Patch that refactors global read lock implementation and fixes

bug #57006 "Deadlock between HANDLER and FLUSH TABLES WITH READ
LOCK" and bug #54673 "It takes too long to get readlock for
'FLUSH TABLES WITH READ LOCK'".

The first bug manifested itself as a deadlock which occurred
when a connection, which had some table open through HANDLER
statement, tried to update some data through DML statement
while another connection tried to execute FLUSH TABLES WITH
READ LOCK concurrently.

What happened was that FTWRL in the second connection managed
to perform first step of GRL acquisition and thus blocked all
upcoming DML. After that it started to wait for table open
through HANDLER statement to be flushed. When the first connection
tried to execute DML it has started to wait for GRL/the second
connection creating deadlock.

The second bug manifested itself as starvation of FLUSH TABLES
WITH READ LOCK statements in cases when there was a constant
stream of concurrent DML statements (in two or more
connections).

This has happened because requests for protection against GRL
which were acquired by DML statements were ignoring presence of
pending GRL and thus the latter was starved.

This patch solves both these problems by re-implementing GRL
using metadata locks.

Similar to the old implementation acquisition of GRL in new
implementation is two-step. During the first step we block
all concurrent DML and DDL statements by acquiring global S
metadata lock (each DML and DDL statement acquires global IX
lock for its duration). During the second step we block commits
by acquiring global S lock in COMMIT namespace (commit code
acquires global IX lock in this namespace).

Note that unlike in old implementation acquisition of
protection against GRL in DML and DDL is semi-automatic.
We assume that any statement which should be blocked by GRL
will either open and acquires write-lock on tables or acquires
metadata locks on objects it is going to modify. For any such
statement global IX metadata lock is automatically acquired
for its duration.

The first problem is solved because waits for GRL become
visible to deadlock detector in metadata locking subsystem
and thus deadlocks like one in the first bug become impossible.

The second problem is solved because global S locks which
are used for GRL implementation are given preference over
IX locks which are acquired by concurrent DML (and we can
switch to fair scheduling in future if needed).

Important change:
FTWRL/GRL no longer blocks DML and DDL on temporary tables.
Before this patch behavior was not consistent in this respect:
in some cases DML/DDL statements on temporary tables were
blocked while in others they were not. Since the main use cases
for FTWRL are various forms of backups and temporary tables are
not preserved during backups we have opted for consistently
allowing DML/DDL on temporary tables during FTWRL/GRL.

Important change:
This patch changes thread state names which are used when
DML/DDL of FTWRL is waiting for global read lock. It is now
either "Waiting for global read lock" or "Waiting for commit
lock" depending on the stage on which FTWRL is.

Incompatible change:
To solve deadlock in events code which was exposed by this
patch we have to replace LOCK_event_metadata mutex with
metadata locks on events. As result we have to prohibit
DDL on events under LOCK TABLES.

This patch also adds extensive test coverage for interaction
of DML/DDL and FTWRL.

Performance of new and old global read lock implementations
in sysbench tests were compared. There were no significant
difference between new and old implementations.

