INCORRECT RESULTS
This is a backport of fix for Bug#13068506.
mysql-test/r/join_outer.result:
Added test result for Bug#13068506
mysql-test/t/join_outer.test:
Added test case for Bug#13068506
sql/item.h:
Implement Item_outer_ref::not_null_tables()
Analysis:
========================
sql_mode "NO_BACKSLASH_ESCAPES": When user want to use backslash as character input,
instead of escape character in a string literal then sql_mode can be set to
"NO_BACKSLASH_ESCAPES". With this mode enabled, backslash becomes an ordinary
character like any other.
SQL_MODE set applies to the current client session. And while creating the stored
procedure, MySQL stores the current sql_mode and always executes the stored
procedure in sql_mode stored with the Procedure, regardless of the server SQL
mode in effect when the routine is invoked.
In the scenario (for which bug is reported), the routine is created with
sql_mode=NO_BACKSLASH_ESCAPES. And routine is executed with the invoker sql_mode
is "" (NOT SET) by executing statement "call testp('Axel\'s')".
Since invoker sql_mode is "" (NOT_SET), the '\' in 'Axel\'s'(argument to function)
is considered as escape character and column "a" (of table "t1") values are
updated with "Axel's". The binary log generated for above update operation is as below,
set sql_mode=XXXXXX (for no_backslash_escapes)
update test.t1 set a= NAME_CONST('var',_latin1'Axel\'s' COLLATE 'latin1_swedish_ci');
While logging stored procedure statements, the local variables (params) used in
statements are replaced with the NAME_CONST(var_name, var_value) (Internal function)
(http://dev.mysql.com/doc/refman/5.6/en/miscellaneous-functions.html#function_name-const)
On slave, these logs are applied. NAME_CONST is parsed to get the variable and its
value. Since, stored procedure is created with sql_mode="NO_BACKSLASH_ESCAPES", the sql_mode
is also logged in. So that at slave this sql_mode is set before executing the statements
of routine. So at slave, sql_mode is set to "NO_BACKSLASH_ESCAPES" and then while
parsing NAME_CONST of string variable, '\' is considered as NON ESCAPE character
and parsing reported error for "'" (as we have only one "'" no backslash).
At slave, parsing was proper with sql_mode "NO_BACKSLASH_ESCAPES".
But above error reported while writing bin log, "'" (of Axel's) is escaped with
"\" character. Actually, all special characters (n, r, ', ", \, 0...) are escaped
while writing NAME_CONST for string variable(param, local variable) in bin log
Airrespective of "NO_BACKSLASH_ESCAPES" sql_mode. So, basically, the problem is
that logging string parameter does not take into account sql_mode value.
Fix:
========================
So when sql_mode is set to "NO_BACKSLASH_ESCAPES", escaping characters as
(n, r, ', ", \, 0...) should be avoided. To do so, added a check to not to
escape such characters while writing NAME_CONST for string variables in bin
log.
And when sql_mode is set to NO_BACKSLASH_ESCAPES, quote character "'" is
represented as ''.
http://dev.mysql.com/doc/refman/5.6/en/string-literals.html (There are several
ways to include quote characters within a string: )
mysql-test/r/sql_mode.result:
Added test case for Bug#12601974.
mysql-test/suite/binlog/r/binlog_sql_mode.result:
Appended result of test cases added for Bug#12601974.
mysql-test/suite/binlog/t/binlog_sql_mode.test:
Added test case for Bug#12601974.
mysql-test/t/sql_mode.test:
Appended result of test cases added for Bug#12601974.
Select from a view with the underlying HAVING clause failed with a
message: "1356: View '...' references invalid table(s) or column(s)
or function(s) or definer/invoker of view lack rights to use them"
The bug is a regression of the fix for bug 11750328 - 40825 (similar
case, but the HAVING cause references an aliased field).
In the old fix for bug 40825 the Item_field::name_length value has
been used in place of the real length of Item_field::name. However,
in some cases Item_field::name_length is not in sync with the
actual name length (TODO: combine name and name_length into a
solid String field).
The Item_ref::print() method has been modified to calculate actual
name length every time.
mysql-test/r/view.result:
Test case for bug #11829681
mysql-test/t/view.test:
Test case for bug #11829681
sql/item.cc:
Bug #11829681 - 60295: ERROR 1356 ON VIEW THAT EXECUTES FINE AS A QUERY
The Item_ref::print() method has been modified to calculate actual
name length every time.
sql/item.h:
Minor commentary.
get_year_value() contains code to convert 2-digits year to
4-digits. The fix for Bug#49910 added a check on the size of
the underlying field so that this conversion is not done for
YEAR(4) values. (Since otherwise one would convert invalid
YEAR(4) values to valid ones.)
The existing check does not work when Item_cache is used, since
it is not detected when the cache is based on a Field. The
reported change in behavior is due to Bug#58030 which added
extra cached items in min/max computations.
The elegant solution would be to implement
Item_cache::real_item() to return the underlying Item.
However, some side effects are observed (change in explain
output) that indicates that such a change is not straight-
forward, and definitely not appropriate for an MRU.
