In MySQL 5.7.8 an extra level of pointer indirection was added to
dict_operation_lock and some other rw_lock_t without solid justification,
in mysql/mysql-server@52720f1772.
Let us revert that change and remove the rather useless rw_lock_t
constructor and destructor and the magic_n field. In this way,
some unnecessary pointer dereferences and heap allocation will be avoided
and debugging might be a little easier.
Some places didn't match the previous rules, making the Floor
address wrong.
Additional sed rules:
sed -i -e 's/Place.*Suite .*, Boston/Street, Fifth Floor, Boston/g'
sed -i -e 's/Suite .*, Boston/Fifth Floor, Boston/g'
rw_lock_x_lock_wait_func(): remove duplicated logic added in incorrect merge
Affected counters are affected by InnoDB monitor. But they aren't stable and thus
can not be realiably tested.
rw_lock_get_debug_info(): Remove. This function is inherently unsafe
to use, because the copied pointers can become stale between
rw_lock_debug_mutex_exit() and the dereferencing of the pointer in
the caller.
Problem was that we could take page latches on different
order than wat is entitled with SX-lock. To follow the
latching order defined in WL#6326, acquire index->lock X-latch.
This entitles us to acquire page latches in any order for the index.
btr0btr.cc
Document latch rules before and after MariaDB 10.2.2
sync0rw.cc
Document latch compatibility rules better.
btr_defragment_merge_pages
Fix parameter value.
btr_defragment_thread
Acquire X-lock to dict_index_t::lock before restoring
cursor position and continuing defragmentation.
ha_innobase::optimize
Restore defragment feature.
Testing
Add GIS-index and FT-index to table being defragmented.
Defragmentation is not done to GIS-indexes and FT auxiliary
tables.
The parameter --innodb-sync-debug, which is disabled by default,
aims to find potential deadlocks in InnoDB.
When the parameter is enabled, lots of tests failed. Most of these
failures were due to bogus diagnostics. But, as part of this fix,
we are also fixing a bug in error handling code and removing dead
code, and fixing cases where an uninitialized mutex was being
locked and unlocked.
dict_create_foreign_constraints_low(): Remove an extraneous
mutex_exit() call that could cause corruption in an error handling
path. Also, do not unnecessarily acquire dict_foreign_err_mutex.
Its only purpose is to control concurrent access to
dict_foreign_err_file.
row_ins_foreign_trx_print(): Replace a redundant condition with a
debug assertion.
srv_dict_tmpfile, srv_dict_tmpfile_mutex: Remove. The
temporary file is never being written to or read from.
log_free_check(): Allow SYNC_FTS_CACHE (fts_cache_t::lock)
to be held.
ha_innobase::inplace_alter_table(), row_merge_insert_index_tuples():
Assert that no unexpected latches are being held.
sync_latch_meta_init(): Properly initialize dict_operation_lock_key
at SYNC_DICT_OPERATION. dict_sys->mutex is SYNC_DICT, and
the now-removed SRV_DICT_TMPFILE was wrongly registered at
SYNC_DICT_OPERATION.
buf_block_init(): Correctly register buf_block_t::debug_latch.
It was previously misleadingly reported as LATCH_ID_DICT_FOREIGN_ERR.
latch_level_t: Correct the relative latching order of
SYNC_IBUF_PESS_INSERT_MUTEX,SYNC_INDEX_TREE and
SYNC_FILE_FORMAT_TAG,SYNC_DICT_OPERATION to avoid bogus failures.
row_drop_table_for_mysql(): Avoid accessing btr_defragment_mutex
if the defragmentation thread has not been started. This is the
case during fts_drop_orphaned_tables() in recv_recovery_rollback_active().
fil_space_destroy_crypt_data(): Avoid acquiring fil_crypt_threads_mutex
when it is uninitialized. We may have created crypt_data before the
mutex was created, and the mutex creation would be skipped if
InnoDB startup failed or --innodb-read-only was specified.
buf_page_io_complete(): Do not test bpage for NULL, because
it is declared (and always passed) as nonnull.
buf_flush_batch(): Remove the constant local variable count=0.
fil_ibd_load(): Use magic comment to suppress -Wimplicit-fallthrough.
ut_stage_alter_t::inc(ulint): Disable references to an unused parameter.
lock_queue_validate(), sync_array_find_thread(), rbt_check_ordering():
Define only in debug builds.
