- FIND_PROGRAM (signtool) will now get a hint about location of signtool.exe (Windows SDK)
- Targets "package" or "msi" will now fail, l if signing is requested but does not work
(e.g invalid certificate)
- During install, do not re-sign binaries, if they are already signed.
- Preserve mysqld_error.h timestamp whenever possible. This helps avoiding situations
where the whole server is rebuilt, whenever comp_err.exe changes (for example after code
signing, or also after a minor fix in mysys)
- Fix Wix error in UpgradeVersion, if patch part of the version is 0.
Analysis:
A query with implicit grouping is one with aggregate functions and
no GROUP BY clause. MariaDB inherits from MySQL an SQL extenstion
that allows mixing aggregate functions with non-aggregate fields.
If a query with such mixed select clause produces an empty result
set, the meaning of aggregate functions is well defined - either
NULL (MIN, MAX, etc.), or 0 (count(*)). However the non-aggregated
fields must also have some value, and the only reasonable value in
the case of empty result is NULL.
The cause of the many wrong results was that if a field is declared
as non-nullable (e.g. because it is a PK or NOT NULL), the semantic
analysis and the optimization phases treat this field as non-nullable,
and generate all related query plan elements based on this assumption.
Later during execution, these incorrectly configured/generated query
plan elements result in a wrong result because the selected fields
are not null due to the not-null assumption during optimization.
Solution:
Detect before the context analysys phase that a query uses implicit
grouping with mixed aggregates/non-aggregates, and set all fields
as nullable. The parser already walks the SELECT clause, and
already sets Item::with_sum_func for Items that reference aggreagate
functions. The patch adds a symmetric Item::with_field so that all
Items that reference an Item_field are marked during their
construction at parse time in the same way as with aggregate function
use.
Changed test suite to use --log-basename (to get the code tested)
Added --sync-sys=1 to test suite to speed it up.
Better error messages if something goes wrong with mysql_install_db
mysql-test/Makefile.am:
Removed not existing directory
mysql-test/lib/My/ConfigFactory.pm:
Use log-basename
We had to also set 'log_error' as some test was explicitely using the old name
Added 'sync-sys=1' to speed up test suite
mysql-test/r/variables-notembedded.result:
Updated test results (variable relay_log is now set)
mysql-test/suite/binlog/t/binlog_delete_and_flush_index-master.opt:
Force specific names for some log files.
mysql-test/suite/binlog/t/binlog_index-master.opt:
Force specific names for some log files.
mysql-test/suite/binlog/t/binlog_stm_unsafe_warning-master.opt:
Force specific names for some log files.
mysql-test/suite/binlog/t/binlog_stm_unsafe_warning.test:
Better error message if something goes wrong
mysql-test/suite/rpl/r/rpl_flushlog_loop.result:
Updated results
mysql-test/suite/rpl/rpl_1slave_base.cnf:
Use --log-basename
scripts/mysql_install_db.sh:
More information to --help
Write url to knowledge base if something goes wrong
Fail at once if we can't create a database directory (no reason to continue and write a screenful of not related text)
scripts/mysqld_safe.sh:
Also allow one to use --data for --datadir (common shortening)
Added support for --log-basename
Fail at once if we can't create a log directory
Fixed bug where we used a pid file name without '.pid' extension
sql/log.cc:
Create a log file name trough my_once_alloc() (To get it automaticly freed at exit)
sql/mysql_priv.h:
Added new prototype
sql/mysqld.cc:
Added support for --log-basename
Better help for a lot of log-filename related variables.
sql/rpl_rli.cc:
Write information that one can use --log-basename
sql/set_var.cc:
Add log_basename as a readonly variable
The mysqld server and all clients now reads the new client-server section
Fixed that mysqldumpslow supports new slow log formats and new mysqld --slow- options
client/mysql.cc:
Read also client-server and client-mariadb sections.
client/mysql_upgrade.c:
Read also client-server and client-mariadb sections.
client/mysqladmin.cc:
Read also client-server and client-mariadb sections.
client/mysqlbinlog.cc:
Read also client-server and client-mariadb sections.
client/mysqlcheck.c:
Read also client-server and client-mariadb sections.
client/mysqldump.c:
Read also client-server and client-mariadb sections.
client/mysqlimport.c:
Read also client-server and client-mariadb sections.
client/mysqlshow.c:
Read also client-server and client-mariadb sections.
client/mysqltest.cc:
Read also client-server and client-mariadb sections.
extra/my_print_defaults.c:
Updated help text
scripts/mysql_fix_privilege_tables.sh:
Read also sections client client-server client-mariadb
scripts/mysql_install_db.pl.in:
Also allow --data=* option
Read also groups mariadb, server and client-server.
scripts/mysql_install_db.sh:
Also allow --data=* option
Read also groups mariadb, server and client-server.
Added --lose-skip-pbxt to bootstrap
scripts/mysql_secure_installation.sh:
Read also groups client-server and client-mariadb
scripts/mysqld_multi.sh:
Read also group mariadb
scripts/mysqld_safe.sh:
Read also groups mariadb server and client-server
scripts/mysqldumpslow.sh:
Fixed to support new slow log formats
Added sorting on -ae (aggregated number of retreived rows) and e (retrieved rows)
Read also group 'mariadb'
If there is many instances of same option, use last one.
