------------------------------------------------------------
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.
------------------------------------------------------------
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.
------------------------------------------------------------
revno: 2572.2.1
revision-id: sp1r-davi@mysql.com/endora.local-20080227225948-16317
parent: sp1r-anozdrin/alik@quad.-20080226165712-10409
committer: davi@mysql.com/endora.local
timestamp: Wed 2008-02-27 19:59:48 -0300
message:
Bug#27525 table not found when using multi-table-deletes with aliases over several databas
Bug#30234 Unexpected behavior using DELETE with AS and USING
The multi-delete statement has a documented limitation that
cross-database multiple-table deletes using aliases are not
supported because it fails to find the tables by alias if it
belongs to a different database. The problem is that when
building the list of tables to delete from, if a database
name is not specified (maybe an alias) it defaults to the
name of the current selected database, making impossible to
to properly resolve tables by alias later. Another problem
is a inconsistency of the multiple table delete syntax that
permits ambiguities in a delete statement (aliases that refer
to multiple different tables or vice-versa).
The first step for a solution and proper implementation of
the cross-databse multiple table delete is to get rid of any
ambiguities in a multiple table statement. Currently, the parser
is accepting multiple table delete statements that have no obvious
meaning, such as:
DELETE a1 FROM db1.t1 AS a1, db2.t2 AS a1;
DELETE a1 AS a1 FROM db1.t1 AS a1, db2.t2 AS a1;
The solution is to resolve the left part of a delete statement
using the right part, if the a table on right has an alias,
it must be referenced in the left using the given alias. Also,
each table on the left side must match unambiguously only one
table in the right side.
mysql-test/r/delete.result:
Add test case result for Bug#27525 and Bug#21148
mysql-test/r/derived.result:
Update error.
mysql-test/suite/rpl/r/rpl_multi_delete2.result:
Update syntax.
mysql-test/suite/rpl/t/rpl_multi_delete2.test:
Update syntax.
mysql-test/t/delete.test:
Add test case for Bug#27525 and Bug#21148
mysql-test/t/derived.test:
Update statement error, alias is properly resolved now.
sql/sql_parse.cc:
Implement new algorithm for the resolution of alias in
a multiple table delete statement.
sql/sql_yacc.yy:
Rework multi-delete parser rules to not accept table alias
for the table source list.
sql/table.h:
Add flag to signal that the table has a alias set or
that fully qualified table name was given.
------------------------------------------------------------
revno: 2572.2.1
revision-id: sp1r-davi@mysql.com/endora.local-20080227225948-16317
parent: sp1r-anozdrin/alik@quad.-20080226165712-10409
committer: davi@mysql.com/endora.local
timestamp: Wed 2008-02-27 19:59:48 -0300
message:
Bug#27525 table not found when using multi-table-deletes with aliases over several databas
Bug#30234 Unexpected behavior using DELETE with AS and USING
The multi-delete statement has a documented limitation that
cross-database multiple-table deletes using aliases are not
supported because it fails to find the tables by alias if it
belongs to a different database. The problem is that when
building the list of tables to delete from, if a database
name is not specified (maybe an alias) it defaults to the
name of the current selected database, making impossible to
to properly resolve tables by alias later. Another problem
is a inconsistency of the multiple table delete syntax that
permits ambiguities in a delete statement (aliases that refer
to multiple different tables or vice-versa).
The first step for a solution and proper implementation of
the cross-databse multiple table delete is to get rid of any
ambiguities in a multiple table statement. Currently, the parser
is accepting multiple table delete statements that have no obvious
meaning, such as:
DELETE a1 FROM db1.t1 AS a1, db2.t2 AS a1;
DELETE a1 AS a1 FROM db1.t1 AS a1, db2.t2 AS a1;
The solution is to resolve the left part of a delete statement
using the right part, if the a table on right has an alias,
it must be referenced in the left using the given alias. Also,
each table on the left side must match unambiguously only one
table in the right side.
