/*****************************************************************************

Copyright (c) 1995, 2023, Oracle and/or its affiliates.
Copyright (c) 2008, Google Inc.

Portions of this file contain modifications contributed and copyrighted by
Google, Inc. Those modifications are gratefully acknowledged and are described
briefly in the InnoDB documentation. The contributions by Google are
incorporated with their permission, and subject to the conditions contained in
the file COPYING.Google.

This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License, version 2.0,
as published by the Free Software Foundation.

This program is also distributed with certain software (including
but not limited to OpenSSL) that is licensed under separate terms,
as designated in a particular file or component or in included license
documentation.  The authors of MySQL hereby grant you an additional
permission to link the program and your derivative works with the
separately licensed software that they have included with MySQL.

This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
GNU General Public License, version 2.0, for more details.

You should have received a copy of the GNU General Public License along with
this program; if not, write to the Free Software Foundation, Inc.,
51 Franklin Street, Suite 500, Boston, MA 02110-1335 USA

*****************************************************************************/

/**************************************************//**
@file include/sync0rw.ic
The read-write lock (for threads)

Created 9/11/1995 Heikki Tuuri
*******************************************************/

#include "os0event.h"

/******************************************************************//**
Lock an rw-lock in shared mode for the current thread. If the rw-lock is
locked in exclusive mode, or there is an exclusive lock request waiting,
the function spins a preset time (controlled by srv_n_spin_wait_rounds),
waiting for the lock before suspending the thread. */
void
rw_lock_s_lock_spin(
/*================*/
	rw_lock_t*	lock,	/*!< in: pointer to rw-lock */
	ulint		pass,	/*!< in: pass value; != 0, if the lock will
				be passed to another thread to unlock */
	const char*	file_name,/*!< in: file name where lock requested */
	ulint		line);	/*!< in: line where requested */
#ifdef UNIV_DEBUG
/******************************************************************//**
Inserts the debug information for an rw-lock. */
void
rw_lock_add_debug_info(
/*===================*/
	rw_lock_t*	lock,		/*!< in: rw-lock */
	ulint		pass,		/*!< in: pass value */
	ulint		lock_type,	/*!< in: lock type */
	const char*	file_name,	/*!< in: file where requested */
	ulint		line);		/*!< in: line where requested */
/******************************************************************//**
Removes a debug information struct for an rw-lock. */
void
rw_lock_remove_debug_info(
/*======================*/
	rw_lock_t*	lock,		/*!< in: rw-lock */
	ulint		pass,		/*!< in: pass value */
	ulint		lock_type);	/*!< in: lock type */
#endif /* UNIV_DEBUG */

/********************************************************************//**
Check if there are threads waiting for the rw-lock.
@return 1 if waiters, 0 otherwise */
UNIV_INLINE
ulint
rw_lock_get_waiters(
/*================*/
	const rw_lock_t*	lock)	/*!< in: rw-lock */
{
	return(lock->waiters);
}

/********************************************************************//**
Sets lock->waiters to 1. It is not an error if lock->waiters is already
1. On platforms where ATOMIC builtins are used this function enforces a
memory barrier. */
UNIV_INLINE
void
rw_lock_set_waiter_flag(
/*====================*/
	rw_lock_t*	lock)	/*!< in/out: rw-lock */
{
#ifdef INNODB_RW_LOCKS_USE_ATOMICS
	(void) os_compare_and_swap_ulint(&lock->waiters, 0, 1);
#else /* INNODB_RW_LOCKS_USE_ATOMICS */
	lock->waiters = 1;
	os_wmb;
#endif /* INNODB_RW_LOCKS_USE_ATOMICS */
}

/********************************************************************//**
Resets lock->waiters to 0. It is not an error if lock->waiters is already
0. On platforms where ATOMIC builtins are used this function enforces a
memory barrier. */
UNIV_INLINE
void
rw_lock_reset_waiter_flag(
/*======================*/
	rw_lock_t*	lock)	/*!< in/out: rw-lock */
{
#ifdef INNODB_RW_LOCKS_USE_ATOMICS
	(void) os_compare_and_swap_ulint(&lock->waiters, 1, 0);
#else /* INNODB_RW_LOCKS_USE_ATOMICS */
	lock->waiters = 0;
	os_wmb;
#endif /* INNODB_RW_LOCKS_USE_ATOMICS */
}

