Check whether the master and purge thread are active after creating them. Do
not proceed until both threads have started. We do this by checking whether a
slot has been reserved by both the respective threads.
Add srv_thread_has_reserved_slot() returns slot no or ULINT_UNDEFINED.
rb://536 Approved by Jimmy
Check whether the master and purge thread are active after creating them. Do
not proceed until both threads have started. We do this by checking whether a
slot has been reserved by both the respective threads.
Add srv_thread_has_reserved_slot() returns slot no or ULINT_UNDEFINED.
rb://536 Approved by Jimmy
InnoDB does not attempt to handle lower_case_table_names == 2 when looking
up foreign table names and referenced table name. It turned that server
variable into a boolean and ignored the possibility of it being '2'.
The setting lower_case_table_names == 2 means that it should be stored and
displayed in mixed case as given, but compared internally in lower case.
Normally the server deals with this since it stores table names. But
InnoDB stores referential constraints for the server, so it needs to keep
track of both lower case and given names.
This solution creates two table name pointers for each foreign and referenced
table name. One to display the name, and one to look it up. Both pointers
point to the same allocated string unless this setting is 2. So the overhead
added is not too much.
Two functions are created in dict0mem.c to populate the ..._lookup versions
of these pointers. Both dict_mem_foreign_table_name_lookup_set() and
dict_mem_referenced_table_name_lookup_set() are called 5 times each.
InnoDB does not attempt to handle lower_case_table_names == 2 when looking
up foreign table names and referenced table name. It turned that server
variable into a boolean and ignored the possibility of it being '2'.
The setting lower_case_table_names == 2 means that it should be stored and
displayed in mixed case as given, but compared internally in lower case.
Normally the server deals with this since it stores table names. But
InnoDB stores referential constraints for the server, so it needs to keep
track of both lower case and given names.
This solution creates two table name pointers for each foreign and referenced
table name. One to display the name, and one to look it up. Both pointers
point to the same allocated string unless this setting is 2. So the overhead
added is not too much.
Two functions are created in dict0mem.c to populate the ..._lookup versions
of these pointers. Both dict_mem_foreign_table_name_lookup_set() and
dict_mem_referenced_table_name_lookup_set() are called 5 times each.
Fix a race condition in srv_master_thread(). We need to acquire the kernel
mutex before calling srv_table_reserve_slot(). Add a mutex_own() assertion
in srv_table_reserve_slot().
Fix a race condition in srv_master_thread(). We need to acquire the kernel
mutex before calling srv_table_reserve_slot(). Add a mutex_own() assertion
in srv_table_reserve_slot().
Add new function os_cond_wait_timed(). Change the os_thread_sleep() calls
to timed conditional waits. Signal the background threads during the shutdown
phase so that we avoid waiting for the sleep to timeout thus saving some time.
rb://439 -- Approved by Jimmy Yang
Add new function os_cond_wait_timed(). Change the os_thread_sleep() calls
to timed conditional waits. Signal the background threads during the shutdown
phase so that we avoid waiting for the sleep to timeout thus saving some time.
rb://439 -- Approved by Jimmy Yang
Issue an error message to the error log when
trx->dict_operation_lock_mode == RW_X_LATCH in
srv_suspend_mysql_thread(). Transactions that modify InnoDB
data dictionary tables must be free of lock waits, because they
must be holding the data dictionary latch in exclusive mode.
The transactions must not be accessing any other tables other than
the data dictionary tables.
The handling of RW_X_LATCH was accidentally added in the InnoDB Plugin,
as a wrong fix of an assertion failure. (Fast index creation was accessing
both data dictionary tables and user tables in the same transaction.)
Issue an error message to the error log when
trx->dict_operation_lock_mode == RW_X_LATCH in
srv_suspend_mysql_thread(). Transactions that modify InnoDB
data dictionary tables must be free of lock waits, because they
must be holding the data dictionary latch in exclusive mode.
The transactions must not be accessing any other tables other than
the data dictionary tables.
The handling of RW_X_LATCH was accidentally added in the InnoDB Plugin,
as a wrong fix of an assertion failure. (Fast index creation was accessing
both data dictionary tables and user tables in the same transaction.)
Silence the UNIV_SYNC_DEBUG assertion failure while upgrading old data files
to multiple rollback segments during server startup. Because the upgrade
takes place while InnoDB is running a single thread, we can safely ignore the
latching order checks without fearing deadlocks.
innobase_start_or_create_for_mysql(): Set srv_is_being_started = FALSE
only after trx_sys_create_rsegs() has completed.
sync_thread_add_level(): If srv_is_being_started, ignore latching order
violations for SYNC_TRX_SYS_HEADER and SYNC_IBUF_BITMAP.
Create all the non-IO threads after creating the extra rollback segments.
Patch originally from Marko with some additions by Sunny.
Silence the UNIV_SYNC_DEBUG assertion failure while upgrading old data files
to multiple rollback segments during server startup. Because the upgrade
takes place while InnoDB is running a single thread, we can safely ignore the
latching order checks without fearing deadlocks.
innobase_start_or_create_for_mysql(): Set srv_is_being_started = FALSE
only after trx_sys_create_rsegs() has completed.
sync_thread_add_level(): If srv_is_being_started, ignore latching order
violations for SYNC_TRX_SYS_HEADER and SYNC_IBUF_BITMAP.
Create all the non-IO threads after creating the extra rollback segments.
Patch originally from Marko with some additions by Sunny.
This patch was originally developed by Vladislav Vaintroub.
The main changes are:
* Use TryEnterCriticalSection in os_fast_mutex_trylock().
* Use lightweight condition variables on Vista or later Windows;
but fall back to events on older Windows, such as XP.
This patch also fixes the following bugs:
bug# 52102 InnoDB Plugin shows performance drop compared to InnoDB
on Windows
bug# 53204 os_fastmutex_trylock is implemented incorrectly on Windows
rb://363 approved by Inaam Rana
This patch was originally developed by Vladislav Vaintroub.
The main changes are:
* Use TryEnterCriticalSection in os_fast_mutex_trylock().
* Use lightweight condition variables on Vista or later Windows;
but fall back to events on older Windows, such as XP.
This patch also fixes the following bugs:
bug# 52102 InnoDB Plugin shows performance drop compared to InnoDB
on Windows
bug# 53204 os_fastmutex_trylock is implemented incorrectly on Windows
rb://363 approved by Inaam Rana
