We should avoid any SHARE fields assignments as
this is shared structure and assignments may
affect other therads. To avoid this
copy of SHARE struct is created and
stored into TABLE struct which is
used in get_schema_coulumns_record later.
mysql-test/r/mdl_sync.result:
test case
mysql-test/t/mdl_sync.test:
test case
sql/sql_show.cc:
We should avoid any SHARE fields assignments as
this is shared structure and assignments may
affect other therads. To avoid this
copy of SHARE struct is created and
stored into TABLE struct which is
used in get_schema_coulumns_record later.
We should avoid any SHARE fields assignments as
this is shared structure and assignments may
affect other therads. To avoid this
copy of SHARE struct is created and
stored into TABLE struct which is
used in get_schema_coulumns_record later.
The problem was that TRUNCATE TABLE didn't take a exclusive
lock on a table if it resorted to truncating via delete of
all rows in the table. Specifically for InnoDB tables, this
could break proper isolation as InnoDB ends up aborting some
granted locks when truncating a table.
The solution is to take a exclusive metadata lock before
TRUNCATE TABLE can proceed. This guarantees that no other
transaction is using the table.
Incompatible change: Truncate via delete no longer fails
if sql_safe_updates is activated (this was a undocumented
side effect).
libmysqld/CMakeLists.txt:
Add new files to the build list.
libmysqld/Makefile.am:
Add new files to the build list.
mysql-test/extra/binlog_tests/binlog_truncate.test:
Add test case for Bug#42643
mysql-test/include/mix1.inc:
Update test case as TRUNCATE TABLE now grabs a exclusive lock.
Ensure that TRUNCATE waits for granted locks on the table.
mysql-test/suite/binlog/t/binlog_truncate_innodb.test:
As with other data modifying statements, TRUNCATE is still not
possible in a transaction with isolation level READ COMMITTED
or READ UNCOMMITED. It would be possible to implement so, but
it is not worth the effort.
mysql-test/suite/binlog/t/binlog_truncate_myisam.test:
Test under different binlog formats.
mysql-test/suite/binlog/t/disabled.def:
Re-enable test case.
mysql-test/t/innodb_bug38231.test:
Truncate no longer works with row-level locks.
mysql-test/t/mdl_sync.test:
Ensure that a acquired lock is not given up due to a conflict.
mysql-test/t/partition_innodb_semi_consistent.test:
End transaction as to release metadata locks.
mysql-test/t/truncate.test:
A metadata lock is now taken before the object is verified.
sql/CMakeLists.txt:
Add new files to the build list.
sql/Makefile.am:
Add new files to the build list.
sql/datadict.cc:
Introduce a new file specific for data dictionary operations.
sql/datadict.h:
Add header file.
sql/sql_base.cc:
Rename data dictionary function.
sql/sql_bitmap.h:
Include dependency.
sql/sql_delete.cc:
Move away from relying on mysql_delete() to delete all rows of
a table. Thus, move any bits related to truncate to sql_truncate.cc
sql/sql_delete.h:
Remove parameter.
sql/sql_parse.cc:
Add protection against the global read lock -- a intention
exclusive lock can be acquired in the truncate path.
sql/sql_show.cc:
Add sync point for testing scenarios where a pending flush
is ignored.
sql/sql_truncate.cc:
Acquire a shared metadata lock before accessing table metadata.
Upgrade the lock to a exclusive one if the table can be re-created.
Rework binlog rules to better reflect the requirements.
sql/sql_yacc.yy:
Set appropriate lock types for table to be truncated.
sql/table.h:
Move to data dictionary header.
The problem was that TRUNCATE TABLE didn't take a exclusive
lock on a table if it resorted to truncating via delete of
all rows in the table. Specifically for InnoDB tables, this
could break proper isolation as InnoDB ends up aborting some
granted locks when truncating a table.
The solution is to take a exclusive metadata lock before
TRUNCATE TABLE can proceed. This guarantees that no other
transaction is using the table.
Incompatible change: Truncate via delete no longer fails
if sql_safe_updates is activated (this was a undocumented
side effect).
transactional SELECT and ALTER TABLE ... REBUILD PARTITION".
The goal of this patch is to decouple type of metadata
lock acquired for table by open_tables() from type of
table-level lock to be acquired on it.
To achieve this we change approach to how we determine what
type of metadata lock should be acquired on table to be open.
Now instead of inferring it at open_tables() time from flags
and type of table-level lock we rely on that type of metadata
lock is properly set at parsing time and is not changed
further.
sql/ha_ndbcluster.cc:
Now one needs to properly initialize table list element's
MDL_request object before calling mysql_rm_table_part2().
sql/lock.cc:
lock_table_names() no longer initializes table list elements'
MDL_request objects. Now proper initialization of these
requests is a responsibility of the caller.
sql/lock.h:
Removed MYSQL_OPEN_TAKE_UPGRADABLE_MDL flag which became
unnecessary. Thanks to the fact that we don't reset type of
requests for metadata locks between re-executions we now can
figure out that upgradable locks are requested by simply
looking at their type which were set in the parser. As result
this flag became redundant.
sql/mdl.h:
Added version of new operator which simplifies allocation of
MDL_request objects on a MEM_ROOT.
sql/sp_head.cc:
Added comment explaining why it is OK to infer type of
metadata lock to request from type of table-level lock
for prelocking.