When the btr_search_latch was split into an array of latches
in MySQL 5.7.8 as part of the Oracle Bug#20985298 fix, the "caching"
of the latch across storage engine API calls was removed, and
the field trx->has_search_latch would only be set during a short
time frame in the execution of row_search_mvcc(), which was
formerly called row_search_for_mysql().
This means that the column
INFORMATION_SCHEMA.INNODB_TRX.TRX_ADAPTIVE_HASH_LATCHED will always
report 0. That column cannot be removed in MariaDB 10.2, but it
can be removed in future releases.
trx_t::has_search_latch: Remove.
trx_assert_no_search_latch(): Remove.
row_sel_try_search_shortcut_for_mysql(): Remove a redundant condition
on trx->has_search_latch (it was always true).
sync_check_iterate(): Make the parameter const.
sync_check_functor_t: Make the operator() const, and remove result()
and the virtual destructor. There is no need to have mutable state
in the functors.
sync_checker<bool>: Replaces dict_sync_check and btrsea_sync_check.
sync_check: Replaces btrsea_sync_check.
dict_sync_check: Instantiated from sync_checker.
sync_allowed_latches: Use std::find() directly on the array.
Remove the std::vector.
TrxInInnoDB::enter(), TrxInInnoDB::exit(): Remove obviously redundant
debug assertions on trx->in_depth, and use equality comparison against 0
because it could be more efficient on some architectures.
Do not silence uncertain cases, or fix any bugs.
The only functional change should be that ha_federated::extra()
is not calling DBUG_PRINT to report an unhandled case for
HA_EXTRA_PREPARE_FOR_DROP.
rw_lock_free_func(): Assign lock->magic_n = 0 in debug builds,
because sometimes, the assignment in the explicit destructor call
is being optimized away.
This was verified when using GCC 6.3.0 with -O3 -g -mtune=native
on a Debian GNU/Linux 9.0 system on AMD64.
Issue:
======
Disabling macros such as UNIV_PFS_MUTEX/UNIV_PFS_RWLOCK/UNIV_PFS_THREAD
which are defined in InnoDB throws errors during compilation.
Fix:
====
Fix all the compilation errors.
RB: 14893
Reviewed-by: Jimmy Yang <Jimmy.Yang@oracle.com>
Reviewed-by: Satya Bodapati <satya.bodapati@oracle.com>
Problem: Some instantiations of std::map have discrepancies between
the value_type of the map and the value_type of the map's allocator.
On FreeBSD 11 this is detected by Clang, and an error is raised at
compilation time.
Fix: Specify the correct value_type for the allocators.
Also fix an unused variable warning in storage/innobase/os/os0file.cc.
Alias the InnoDB ulint and lint data types to size_t and ssize_t,
which are the standard names for the machine-word-width data types.
Correspondingly, define ULINTPF as "%zu" and introduce ULINTPFx as "%zx".
In this way, better compiler warnings for type mismatch are possible.
Furthermore, use PRIu64 for that 64-bit format, and define
the feature macro __STDC_FORMAT_MACROS to enable it on Red Hat systems.
Fix some errors in error messages, and replace some error messages
with assertions.
Most notably, an IMPORT TABLESPACE error message in InnoDB was
displaying the number of columns instead of the mismatching flags.
Define UNIV_WORD_SIZE as a simple alias to SIZEOF_SIZE_T.
In MariaDB 10.0 and 10.1, it was incorrectly defined as 4 on
64-bit Windows.
MONITOR_OS_PENDING_READS, MONITOR_OS_PENDING_WRITES: Enable by default.
os_n_pending_reads, os_n_pending_writes: Remove.
Use the monitor counters instead.
Allow 64-bit atomic operations on 32-bit systems,
only relying on HAVE_ATOMIC_BUILTINS_64, disregarding
the width of the register file.
Define UNIV_WORD_SIZE correctly on all systems, including Windows.
In MariaDB 10.0 and 10.1, it was incorrectly defined as 4 on
64-bit Windows.
Define HAVE_ATOMIC_BUILTINS_64 on Windows
(64-bit atomics are available on both 32-bit and 64-bit Windows
platforms; the operations were unnecessarily disabled even on
64-bit Windows).
MONITOR_OS_PENDING_READS, MONITOR_OS_PENDING_WRITES: Enable by default.
os_file_n_pending_preads, os_file_n_pending_pwrites,
os_n_pending_reads, os_n_pending_writes: Remove.
Use the monitor counters instead.
os_file_count_mutex: Remove. On a system that does not support
64-bit atomics, monitor_mutex will be used instead.