Instead, a Item_cache::field() method has been added in order
to get access to the underlying field. (This field() method
eliminates the need for Item_cache::eq_def() used in
test_if_ref(), but in order to limit the scope of this fix,
that code has been left as is.)
mysql-test/r/type_year.result:
Added test case for Bug#59211.
mysql-test/t/type_year.test:
Added test case for Bug#59211.
sql/item.h:
Added function Item_cache::field() to get access to the
underlying Field of a cached field Value.
sql/item_cmpfunc.cc:
Also check underlying fields of Item_cache, not just Item_Field,
when checking whether the value is of type YEAR(4) or not.
- Removed files specific to compiling on OS/2
- Removed files specific to SCO Unix packaging
- Removed "libmysqld/copyright", text is included in documentation
- Removed LaTeX headers for NDB Doxygen documentation
- Removed obsolete NDB files
- Removed "mkisofs" binaries
- Removed the "cvs2cl.pl" script
- Changed a few GPL texts to use "program" instead of "library"
multiline inserts into partition
Bug#57071: EXTRACT(WEEK from date_col) cannot be
allowed as partitioning function
Renamed function according to reviewers comments.
sql/item.h:
better name of processor function
sql/item_func.h:
better name of processor function
sql/item_timefunc.h:
better name of processor function
sql/sql_partition.cc:
better name of processor function
Updated comment.
Bug#57071: EXTRACT(WEEK from date_col) cannot be allowed as partitioning function
There were functions allowed as partitioning functions
that implicit allowed cast. That could result in unacceptable
behaviour.
Solution was to check that the arguments of date and time functions
have allowed types (field and date/datetime/time depending on function).
mysql-test/r/partition.result:
Updated result
mysql-test/r/partition_error.result:
Updated result
mysql-test/suite/parts/inc/part_supported_sql_funcs_main.inc:
disabled test with not allowed arguments.
mysql-test/suite/parts/r/part_supported_sql_func_innodb.result:
Updated result
mysql-test/suite/parts/r/part_supported_sql_func_myisam.result:
Updated result
mysql-test/t/partition.test:
Fixed typo in bug number and removed non allowed function (bad argument)
mysql-test/t/partition_error.test:
Added tests to verify correct type of argument.
sql/item.h:
Renamed processor since it is no longer only for timezone
sql/item_func.h:
Added help functions for checking date/time/datetime arguments.
sql/item_timefunc.h:
Added processors for argument correctness
sql/sql_partition.cc:
renamed the processor for checking arguments.
In order to be able to check if the set of the grouping fields in a
GROUP BY has changed (and thus to start a new group) the optimizer
caches the current values of these fields in a set of Cached_item
derived objects.
The Cached_item_str, used for caching varchar and TEXT columns,
is limited in length by the max_sort_length variable.
A String buffer to store the value with an alloced length of either
the max length of the string or the value of max_sort_length
(whichever is smaller) in Cached_item_str's constructor.
Then, at compare time the value of the string to compare to was
truncated to the alloced length of the string buffer inside
Cached_item_str.
This is all fine and valid, but only if you're not assigning
values near or equal to the alloced length of this buffer.
Because when assigning values like this the alloced length is
rounded up and as a result the next set of data will not match the
group buffer, thus leading to wrong results because of the changed
alloced_length.
Fixed by preserving the original maximum length in the
Cached_item_str's constructor and using this instead of the
alloced_length to limit the string to compare to.
Test case added.
MySQL handles the join syntax "JOIN ... USING( field1,
... )" and natural joins by building the same parse tree as
a corresponding join with an "ON t1.field1 = t2.field1 ..."
expression would produce. This parse tree was not cleaned up
properly in the following scenario. If a thread tries to
lock some tables and finds that the tables were dropped and
re-created while waiting for the lock, it cleans up column
references in the statement by means a per-statement free
list. But if the statement was part of a stored procedure,
column references on the stored procedure's free list
weren't cleaned up and thus contained pointers to freed
objects.
Fixed by adding a call to clean up the current prepared
statement's free list.
This is a backport from MySQL 5.1
Bug#53417 my_getwd() makes assumptions on the buffer sizes which not always hold true
The mysys library contains many functions for rewriting file paths. Most of these
functions makes implicit assumptions on the buffer sizes they write to. If a path is put
in my_realpath() it will propagate to my_getwd() which assumes that the buffer holding
the path name is greater than 2. This is not true in cases.
In the special case where a VARBIN_ITEM is passed as argument to the LOAD_FILE function
this can lead to a crash.
This patch fixes the issue by introduce more safe guards agaist buffer overruns.
Base Tables
The type inferrence of a view column caused the result to be
interpreted as the wrong type: DATE colums were interpreted
as TIME and TIME as DATETIME. This happened because view
columns are represented by Item_ref objects as opposed to
Item_field's. Item_ref had no method for retrieving a TIME
value and thus was forced to depend on the default
implementation for any expression, which caused the
expression to be evaluated as a string and then parsed into
a TIME/DATETIME value.
Fixed by letting Item_ref classes forward the request for a
TIME value to the referred Item - which is a field in this
case - this reads the TIME value directly without
conversion.
SunStudio
SunStudio compilers of late warn about methods that might hide
methods in base classes due to the use of overloading combined
with overriding. SunStudio also warns about variables defined
in local socpe or method arguments that have the same name as
a member attribute of the class.