/******************************************************************//**
Returns the write-status of the lock - this function made more sense
with the old rw_lock implementation.
@return RW_LOCK_NOT_LOCKED, RW_LOCK_X, RW_LOCK_X_WAIT, RW_LOCK_SX */
UNIV_INLINE
ulint
rw_lock_get_writer(
/*===============*/
	const rw_lock_t*	lock)	/*!< in: rw-lock */
{
	lint lock_word = lock->lock_word;

	ut_ad(lock_word <= X_LOCK_DECR);
	if (lock_word > X_LOCK_HALF_DECR) {
		/* return NOT_LOCKED in s-lock state, like the writer
		member of the old lock implementation. */
		return(RW_LOCK_NOT_LOCKED);
	} else if (lock_word > 0) {
		/* sx-locked, no x-locks */
		return(RW_LOCK_SX);
	} else if (lock_word == 0
		   || lock_word == -X_LOCK_HALF_DECR
		   || lock_word <= -X_LOCK_DECR) {
		/* x-lock with sx-lock is also treated as RW_LOCK_EX */
		return(RW_LOCK_X);
	} else {
		/* x-waiter with sx-lock is also treated as RW_LOCK_WAIT_EX
		e.g. -X_LOCK_HALF_DECR < lock_word < 0 : without sx
		     -X_LOCK_DECR < lock_word < -X_LOCK_HALF_DECR : with sx */
		return(RW_LOCK_X_WAIT);
	}
}

/******************************************************************//**
Returns the number of readers (s-locks).
@return number of readers */
UNIV_INLINE
ulint
rw_lock_get_reader_count(
/*=====================*/
	const rw_lock_t*	lock)	/*!< in: rw-lock */
{
	lint lock_word = lock->lock_word;
	ut_ad(lock_word <= X_LOCK_DECR);

	if (lock_word > X_LOCK_HALF_DECR) {
		/* s-locked, no x-waiter */
		return(X_LOCK_DECR - lock_word);
	} else if (lock_word > 0) {
		/* s-locked, with sx-locks only */
		return(X_LOCK_HALF_DECR - lock_word);
	} else if (lock_word == 0) {
		/* x-locked */
		return(0);
	} else if (lock_word > -X_LOCK_HALF_DECR) {
		/* s-locked, with x-waiter */
		return((ulint)(-lock_word));
	} else if (lock_word == -X_LOCK_HALF_DECR) {
		/* x-locked with sx-locks */
		return(0);
	} else if (lock_word > -X_LOCK_DECR) {
		/* s-locked, with x-waiter and sx-lock */
		return((ulint)(-(lock_word + X_LOCK_HALF_DECR)));
	}
	/* no s-locks */
	return(0);
}

#ifndef INNODB_RW_LOCKS_USE_ATOMICS
UNIV_INLINE
ib_mutex_t*
rw_lock_get_mutex(
/*==============*/
	rw_lock_t*	lock)
{
	return(&(lock->mutex));
}
#endif /* INNODB_RW_LOCKS_USE_ATOMICS */

/******************************************************************//**
Returns the value of writer_count for the lock. Does not reserve the lock
mutex, so the caller must be sure it is not changed during the call.
@return value of writer_count */
UNIV_INLINE
ulint
rw_lock_get_x_lock_count(
/*=====================*/
	const rw_lock_t*	lock)	/*!< in: rw-lock */
{
	lint lock_copy = lock->lock_word;
	ut_ad(lock_copy <= X_LOCK_DECR);

	if (lock_copy == 0 || lock_copy == -X_LOCK_HALF_DECR) {
		/* "1 x-lock" or "1 x-lock + sx-locks" */
		return(1);
	} else if (lock_copy > -X_LOCK_DECR) {
		/* s-locks, one or more sx-locks if > 0, or x-waiter if < 0 */
		return(0);
	} else if (lock_copy > -(X_LOCK_DECR + X_LOCK_HALF_DECR)) {
		/* no s-lock, no sx-lock, 2 or more x-locks.
		First 2 x-locks are set with -X_LOCK_DECR,
		all other recursive x-locks are set with -1 */
		return(2 - (lock_copy + X_LOCK_DECR));
	} else {
		/* no s-lock, 1 or more sx-lock, 2 or more x-locks.
		First 2 x-locks are set with -(X_LOCK_DECR + X_LOCK_HALF_DECR),
		all other recursive x-locks are set with -1 */
		return(2 - (lock_copy + X_LOCK_DECR + X_LOCK_HALF_DECR));
	}
}