------------------------------------------------------------
revno: 2630.39.3
revision-id: davi.arnaut@sun.com-20081210215359-i876m4zgc2d6rzs3
parent: kostja@sun.com-20081208222938-9es7wl61moli71ht
committer: Davi Arnaut <Davi.Arnaut@Sun.COM>
branch nick: 36649-6.0
timestamp: Wed 2008-12-10 19:53:59 -0200
message:
Bug#36649: Condition area is not properly cleaned up after stored routine invocation
The problem is that the diagnostics area of a trigger is not
isolated from the area of the statement that caused the trigger
invocation. In MySQL terms, it means that warnings generated
during the execution of the trigger are not removed from the
"warning area" at the end of the execution.
Before this fix, the rules for MySQL message list life cycle (see
manual entry for SHOW WARNINGS) did not apply to statements
inside stored programs:
- The manual says that the list of messages is cleared by a
statement that uses a table (any table). However, such
statement, if run inside a stored program did not clear the
message list.
- The manual says that the list is cleared by a statement that
generates a new error or a warning, but this was not the case
with stored program statements either and is changed to be the
case as well.
In other words, after this fix, a statement has the same effect
on the message list regardless of whether it's executed inside a
stored program/sub-statement or not.
This introduces an incompatible change:
- before this fix, a, e.g. statement inside a trigger could
never clear the global warning list
- after this fix, a trigger that generates a warning or uses a
table, clears the global warning list
- however, when we leave a trigger or a function, the caller's
warning information is restored (see more on this below).
This change is not backward compatible as it is intended to make
MySQL behavior similar to the SQL standard behavior:
A stored function or trigger will get its own "warning area" (or,
in standard terminology, diagnostics area). At the beginning of
the stored function or trigger, all messages from the caller area
will be copied to the area of the trigger. During execution, the
message list will be cleared according to the MySQL rules
described on the manual (SHOW WARNINGS entry). At the end of the
function/trigger, the "warning area" will be destroyed along with
all warnings it contains, except that if the last statement of
the function/trigger generated messages, these are copied into
the "warning area" of the caller.
Consequently, statements that use a table or generate a warning
*will* clear warnings inside the trigger, but that will have no
effect to the warning list of the calling (outer) statement.
mysql-test/r/sp.result:
Fix test case results.
mysql-test/r/trigger.result:
Fix test case results.
mysql-test/t/sp.test:
Add test case for Bug#36649
mysql-test/t/trigger.test:
Add test case for Bug#36649
sql/sp_head.cc:
Emulate multiple warning areas -- one per stored program instance.
sql/sql_parse.cc:
Message list reset rules are the same for statements inside
or outside compound statements.
------------------------------------------------------------
revno: 2630.39.3
revision-id: davi.arnaut@sun.com-20081210215359-i876m4zgc2d6rzs3
parent: kostja@sun.com-20081208222938-9es7wl61moli71ht
committer: Davi Arnaut <Davi.Arnaut@Sun.COM>
branch nick: 36649-6.0
timestamp: Wed 2008-12-10 19:53:59 -0200
message:
Bug#36649: Condition area is not properly cleaned up after stored routine invocation
The problem is that the diagnostics area of a trigger is not
isolated from the area of the statement that caused the trigger
invocation. In MySQL terms, it means that warnings generated
during the execution of the trigger are not removed from the
"warning area" at the end of the execution.
Before this fix, the rules for MySQL message list life cycle (see
manual entry for SHOW WARNINGS) did not apply to statements
inside stored programs:
- The manual says that the list of messages is cleared by a
statement that uses a table (any table). However, such
statement, if run inside a stored program did not clear the
message list.
- The manual says that the list is cleared by a statement that
generates a new error or a warning, but this was not the case
with stored program statements either and is changed to be the
case as well.