This patch renames methods that might hide base class methods,
to make it easier both for humans and compilers to see what is
actually called. It also renames variables in local scope.
sql/field.cc:
Local scope variable or method argument same as class
attribute.
sql/item_cmpfunc.cc:
Local scope variable or method argument same as class
attribute.
sql/item_create.cc:
Renaming base class create() to create_func().
sql/item_create.h:
Renaming base class create() to create_func().
sql/protocol.cc:
Local scope variable or method argument same as class
attribute.
sql/sql_profile.cc:
Local scope variable or method argument same as class
attribute.
sql/sql_select.cc:
Local scope variable or method argument same as class
attribute.
sql/sql_yacc.yy:
Renaming base class create() to create_func().
storage/federated/ha_federated.cc:
Local scope variable or method argument same as class
attribute.
storage/myisammrg/ha_myisammrg.cc:
Local scope variable or method argument same as class
attribute.
The problem is that Item_direct_view_ref which is inherited
from Item_ident updates orig_table_name and table_name with
the same values. The fix is introduction of new constructor
into Item_ident and up which updates orig_table_name and
table_name separately.
mysql-test/r/metadata.result:
test case
mysql-test/t/metadata.test:
test case
sql/item.cc:
new constructor which updates
orig_table_name and table_name
separately.
sql/item.h:
new constructor which updates
orig_table_name and table_name
separately.
sql/table.cc:
used new constructor
Grouping by a subquery in a query with a distinct aggregate
function lead to a wrong result (wrong and unordered
grouping values).
There are two related problems:
1) The query like this:
SELECT (SELECT t1.a) aa, COUNT(DISTINCT b) c
FROM t1 GROUP BY aa
returned wrong result, because the outer reference "t1.a"
in the subquery was substituted with the Item_ref item.
The Item_ref item obtains data from the result_field object
that refreshes once after the end of each group. This data
is not applicable to filesort since filesort() doesn't care
about groups (and doesn't update result_field objects with
copy_fields() and so on). Also that data is not applicable
to group separation algorithm: end_send_group() checks every
record with test_if_group_changed() that evaluates Item_ref
items, but it refreshes those Item_ref-s only after the end
of group, that is a vicious circle and the grouped column
values in the output are shifted.
Fix: if
a) we grouping by a subquery and
b) that subquery has outer references to FROM list
of the grouping query,
then we substitute these outer references with
Item_direct_ref like references under aggregate
functions: Item_direct_ref obtains data directly
from the current record.
2) The query with a non-trivial grouping expression like:
SELECT (SELECT t1.a) aa, COUNT(DISTINCT b) c
FROM t1 GROUP BY aa+0
also returned wrong result, since JOIN::exec() substitutes
references to top-level aliases in SELECT list with Item_copy
caching items. Item_copy items have same refreshing policy
as Item_ref items, so the whole groping expression with
Item_copy inside returns wrong result in filesort() and
end_send_group().
Fix: include aliased items into GROUP BY item tree instead
of Item_ref references to them.
mysql-test/r/group_by.result:
Test case for bug #45640
mysql-test/t/group_by.test:
Test case for bug #45640
sql/item.cc:
Bug #45640: optimizer bug produces wrong results
Item_field::fix_fields() has been modified to resolve
aliases in GROUP BY item trees into aliased items instead
of Item_ref items.
sql/item.h:
Bug #45640: optimizer bug produces wrong results
- Item::find_item_processor() has been introduced.
- Item_ref::walk() has been modified to apply processors
to itself too (not only to referenced item).
sql/mysql_priv.h:
Bug #45640: optimizer bug produces wrong results
fix_inner_refs() has been modified to accept group_list
parameter.
sql/sql_lex.cc:
Bug #45640: optimizer bug produces wrong results
Initialization of st_select_lex::group_fix_field has
been added.
sql/sql_lex.h:
Bug #45640: optimizer bug produces wrong results
The st_select_lex::group_fix_field field has been introduced
to control alias resolution in Itef_fied::fix_fields.
sql/sql_select.cc:
Bug #45640: optimizer bug produces wrong results
- The fix_inner_refs function has been modified to treat
subquery outer references like outer fields under aggregate
functions, if they are included in GROUP BY item tree.
- The find_order_in_list function has been modified to
fix Item_field alias fields included in the GROUP BY item
trees in a special manner.
MySQL handles the join syntax "JOIN ... USING( field1,
... )" and natural joins by building the same parse tree as
a corresponding join with an "ON t1.field1 = t2.field1 ..."
expression would produce. This parse tree was not cleaned up
properly in the following scenario. If a thread tries to
lock some tables and finds that the tables were dropped and
re-created while waiting for the lock, it cleans up column
references in the statement by means a per-statement free
list. But if the statement was part of a stored procedure,
column references on the stored procedure's free list weren't
cleaned up and thus contained pointers to freed objects.
Fixed by adding a call to clean up the current prepared
statement's free list.
mysql-test/r/sp_sync.result:
Bug#48157: Test case
mysql-test/t/sp_sync.test:
Bug#48157: Test result
sql/item.h:
Bug#48157: Commented field.
sql/sql_parse.cc:
Bug#48157: Commented function.
sql/sql_update.cc:
Bug#48157: fix
Several problems fixed :
1. Non constant expressions in UNION ... ORDER BY were not correctly cleaned up
in st_select_lex_unit::cleanup() causing crashes in EXPLAIN EXTENDED because of
fields quoted by these expressions pointing to the already freed temporary table
used to calculate the UNION.
