- 26 Mar, 2013 2 commits
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Alexey Botchkov authored
The get_mbr() method shouldn't return the error, rather an invalid MBR in this case.
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unknown authored
Fixed printing column_get finction.
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- 22 Mar, 2013 1 commit
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Alexey Botchkov authored
The Geometry::get_mbr() function can return an error on a bad data. We have to check for that and act respectively.
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- 21 Mar, 2013 2 commits
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Sergey Petrunya authored
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Sergey Petrunya authored
- Set MI_INFO::external_ref for MyISAM tables that are parts of myisamMRG table.
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- 20 Mar, 2013 1 commit
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Sergei Golubchik authored
MDEV-4293 Valgrind warnings (Conditional jump or move depends on uninitialised value) in remove_eq_conds on time functions with NULL argument val_int() is expected to return 0 for NULL's
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- 18 Mar, 2013 1 commit
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Sergei Golubchik authored
with decimals=NOT_FIXED_DEC it is possible to have 'decimals' larger than 'max_length', it's not an error for temporal functions. But when Item_func_numhybrid converts the value to DECIMAL_RESULT, it must limit 'decimals' to be a valid scale of a decimal number.
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- 17 Mar, 2013 2 commits
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Sergei Golubchik authored
AVG() returns a double, its max_length is reasonably limited by a double number length, even if the argument is many Kbytes long.
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Sergei Golubchik authored
MDEV-4281 Assertion `maybe_null && item->null_value' fails in make_sortkey on CASE with different return types, GROUP_CONCAT, GROUP BY Fix Item::get_date() to mark the item NULL when returning an error.
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- 08 Mar, 2013 1 commit
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Igor Babaev authored
This is a bug in the legacy code. It did not manifest itself because it was masked by other bugs that were fixed by the patches for mdev-4172 and mdev-4177.
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- 06 Mar, 2013 2 commits
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Vladislav Vaintroub authored
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unknown authored
Field_enum incorrectly inherited decimals() from Field_string. Field_enum should be always integer in numeric context.
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- 01 Mar, 2013 2 commits
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Sergey Petrunya authored
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Igor Babaev authored
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- 28 Feb, 2013 7 commits
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Igor Babaev authored
Do not include BLOB fields into the key to access the temporary table created for a materialized view/derived table. BLOB components are not allowed in keys.
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Sergei Golubchik authored
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Sergei Golubchik authored
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Igor Babaev authored
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Sergei Golubchik authored
MySQL Bug #12408412: GROUP_CONCAT + ORDER BY + INPUT/OUTPUT SAME USER VARIABLE = CRASH and MySQL Bug#14664077 SEVERE PERFORMANCE DEGRADATION IN SOME CASES WHEN USER VARIABLES ARE USED sql/item_func.cc: don't use anything from Item_func_set_user_var::fix_fields() in Item_func_set_user_var::save_item_result() sql/sql_class.cc: Call suv->save_item_result(item) *before* doing suv->fix_fields(), because the former evaluates the item (and caches its value), while the latter marks the user variable as non-const. The problem is that the item was fix_field'ed when the user variable was const, and it doesn't expect it to change to non-const in the middle of the execution.
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Michael Widenius authored
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Sergei Golubchik authored
mysys/errors.c: revert upstream's fix. use a much simpler one mysys/my_write.c: revert upstream's fix. use a simpler one sql/item_xmlfunc.cc: useless, but ok sql/mysqld.cc: simplify upstream's fix storage/heap/hp_delete.c: remove upstream's fix. we'll use a much less expensive approach.
