An error occuring in the execution of a stored procedure, called
from do_select is masked, since the error condition is not
propagated back to the caller (join->conds->val_int() returns
a result value, and not an error code)
An explicit check was added to see if the thd error code has been
set, and if so, the loop status is set to the error state.
Backport from 6.0-codebase (revid: 2617.68.31)
This fix has been proposed by Sergey Petrunya and has been contributed
under SCA by sca@askmonty.org.
The cause for this valgrind error is that in the function
add_cond_and_fix() in sql_select.cc an Item_cond_and object is
created. This is marked as fixed but does not have a correct
table_map() attribute. Later, in make_join_select(), if
engine_condition_pushdown is in use, this table map is used and
results in the valgrind error.
The fix is to add a call to update_used_tables() in add_cond_and_fix()
so that the table map is updated correctly.
This patch is tested by multiple existing tests (e.g. the tests
innodb_mysql, innodb, fulltext, compress all produces this valgrind
warning/error without this fix).
sql/sql_select.cc:
In add_cond_and_fix() add a call to update_used_tables() to ensure
the table map is updated.
Part 2 :
There was a special optimization on the ref access method for
ORDER BY ... DESC that was set without actually looking on the type of the
selected index for ORDER BY.
Fixed the SELECT ... ORDER BY .. DESC (it uses a different code path compared
to the ASC that has been fixed with the previous fix).
field='const1' AND field='const2' in some cases
Building multiple equality predicates containing
a constant which is compared as a datetime (with a field)
we should take this fact into account and compare the
constant with another possible constatns as datetimes
as well.
E.g. for the
SELECT ... WHERE a='2001-01-01' AND a='2001-01-01 00:00:00'
we should compare '2001-01-01' with '2001-01-01 00:00:00' as
datetimes but not as strings.
mysql-test/r/select.result:
Fix for bug#49199: Optimizer handles incorrectly:
field='const1' AND field='const2' in some cases
- test result.
mysql-test/t/select.test:
Fix for bug#49199: Optimizer handles incorrectly:
field='const1' AND field='const2' in some cases
- test case.
sql/item_cmpfunc.cc:
Fix for bug#49199: Optimizer handles incorrectly:
field='const1' AND field='const2' in some cases
- adding a constant to Item_equal compare it as
a datetime value with stored one if there's a
date[time] field in a equality predicate.
sql/item_cmpfunc.h:
Fix for bug#49199: Optimizer handles incorrectly:
field='const1' AND field='const2' in some cases
- adding a constant to Item_equal compare it as
a datetime value with stored one if there's a
date[time] field in a equality predicate.
sql/sql_select.cc:
Fix for bug#49199: Optimizer handles incorrectly:
field='const1' AND field='const2' in some cases
- adding a constant to Item_equal compare it as
a datetime value with stored one if there's a
date[time] field in a equality predicate.
Constant expressions in WHERE/HAVING/ON clauses aren't cached and evaluated
for each row. This causes slowdown of query execution especially if constant
UDF/SP function are used.
Now WHERE/HAVING/ON expressions are analyzed in the top-bottom direction with
help of the compile function. When analyzer meets a constant item it
sets a flag for the tree transformer to cache the item and doesn't allow tree
walker to go deeper. Thus, the topmost item of a constant expression if
cached. This is done after all other optimizations were applied to
WHERE/HAVING/ON expressions
A helper function called cache_const_exprs is added to the JOIN class.
It calls compile method with caching analyzer and transformer on WHERE,
HAVING, ON expressions if they're present.
The cache_const_expr_analyzer and cache_const_expr_transformer functions are
added to the Item class. The first one check if the item can be cached and
the second caches it if so.
A new Item_cache_datetime class is derived from the Item_cache class.
It caches both int and string values of the underlying item independently to
avoid DATETIME aware int-to-string conversion. Thus it completely relies on
the ability of the underlying item to correctly convert DATETIME value from
int to string and vice versa.
mysql-test/r/func_like.result:
A test case result is corrected after fixing bug#33546.
mysql-test/r/func_time.result:
A test case result is corrected after fixing bug#33546.
mysql-test/r/select.result:
Added a test case for the bug#33546.
mysql-test/r/subselect.result:
A test case result is corrected after fixing bug#33546.
mysql-test/r/udf.result:
Added a test case for the bug#33546.
mysql-test/t/select.test:
Added a test case for the bug#33546.
mysql-test/t/udf.test:
Added a test case for the bug#33546.
sql/item.cc:
Bug#33546: Slowdown on re-evaluation of constant expressions.