Fixed by correctly cleaning up expressions of any depth.
2. Subqueries in the order by part of UNION ... ORDER BY ... caused a crash in
EXPLAIN EXTENDED because of a transformation attempt made during EXPLAIN EXTENDED
execution. Fixed by not doing the transformation when in EXPLAIN.
3. Fulltext functions caused crash when in the ORDER BY part of an un-parenthesized
UNION that gets "promoted" to be valid for the whole union, e.g.
SELECT * FROM t1 UNION SELECT * FROM t2 ORDER BY MATCHES (a) AGAINST ('abc' IN BOOLEAN MODE).
This is a case that demonstrates a more general problem of parts of the query being
moved to another level. When doing such transformation late in the optimization run
when most of the flags about the contents of the query are already aggregated it's possible
to "split" the flags so that they correctly reflect the new queries after the transformation.
In specific the ST_SELECT_LEX::ftfunc_list is holding all the free text function for all the
parts of the second SELECT in the UNION and we don't know what part of that is in the ORDER BY
that we're to move to the UNION level and what part is about the other parts of the second SELECT.
Fixed by throwing and error when such statements are about to be processed by adding a check
for the presence of MATCH() inside the ORDER BY clause that's going to get promoted to UNION.
To workaround this new limitation one must parenthesize the UNION SELECTs and provide a real
global ORDER BY for the UNION outside of the parenthesis.
timestamp primary key
Since TIMESTAMP values are adjusted by the current time zone
settings in both numeric and string contexts, using any
expressions involving TIMESTAMP values as a
(sub)partitioning function leads to undeterministic behavior of
partitioned tables. The effect may vary depending on a storage
engine, it can be either incorrect data being retrieved or
stored, or an assertion failure. The root cause of this is the
fact that the calculated partition ID may differ from a
previously calculated ID for the same data due to timezone
adjustments of the partitioning expression value.
Fixed by disabling any expressions involving TIMESTAMP values
to be used in partitioning functions with the follwing two
exceptions:
1. Creating or altering into a partitioned table that violates
the above rule is not allowed, but opening existing such tables
results in a warning rather than an error so that such tables
could be fixed.
2. UNIX_TIMESTAMP() is the only way to get a
timezone-independent value from a TIMESTAMP column, because it
returns the internal representation (a time_t value) of a
TIMESTAMP argument verbatim. So UNIX_TIMESTAMP(timestamp_column)
is allowed and should be used to fix existing tables if one
wants to use TIMESTAMP columns with partitioning.
mysql-test/r/partition_bug18198.result:
Corrected the error.
mysql-test/r/partition_error.result:
Corrected error texts.
Added test cases for bug #42849.
mysql-test/t/partition_bug18198.test:
Corrected error code.
mysql-test/t/partition_error.test:
Corrected error codes.
Added test cases for bug #42849.
sql/item.h:
Added is_timezone_dependent_processor() to Item.
sql/item_func.h:
Added has_timestamp_args() and the implementation of
is_timezone_dependent_processor() for Item_func.
sql/item_timefunc.h:
Added is_timezone_dependent_processor() to
Item_func_unix_timestamp.
sql/share/errmsg.txt:
Renamed ER_CONST_EXPR_IN_PARTITION_FUNC_ERROR to
ER_WRONG_EXPR_IN_PARTITION_FUNC_ERROR to better reflect the
meaning. Adjusted the error message.
sql/sql_partition.cc:
Modified fix_fields_part_func() to walk through partitioning
expression tree with is_timezone_dependent_processor() and issue
a warning/error if it depends on the timezone settings.
Changed fix_fields_part_func() to a static function since it is
not used anywhere except sql_partition.cc
sql/sql_partition.h:
Removed the unneeded declaration of fix_fields_part_func()
since it is now a static function.
sql/sql_yacc.yy:
ER_CONST_EXPR_IN_PARTITION_FUNC_ERROR ->
ER_WRONG_EXPR_IN_PARTITION_FUNC_ERROR.
MySQL manual describes values of the YEAR(2) field type as follows:
values 00 - 69 mean 2000 - 2069 years and values 70 - 99 mean 1970 - 1999
years. MIN/MAX and comparison functions was comparing them as int values
thus producing wrong result.
Now the Arg_comparator class is extended with compare_year function which
performs correct comparison of the YEAR type.
The Item_sum_hybrid class now uses Item_cache and Arg_comparator objects to
correctly calculate its value.
To allow Arg_comparator to use func_name() function for Item_func and Item_sum
objects the func_name declaration is moved to the Item_result_field class.
A helper function is_owner_equal_func is added to the Arg_comparator class.
It checks whether the Arg_comparator object owner is the <=> function or not.