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- 26 Feb, 2013 1 commit
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Vladislav Vaintroub authored
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- 25 Feb, 2013 1 commit
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Igor Babaev authored
The function remove_eq_cond removes the parts of a disjunction for which it has been proved that they are always true. In the result of this removal the disjunction may be converted into a formula without OR that must be merged into the the AND formula that contains the disjunction. The merging of two AND conditions must take into account the multiple equalities that may be part of each of them. These multiple equality must be merged and become part of the and object built as the result of the merge of the AND conditions. Erroneously the function remove_eq_cond lacked the code that would merge multiple equalities of the merged AND conditions. This could lead to confusing situations when at the same AND level there were two multiple equalities with common members and the list of equal items contained only some of these multiple equalities. This, in its turn, could lead to an incorrect work of the function substitute_for_best_equal_field when it tried to optimize ref accesses. This resulted in forming invalid TABLE_REF objects that were used to build look-up keys when materialized subqueries were exploited.
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- 22 Feb, 2013 1 commit
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Igor Babaev authored
This bug in the legacy code could manifest itself in queries with semi-join materialized subqueries. When a subquery is materialized all conditions that are imposed only on the columns belonging to the tables from the subquery are taken into account.The code responsible for subquery optimizations that employes subquery materialization makes sure to remove these conditions from the WHERE conditions of the query obtained after it has transformed the original query into a query with a semi-join. If the condition to be removed is an equality condition it could be added to ON expressions and/or conditions from disjunctive branches (parts of OR conditions) in an attempt to generate better access keys to the tables of the query. Such equalities are supposed to be removed later from all the formulas where they have been added to. However, erroneously, this was not done in some cases when an ON expression and/or a disjunctive part of the OR condition could be converted into one multiple equality. As a result some equality predicates over columns belonging to the tables of the materialized subquery remained in the ON condition and/or the a disjunctive part of the OR condition, and the excuter later, when trying to evaluate them, returned wrong answers as the values of the fields from these equalities were not valid. This happened because any standalone multiple equality (a multiple equality that are not ANDed with any other predicates) lacked the information about equality predicates inherited from upper levels (in particular, inherited from the WHERE condition). The fix adds a reference to such information to any standalone multiple equality.
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- 21 Feb, 2013 3 commits
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Vladislav Vaintroub authored
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Igor Babaev authored
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Igor Babaev authored
The wrong result set returned by the left join query from the bug test case happened due to several inconsistencies and bugs of the legacy mysql code. The bug test case uses an execution plan that employs a scan of a materialized IN subquery from the WHERE condition. When materializing such an IN- subquery the optimizer injects additional equalities into the WHERE clause. These equalities express the constraints imposed by the subquery predicate. The injected equality of the query in the test case happens to belong to the same equality class, and a new equality imposing a condition on the rows of the materialized subquery is inferred from this class. Simultaneously the multiple equality is added to the ON expression of the LEFT JOIN used in the main query. The inferred equality of the form f1=f2 is taken into account when optimizing the scan of the rows the temporary table that is the result of the subquery materialization: only the values of the field f1 are read from the table into the record buffer. Meanwhile the inferred equality is removed from the WHERE conditions altogether as a constraint on the fields of the temporary table that has been used when filling this table. This equality is supposed to be removed from the ON expression when the multiple equalities of the ON expression are converted into an optimal set of equality predicates. It supposed to be removed from the ON expression as an equality inferred from only equalities of the WHERE condition. Yet, it did not happened due to the following bug in the code. Erroneously the code tried to build multiple equality for ON expression twice: the first time, when it called optimize_cond() for the WHERE condition, the second time, when it called this function for the HAVING condition. When executing optimize_con() for the WHERE condition a reference to the multiple equality of the WHERE condition is set in the multiple equality of the ON expression. This reference would allow later to convert multiple equalities of the ON expression into equality predicates. However the the second call of build_equal_items() for the ON expression that happened when optimize_cond() was called for the HAVING condition reset this reference to NULL. This bug fix blocks calling build_equal_items() for ON expressions for the second time. In general, it will be beneficial for many queries as it removes from ON expressions any equalities that are to be checked for the WHERE condition. The patch also fixes two bugs in the list manipulation operations and a bug in the function substitute_for_best_equal_field() that resulted in passing wrong reference to the multiple equalities of where conditions when processing multiple equalities of ON expressions. The code of substitute_for_best_equal_field() and the code the helper function eliminate_item_equal() were also streamlined and cleaned up. Now the conversion of the multiple equalities into an optimal set of equality predicates first produces the sequence of the all equalities processing multiple equalities one by one, and, only after this, it inserts the equalities at the beginning of the other conditions. The multiple changes in the output of EXPLAIN EXTENDED are mainly the result of this streamlining, but in some cases is the result of the removal of unneeded equalities from ON expressions. In some test cases this removal were reflected in the output of EXPLAIN resulted in disappearance of “Using where” in some rows of the execution plans.