mysql-test/include/check_ftwrl_compatible.inc:
  Added helper script which allows to check that a statement is
  compatible with FLUSH TABLES WITH READ LOCK.
mysql-test/include/check_ftwrl_incompatible.inc:
  Added helper script which allows to check that a statement is
  incompatible with FLUSH TABLES WITH READ LOCK.
mysql-test/include/handler.inc:
  Adjusted test case to the fact that now DROP TABLE closes
  open HANDLERs for the table to be dropped before checking
  if there active FTWRL in this connection.
mysql-test/include/wait_show_condition.inc:
  Fixed small error in the timeout message. The correct name
  of variable used as parameter for this script is "$condition"
  and not "$wait_condition".
mysql-test/r/delayed.result:
  Added test coverage for scenario which triggered assert in
  metadata locking subsystem.
mysql-test/r/events_2.result:
  Updated test results after prohibiting event DDL operations
  under LOCK TABLES.
mysql-test/r/flush.result:
  Added test coverage for bug #57006 "Deadlock between HANDLER
  and FLUSH TABLES WITH READ LOCK".
mysql-test/r/flush_read_lock.result:
  Added test coverage for various aspects of FLUSH TABLES WITH
  READ LOCK functionality.
mysql-test/r/flush_read_lock_kill.result:
  Adjusted test case after replacing custom global read lock
  implementation with one based on metadata locks. Use new
  debug_sync point. Do not disable concurrent inserts as now
  InnoDB we always use InnoDB table.
mysql-test/r/handler_innodb.result:
  Adjusted test case to the fact that now DROP TABLE closes
  open HANDLERs for the table to be dropped before checking
  if there active FTWRL in this connection.
mysql-test/r/handler_myisam.result:
  Adjusted test case to the fact that now DROP TABLE closes
  open HANDLERs for the table to be dropped before checking
  if there active FTWRL in this connection.
mysql-test/r/mdl_sync.result:
  Adjusted test case after replacing custom global read lock
  implementation with one based on metadata locks. Replaced
  usage of GRL-specific debug_sync's with appropriate sync
  points in MDL subsystem.
mysql-test/suite/perfschema/r/dml_setup_instruments.result:
  Updated test results after removing global
  COND_global_read_lock condition variable.
mysql-test/suite/perfschema/r/func_file_io.result:
  Ensure that this test doesn't affect subsequent tests.
  At the end of its execution enable back P_S instrumentation
  which this test disables at some point.
mysql-test/suite/perfschema/r/func_mutex.result:
  Ensure that this test doesn't affect subsequent tests.
  At the end of its execution enable back P_S instrumentation
  which this test disables at some point.
mysql-test/suite/perfschema/r/global_read_lock.result:
  Adjusted test case to take into account that new GRL
  implementation is based on MDL.
mysql-test/suite/perfschema/r/server_init.result:
  Adjusted test case after replacing custom global read
  lock implementation with one based on MDL and replacing
  LOCK_event_metadata mutex with metadata lock.
mysql-test/suite/perfschema/t/func_file_io.test:
  Ensure that this test doesn't affect subsequent tests.
  At the end of its execution enable back P_S instrumentation
  which this test disables at some point.
mysql-test/suite/perfschema/t/func_mutex.test:
  Ensure that this test doesn't affect subsequent tests.
  At the end of its execution enable back P_S instrumentation
  which this test disables at some point.
mysql-test/suite/perfschema/t/global_read_lock.test:
  Adjusted test case to take into account that new GRL
  implementation is based on MDL.
mysql-test/suite/perfschema/t/server_init.test:
  Adjusted test case after replacing custom global read
  lock implementation with one based on MDL and replacing
  LOCK_event_metadata mutex with metadata lock.
mysql-test/suite/rpl/r/rpl_tmp_table_and_DDL.result:
  Updated test results after prohibiting event DDL under
  LOCK TABLES.
mysql-test/t/delayed.test:
  Added test coverage for scenario which triggered assert in
  metadata locking subsystem.
mysql-test/t/events_2.test:
  Updated test case after prohibiting event DDL operations
  under LOCK TABLES.
mysql-test/t/flush.test:
  Added test coverage for bug #57006 "Deadlock between HANDLER
  and FLUSH TABLES WITH READ LOCK".
mysql-test/t/flush_block_commit.test:
  Adjusted test case after changing thread state name which
  is used when COMMIT waits for FLUSH TABLES WITH READ LOCK
  from "Waiting for release of readlock" to "Waiting for commit
  lock".
mysql-test/t/flush_block_commit_notembedded.test:
  Adjusted test case after changing thread state name which is
  used when DML waits for FLUSH TABLES WITH READ LOCK. Now we
  use "Waiting for global read lock" in this case.
mysql-test/t/flush_read_lock.test:
  Added test coverage for various aspects of FLUSH TABLES WITH
  READ LOCK functionality.
mysql-test/t/flush_read_lock_kill-master.opt:
  We no longer need to use make_global_read_lock_block_commit_loop
  debug tag in this test. Instead we rely on an appropriate
  debug_sync point in MDL code.
mysql-test/t/flush_read_lock_kill.test:
  Adjusted test case after replacing custom global read lock
  implementation with one based on metadata locks. Use new
  debug_sync point. Do not disable concurrent inserts as now
  InnoDB we always use InnoDB table.
mysql-test/t/lock_multi.test:
  Adjusted test case after changing thread state names which
  are used when DML or DDL waits for FLUSH TABLES WITH READ
  LOCK to "Waiting for global read lock".
mysql-test/t/mdl_sync.test:
  Adjusted test case after replacing custom global read lock
  implementation with one based on metadata locks. Replaced
  usage of GRL-specific debug_sync's with appropriate sync
  points in MDL subsystem. Updated thread state names which
  are used when DDL waits for FTWRL.
mysql-test/t/trigger_notembedded.test:
  Adjusted test case after changing thread state names which
  are used when DML or DDL waits for FLUSH TABLES WITH READ
  LOCK to "Waiting for global read lock".
sql/event_data_objects.cc:
  Removed Event_queue_element::status/last_executed_changed
  members and Event_queue_element::update_timing_fields()
  method. We no longer use this class for updating mysql.events
  once event is chosen for execution. Accesses to instances of
  this class in scheduler thread require protection by
  Event_queue::LOCK_event_queue mutex and we try to avoid
  updating table while holding this lock.
sql/event_data_objects.h:
  Removed Event_queue_element::status/last_executed_changed
  members and Event_queue_element::update_timing_fields()
  method. We no longer use this class for updating mysql.events
  once event is chosen for execution. Accesses to instances of
  this class in scheduler thread require protection by
  Event_queue::LOCK_event_queue mutex and we try to avoid
  updating table while holding this lock.
sql/event_db_repository.cc:
  - Changed Event_db_repository methods to not release all
    metadata locks once they are done updating mysql.events
    table. This allows to keep metadata lock protecting
    against GRL and lock protecting particular event around
    until corresponding DDL statement is written to the binary
    log.
  - Removed logic for conditional update of "status" and
    "last_executed" fields from update_timing_fields_for_event()
    method. In the only case when this method is called now
    "last_executed" is always modified and tracking change
    of "status" is too much hassle.
sql/event_db_repository.h:
  Removed logic for conditional update of "status" and
  "last_executed" fields from Event_db_repository::
  update_timing_fields_for_event() method.
  In the only case when this method is called now "last_executed"
  is always modified and tracking change of "status" field is
  too much hassle.
sql/event_queue.cc:
  Changed event scheduler code not to update mysql.events
  table while holding Event_queue::LOCK_event_queue mutex.
  Doing so led to a deadlock with a new GRL implementation.
  This deadlock didn't occur with old implementation due to
  fact that code acquiring protection against GRL ignored
  pending GRL requests (which lead to GRL starvation).
  One of goals of new implementation is to disallow GRL
  starvation and so we have to solve problem with this
  deadlock in a different way.
sql/events.cc:
  Changed methods of Events class to acquire protection
  against GRL while perfoming DDL statement and keep it
  until statement is written to the binary log.
  Unfortunately this step together with new GRL implementation
  exposed deadlock involving Events::LOCK_event_metadata
  and GRL. To solve it Events::LOCK_event_metadata mutex was
  replaced with a metadata lock on event. As a side-effect
  events DDL has to be prohibited under LOCK TABLES even in
  cases when mysql.events table was explicitly locked for
  write.
sql/events.h:
  Replaced Events::LOCK_event_metadata mutex with a metadata
  lock on event.
sql/ha_ndbcluster.cc:
  Updated code after replacing custom global read lock
  implementation with one based on MDL. Since MDL subsystem
  should now be able to detect deadlocks involving metadata
  locks and GRL there is no need for special handling of
  active GRL.
sql/handler.cc:
  Replaced custom implementation of global read lock with
  one based on metadata locks. Consequently when doing
  commit instead of calling method of Global_read_lock
  class to acquire protection against GRL we simply acquire
  IX in COMMIT namespace.
sql/lock.cc:
  Replaced custom implementation of global read lock with
  one based on metadata locks. This step allows to expose
  wait for GRL to deadlock detector of MDL subsystem and
  thus succesfully resolve deadlocks similar to one behind
  bug #57006 "Deadlock between HANDLER and FLUSH TABLES
  WITH READ LOCK". It also solves problem with GRL starvation
  described in bug #54673 "It takes too long to get readlock
  for 'FLUSH TABLES WITH READ LOCK'" since metadata locks used
  by GRL give preference to FTWRL statement instead of DML
  statements (if needed in future this can be changed to
  fair scheduling).
  