The cache_const_expr_analyzer and cache_const_expr_transformer functions are
added to the Item class. The first one check if the item can be cached and
the second caches it if so.
Item_cache_datetime class implementation is added.
sql/item.h:
Bug#33546: Slowdown on re-evaluation of constant expressions.
Item_ref and Item_cache classes now returns basic_const_item
from underlying item.
The cache_const_expr_analyzer and cache_const_expr_transformer functions are
added to the Item class.
sql/sql_select.cc:
Bug#33546: Slowdown on re-evaluation of constant expressions.
A helper function called cache_const_exprs is added to the JOIN class.
It calls compile method with caching analyzer and transformer on WHERE,
HAVING, ON expressions if they're present.
sql/sql_select.h:
Bug#33546: Slowdown on re-evaluation of constant expressions.
A helper function called cache_const_exprs is added to the JOIN class.
----------------------------------------------------------
revno: 2630.4.26
committer: Konstantin Osipov <konstantin@mysql.com>
branch nick: mysql-6.0-prelocked_mode-to-push
timestamp: Fri 2008-06-06 23:19:04 +0400
message:
WL#3726: work on review comments.
Remove thd->locked_tables. Always store MYSQL_LOCK instances in
thd->lock.
Rename thd->prelocked_mode to thd->locked_tables_mode.
Use thd->locked_tables_mode to determine if we
are under LOCK TABLES. Update the code to not assume that
if thd->lock is set, LOCK TABLES mode is off.
Review comments.
sql/ha_ndbcluster_binlog.cc:
Don't unlock the lock under LOCK TABLES (safety).
sql/handler.cc:
There is no thd->locked_tables any more.
Update comments.
sql/lock.cc:
There is no thd->locked_tables any more.
sql/log.cc:
Rename thd->prelocked_mode to thd->locked_tables_mode.
sql/set_var.cc:
Use thd->locked_tables_mode to determine if we are under LOCK TABLES.
sql/sp_head.cc:
Rename thd->prelocked_mode to thd->locked_tables_mode.
sql/sql_base.cc:
Use thd->locked_tables_mode to determine if we are under LOCK TABLES.
Remove thd->locked_tables.
sql/sql_cache.cc:
Use thd->locked_tables_mode to determine if we are under LOCK TABLES.
sql/sql_class.cc:
Avoid code duplication.
Do not release the table locks prematurely if we're under LOCK TABLES.
Use thd->locked_tables_mode instead of thd->locked_tables.
sql/sql_class.h:
Remove thd->locked_tables.
Make prelocked mode a kind of LOCK TABLES mode.
Update comments.
sql/sql_cursor.cc:
Update comments.
sql/sql_insert.cc:
Use thd->locked_tables_mode to determine if we are under LOCK TABLES.
Rename thd->prelocked_mode to thd->locked_tables_mode.
sql/sql_load.cc:
Rename thd->prelocked_mode to thd->locked_tables_mode.
sql/sql_parse.cc:
Use thd->locked_tables_mode to determine if we are under LOCK TABLES.
Remove thd->locked_tables.
sql/sql_partition.cc:
Use thd->locked_tables_mode to determine if we are under LOCK TABLES.
sql/sql_rename.cc:
Use thd->locked_tables_mode to determine if we are under LOCK TABLES.
sql/sql_select.cc:
Use thd->locked_tables_mode to determine if we are under LOCK TABLES.
sql/sql_table.cc:
Use thd->locked_tables_mode to determine if we are under LOCK TABLES.
sql/sql_trigger.cc:
Use thd->locked_tables_mode to determine if we are under LOCK TABLES.
sql/sql_update.cc:
Use thd->locked_tables_mode to determine if we are under LOCK TABLES.
sql/sql_view.cc:
Use thd->locked_tables_mode to determine if we are under LOCK TABLES.
storage/myisam/ha_myisam.cc:
Use thd->locked_tables_mode to determine if we are under LOCK TABLES.