Added enum_mdl_type argument to sp_add_to_query_tables()
to simplify its usage in trigger implementation.
sql/sp_head.h:
Added enum_mdl_type argument to sp_add_to_query_tables()
to simplify its usage in trigger implementation.
sql/sql_base.cc:
- open_table_get_mdl_lock():
Preserve type of MDL_request for table list element which
was set in the parser by creating MDL_request objects on
memory root if MYSQL_OPEN_FORCE_SHARED_MDL or
MYSQL_OPEN_FORCE_SHARED_HIGH_PRIO_MDL flag were specified.
Thanks to this and to the fact that we no longer reset
type of requests for metadata locks between re-executions
we no longer need to acquire exclusive metadata lock on
table to be created in a special way. This lock is acquired
by code handling acquiring of upgradable locks.
Also changed signature/calling convention for this function
to simplify its usage.
- Accordingly special lock strategy for table list elements
which was used for such locks became unnecessary and was
removed. Other strategies were renamed.
- Since we no longer have guarantee that MDL_request object
which were not satisfied due to lock conflict belongs to
table list element Open_table_context class and its methods
were extended to remember pointer to MDL_request which has
caused problem at request_backoff_action() time and use it
in recover_from_failed_open(). Similar approach is used
for cases when problem from which we need to recover is
not related to MDL but to the table itself. In this case
we store pointer to the element of table list.
- Changed open_tables()/open_tables_check_upgradable_mdl()/
open_tables_acquire_upgradable_mdl() not to rely on
MYSQL_OPEN_TAKE_UPGRADABLE_MDL flag to understand when
upgradable metadata locks should be acquired and not to
infer type of MDL lock from type of table-level lock.
Instead we assume that type of MDL to be acquired was set
in the parser (we can do this as type of MDL_request is
no longer reset between re-executions).
sql/sql_class.h:
Since we no longer have guarantee that MDL_request object
which were not satisfied due to lock conflict belongs to
table list element Open_table_context class and its methods
were extended to remember pointer to MDL_request which has
caused problem at request_backoff_action() time and use it
in recover_from_failed_open(). Similar approach is used
for cases when problem from which we need to recover is
not related to MDL but to the table itself. In this case
we store pointer to the element of table list.
sql/sql_db.cc:
Now one needs to properly initialize table list element's
MDL_request object before calling mysql_rm_table_part2()
or mysql_rename_tables().
sql/sql_lex.cc:
st_select_lex/st_select_lex_node::add_table_to_list() method
now has argument which allows specify type of metadata lock
to be requested for table list element being added.
sql/sql_lex.h:
- st_select_lex/st_select_lex_node::add_table_to_list()
method now has argument which specifies type of metadata
lock to be requested for table list element being added.
This allows to explicitly set type of MDL lock to be
acquired for a DDL statement in parser. It is also more
future-proof than inferring type of MDL request from type
of table-level lock.
- Added Yacc_state::m_mdl_type member which specifies which
type of metadata lock should be requested for tables to be
added to table list by a grammar rule in cases when the same
rule is used in several statements requiring different kinds
of metadata locks.
sql/sql_parse.cc:
- st_select_lex::add_table_to_list() method now has argument
which specifies type of metadata lock to be requested for
table list element being added. This allows to explicitly
set type of MDL lock to be acquired for a DDL statement in
parser. It is also more future-proof than inferring type of
MDL request from type of table-level lock.
- EXCLUSIVE_DOWNGRADABLE_MDL lock strategy has a new name -
OTLS_DOWNGRADE_IF_EXISTS.
- Adjusted LOCK TABLES implementation to the fact that we no
longer infer type of metadata lock to be acquired from table
level lock and that type of MDL request is set at parsing.
And thus MYSQL_OPEN_TAKE_UPGRADABLE_MDL flag became
unnecessary.
sql/sql_prepare.cc:
TABLE_LIST's lock strategy SHARED_MDL was renamed to OTLS_NONE
as now it means that metadata lock should not be changed during
call to open_table() (if it has been already acquired) and is
also used for exclusive metadata lock.
sql/sql_show.cc:
st_select_lex::add_table_to_list() method now has argument
which specifies type of metadata lock to be requested for
table list element being added.
sql/sql_table.cc:
- Adjusted mysql_admin_table()'s code to the fact that
open_tables() no longer determines what kind of metadata
lock should be obtained basing on type of table-level
lock and flags. Instead type of metadata lock for table
to be open should be set before calling open_tables().
- Changed mysql_alter_table() code to the facts:
a) that now it is responsibility of caller to properly
initalize MDL_request in table list elements before calling
lock_table_names()
b) and that MYSQL_OPEN_TAKE_UPGRADABLE_MDL is no longer
necessary since type of metadata lock to be obtained
at open_tables() time is set during parsing.