A helper function setup is added to the Item_sum_hybrid class. It sets up
cache item and comparator.
mysql-test/r/func_group.result:
Added a test case for the bug#43668.
mysql-test/t/func_group.test:
Added a test case for the bug#43668.
sql/item.cc:
Bug#43668: Wrong comparison and MIN/MAX for YEAR(2)
Now Item_cache_int returns the type of cached item.
sql/item.h:
Bug#43668: Wrong comparison and MIN/MAX for YEAR(2)
To allow Arg_comparator to use func_name() function for Item_func and Item_sum
objects the func_name declaration is moved to the Item_result_field class.
sql/item_cmpfunc.cc:
Bug#43668: Wrong comparison and MIN/MAX for YEAR(2)
The Arg_comparator class is extended with compare_year function which
performs correct comparison of the YEAR type.
sql/item_cmpfunc.h:
Bug#43668: Wrong comparison and MIN/MAX for YEAR(2)
The year_as_datetime variable is added to the Arg_comparator class.
It's set to TRUE when YEAR value should be converted to the
YYYY-00-00 00:00:00 format for correct YEAR-DATETIME comparison.
sql/item_geofunc.cc:
Bug#43668: Wrong comparison and MIN/MAX for YEAR(2)
Item_func_spatial_rel::val_int chenged to use Arg_comparator's string
buffers.
sql/item_subselect.h:
Bug#43668: Wrong comparison and MIN/MAX for YEAR(2)
Added an implementation of the virtual func_name function.
sql/item_sum.cc:
Bug#43668: Wrong comparison and MIN/MAX for YEAR(2)
The Item_sum_hybrid class now uses Item_cache and Arg_comparator objects to
correctly calculate its value.
A helper function setup is added to the Item_sum_hybrid class. It sets up
cache item and comparator.
sql/item_sum.h:
Bug#43668: Wrong comparison and MIN/MAX for YEAR(2)
The Item_sum_hybrid class now uses Item_cache and Arg_comparator objects to
correctly calculate its value.
Added an implementation of the virtual func_name function.
When values of different types are compared they're converted to a type that
allows correct comparison. This conversion is done for each comparison and
takes some time. When a constant is being compared it's possible to cache the
value after conversion to speedup comparison. In some cases (large dataset,
complex WHERE condition with many type conversions) query might be executed
7% faster.
A test case isn't provided because all changes are internal and isn't visible
outside.
The behavior of the Item_cache is changed to cache values on the first request
of cached value rather than at the moment of storing item to be cached.
A flag named value_cached is added to the Item_cache class. It's set to TRUE
when cache holds the value of the last stored item.
Function named cache_value() is added to the Item_cache class and derived classes.
This function actually caches the value of the saved item.
Item_cache_xxx::store functions now only store item to be cached and set
value_cached flag to FALSE.
Item_cache_xxx::val_xxx functions are changed to call cache_value function
prior to returning cached value if value_cached is FALSE.
The Arg_comparator::set_cmp_func function now calls cache_converted_constant
to cache constants if they need a type conversion.
The Item_cache::get_cache function is overloaded to allow setting of the
cache type.
The cache_converted_constant function is added to the Arg_comparator class.
It checks whether a value can and should be cached and if so caches it.
sql/item.cc:
Bug#34384: Slow down on constant conversion.
Function named cache_value() is added to the Item_cache class and derived classes.
This function actually caches the value of the saved item.
Item_cache_xxx::store functions now only store item to be cached and set
value_cached flag to FALSE.
Item_cache_xxx::val_xxx functions are changed to call cache_value function
prior to returning cached value if value_cached is FALSE.
The Item_cache::get_cache function is overloaded to allow setting of the
cache type.
sql/item.h:
Bug#34384: Slow down on constant conversion.
A flag named value_cached is added to the Item_cache class. It's set to TRUE
when we need to start caching values when the store method is called.
Function named cache_value() is added to the Item_cache class and derived classes.
sql/item_cmpfunc.cc:
Bug#34384: Slow down on constant conversion.
A helper function cache_converted_constant is added to the Arg_comparator class.
It checks whether a given item can and should be cached and caches it if so.
The Arg_comparator::set_cmp_func function now calls cache_converted_constant
to cache constants if they need a type conversion.
sql/item_cmpfunc.h:
Bug#34384: Slow down on constant conversion.
The cache_converted_constant function is added to the Arg_comparator class.
It checks whether a value can and should be cached and if so caches it.
sql/item_subselect.cc:
Bug#34384: Slow down on constant conversion.
Force immediate caching of subselect result.
sql/item_xmlfunc.cc:
Bug#34384: Slow down on constant conversion.
sql/sp_rcontext.cc:
Bug#34384: Slow down on constant conversion.
Force immediate caching of values of an SP CASE function.
When a query was using a DATE or DATETIME value formatted
using any other separator characters beside hyphen '-', a
query with a greater-or-equal '>=' condition matching only
the greatest value in an indexed column, the result was
empty if index range scan was employed.
The range optimizer got a new feature between 5.1.38 and
5.1.39 that changes a greater-or-equal condition to a
greater-than if the value matching that in the query was not
present in the table. But the value comparison function
compared the dates as strings instead of dates.