Not all my_hash_insert() calls are checked for return value.
This patch adds appropriate checks and failure responses
where needed.
mysys/hash.c:
* Debug hook for testing failures in my_hash_insert()
Bug #48370 Absolutely wrong calculations with GROUP BY and
decimal fields when using IF
Added the test cases in the above two bugs for regression
testing.
Added additional tests that demonstrate a incomplete fix.
Added a new factory method for Field_new_decimal to
create a field from an (decimal returning) Item.
In the new method made sure that all the precision and
length variables are capped in a proper way.
This is required because Item's can have larger precision
than the decimal fields and thus need to be capped when
creating a field based on an Item type.
Fixed the wrong typecast to Item_decimal.
init_read_record() - (records.cc:274)
Item_cond::used_tables_cache was accessed in
records.cc#init_read_record() without being initialized. It had
not been initialized because it was wrongly assumed that the
Item's variables would not be accessed, and hence
quick_fix_field() was used instead of fix_fields() to save a few
CPU cycles at creation time.
The fix is to properly initilize the Item by replacing
quick_fix_field() with fix_fields().
mysql-test/r/select.result:
Add test for BUG#48052
mysql-test/t/select.test:
Add test for BUG#48052
sql/sql_select.cc:
Properly initialize Item_cond_and by calling fix_fields (instead of quick_fix_field) when the Item that "ANDs" WHERE clause conditions with HAVING clause conditions is created.
------------------------------------------------------------
revno: 2597.4.17
revision-id: sp1r-davi@mysql.com/endora.local-20080328174753-24337
parent: sp1r-anozdrin/alik@quad.opbmk-20080328140038-16479
committer: davi@mysql.com/endora.local
timestamp: Fri 2008-03-28 14:47:53 -0300
message:
Bug#15192 "fatal errors" are caught by handlers in stored procedures
The problem is that fatal errors (e.g.: out of memory) were being
caught by stored procedure exception handlers which could cause
the execution to not be stopped due to a continue handler.
The solution is to not call any exception handler if the error is
fatal and send the fatal error to the client.
mysql-test/r/sp-error.result:
Add test case result for Bug#15192
mysql-test/t/sp-error.test:
Add test case for Bug#15192
mysys/my_alloc.c:
Pass flag to signal fatal error in memory root allocations.
sql/event_data_objects.cc:
Use init_sql_alloc to initialize memory roots, which uses
the sql error handler to push errors.
sql/ha_partition.cc:
Pass flag to signal fatal error instead of calling fatal_error.
sql/item_func.cc:
Pass flag to signal fatal error instead of calling fatal_error.
sql/item_subselect.cc:
Remove redundant fatal error, memory root already pushes error.
sql/opt_sum.cc:
Pass flag to signal fatal error instead of calling fatal_error.
sql/sp_head.cc:
Allocator already sets fatal error.
sql/sql_class.h:
A error must exist for it to be fatal. Pass flag to signal fatal
error instead of calling fatal_error.
sql/sql_insert.cc:
Pass flag to signal fatal error instead of calling fatal_error.
sql/sql_list.h:
Pass flag to signal fatal error instead of calling fatal_error.
sql/sql_parse.cc:
Pass flag to signal fatal error instead of calling fatal_error.
sql/sql_partition.cc:
Pass flag to signal fatal error instead of calling fatal_error.
sql/sql_select.cc:
Pass flag to signal fatal error instead of calling fatal_error.
sql/sql_servers.cc:
Use init_sql_alloc to initialize memory roots, which uses
the sql error handler to push errors.
sql/sql_show.cc:
Pass flag to signal fatal error instead of calling fatal_error.
sql/sql_trigger.cc:
Use init_sql_alloc to initialize memory roots, which uses
the sql error handler to push errors.
sql/sql_update.cc:
Pass flag to signal fatal error instead of calling fatal_error.
sql/tztime.cc:
Use init_sql_alloc to initialize memory roots, which uses
the sql error handler to push errors.
memory
The server was doing a bad class typecast causing setting of
wrong value for the maximum number of items in an internal
structure used in equality propagation.