  Similar to old implementation of acquisition of GRL is
  two-step. During the first step we block all concurrent
  DML and DDL statements by acquiring global S metadata lock
  (each DML and DDL statement acquires global IX lock for
  its duration). During the second step we block commits by
  acquiring global S lock in COMMIT namespace (commit code
  acquires global IX lock in this namespace).
  
  Note that unlike in old implementation acquisition of
  protection against GRL in DML and DDL is semi-automatic.
  We assume that any statement which should be blocked by GRL
  will either open and acquires write-lock on tables or acquires
  metadata locks on objects it is going to modify. For any such
  statement global IX metadata lock is automatically acquired
  for its duration.
  
  To support this change:
  - Global_read_lock::lock/unlock_global_read_lock and
    make_global_read_lock_block_commit methods were changed
    accordingly.
  - Global_read_lock::wait_if_global_read_lock() and
    start_waiting_global_read_lock() methods were dropped.
    It is now responsibility of code acquiring metadata locks
    opening tables to acquire protection against GRL by
    explicitly taking global IX lock with statement duration.
  - Global variables, mutex and condition variable used by
    old implementation was removed.
  - lock_routine_name() was changed to use statement duration for
    its global IX lock. It was also renamed to lock_object_name()
    as it now also used to take metadata locks on events.
  - Global_read_lock::set_explicit_lock_duration() was added which
    allows not to release locks used for GRL when leaving prelocked
    mode.
sql/lock.h:
  - Renamed lock_routine_name() to lock_object_name() and changed
    its signature to allow its usage for events.
  - Removed broadcast_refresh() function. It is no longer needed
    with new GRL implementation.
sql/log_event.cc:
  Release metadata locks with statement duration at the end
  of processing legacy event for LOAD DATA. This ensures that
  replication thread processing such event properly releases
  its protection against global read lock.
sql/mdl.cc:
  Changed MDL subsystem to support new MDL-based implementation
  of global read lock.
  
  Added COMMIT and EVENTS namespaces for metadata locks. Changed
  thread state name for GLOBAL namespace to "Waiting for global
  read lock".
  
  Optimized MDL_map::find_or_insert() method to avoid taking
  m_mutex mutex when looking up MDL_lock objects for GLOBAL
  or COMMIT namespaces. We keep pre-created MDL_lock objects
  for these namespaces around and simply return pointers to
  these global objects when needed.
  
  Changed MDL_lock/MDL_scoped_lock to properly handle
  notification of insert delayed handler threads when FTWRL
  takes global S lock.
  
  Introduced concept of lock duration. In addition to locks with
  transaction duration which work in the way which is similar to
  how locks worked before (i.e. they are released at the end of
  transaction), locks with statement and explicit duration were
  introduced.
  Locks with statement duration are automatically released at the
  end of statement. Locks with explicit duration require explicit
  release and obsolete concept of transactional sentinel.
  
  * Changed MDL_request and MDL_ticket classes to support notion
    of duration.
  * Changed MDL_context to keep locks with different duration in
    different lists. Changed code handling ticket list to take
    this into account.
  * Changed methods responsible for releasing locks to take into
    account duration of tickets. Particularly public
    MDL_context::release_lock() method now only can release
    tickets with explicit duration (there is still internal
    method which allows to specify duration). To release locks
    with statement or transaction duration one have to use
    release_statement/transactional_locks() methods.
  * Concept of savepoint for MDL subsystem now has to take into
    account locks with statement duration. Consequently
    MDL_savepoint class was introduced and methods working with
    savepoints were updated accordingly.
  * Added methods which allow to set duration for one or all
    locks in the context.
sql/mdl.h:
  Changed MDL subsystem to support new MDL-based implementation
  of global read lock.
  
  Added COMMIT and EVENTS namespaces for metadata locks.
  
  Introduced concept of lock duration. In addition to locks with
  transaction duration which work in the way which is similar to
  how locks worked before (i.e. they are released at the end of
  transaction), locks with statement and explicit duration were
  introduced.
  Locks with statement duration are automatically released at the
  end of statement. Locks with explicit duration require explicit
  release and obsolete concept of transactional sentinel.
  