- Changed code of mysql_recreate_table() to properly set
type of metadata and table-level lock to be obtained
by mysql_alter_table() which it calls.
sql/sql_trigger.cc:
Instead of relying on MYSQL_OPEN_TAKE_UPGRADABLE_MDL flag to
force open_tables() to take an upgradable lock we now specify
exact type of lock to be taken when constructing table list
element for table to be open for CREATE/DROP TRIGGER.
sql/sql_view.cc:
We no longer use TABLE_LIST::EXCLUSIVE_MDL strategy to force
open_tables() to take an exclusive metadata lock on view to
be created. Instead we rely on parser setting proper type of
metadata lock to request and open_tables() acquiring it.
This became possible thanks to the fact that we no longer
reset type of MDL_request between statement re-executions.
sql/sql_yacc.yy:
Instead of inferring type of MDL_request for table to be
open from type of table-level lock and flags passed to
open_tables() we now explicitly specify them at parsing.
This became possible thanks to the fact that we no longer
reset type of MDL_request between statement re-executions.
In future this should allow to decouple type of metadata
lock from type of table-level lock.
The only exception to this approach is statements implemented
through mysql_admin_table() which re-uses same table list
element several times with different types of table-level
and metadata locks.
We now also properly initialize MDL_request objects for table
list elements which are later passed to lock_table_names()
function.
sql/table.cc:
Do not reset type of MDL_request between statement
re-executions. This became unnecessesary as we no longer
change type of MDL_request residing in table list element.
In its turn this change allows to set type of MDL_request
only once - at parsing time.
sql/table.h:
Got rid of TABLE_LIST::EXCLUSIVE_MDL lock strategy.
Now we can specify that we need to acquire exclusive lock
on table to be processed by open_tables() through setting
an appropriate type of MDL_request at parsing time (this
became possible thanks to the fact that we no longer reset
types of MDL_request's belonging to table list elements
between statement re-execution).
Strategy SHARED_MDL was renamed to OTLS_NONE as now it
means that metadata lock should not be changed during call
to open_table() (if it has been already acquired) and is
also used for exclusive metadata lock.
Strategy EXCLUSIVE_DOWNGRADABLE_MDL was renamed to
OTLS_DOWNGRADE_IF_EXISTS.
transactional SELECT and ALTER TABLE ... REBUILD PARTITION".
The goal of this patch is to decouple type of metadata
lock acquired for table by open_tables() from type of
table-level lock to be acquired on it.
To achieve this we change approach to how we determine what
type of metadata lock should be acquired on table to be open.
Now instead of inferring it at open_tables() time from flags
and type of table-level lock we rely on that type of metadata
lock is properly set at parsing time and is not changed
further.
Analysis showed that in case of accessing I_S table
ROUTINES we perform unnecessary allocations
with get_field() function for every processed row that
in their turn causes significant memory growth.
the fix is to avoid use of get_field().
sql/sql_show.cc:
Functions store_schema_proc() are changed
to avoid use of get_field() function.
Analysis showed that in case of accessing I_S table
ROUTINES we perform unnecessary allocations
with get_field() function for every processed row that
in their turn causes significant memory growth.
the fix is to avoid use of get_field().
Fix for bug #46947 "Embedded SELECT without FOR UPDATE is
causing a lock", with after-review fixes.
SELECT statements with subqueries referencing InnoDB tables
were acquiring shared locks on rows in these tables when they
were executed in REPEATABLE-READ mode and with statement or
mixed mode binary logging turned on.
This was a regression which were introduced when fixing
bug 39843.
The problem was that for tables belonging to subqueries
parser set TL_READ_DEFAULT as a lock type. In cases when
statement/mixed binary logging at open_tables() time this
type of lock was converted to TL_READ_NO_INSERT lock at
open_tables() time and caused InnoDB engine to acquire
shared locks on reads from these tables. Although in some
cases such behavior was correct (e.g. for subqueries in
DELETE) in case of SELECT it has caused unnecessary locking.
This patch tries to solve this problem by rethinking our
approach to how we handle locking for SELECT and subqueries.
Now we always set TL_READ_DEFAULT lock type for all cases
when we read data. When at open_tables() time this lock
is interpreted as TL_READ_NO_INSERT or TL_READ depending
on whether this statement as a whole or call to function
which uses particular table should be written to the
binary log or not (if yes then statement should be properly
serialized with concurrent statements and stronger lock
should be acquired).
Test coverage is added for both InnoDB and MyISAM.
This patch introduces an "incompatible" change in locking
scheme for subqueries used in SELECT ... FOR UPDATE and
SELECT .. IN SHARE MODE.
In 4.1 the server would use a snapshot InnoDB read for
subqueries in SELECT FOR UPDATE and SELECT .. IN SHARE MODE
statements, regardless of whether the binary log is on or off.
If the user required a different type of read (i.e. locking read),
he/she could request so explicitly by providing FOR UPDATE/IN SHARE MODE
clause for each individual subquery.