In other words, after this fix, a statement has the same effect
on the message list regardless of whether it's executed inside a
stored program/sub-statement or not.
This introduces an incompatible change:
- before this fix, a, e.g. statement inside a trigger could
never clear the global warning list
- after this fix, a trigger that generates a warning or uses a
table, clears the global warning list
- however, when we leave a trigger or a function, the caller's
warning information is restored (see more on this below).
This change is not backward compatible as it is intended to make
MySQL behavior similar to the SQL standard behavior:
A stored function or trigger will get its own "warning area" (or,
in standard terminology, diagnostics area). At the beginning of
the stored function or trigger, all messages from the caller area
will be copied to the area of the trigger. During execution, the
message list will be cleared according to the MySQL rules
described on the manual (SHOW WARNINGS entry). At the end of the
function/trigger, the "warning area" will be destroyed along with
all warnings it contains, except that if the last statement of
the function/trigger generated messages, these are copied into
the "warning area" of the caller.
Consequently, statements that use a table or generate a warning
*will* clear warnings inside the trigger, but that will have no
effect to the warning list of the calling (outer) statement.
Correction of backport patch:
* Fixed signature of check_access_table() for embedded build
* Fixed typo for last argument in a check_access() call from UINT_MAX to 0.
Correction of backport patch:
* Fixed signature of check_access_table() for embedded build
* Fixed typo for last argument in a check_access() call from UINT_MAX to 0.
# Bug#24690 Stored functions: RETURNing UTF8 strings
# do not return UTF8_UNICODE_CI collation
#
# Bug#17903: cast to char results in binary
# Regression. The character set was not being properly initialized
# for CAST() with a type like CHAR(2) BINARY, which resulted in
# incorrect results or even a server crash.
#
Backporting from mysql-6.0-codebase.
mysql-test/r/sp-ucs2.result:
mysql-test/t/sp-ucs2.test:
Adding tests
sql/mysql_priv.h:
Adding prototype
sql/sp.cc
Remember COLLATE clause for non-default collations
sql/sql_parse.cc
Adding a new helper function
sql/sql_yacc.yy
- Allow "CHARACTER SET cs COLLATE cl" in
SP parameters, RETURNS, DECLARE
- Minor reorganization for "ASCII" and "UNICODE"
related rules, to make the code more readable,
also to allow these aliases:
* "VARCHAR(10) ASCII BINARY" -> CHARACTER SET latin1 COLLATE latin1_bin
* "VARCHAR(10) BINARY ASCII" -> CHARACTER SET latin1 COLLATE latin1_bin
* "VARCHAR(10) UNICODE BINARY" -> CHARACTER SET ucs2 COLLATE ucs2_bin
* "VARCHAR(10) BINARY UNICODE" -> CHARACTER SET ucs2 COLLATE ucs2_bin
Previously these four aliases returned the error
"This version of MySQL does not yet support return value collation".
Note:
This patch allows "VARCHAR(10) CHARACTER SET cs COLLATE cl"
and the above four aliases.
"VARCHAR(10) COLLATE cl" is still not allowed
i.e. when COLLATE is given without CHARACTER SET.
If we want to support this, we need an architecture decision
which character set to use by default.
# Bug#24690 Stored functions: RETURNing UTF8 strings
# do not return UTF8_UNICODE_CI collation
#
# Bug#17903: cast to char results in binary
# Regression. The character set was not being properly initialized
# for CAST() with a type like CHAR(2) BINARY, which resulted in
# incorrect results or even a server crash.
#
Backporting from mysql-6.0-codebase.