Get slow log file from options log-slow-queries=filename or query-log-file=filename
Added support for future --log-basename option
sql-common/client.c:
Read also groups 'client-server' and 'client-mariadb'
tests/mysql_client_test.c:
Read also groups 'client-server' and 'client-mariadb'
tests/thread_test.c:
Read also groups 'client-server' and 'client-mariadb'
Analysis (BUG#719198):
The assert failed because the execution code for
partial matching is designed with the assumption that
NULLs on the left side are detected as early as possible,
and a NULL result is returned before any lookups are
performed at all.
However, in the case of an Item_cache object on the left
side, null was not detected properly, because detection
was done via Item::is_null(), which is not implemented at
all for Item_cache, and resolved to the default Item::is_null()
which always returns FALSE.
Solution:
Imlpement Item::is_null().
******
Analysis (BUG#730604):
The method Item_field::is_null() determines if an item is NULL from its
Item_field::field object. However, for Item_fields that represent internal
temporary tables, Item_field::field represents the field of the original
table that was the source for the temporary table (in this case t1.f3).
Both in the committed test case, and in the original bug report the current
value of t1.f3 is not NULL. This results in an incorrect count of NULLs
for this column. As a consequence, all related Ordered_key buffers are
allocated with incorrect sizes. Depending on the exact query and data,
these incorrect sizes result in various crashes or failed asserts.
Solution:
The correct value of the current field of the internal temp table is
in Item_field::result_field. This value is determined by
Item::is_null_result().
This allows us to simplify and speed up some tests and also remove get_cached_item()
sql/item.h:
Added item.real_type()
Removed get_cached_item()
sql/opt_range.cc:
Simplify test
sql/sql_select.cc:
Simplify test
sql/sql_show.cc:
Simplify test
Analysis:
The assert failed because the execution code for
partial matching is designed with the assumption that
NULLs on the left side are detected as early as possible,
and a NULL result is returned before any lookups are
performed at all.
However, in the case of an Item_cache object on the left
side, null was not detected properly, because detection
was done via Item::is_null(), which is not implemented at
all for Item_cache, and resolved to the default Item::is_null()
which always returns FALSE.
Solution:
Use the property Item::null_value instead of is_null(), which
is properly updated for Item_cache objects as well.
If join condition is of the form <t2.key>=<t1.no_key> then the server
performs no index look-ups when looking for matching rows of t2 for
the rows from t1 with t1.no_key=NULL. It happens because the function
add_not_null_conds() injects an additional condition of the form
IS NOT NULL(<t1.no_key>) into the WHERE condition.
However if the join condition was of the form <t.key>=<outer_ref> no
additional null rejecting predicate was generated. This could lead
to extra records in the result set if the value of <outer_ref> happened
to be NULL.
The new code injects null rejecting predicates of the form
IS NOT NULL(<outer_ref>) and evaluates them before the first row
the subquery is constructed.
- put the code that sets HA_NULL_PART bit back
- Fix test_if_ref/part_of_refkey() so that
= NULL-ability of lookup columns does not prevent the equality
from being removed (we now have early/late NULLs filtering which
will filter out NULL values)
= equality is not removed if it is ref_or_null access, and the value
of the lookup column can alternate between the lookup value and NULL.
The bug was a result of the fix for bug 668644 that turned out to be
not quite correct. A problem appeared with HAVING conditions containing
more than one predicate. If a query with an ORDER BY clause uses
such HAVING condition and the required order can be obtained with
a range/index scan then the HAVING condition has to be pushed into
two different formulas (items). To be able to do it we have to create
a copy of the ANDOR structure of the pushed condition.
- The problem was that Mrr_ordered_index_reader's interrupt_read() and resume_read() would
save and restore 1) index tuple 2) the rowid (as bytes returned by handler->position()). Clustered
primary key columns were not saved/restored.
They are not explicitly present in the index tuple (i.e. table->key_info[secondary_key].key_parts
doesn't list them), but they are actually there, in particular
table->field[clustered_primary_key_member].part_of_key(secondary_key) == 1. Index condition pushdown
code [correctly] uses the latter as inidication that pushed index condition can refer to clustered PK
members.
The fix was to make interrupt_read()/resume_read() to save/restore clustered primary key members as well,
so that we get correct values for them when evaluating pushed index condition.
[3rd attempt: remove the debugging aids, fix comments in testcase]
Analysis:
The reason for the crash was that the inner subquery was executed
via a scan on a final temporary table applied after all other
operations. This final operation is implemented by changing the
contents of the JOIN object of the subquery to represent a table
scan over the temp table. At the same time query optimization of
the outer subquery required evaluation of the inner subquery, which
happened before the actual EXPLAIN. The evaluation left the JOIN
object of the inner subquery in the changed state, where it represented
a table scan over a temp table, and EXPLAIN crashed because the temp
table is not associated with any table reference (TABLE_LIST object).
The reason the JOIN was not restored was because its saving/restoration
was controlled by the join->select_lex->uncacheable flag, which was
not set in the case of materialization.
Solution:
In the methods Item_in_subselect::[single | row]_value_transformer() set:
select_lex->uncacheable|= UNCACHEABLE_EXPLAIN;
In addition, for symmetry, change:
master_unit->uncacheable|= UNCACHEABLE_EXPLAIN;
instead of UNCACHEABLE_DEPENDENT because if a subquery was not
dependent initially, the changed methods do not change this
fact. The subquery may later become correlated if it is transformed
to an EXISTS query, but it may stay uncorrelated if executed via
materialization.