On of the patches for 5.0 broke this behaviour (which was not documented
or tested), and started to use locking reads fora all subqueries in SELECT ...
FOR UPDATE/IN SHARE MODE. This patch restored 4.1 behaviour.
mysql-test/include/check_concurrent_insert.inc:
Added auxiliary script which allows to check if statement
reading table allows concurrent inserts in it.
mysql-test/include/check_no_concurrent_insert.inc:
Added auxiliary script which allows to check that statement
reading table doesn't allow concurrent inserts in it.
mysql-test/include/check_no_row_lock.inc:
Added auxiliary script which allows to check if statement
reading table doesn't take locks on its rows.
mysql-test/include/check_shared_row_lock.inc:
Added auxiliary script which allows to check if statement
reading table takes shared locks on some of its rows.
mysql-test/r/bug39022.result:
After bug #46947 'Embedded SELECT without FOR UPDATE is
causing a lock' was fixed test case for bug 39022 has to
be adjusted in order to trigger execution path on which
original problem was encountered.
mysql-test/r/innodb_mysql_lock2.result:
Added coverage for handling of locking in various cases when
we read data from InnoDB tables (includes test case for
bug #46947 'Embedded SELECT without FOR UPDATE is causing a
lock').
mysql-test/r/lock_sync.result:
Added coverage for handling of locking in various cases when
we read data from MyISAM tables.
mysql-test/t/bug39022.test:
After bug #46947 'Embedded SELECT without FOR UPDATE is
causing a lock' was fixed test case for bug 39022 has to
be adjusted in order to trigger execution path on which
original problem was encountered.
mysql-test/t/innodb_mysql_lock2.test:
Added coverage for handling of locking in various cases when
we read data from InnoDB tables (includes test case for
bug #46947 'Embedded SELECT without FOR UPDATE is causing a
lock').
mysql-test/t/lock_sync.test:
Added coverage for handling of locking in various cases when
we read data from MyISAM tables.
sql/log_event.cc:
Since LEX::lock_option member was removed we no longer can
rely on its value in Load_log_event::print_query() to
determine that log event correponds to LOAD DATA CONCURRENT
statement (this was not correct in all situations anyway).
A new Load_log_event's member was introduced as a replacement.
It is initialized at event object construction time and
explicitly indicates whether LOAD DATA was concurrent.
sql/log_event.h:
Since LEX::lock_option member was removed we no longer can
rely on its value in Load_log_event::print_query() to
determine that log event correponds to LOAD DATA CONCURRENT
statement (this was not correct in all situations anyway).
A new Load_log_event's member was introduced as a replacement.
It is initialized at event object construction time and
explicitly indicates whether LOAD DATA was concurrent.
sql/sp_head.cc:
sp_head::reset_lex():
Before parsing substatement reset part of parser state
which needs this (e.g. set Yacc_state::m_lock_type to
default value).
sql/sql_acl.cc:
Since LEX::reset_n_backup_query_tables_list() now also
resets LEX::sql_command member (as it became part of
Query_tables_list class) we have to restore it in cases
when while working with proxy Query_table_list we assume
that LEX::sql_command still corresponds to original SQL
command being executed (for example, when we are logging
statement to the binary log while having Query_tables_list
reset and backed up).
sql/sql_base.cc:
Changed read_lock_type_for_table() to return a weak TL_READ
type of lock in cases when we are executing statement which
won't update tables directly and table doesn't belong to
statement's prelocking list and thus can't be used by a
stored function. It is OK to do so since in this case table
won't be used by statement or function call which will be
written to the binary log, so serializability requirements
for it can be relaxed.
One of results from this change is that SELECTs on InnoDB
tables no longer takes shared row locks for tables which
are used in subqueries (i.e. bug #46947 is fixed).
Another result is that for similar SELECTs on MyISAM tables
concurrent inserts are allowed.
In order to implement this change signature of
read_lock_type_for_table() function was changed to take
pointers to Query_tables_list and TABLE_LIST objects.
sql/sql_base.h:
- Function read_lock_type_for_table() now takes pointers
to Query_tables_list and TABLE_LIST elements as its
arguments since to correctly determine lock type it needs
to know what statement is being performed and whether table
element for which lock type to be determined belongs to
prelocking list.
sql/sql_lex.cc:
- Removed LEX::lock_option and st_select_lex::lock_option
members. Places in parser that were using them now use
Yacc_state::m_lock_type instead.
- To emphasize that LEX::sql_command member is used during
process of opening and locking of tables it was moved to
Query_tables_list class. It is now reset by
Query_tables_list::reset_query_tables_list() method.
sql/sql_lex.h:
- Removed st_select_lex::lock_option member as there is no
real need for per-SELECT lock type (HIGH_PRIORITY option
should apply to the whole statement. FOR UPDATE/LOCK IN
SHARE MODE clauses can be handled without this member).
The main effect which was achieved by introduction of this
member, i.e. using TL_READ_DEFAULT lock type for
subqueries, is now achieved by setting LEX::lock_option
(or rather its replacement - Yacc_state::m_lock_type) to
TL_READ_DEFAULT in almost all cases.