InnoDB defines some functions that are not called at all.
Other functions are called, but only from the same compilation unit.
Remove some function declarations and definitions, and add 'static'
keywords. Some symbols must be kept for separately compiled tools,
such as innochecksum.
Also, remove empty .ic files that were not removed by my MySQL commit.
Problem:
InnoDB used to support a compilation mode that allowed to choose
whether the function definitions in .ic files are to be inlined or not.
This stopped making sense when InnoDB moved to C++ in MySQL 5.6
(and ha_innodb.cc started to #include .ic files), and more so in
MySQL 5.7 when inline methods and functions were introduced
in .h files.
Solution:
Remove all references to UNIV_NONINL and UNIV_MUST_NOT_INLINE from
all files, assuming that the symbols are never defined.
Remove the files fut0fut.cc and ut0byte.cc which only mattered when
UNIV_NONINL was defined.
Also, implement MDEV-11027 a little differently from 5.5 and 10.0:
recv_apply_hashed_log_recs(): Change the return type back to void
(DB_SUCCESS was always returned).
Report progress also via systemd using sd_notifyf().
Define my_thread_id as an unsigned type, to avoid mismatch with
ulonglong. Change some parameters to this type.
Use size_t in a few more places.
Declare many flag constants as unsigned to avoid sign mismatch
when shifting bits or applying the unary ~ operator.
When applying the unary ~ operator to enum constants, explictly
cast the result to an unsigned type, because enum constants can
be treated as signed.
In InnoDB, change the source code line number parameters from
ulint to unsigned type. Also, make some InnoDB functions return
a narrower type (unsigned or uint32_t instead of ulint;
bool instead of ibool).
MDEV-7618 introduced configuration parameter innodb_instrument_semaphores
in MariaDB Server 10.1. The parameter seems to only affect the rw-lock
X-latch acquisition. Extra fields are added to rw_lock_t to remember one
X-latch holder or waiter. These fields are not being consulted or reported
anywhere. This is basically only adding code bloat.
If the intention is to debug hangs or deadlocks, we have better tools for
that in the debug server, and for the non-debug server, core dumps can
reveal a lot. For example, the mini-transaction memo records the
currently held buffer block or index rw-locks, to be released at
mtr_t::commit().
The configuration parameter innodb_instrument_semaphores will be
deprecated in 10.2.5 and removed in 10.3.0.
rw_lock_t: Remove the members lock_name, file_name, line, thread_id
which did not affect any output.
The function trx_purge_stop() was calling os_event_reset(purge_sys->event)
before calling rw_lock_x_lock(&purge_sys->latch). The os_event_set()
call in srv_purge_coordinator_suspend() is protected by that X-latch.
It would seem a good idea to consistently protect both os_event_set()
and os_event_reset() calls with a common mutex or rw-lock in those
cases where os_event_set() and os_event_reset() are used
like condition variables, tied to changes of shared state.
For each os_event_t, we try to document the mutex or rw-lock that is
being used. For some events, frequent calls to os_event_set() seem to
try to avoid hangs. Some events are never waited for infinitely, only
timed waits, and os_event_set() is used for early termination of these
waits.
os_aio_simulated_put_read_threads_to_sleep(): Define as a null macro
on other systems than Windows. TODO: remove this altogether and disable
innodb_use_native_aio on Windows.
os_aio_segment_wait_events[]: Initialize only if innodb_use_native_aio=0.
MariaDB will likely never support MySQL-style encryption for
InnoDB, because we cannot link with the Oracle encryption plugin.
This is preparation for merging MDEV-11623.
fil_space_crypt_cleanup(): Call mutex_free() to pair with
fil_space_crypt_init().
fil_space_destroy_crypt_data(): Call mutex_free() to pair with
fil_space_create_crypt_data() and fil_space_read_crypt_data().
fil_crypt_threads_cleanup(): Call mutex_free() to pair with
fil_crypt_threads_init().
fil_space_free_low(): Invoke fil_space_destroy_crypt_data().
fil_close(): Invoke fil_space_crypt_cleanup(), just like
fil_init() invoked fil_space_crypt_init().
Datafile::shutdown(): Set m_crypt_info=NULL without dereferencing
the pointer. The object will be freed along with the fil_space_t
in fil_space_free_low().
