a table locked with LOCK TABLES:
this will lead to a deadlock, since the delayed thread will
never be able to get a lock on the table.
*/
if (table_list->lock_type == TL_WRITE_DELAYED &&
thd->locked_tables_mode &&
find_locked_table(thd->open_tables, table_list->db.str,
table_list->table_name.str))
{
my_error(ER_DELAYED_INSERT_TABLE_LOCKED, MYF(0),
table_list->table_name.str);
DBUG_RETURN(TRUE);
}
if (table_list->lock_type == TL_WRITE_DELAYED)
{
if (open_and_lock_for_insert_delayed(thd, table_list))
DBUG_RETURN(TRUE);
}
else
{
if (open_and_lock_tables(thd, table_list, TRUE, 0))
DBUG_RETURN(TRUE);
}
THD_STAGE_INFO(thd, stage_init_update);
lock_type= table_list->lock_type;
thd->lex->used_tables=0;
values= its++;
if (bulk_parameters_set(thd))
DBUG_RETURN(TRUE);
value_count= values->elements;
if (mysql_prepare_insert(thd, table_list, table, fields, values,
update_fields, update_values, duplic, &unused_conds,
FALSE))
goto abort;
/* mysql_prepare_insert sets table_list->table if it was not set */
table= table_list->table;
context= &thd->lex->select_lex.context;
/*
These three asserts test the hypothesis that the resetting of the name
resolution context below is not necessary at all since the list of local
tables for INSERT always consists of one table.
*/
DBUG_ASSERT(!table_list->next_local);
DBUG_ASSERT(!context->table_list->next_local);
DBUG_ASSERT(!context->first_name_resolution_table->next_name_resolution_table);
/* Save the state of the current name resolution context. */
ctx_state.save_state(context, table_list);
/*
Perform name resolution only in the first table - 'table_list',
which is the table that is inserted into.
*/
table_list->next_local= 0;
context->resolve_in_table_list_only(table_list);
switch_to_nullable_trigger_fields(*values, table);
while ((values= its++))
{
counter++;
if (values->elements != value_count)
{
my_error(ER_WRONG_VALUE_COUNT_ON_ROW, MYF(0), counter);
goto abort;
}
if (setup_fields(thd, Ref_ptr_array(),
*values, MARK_COLUMNS_READ, 0, NULL, 0))
goto abort;
switch_to_nullable_trigger_fields(*values, table);
}
its.rewind ();
/* Restore the current context. */
ctx_state.restore_state(context, table_list);
if (thd->lex->unit.first_select()->optimize_unflattened_subqueries(false))
{
goto abort;
}
save_insert_query_plan(thd, table_list);
if (thd->lex->describe)
{
retval= thd->lex->explain->send_explain(thd);
goto abort;
}
/*
Fill in the given fields and dump it to the table file
*/
bzero((char*) &info,sizeof(info));
info.ignore= ignore;
info.handle_duplicates=duplic;
info.update_fields= &update_fields;
info.update_values= &update_values;
info.view= (table_list->view ? table_list : 0);
info.table_list= table_list;
/*
Count warnings for all inserts.
For single line insert, generate an error if try to set a NOT NULL field
to NULL.
*/
thd->count_cuted_fields= ((values_list.elements == 1 &&
!ignore) ?
CHECK_FIELD_ERROR_FOR_NULL :
CHECK_FIELD_WARN);
thd->cuted_fields = 0L;
table->next_number_field=table->found_next_number_field;
#ifdef HAVE_REPLICATION
if (thd->rgi_slave &&
(info.handle_duplicates == DUP_UPDATE) &&
(table->next_number_field != NULL) &&
rpl_master_has_bug(thd->rgi_slave->rli, 24432, TRUE, NULL, NULL))
goto abort;
#endif
error=0;
if (duplic == DUP_REPLACE &&
(!table->triggers || !table->triggers->has_delete_triggers()))
table->file->extra(HA_EXTRA_WRITE_CAN_REPLACE);
if (duplic == DUP_UPDATE)
table->file->extra(HA_EXTRA_INSERT_WITH_UPDATE);
/*
let's *try* to start bulk inserts. It won't necessary
start them as values_list.elements should be greater than
some - handler dependent - threshold.
We should not start bulk inserts if this statement uses
functions or invokes triggers since they may access
to the same table and therefore should not see its
inconsistent state created by this optimization.
So we call start_bulk_insert to perform nesessary checks on
values_list.elements, and - if nothing else - to initialize
the code to make the call of end_bulk_insert() below safe.
*/
#ifndef EMBEDDED_LIBRARY
if (lock_type != TL_WRITE_DELAYED)
#endif /* EMBEDDED_LIBRARY */
{
if (duplic != DUP_ERROR || ignore)
table->file->extra(HA_EXTRA_IGNORE_DUP_KEY);
/**
This is a simple check for the case when the table has a trigger
that reads from it, or when the statement invokes a stored function
that reads from the table being inserted to.
Engines can't handle a bulk insert in parallel with a read form the
same table in the same connection.
*/
if (thd->locked_tables_mode <= LTM_LOCK_TABLES &&
values_list.elements > 1)
{
using_bulk_insert= 1;
table->file->ha_start_bulk_insert(values_list.elements);
}
}
thd->abort_on_warning= !ignore && thd->is_strict_mode();
table->reset_default_fields();
table->prepare_triggers_for_insert_stmt_or_event();
table->mark_columns_needed_for_insert();
if (fields.elements || !value_count || table_list->view != 0)
{
if (table->triggers &&
table->triggers->has_triggers(TRG_EVENT_INSERT, TRG_ACTION_BEFORE))
{
/* BEFORE INSERT triggers exist, the check will be done later, per row */
}
else if (check_that_all_fields_are_given_values(thd, table, table_list))
{
error= 1;
goto values_loop_end;
}
}
if (table_list->prepare_where(thd, 0, TRUE) ||
table_list->prepare_check_option(thd))
error= 1;
switch_to_nullable_trigger_fields(fields, table);
switch_to_nullable_trigger_fields(update_fields, table);
switch_to_nullable_trigger_fields(update_values, table);
if (fields.elements || !value_count)
{
/*
There are possibly some default values:
INSERT INTO t1 (fields) VALUES ...
INSERT INTO t1 VALUES ()
*/
if (table->validate_default_values_of_unset_fields(thd))
{
error= 1;
goto values_loop_end;
}
}
THD_STAGE_INFO(thd, stage_update);
do
{
DBUG_PRINT("info", ("iteration %llu", iteration));
if (iteration && bulk_parameters_set(thd))
goto abort;
while ((values= its++))
{
if (fields.elements || !value_count)
{
/*
There are possibly some default values:
INSERT INTO t1 (fields) VALUES ...
INSERT INTO t1 VALUES ()
*/
restore_record(table,s->default_values); // Get empty record
table->reset_default_fields();
if (unlikely(fill_record_n_invoke_before_triggers(thd, table, fields,
*values, 0,
TRG_EVENT_INSERT)))
{
if (values_list.elements != 1 && ! thd->is_error())
{
info.records++;
continue;
}
/*
TODO: set thd->abort_on_warning if values_list.elements == 1
and check that all items return warning in case of problem with
storing field.
*/
error=1;
break;
}
}
else
{
/*
No field list, all fields are set explicitly:
INSERT INTO t1 VALUES (values)
*/
if (thd->lex->used_tables || // Column used in values()
table->s->visible_fields != table->s->fields)
restore_record(table,s->default_values); // Get empty record
else
{
TABLE_SHARE *share= table->s;
/*
Fix delete marker. No need to restore rest of record since it will
be overwritten by fill_record() anyway (and fill_record() does not
use default values in this case).
*/
table->record[0][0]= share->default_values[0];
/* Fix undefined null_bits. */
if (share->null_bytes > 1 && share->last_null_bit_pos)
{
table->record[0][share->null_bytes - 1]=
share->default_values[share->null_bytes - 1];
}
}
table->reset_default_fields();
if (unlikely(fill_record_n_invoke_before_triggers(thd, table,
table->
field_to_fill(),
*values, 0,
TRG_EVENT_INSERT)))
{
if (values_list.elements != 1 && ! thd->is_error())
{
info.records++;
continue;
}
error=1;
break;
}
}
/*
with triggers a field can get a value *conditionally*, so we have to
repeat has_no_default_value() check for every row
*/
if (table->triggers &&
table->triggers->has_triggers(TRG_EVENT_INSERT, TRG_ACTION_BEFORE))
{
for (Field **f=table->field ; *f ; f++)
{
if (unlikely(!(*f)->has_explicit_value() &&
has_no_default_value(thd, *f, table_list)))
{
error= 1;
goto values_loop_end;
}
}
}
if ((res= table_list->view_check_option(thd,
(values_list.elements == 1 ?
0 :
ignore))) ==
VIEW_CHECK_SKIP)
continue;
else if (res == VIEW_CHECK_ERROR)
{
error= 1;
break;
}
#ifndef EMBEDDED_LIBRARY
if (lock_type == TL_WRITE_DELAYED)
{
LEX_STRING const st_query = { query, thd->query_length() };
DEBUG_SYNC(thd, "before_write_delayed");
error=write_delayed(thd, table, duplic, st_query, ignore, log_on);
DEBUG_SYNC(thd, "after_write_delayed");
query=0;
}
else
#endif
error=write_record(thd, table ,&info);
if (unlikely(error))
break;
thd->get_stmt_da()->inc_current_row_for_warning();
}
its.rewind();
iteration++;
} while (bulk_parameters_iterations(thd));
values_loop_end:
free_underlaid_joins(thd, &thd->lex->select_lex);
joins_freed= TRUE;
/*
Now all rows are inserted. Time to update logs and sends response to
user
*/
#ifndef EMBEDDED_LIBRARY
if (unlikely(lock_type == TL_WRITE_DELAYED))
{
if (likely(!error))
{
info.copied=values_list.elements;
end_delayed_insert(thd);
}
}
else
#endif
{
/*
Do not do this release if this is a delayed insert, it would steal
auto_inc values from the delayed_insert thread as they share TABLE.
*/
table->file->ha_release_auto_increment();
if (using_bulk_insert && unlikely(table->file->ha_end_bulk_insert()) &&
!error)
{
table->file->print_error(my_errno,MYF(0));
error=1;
}
if (duplic != DUP_ERROR || ignore)
table->file->extra(HA_EXTRA_NO_IGNORE_DUP_KEY);
transactional_table= table->file->has_transactions();
if (likely(changed= (info.copied || info.deleted || info.updated)))
{
/*
Invalidate the table in the query cache if something changed.
For the transactional algorithm to work the invalidation must be
before binlog writing and ha_autocommit_or_rollback
*/
query_cache_invalidate3(thd, table_list, 1);
}
if (thd->transaction.stmt.modified_non_trans_table)
thd->transaction.all.modified_non_trans_table= TRUE;
thd->transaction.all.m_unsafe_rollback_flags|=
(thd->transaction.stmt.m_unsafe_rollback_flags & THD_TRANS::DID_WAIT);
if (error <= 0 ||
thd->transaction.stmt.modified_non_trans_table ||
was_insert_delayed)
{
if(WSREP_EMULATE_BINLOG(thd) || mysql_bin_log.is_open())
{
int errcode= 0;
if (error <= 0)
{
/*
[Guilhem wrote] Temporary errors may have filled
thd->net.last_error/errno. For example if there has
been a disk full error when writing the row, and it was
MyISAM, then thd->net.last_error/errno will be set to
"disk full"... and the mysql_file_pwrite() will wait until free
space appears, and so when it finishes then the
write_row() was entirely successful
*/
/* todo: consider removing */
thd->clear_error();
}
else
errcode= query_error_code(thd, thd->killed == NOT_KILLED);
ScopedStatementReplication scoped_stmt_rpl(
table->versioned(VERS_TRX_ID) ? thd : NULL);
/* bug#22725:
A query which per-row-loop can not be interrupted with
KILLED, like INSERT, and that does not invoke stored
routines can be binlogged with neglecting the KILLED error.
If there was no error (error == zero) until after the end of
inserting loop the KILLED flag that appeared later can be
disregarded since previously possible invocation of stored
routines did not result in any error due to the KILLED. In
such case the flag is ignored for constructing binlog event.
*/
DBUG_ASSERT(thd->killed != KILL_BAD_DATA || error > 0);
if (was_insert_delayed && table_list->lock_type == TL_WRITE)
{
/* Binlog INSERT DELAYED as INSERT without DELAYED. */
String log_query;
if (create_insert_stmt_from_insert_delayed(thd, &log_query))
{
sql_print_error("Event Error: An error occurred while creating query string"
"for INSERT DELAYED stmt, before writing it into binary log.");
error= 1;
}
else if (thd->binlog_query(THD::ROW_QUERY_TYPE,
log_query.c_ptr(), log_query.length(),
transactional_table, FALSE, FALSE,
errcode))
error= 1;
}
else if (thd->binlog_query(THD::ROW_QUERY_TYPE,
thd->query(), thd->query_length(),
transactional_table, FALSE, FALSE,
errcode))
error= 1;
}
}
DBUG_ASSERT(transactional_table || !changed ||
thd->transaction.stmt.modified_non_trans_table);
}
THD_STAGE_INFO(thd, stage_end);
/*
We'll report to the client this id:
- if the table contains an autoincrement column and we successfully
inserted an autogenerated value, the autogenerated value.
- if the table contains no autoincrement column and LAST_INSERT_ID(X) was
called, X.
- if the table contains an autoincrement column, and some rows were
inserted, the id of the last "inserted" row (if IGNORE, that value may not
have been really inserted but ignored).