- To emphasize that LEX::sql_command member is used during
process of opening and locking of tables it was moved to
Query_tables_list class.
- Replaced LEX::lock_option with Yacc_state::m_lock_type
in order to emphasize that this value is relevant only
during parsing. Unlike for LEX::lock_option the default
value for Yacc_state::m_lock_type is TL_READ_DEFAULT.
Note that for cases when it is OK to take a "weak" read
lock (e.g. simple SELECT) this lock type will be converted
to TL_READ at open_tables() time. So this change won't
cause negative change in behavior for such statements.
OTOH this change ensures that, for example, for SELECTs
which are used in stored functions TL_READ_NO_INSERT lock
is taken when necessary and as result calls to such stored
functions can be written to the binary log with correct
serialization.
sql/sql_load.cc:
Load_log_event constructor now requires a parameter that
indicates whether LOAD DATA is concurrent.
sql/sql_parse.cc:
LEX::lock_option was replaced with Yacc_state::m_lock_type.
And instead of resetting the latter implicitly in
mysql_init_multi_delete() we do it explicitly in the
places in parser which call this function.
sql/sql_priv.h:
- To be able more easily distinguish high-priority SELECTs
in st_select_lex::print() method added flag for
HIGH_PRIORITY option.
sql/sql_select.cc:
Changed code not to rely on LEX::lock_option to determine
that it is high-priority SELECT. It was replaced with
Yacc_state::m_lock_type which is accessible only at
parse time. So instead of LEX::lock_option we now rely
on a newly introduced flag for st_select_lex::options -
SELECT_HIGH_PRIORITY.
sql/sql_show.cc:
Since LEX::reset_n_backup_query_tables_list() now also
resets LEX::sql_command member (as it became part of
Query_tables_list class) we have to restore it in cases
when while working with proxy Query_table_list we assume
that LEX::sql_command still corresponds to original SQL
command being executed.
sql/sql_table.cc:
Since LEX::reset_query_tables_list() now also resets
LEX::sql_command member (as it became part of
Query_tables_list class) we have to restore value of this
member when this method is called by mysql_admin_table(),
to make this code safe for re-execution.
sql/sql_trigger.cc:
Since LEX::reset_n_backup_query_tables_list() now also
resets LEX::sql_command member (as it became part of
Query_tables_list class) we have to restore it in cases
when while working with proxy Query_table_list we assume
that LEX::sql_command still corresponds to original SQL
command being executed (for example, when we are logging
statement to the binary log while having Query_tables_list
reset and backed up).
sql/sql_update.cc:
Function read_lock_type_for_table() now takes pointers
to Query_tables_list and TABLE_LIST elements as its
arguments since to correctly determine lock type it needs
to know what statement is being performed and whether table
element for which lock type to be determined belongs to
prelocking list.
sql/sql_yacc.yy:
- Removed st_select_lex::lock_option member as there is no
real need for per-SELECT lock type (HIGH_PRIORITY option
should apply to the whole statement. FOR UPDATE/LOCK IN
SHARE MODE clauses can be handled without this member).
The main effect which was achieved by introduction of this
member, i.e. using TL_READ_DEFAULT lock type for
subqueries, is now achieved by setting LEX::lock_option
(or rather its replacement - Yacc_state::m_lock_type) to
TL_READ_DEFAULT in almost all cases.
- Replaced LEX::lock_option with Yacc_state::m_lock_type
in order to emphasize that this value is relevant only
during parsing. Unlike for LEX::lock_option the default
value for Yacc_state::m_lock_type is TL_READ_DEFAULT.
Note that for cases when it is OK to take a "weak" read
lock (e.g. simple SELECT) this lock type will be converted
to TL_READ at open_tables() time. So this change won't
cause negative change in behavior for such statements.
OTOH this change ensures that, for example, for SELECTs
which are used in stored functions TL_READ_NO_INSERT lock
is taken when necessary and as result calls to such stored
functions can be written to the binary log with correct
serialization.
- To be able more easily distinguish high-priority SELECTs
in st_select_lex::print() method we now use new flag
in st_select_lex::options bit-field.
Fix for bug #46947 "Embedded SELECT without FOR UPDATE is
causing a lock", with after-review fixes.
SELECT statements with subqueries referencing InnoDB tables
were acquiring shared locks on rows in these tables when they
were executed in REPEATABLE-READ mode and with statement or
mixed mode binary logging turned on.
This was a regression which were introduced when fixing
bug 39843.
The problem was that for tables belonging to subqueries
parser set TL_READ_DEFAULT as a lock type. In cases when
statement/mixed binary logging at open_tables() time this
type of lock was converted to TL_READ_NO_INSERT lock at
open_tables() time and caused InnoDB engine to acquire
shared locks on reads from these tables. Although in some
cases such behavior was correct (e.g. for subqueries in
DELETE) in case of SELECT it has caused unnecessary locking.
This patch tries to solve this problem by rethinking our
approach to how we handle locking for SELECT and subqueries.