  * Changed MDL_request and MDL_ticket classes to support notion
    of duration.
  * Changed MDL_context to keep locks with different duration in
    different lists. Changed code handling ticket list to take
    this into account.
  * Changed methods responsible for releasing locks to take into
    account duration of tickets. Particularly public
    MDL_context::release_lock() method now only can release
    tickets with explicit duration (there is still internal
    method which allows to specify duration). To release locks
    with statement or transaction duration one have to use
    release_statement/transactional_locks() methods.
  * Concept of savepoint for MDL subsystem now has to take into
    account locks with statement duration. Consequently
    MDL_savepoint class was introduced and methods working with
    savepoints were updated accordingly.
  * Added methods which allow to set duration for one or all
    locks in the context.
sql/mysqld.cc:
  Removed global mutex and condition variables which were used
  by old implementation of GRL.
  Also we no longer need to initialize Events::LOCK_event_metadata
  mutex as it was replaced with metadata locks on events.
sql/mysqld.h:
  Removed global variable, mutex and condition variables which
  were used by old implementation of GRL.
sql/rpl_rli.cc:
  When slave thread closes tables which were open for handling
  of RBR events ensure that it releases global IX lock which
  was acquired as protection against GRL.
sql/sp.cc:
  Adjusted code to the new signature of lock_object/routine_name(),
  to the fact that one now needs specify duration of lock when
  initializing MDL_request and to the fact that savepoints for MDL
  subsystem are now represented by MDL_savepoint class.
sql/sp_head.cc:
  Ensure that statements in stored procedures release statement
  metadata locks and thus release their protectiong against GRL
  in proper moment in time.
  Adjusted code to the fact that one now needs specify duration
  of lock when initializing MDL_request.
sql/sql_admin.cc:
  Adjusted code to the fact that one now needs specify duration
  of lock when initializing MDL_request.
sql/sql_base.cc:
  - Implemented support for new approach to acquiring protection
    against global read lock. We no longer acquire such protection
    explicitly on the basis of statement flags. Instead we always
    rely on code which is responsible for acquiring metadata locks
    on object to be changed acquiring this protection. This is
    achieved by acquiring global IX metadata lock with statement
    duration. Code doing this also responsible for checking that
    current connection has no active GRL by calling an
    Global_read_lock::can_acquire_protection() method.
    Changed code in open_table() and lock_table_names()
    accordingly.
    Note that as result of this change DDL and DML on temporary
    tables is always compatible with GRL (before it was
    incompatible in some cases and compatible in other cases).
  - To speed-up code acquiring protection against GRL introduced
    m_has_protection_against_grl member in Open_table_context
    class. It indicates that protection was already acquired
    sometime during open_tables() execution and new attempts
    can be skipped.
  - Thanks to new GRL implementation calls to broadcast_refresh()
    became unnecessary and were removed.
  - Adjusted code to the fact that one now needs specify duration
    of lock when initializing MDL_request and to the fact that
    savepoints for MDL subsystem are now represented by
    MDL_savepoint class.
sql/sql_base.h:
  Adjusted code to the fact that savepoints for MDL subsystem are
  now represented by MDL_savepoint class.
  Also introduced Open_table_context::m_has_protection_against_grl
  member which allows to avoid acquiring protection against GRL
  while opening tables if such protection was already acquired.
sql/sql_class.cc:
  Changed THD::leave_locked_tables_mode() after transactional
  sentinel for metadata locks was obsoleted by introduction of
  locks with explicit duration.
sql/sql_class.h:
  - Adjusted code to the fact that savepoints for MDL subsystem
    are now represented by MDL_savepoint class.
  - Changed Global_read_lock class according to changes in
    global read lock implementation:
    * wait_if_global_read_lock and start_waiting_global_read_lock
      are now gone. Instead code needing protection against GRL
      has to acquire global IX metadata lock with statement
      duration itself. To help it new can_acquire_protection()
      was introduced. Also as result of the above change
      m_protection_count member is gone too.
    * Added m_mdl_blocks_commits_lock member to store metadata
      lock blocking commits.
    * Adjusted code to the fact that concept of transactional
      sentinel was obsoleted by concept of lock duration.
  - Removed CF_PROTECT_AGAINST_GRL flag as it is no longer
    necessary. New GRL implementation acquires protection
    against global read lock automagically when statement
    acquires metadata locks on tables or other objects it
    is going to change.
sql/sql_db.cc:
  Adjusted code to the fact that one now needs specify duration
  of lock when initializing MDL_request.
sql/sql_handler.cc:
  Removed call to broadcast_refresh() function. It is no longer
  needed with new GRL implementation.
  Adjusted code after introducing duration concept for metadata
  locks. Particularly to the fact transactional sentinel was
  replaced with explicit duration.
sql/sql_handler.h:
  Renamed mysql_ha_move_tickets_after_trans_sentinel() to
  mysql_ha_set_explicit_lock_duration() after transactional
  sentinel was obsoleted by locks with explicit duration.
sql/sql_insert.cc:
  Adjusted code handling delaying inserts after switching to
  new GRL implementation. Now connection thread initiating
  delayed insert has to acquire global IX lock in addition
  to metadata lock on table being inserted into. This IX lock
  protects against GRL and similarly to SW lock on table being
  inserted into has to be passed to handler thread in order to
  avoid deadlocks.
sql/sql_lex.cc:
  LEX::protect_against_global_read_lock member is no longer
  necessary since protection against GRL is automatically
  taken by code acquiring metadata locks/opening tables.
sql/sql_lex.h:
  LEX::protect_against_global_read_lock member is no longer
  necessary since protection against GRL is automatically
  taken by code acquiring metadata locks/opening tables.
sql/sql_parse.cc:
  - Implemented support for new approach to acquiring protection
    against global read lock. We no longer acquire such protection
    explicitly on the basis of statement flags. Instead we always
    rely on code which is responsible for acquiring metadata locks
    on object to be changed acquiring this protection. This is
    achieved by acquiring global IX metadata lock with statement
    duration. This lock is automatically released at the end of
    statement execution.
  - Changed implementation of CREATE/DROP PROCEDURE/FUNCTION not
    to release metadata locks and thus protection against of GRL
    in the middle of statement execution.
  - Adjusted code to the fact that one now needs specify duration
    of lock when initializing MDL_request and to the fact that
    savepoints for MDL subsystem are now represented by
    MDL_savepoint class.
sql/sql_prepare.cc:
  Adjusted code to the to the fact that savepoints for MDL
  subsystem are now represented by MDL_savepoint class.
sql/sql_rename.cc:
  With new GRL implementation there is no need to explicitly
  acquire protection against GRL before renaming tables.
  This happens automatically in code which acquires metadata
  locks on tables being renamed.
sql/sql_show.cc:
  Adjusted code to the fact that one now needs specify duration
  of lock when initializing MDL_request and to the fact that
  savepoints for MDL subsystem are now represented by
  MDL_savepoint class.
sql/sql_table.cc:
  - With new GRL implementation there is no need to explicitly
    acquire protection against GRL before dropping tables.
    This happens automatically in code which acquires metadata
    locks on tables being dropped.
  - Changed mysql_alter_table() not to release lock on new table
    name explicitly and to rely on automatic release of locks
    at the end of statement instead. This was necessary since
    now MDL_context::release_lock() is supported only for locks
    for explicit duration.
sql/sql_trigger.cc:
  With new GRL implementation there is no need to explicitly
  acquire protection against GRL before changing table triggers.
  This happens automatically in code which acquires metadata
  locks on tables which triggers are to be changed.
sql/sql_update.cc:
  Fix bug exposed by GRL testing. During prepare phase acquire
  only S metadata locks instead of SW locks to keep prepare of
  multi-UPDATE compatible with concurrent LOCK TABLES WRITE
  and global read lock.
sql/sql_view.cc:
  With new GRL implementation there is no need to explicitly
  acquire protection against GRL before creating view.
  This happens automatically in code which acquires metadata
  lock on view to be created.
sql/sql_yacc.yy:
  LEX::protect_against_global_read_lock member is no longer
  necessary since protection against GRL is automatically
  taken by code acquiring metadata locks/opening tables.
sql/table.cc:
  Adjusted code to the fact that one now needs specify duration
  of lock when initializing MDL_request.
sql/table.h:
  Adjusted code to the fact that one now needs specify duration
  of lock when initializing MDL_request.
sql/transaction.cc:
  Replaced custom implementation of global read lock with
  one based on metadata locks. Consequently when doing
  commit instead of calling method of Global_read_lock
  class to acquire protection against GRL we simply acquire
  IX in COMMIT namespace.
  Also adjusted code to the fact that MDL savepoint is now
  represented by MDL_savepoint class.