mysql-test/r/sp-ucs2.result:
mysql-test/t/sp-ucs2.test:
Adding tests
sql/mysql_priv.h:
Adding prototype
sql/sp.cc
Remember COLLATE clause for non-default collations
sql/sql_parse.cc
Adding a new helper function
sql/sql_yacc.yy
- Allow "CHARACTER SET cs COLLATE cl" in
SP parameters, RETURNS, DECLARE
- Minor reorganization for "ASCII" and "UNICODE"
related rules, to make the code more readable,
also to allow these aliases:
* "VARCHAR(10) ASCII BINARY" -> CHARACTER SET latin1 COLLATE latin1_bin
* "VARCHAR(10) BINARY ASCII" -> CHARACTER SET latin1 COLLATE latin1_bin
* "VARCHAR(10) UNICODE BINARY" -> CHARACTER SET ucs2 COLLATE ucs2_bin
* "VARCHAR(10) BINARY UNICODE" -> CHARACTER SET ucs2 COLLATE ucs2_bin
Previously these four aliases returned the error
"This version of MySQL does not yet support return value collation".
Note:
This patch allows "VARCHAR(10) CHARACTER SET cs COLLATE cl"
and the above four aliases.
"VARCHAR(10) COLLATE cl" is still not allowed
i.e. when COLLATE is given without CHARACTER SET.
If we want to support this, we need an architecture decision
which character set to use by default.
CURRENT_USER() in GRANT ... TO CURRENT_USER() only gave us a definer,
not a full user (i.e., password-element was not initiliazed). Hence
dereferencing the password led to a crash.
Properly initializes definers now, just so there are no misunderstandings.
Also does some magic so IDENTIFIED BY ... works with CURRENT_USER().
mysql-test/r/grant2.result:
Show GRANT ... TO CURRENT_USER() no longer crashes.
Show it to work with IDENTIFIED BY to boot.
mysql-test/t/grant2.test:
Show GRANT ... TO CURRENT_USER() no longer crashes.
Show it to work with IDENTIFIED BY to boot.
sql/sql_acl.cc:
Make IDENTIFIED BY ... work with CURRENT_USER()
sql/sql_parse.cc:
Zero password-part of definer just in case somebody mistakes this for
a complete LEX_USER!
CURRENT_USER() in GRANT ... TO CURRENT_USER() only gave us a definer,
not a full user (i.e., password-element was not initiliazed). Hence
dereferencing the password led to a crash.
Properly initializes definers now, just so there are no misunderstandings.
Also does some magic so IDENTIFIED BY ... works with CURRENT_USER().
Backport for 5.5
In non debug builds, the statements:
- SHOW PROCEDURE CODE
- SHOW FUNCTION CODE
used to fail with a "syntax error", which is misleading.
These statements have been changed to return the following error for non
debug builds:
ERROR HY000: The 'SHOW PROCEDURE|FUNCTION CODE' feature is disabled; you
need MySQL built with '--with-debug' to have it working
For debug builds (./configure --with-debug), nothing is changed.
Backport for 5.5
In non debug builds, the statements:
- SHOW PROCEDURE CODE
- SHOW FUNCTION CODE
used to fail with a "syntax error", which is misleading.
These statements have been changed to return the following error for non
debug builds:
ERROR HY000: The 'SHOW PROCEDURE|FUNCTION CODE' feature is disabled; you
need MySQL built with '--with-debug' to have it working
For debug builds (./configure --with-debug), nothing is changed.
XA START may cause assertion failure/server crash when it is called
after unilateral roll back issued by the Resource Manager (both
in regular transaction and after XA transaction).
The problem was that rm_error variable wasn't set/reset properly.
mysql-test/r/xa.result:
A test case for BUG#43171.
mysql-test/t/xa.test:
A test case for BUG#43171.
sql/handler.cc:
Setting rm_error when we're out of XA transaction has no
special meaning. But it blocks reset of thd->transaction.xid
structure later.
sql/sql_parse.cc:
Reset rm_error before we enter ha_rollback(), so
thd->transaction.xid strucure is reinitialized.
XA START may cause assertion failure/server crash when it is called
after unilateral roll back issued by the Resource Manager (both
in regular transaction and after XA transaction).
The problem was that rm_error variable wasn't set/reset properly.