Now we always set TL_READ_DEFAULT lock type for all cases
when we read data. When at open_tables() time this lock
is interpreted as TL_READ_NO_INSERT or TL_READ depending
on whether this statement as a whole or call to function
which uses particular table should be written to the
binary log or not (if yes then statement should be properly
serialized with concurrent statements and stronger lock
should be acquired).
Test coverage is added for both InnoDB and MyISAM.
This patch introduces an "incompatible" change in locking
scheme for subqueries used in SELECT ... FOR UPDATE and
SELECT .. IN SHARE MODE.
In 4.1 the server would use a snapshot InnoDB read for
subqueries in SELECT FOR UPDATE and SELECT .. IN SHARE MODE
statements, regardless of whether the binary log is on or off.
If the user required a different type of read (i.e. locking read),
he/she could request so explicitly by providing FOR UPDATE/IN SHARE MODE
clause for each individual subquery.
On of the patches for 5.0 broke this behaviour (which was not documented
or tested), and started to use locking reads fora all subqueries in SELECT ...
FOR UPDATE/IN SHARE MODE. This patch restored 4.1 behaviour.
for write by another connection
The problem was that if a table was locked in one connection by
LOCK TABLES ... WRITE, REPAIR TABLE or OPTIMIZE TABLE, SHOW CREATE
TABLE from another connection would be blocked. As SHOW CREATE TABLE
only reads metadata about the table, such blocking is not needed.
The problem was that when SHOW CREATE TABLE tried to get a metadata
lock on the table in order to open it, it used the wrong type of
metadata lock request. It used MDL_SHARED_READ which is used when
the intent is to read both table metadata and table data. Instead
it should have used MDL_SHARED_HIGH_PRIO which signifies an intent
to only read metadata.
This patch fixes the problem by making sure SHOW CREATE TABLE uses
the MDL_SHARED_HIGH_PRIO metadata lock request type when trying to
open the table. The patch also fixes a similar problem with the
mysql_list_fields API call.
Test case added to show_check.test.
for write by another connection
The problem was that if a table was locked in one connection by
LOCK TABLES ... WRITE, REPAIR TABLE or OPTIMIZE TABLE, SHOW CREATE
TABLE from another connection would be blocked. As SHOW CREATE TABLE
only reads metadata about the table, such blocking is not needed.
The problem was that when SHOW CREATE TABLE tried to get a metadata
lock on the table in order to open it, it used the wrong type of
metadata lock request. It used MDL_SHARED_READ which is used when
the intent is to read both table metadata and table data. Instead
it should have used MDL_SHARED_HIGH_PRIO which signifies an intent
to only read metadata.
This patch fixes the problem by making sure SHOW CREATE TABLE uses
the MDL_SHARED_HIGH_PRIO metadata lock request type when trying to
open the table. The patch also fixes a similar problem with the
mysql_list_fields API call.
Test case added to show_check.test.
Docs/sp-imp-spec.txt:
New sql_mode added.
include/my_base.h:
Flag in frm of create options.
libmysqld/CMakeLists.txt:
New files added.
libmysqld/Makefile.am:
New files added.
mysql-test/r/events_bugs.result:
New sql_mode added.
mysql-test/r/information_schema.result:
New sql_mode added.
mysql-test/r/sp.result:
New sql_mode added.
mysql-test/r/system_mysql_db.result:
New sql_mode added.
mysql-test/suite/funcs_1/r/is_columns_mysql.result:
New sql_mode added.
mysql-test/suite/funcs_1/r/is_columns_mysql_embedded.result:
New sql_mode added.
mysql-test/t/events_bugs.test:
New sql_mode added.
mysql-test/t/sp.test:
New sql_mode added.
scripts/mysql_system_tables.sql:
New sql_mode added.
scripts/mysql_system_tables_fix.sql:
New sql_mode added.
sql/CMakeLists.txt:
New files added.
sql/Makefile.am:
New files added.
sql/event_db_repository.cc:
New sql_mode added.
sql/field.cc:
Create options support added.
sql/field.h:
Create options support added.
sql/ha_partition.cc:
Create options support added.
sql/handler.cc:
Create options support added.
sql/handler.h:
Create options support added.
sql/log_event.h:
New sql_mode added.
sql/mysql_priv.h:
New sql_mode added.
sql/mysqld.cc:
New sql_mode added.
sql/share/errmsg.txt:
New error messages added.
sql/sp.cc:
New sql_mode added.
sql/sp_head.cc:
Create options support added.
sql/sql_class.cc:
Create options support added.
Debug added.
sql/sql_class.h:
Create options support added.
sql/sql_insert.cc:
my_safe_a* moved to mysqld_priv.h
sql/sql_lex.h:
Create options support added.
sql/sql_parse.cc:
Create options support added.
sql/sql_show.cc:
Create options support added.
sql/sql_table.cc:
Create options support added.
sql/sql_view.cc:
New sql_mode added.
sql/sql_yacc.yy:
Create options support added.
sql/structs.h:
Create options support added.
sql/table.cc:
Create options support added.
sql/table.h:
Create options support added.
sql/unireg.cc:
Create options support added.
storage/example/ha_example.cc:
Create options example.
storage/example/ha_example.h:
Create options example.
storage/pbxt/src/discover_xt.cc:
Create options support added.