*/
id= (thd->first_successful_insert_id_in_cur_stmt > 0) ?
thd->first_successful_insert_id_in_cur_stmt :
(thd->arg_of_last_insert_id_function ?
thd->first_successful_insert_id_in_prev_stmt :
((table->next_number_field && info.copied) ?
table->next_number_field->val_int() : 0));
table->next_number_field=0;
thd->count_cuted_fields= CHECK_FIELD_IGNORE;
table->auto_increment_field_not_null= FALSE;
if (duplic == DUP_REPLACE &&
(!table->triggers || !table->triggers->has_delete_triggers()))
table->file->extra(HA_EXTRA_WRITE_CANNOT_REPLACE);
if (unlikely(error))
goto abort;
if (thd->lex->analyze_stmt)
{
retval= thd->lex->explain->send_explain(thd);
goto abort;
}
if ((iteration * values_list.elements) == 1 && (!(thd->variables.option_bits & OPTION_WARNINGS) ||
!thd->cuted_fields))
{
my_ok(thd, info.copied + info.deleted +
((thd->client_capabilities & CLIENT_FOUND_ROWS) ?
info.touched : info.updated),
id);
}
else
{
char buff[160];
ha_rows updated=((thd->client_capabilities & CLIENT_FOUND_ROWS) ?
info.touched : info.updated);
if (ignore)
sprintf(buff, ER_THD(thd, ER_INSERT_INFO), (ulong) info.records,
(lock_type == TL_WRITE_DELAYED) ? (ulong) 0 :
(ulong) (info.records - info.copied),
(long) thd->get_stmt_da()->current_statement_warn_count());
else
sprintf(buff, ER_THD(thd, ER_INSERT_INFO), (ulong) info.records,
(ulong) (info.deleted + updated),
(long) thd->get_stmt_da()->current_statement_warn_count());
::my_ok(thd, info.copied + info.deleted + updated, id, buff);
}
thd->abort_on_warning= 0;
if (thd->lex->current_select->first_cond_optimization)
{
thd->lex->current_select->save_leaf_tables(thd);
thd->lex->current_select->first_cond_optimization= 0;
}
DBUG_RETURN(FALSE);
abort:
#ifndef EMBEDDED_LIBRARY
if (lock_type == TL_WRITE_DELAYED)
end_delayed_insert(thd);
#endif
if (table != NULL)
table->file->ha_release_auto_increment();
if (!joins_freed)
free_underlaid_joins(thd, &thd->lex->select_lex);
thd->abort_on_warning= 0;
DBUG_RETURN(retval);
}
/*
Additional check for insertability for VIEW
SYNOPSIS
check_view_insertability()
thd - thread handler
view - reference on VIEW
IMPLEMENTATION
A view is insertable if the folloings are true:
- All columns in the view are columns from a table
- All not used columns in table have a default values
- All field in view are unique (not referring to the same column)
RETURN
FALSE - OK
view->contain_auto_increment is 1 if and only if the view contains an
auto_increment field
TRUE - can't be used for insert
*/
static bool check_view_insertability(THD * thd, TABLE_LIST *view)
{
uint num= view->view->select_lex.item_list.elements;
TABLE *table= view->table;
Field_translator *trans_start= view->field_translation,
*trans_end= trans_start + num;
Field_translator *trans;
uint used_fields_buff_size= bitmap_buffer_size(table->s->fields);
uint32 *used_fields_buff= (uint32*)thd->alloc(used_fields_buff_size);
MY_BITMAP used_fields;
enum_column_usage saved_column_usage= thd->column_usage;
DBUG_ENTER("check_key_in_view");
if (!used_fields_buff)
DBUG_RETURN(TRUE); // EOM
DBUG_ASSERT(view->table != 0 && view->field_translation != 0);
(void) my_bitmap_init(&used_fields, used_fields_buff, table->s->fields, 0);
bitmap_clear_all(&used_fields);
view->contain_auto_increment= 0;
/*
we must not set query_id for fields as they're not
really used in this context
*/
thd->column_usage= COLUMNS_WRITE;
/* check simplicity and prepare unique test of view */
for (trans= trans_start; trans != trans_end; trans++)
{
if (!trans->item->fixed && trans->item->fix_fields(thd, &trans->item))
{
thd->column_usage= saved_column_usage;
DBUG_RETURN(TRUE);
}
Item_field *field;
/* simple SELECT list entry (field without expression) */
if (!(field= trans->item->field_for_view_update()))
{
thd->column_usage= saved_column_usage;
DBUG_RETURN(TRUE);
}
if (field->field->unireg_check == Field::NEXT_NUMBER)
view->contain_auto_increment= 1;
/* prepare unique test */
/*
remove collation (or other transparent for update function) if we have
it
*/
trans->item= field;
}
thd->column_usage= saved_column_usage;
/* unique test */
for (trans= trans_start; trans != trans_end; trans++)
{
/* Thanks to test above, we know that all columns are of type Item_field */
Item_field *field= (Item_field *)trans->item;
/* check fields belong to table in which we are inserting */
if (field->field->table == table &&
bitmap_fast_test_and_set(&used_fields, field->field->field_index))
DBUG_RETURN(TRUE);
}
DBUG_RETURN(FALSE);
}
/*
Check if table can be updated
SYNOPSIS
mysql_prepare_insert_check_table()
thd Thread handle
table_list Table list
fields List of fields to be updated
where Pointer to where clause
select_insert Check is making for SELECT ... INSERT
RETURN
FALSE ok
TRUE ERROR
*/
static bool mysql_prepare_insert_check_table(THD *thd, TABLE_LIST *table_list,
List<Item> &fields,
bool select_insert)
{
bool insert_into_view= (table_list->view != 0);
DBUG_ENTER("mysql_prepare_insert_check_table");
if (!table_list->single_table_updatable())
{
my_error(ER_NON_INSERTABLE_TABLE, MYF(0), table_list->alias.str, "INSERT");
DBUG_RETURN(TRUE);
}
/*
first table in list is the one we'll INSERT into, requires INSERT_ACL.
all others require SELECT_ACL only. the ACL requirement below is for
new leaves only anyway (view-constituents), so check for SELECT rather
than INSERT.
*/
if (setup_tables_and_check_access(thd, &thd->lex->select_lex.context,
&thd->lex->select_lex.top_join_list,
table_list,
thd->lex->select_lex.leaf_tables,
select_insert, INSERT_ACL, SELECT_ACL,
TRUE))
DBUG_RETURN(TRUE);
if (insert_into_view && !fields.elements)
{
thd->lex->empty_field_list_on_rset= 1;
if (!thd->lex->select_lex.leaf_tables.head()->table ||
table_list->is_multitable())
{
my_error(ER_VIEW_NO_INSERT_FIELD_LIST, MYF(0),
table_list->view_db.str, table_list->view_name.str);
DBUG_RETURN(TRUE);
}
DBUG_RETURN(insert_view_fields(thd, &fields, table_list));
}
DBUG_RETURN(FALSE);
}
/*
Get extra info for tables we insert into
@param table table(TABLE object) we insert into,
might be NULL in case of view
@param table(TABLE_LIST object) or view we insert into
*/
static void prepare_for_positional_update(TABLE *table, TABLE_LIST *tables)
{
if (table)
{
if(table->reginfo.lock_type != TL_WRITE_DELAYED)
table->prepare_for_position();
return;
}
DBUG_ASSERT(tables->view);
List_iterator<TABLE_LIST> it(*tables->view_tables);
TABLE_LIST *tbl;
while ((tbl= it++))
prepare_for_positional_update(tbl->table, tbl);
return;
}
/*
Prepare items in INSERT statement
SYNOPSIS
mysql_prepare_insert()
thd Thread handler
table_list Global/local table list
table Table to insert into (can be NULL if table should
be taken from table_list->table)
where Where clause (for insert ... select)
select_insert TRUE if INSERT ... SELECT statement
TODO (in far future)
In cases of:
INSERT INTO t1 SELECT a, sum(a) as sum1 from t2 GROUP BY a
ON DUPLICATE KEY ...
we should be able to refer to sum1 in the ON DUPLICATE KEY part
WARNING
You MUST set table->insert_values to 0 after calling this function
before releasing the table object.
RETURN VALUE
FALSE OK
TRUE error
*/
bool mysql_prepare_insert(THD *thd, TABLE_LIST *table_list,
TABLE *table, List<Item> &fields, List_item *values,
List<Item> &update_fields, List<Item> &update_values,
enum_duplicates duplic, COND **where,
bool select_insert)
{
SELECT_LEX *select_lex= &thd->lex->select_lex;
Name_resolution_context *context= &select_lex->context;
Name_resolution_context_state ctx_state;
bool insert_into_view= (table_list->view != 0);
bool res= 0;
table_map map= 0;
DBUG_ENTER("mysql_prepare_insert");
DBUG_PRINT("enter", ("table_list: %p table: %p view: %d",
table_list, table,
(int)insert_into_view));
/* INSERT should have a SELECT or VALUES clause */
DBUG_ASSERT (!select_insert || !values);
if (mysql_handle_derived(thd->lex, DT_INIT))
DBUG_RETURN(TRUE);
if (table_list->handle_derived(thd->lex, DT_MERGE_FOR_INSERT))
DBUG_RETURN(TRUE);
if (mysql_handle_list_of_derived(thd->lex, table_list, DT_PREPARE))
DBUG_RETURN(TRUE);
/*
For subqueries in VALUES() we should not see the table in which we are
inserting (for INSERT ... SELECT this is done by changing table_list,
because INSERT ... SELECT share SELECT_LEX it with SELECT.
*/
if (!select_insert)
{
for (SELECT_LEX_UNIT *un= select_lex->first_inner_unit();
un;
un= un->next_unit())
{
for (SELECT_LEX *sl= un->first_select();
sl;
sl= sl->next_select())
{
sl->context.outer_context= 0;
}
}
}
if (duplic == DUP_UPDATE)
{
/* it should be allocated before Item::fix_fields() */
if (table_list->set_insert_values(thd->mem_root))
DBUG_RETURN(TRUE);
}
if (mysql_prepare_insert_check_table(thd, table_list, fields, select_insert))
DBUG_RETURN(TRUE);
/* Prepare the fields in the statement. */
if (values)
{
/* if we have INSERT ... VALUES () we cannot have a GROUP BY clause */
DBUG_ASSERT (!select_lex->group_list.elements);
/* Save the state of the current name resolution context. */
ctx_state.save_state(context, table_list);
/*
Perform name resolution only in the first table - 'table_list',
which is the table that is inserted into.
*/
table_list->next_local= 0;
context->resolve_in_table_list_only(table_list);
res= (setup_fields(thd, Ref_ptr_array(),
*values, MARK_COLUMNS_READ, 0, NULL, 0) ||
check_insert_fields(thd, context->table_list, fields, *values,
!insert_into_view, 0, &map));
if (!res)
res= setup_fields(thd, Ref_ptr_array(),
update_values, MARK_COLUMNS_READ, 0, NULL, 0);
if (!res && duplic == DUP_UPDATE)
{
select_lex->no_wrap_view_item= TRUE;
res= check_update_fields(thd, context->table_list, update_fields,
update_values, false, &map);
select_lex->no_wrap_view_item= FALSE;
}
/* Restore the current context. */
ctx_state.restore_state(context, table_list);
}
if (res)
DBUG_RETURN(res);
if (!table)
table= table_list->table;
if (table->versioned(VERS_TIMESTAMP) && duplic == DUP_REPLACE)
{
// Additional memory may be required to create historical items.
if (table_list->set_insert_values(thd->mem_root))
DBUG_RETURN(TRUE);
}
if (!select_insert)
{
Item *fake_conds= 0;
TABLE_LIST *duplicate;
if ((duplicate= unique_table(thd, table_list, table_list->next_global,
CHECK_DUP_ALLOW_DIFFERENT_ALIAS)))
{
update_non_unique_table_error(table_list, "INSERT", duplicate);
DBUG_RETURN(TRUE);
}
select_lex->fix_prepare_information(thd, &fake_conds, &fake_conds);
select_lex->first_execution= 0;
}
/*
Only call prepare_for_posistion() if we are not performing a DELAYED
operation. It will instead be executed by delayed insert thread.
*/
if (duplic == DUP_UPDATE || duplic == DUP_REPLACE)
prepare_for_positional_update(table, table_list);
DBUG_RETURN(FALSE);
}
/* Check if there is more uniq keys after field */
static int last_uniq_key(TABLE *table,uint keynr)
{
/*
When an underlying storage engine informs that the unique key
conflicts are not reported in the ascending order by setting
the HA_DUPLICATE_KEY_NOT_IN_ORDER flag, we cannot rely on this
information to determine the last key conflict.
The information about the last key conflict will be used to
do a replace of the new row on the conflicting row, rather
than doing a delete (of old row) + insert (of new row).
Hence check for this flag and disable replacing the last row
by returning 0 always. Returning 0 will result in doing
a delete + insert always.
*/
if (table->file->ha_table_flags() & HA_DUPLICATE_KEY_NOT_IN_ORDER)
return 0;
while (++keynr < table->s->keys)
if (table->key_info[keynr].flags & HA_NOSAME)
return 0;
return 1;
}
/*
Inserts one historical row to a table.
Copies content of the row from table->record[1] to table->record[0],
sets Sys_end to now() and calls ha_write_row() .
*/
int vers_insert_history_row(TABLE *table)
{
DBUG_ASSERT(table->versioned(VERS_TIMESTAMP));
restore_record(table,record[1]);
// Set Sys_end to now()
table->vers_update_end();
Field *row_start= table->vers_start_field();
Field *row_end= table->vers_end_field();
if (row_start->cmp(row_start->ptr, row_end->ptr) >= 0)
return 0;
return table->file->ha_write_row(table->record[0]);
}
/*
Write a record to table with optional deleting of conflicting records,
invoke proper triggers if needed.
SYNOPSIS
write_record()
thd - thread context
table - table to which record should be written
info - COPY_INFO structure describing handling of duplicates
and which is used for counting number of records inserted
and deleted.
NOTE
Once this record will be written to table after insert trigger will
be invoked. If instead of inserting new record we will update old one
then both on update triggers will work instead. Similarly both on
delete triggers will be invoked if we will delete conflicting records.
Sets thd->transaction.stmt.modified_non_trans_table to TRUE if table which is updated didn't have
transactions.
RETURN VALUE
0 - success
non-0 - error
*/
int write_record(THD *thd, TABLE *table,COPY_INFO *info)
{
int error, trg_error= 0;
char *key=0;
MY_BITMAP *save_read_set, *save_write_set;
ulonglong prev_insert_id= table->file->next_insert_id;
ulonglong insert_id_for_cur_row= 0;
ulonglong prev_insert_id_for_cur_row= 0;
DBUG_ENTER("write_record");
info->records++;
save_read_set= table->read_set;
save_write_set= table->write_set;
if (info->handle_duplicates == DUP_REPLACE ||
info->handle_duplicates == DUP_UPDATE)
{
while (unlikely(error=table->file->ha_write_row(table->record[0])))
{
uint key_nr;
/*
If we do more than one iteration of this loop, from the second one the
row will have an explicit value in the autoinc field, which was set at
the first call of handler::update_auto_increment(). So we must save
the autogenerated value to avoid thd->insert_id_for_cur_row to become
0.
*/
if (table->file->insert_id_for_cur_row > 0)
insert_id_for_cur_row= table->file->insert_id_for_cur_row;
else
table->file->insert_id_for_cur_row= insert_id_for_cur_row;
bool is_duplicate_key_error;
if (table->file->is_fatal_error(error, HA_CHECK_ALL))
goto err;
is_duplicate_key_error=
table->file->is_fatal_error(error, HA_CHECK_ALL & ~HA_CHECK_DUP);
if (!is_duplicate_key_error)
{
/*
We come here when we had an ignorable error which is not a duplicate
key error. In this we ignore error if ignore flag is set, otherwise
report error as usual. We will not do any duplicate key processing.
*/
if (info->ignore)
{
table->file->print_error(error, MYF(ME_JUST_WARNING));
goto ok_or_after_trg_err; /* Ignoring a not fatal error, return 0 */
}
goto err;
}
if (unlikely((int) (key_nr = table->file->get_dup_key(error)) < 0))
{
error= HA_ERR_FOUND_DUPP_KEY; /* Database can't find key */
goto err;
}
DEBUG_SYNC(thd, "write_row_replace");
/* Read all columns for the row we are going to replace */
table->use_all_columns();
/*
Don't allow REPLACE to replace a row when a auto_increment column
was used. This ensures that we don't get a problem when the
whole range of the key has been used.
*/
if (info->handle_duplicates == DUP_REPLACE &&
table->next_number_field &&
key_nr == table->s->next_number_index &&
(insert_id_for_cur_row > 0))
goto err;
if (table->file->ha_table_flags() & HA_DUPLICATE_POS)
{
if (table->file->ha_rnd_pos(table->record[1],table->file->dup_ref))
goto err;
}
else
{
if (table->file->extra(HA_EXTRA_FLUSH_CACHE)) /* Not needed with NISAM */
{
error=my_errno;
goto err;
}
if (!key)
{
if (!(key=(char*) my_safe_alloca(table->s->max_unique_length)))
{
error=ENOMEM;
goto err;
}
}
key_copy((uchar*) key,table->record[0],table->key_info+key_nr,0);
key_part_map keypart_map= (1 << table->key_info[key_nr].user_defined_key_parts) - 1;
if ((error= (table->file->ha_index_read_idx_map(table->record[1],
key_nr, (uchar*) key,
keypart_map,
HA_READ_KEY_EXACT))))
goto err;
}
if (table->vfield)
{
/*
We have not yet called update_virtual_fields(VOL_UPDATE_FOR_READ)
in handler methods for the just read row in record[1].
