This follows up commit
commit 94a520ddbe and
commit 7c5519c12d.
After these changes, the default test suites on a
cmake -DWITH_UBSAN=ON build no longer fail due to passing
null pointers as parameters that are declared to never be null,
but plenty of other runtime errors remain.
Problem:
Queries like this showed performance degratation in 10.4 over 10.3:
SELECT temporal_literal FROM t1;
SELECT temporal_literal + 1 FROM t1;
SELECT COUNT(*) FROM t1 WHERE temporal_column = temporal_literal;
SELECT COUNT(*) FROM t1 WHERE temporal_column = string_literal;
Fix:
Replacing the universal member "MYSQL_TIME cached_time" in
Item_temporal_literal to data type specific containers:
- Date in Item_date_literal
- Time in Item_time_literal
- Datetime in Item_datetime_literal
This restores the performance, and make it even better in some cases.
See benchmark results in MDEV.
Also, this change makes futher separations of Date, Time, Datetime
from each other, which will make it possible not to derive them from
a too heavy (40 bytes) MYSQL_TIME, and replace them to smaller data
type specific containers.
Implementing methods:
- Field::val_time_packed()
- Field::val_datetime_packed()
- Item_field::val_datetime_packed(THD *thd);
- Item_field::val_time_packed(THD *thd);
to give a faster access to temporal packed longlong representation of a Field,
which is used in temporal Arg_comparator's to DATE, TIME, DATETIME data types.
The same idea is used in MySQL-5.6+.
This improves performance.
Problem:
When calculatung MIN() and MAX() in a query with GROUP BY, like this:
SELECT MIN(time_expr), MAX(time_expr) FROM t1 GROUP BY i;
the code in Item_sum_min_max::update_field() erroneosly used
string format comparison, therefore '100:20:30' was considered as
smaller than '10:20:30'.
Fix:
1. Implementing low level "native" related methods in class Time:
Time::Time(const Native &native) - convert native to Time
Time::to_native(Native *to, uint decimals) - convert Time to native
The "native" binary representation for TIME is equal to
the binary data format of Field_timef, which is used to
store TIME when mysql56_temporal_format is ON (default).
2. Implementing Type_handler_time_common "native" related methods:
Type_handler_time_common::cmp_native()
Type_handler_time_common::Item_val_native_with_conversion()
Type_handler_time_common::Item_val_native_with_conversion_result()
Type_handler_time_common::Item_param_val_native()
3. Implementing missing "native representation" related methods
in Field_time and Field_timef:
Field_time::store_native()
Field_time::val_native()
Field_timef::store_native()
Field_timef::val_native()
4. Implementing missing "native" related methods in all Items
that can have the TIME data type:
Item_timefunc::val_native()
Item_name_const::val_native()
Item_time_literal::val_native()
Item_cache_time::val_native()
Item_handled_func::val_native()
5. Marking Type_handler_time_common as "native ready".
So now Item_sum_min_max::update_field() calculates
values using min_max_update_native_field(),
which uses native binary representation rather than string representation.
Before this change, only the TIMESTAMP data type used native
representation to calculate MIN() and MAX().
Benchmarks (see more details in MDEV):
This change not only fixes the wrong result, but also
makes a "SELECT .. MAX.. GROUP BY .." query faster:
# TIME(0)
CREATE TABLE t1 (id INT, time_col TIME) ENGINE=HEAP;
INSERT INTO t1 VALUES (1,'10:10:10'); -- repeat this 1m times
SELECT id, MAX(time_col) FROM t1 GROUP BY id;
MySQL80: 0.159 sec
10.3: 0.108 sec
10.4: 0.094 sec (fixed)
# TIME(6):
CREATE TABLE t1 (id INT, time_col TIME(6)) ENGINE=HEAP;
INSERT INTO t1 VALUES (1,'10:10:10.999999'); -- repeat this 1m times
SELECT id, MAX(time_col) FROM t1 GROUP BY id;
My80: 0.154
10.3: 0.135
10.4: 0.093 (fixed)
An alternative implementation (replacing the one based on repertoire).
This implementation makes Field send itself to Protocol_text using
data type specific Protocol methods rather than field->val_str()
followed by protocol_text->store_str().
As now Field sends itself in the same way to all protocol types
(e.g. Protocol_binary, Protocol_text, Protocol_local),
the method Field::send_binary() was renamed just to Field::send().
Note, this change introduces symmetry between Field and Item,
because Items also send themself using a single method Item::send(),
which is used for *all* protocol types.
Performance improvement is achieved by the fact that Protocol_text
implements these data type specific methods using store_numeric_string_aux()
rather than store_string_aux(). The conversion now happens only when
character_set_results is not ASCII compatible character sets
(e.g. UCS2, UTF16, UTF32).
In the old code (before any MDEV-23162 work, e.g. as of 10.5.4),
Protocol_text::store(Field*) used val_str() for all data types.
So the execution went through the character set conversion routines
even for numeric and temporal data types.