The bug was fixed by splitting the function
get_date_from_str in two: One part that parses and does
error checking. This function is now visible outside the
module. The old get_date_from_str now calls the new
function.
mysql-test/r/range.result:
Bug#47925: Test result
mysql-test/t/range.test:
Bug#47925: Test case
sql/item.cc:
Bug#47925: Fix + some edit on the comments
sql/item.h:
Bug#47925: Changed function signature
sql/item_cmpfunc.cc:
Bug#47925: Split function in two
sql/item_cmpfunc.h:
Bug#47925: Declaration of new function
sql/opt_range.cc:
Bug#47925: Added THD to function call
sql/time.cc:
Bug#47925: Added microsecond comparison
sql/opt_range.cc:
Removed duplicate code (if statement must have been duplicated during earlier merge).
sql/sql_partition.cc:
After mergeing bug#46362 and bug#20577, the NULL partition was also searched
when col = const, fixed by checking if = or range.
Problem was that the partition containing NULL values
was pruned away, since '2001-01-01' < '2001-02-00' but
TO_DAYS('2001-02-00') is NULL.
Added the NULL partition for RANGE/LIST partitioning on TO_DAYS()
function to be scanned too.
Also fixed a bug that added ALLOW_INVALID_DATES to sql_mode
(SELECT * FROM t WHERE date_col < '1999-99-99' on a RANGE/LIST
partitioned table would add it).
mysql-test/include/partition_date_range.inc:
Bug#20577: Partitions: use of to_days() function leads to selection failures
Added include file to decrease test code duplication
mysql-test/r/partition_pruning.result:
Bug#20577: Partitions: use of to_days() function leads to selection failures
Added test results
mysql-test/r/partition_range.result:
Bug#20577: Partitions: use of to_days() function leads to selection failures
Updated test result.
This fix adds the partition containing NULL values to
the list of partitions to be scanned.
mysql-test/t/partition_pruning.test:
Bug#20577: Partitions: use of to_days() function leads to selection failures
Added test case
sql/item.h:
Bug#20577: Partitions: use of to_days() function leads to selection failures
Added MONOTONIC_*INCREASE_NOT_NULL values to be used by TO_DAYS.
sql/item_timefunc.cc:
Bug#20577: Partitions: use of to_days() function leads to selection failures
Calculate the number of days as return value even for invalid dates.
This is so that pruning can be used even for invalid dates.
sql/opt_range.cc:
Bug#20577: Partitions: use of to_days() function leads to selection failures
Fixed a bug that added ALLOW_INVALID_DATES to sql_mode
(SELECT * FROM t WHERE date_col < '1999-99-99' on a RANGE/LIST
partitioned table would add it).
sql/partition_info.h:
Bug#20577: Partitions: use of to_days() function leads to selection failures
Resetting ret_null_part when a single partition is to be used, this
to avoid adding the NULL partition.
sql/sql_partition.cc:
Bug#20577: Partitions: use of to_days() function leads to selection failures
Always include the NULL partition if RANGE or LIST.
Use the returned value for the function for pruning, even if
it is marked as NULL, so that even '2000-00-00' can be
used for pruning, even if TO_DAYS('2000-00-00') is NULL.
Changed == to >= in get_next_partition_id_list to avoid
crash if part_iter->part_nums is not correctly setup.
There were a problem since pruning uses the field
for comparison (while evaluate_join_record uses longlong),
resulting in pruning failures when comparing DATE to DATETIME.
Fix was to always comparing DATE vs DATETIME as DATETIME,
by adding ' 00:00:00' to the DATE string.
And adding optimization for comparing with 23:59:59, so that
DATETIME_col > '2001-02-03 23:59:59' ->
TO_DAYS(DATETIME_col) > TO_DAYS('2001-02-03 23:59:59') instead
of '>='.
mysql-test/r/partition_pruning.result:
Bug#46362: Endpoint should be set to false for TO_DAYS(DATE)
Updated result-file
mysql-test/t/partition_pruning.test:
Bug#46362: Endpoint should be set to false for TO_DAYS(DATE)
Added testcases.
sql-common/my_time.c:
Bug#46362: Endpoint should be set to false for TO_DAYS(DATE)
removed duplicate assignment.
sql/item.cc:
Bug#46362: Endpoint should be set to false for TO_DAYS(DATE)
Changed field_is_equal_to_item into field_cmp_to_item, to
better handling DATE vs DATETIME comparision.
sql/item.h:
Bug#46362: Endpoint should be set to false for TO_DAYS(DATE)
Updated comment
sql/item_timefunc.cc:
Bug#46362: Endpoint should be set to false for TO_DAYS(DATE)
Added optimization (pruning) of DATETIME where time-part is
23:59:59
sql/opt_range.cc:
Bug#46362: Endpoint should be set to false for TO_DAYS(DATE)
Using the new stored_field_cmp_to_item for better pruning.
The problem was that creating a DECIMAL column from a decimal
value could lead to a failed assertion as decimal values can
have a higher precision than those attached to a table. The
assert could be triggered by creating a table from a decimal
with a large (> 30) scale. Also, there was a problem in
calculating the number of digits in the integral and fractional
parts if both exceeded the maximum number of digits permitted
by the new decimal type.
The solution is to ensure that truncation procedure is executed
when deducing a DECIMAL column from a decimal value of higher
precision. If the integer part is equal to or bigger than the
maximum precision for the DECIMAL type (65), the integer part
is truncated to fit and the fractional becomes zero. Otherwise,
the fractional part is truncated to fit into the space left
after the integer part is copied.