*/
table->move_fields(table->field, table->record[1], table->record[0]);
table->update_virtual_fields(table->file, VCOL_UPDATE_FOR_REPLACE);
table->move_fields(table->field, table->record[0], table->record[1]);
}
if (info->handle_duplicates == DUP_UPDATE)
{
int res= 0;
/*
We don't check for other UNIQUE keys - the first row
that matches, is updated. If update causes a conflict again,
an error is returned
*/
DBUG_ASSERT(table->insert_values != NULL);
store_record(table,insert_values);
restore_record(table,record[1]);
table->reset_default_fields();
/*
in INSERT ... ON DUPLICATE KEY UPDATE the set of modified fields can
change per row. Thus, we have to do reset_default_fields() per row.
Twice (before insert and before update).
*/
DBUG_ASSERT(info->update_fields->elements ==
info->update_values->elements);
if (fill_record_n_invoke_before_triggers(thd, table,
*info->update_fields,
*info->update_values,
info->ignore,
TRG_EVENT_UPDATE))
goto before_trg_err;
bool different_records= (!records_are_comparable(table) ||
compare_record(table));
/*
Default fields must be updated before checking view updateability.
This branch of INSERT is executed only when a UNIQUE key was violated
with the ON DUPLICATE KEY UPDATE option. In this case the INSERT
operation is transformed to an UPDATE, and the default fields must
be updated as if this is an UPDATE.
*/
if (different_records && table->default_field)
{
if (table->update_default_fields(1, info->ignore))
goto err;
}
/* CHECK OPTION for VIEW ... ON DUPLICATE KEY UPDATE ... */
res= info->table_list->view_check_option(table->in_use, info->ignore);
if (res == VIEW_CHECK_SKIP)
goto ok_or_after_trg_err;
if (res == VIEW_CHECK_ERROR)
goto before_trg_err;
table->file->restore_auto_increment(prev_insert_id);
info->touched++;
if (different_records)
{
if (unlikely(error=table->file->ha_update_row(table->record[1],
table->record[0])) &&
error != HA_ERR_RECORD_IS_THE_SAME)
{
if (info->ignore &&
!table->file->is_fatal_error(error, HA_CHECK_ALL))
{
if (!(thd->variables.old_behavior &
OLD_MODE_NO_DUP_KEY_WARNINGS_WITH_IGNORE))
table->file->print_error(error, MYF(ME_JUST_WARNING));
goto ok_or_after_trg_err;
}
goto err;
}
if (error != HA_ERR_RECORD_IS_THE_SAME)
{
info->updated++;
if (table->versioned())
{
if (table->versioned(VERS_TIMESTAMP))
{
store_record(table, record[2]);
if ((error= vers_insert_history_row(table)))
{
info->last_errno= error;
table->file->print_error(error, MYF(0));
trg_error= 1;
restore_record(table, record[2]);
goto ok_or_after_trg_err;
}
restore_record(table, record[2]);
}
info->copied++;
}
}
else
error= 0;
/*
If ON DUP KEY UPDATE updates a row instead of inserting
one, it's like a regular UPDATE statement: it should not
affect the value of a next SELECT LAST_INSERT_ID() or
mysql_insert_id(). Except if LAST_INSERT_ID(#) was in the
INSERT query, which is handled separately by
THD::arg_of_last_insert_id_function.
*/
prev_insert_id_for_cur_row= table->file->insert_id_for_cur_row;
insert_id_for_cur_row= table->file->insert_id_for_cur_row= 0;
trg_error= (table->triggers &&
table->triggers->process_triggers(thd, TRG_EVENT_UPDATE,
TRG_ACTION_AFTER, TRUE));
info->copied++;
}
/*
Only update next_insert_id if the AUTO_INCREMENT value was explicitly
updated, so we don't update next_insert_id with the value from the
row being updated. Otherwise reset next_insert_id to what it was
before the duplicate key error, since that value is unused.
*/
if (table->next_number_field_updated)
{
DBUG_ASSERT(table->next_number_field != NULL);
table->file->adjust_next_insert_id_after_explicit_value(table->next_number_field->val_int());
}
else if (prev_insert_id_for_cur_row)
{
table->file->restore_auto_increment(prev_insert_id_for_cur_row);
}
goto ok_or_after_trg_err;
}
else /* DUP_REPLACE */
{
/*
The manual defines the REPLACE semantics that it is either
an INSERT or DELETE(s) + INSERT; FOREIGN KEY checks in
InnoDB do not function in the defined way if we allow MySQL
to convert the latter operation internally to an UPDATE.
We also should not perform this conversion if we have
timestamp field with ON UPDATE which is different from DEFAULT.
Another case when conversion should not be performed is when
we have ON DELETE trigger on table so user may notice that
we cheat here. Note that it is ok to do such conversion for
tables which have ON UPDATE but have no ON DELETE triggers,
we just should not expose this fact to users by invoking
ON UPDATE triggers.
For system versioning wa also use path through delete since we would
save nothing through this cheating.
*/
if (last_uniq_key(table,key_nr) &&
!table->file->referenced_by_foreign_key() &&
(!table->triggers || !table->triggers->has_delete_triggers()))
{
if (table->versioned(VERS_TRX_ID))
{
bitmap_set_bit(table->write_set, table->vers_start_field()->field_index);
table->vers_start_field()->store(0, false);
}
if (unlikely(error= table->file->ha_update_row(table->record[1],
table->record[0])) &&
error != HA_ERR_RECORD_IS_THE_SAME)
goto err;
if (likely(!error))
{
info->deleted++;
if (table->versioned(VERS_TIMESTAMP))
{
store_record(table, record[2]);
error= vers_insert_history_row(table);
restore_record(table, record[2]);
if (unlikely(error))
goto err;
}
}
else
error= 0; // error was HA_ERR_RECORD_IS_THE_SAME
thd->record_first_successful_insert_id_in_cur_stmt(table->file->insert_id_for_cur_row);
/*
Since we pretend that we have done insert we should call
its after triggers.
*/
goto after_trg_n_copied_inc;
}
else
{
if (table->triggers &&
table->triggers->process_triggers(thd, TRG_EVENT_DELETE,
TRG_ACTION_BEFORE, TRUE))
goto before_trg_err;
if (!table->versioned(VERS_TIMESTAMP))
error= table->file->ha_delete_row(table->record[1]);
else
{
DBUG_ASSERT(table->insert_values);
store_record(table,insert_values);
restore_record(table,record[1]);
table->vers_update_end();
error= table->file->ha_update_row(table->record[1],
table->record[0]);
restore_record(table,insert_values);
}
if (unlikely(error))
goto err;
if (!table->versioned(VERS_TIMESTAMP))
info->deleted++;
else
info->updated++;
if (!table->file->has_transactions())
thd->transaction.stmt.modified_non_trans_table= TRUE;
if (table->triggers &&
table->triggers->process_triggers(thd, TRG_EVENT_DELETE,
TRG_ACTION_AFTER, TRUE))
{
trg_error= 1;
goto ok_or_after_trg_err;
}
/* Let us attempt do write_row() once more */
}
}
}
/*
If more than one iteration of the above while loop is done, from
the second one the row being inserted will have an explicit
value in the autoinc field, which was set at the first call of
handler::update_auto_increment(). This value is saved to avoid
thd->insert_id_for_cur_row becoming 0. Use this saved autoinc
value.
*/
if (table->file->insert_id_for_cur_row == 0)
table->file->insert_id_for_cur_row= insert_id_for_cur_row;
thd->record_first_successful_insert_id_in_cur_stmt(table->file->insert_id_for_cur_row);
/*
Restore column maps if they where replaced during an duplicate key
problem.
*/
if (table->read_set != save_read_set ||
table->write_set != save_write_set)
table->column_bitmaps_set(save_read_set, save_write_set);
}
else if (unlikely((error=table->file->ha_write_row(table->record[0]))))
{
DEBUG_SYNC(thd, "write_row_noreplace");
if (!info->ignore ||
table->file->is_fatal_error(error, HA_CHECK_ALL))
goto err;
if (!(thd->variables.old_behavior &
OLD_MODE_NO_DUP_KEY_WARNINGS_WITH_IGNORE))
table->file->print_error(error, MYF(ME_JUST_WARNING));
table->file->restore_auto_increment(prev_insert_id);
goto ok_or_after_trg_err;
}
after_trg_n_copied_inc:
info->copied++;
thd->record_first_successful_insert_id_in_cur_stmt(table->file->insert_id_for_cur_row);
trg_error= (table->triggers &&
table->triggers->process_triggers(thd, TRG_EVENT_INSERT,
TRG_ACTION_AFTER, TRUE));
ok_or_after_trg_err:
if (key)
my_safe_afree(key,table->s->max_unique_length);
if (!table->file->has_transactions())
thd->transaction.stmt.modified_non_trans_table= TRUE;
DBUG_RETURN(trg_error);
err:
info->last_errno= error;
table->file->print_error(error,MYF(0));
before_trg_err:
table->file->restore_auto_increment(prev_insert_id);
if (key)
my_safe_afree(key, table->s->max_unique_length);
table->column_bitmaps_set(save_read_set, save_write_set);
DBUG_RETURN(1);
}
/******************************************************************************
Check that all fields with arn't null_fields are used
******************************************************************************/
int check_that_all_fields_are_given_values(THD *thd, TABLE *entry, TABLE_LIST *table_list)
{
int err= 0;
MY_BITMAP *write_set= entry->write_set;
for (Field **field=entry->field ; *field ; field++)
{
if (!bitmap_is_set(write_set, (*field)->field_index) &&
!(*field)->vers_sys_field() &&
has_no_default_value(thd, *field, table_list) &&
((*field)->real_type() != MYSQL_TYPE_ENUM))
err=1;
}
return thd->abort_on_warning ? err : 0;
}
/*****************************************************************************
Handling of delayed inserts
A thread is created for each table that one uses with the DELAYED attribute.
*****************************************************************************/
#ifndef EMBEDDED_LIBRARY
class delayed_row :public ilink {
public:
char *record;
enum_duplicates dup;
my_time_t start_time;
ulong start_time_sec_part;
sql_mode_t sql_mode;
bool auto_increment_field_not_null;
bool ignore, log_query, query_start_sec_part_used;
bool stmt_depends_on_first_successful_insert_id_in_prev_stmt;
ulonglong first_successful_insert_id_in_prev_stmt;
ulonglong forced_insert_id;
ulong auto_increment_increment;
ulong auto_increment_offset;
LEX_STRING query;
Time_zone *time_zone;
delayed_row(LEX_STRING const query_arg, enum_duplicates dup_arg,
bool ignore_arg, bool log_query_arg)
: record(0), dup(dup_arg), ignore(ignore_arg), log_query(log_query_arg),
forced_insert_id(0), query(query_arg), time_zone(0)
{}
~delayed_row()
{
my_free(query.str);
my_free(record);
}
};
/**
Delayed_insert - context of a thread responsible for delayed insert
into one table. When processing delayed inserts, we create an own
thread for every distinct table. Later on all delayed inserts directed
into that table are handled by a dedicated thread.
*/
class Delayed_insert :public ilink {
uint locks_in_memory;
thr_lock_type delayed_lock;
public:
THD thd;
TABLE *table;
mysql_mutex_t mutex;
mysql_cond_t cond, cond_client;
uint tables_in_use, stacked_inserts;
volatile bool status;
bool retry;
/**
When the handler thread starts, it clones a metadata lock ticket
which protects against GRL and ticket for the table to be inserted.
This is done to allow the deadlock detector to detect deadlocks
resulting from these locks.
Before this is done, the connection thread cannot safely exit
without causing problems for clone_ticket().
Once handler_thread_initialized has been set, it is safe for the
connection thread to exit.
Access to handler_thread_initialized is protected by di->mutex.
*/
bool handler_thread_initialized;
COPY_INFO info;
I_List<delayed_row> rows;
ulong group_count;
TABLE_LIST table_list; // Argument
/**
Request for IX metadata lock protecting against GRL which is
passed from connection thread to the handler thread.
*/
MDL_request grl_protection;
Delayed_insert(SELECT_LEX *current_select)
:locks_in_memory(0), thd(next_thread_id()),
table(0),tables_in_use(0), stacked_inserts(0),
status(0), retry(0), handler_thread_initialized(FALSE), group_count(0)
{
DBUG_ENTER("Delayed_insert constructor");
thd.security_ctx->user=(char*) delayed_user;
thd.security_ctx->host=(char*) my_localhost;
strmake_buf(thd.security_ctx->priv_user, thd.security_ctx->user);
thd.current_tablenr=0;
thd.set_command(COM_DELAYED_INSERT);
thd.lex->current_select= current_select;
thd.lex->sql_command= SQLCOM_INSERT; // For innodb::store_lock()
/*
Prevent changes to global.lock_wait_timeout from affecting
delayed insert threads as any timeouts in delayed inserts
are not communicated to the client.
*/
thd.variables.lock_wait_timeout= LONG_TIMEOUT;
bzero((char*) &thd.net, sizeof(thd.net)); // Safety
bzero((char*) &table_list, sizeof(table_list)); // Safety
thd.system_thread= SYSTEM_THREAD_DELAYED_INSERT;
thd.security_ctx->host_or_ip= "";
bzero((char*) &info,sizeof(info));
mysql_mutex_init(key_delayed_insert_mutex, &mutex, MY_MUTEX_INIT_FAST);
mysql_cond_init(key_delayed_insert_cond, &cond, NULL);
mysql_cond_init(key_delayed_insert_cond_client, &cond_client, NULL);
mysql_mutex_lock(&LOCK_thread_count);
delayed_insert_threads++;
delayed_lock= global_system_variables.low_priority_updates ?
TL_WRITE_LOW_PRIORITY : TL_WRITE;
mysql_mutex_unlock(&LOCK_thread_count);
DBUG_VOID_RETURN;
}
~Delayed_insert()
{
/* The following is not really needed, but just for safety */
delayed_row *row;
while ((row=rows.get()))
delete row;
if (table)
{
close_thread_tables(&thd);
thd.mdl_context.release_transactional_locks();
}
mysql_mutex_destroy(&mutex);
mysql_cond_destroy(&cond);
mysql_cond_destroy(&cond_client);
/*
We could use unlink_not_visible_threads() here, but as
delayed_insert_threads also needs to be protected by
the LOCK_thread_count mutex, we open code this.
*/
mysql_mutex_lock(&LOCK_thread_count);
thd.unlink(); // Must be unlinked under lock
delayed_insert_threads--;
mysql_mutex_unlock(&LOCK_thread_count);
my_free(thd.query());
thd.security_ctx->user= 0;
thd.security_ctx->host= 0;
}
/* The following is for checking when we can delete ourselves */
inline void lock()
{
locks_in_memory++; // Assume LOCK_delay_insert
}
void unlock()
{
mysql_mutex_lock(&LOCK_delayed_insert);
if (!--locks_in_memory)
{
mysql_mutex_lock(&mutex);
if (thd.killed && ! stacked_inserts && ! tables_in_use)
{
mysql_cond_signal(&cond);
status=1;
}
mysql_mutex_unlock(&mutex);
}
mysql_mutex_unlock(&LOCK_delayed_insert);
}
inline uint lock_count() { return locks_in_memory; }
TABLE* get_local_table(THD* client_thd);
bool open_and_lock_table();
bool handle_inserts(void);
};
I_List<Delayed_insert> delayed_threads;
/**
Return an instance of delayed insert thread that can handle
inserts into a given table, if it exists. Otherwise return NULL.