Remove some unnecessary conditions (ut_free(NULL) is OK).
srv_shutdown_all_bg_threads(): Shut down the encryption threads
by calling fil_crypt_threads_end().
srv_shutdown_bg_undo_sources(): Do not prematurely call
fil_crypt_threads_end(). Many pages can still be written by
change buffer merge, rollback of incomplete transactions, and
purge, especially in slow shutdown (innodb_fast_shutdown=0).
innobase_shutdown_for_mysql(): Call fil_crypt_threads_cleanup()
also when innodb_read_only=1, because the threads will have been
created also in that case.
sync_check_close(): Re-enable the invocation of sync_latch_meta_destroy()
to free the mutex list.
Threads may fall asleep forever while acquiring InnoDB rw-lock on Power8. This
regression was introduced along with InnoDB atomic operations fixes.
The problem was that proper memory order wasn't enforced between "writers"
store and "lock_word" load:
my_atomic_store32((int32*) &lock->waiters, 1);
...
local_lock_word = lock->lock_word;
Locking protocol is such that store to "writers" must be completed before load
of "lock_word". my_atomic_store32() was expected to enforce memory order because
it issues strongest MY_MEMORY_ORDER_SEQ_CST memory barrier.
According to C11:
- any operation with this memory order is both an acquire operation and a
release operation
- for atomic store order must be one of memory_order_relaxed
memory_order_release or memory_order_seq_cst. Otherwise the behavior is
undefined.
That is it doesn't say explicitly that this expectation is wrong, but there are
indications that acquire (which is actually supposed to guarantee memory order
in this case) may not be issued along with MY_MEMORY_ORDER_SEQ_CST.
A good fix for this is to encode waiters into lock_word, but it is a bit too
intrusive. Instead we change atomic store to atomic fetch-and-store, which
does memory load and is guaranteed to issue acquire.
Simplify away recursive flag: it is not necessary for rw-locks to operate
properly. Now writer_thread != 0 means recursive.
As we only need correct value of writer_thread only in writer_thread itself
it is rather safe to load and update it non-atomically.
This patch also fixes potential reorder of "writer_thread" and "recursive"
loads (aka MDEV-7148), which was reopened along with InnoDB thread fences
simplification. Previous versions are unaffected, because they have os_rmb
in rw_lock_lock_word_decr(). It wasn't observed at the moment of writing
though.
In InnoDB and XtraDB functions that declare pointer parameters as nonnull,
remove nullness checks, because GCC would optimize them away anyway.
Use #ifdef instead of #if when checking for a configuration flag.
Clang says that left shifts of negative values are undefined.
So, use ~0U instead of ~0 in a number of macros.
Some functions that were defined as UNIV_INLINE were declared as
UNIV_INTERN. Consistently use the same type of linkage.
ibuf_merge_or_delete_for_page() could pass bitmap_page=NULL to
buf_page_print(), conflicting with the __attribute__((nonnull)).
On PPC64 high-loaded server may crash due to assertion failure in InnoDB
rwlocks code.
This happened because load order between "recursive" and "writer_thread"
wasn't properly enforced.
Clean-up periodic mutex/rwlock waiters wake up. This was a hack needed to
workaround broken mutexes/rwlocks implementation. We must have sane
implementations now and don't need these anymore: release thread is
guaranteed to wake up waiters.
Removed redundant ifdef that has equivalent code in both branches.
Removed os0atomic.h and os0atomic.ic: not used anymore.
Clean-up unused cmake checks.
No point to issue RELEASE memory barrier in os_thread_create_func(): thread
creation is full memory barrier.
No point to issue os_wmb in rw_lock_set_waiter_flag() and
rw_lock_reset_waiter_flag(): this is deadcode and it is unlikely operational
anyway. If atomic builtins are unavailable - memory barriers are most certainly
unavailable too.
RELEASE memory barrier is definitely abused in buf_pool_withdraw_blocks(): most
probably it was supposed to commit volatile variable update, which is not what
memory barriers actually do. To operate properly it needs corresponding ACQUIRE
barrier without an associated atomic operation anyway.
ACQUIRE memory barrier is definitely abused in log_write_up_to(): most probably
it was supposed to synchronize dirty read of log_sys->write_lsn. To operate
properly it needs corresponding RELEASE barrier without an associated atomic
operation anyway.
Removed a bunch of ACQUIRE memory barriers from InnoDB rwlocks. They're
meaningless without corresponding RELEASE memory barriers.
Valid usage example of memory barriers without an associated atomic operation:
http://en.cppreference.com/w/cpp/atomic/atomic_thread_fence