1 files changed, 59 insertions, 303 deletions

diff --git a/sql/lock.cc b/sql/lock.cc
index 84cc24b3f61..2e141e1c9fb 100644
--- a/sql/lock.cc
+++ b/sql/lock.cc
@@ -777,8 +777,11 @@ bool lock_schema_name(THD *thd, const char *db)
     return TRUE;
   }
 
-  global_request.init(MDL_key::GLOBAL, "", "", MDL_INTENTION_EXCLUSIVE);
-  mdl_request.init(MDL_key::SCHEMA, db, "", MDL_EXCLUSIVE);
+  if (thd->global_read_lock.can_acquire_protection())
+    return TRUE;
+  global_request.init(MDL_key::GLOBAL, "", "", MDL_INTENTION_EXCLUSIVE,
+                      MDL_STATEMENT);
+  mdl_request.init(MDL_key::SCHEMA, db, "", MDL_EXCLUSIVE, MDL_TRANSACTION);
 
   mdl_requests.push_front(&mdl_request);
   mdl_requests.push_front(&global_request);
@@ -793,13 +796,13 @@ bool lock_schema_name(THD *thd, const char *db)
 
 
 /**
-  Obtain an exclusive metadata lock on the stored routine name.
+  Obtain an exclusive metadata lock on an object name.
 
   @param thd         Thread handle.
-  @param is_function Stored routine type (only functions or procedures
-                     are name-locked.
-  @param db          The schema the routine belongs to.
-  @param name        Routine name.
+  @param mdl_type    Object type (currently functions, procedures
+                     and events can be name-locked).
+  @param db          The schema the object belongs to.
+  @param name        Object name in the schema.
 
   This function assumes that no metadata locks were acquired
   before calling it. Additionally, it cannot be called while
@@ -815,12 +818,9 @@ bool lock_schema_name(THD *thd, const char *db)
                  or this connection was killed.
 */
 
-bool lock_routine_name(THD *thd, bool is_function,
+bool lock_object_name(THD *thd, MDL_key::enum_mdl_namespace mdl_type,
                        const char *db, const char *name)
 {
-  MDL_key::enum_mdl_namespace mdl_type= (is_function ?
-                                         MDL_key::FUNCTION :
-                                         MDL_key::PROCEDURE);
   MDL_request_list mdl_requests;
   MDL_request global_request;
   MDL_request schema_request;
@@ -836,9 +836,13 @@ bool lock_routine_name(THD *thd, bool is_function,
   DBUG_ASSERT(name);
   DEBUG_SYNC(thd, "before_wait_locked_pname");
 
-  global_request.init(MDL_key::GLOBAL, "", "", MDL_INTENTION_EXCLUSIVE);
-  schema_request.init(MDL_key::SCHEMA, db, "", MDL_INTENTION_EXCLUSIVE);
-  mdl_request.init(mdl_type, db, name, MDL_EXCLUSIVE);
+  if (thd->global_read_lock.can_acquire_protection())
+    return TRUE;
+  global_request.init(MDL_key::GLOBAL, "", "", MDL_INTENTION_EXCLUSIVE,
+                      MDL_STATEMENT);
+  schema_request.init(MDL_key::SCHEMA, db, "", MDL_INTENTION_EXCLUSIVE,
+                      MDL_TRANSACTION);
+  mdl_request.init(mdl_type, db, name, MDL_EXCLUSIVE, MDL_TRANSACTION);
 
   mdl_requests.push_front(&mdl_request);
   mdl_requests.push_front(&schema_request);
@@ -888,45 +892,24 @@ static void print_lock_error(int error, const char *table)
 /****************************************************************************
   Handling of global read locks
 
+  Global read lock is implemented using metadata lock infrastructure.
+
   Taking the global read lock is TWO steps (2nd step is optional; without
   it, COMMIT of existing transactions will be allowed):
   lock_global_read_lock() THEN make_global_read_lock_block_commit().
 