*/
static
Delayed_insert *find_handler(THD *thd, TABLE_LIST *table_list)
{
THD_STAGE_INFO(thd, stage_waiting_for_delay_list);
mysql_mutex_lock(&LOCK_delayed_insert); // Protect master list
I_List_iterator<Delayed_insert> it(delayed_threads);
Delayed_insert *di;
while ((di= it++))
{
if (!cmp(&table_list->db, &di->table_list.db) &&
!cmp(&table_list->table_name, &di->table_list.table_name))
{
di->lock();
break;
}
}
mysql_mutex_unlock(&LOCK_delayed_insert); // For unlink from list
return di;
}
/**
Attempt to find or create a delayed insert thread to handle inserts
into this table.
@return In case of success, table_list->table points to a local copy
of the delayed table or is set to NULL, which indicates a
request for lock upgrade. In case of failure, value of
table_list->table is undefined.
@retval TRUE - this thread ran out of resources OR
- a newly created delayed insert thread ran out of
resources OR
- the created thread failed to open and lock the table
(e.g. because it does not exist) OR
- the table opened in the created thread turned out to
be a view
@retval FALSE - table successfully opened OR
- too many delayed insert threads OR
- the table has triggers and we have to fall back to
a normal INSERT
Two latter cases indicate a request for lock upgrade.
XXX: why do we regard INSERT DELAYED into a view as an error and
do not simply perform a lock upgrade?
TODO: The approach with using two mutexes to work with the
delayed thread list -- LOCK_delayed_insert and
LOCK_delayed_create -- is redundant, and we only need one of
them to protect the list. The reason we have two locks is that
we do not want to block look-ups in the list while we're waiting
for the newly created thread to open the delayed table. However,
this wait itself is redundant -- we always call get_local_table
later on, and there wait again until the created thread acquires
a table lock.
As is redundant the concept of locks_in_memory, since we already
have another counter with similar semantics - tables_in_use,
both of them are devoted to counting the number of producers for
a given consumer (delayed insert thread), only at different
stages of producer-consumer relationship.
The 'status' variable in Delayed_insert is redundant
too, since there is already di->stacked_inserts.
*/
static
bool delayed_get_table(THD *thd, MDL_request *grl_protection_request,
TABLE_LIST *table_list)
{
int error;
Delayed_insert *di;
DBUG_ENTER("delayed_get_table");
/* Must be set in the parser */
DBUG_ASSERT(table_list->db.str);
/* Find the thread which handles this table. */
if (!(di= find_handler(thd, table_list)))
{
/*
No match. Create a new thread to handle the table, but
no more than max_insert_delayed_threads.
*/
if (delayed_insert_threads >= thd->variables.max_insert_delayed_threads)
DBUG_RETURN(0);
THD_STAGE_INFO(thd, stage_creating_delayed_handler);
mysql_mutex_lock(&LOCK_delayed_create);
/*
The first search above was done without LOCK_delayed_create.
Another thread might have created the handler in between. Search again.
*/
if (! (di= find_handler(thd, table_list)))
{
if (!(di= new Delayed_insert(thd->lex->current_select)))
goto end_create;
/*
Annotating delayed inserts is not supported.
*/
di->thd.variables.binlog_annotate_row_events= 0;
di->thd.set_db(&table_list->db);
di->thd.set_query(my_strndup(table_list->table_name.str,
table_list->table_name.length,
MYF(MY_WME | ME_FATALERROR)),
table_list->table_name.length, system_charset_info);
if (di->thd.db.str == NULL || di->thd.query() == NULL)
{
/* The error is reported */
delete di;
goto end_create;
}
di->table_list= *table_list; // Needed to open table
/* Replace volatile strings with local copies */
di->table_list.alias.str= di->table_list.table_name.str= di->thd.query();
di->table_list.alias.length= di->table_list.table_name.length= di->thd.query_length();
di->table_list.db= di->thd.db;
/* We need the tickets so that they can be cloned in handle_delayed_insert */
di->grl_protection.init(MDL_key::GLOBAL, "", "",
MDL_INTENTION_EXCLUSIVE, MDL_STATEMENT);
di->grl_protection.ticket= grl_protection_request->ticket;
init_mdl_requests(&di->table_list);
di->table_list.mdl_request.ticket= table_list->mdl_request.ticket;
di->lock();
mysql_mutex_lock(&di->mutex);
if ((error= mysql_thread_create(key_thread_delayed_insert,
&di->thd.real_id, &connection_attrib,
handle_delayed_insert, (void*) di)))
{
DBUG_PRINT("error",
("Can't create thread to handle delayed insert (error %d)",
error));
mysql_mutex_unlock(&di->mutex);
di->unlock();
delete di;
my_error(ER_CANT_CREATE_THREAD, MYF(ME_FATALERROR), error);
goto end_create;
}
/*
Wait until table is open unless the handler thread or the connection
thread has been killed. Note that we in all cases must wait until the
handler thread has been properly initialized before exiting. Otherwise
we risk doing clone_ticket() on a ticket that is no longer valid.
*/
THD_STAGE_INFO(thd, stage_waiting_for_handler_open);
while (!di->handler_thread_initialized ||
(!di->thd.killed && !di->table && !thd->killed))
{
mysql_cond_wait(&di->cond_client, &di->mutex);
}
mysql_mutex_unlock(&di->mutex);
THD_STAGE_INFO(thd, stage_got_old_table);
if (thd->killed)
{
di->unlock();
goto end_create;
}
if (di->thd.killed)
{
if (di->thd.is_error() && ! di->retry)
{
/*
Copy the error message. Note that we don't treat fatal
errors in the delayed thread as fatal errors in the
main thread. If delayed thread was killed, we don't
want to send "Server shutdown in progress" in the
INSERT THREAD.
*/
my_message(di->thd.get_stmt_da()->sql_errno(),
di->thd.get_stmt_da()->message(),
MYF(0));
}
di->unlock();
goto end_create;
}
mysql_mutex_lock(&LOCK_delayed_insert);
delayed_threads.append(di);
mysql_mutex_unlock(&LOCK_delayed_insert);
}
mysql_mutex_unlock(&LOCK_delayed_create);
}
mysql_mutex_lock(&di->mutex);
table_list->table= di->get_local_table(thd);
mysql_mutex_unlock(&di->mutex);
if (table_list->table)
{
DBUG_ASSERT(! thd->is_error());
thd->di= di;
}
/* Unlock the delayed insert object after its last access. */
di->unlock();
DBUG_RETURN((table_list->table == NULL));
end_create:
mysql_mutex_unlock(&LOCK_delayed_create);
DBUG_RETURN(thd->is_error());
}
#define memdup_vcol(thd, vcol) \
if (vcol) \
{ \
(vcol)= (Virtual_column_info*)(thd)->memdup((vcol), sizeof(*(vcol))); \
(vcol)->expr= NULL; \
}
/**
As we can't let many client threads modify the same TABLE
structure of the dedicated delayed insert thread, we create an
own structure for each client thread. This includes a row
buffer to save the column values and new fields that point to
the new row buffer. The memory is allocated in the client
thread and is freed automatically.
@pre This function is called from the client thread. Delayed
insert thread mutex must be acquired before invoking this
function.
@return Not-NULL table object on success. NULL in case of an error,
which is set in client_thd.
*/
TABLE *Delayed_insert::get_local_table(THD* client_thd)
{
my_ptrdiff_t adjust_ptrs;
Field **field,**org_field, *found_next_number_field;
TABLE *copy;
TABLE_SHARE *share;
uchar *bitmap;
char *copy_tmp;
uint bitmaps_used;
DBUG_ENTER("Delayed_insert::get_local_table");
/* First request insert thread to get a lock */
status=1;
tables_in_use++;
if (!thd.lock) // Table is not locked
{
THD_STAGE_INFO(client_thd, stage_waiting_for_handler_lock);
mysql_cond_signal(&cond); // Tell handler to lock table
while (!thd.killed && !thd.lock && ! client_thd->killed)
{
mysql_cond_wait(&cond_client, &mutex);
}
THD_STAGE_INFO(client_thd, stage_got_handler_lock);
if (client_thd->killed)
goto error;
if (thd.killed)
{
/*
Copy the error message. Note that we don't treat fatal
errors in the delayed thread as fatal errors in the
main thread. If delayed thread was killed, we don't
want to send "Server shutdown in progress" in the
INSERT THREAD.
The thread could be killed with an error message if
di->handle_inserts() or di->open_and_lock_table() fails.
The thread could be killed without an error message if
killed using kill_delayed_threads_for_table().
*/
if (!thd.is_error())
my_message(ER_QUERY_INTERRUPTED, ER_THD(&thd, ER_QUERY_INTERRUPTED),
MYF(0));
else
my_message(thd.get_stmt_da()->sql_errno(),
thd.get_stmt_da()->message(), MYF(0));
goto error;
}
}
share= table->s;
/*
Allocate memory for the TABLE object, the field pointers array, and
one record buffer of reclength size. Normally a table has three
record buffers of rec_buff_length size, which includes alignment
bytes. Since the table copy is used for creating one record only,
the other record buffers and alignment are unnecessary.
*/
THD_STAGE_INFO(client_thd, stage_allocating_local_table);
copy_tmp= (char*) client_thd->alloc(sizeof(*copy)+
(share->fields+1)*sizeof(Field**)+
share->reclength +
share->column_bitmap_size*4);
if (!copy_tmp)
goto error;
/* Copy the TABLE object. */
copy= new (copy_tmp) TABLE;
*copy= *table;
/* We don't need to change the file handler here */
/* Assign the pointers for the field pointers array and the record. */
field= copy->field= (Field**) (copy + 1);
bitmap= (uchar*) (field + share->fields + 1);
copy->record[0]= (bitmap + share->column_bitmap_size*4);
memcpy((char*) copy->record[0], (char*) table->record[0], share->reclength);
if (share->default_fields || share->default_expressions)
{
copy->default_field= (Field**)
client_thd->alloc((share->default_fields +
share->default_expressions + 1)*
sizeof(Field*));
if (!copy->default_field)
goto error;
}
if (share->virtual_fields)
{
copy->vfield= (Field **) client_thd->alloc((share->virtual_fields+1)*
sizeof(Field*));
if (!copy->vfield)
goto error;
}
copy->expr_arena= NULL;
/* Ensure we don't use the table list of the original table */
copy->pos_in_table_list= 0;
/*
Make a copy of all fields.
The copied fields need to point into the copied record. This is done
by copying the field objects with their old pointer values and then
"move" the pointers by the distance between the original and copied
records. That way we preserve the relative positions in the records.
*/
adjust_ptrs= PTR_BYTE_DIFF(copy->record[0], table->record[0]);
found_next_number_field= table->found_next_number_field;
for (org_field= table->field; *org_field; org_field++, field++)
{
if (!(*field= (*org_field)->make_new_field(client_thd->mem_root, copy, 1)))
goto error;
(*field)->unireg_check= (*org_field)->unireg_check;
(*field)->orig_table= copy; // Remove connection
(*field)->move_field_offset(adjust_ptrs); // Point at copy->record[0]
memdup_vcol(client_thd, (*field)->vcol_info);
memdup_vcol(client_thd, (*field)->default_value);
memdup_vcol(client_thd, (*field)->check_constraint);
if (*org_field == found_next_number_field)
(*field)->table->found_next_number_field= *field;
}
*field=0;
if (share->virtual_fields || share->default_expressions ||
share->default_fields)
{
bool error_reported= FALSE;
if (unlikely(!(copy->def_vcol_set=
(MY_BITMAP*) alloc_root(client_thd->mem_root,
sizeof(MY_BITMAP)))))
goto error;
if (unlikely(parse_vcol_defs(client_thd, client_thd->mem_root, copy,
&error_reported)))
goto error;
}
switch_defaults_to_nullable_trigger_fields(copy);
/* Adjust in_use for pointing to client thread */
copy->in_use= client_thd;
/* Adjust lock_count. This table object is not part of a lock. */
copy->lock_count= 0;
/* Adjust bitmaps */
copy->def_read_set.bitmap= (my_bitmap_map*) bitmap;
copy->def_write_set.bitmap= ((my_bitmap_map*)
(bitmap + share->column_bitmap_size));
bitmaps_used= 2;
if (share->virtual_fields)
{
my_bitmap_init(copy->def_vcol_set,
(my_bitmap_map*) (bitmap +
bitmaps_used*share->column_bitmap_size),
share->fields, FALSE);
bitmaps_used++;
copy->vcol_set= copy->def_vcol_set;
}
if (share->default_fields || share->default_expressions)
{
my_bitmap_init(©->has_value_set,
(my_bitmap_map*) (bitmap +
bitmaps_used*share->column_bitmap_size),
share->fields, FALSE);
}
copy->tmp_set.bitmap= 0; // To catch errors
bzero((char*) bitmap, share->column_bitmap_size * bitmaps_used);
copy->read_set= ©->def_read_set;
copy->write_set= ©->def_write_set;
DBUG_RETURN(copy);
/* Got fatal error */
error:
tables_in_use--;
mysql_cond_signal(&cond); // Inform thread about abort
DBUG_RETURN(0);
}
/* Put a question in queue */
static
int write_delayed(THD *thd, TABLE *table, enum_duplicates duplic,
LEX_STRING query, bool ignore, bool log_on)
{
delayed_row *row= 0;
Delayed_insert *di=thd->di;
const Discrete_interval *forced_auto_inc;
DBUG_ENTER("write_delayed");
DBUG_PRINT("enter", ("query = '%s' length %lu", query.str,
(ulong) query.length));
THD_STAGE_INFO(thd, stage_waiting_for_handler_insert);
mysql_mutex_lock(&di->mutex);
while (di->stacked_inserts >= delayed_queue_size && !thd->killed)
mysql_cond_wait(&di->cond_client, &di->mutex);
THD_STAGE_INFO(thd, stage_storing_row_into_queue);
if (thd->killed)
goto err;
/*
Take a copy of the query string, if there is any. The string will
be free'ed when the row is destroyed. If there is no query string,
we don't do anything special.
*/
if (query.str)
{
char *str;
if (!(str= my_strndup(query.str, query.length, MYF(MY_WME))))
goto err;
query.str= str;
}
row= new delayed_row(query, duplic, ignore, log_on);
if (row == NULL)
{
my_free(query.str);
goto err;
}
/* This can't be THREAD_SPECIFIC as it's freed in delayed thread */
if (!(row->record= (char*) my_malloc(table->s->reclength,
MYF(MY_WME))))
goto err;
memcpy(row->record, table->record[0], table->s->reclength);
row->start_time= thd->start_time;
row->start_time_sec_part= thd->start_time_sec_part;
row->query_start_sec_part_used= thd->query_start_sec_part_used;
/*
those are for the binlog: LAST_INSERT_ID() has been evaluated at this
time, so record does not need it, but statement-based binlogging of the
INSERT will need when the row is actually inserted.
As for SET INSERT_ID, DELAYED does not honour it (BUG#20830).