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- 14 Feb, 2013 1 commit
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Elena Stepanova authored
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- 13 Feb, 2013 1 commit
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unknown authored
Analysis: Range analysis detects that the subquery is expensive and doesn't build a range access method. Later, the applicability test for loose scan doesn't take that into account, and builds a loose scan method without a range scan on the min/max column. As a result loose scan fetches the first key in each group, rather than the first key that satisfies the condition on the min/max column. Solution: Since there is no SEL_ARG tree to be used for the min/max column, it is not possible to use loose scan if the min/max column is compared with an expensive scalar subquery. Make the test for loose scan applicability to be in sync with the range analysis code by testing if the min/max argument is compared with an expensive predicate.
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- 12 Feb, 2013 1 commit
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Igor Babaev authored
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- 11 Feb, 2013 1 commit
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unknown authored
Missed update_used_tables() call for multi-update values.
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- 08 Feb, 2013 1 commit
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Igor Babaev authored
This bug happened because the executor tried to use a wrong TABLE REF object when building access keys. It constructed keys from fields of a materialized table from a ref object created to construct keys from the fields of the underlying base table. This could happen only when materialized table was created for a non-correlated IN subquery and only when the materialized table used for lookups. In this case we are guaranteed to be able to construct the keys from the fields of tables that would be outer tables for the tables of the IN subquery. The patch makes sure that no ref objects constructed from fields of materialized lookup tables are to be used.
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- 04 Feb, 2013 1 commit
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unknown authored
Analys: The cause for the wrong result was that the optimizer incorrectly chose min/max loose scan when it is not applicable. The applicability test missed the case when a condition on the MIN/MAX argument was OR-ed with a condition on some other field. In this case, the MIN/MAX condition cannot be used for loose scan. Solution: Extend the test check_group_min_max_predicates() to check that the WHERE clause is of the form: "cond1 AND cond2" where cond1 - does not use min_max_column at all. cond2 - is an AND/OR tree with leaves in form "min_max_column $CMP$ const" or $CMP$ is one of the functions between, is [not] null
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- 31 Jan, 2013 1 commit
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unknown authored
Analysis: Range analysis discoveres that the query can be executed via loose index scan for GROUP BY. Later, GROUP BY analysis fails to confirm that the GROUP operation can be computed via an index because there is no logic to handle duplicate field references in the GROUP clause. As a result the optimizer produces an inconsistent plan. It constructs a temporary table, but on the other hand the group fields are not set to point there. Solution: Make loose scan analysis work in sync with order by analysis. In the case of duplicate columns loose scan will not be applicable. This limitation will be lifted in 10.0 by removing duplicate columns.
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- 28 Jan, 2013 2 commits
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Sergei Golubchik authored
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Sergei Golubchik authored
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- 26 Jan, 2013 1 commit
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Sergei Golubchik authored
MDEV-3875 Wrong result (missing row) on a DISTINCT query with the same subquery in the SELECT list and GROUP BY fix remove_dup_with_hash_index() and remove_dup_with_compare() to take NULLs into account
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- 25 Jan, 2013 3 commits
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Sergei Golubchik authored
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unknown authored
reached by fix_fields() (via reference) before row which it belongs to (on the second execution) and fix_field for row did not follow usual protocol for Items with argument (first check that the item fixed then call fix_fields). Item_row::fix_field fixed.
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Sergei Golubchik authored
MDEV-729 lp:998028 - Server crashes on normal shutdown in closefrm after executing a query from MyISAM table don't write a key value into the record buffer - a key length can be larger then the record length.
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