Fixed by not doing the wrong typecast and asserting the type
of the Item where it should be done.
values
We should re-set the access method functions when changing the access
method when switching to another index to avoid sorting.
Fixed by doing a little re-engineering : encapsulating all the function
assignment into a special function and calling it when flipping the
indexes.
only const tables
The problem was caused by two shortcuts in the optimizer that
are inapplicable in the ROLLUP case.
Normally in a case when only const tables are involved in a
query, DISTINCT clause can be safely optimized away since there
may be only one row produced by the join. Similarly, we don't
need to create a temporary table to resolve DISTINCT/GROUP
BY/ORDER BY. Both of these are inapplicable when the WITH
ROLLUP modifier is present.
Fixed by disabling the said optimizations for the WITH ROLLUP
case.
mysql-test/r/olap.result:
Added a test case for bug #48475.
mysql-test/t/olap.test:
Added a test case for bug #48475.
sql/sql_select.cc:
Disabled const-only table optimizations for the WITH ROLLUP
case.
Bug#41756 "Strange error messages about locks from InnoDB".
In JT_EQ_REF (join_read_key()) access method,
don't try to unlock rows in the handler, unless certain that
a) they were locked
b) they are not used.
Unlocking of rows is done by the logic of the nested join loop,
and is unaware of the possible caching that the access method may
have. This could lead to double unlocking, when a row
was unlocked first after reading into the cache, and then
when taken from cache, as well as to unlocking of rows which
were actually used (but taken from cache).
Delegate part of the unlocking logic to the access method,
and in JT_EQ_REF count how many times a record was actually
used in the join. Unlock it only if it's usage count is 0.
Implemented review comments.
mysql-test/r/innodb_lock_wait_timeout_1.result:
Update results (Bug41756).
mysql-test/t/innodb_lock_wait_timeout_1.test:
Add a test case (Bug#41756).
sql/item_subselect.cc:
Complete struct READ_RECORD initialization with a new
member to unlock records.
sql/records.cc:
Extend READ_RECORD API with a method to unlock read records.
sql/sql_select.cc:
In JT_EQ_REF (join_read_key()) access method,
don't try to unlock rows in the handler, unless certain that
a) they were locked
b) they are not used.
sql/sql_select.h:
Add members to TABLE_REF to count TABLE_REF buffer usage count.
sql/structs.h:
Update declarations.
Bug#41756 "Strange error messages about locks from InnoDB".
In JT_EQ_REF (join_read_key()) access method,
don't try to unlock rows in the handler, unless certain that
a) they were locked
b) they are not used.
Unlocking of rows is done by the logic of the nested join loop,
and is unaware of the possible caching that the access method may
have. This could lead to double unlocking, when a row
was unlocked first after reading into the cache, and then
when taken from cache, as well as to unlocking of rows which
were actually used (but taken from cache).
Delegate part of the unlocking logic to the access method,
and in JT_EQ_REF count how many times a record was actually
used in the join. Unlock it only if it's usage count is 0.
Implemented review comments.
mysql-test/r/bug41756.result:
Add result file (Bug#41756)
mysql-test/t/bug41756-master.opt:
Use --innodb-locks-unsafe-for-binlog, as in 5.0 just
using read_committed isolation is not sufficient to
reproduce the bug.
mysql-test/t/bug41756.test:
Add a test file (Bug#41756)
sql/item_subselect.cc:
Complete struct READ_RECORD initialization with a new
member to unlock records.
sql/records.cc:
Extend READ_RECORD API with a method to unlock read records.
sql/sql_select.cc:
In JT_EQ_REF (join_read_key()) access method,
don't try to unlock rows in the handler, unless certain that
a) they were locked
b) they are not used.
sql/sql_select.h:
Add members to TABLE_REF to count TABLE_REF buffer usage count.
sql/structs.h:
Update declarations.
For application compatibility reasons MySQL converts "<autoincrement_column> IS NULL"
predicates to "<autoincrement_column> = LAST_INSERT_ID()" in the first SELECT following an
INSERT regardless of whether they're top level predicates or not. This causes wrong and
obscure results when these predicates are combined with others on the same columns. Fixed
by only doing the transformation on a single top-level predicate if a special SQL mode is
turned on (sql_auto_is_null).