*/
row->stmt_depends_on_first_successful_insert_id_in_prev_stmt=
thd->stmt_depends_on_first_successful_insert_id_in_prev_stmt;
row->first_successful_insert_id_in_prev_stmt=
thd->first_successful_insert_id_in_prev_stmt;
/* Add session variable timezone
Time_zone object will not be freed even the thread is ended.
So we can get time_zone object from thread which handling delayed statement.
See the comment of my_tz_find() for detail.
*/
if (thd->time_zone_used)
{
row->time_zone = thd->variables.time_zone;
}
else
{
row->time_zone = NULL;
}
/* Copy session variables. */
row->auto_increment_increment= thd->variables.auto_increment_increment;
row->auto_increment_offset= thd->variables.auto_increment_offset;
row->sql_mode= thd->variables.sql_mode;
row->auto_increment_field_not_null= table->auto_increment_field_not_null;
/* Copy the next forced auto increment value, if any. */
if ((forced_auto_inc= thd->auto_inc_intervals_forced.get_next()))
{
row->forced_insert_id= forced_auto_inc->minimum();
DBUG_PRINT("delayed", ("transmitting auto_inc: %lu",
(ulong) row->forced_insert_id));
}
di->rows.push_back(row);
di->stacked_inserts++;
di->status=1;
if (table->s->blob_fields)
unlink_blobs(table);
mysql_cond_signal(&di->cond);
thread_safe_increment(delayed_rows_in_use,&LOCK_delayed_status);
mysql_mutex_unlock(&di->mutex);
DBUG_RETURN(0);
err:
delete row;
mysql_mutex_unlock(&di->mutex);
DBUG_RETURN(1);
}
/**
Signal the delayed insert thread that this user connection
is finished using it for this statement.
*/
static void end_delayed_insert(THD *thd)
{
DBUG_ENTER("end_delayed_insert");
Delayed_insert *di=thd->di;
mysql_mutex_lock(&di->mutex);
DBUG_PRINT("info",("tables in use: %d",di->tables_in_use));
if (!--di->tables_in_use || di->thd.killed)
{ // Unlock table
di->status=1;
mysql_cond_signal(&di->cond);
}
mysql_mutex_unlock(&di->mutex);
DBUG_VOID_RETURN;
}
/* We kill all delayed threads when doing flush-tables */
void kill_delayed_threads(void)
{
DBUG_ENTER("kill_delayed_threads");
mysql_mutex_lock(&LOCK_delayed_insert); // For unlink from list
I_List_iterator<Delayed_insert> it(delayed_threads);
Delayed_insert *di;
while ((di= it++))
{
mysql_mutex_lock(&di->thd.LOCK_thd_kill);
if (di->thd.killed < KILL_CONNECTION)
di->thd.set_killed_no_mutex(KILL_CONNECTION);
if (di->thd.mysys_var)
{
mysql_mutex_lock(&di->thd.mysys_var->mutex);
if (di->thd.mysys_var->current_cond)
{
/*
We need the following test because the main mutex may be locked
in handle_delayed_insert()
*/
if (&di->mutex != di->thd.mysys_var->current_mutex)
mysql_mutex_lock(di->thd.mysys_var->current_mutex);
mysql_cond_broadcast(di->thd.mysys_var->current_cond);
if (&di->mutex != di->thd.mysys_var->current_mutex)
mysql_mutex_unlock(di->thd.mysys_var->current_mutex);
}
mysql_mutex_unlock(&di->thd.mysys_var->mutex);
}
mysql_mutex_unlock(&di->thd.LOCK_thd_kill);
}
mysql_mutex_unlock(&LOCK_delayed_insert); // For unlink from list
DBUG_VOID_RETURN;
}
/**
A strategy for the prelocking algorithm which prevents the
delayed insert thread from opening tables with engines which
do not support delayed inserts.
Particularly it allows to abort open_tables() as soon as we
discover that we have opened a MERGE table, without acquiring
metadata locks on underlying tables.
*/
class Delayed_prelocking_strategy : public Prelocking_strategy
{
public:
virtual bool handle_routine(THD *thd, Query_tables_list *prelocking_ctx,
Sroutine_hash_entry *rt, sp_head *sp,
bool *need_prelocking);
virtual bool handle_table(THD *thd, Query_tables_list *prelocking_ctx,
TABLE_LIST *table_list, bool *need_prelocking);
virtual bool handle_view(THD *thd, Query_tables_list *prelocking_ctx,
TABLE_LIST *table_list, bool *need_prelocking);
};
bool Delayed_prelocking_strategy::
handle_table(THD *thd, Query_tables_list *prelocking_ctx,
TABLE_LIST *table_list, bool *need_prelocking)
{
DBUG_ASSERT(table_list->lock_type == TL_WRITE_DELAYED);
if (!(table_list->table->file->ha_table_flags() & HA_CAN_INSERT_DELAYED))
{
my_error(ER_DELAYED_NOT_SUPPORTED, MYF(0), table_list->table_name.str);
return TRUE;
}
return FALSE;
}
bool Delayed_prelocking_strategy::
handle_routine(THD *thd, Query_tables_list *prelocking_ctx,
Sroutine_hash_entry *rt, sp_head *sp,
bool *need_prelocking)
{
/* LEX used by the delayed insert thread has no routines. */
DBUG_ASSERT(0);
return FALSE;
}
bool Delayed_prelocking_strategy::
handle_view(THD *thd, Query_tables_list *prelocking_ctx,
TABLE_LIST *table_list, bool *need_prelocking)
{
/* We don't open views in the delayed insert thread. */
DBUG_ASSERT(0);
return FALSE;
}
/**
Open and lock table for use by delayed thread and check that
this table is suitable for delayed inserts.
@retval FALSE - Success.
@retval TRUE - Failure.
*/
bool Delayed_insert::open_and_lock_table()
{
Delayed_prelocking_strategy prelocking_strategy;
/*
Use special prelocking strategy to get ER_DELAYED_NOT_SUPPORTED
error for tables with engines which don't support delayed inserts.
We can't do auto-repair in insert delayed thread, as it would hang
when trying to an exclusive MDL_LOCK on the table during repair
as the connection thread has a SHARED_WRITE lock.
*/
if (!(table= open_n_lock_single_table(&thd, &table_list,
TL_WRITE_DELAYED,
MYSQL_OPEN_IGNORE_GLOBAL_READ_LOCK |
MYSQL_OPEN_IGNORE_REPAIR,
&prelocking_strategy)))
{
/* If table was crashed, then upper level should retry open+repair */
retry= table_list.crashed;
thd.fatal_error(); // Abort waiting inserts
return TRUE;
}
if (table->triggers || table->check_constraints)
{
/*
Table has triggers or check constraints. This is not an error, but we do
not support these with delayed insert. Terminate the delayed
thread without an error and thus request lock upgrade.
*/
return TRUE;
}
table->copy_blobs= 1;
return FALSE;
}
/*
* Create a new delayed insert thread
*/
pthread_handler_t handle_delayed_insert(void *arg)
{
Delayed_insert *di=(Delayed_insert*) arg;
THD *thd= &di->thd;
pthread_detach_this_thread();
/* Add thread to THD list so that's it's visible in 'show processlist' */
thd->set_start_time();
add_to_active_threads(thd);
if (abort_loop)
thd->set_killed(KILL_CONNECTION);
else
thd->reset_killed();
mysql_thread_set_psi_id(thd->thread_id);
/*
Wait until the client runs into mysql_cond_wait(),
where we free it after the table is opened and di linked in the list.
If we did not wait here, the client might detect the opened table
before it is linked to the list. It would release LOCK_delayed_create
and allow another thread to create another handler for the same table,
since it does not find one in the list.
*/
mysql_mutex_lock(&di->mutex);
if (my_thread_init())
{
/* Can't use my_error since store_globals has not yet been called */
thd->get_stmt_da()->set_error_status(ER_OUT_OF_RESOURCES);
di->handler_thread_initialized= TRUE;
}
else
{
DBUG_ENTER("handle_delayed_insert");
thd->thread_stack= (char*) &thd;
if (init_thr_lock() || thd->store_globals())
{
/* Can't use my_error since store_globals has perhaps failed */
thd->get_stmt_da()->set_error_status(ER_OUT_OF_RESOURCES);
di->handler_thread_initialized= TRUE;
thd->fatal_error();
goto err;
}
thd->lex->sql_command= SQLCOM_INSERT; // For innodb::store_lock()
/*
INSERT DELAYED has to go to row-based format because the time
at which rows are inserted cannot be determined in mixed mode.
*/
thd->set_current_stmt_binlog_format_row_if_mixed();
/*
Clone tickets representing protection against GRL and the lock on
the target table for the insert and add them to the list of granted
metadata locks held by the handler thread. This is safe since the
handler thread is not holding nor waiting on any metadata locks.
*/
if (thd->mdl_context.clone_ticket(&di->grl_protection) ||
thd->mdl_context.clone_ticket(&di->table_list.mdl_request))
{
thd->mdl_context.release_transactional_locks();
di->handler_thread_initialized= TRUE;
goto err;
}
/*
Now that the ticket has been cloned, it is safe for the connection
thread to exit.
*/
di->handler_thread_initialized= TRUE;
di->table_list.mdl_request.ticket= NULL;
if (di->open_and_lock_table())
goto err;
/*
INSERT DELAYED generally expects thd->lex->current_select to be NULL,
since this is not an attribute of the current thread. This can lead to
problems if the thread that spawned the current one disconnects.
current_select will then point to freed memory. But current_select is
required to resolve the partition function. So, after fulfilling that
requirement, we set the current_select to 0.
*/
thd->lex->current_select= NULL;
/* Tell client that the thread is initialized */
mysql_cond_signal(&di->cond_client);
/*
Inform mdl that it needs to call mysql_lock_abort to abort locks
for delayed insert.
*/
thd->mdl_context.set_needs_thr_lock_abort(TRUE);
di->table->mark_columns_needed_for_insert();
/* Mark all columns for write as we don't know which columns we get from user */
bitmap_set_all(di->table->write_set);
/* Now wait until we get an insert or lock to handle */
/* We will not abort as long as a client thread uses this thread */
for (;;)
{
if (thd->killed)
{
uint lock_count;
DBUG_PRINT("delayed", ("Insert delayed killed"));
/*
Remove this from delay insert list so that no one can request a
table from this
*/
mysql_mutex_unlock(&di->mutex);
mysql_mutex_lock(&LOCK_delayed_insert);
di->unlink();
lock_count=di->lock_count();
mysql_mutex_unlock(&LOCK_delayed_insert);
mysql_mutex_lock(&di->mutex);
if (!lock_count && !di->tables_in_use && !di->stacked_inserts &&
!thd->lock)
break; // Time to die
}
/* Shouldn't wait if killed or an insert is waiting. */
DBUG_PRINT("delayed",
("thd->killed: %d di->status: %d di->stacked_inserts: %d",
thd->killed, di->status, di->stacked_inserts));
if (!thd->killed && !di->status && !di->stacked_inserts)
{
struct timespec abstime;
set_timespec(abstime, delayed_insert_timeout);
/* Information for pthread_kill */
mysql_mutex_unlock(&di->mutex);
mysql_mutex_lock(&di->thd.mysys_var->mutex);
di->thd.mysys_var->current_mutex= &di->mutex;
di->thd.mysys_var->current_cond= &di->cond;
mysql_mutex_unlock(&di->thd.mysys_var->mutex);
mysql_mutex_lock(&di->mutex);
THD_STAGE_INFO(&(di->thd), stage_waiting_for_insert);
DBUG_PRINT("info",("Waiting for someone to insert rows"));
while (!thd->killed && !di->status)
{
int error;
mysql_audit_release(thd);
error= mysql_cond_timedwait(&di->cond, &di->mutex, &abstime);
#ifdef EXTRA_DEBUG
if (error && error != EINTR && error != ETIMEDOUT)
{
fprintf(stderr, "Got error %d from mysql_cond_timedwait\n", error);
DBUG_PRINT("error", ("Got error %d from mysql_cond_timedwait",
error));
}
#endif
if (error == ETIMEDOUT || error == ETIME)
thd->set_killed(KILL_CONNECTION);
}
/* We can't lock di->mutex and mysys_var->mutex at the same time */
mysql_mutex_unlock(&di->mutex);
mysql_mutex_lock(&di->thd.mysys_var->mutex);
di->thd.mysys_var->current_mutex= 0;
di->thd.mysys_var->current_cond= 0;
mysql_mutex_unlock(&di->thd.mysys_var->mutex);
mysql_mutex_lock(&di->mutex);
}
DBUG_PRINT("delayed",
("thd->killed: %d di->tables_in_use: %d thd->lock: %d",
thd->killed, di->tables_in_use, thd->lock != 0));
if (di->tables_in_use && ! thd->lock && !thd->killed)
{
/*
Request for new delayed insert.
Lock the table, but avoid to be blocked by a global read lock.
If we got here while a global read lock exists, then one or more
inserts started before the lock was requested. These are allowed
to complete their work before the server returns control to the
client which requested the global read lock. The delayed insert
handler will close the table and finish when the outstanding
inserts are done.
*/
if (! (thd->lock= mysql_lock_tables(thd, &di->table, 1, 0)))
{
/* Fatal error */
thd->set_killed(KILL_CONNECTION);
}
mysql_cond_broadcast(&di->cond_client);
}
if (di->stacked_inserts)
{
if (di->handle_inserts())
{
/* Some fatal error */
thd->set_killed(KILL_CONNECTION);
}
}
di->status=0;
if (!di->stacked_inserts && !di->tables_in_use && thd->lock)
{
/*
No one is doing a insert delayed
Unlock table so that other threads can use it
*/
MYSQL_LOCK *lock=thd->lock;
thd->lock=0;
mysql_mutex_unlock(&di->mutex);
/*
We need to release next_insert_id before unlocking. This is
enforced by handler::ha_external_lock().
*/
di->table->file->ha_release_auto_increment();
mysql_unlock_tables(thd, lock);
trans_commit_stmt(thd);
di->group_count=0;
mysql_audit_release(thd);
mysql_mutex_lock(&di->mutex);
}
if (di->tables_in_use)
mysql_cond_broadcast(&di->cond_client); // If waiting clients
}
err:
DBUG_LEAVE;
}
{
DBUG_ENTER("handle_delayed_insert-cleanup");
di->table=0;
mysql_mutex_unlock(&di->mutex);
/*
Protect against mdl_locks trying to access open tables
We use KILL_CONNECTION_HARD here to ensure that
THD::notify_shared_lock() dosn't try to access open tables after
this.