Adding my_global.h first in all files using
NO_EMBEDDED_ACCESS_CHECKS.
Correcting a merge problem resulting from a changed definition
of check_some_access compared to the original patches.
Adding my_global.h first in all files using
NO_EMBEDDED_ACCESS_CHECKS.
Correcting a merge problem resulting from a changed definition
of check_some_access compared to the original patches.
Conflicts:
Text conflict in mysql-test/r/func_str.result
Text conflict in mysql-test/suite/sys_vars/r/myisam_sort_buffer_size_basic_32.result
Text conflict in mysql-test/suite/sys_vars/r/myisam_sort_buffer_size_basic_64.result
Text conflict in mysql-test/t/func_str.test
Text conflict in sql/mysqld.cc
Text conflict in sql/protocol.cc
Text conflict in storage/myisam/mi_open.c
Conflicts:
Text conflict in mysql-test/r/func_str.result
Text conflict in mysql-test/suite/sys_vars/r/myisam_sort_buffer_size_basic_32.result
Text conflict in mysql-test/suite/sys_vars/r/myisam_sort_buffer_size_basic_64.result
Text conflict in mysql-test/t/func_str.test
Text conflict in sql/mysqld.cc
Text conflict in sql/protocol.cc
Text conflict in storage/myisam/mi_open.c
Interface for maria extensions.
Alternative plugin interface with additional info (maturity and string version).
CMakeLists.txt:
Maria plugin interface used.
config/ac-macros/plugins.m4:
Maria plugin interface used.
configure.in:
Maria plugin interface used.
include/mysql/plugin.h:
Maria plugin interface added.
include/mysql/plugin_auth.h.pp:
Maria plugin interface added.
plugin/auth/auth_socket.c:
Maria plugin interface added.
plugin/auth/dialog.c:
Maria plugin interface added.
plugin/daemon_example/daemon_example.cc:
Maria plugin interface added.
plugin/fulltext/plugin_example.c:
Maria plugin interface added.
sql/ha_ndbcluster.cc:
Maria plugin interface added.
sql/ha_partition.cc:
Maria plugin interface added.
sql/log.cc:
Maria plugin interface added.
sql/sql_acl.cc:
Maria plugin interface added.
sql/sql_builtin.cc.in:
Maria plugin interface used.
sql/sql_plugin.cc:
Maria plugin interface added.
sql/sql_plugin.h:
Maria plugin interface used.
sql/sql_show.cc:
Maria plugin interface added.
storage/archive/ha_archive.cc:
Maria plugin interface added.
storage/blackhole/ha_blackhole.cc:
Maria plugin interface added.
storage/csv/ha_tina.cc:
Maria plugin interface added.
storage/example/ha_example.cc:
Maria plugin interface added.
storage/federated/ha_federated.cc:
Maria plugin interface added.
storage/federatedx/ha_federatedx.cc:
Maria plugin interface added.
storage/heap/ha_heap.cc:
Maria plugin interface added.
storage/ibmdb2i/ha_ibmdb2i.cc:
Maria plugin interface added.
storage/innobase/handler/ha_innodb.cc:
Maria plugin interface added.
storage/innodb_plugin/handler/i_s.cc:
Maria plugin interface added.
storage/maria/ha_maria.cc:
Maria plugin interface added.
storage/myisam/ha_myisam.cc:
Maria plugin interface added.
storage/myisammrg/ha_myisammrg.cc:
Maria plugin interface added.
storage/pbxt/src/ha_pbxt.cc:
Maria plugin interface added.
storage/xtradb/handler/ha_innodb.cc:
Maria plugin interface added.
storage/xtradb/handler/i_s.cc:
Maria plugin interface added.
storage/xtradb/handler/i_s.h:
Maria plugin interface added.
This patch:
- Moves all definitions from the mysql_priv.h file into
header files for the component where the variable is
defined
- Creates header files if the component lacks one
- Eliminates all include directives from mysql_priv.h
- Eliminates all circular include cycles
- Rename time.cc to sql_time.cc
- Rename mysql_priv.h to sql_priv.h
This patch:
- Moves all definitions from the mysql_priv.h file into
header files for the component where the variable is
defined
- Creates header files if the component lacks one
- Eliminates all include directives from mysql_priv.h
- Eliminates all circular include cycles
- Rename time.cc to sql_time.cc
- Rename mysql_priv.h to sql_priv.h
into partitioned MyISAM table
Problem was that the ha_data structure was introduced in 5.1
and only used for partitioning first, but with the intention
of be of use for others engines as well, and when used by other
engines it would clash if it also was partitioned.
Solution is to move the partitioning specific data to a separate
structure, with its own mutex (which is used for auto_increment).