-  The global locks are handled through the global variables:
-  global_read_lock
-    count of threads which have the global read lock (i.e. have completed at
-    least the first step above)
-  global_read_lock_blocks_commit
-    count of threads which have the global read lock and block
-    commits (i.e. are in or have completed the second step above)
-  waiting_for_read_lock
-    count of threads which want to take a global read lock but cannot
-  protect_against_global_read_lock
-    count of threads which have set protection against global read lock.
-
-  access to them is protected with a mutex LOCK_global_read_lock
-
-  (XXX: one should never take LOCK_open if LOCK_global_read_lock is
-  taken, otherwise a deadlock may occur. Other mutexes could be a
-  problem too - grep the code for global_read_lock if you want to use
-  any other mutex here) Also one must not hold LOCK_open when calling
-  wait_if_global_read_lock(). When the thread with the global read lock
-  tries to close its tables, it needs to take LOCK_open in
-  close_thread_table().
-
   How blocking of threads by global read lock is achieved: that's
-  advisory. Any piece of code which should be blocked by global read lock must
-  be designed like this:
-  - call to wait_if_global_read_lock(). When this returns 0, no global read
-  lock is owned; if argument abort_on_refresh was 0, none can be obtained.
-  - job
-  - if abort_on_refresh was 0, call to start_waiting_global_read_lock() to
-  allow other threads to get the global read lock. I.e. removal of the
-  protection.
-  (Note: it's a bit like an implementation of rwlock).
-
-  [ I am sorry to mention some SQL syntaxes below I know I shouldn't but found
-  no better descriptive way ]
+  semi-automatic. We assume that any statement which should be blocked
+  by global read lock will either open and acquires write-lock on tables
+  or acquires metadata locks on objects it is going to modify. For any
+  such statement global IX metadata lock is automatically acquired for
+  its duration (in case of LOCK TABLES until end of LOCK TABLES mode).
+  And lock_global_read_lock() simply acquires global S metadata lock
+  and thus prohibits execution of statements which modify data (unless
+  they modify only temporary tables). If deadlock happens it is detected
+  by MDL subsystem and resolved in the standard fashion (by backing-off
+  metadata locks acquired so far and restarting open tables process
+  if possible).
 
   Why does FLUSH TABLES WITH READ LOCK need to block COMMIT: because it's used
   to read a non-moving SHOW MASTER STATUS, and a COMMIT writes to the binary
@@ -960,11 +943,6 @@ static void print_lock_error(int error, const char *table)
 
 ****************************************************************************/
 
-volatile uint global_read_lock=0;
-volatile uint global_read_lock_blocks_commit=0;
-static volatile uint protect_against_global_read_lock=0;
-static volatile uint waiting_for_read_lock=0;
-
 /**
   Take global read lock, wait if there is protection against lock.
 
@@ -985,84 +963,17 @@ bool Global_read_lock::lock_global_read_lock(THD *thd)
   if (!m_state)
   {
     MDL_request mdl_request;
-    const char *old_message;
-    const char *new_message= "Waiting to get readlock";
-    (void) mysql_mutex_lock(&LOCK_global_read_lock);
-
-    old_message= thd->enter_cond(&COND_global_read_lock,
-                                 &LOCK_global_read_lock, new_message);
-    DBUG_PRINT("info",
-               ("waiting_for: %d  protect_against: %d",
-                waiting_for_read_lock, protect_against_global_read_lock));
-
-    waiting_for_read_lock++;
-
-#if defined(ENABLED_DEBUG_SYNC)
-    /*
-      The below sync point fires if we have to wait for
-      protect_against_global_read_lock.
-
-      WARNING: Beware to use WAIT_FOR with this sync point. We hold
-      LOCK_global_read_lock here.
-
-      The sync point is after enter_cond() so that proc_info is
-      available immediately after the sync point sends a SIGNAL. This
-      can make tests more reliable.
-
-      The sync point is before the loop so that it is executed only once.
-    */
-    if (protect_against_global_read_lock && !thd->killed)
-    {
-      DEBUG_SYNC(thd, "wait_lock_global_read_lock");
-    }
-#endif /* defined(ENABLED_DEBUG_SYNC) */
-
-    while (protect_against_global_read_lock && !thd->killed)
-      mysql_cond_wait(&COND_global_read_lock, &LOCK_global_read_lock);
-    waiting_for_read_lock--;
-    if (thd->killed)
-    {
-      thd->exit_cond(old_message);
-      DBUG_RETURN(1);
-    }
-    m_state= GRL_ACQUIRED;
-    global_read_lock++;
-    thd->exit_cond(old_message); // this unlocks LOCK_global_read_lock
-    /*
-      When we perform FLUSH TABLES or ALTER TABLE under LOCK TABLES,
-      tables being reopened are protected only by meta-data locks at
-      some point. To avoid sneaking in with our global read lock at
-      this moment we have to take global shared meta data lock.
-
-      TODO: We should change this code to acquire global shared metadata
-            lock before acquiring global read lock. But in order to do
-            this we have to get rid of all those places in which
-            wait_if_global_read_lock() is called before acquiring
-            metadata locks first. Also long-term we should get rid of
-            redundancy between metadata locks, global read lock and DDL
-            blocker (see WL#4399 and WL#4400).
-    */
 