*/
mysql_mutex_lock(&thd->LOCK_thd_data);
thd->mdl_context.set_needs_thr_lock_abort(0);
mysql_mutex_unlock(&thd->LOCK_thd_data);
thd->set_killed(KILL_CONNECTION_HARD); // If error
close_thread_tables(thd); // Free the table
thd->mdl_context.release_transactional_locks();
mysql_cond_broadcast(&di->cond_client); // Safety
mysql_mutex_lock(&LOCK_delayed_create); // Because of delayed_get_table
mysql_mutex_lock(&LOCK_delayed_insert);
/*
di should be unlinked from the thread handler list and have no active
clients
*/
delete di;
mysql_mutex_unlock(&LOCK_delayed_insert);
mysql_mutex_unlock(&LOCK_delayed_create);
DBUG_LEAVE;
}
my_thread_end();
pthread_exit(0);
return 0;
}
/* Remove all pointers to data for blob fields so that original table doesn't try to free them */
static void unlink_blobs(TABLE *table)
{
for (Field **ptr=table->field ; *ptr ; ptr++)
{
if ((*ptr)->flags & BLOB_FLAG)
((Field_blob *) (*ptr))->clear_temporary();
}
}
/* Free blobs stored in current row */
static void free_delayed_insert_blobs(TABLE *table)
{
for (Field **ptr=table->field ; *ptr ; ptr++)
{
if ((*ptr)->flags & BLOB_FLAG)
((Field_blob *) *ptr)->free();
}
}
/* set value field for blobs to point to data in record */
static void set_delayed_insert_blobs(TABLE *table)
{
for (Field **ptr=table->field ; *ptr ; ptr++)
{
if ((*ptr)->flags & BLOB_FLAG)
{
Field_blob *blob= ((Field_blob *) *ptr);
uchar *data= blob->get_ptr();
if (data)
blob->set_value(data); // Set value.ptr() to point to data
}
}
}
bool Delayed_insert::handle_inserts(void)
{
int error;
ulong max_rows;
bool has_trans = TRUE;
bool using_ignore= 0, using_opt_replace= 0,
using_bin_log= mysql_bin_log.is_open();
delayed_row *row;
DBUG_ENTER("handle_inserts");
/* Allow client to insert new rows */
mysql_mutex_unlock(&mutex);
table->next_number_field=table->found_next_number_field;
table->use_all_columns();
THD_STAGE_INFO(&thd, stage_upgrading_lock);
if (thr_upgrade_write_delay_lock(*thd.lock->locks, delayed_lock,
thd.variables.lock_wait_timeout))
{
/*
This can happen if thread is killed either by a shutdown
or if another thread is removing the current table definition
from the table cache.
*/
my_error(ER_DELAYED_CANT_CHANGE_LOCK, MYF(ME_FATALERROR | ME_NOREFRESH),
table->s->table_name.str);
goto err;
}
THD_STAGE_INFO(&thd, stage_insert);
max_rows= delayed_insert_limit;
if (thd.killed || table->s->tdc->flushed)
{
thd.set_killed(KILL_SYSTEM_THREAD);
max_rows= ULONG_MAX; // Do as much as possible
}
/*
We can't use row caching when using the binary log because if
we get a crash, then binary log will contain rows that are not yet
written to disk, which will cause problems in replication.
*/
if (!using_bin_log)
table->file->extra(HA_EXTRA_WRITE_CACHE);
mysql_mutex_lock(&mutex);
while ((row=rows.get()))
{
int tmp_error;
stacked_inserts--;
mysql_mutex_unlock(&mutex);
memcpy(table->record[0],row->record,table->s->reclength);
if (table->s->blob_fields)
set_delayed_insert_blobs(table);
thd.start_time=row->start_time;
thd.start_time_sec_part=row->start_time_sec_part;
thd.query_start_sec_part_used=row->query_start_sec_part_used;
/*
To get the exact auto_inc interval to store in the binlog we must not
use values from the previous interval (of the previous rows).
*/
bool log_query= (row->log_query && row->query.str != NULL);
DBUG_PRINT("delayed", ("query: '%s' length: %lu", row->query.str ?
row->query.str : "[NULL]",
(ulong) row->query.length));
if (log_query)
{
/*
Guaranteed that the INSERT DELAYED STMT will not be here
in SBR when mysql binlog is enabled.
*/
DBUG_ASSERT(!(mysql_bin_log.is_open() &&
!thd.is_current_stmt_binlog_format_row()));
/*
This is the first value of an INSERT statement.
It is the right place to clear a forced insert_id.
This is usually done after the last value of an INSERT statement,
but we won't know this in the insert delayed thread. But before
the first value is sufficiently equivalent to after the last
value of the previous statement.
*/
table->file->ha_release_auto_increment();
thd.auto_inc_intervals_in_cur_stmt_for_binlog.empty();
}
thd.first_successful_insert_id_in_prev_stmt=
row->first_successful_insert_id_in_prev_stmt;
thd.stmt_depends_on_first_successful_insert_id_in_prev_stmt=
row->stmt_depends_on_first_successful_insert_id_in_prev_stmt;
table->auto_increment_field_not_null= row->auto_increment_field_not_null;
/* Copy the session variables. */
thd.variables.auto_increment_increment= row->auto_increment_increment;
thd.variables.auto_increment_offset= row->auto_increment_offset;
thd.variables.sql_mode= row->sql_mode;
/* Copy a forced insert_id, if any. */
if (row->forced_insert_id)
{
DBUG_PRINT("delayed", ("received auto_inc: %lu",
(ulong) row->forced_insert_id));
thd.force_one_auto_inc_interval(row->forced_insert_id);
}
info.ignore= row->ignore;
info.handle_duplicates= row->dup;
if (info.ignore ||
info.handle_duplicates != DUP_ERROR)
{
table->file->extra(HA_EXTRA_IGNORE_DUP_KEY);
using_ignore=1;
}
if (info.handle_duplicates == DUP_REPLACE &&
(!table->triggers ||
!table->triggers->has_delete_triggers()))
{
table->file->extra(HA_EXTRA_WRITE_CAN_REPLACE);
using_opt_replace= 1;
}
if (info.handle_duplicates == DUP_UPDATE)
table->file->extra(HA_EXTRA_INSERT_WITH_UPDATE);
thd.clear_error(); // reset error for binlog
tmp_error= 0;
if (unlikely(table->vfield))
{
/*
Virtual fields where not calculated by caller as the temporary
TABLE object used had vcol_set empty. Better to calculate them
here to make the caller faster.
*/
tmp_error= table->update_virtual_fields(table->file,
VCOL_UPDATE_FOR_WRITE);
}
if (unlikely(tmp_error) || unlikely(write_record(&thd, table, &info)))
{
info.error_count++; // Ignore errors
thread_safe_increment(delayed_insert_errors,&LOCK_delayed_status);
row->log_query = 0;
}
if (using_ignore)
{
using_ignore=0;
table->file->extra(HA_EXTRA_NO_IGNORE_DUP_KEY);
}
if (using_opt_replace)
{
using_opt_replace= 0;
table->file->extra(HA_EXTRA_WRITE_CANNOT_REPLACE);
}
if (table->s->blob_fields)
free_delayed_insert_blobs(table);
thread_safe_decrement(delayed_rows_in_use,&LOCK_delayed_status);
thread_safe_increment(delayed_insert_writes,&LOCK_delayed_status);
mysql_mutex_lock(&mutex);
/*
Reset the table->auto_increment_field_not_null as it is valid for
only one row.
*/
table->auto_increment_field_not_null= FALSE;
delete row;
/*
Let READ clients do something once in a while
We should however not break in the middle of a multi-line insert
if we have binary logging enabled as we don't want other commands
on this table until all entries has been processed
*/
if (group_count++ >= max_rows && (row= rows.head()) &&
(!(row->log_query & using_bin_log)))
{
group_count=0;
if (stacked_inserts || tables_in_use) // Let these wait a while
{
if (tables_in_use)
mysql_cond_broadcast(&cond_client); // If waiting clients
THD_STAGE_INFO(&thd, stage_reschedule);
mysql_mutex_unlock(&mutex);
if (unlikely((error=table->file->extra(HA_EXTRA_NO_CACHE))))
{
/* This should never happen */
table->file->print_error(error,MYF(0));
sql_print_error("%s", thd.get_stmt_da()->message());
DBUG_PRINT("error", ("HA_EXTRA_NO_CACHE failed in loop"));
goto err;
}
query_cache_invalidate3(&thd, table, 1);
if (thr_reschedule_write_lock(*thd.lock->locks,
thd.variables.lock_wait_timeout))
{
/* This is not known to happen. */
my_error(ER_DELAYED_CANT_CHANGE_LOCK,
MYF(ME_FATALERROR | ME_NOREFRESH),
table->s->table_name.str);
goto err;
}
if (!using_bin_log)
table->file->extra(HA_EXTRA_WRITE_CACHE);
mysql_mutex_lock(&mutex);
THD_STAGE_INFO(&thd, stage_insert);
}
if (tables_in_use)
mysql_cond_broadcast(&cond_client); // If waiting clients
}
}
if (WSREP((&thd)))
thd_proc_info(&thd, "Insert done");
else
thd_proc_info(&thd, 0);
mysql_mutex_unlock(&mutex);
/*
We need to flush the pending event when using row-based
replication since the flushing normally done in binlog_query() is
not done last in the statement: for delayed inserts, the insert
statement is logged *before* all rows are inserted.
We can flush the pending event without checking the thd->lock
since the delayed insert *thread* is not inside a stored function
or trigger.
TODO: Move the logging to last in the sequence of rows.
*/
has_trans= thd.lex->sql_command == SQLCOM_CREATE_TABLE ||
table->file->has_transactions();
if (thd.is_current_stmt_binlog_format_row() &&
thd.binlog_flush_pending_rows_event(TRUE, has_trans))
goto err;
if (unlikely((error=table->file->extra(HA_EXTRA_NO_CACHE))))
{ // This shouldn't happen
table->file->print_error(error,MYF(0));
sql_print_error("%s", thd.get_stmt_da()->message());
DBUG_PRINT("error", ("HA_EXTRA_NO_CACHE failed after loop"));
goto err;
}
query_cache_invalidate3(&thd, table, 1);
mysql_mutex_lock(&mutex);
DBUG_RETURN(0);
err:
#ifndef DBUG_OFF
max_rows= 0; // For DBUG output
#endif
/* Remove all not used rows */
mysql_mutex_lock(&mutex);
while ((row=rows.get()))
{
if (table->s->blob_fields)
{
memcpy(table->record[0],row->record,table->s->reclength);
set_delayed_insert_blobs(table);
free_delayed_insert_blobs(table);
}
delete row;
thread_safe_increment(delayed_insert_errors,&LOCK_delayed_status);
stacked_inserts--;
#ifndef DBUG_OFF
max_rows++;
#endif
}
DBUG_PRINT("error", ("dropped %lu rows after an error", max_rows));
thread_safe_increment(delayed_insert_errors, &LOCK_delayed_status);
DBUG_RETURN(1);
}
#endif /* EMBEDDED_LIBRARY */
/***************************************************************************
Store records in INSERT ... SELECT *
***************************************************************************/
/*
make insert specific preparation and checks after opening tables
SYNOPSIS
mysql_insert_select_prepare()
thd thread handler
RETURN
FALSE OK
TRUE Error
*/
bool mysql_insert_select_prepare(THD *thd)
{
LEX *lex= thd->lex;
SELECT_LEX *select_lex= &lex->select_lex;
DBUG_ENTER("mysql_insert_select_prepare");
/*
SELECT_LEX do not belong to INSERT statement, so we can't add WHERE
clause if table is VIEW
*/
if (mysql_prepare_insert(thd, lex->query_tables,
lex->query_tables->table, lex->field_list, 0,
lex->update_list, lex->value_list, lex->duplicates,
&select_lex->where, TRUE))
DBUG_RETURN(TRUE);
DBUG_ASSERT(select_lex->leaf_tables.elements != 0);
List_iterator<TABLE_LIST> ti(select_lex->leaf_tables);
TABLE_LIST *table;
uint insert_tables;
if (select_lex->first_cond_optimization)
{
/* Back up leaf_tables list. */
Query_arena *arena= thd->stmt_arena, backup;
arena= thd->activate_stmt_arena_if_needed(&backup); // For easier test
insert_tables= select_lex->insert_tables;
while ((table= ti++) && insert_tables--)
{
select_lex->leaf_tables_exec.push_back(table);
table->tablenr_exec= table->table->tablenr;
table->map_exec= table->table->map;
table->maybe_null_exec= table->table->maybe_null;
}
if (arena)
thd->restore_active_arena(arena, &backup);
}
ti.rewind();
/*
exclude first table from leaf tables list, because it belong to
INSERT
*/
/* skip all leaf tables belonged to view where we are insert */
insert_tables= select_lex->insert_tables;
while ((table= ti++) && insert_tables--)
ti.remove();
DBUG_RETURN(FALSE);
}
select_insert::select_insert(THD *thd_arg, TABLE_LIST *table_list_par,
TABLE *table_par,
List<Item> *fields_par,
List<Item> *update_fields,
List<Item> *update_values,
enum_duplicates duplic,
bool ignore_check_option_errors):
select_result_interceptor(thd_arg),
table_list(table_list_par), table(table_par), fields(fields_par),
autoinc_value_of_last_inserted_row(0),
insert_into_view(table_list_par && table_list_par->view != 0)
{
bzero((char*) &info,sizeof(info));
info.handle_duplicates= duplic;
info.ignore= ignore_check_option_errors;
info.update_fields= update_fields;
info.update_values= update_values;
info.view= (table_list_par->view ? table_list_par : 0);
info.table_list= table_list_par;
}
int
select_insert::prepare(List<Item> &values, SELECT_LEX_UNIT *u)
{
LEX *lex= thd->lex;
int res;
table_map map= 0;
SELECT_LEX *lex_current_select_save= lex->current_select;
DBUG_ENTER("select_insert::prepare");
unit= u;
/*
Since table in which we are going to insert is added to the first
select, LEX::current_select should point to the first select while
we are fixing fields from insert list.
*/
lex->current_select= &lex->select_lex;
res= (setup_fields(thd, Ref_ptr_array(),
values, MARK_COLUMNS_READ, 0, NULL, 0) ||
check_insert_fields(thd, table_list, *fields, values,
!insert_into_view, 1, &map));
if (!res && fields->elements)
{
bool saved_abort_on_warning= thd->abort_on_warning;
thd->abort_on_warning= !info.ignore && thd->is_strict_mode();
res= check_that_all_fields_are_given_values(thd, table_list->table, table_list);
thd->abort_on_warning= saved_abort_on_warning;
}
if (info.handle_duplicates == DUP_UPDATE && !res)
{
Name_resolution_context *context= &lex->select_lex.context;
Name_resolution_context_state ctx_state;
/* Save the state of the current name resolution context. */
ctx_state.save_state(context, table_list);
/* Perform name resolution only in the first table - 'table_list'. */
table_list->next_local= 0;
context->resolve_in_table_list_only(table_list);
lex->select_lex.no_wrap_view_item= TRUE;
res= res ||
check_update_fields(thd, context->table_list,
*info.update_fields, *info.update_values,
/*
In INSERT SELECT ON DUPLICATE KEY UPDATE col=x
'x' can legally refer to a non-inserted table.
'x' is not even resolved yet.
*/
true,
&map);
lex->select_lex.no_wrap_view_item= FALSE;
/*
When we are not using GROUP BY and there are no ungrouped aggregate functions
we can refer to other tables in the ON DUPLICATE KEY part.
We use next_name_resolution_table descructively, so check it first (views?)
*/
DBUG_ASSERT (!table_list->next_name_resolution_table);
if (lex->select_lex.group_list.elements == 0 &&
!lex->select_lex.with_sum_func)
/*
We must make a single context out of the two separate name resolution contexts :
the INSERT table and the tables in the SELECT part of INSERT ... SELECT.
To do that we must concatenate the two lists
*/
table_list->next_name_resolution_table=
ctx_state.get_first_name_resolution_table();
res= res || setup_fields(thd, Ref_ptr_array(), *info.update_values,
MARK_COLUMNS_READ, 0, NULL, 0);
if (!res)
{
/*
Traverse the update values list and substitute fields from the
select for references (Item_ref objects) to them. This is done in
order to get correct values from those fields when the select
employs a temporary table.