Also did rename PARTITION_INFO to PARTITION_STATS since there
already exist a class named partition_info, also cleaned up
some related variables.
mysql-test/r/partition_binlog_stmt.result:
Bug#51851: Server with SBR locks mutex twice on LOAD DATA
into partitioned MyISAM table
New result file
mysql-test/t/partition_binlog_stmt.test:
Bug#51851: Server with SBR locks mutex twice on LOAD DATA
into partitioned MyISAM table
New result file
sql/ha_ndbcluster.cc:
Bug#51851: Server with SBR locks mutex twice on LOAD DATA
into partitioned MyISAM table
Rename of PARTITION_INFO to PARTITION_STATS to better
match the use (and there is also a class named
partition_info...)
sql/ha_ndbcluster.h:
Bug#51851: Server with SBR locks mutex twice on LOAD DATA
into partitioned MyISAM table
Rename of PARTITION_INFO to PARTITION_STATS to better
match the use (and there is also a class named
partition_info...)
sql/ha_partition.cc:
Bug#51851: Server with SBR locks mutex twice on LOAD DATA
into partitioned MyISAM table
Removed the partitioning engines use of ha_data in
TABLE_SHARE and added ha_part_data instead, since
they collide if used in the same time.
Rename of PARTITION_INFO to PARTITION_STATS to better
match the use (and there is also a class named
partition_info...)
Removed some dead code.
sql/ha_partition.h:
Bug#51851: Server with SBR locks mutex twice on LOAD DATA
into partitioned MyISAM table
Removed some dead code.
Rename of PARTITION_INFO to PARTITION_STATS to better
match the use (and there is also a class named
partition_info...)
Removed the partitioning engines use of ha_data in
TABLE_SHARE and added ha_part_data instead, since
they collide if used in the same time.
sql/handler.cc:
Bug#51851: Server with SBR locks mutex twice on LOAD DATA
into partitioned MyISAM table
Rename of PARTITION_INFO to PARTITION_STATS to better
match the use (and there is also a class named
partition_info...)
sql/handler.h:
Bug#51851: Server with SBR locks mutex twice on LOAD DATA
into partitioned MyISAM table
Rename of PARTITION_INFO to PARTITION_STATS to better
match the use (and there is also a class named
partition_info...)
sql/mysql_priv.h:
Bug#51851: Server with SBR locks mutex twice on LOAD DATA
into partitioned MyISAM table
Removed the partitioning engines use of ha_data in
TABLE_SHARE and added ha_part_data instead, since
they collide if used in the same time.
Added key_PARTITION_LOCK_auto_inc for instrumentation.
sql/mysqld.cc:
Bug#51851: Server with SBR locks mutex twice on LOAD DATA
into partitioned MyISAM table
Removed the partitioning engines use of ha_data in
TABLE_SHARE and added ha_part_data instead, since
they collide if used in the same time.
Added key_PARTITION_LOCK_auto_inc for instrumentation.
sql/partition_info.h:
Bug#51851: Server with SBR locks mutex twice on LOAD DATA
into partitioned MyISAM table
Removed part_state* since it was not in use.
sql/sql_partition.cc:
Bug#51851: Server with SBR locks mutex twice on LOAD DATA
into partitioned MyISAM table
Removed part_state* since it was not in use.
sql/sql_partition.h:
Bug#51851: Server with SBR locks mutex twice on LOAD DATA
into partitioned MyISAM table
Cleaned up old commented out code.
Removed part_state* since it was not in use.
sql/sql_show.cc:
Bug#51851: Server with SBR locks mutex twice on LOAD DATA
into partitioned MyISAM table
Rename of PARTITION_INFO to PARTITION_STATS to better
match the use (and there is also a class named
partition_info...)
Renamed partition_info to partition_info_str, since
partition_info is a name of a class.
sql/sql_table.cc:
Bug#51851: Server with SBR locks mutex twice on LOAD DATA
into partitioned MyISAM table
Renamed partition_info to partition_info_str, since
partition_info is a name of a class.
sql/table.cc:
Bug#51851: Server with SBR locks mutex twice on LOAD DATA
into partitioned MyISAM table
Removed the partitioning engines use of ha_data in
TABLE_SHARE and added ha_part_data instead, since
they collide if used in the same time.
Renamed partition_info to partition_info_str, since
partition_info is a name of a class.
removed part_state* since it was not in use.
sql/table.h:
Bug#51851: Server with SBR locks mutex twice on LOAD DATA
into partitioned MyISAM table
Removed the partitioning engines use of ha_data in
TABLE_SHARE and added ha_part_data instead, since
they collide if used in the same time.
Renamed partition_info to partition_info_str, since
partition_info is a name of a class.
removed part_state* since it was not in use.
into partitioned MyISAM table
Problem was that the ha_data structure was introduced in 5.1
and only used for partitioning first, but with the intention
of be of use for others engines as well, and when used by other
engines it would clash if it also was partitioned.
Solution is to move the partitioning specific data to a separate
structure, with its own mutex (which is used for auto_increment).
Also did rename PARTITION_INFO to PARTITION_STATS since there
already exist a class named partition_info, also cleaned up
some related variables.