Benchmarking summary (see details in MDEV-23478):
The new approach stably demonstrates additional improvement comparing
to the previous implementation (the smaller time - the better):
Original - the commit before MDEV-23162
be98036f25
1m9.336s
1m9.290s
1m9.300s
MDEV-23162 - the repertoire optimization
1m6.101s
1m5.988s
1m6.264s
MDEV-23478 - this commit
1m2.150s
1m2.079s
1m2.099s
and
MDEV-23414 Assertion `res->charset() == item->collation.collation' failed in Type_handler_string_result::make_packed_sort_key_part
pack_sort_string() *must* take a collation from the Item, not from the
String value. Because when casting a string to _binary the original
String is not copied for performance reasons, it's reused but its
collation does not match Item's collation anymore.
Note, that String's collation cannot be simply changed to _binary,
because for an Item_string literal the original String must stay
unchanged for the duration of the query.
this partially reverts 61c15ebe32
- Adding optional qualifiers to data types:
CREATE TABLE t1 (a schema.DATE);
Qualifiers now work only for three pre-defined schemas:
mariadb_schema
oracle_schema
maxdb_schema
These schemas are virtual (hard-coded) for now, but may turn into real
databases on disk in the future.
- mariadb_schema.TYPE now always resolves to a true MariaDB data
type TYPE without sql_mode specific translations.
- oracle_schema.DATE translates to MariaDB DATETIME.
- maxdb_schema.TIMESTAMP translates to MariaDB DATETIME.
- Fixing SHOW CREATE TABLE to use a qualifier for a data type TYPE
if the current sql_mode translates TYPE to something else.
The above changes fix the reported problem, so this script:
SET sql_mode=ORACLE;
CREATE TABLE t2 AS SELECT mariadb_date_column FROM t1;
is now replicated as:
SET sql_mode=ORACLE;
CREATE TABLE t2 (mariadb_date_column mariadb_schema.DATE);
and the slave can unambiguously treat DATE as the true MariaDB DATE
without ORACLE specific translation to DATETIME.
Similar,
SET sql_mode=MAXDB;
CREATE TABLE t2 AS SELECT mariadb_timestamp_column FROM t1;
is now replicated as:
SET sql_mode=MAXDB;
CREATE TABLE t2 (mariadb_timestamp_column mariadb_schema.TIMESTAMP);
so the slave treats TIMESTAMP as the true MariaDB TIMESTAMP
without MAXDB specific translation to DATETIME.
Fix prefix key comparison in partitioning. Comparions must
take into account no more than prefix_len characters.
It used to compare prefix_len*mbmaxlen bytes.
- Better to use 'String *' directly.
- Added String::get_value(LEX_STRING*) for the few cases where we want to
convert a String to LEX_CSTRING.
Other things:
- Use StringBuffer for some functions to avoid mallocs
- Some of the bug fixes are backports from 10.5!
- The fix in innobase/fil/fil0fil.cc is just a backport to get less
error messages in mysqld.1.err when running with valgrind.
- Renamed HAVE_valgrind_or_MSAN to HAVE_valgrind
When using field_conv(), which is called in case of field1=field2 copy in
fill_records(), full varstring's was copied, including unitialized bytes.
This caused valgrind to compilain about usage of unitialized bytes when
using Aria static length records.
Fixed by not using memcpy when copying varstrings but instead just copy
the real bytes.
CHECK constraint is checked by check_expression() which walks its
items and gets into Item_field::check_vcol_func_processor() to check
for conformity with foreign key list.
WITHOUT OVERLAPS is checked for same conformity in
mysql_prepare_create_table().
Long uniques are already impossible with InnoDB foreign keys. See
ER_CANT_CREATE_TABLE in test case.
2 accompanying bugs fixed (test main.constraints failed):
1. check->name.str lived on SP execute mem_root while "check" obj
itself lives on SP main mem_root. On second SP execute check->name.str
had garbage data. Fixed by allocating from thd->stmt_arena->mem_root
which is SP main mem_root.
2. CHECK_CONSTRAINT_IF_NOT_EXISTS value was mixed with
VCOL_FIELD_REF. VCOL_FIELD_REF is assigned in check_expression() and
then detected as CHECK_CONSTRAINT_IF_NOT_EXISTS in
handle_if_exists_options().
Existing cases for MDEV-16932 in main.constraints cover both fixes.
When processing a condition like:
WHERE timestamp_column='2010-00-01 00:00:00'
don't replace the constant to Item_datetime_literal if the constant
it has zeros (in the month or in the day).
For DECIMAL[(M[,D])] datatype max_sort_length was not being honoured which was leading to buffer
overflow while making the sort key. The fix to this problem would be to create sort keys for decimals
with atmost max_sort_key bytes
Important:
The minimum value of max_sort_length has been raised to 8 (previously was 4),
so fixed size datatypes like DOUBLE and BIGINIT are not truncated for
lower values of max_sort_length.
For field with type INET, during EITS collection the min and max values are store in text
representation in the statistical table.
While retrieving the value from the statistical table, the value is stored back in the original
field using binary form instead of text and this was resulting in the crash.
Introduced 2 functions in the Field structure:
1) store_to_statistical_minmax_field
2) store_from_statistical_minmax_field
Respect system fields in NO_ZERO_DATE mode.
This is the subject for refactoring in MDEV-19597
Conflict resolution from 7d5223310789f967106d86ce193ef31b315ecff0