*/
List_iterator<Item> li(*info.update_values);
Item *item;
while ((item= li++))
{
item->transform(thd, &Item::update_value_transformer,
(uchar*)lex->current_select);
}
}
/* Restore the current context. */
ctx_state.restore_state(context, table_list);
}
lex->current_select= lex_current_select_save;
if (res)
DBUG_RETURN(1);
/*
if it is INSERT into join view then check_insert_fields already found
real table for insert
*/
table= table_list->table;
/*
Is table which we are changing used somewhere in other parts of
query
*/
if (unique_table(thd, table_list, table_list->next_global, 0))
{
/* Using same table for INSERT and SELECT */
lex->current_select->options|= OPTION_BUFFER_RESULT;
lex->current_select->join->select_options|= OPTION_BUFFER_RESULT;
}
else if (!(lex->current_select->options & OPTION_BUFFER_RESULT) &&
thd->locked_tables_mode <= LTM_LOCK_TABLES)
{
/*
We must not yet prepare the result table if it is the same as one of the
source tables (INSERT SELECT). The preparation may disable
indexes on the result table, which may be used during the select, if it
is the same table (Bug #6034). Do the preparation after the select phase
in select_insert::prepare2().
We won't start bulk inserts at all if this statement uses functions or
should invoke triggers since they may access to the same table too.
*/
table->file->ha_start_bulk_insert((ha_rows) 0);
}
restore_record(table,s->default_values); // Get empty record
table->reset_default_fields();
table->next_number_field=table->found_next_number_field;
#ifdef HAVE_REPLICATION
if (thd->rgi_slave &&
(info.handle_duplicates == DUP_UPDATE) &&
(table->next_number_field != NULL) &&
rpl_master_has_bug(thd->rgi_slave->rli, 24432, TRUE, NULL, NULL))
DBUG_RETURN(1);
#endif
thd->cuted_fields=0;
if (info.ignore || info.handle_duplicates != DUP_ERROR)
table->file->extra(HA_EXTRA_IGNORE_DUP_KEY);
if (info.handle_duplicates == DUP_REPLACE &&
(!table->triggers || !table->triggers->has_delete_triggers()))
table->file->extra(HA_EXTRA_WRITE_CAN_REPLACE);
if (info.handle_duplicates == DUP_UPDATE)
table->file->extra(HA_EXTRA_INSERT_WITH_UPDATE);
thd->abort_on_warning= !info.ignore && thd->is_strict_mode();
res= (table_list->prepare_where(thd, 0, TRUE) ||
table_list->prepare_check_option(thd));
if (!res)
{
table->prepare_triggers_for_insert_stmt_or_event();
table->mark_columns_needed_for_insert();
}
DBUG_RETURN(res);
}
/*
Finish the preparation of the result table.
SYNOPSIS
select_insert::prepare2()
void
DESCRIPTION
If the result table is the same as one of the source tables (INSERT SELECT),
the result table is not finally prepared at the join prepair phase.
Do the final preparation now.
RETURN
0 OK
*/
int select_insert::prepare2(JOIN *)
{
DBUG_ENTER("select_insert::prepare2");
if (thd->lex->current_select->options & OPTION_BUFFER_RESULT &&
thd->locked_tables_mode <= LTM_LOCK_TABLES &&
!thd->lex->describe)
table->file->ha_start_bulk_insert((ha_rows) 0);
if (table->validate_default_values_of_unset_fields(thd))
DBUG_RETURN(1);
DBUG_RETURN(0);
}
void select_insert::cleanup()
{
/* select_insert/select_create are never re-used in prepared statement */
DBUG_ASSERT(0);
}
select_insert::~select_insert()
{
DBUG_ENTER("~select_insert");
if (table && table->is_created())
{
table->next_number_field=0;
table->auto_increment_field_not_null= FALSE;
table->file->ha_reset();
}
thd->count_cuted_fields= CHECK_FIELD_IGNORE;
thd->abort_on_warning= 0;
DBUG_VOID_RETURN;
}
int select_insert::send_data(List<Item> &values)
{
DBUG_ENTER("select_insert::send_data");
bool error=0;
if (unit->offset_limit_cnt)
{ // using limit offset,count
unit->offset_limit_cnt--;
DBUG_RETURN(0);
}
if (unlikely(thd->killed == ABORT_QUERY))
DBUG_RETURN(0);
thd->count_cuted_fields= CHECK_FIELD_WARN; // Calculate cuted fields
store_values(values);
if (table->default_field &&
unlikely(table->update_default_fields(0, info.ignore)))
DBUG_RETURN(1);
thd->count_cuted_fields= CHECK_FIELD_ERROR_FOR_NULL;
if (unlikely(thd->is_error()))
{
table->auto_increment_field_not_null= FALSE;
DBUG_RETURN(1);
}
table->vers_write= table->versioned();
if (table_list) // Not CREATE ... SELECT
{
switch (table_list->view_check_option(thd, info.ignore)) {
case VIEW_CHECK_SKIP:
DBUG_RETURN(0);
case VIEW_CHECK_ERROR:
DBUG_RETURN(1);
}
}
error= write_record(thd, table, &info);
table->vers_write= table->versioned();
table->auto_increment_field_not_null= FALSE;
if (likely(!error))
{
if (table->triggers || info.handle_duplicates == DUP_UPDATE)
{
/*
Restore fields of the record since it is possible that they were
changed by ON DUPLICATE KEY UPDATE clause.
If triggers exist then whey can modify some fields which were not
originally touched by INSERT ... SELECT, so we have to restore
their original values for the next row.
*/
restore_record(table, s->default_values);
}
if (table->next_number_field)
{
/*
If no value has been autogenerated so far, we need to remember the
value we just saw, we may need to send it to client in the end.
*/
if (thd->first_successful_insert_id_in_cur_stmt == 0) // optimization
autoinc_value_of_last_inserted_row=
table->next_number_field->val_int();
/*
Clear auto-increment field for the next record, if triggers are used
we will clear it twice, but this should be cheap.
*/
table->next_number_field->reset();
}
}
DBUG_RETURN(error);
}
void select_insert::store_values(List<Item> &values)
{
DBUG_ENTER("select_insert::store_values");
if (fields->elements)
fill_record_n_invoke_before_triggers(thd, table, *fields, values, 1,
TRG_EVENT_INSERT);
else
fill_record_n_invoke_before_triggers(thd, table, table->field_to_fill(),
values, 1, TRG_EVENT_INSERT);
DBUG_VOID_RETURN;
}
bool select_insert::prepare_eof()
{
int error;
bool const trans_table= table->file->has_transactions();
bool changed;
killed_state killed_status= thd->killed;
DBUG_ENTER("select_insert::prepare_eof");
DBUG_PRINT("enter", ("trans_table=%d, table_type='%s'",
trans_table, table->file->table_type()));
error= (IF_WSREP((thd->wsrep_conflict_state == MUST_ABORT ||
thd->wsrep_conflict_state == CERT_FAILURE) ? -1 :, )
(thd->locked_tables_mode <= LTM_LOCK_TABLES ?
table->file->ha_end_bulk_insert() : 0));
if (likely(!error) && unlikely(thd->is_error()))
error= thd->get_stmt_da()->sql_errno();
table->file->extra(HA_EXTRA_NO_IGNORE_DUP_KEY);
table->file->extra(HA_EXTRA_WRITE_CANNOT_REPLACE);
if (likely((changed= (info.copied || info.deleted || info.updated))))
{
/*
We must invalidate the table in the query cache before binlog writing
and ha_autocommit_or_rollback.
*/
query_cache_invalidate3(thd, table, 1);
}
if (thd->transaction.stmt.modified_non_trans_table)
thd->transaction.all.modified_non_trans_table= TRUE;
thd->transaction.all.m_unsafe_rollback_flags|=
(thd->transaction.stmt.m_unsafe_rollback_flags & THD_TRANS::DID_WAIT);
DBUG_ASSERT(trans_table || !changed ||
thd->transaction.stmt.modified_non_trans_table);
/*
Write to binlog before commiting transaction. No statement will
be written by the binlog_query() below in RBR mode. All the
events are in the transaction cache and will be written when
ha_autocommit_or_rollback() is issued below.
*/
if ((WSREP_EMULATE_BINLOG(thd) || mysql_bin_log.is_open()) &&
(likely(!error) || thd->transaction.stmt.modified_non_trans_table))
{
int errcode= 0;
if (likely(!error))
thd->clear_error();
else
errcode= query_error_code(thd, killed_status == NOT_KILLED);
if (thd->binlog_query(THD::ROW_QUERY_TYPE,
thd->query(), thd->query_length(),
trans_table, FALSE, FALSE, errcode))
{
table->file->ha_release_auto_increment();
DBUG_RETURN(true);
}
}
table->file->ha_release_auto_increment();
if (unlikely(error))
{
table->file->print_error(error,MYF(0));
DBUG_RETURN(true);
}
DBUG_RETURN(false);
}
bool select_insert::send_ok_packet() {
char message[160]; /* status message */
ulonglong row_count; /* rows affected */
ulonglong id; /* last insert-id */
DBUG_ENTER("select_insert::send_ok_packet");
if (info.ignore)
my_snprintf(message, sizeof(message), ER(ER_INSERT_INFO),
(ulong) info.records, (ulong) (info.records - info.copied),
(long) thd->get_stmt_da()->current_statement_warn_count());
else
my_snprintf(message, sizeof(message), ER(ER_INSERT_INFO),
(ulong) info.records, (ulong) (info.deleted + info.updated),
(long) thd->get_stmt_da()->current_statement_warn_count());
row_count= info.copied + info.deleted +
((thd->client_capabilities & CLIENT_FOUND_ROWS) ?
info.touched : info.updated);
id= (thd->first_successful_insert_id_in_cur_stmt > 0) ?
thd->first_successful_insert_id_in_cur_stmt :
(thd->arg_of_last_insert_id_function ?
thd->first_successful_insert_id_in_prev_stmt :
(info.copied ? autoinc_value_of_last_inserted_row : 0));
::my_ok(thd, row_count, id, message);
DBUG_RETURN(false);
}
bool select_insert::send_eof()
{
bool res;
DBUG_ENTER("select_insert::send_eof");
res= (prepare_eof() || (!suppress_my_ok && send_ok_packet()));
DBUG_RETURN(res);
}
void select_insert::abort_result_set() {
DBUG_ENTER("select_insert::abort_result_set");
/*
If the creation of the table failed (due to a syntax error, for
example), no table will have been opened and therefore 'table'
will be NULL. In that case, we still need to execute the rollback
and the end of the function.
*/
if (table)
{
bool changed, transactional_table;
/*
If we are not in prelocked mode, we end the bulk insert started
before.
*/
if (thd->locked_tables_mode <= LTM_LOCK_TABLES)
table->file->ha_end_bulk_insert();
/*
If at least one row has been inserted/modified and will stay in
the table (the table doesn't have transactions) we must write to
the binlog (and the error code will make the slave stop).
For many errors (example: we got a duplicate key error while
inserting into a MyISAM table), no row will be added to the table,
so passing the error to the slave will not help since there will
be an error code mismatch (the inserts will succeed on the slave
with no error).
If table creation failed, the number of rows modified will also be
zero, so no check for that is made.
*/
changed= (info.copied || info.deleted || info.updated);
transactional_table= table->file->has_transactions();
if (thd->transaction.stmt.modified_non_trans_table ||
thd->log_current_statement)
{
if (!can_rollback_data())
thd->transaction.all.modified_non_trans_table= TRUE;
if(WSREP_EMULATE_BINLOG(thd) || mysql_bin_log.is_open())
{
int errcode= query_error_code(thd, thd->killed == NOT_KILLED);
/* error of writing binary log is ignored */
(void) thd->binlog_query(THD::ROW_QUERY_TYPE, thd->query(),
thd->query_length(),
transactional_table, FALSE, FALSE, errcode);
}
if (changed)
query_cache_invalidate3(thd, table, 1);
}
DBUG_ASSERT(transactional_table || !changed ||
thd->transaction.stmt.modified_non_trans_table);
table->file->ha_release_auto_increment();
}
DBUG_VOID_RETURN;
}
/***************************************************************************
CREATE TABLE (SELECT) ...
***************************************************************************/
Field *Item::create_field_for_create_select(TABLE *table)
{
static Tmp_field_param param(false, false, false, false);
Tmp_field_src src;
return create_tmp_field_ex(table, &src, ¶m);
}
/**
Create table from lists of fields and items (or just return TABLE
object for pre-opened existing table).
@param thd [in] Thread object
@param create_info [in] Create information (like MAX_ROWS, ENGINE or
temporary table flag)
@param create_table [in] Pointer to TABLE_LIST object providing database
and name for table to be created or to be open
@param alter_info [in/out] Initial list of columns and indexes for the
table to be created
@param items [in] List of items which should be used to produce
rest of fields for the table (corresponding
fields will be added to the end of
alter_info->create_list)
@param lock [out] Pointer to the MYSQL_LOCK object for table
created will be returned in this parameter.
Since this table is not included in THD::lock
caller is responsible for explicitly unlocking
this table.
@param hooks [in] Hooks to be invoked before and after obtaining
table lock on the table being created.
@note
This function assumes that either table exists and was pre-opened and
locked at open_and_lock_tables() stage (and in this case we just emit
error or warning and return pre-opened TABLE object) or an exclusive
metadata lock was acquired on table so we can safely create, open and
lock table in it (we don't acquire metadata lock if this create is
for temporary table).
@note
Since this function contains some logic specific to CREATE TABLE ...
SELECT it should be changed before it can be used in other contexts.
@retval non-zero Pointer to TABLE object for table created or opened
@retval 0 Error
*/
TABLE *select_create::create_table_from_items(THD *thd,
List<Item> *items,
MYSQL_LOCK **lock,
TABLEOP_HOOKS *hooks)
{
TABLE tmp_table; // Used during 'Create_field()'
TABLE_SHARE share;
TABLE *table= 0;
uint select_field_count= items->elements;
/* Add selected items to field list */
List_iterator_fast<Item> it(*items);
Item *item;
DBUG_ENTER("select_create::create_table_from_items");
tmp_table.s= &share;
init_tmp_table_share(thd, &share, "", 0, "", "");
tmp_table.s->db_create_options=0;
tmp_table.null_row= 0;
tmp_table.maybe_null= 0;
tmp_table.in_use= thd;
if (!opt_explicit_defaults_for_timestamp)
promote_first_timestamp_column(&alter_info->create_list);
if (create_info->vers_fix_system_fields(thd, alter_info, *create_table,
true))
DBUG_RETURN(NULL);
while ((item=it++))
{
Field *tmp_field= item->create_field_for_create_select(&tmp_table);
if (!tmp_field)
DBUG_RETURN(NULL);
Field *table_field;
switch (item->type())
{
/*
We have to take into account both the real table's fields and
pseudo-fields used in trigger's body. These fields are used
to copy defaults values later inside constructor of
the class Create_field.
*/
case Item::FIELD_ITEM:
case Item::TRIGGER_FIELD_ITEM:
table_field= ((Item_field *) item)->field;
break;
default:
table_field= NULL;
}
Create_field *cr_field= new (thd->mem_root)
Create_field(thd, tmp_field, table_field);
if (!cr_field)
DBUG_RETURN(NULL);
if (item->maybe_null)
cr_field->flags &= ~NOT_NULL_FLAG;
alter_info->create_list.push_back(cr_field, thd->mem_root);
}
if (create_info->vers_check_system_fields(thd, alter_info, *create_table))
DBUG_RETURN(NULL);
DEBUG_SYNC(thd,"create_table_select_before_create");
/* Check if LOCK TABLES + CREATE OR REPLACE of existing normal table*/
if (thd->locked_tables_mode && create_table->table &&
!create_info->tmp_table())
{
/* Remember information about the locked table */
create_info->pos_in_locked_tables=
create_table->table->pos_in_locked_tables;
create_info->mdl_ticket= create_table->table->mdl_ticket;
}
/*
Create and lock table.