This patch borrows code and ideas from Martin Hansson's patch.
mysql-test/r/type_newdecimal.result:
Add test case result for Bug#45261. Also, update test case to
reflect that an additive operation increases the precision of
the resulting type by 1.
mysql-test/t/type_newdecimal.test:
Add test case for Bug#45261
sql/field.cc:
Added DBUG_ASSERT to ensure object's invariant is maintained.
Implement method to create a field to hold a decimal value
from an item.
sql/field.h:
Explain member variable. Add method to create a new decimal field.
sql/item.cc:
The precision should only be capped when storing the value
on a table. Also, this makes it impossible to calculate the
integer part if Item::decimals (the scale) is larger than the
precision.
sql/item.h:
Simplify calculation of integer part.
sql/item_cmpfunc.cc:
Do not limit the precision. It will be capped later.
sql/item_func.cc:
Use new method for allocating a new decimal field.
Add a specialized method for retrieving the precision
of a user variable item.
sql/item_func.h:
Add method to return the precision of a user variable.
sql/item_sum.cc:
Use new method for allocating a new decimal field.
sql/my_decimal.h:
The integer part could be improperly calculated for a decimal
with 31 digits in the fractional part.
sql/sql_select.cc:
Use new method which truncates the integer or decimal parts
as needed.
HAVING
When calculating GROUP BY the server caches some expressions. It does
that by allocating a string slot (Item_copy_string) and assigning the
value of the expression to it. This effectively means that the result
type of the expression can be changed from whatever it was to a string.
As this substitution takes place after the compile-time result type
calculation for IN but before the run-time type calculations,
it causes the type calculations in the IN function done at run time
to get unexpected results different from what was prepared at compile time.
In the CASE ... WHEN ... THEN ... statement there was a similar problem
and it was solved by artificially adding a STRING argument to the set of
types of the IN/CASE arguments at compile time, so if any of the
arguments of the CASE function changes its type to a string it will
still be covered by the information prepared at compile time.
mysql-test/include/mix1.inc:
Bug #44399: extended the test to cover the different types
mysql-test/r/func_in.result:
Bug #44399: test case
mysql-test/r/innodb_mysql.result:
Bug #44399: extended the test to cover the different types
mysql-test/t/func_in.test:
Bug #44399: test case
sql/item.cc:
Bug #44399: Implement typed caching for GROUP BY
sql/item.h:
Bug #44399: Implement typed caching for GROUP BY
sql/item_cmpfunc.cc:
Bug #44399: remove the special case
sql/sql_select.cc:
Bug #44399: Implement typed caching for GROUP BY
Original commentary:
Bug #37348: Crash in or immediately after JOIN::make_sum_func_list
The optimizer pulls up aggregate functions which should be aggregated in
an outer select. At some point it may substitute such a function for a field
in the temporary table. The setup_copy_fields function doesn't take this
into account and may overrun the copy_field buffer.
Fixed by filtering out the fields referenced through the specialized
reference for aggregates (Item_aggregate_ref).
Added an assertion to make sure bugs that cause similar discrepancy
don't go undetected.
mysql-test/r/func_group.result:
Backport bug #37348 fix 5.1 --> 5.0.
mysql-test/t/func_group.test:
Backport bug #37348 fix 5.1 --> 5.0.
sql/item.cc:
Backport bug #37348 fix 5.1 --> 5.0.
sql/item.h:
Backport bug #37348 fix 5.1 --> 5.0.
sql/sql_select.cc:
Backport bug #37348 fix 5.1 --> 5.0.
In case of ROW item each compared pair does not
check if argumet collations can be aggregated and
thus appropiriate item conversion does not happen.
The fix is to add the check and convertion for ROW
pairs.
mysql-test/r/row.result:
test result
mysql-test/t/row.test:
test case
sql/item.cc:
added agg_item_set_converter() function which was a part of
agg_item_charsets() func. The only difference is that
agg_item_set_converter() checks and converts items
using already known collation.
sql/item.h:
added agg_item_set_converter() function
sql/item_cmpfunc.cc:
In case of ROW item each compared pair does not
check if argumet collations can be aggregated and
thus appropiriate item conversion does not happen.
The fix is to add the check and convertion for ROW
pairs.
- Remove bothersome warning messages. This change focuses on the warnings
that are covered by the ignore file: support-files/compiler_warnings.supp.
- Strings are guaranteed to be max uint in length
IS NULL was not checking the correct row in a HAVING context.
At the first row of a new group (where the HAVING clause is evaluated)
the column and SELECT list references in the HAVING clause should
refer to the last row of the previous group and not to the current one.
This was not done for IS NULL, because it was using Item::is_null() doesn't
have a Item_is_null_result() counterpart to access the data from the
last row of the previous group. Note that all the Item::val_xxx() functions
(e.g. Item::val_int()) have their _result counterparts (e.g. Item::val_int_result()).