     DBUG_ASSERT(! thd->mdl_context.is_lock_owner(MDL_key::GLOBAL, "", "",
                                                  MDL_SHARED));
-    mdl_request.init(MDL_key::GLOBAL, "", "", MDL_SHARED);
+    mdl_request.init(MDL_key::GLOBAL, "", "", MDL_SHARED, MDL_EXPLICIT);
 
     if (thd->mdl_context.acquire_lock(&mdl_request,
                                       thd->variables.lock_wait_timeout))
-    {
-      /* Our thread was killed -- return back to initial state. */
-      mysql_mutex_lock(&LOCK_global_read_lock);
-      if (!(--global_read_lock))
-      {
-        DBUG_PRINT("signal", ("Broadcasting COND_global_read_lock"));
-        mysql_cond_broadcast(&COND_global_read_lock);
-      }
-      mysql_mutex_unlock(&LOCK_global_read_lock);
-      m_state= GRL_NONE;
       DBUG_RETURN(1);
-    }
-    thd->mdl_context.move_ticket_after_trans_sentinel(mdl_request.ticket);
+
     m_mdl_global_shared_lock= mdl_request.ticket;
+    m_state= GRL_ACQUIRED;
   }
   /*
     We DON'T set global_read_lock_blocks_commit now, it will be set after
@@ -1088,166 +999,22 @@ bool Global_read_lock::lock_global_read_lock(THD *thd)
 
 void Global_read_lock::unlock_global_read_lock(THD *thd)
 {
-  uint tmp;
   DBUG_ENTER("unlock_global_read_lock");
-  DBUG_PRINT("info",
-             ("global_read_lock: %u  global_read_lock_blocks_commit: %u",
-              global_read_lock, global_read_lock_blocks_commit));
 
   DBUG_ASSERT(m_mdl_global_shared_lock && m_state);
 
-  thd->mdl_context.release_lock(m_mdl_global_shared_lock);
-  m_mdl_global_shared_lock= NULL;
-
-  mysql_mutex_lock(&LOCK_global_read_lock);
-  tmp= --global_read_lock;
-  if (m_state == GRL_ACQUIRED_AND_BLOCKS_COMMIT)
-    --global_read_lock_blocks_commit;
-  mysql_mutex_unlock(&LOCK_global_read_lock);
-  /* Send the signal outside the mutex to avoid a context switch */
-  if (!tmp)
+  if (m_mdl_blocks_commits_lock)
   {
-    DBUG_PRINT("signal", ("Broadcasting COND_global_read_lock"));
-    mysql_cond_broadcast(&COND_global_read_lock);
+    thd->mdl_context.release_lock(m_mdl_blocks_commits_lock);
+    m_mdl_blocks_commits_lock= NULL;
   }
+  thd->mdl_context.release_lock(m_mdl_global_shared_lock);
+  m_mdl_global_shared_lock= NULL;
   m_state= GRL_NONE;
 
   DBUG_VOID_RETURN;
 }
 
-/**
-  Wait if the global read lock is set, and optionally seek protection against
-  global read lock.
-
-  See also "Handling of global read locks" above.
-
-  @param thd              Reference to thread.
-  @param abort_on_refresh If True, abort waiting if a refresh occurs,
-                          do NOT seek protection against GRL.
-                          If False, wait until the GRL is released and seek
-                          protection against GRL.
-  @param is_not_commit    If False, called from a commit operation,
-                          wait only if commit blocking is also enabled.
-
-  @retval False  Success, protection against global read lock is set
-                          (if !abort_on_refresh)
-  @retval True   Failure, wait was aborted or thread was killed.
-*/
-
-#define must_wait (global_read_lock &&                             \
-                   (is_not_commit ||                               \
-                    global_read_lock_blocks_commit))
-
-bool Global_read_lock::
-wait_if_global_read_lock(THD *thd, bool abort_on_refresh,
-                         bool is_not_commit)
-{
-  const char *UNINIT_VAR(old_message);
-  bool result= 0, need_exit_cond;
-  DBUG_ENTER("wait_if_global_read_lock");
-
-  /*
-    If we already have protection against global read lock,
-    just increment the counter.
-  */
-  if (unlikely(m_protection_count > 0))
-  {
-    if (!abort_on_refresh)
-      m_protection_count++;
-    DBUG_RETURN(FALSE);
-  }
-  /*
-    Assert that we do not own LOCK_open. If we would own it, other
-    threads could not close their tables. This would make a pretty
-    deadlock.
-  */
-  mysql_mutex_assert_not_owner(&LOCK_open);
-
-  mysql_mutex_lock(&LOCK_global_read_lock);
-  if ((need_exit_cond= must_wait))
-  {
-    if (m_state)		// This thread had the read locks
-    {
-      if (is_not_commit)
-        my_message(ER_CANT_UPDATE_WITH_READLOCK,
-                   ER(ER_CANT_UPDATE_WITH_READLOCK), MYF(0));
-      mysql_mutex_unlock(&LOCK_global_read_lock);
-      /*
-        We allow FLUSHer to COMMIT; we assume FLUSHer knows what it does.
-        This allowance is needed to not break existing versions of innobackup
-        which do a BEGIN; INSERT; FLUSH TABLES WITH READ LOCK; COMMIT.
-      */
-      DBUG_RETURN(is_not_commit);
-    }
-    old_message=thd->enter_cond(&COND_global_read_lock, &LOCK_global_read_lock,
-				"Waiting for release of readlock");
-    while (must_wait && ! thd->killed &&
-	   (!abort_on_refresh || !thd->open_tables ||
-            thd->open_tables->s->version == refresh_version))
-    {
-      DBUG_PRINT("signal", ("Waiting for COND_global_read_lock"));
-      mysql_cond_wait(&COND_global_read_lock, &LOCK_global_read_lock);
-      DBUG_PRINT("signal", ("Got COND_global_read_lock"));
-    }
-    if (thd->killed)
-      result=1;
-  }
-  if (!abort_on_refresh && !result)
-  {
-    m_protection_count++;
-    protect_against_global_read_lock++;
-    DBUG_PRINT("sql_lock", ("protect_against_global_read_lock incr: %u",
-                            protect_against_global_read_lock));
-  }
-  /*
-    The following is only true in case of a global read locks (which is rare)
-    and if old_message is set
-  */
-  if (unlikely(need_exit_cond))
-    thd->exit_cond(old_message); // this unlocks LOCK_global_read_lock
-  else
-    mysql_mutex_unlock(&LOCK_global_read_lock);
-  DBUG_RETURN(result);
-}
-
-
-/**
-  Release protection against global read lock and restart
-  global read lock waiters.
-
-  Should only be called if we have protection against global read lock.
-
-  See also "Handling of global read locks" above.
-
-  @param thd     Reference to thread.
-*/
-
-void Global_read_lock::start_waiting_global_read_lock(THD *thd)
-{
-  bool tmp;
-  DBUG_ENTER("start_waiting_global_read_lock");
-  /*
-    Ignore request if we do not have protection against global read lock.
-    (Note that this is a violation of the interface contract, hence the assert).
-  */
-  DBUG_ASSERT(m_protection_count > 0);
-  if (unlikely(m_protection_count == 0))
-    DBUG_VOID_RETURN;
-  /* Decrement local read lock protection counter, return if we still have it */
-  if (unlikely(--m_protection_count > 0))
-    DBUG_VOID_RETURN;
-  if (unlikely(m_state))
-    DBUG_VOID_RETURN;
-  mysql_mutex_lock(&LOCK_global_read_lock);
-  DBUG_ASSERT(protect_against_global_read_lock);
-  tmp= (!--protect_against_global_read_lock &&
-        (waiting_for_read_lock || global_read_lock_blocks_commit));
-  mysql_mutex_unlock(&LOCK_global_read_lock);
-  if (tmp)
-    mysql_cond_broadcast(&COND_global_read_lock);
-  DBUG_VOID_RETURN;
-}
-
 