Note that we either creating (or opening existing) temporary table or
creating base table on which name we have exclusive lock. So code below
should not cause deadlocks or races.
We don't log the statement, it will be logged later.
If this is a HEAP table, the automatic DELETE FROM which is written to the
binlog when a HEAP table is opened for the first time since startup, must
not be written: 1) it would be wrong (imagine we're in CREATE SELECT: we
don't want to delete from it) 2) it would be written before the CREATE
TABLE, which is a wrong order. So we keep binary logging disabled when we
open_table().
*/
if (!mysql_create_table_no_lock(thd, &create_table->db,
&create_table->table_name,
create_info, alter_info, NULL,
select_field_count, create_table))
{
DEBUG_SYNC(thd,"create_table_select_before_open");
/*
If we had a temporary table or a table used with LOCK TABLES,
it was closed by mysql_create()
*/
create_table->table= 0;
if (!create_info->tmp_table())
{
Open_table_context ot_ctx(thd, MYSQL_OPEN_REOPEN);
TABLE_LIST::enum_open_strategy save_open_strategy;
/* Force the newly created table to be opened */
save_open_strategy= create_table->open_strategy;
create_table->open_strategy= TABLE_LIST::OPEN_NORMAL;
/*
Here we open the destination table, on which we already have
an exclusive metadata lock.
*/
if (open_table(thd, create_table, &ot_ctx))
{
quick_rm_table(thd, create_info->db_type, &create_table->db,
table_case_name(create_info, &create_table->table_name),
0);
}
/* Restore */
create_table->open_strategy= save_open_strategy;
}
else
{
/*
The pointer to the newly created temporary table has been stored in
table->create_info.
*/
create_table->table= create_info->table;
if (!create_table->table)
{
/*
This shouldn't happen as creation of temporary table should make
it preparable for open. Anyway we can't drop temporary table if
we are unable to find it.
*/
DBUG_ASSERT(0);
}
}
}
else
create_table->table= 0; // Create failed
if (unlikely(!(table= create_table->table)))
{
if (likely(!thd->is_error())) // CREATE ... IF NOT EXISTS
my_ok(thd); // succeed, but did nothing
DBUG_RETURN(NULL);
}
DEBUG_SYNC(thd,"create_table_select_before_lock");
table->reginfo.lock_type=TL_WRITE;
hooks->prelock(&table, 1); // Call prelock hooks
/*
mysql_lock_tables() below should never fail with request to reopen table
since it won't wait for the table lock (we have exclusive metadata lock on
the table) and thus can't get aborted.
*/
if (unlikely(!((*lock)= mysql_lock_tables(thd, &table, 1, 0)) ||
hooks->postlock(&table, 1)))
{
/* purecov: begin tested */
/*
This can happen in innodb when you get a deadlock when using same table
in insert and select or when you run out of memory.
*/
my_error(ER_CANT_LOCK, MYF(0), my_errno);
if (*lock)
{
mysql_unlock_tables(thd, *lock);
*lock= 0;
}
drop_open_table(thd, table, &create_table->db, &create_table->table_name);
DBUG_RETURN(0);
/* purecov: end */
}
DBUG_RETURN(table);
}
int
select_create::prepare(List<Item> &_values, SELECT_LEX_UNIT *u)
{
List<Item> values(_values, thd->mem_root);
MYSQL_LOCK *extra_lock= NULL;
DBUG_ENTER("select_create::prepare");
TABLEOP_HOOKS *hook_ptr= NULL;
/*
For row-based replication, the CREATE-SELECT statement is written
in two pieces: the first one contain the CREATE TABLE statement
necessary to create the table and the second part contain the rows
that should go into the table.
For non-temporary tables, the start of the CREATE-SELECT
implicitly commits the previous transaction, and all events
forming the statement will be stored the transaction cache. At end
of the statement, the entire statement is committed as a
transaction, and all events are written to the binary log.
On the master, the table is locked for the duration of the
statement, but since the CREATE part is replicated as a simple
statement, there is no way to lock the table for accesses on the
slave. Hence, we have to hold on to the CREATE part of the
statement until the statement has finished.
*/
class MY_HOOKS : public TABLEOP_HOOKS {
public:
MY_HOOKS(select_create *x, TABLE_LIST *create_table_arg,
TABLE_LIST *select_tables_arg)
: ptr(x),
create_table(create_table_arg),
select_tables(select_tables_arg)
{
}
private:
virtual int do_postlock(TABLE **tables, uint count)
{
int error;
THD *thd= const_cast<THD*>(ptr->get_thd());
TABLE_LIST *save_next_global= create_table->next_global;
create_table->next_global= select_tables;
error= thd->decide_logging_format(create_table);
create_table->next_global= save_next_global;
if (unlikely(error))
return error;
TABLE const *const table = *tables;
if (thd->is_current_stmt_binlog_format_row() &&
!table->s->tmp_table)
{
int error;
if (unlikely((error= ptr->binlog_show_create_table(tables, count))))
return error;
}
return 0;
}
select_create *ptr;
TABLE_LIST *create_table;
TABLE_LIST *select_tables;
};
MY_HOOKS hooks(this, create_table, select_tables);
hook_ptr= &hooks;
unit= u;
/*
Start a statement transaction before the create if we are using
row-based replication for the statement. If we are creating a
temporary table, we need to start a statement transaction.
*/
if (!thd->lex->tmp_table() &&
thd->is_current_stmt_binlog_format_row() &&
mysql_bin_log.is_open())
{
thd->binlog_start_trans_and_stmt();
}
DEBUG_SYNC(thd,"create_table_select_before_check_if_exists");
if (!(table= create_table_from_items(thd, &values, &extra_lock, hook_ptr)))
/* abort() deletes table */
DBUG_RETURN(-1);
if (create_info->tmp_table())
{
/*
When the temporary table was created & opened in create_table_impl(),
the table's TABLE_SHARE (and thus TABLE) object was also linked to THD
temporary tables lists. So, we must temporarily remove it from the
list to keep them inaccessible from inner statements.
e.g. CREATE TEMPORARY TABLE `t1` AS SELECT * FROM `t1`;
*/
saved_tmp_table_share= thd->save_tmp_table_share(create_table->table);
}
if (extra_lock)
{
DBUG_ASSERT(m_plock == NULL);
if (create_info->tmp_table())
m_plock= &m_lock;
else
m_plock= &thd->extra_lock;
*m_plock= extra_lock;
}
if (table->s->fields < values.elements)
{
my_error(ER_WRONG_VALUE_COUNT_ON_ROW, MYF(0), 1L);
DBUG_RETURN(-1);
}
/* First field to copy */
field= table->field+table->s->fields;
/* Mark all fields that are given values */
for (uint n= values.elements; n; )
{
if ((*--field)->invisible >= INVISIBLE_SYSTEM)
continue;
n--;
bitmap_set_bit(table->write_set, (*field)->field_index);
}
table->next_number_field=table->found_next_number_field;
restore_record(table,s->default_values); // Get empty record
thd->cuted_fields=0;
if (info.ignore || info.handle_duplicates != DUP_ERROR)
table->file->extra(HA_EXTRA_IGNORE_DUP_KEY);
if (info.handle_duplicates == DUP_REPLACE &&
(!table->triggers || !table->triggers->has_delete_triggers()))
table->file->extra(HA_EXTRA_WRITE_CAN_REPLACE);
if (info.handle_duplicates == DUP_UPDATE)
table->file->extra(HA_EXTRA_INSERT_WITH_UPDATE);
if (thd->locked_tables_mode <= LTM_LOCK_TABLES)
table->file->ha_start_bulk_insert((ha_rows) 0);
thd->abort_on_warning= !info.ignore && thd->is_strict_mode();
if (check_that_all_fields_are_given_values(thd, table, table_list))
DBUG_RETURN(1);
table->mark_columns_needed_for_insert();
table->file->extra(HA_EXTRA_WRITE_CACHE);
// Mark table as used
table->query_id= thd->query_id;
DBUG_RETURN(0);
}
int
select_create::binlog_show_create_table(TABLE **tables, uint count)
{
/*
Note 1: In RBR mode, we generate a CREATE TABLE statement for the
created table by calling show_create_table(). In the event of an error,
nothing should be written to the binary log, even if the table is
non-transactional; therefore we pretend that the generated CREATE TABLE
statement is for a transactional table. The event will then be put in the
transaction cache, and any subsequent events (e.g., table-map events and
binrow events) will also be put there. We can then use
ha_autocommit_or_rollback() to either throw away the entire kaboodle of
events, or write them to the binary log.
We write the CREATE TABLE statement here and not in prepare()
since there potentially are sub-selects or accesses to information
schema that will do a close_thread_tables(), destroying the
statement transaction cache.
*/
DBUG_ASSERT(thd->is_current_stmt_binlog_format_row());
DBUG_ASSERT(tables && *tables && count > 0);
char buf[2048];
String query(buf, sizeof(buf), system_charset_info);
int result;
TABLE_LIST tmp_table_list;
memset(&tmp_table_list, 0, sizeof(tmp_table_list));
tmp_table_list.table = *tables;
query.length(0); // Have to zero it since constructor doesn't
result= show_create_table(thd, &tmp_table_list, &query,
create_info, WITH_DB_NAME);
DBUG_ASSERT(result == 0); /* show_create_table() always return 0 */
if (WSREP_EMULATE_BINLOG(thd) || mysql_bin_log.is_open())
{
int errcode= query_error_code(thd, thd->killed == NOT_KILLED);
result= thd->binlog_query(THD::STMT_QUERY_TYPE,
query.ptr(), query.length(),
/* is_trans */ TRUE,
/* direct */ FALSE,
/* suppress_use */ FALSE,
errcode);
}
ha_fake_trx_id(thd);
return result;
}
void select_create::store_values(List<Item> &values)
{
fill_record_n_invoke_before_triggers(thd, table, field, values, 1,
TRG_EVENT_INSERT);
}
bool select_create::send_eof()
{
DBUG_ENTER("select_create::send_eof");
/*
The routine that writes the statement in the binary log
is in select_insert::prepare_eof(). For that reason, we
mark the flag at this point.
*/
if (table->s->tmp_table)
thd->transaction.stmt.mark_created_temp_table();
if (prepare_eof())
{
abort_result_set();
DBUG_RETURN(true);
}
if (table->s->tmp_table)
{
/*
Now is good time to add the new table to THD temporary tables list.
But, before that we need to check if same table got created by the sub-
statement.
*/
if (thd->find_tmp_table_share(table->s->table_cache_key.str,
table->s->table_cache_key.length))
{
my_error(ER_TABLE_EXISTS_ERROR, MYF(0), table->alias.c_ptr());
abort_result_set();
DBUG_RETURN(true);
}
else
{
DBUG_ASSERT(saved_tmp_table_share);
thd->restore_tmp_table_share(saved_tmp_table_share);
}
}
/*
Do an implicit commit at end of statement for non-temporary
tables. This can fail, but we should unlock the table
nevertheless.
*/
if (!table->s->tmp_table)
{
trans_commit_stmt(thd);
if (!(thd->variables.option_bits & OPTION_GTID_BEGIN))
trans_commit_implicit(thd);
#ifdef WITH_WSREP
if (WSREP_ON)
{
mysql_mutex_lock(&thd->LOCK_thd_data);
if (thd->wsrep_conflict_state != NO_CONFLICT)
{
WSREP_DEBUG("select_create commit failed, thd: %lld err: %d %s",
(longlong) thd->thread_id, thd->wsrep_conflict_state,
thd->query());
mysql_mutex_unlock(&thd->LOCK_thd_data);
abort_result_set();
DBUG_RETURN(true);
}
mysql_mutex_unlock(&thd->LOCK_thd_data);
}
#endif /* WITH_WSREP */
}
else if (!thd->is_current_stmt_binlog_format_row())
table->s->table_creation_was_logged= 1;
/*
exit_done must only be set after last potential call to
abort_result_set().
*/
exit_done= 1; // Avoid double calls
table->file->extra(HA_EXTRA_NO_IGNORE_DUP_KEY);
table->file->extra(HA_EXTRA_WRITE_CANNOT_REPLACE);
send_ok_packet();
if (m_plock)
{
MYSQL_LOCK *lock= *m_plock;
*m_plock= NULL;
m_plock= NULL;
if (create_info->pos_in_locked_tables)
{
/*
If we are under lock tables, we have created a table that was
originally locked. We should add back the lock to ensure that
all tables in the thd->open_list are locked!
*/
table->mdl_ticket= create_info->mdl_ticket;
/* The following should never fail, except if out of memory */
if (!thd->locked_tables_list.restore_lock(thd,
create_info->
pos_in_locked_tables,
table, lock))
DBUG_RETURN(false); // ok
/* Fail. Continue without locking the table */
}
mysql_unlock_tables(thd, lock);
}
DBUG_RETURN(false);
}
void select_create::abort_result_set()
{
ulonglong save_option_bits;
DBUG_ENTER("select_create::abort_result_set");
/* Avoid double calls, could happen in case of out of memory on cleanup */
if (exit_done)
DBUG_VOID_RETURN;
exit_done= 1;
/*
In select_insert::abort_result_set() we roll back the statement, including
truncating the transaction cache of the binary log. To do this, we
pretend that the statement is transactional, even though it might
be the case that it was not.
We roll back the statement prior to deleting the table and prior
to releasing the lock on the table, since there might be potential
for failure if the rollback is executed after the drop or after
unlocking the table.
We also roll back the statement regardless of whether the creation
of the table succeeded or not, since we need to reset the binary
log state.
However if there was an original table that was deleted, as part of
create or replace table, then we must log the statement.
*/
save_option_bits= thd->variables.option_bits;
thd->variables.option_bits&= ~OPTION_BIN_LOG;
select_insert::abort_result_set();
thd->transaction.stmt.modified_non_trans_table= FALSE;
thd->variables.option_bits= save_option_bits;
/* possible error of writing binary log is ignored deliberately */
(void) thd->binlog_flush_pending_rows_event(TRUE, TRUE);
if (create_info->table_was_deleted)
{
/* Unlock locked table that was dropped by CREATE */
thd->locked_tables_list.unlock_locked_table(thd,
create_info->mdl_ticket);
}
if (m_plock)
{
mysql_unlock_tables(thd, *m_plock);
*m_plock= NULL;
m_plock= NULL;
}
if (table)
{
bool tmp_table= table->s->tmp_table;
if (tmp_table)
{
DBUG_ASSERT(saved_tmp_table_share);
thd->restore_tmp_table_share(saved_tmp_table_share);
}
table->file->extra(HA_EXTRA_NO_IGNORE_DUP_KEY);
table->file->extra(HA_EXTRA_WRITE_CANNOT_REPLACE);
table->auto_increment_field_not_null= FALSE;
drop_open_table(thd, table, &create_table->db, &create_table->table_name);
table=0; // Safety
if (thd->log_current_statement && mysql_bin_log.is_open())
{
/* Remove logging of drop, create + insert rows */
binlog_reset_cache(thd);
/* Original table was deleted. We have to log it */
log_drop_table(thd, &create_table->db, &create_table->table_name, tmp_table);
}
}
DBUG_VOID_RETURN;
}
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