Fixed by implementing a is_null_result() (similarly to int_result()) and
calling this instead of is_null() column and SELECT list references inside
the HAVING clause.
mysql-test/r/having.result:
Bug #38637: test case
mysql-test/t/having.test:
Bug #38637: test case
sql/item.cc:
Bug #38637: implement Item::is_null_result() and call it
from Item_ref and Item_field as appropriate.
sql/item.h:
Bug #38637: implement Item::is_null_result() and call it
from Item_ref and Item_field as appropriate.
sql/item_func.cc:
Bug #38637: implement Item::is_null_result() and call it
from Item_ref and Item_field as appropriate.
sql/item_func.h:
Bug #38637: implement Item::is_null_result() and call it
from Item_ref and Item_field as appropriate.
The code to get read the value of a system variable was extracting its value
on PREPARE stage and was substituting the value (as a constant) into the parse tree.
Note that this must be a reversible transformation, i.e. it must be reversed before
each re-execution.
Unfortunately this cannot be reliably done using the current code, because there are
other non-reversible source tree transformations that can interfere with this
reversible transformation.
Fixed by not resolving the value at PREPARE, but at EXECUTE (as the rest of the
functions operate). Added a cache of the value (so that it's constant throughout
the execution of the query). Note that the cache also caches NULL values.
Updated an obsolete related test suite (variables-big) and the code to test the
result type of system variables (as per bug 74).
mysql-test/extra/rpl_tests/rpl_insert_id.test:
Bug #32124: removed ambiguous testcase
mysql-test/r/innodb_data_home_dir_basic.result:
Bug #32124: fixed wrong test case
mysql-test/r/innodb_flush_method_basic.result:
Bug #32124: fixed wrong test case
mysql-test/r/ps_11bugs.result:
Bug #32124: test case
mysql-test/r/ssl_capath_basic.result:
Bug #32124: fixed wrong test case
mysql-test/r/ssl_cipher_basic.result:
Bug #32124: fixed wrong test case
mysql-test/r/variables.result:
Bug #32124: system vars are shown as such in EXPLAIN EXTENDED, not as constants.
mysql-test/suite/rpl/r/rpl_insert_id.result:
Bug #32124: removed ambiguous testcase
mysql-test/t/ps_11bugs.test:
Bug #32124: test case
sql/item.cc:
Bug #32124: placed the code to convert string to longlong or double
to a function (so that it can be reused)
sql/item.h:
Bug #32124: placed the code to convert string to longlong or double
to a function (so that it can be reused)
sql/item_func.cc:
Bug #32124: moved the evaluation of system variables at runtime (val_xxx).
sql/item_func.h:
Bug #32124: moved the evaluation of system variables at runtime (val_xxx).
sql/set_var.cc:
Bug #32124: removed the code that calculated the system variable's value
at PREPARE
sql/set_var.h:
Bug #32124: removed the code that calculated the system variable's value
at PREPARE
tests/mysql_client_test.c:
Bug #32124 : removed the reading of the system variable, because its max
length is depended on the system charset and client charset and can't be
easily calculated.
The optimizer pulls up aggregate functions which should be aggregated in
an outer select. At some point it may substitute such a function for a field
in the temporary table. The setup_copy_fields function doesn't take this
into account and may overrun the copy_field buffer.
Fixed by filtering out the fields referenced through the specialized
reference for aggregates (Item_aggregate_ref).
Added an assertion to make sure bugs that cause similar discrepancy
don't go undetected.
mysql-test/r/func_group.result:
Bug #37348: test case
mysql-test/t/func_group.test:
Bug #37348: test case
sql/item.cc:
Bug #37348: Added a way to distinguish Item_aggregate_ref from the other types of refs
sql/item.h:
Bug #37348: Added a way to distinguish Item_aggregate_ref from the other types of refs
sql/sql_select.cc:
Bug #37348:
- Don't consider copying field references
seen through Item_aggregate_ref
- check for discrepancies between the number of expected
fields that need copying and the actual fields copied.
Length value is the length of the field,
Max_length is the length of the field value.
So Max_length can not be more than Length.
The fix: fixed calculation of the Item_empty_string item length
(Patch applied and queued on demand of Trudy/Davi.)
sql/item.h:
fixed calculation of the item length
sql/sql_show.cc:
removed unnecessary code
This fix is for 5.0 only : back porting the 6.0 patch manually
The parser code in sql/sql_yacc.yy needs to be more robust to out of
memory conditions, so that when parsing a query fails due to OOM,
the thread gracefully returns an error.
Before this fix, a new/alloc returning NULL could:
- cause a crash, if dereferencing the NULL pointer,
- produce a corrupted parsed tree, containing NULL nodes,
- alter the semantic of a query, by silently dropping token values or nodes
With this fix:
- C++ constructors are *not* executed with a NULL "this" pointer
when operator new fails.
This is achieved by declaring "operator new" with a "throw ()" clause,
so that a failed new gracefully returns NULL on OOM conditions.
- calls to new/alloc are tested for a NULL result,
- The thread diagnostic area is set to an error status when OOM occurs.
This ensures that a request failing in the server properly returns an
ER_OUT_OF_RESOURCES error to the client.
- OOM conditions cause the parser to stop immediately (MYSQL_YYABORT).
This prevents causing further crashes when using a partially built parsed
tree in further rules in the parser.
No test scripts are provided, since automating OOM failures is not
instrumented in the server.
Tested under the debugger, to verify that an error in alloc_root cause the
thread to returns gracefully all the way to the client application, with
an ER_OUT_OF_RESOURCES error.