 /**
   Make global read lock also block commits.
@@ -1266,8 +1033,7 @@ void Global_read_lock::start_waiting_global_read_lock(THD *thd)
 
 bool Global_read_lock::make_global_read_lock_block_commit(THD *thd)
 {
-  bool error;
-  const char *old_message;
+  MDL_request mdl_request;
   DBUG_ENTER("make_global_read_lock_block_commit");
   /*
     If we didn't succeed lock_global_read_lock(), or if we already suceeded
@@ -1275,42 +1041,32 @@ bool Global_read_lock::make_global_read_lock_block_commit(THD *thd)
   */
   if (m_state != GRL_ACQUIRED)
     DBUG_RETURN(0);
-  mysql_mutex_lock(&LOCK_global_read_lock);
-  /* increment this BEFORE waiting on cond (otherwise race cond) */
-  global_read_lock_blocks_commit++;
-  /* For testing we set up some blocking, to see if we can be killed */
-  DBUG_EXECUTE_IF("make_global_read_lock_block_commit_loop",
-                  protect_against_global_read_lock++;);
-  old_message= thd->enter_cond(&COND_global_read_lock, &LOCK_global_read_lock,
-                               "Waiting for all running commits to finish");
-  while (protect_against_global_read_lock && !thd->killed)
-    mysql_cond_wait(&COND_global_read_lock, &LOCK_global_read_lock);
-  DBUG_EXECUTE_IF("make_global_read_lock_block_commit_loop",
-                  protect_against_global_read_lock--;);
-  if ((error= test(thd->killed)))
-    global_read_lock_blocks_commit--; // undo what we did
-  else
-    m_state= GRL_ACQUIRED_AND_BLOCKS_COMMIT;
-  thd->exit_cond(old_message); // this unlocks LOCK_global_read_lock
-  DBUG_RETURN(error);
+
+  mdl_request.init(MDL_key::COMMIT, "", "", MDL_SHARED, MDL_EXPLICIT);
+
+  if (thd->mdl_context.acquire_lock(&mdl_request,
+                                    thd->variables.lock_wait_timeout))
+    DBUG_RETURN(TRUE);
+
+  m_mdl_blocks_commits_lock= mdl_request.ticket;
+  m_state= GRL_ACQUIRED_AND_BLOCKS_COMMIT;
+
+  DBUG_RETURN(FALSE);
 }
 
 
 /**
-  Broadcast COND_global_read_lock.
-
-  TODO/FIXME: Dmitry thinks that we broadcast on COND_global_read_lock
-              when old instance of table is closed to avoid races
-              between incrementing refresh_version and
-              wait_if_global_read_lock(thd, TRUE, FALSE) call.
-              Once global read lock implementation starts using MDL
-              infrastructure this will became unnecessary and should
-              be removed.
+  Set explicit duration for metadata locks which are used to implement GRL.
+
+  @param thd     Reference to thread.
 */
 
-void broadcast_refresh(void)
+void Global_read_lock::set_explicit_lock_duration(THD *thd)
 {
-  mysql_cond_broadcast(&COND_global_read_lock);
+  if (m_mdl_global_shared_lock)
+    thd->mdl_context.set_lock_duration(m_mdl_global_shared_lock, MDL_EXPLICIT);
+  if (m_mdl_blocks_commits_lock)
+    thd->mdl_context.set_lock_duration(m_mdl_blocks_commits_lock, MDL_EXPLICIT);
 }
 
 /**