Also made sql_auto_is_null off by default.
per-file comments:
mysql-test/r/func_isnull.result
Bug#41371 Select returns 1 row with condition "col is not null and col is null"
test result updated
mysql-test/t/func_isnull.test
Bug#41371 Select returns 1 row with condition "col is not null and col is null"
test case added
sql/mysqld.cc
Bug#41371 Select returns 1 row with condition "col is not null and col is null"
sql_auto_is_null now is OFF by default.
sql/sql_select.cc
Bug#41371 Select returns 1 row with condition "col is not null and col is null"
remove_eq_conds() split in two parts - one only checks the upper condition,
the req_remove_eq_conds() recursively checks all the condition tree.
mysql-test/extra/rpl_tests/rpl_insert_id.test
Bug#41371 Select returns 1 row with condition "col is not null and col is null"
test fixed (set the sql_auto_is_null variable)
mysql-test/r/mysqlbinlog.result
Bug#41371 Select returns 1 row with condition "col is not null and col is null"
result updated
mysql-test/r/mysqlbinlog2.result
Bug#41371 Select returns 1 row with condition "col is not null and col is null"
result updated
mysql-test/r/odbc.result
Bug#41371 Select returns 1 row with condition "col is not null and col is null"
result updated
mysql-test/r/query_cache.result
Bug#41371 Select returns 1 row with condition "col is not null and col is null"
result updated
mysql-test/r/user_var-binlog.result
Bug#41371 Select returns 1 row with condition "col is not null and col is null"
result updated
mysql-test/suite/binlog/r/binlog_row_ctype_ucs.result
Bug#41371 Select returns 1 row with condition "col is not null and col is null"
result updated
mysql-test/suite/binlog/r/binlog_stm_ctype_ucs.result
Bug#41371 Select returns 1 row with condition "col is not null and col is null"
result updated
mysql-test/suite/rpl/r/rpl_insert_id.result
Bug#41371 Select returns 1 row with condition "col is not null and col is null"
result updated
mysql-test/suite/rpl/r/rpl_row_mysqlbinlog.result
Bug#41371 Select returns 1 row with condition "col is not null and col is null"
result updated
mysql-test/suite/rpl/r/rpl_sp.result
Bug#41371 Select returns 1 row with condition "col is not null and col is null"
result updated
mysql-test/t/odbc.test
Bug#41371 Select returns 1 row with condition "col is not null and col is null"
test fixed (set the sql_auto_is_null variable)
with temporary tables
There were two problems the test case from this bug was
triggering:
1. JOIN::rollup_init() was supposed to wrap all constant Items
into another object for queries with the WITH ROLLUP modifier
to ensure they are never considered as constants and therefore
are written into temporary tables if the optimizer chooses to
employ them for DISTINCT/GROUP BY handling.
However, JOIN::rollup_init() was called before
make_join_statistics(), so Items corresponding to fields in
const tables could not be handled as intended, which was
causing all kinds of problems later in the query execution. In
particular, create_tmp_table() assumed all constant items
except "hidden" ones to be removed earlier by remove_const()
which led to improperly initialized Field objects for the
temporary table being created. This is what was causing crashes
and valgrind errors in storage engines.
2. Even when the above problem had been fixed, the query from
the test case produced incorrect results due to some
DISTINCT/GROUP BY optimizations being performed by the
optimizer that are inapplicable in the WITH ROLLUP case.
Fixed by disabling inapplicable DISTINCT/GROUP BY optimizations
when the WITH ROLLUP modifier is present, and splitting the
const-wrapping part of JOIN::rollup_init() into a separate
method which is now invoked after make_join_statistics() when
the const tables are already known.
mysql-test/r/olap.result:
Added a test case for bug #48131.
mysql-test/t/olap.test:
Added a test case for bug #48131.
sql/sql_select.cc:
1. Disabled inapplicable DISTINCT/GROUP BY optimizations when
the WITH ROLLUP modifier is present.
2. Split the const-wrapping part of JOIN::rollup_init() into a
separate method.
sql/sql_select.h:
Added rollup_process_const_fields() declaration.