/******************************************************************//**
Returns the number of sx-lock for the lock. Does not reserve the lock
mutex, so the caller must be sure it is not changed during the call.
@return value of sx-lock count */
UNIV_INLINE
ulint
rw_lock_get_sx_lock_count(
/*======================*/
	const rw_lock_t*	lock)	/*!< in: rw-lock */
{
#ifdef UNIV_DEBUG
	lint lock_copy = lock->lock_word;

	ut_ad(lock_copy <= X_LOCK_DECR);

	while (lock_copy < 0) {
		lock_copy += X_LOCK_DECR;
	}

	if (lock_copy > 0 && lock_copy <= X_LOCK_HALF_DECR) {
		return(lock->sx_recursive);
	}

	return(0);
#else /* UNIV_DEBUG */
	return(lock->sx_recursive);
#endif /* UNIV_DEBUG */
}

/******************************************************************//**
Two different implementations for decrementing the lock_word of a rw_lock:
one for systems supporting atomic operations, one for others. This does
does not support recusive x-locks: they should be handled by the caller and
need not be atomic since they are performed by the current lock holder.
Returns true if the decrement was made, false if not.
@return true if decr occurs */
UNIV_INLINE
bool
rw_lock_lock_word_decr(
/*===================*/
	rw_lock_t*	lock,		/*!< in/out: rw-lock */
	ulint		amount,		/*!< in: amount to decrement */
	lint		threshold)	/*!< in: threshold of judgement */
{
#ifdef INNODB_RW_LOCKS_USE_ATOMICS
	lint local_lock_word;

	os_rmb;
	local_lock_word = lock->lock_word;
	while (local_lock_word > threshold) {
		if (os_compare_and_swap_lint(&lock->lock_word,
					     local_lock_word,
					     local_lock_word - amount)) {
			return(true);
		}
		local_lock_word = lock->lock_word;
	}
	return(false);
#else /* INNODB_RW_LOCKS_USE_ATOMICS */
	bool success = false;
	mutex_enter(&(lock->mutex));
	if (lock->lock_word > threshold) {
		lock->lock_word -= amount;
		success = true;
	}
	mutex_exit(&(lock->mutex));
	return(success);
#endif /* INNODB_RW_LOCKS_USE_ATOMICS */
}

/******************************************************************//**
Increments lock_word the specified amount and returns new value.
@return lock->lock_word after increment */
UNIV_INLINE
lint
rw_lock_lock_word_incr(
/*===================*/
	rw_lock_t*	lock,		/*!< in/out: rw-lock */
	ulint		amount)		/*!< in: amount of increment */
{
#ifdef INNODB_RW_LOCKS_USE_ATOMICS
	return(os_atomic_increment_lint(&lock->lock_word, amount));
#else /* INNODB_RW_LOCKS_USE_ATOMICS */
	lint local_lock_word;

	mutex_enter(&(lock->mutex));

	lock->lock_word += amount;
	local_lock_word = lock->lock_word;

	mutex_exit(&(lock->mutex));

	return(local_lock_word);
#endif /* INNODB_RW_LOCKS_USE_ATOMICS */
}

/******************************************************************//**
This function sets the lock->writer_thread and lock->recursive fields.
For platforms where we are using atomic builtins instead of lock->mutex
it sets the lock->writer_thread field using atomics to ensure memory
ordering. Note that it is assumed that the caller of this function
effectively owns the lock i.e.: nobody else is allowed to modify
lock->writer_thread at this point in time.
The protocol is that lock->writer_thread MUST be updated BEFORE the
lock->recursive flag is set. */
UNIV_INLINE
void
rw_lock_set_writer_id_and_recursion_flag(
/*=====================================*/
	rw_lock_t*	lock,		/*!< in/out: lock to work on */
	bool		recursive,	/*!< in: true if recursion
					allowed */
	const os_thread_id_t curr_thread)/*!< in: current thread id */
{
#ifdef INNODB_RW_LOCKS_USE_ATOMICS
	os_thread_id_t	local_thread;
	ibool		success;

	/* Prevent Valgrind warnings about writer_thread being
	uninitialized.  It does not matter if writer_thread is
	uninitialized, because we are comparing writer_thread against
	itself, and the operation should always succeed. */
	UNIV_MEM_VALID(&lock->writer_thread, sizeof lock->writer_thread);

	local_thread = lock->writer_thread;
	success = os_compare_and_swap_thread_id(
		&lock->writer_thread, local_thread, curr_thread);
	ut_a(success);
	lock->recursive = recursive;

#else /* INNODB_RW_LOCKS_USE_ATOMICS */

	mutex_enter(&lock->mutex);
	lock->writer_thread = curr_thread;
	lock->recursive = recursive;
	mutex_exit(&lock->mutex);

#endif /* INNODB_RW_LOCKS_USE_ATOMICS */
}

/******************************************************************//**
Low-level function which tries to lock an rw-lock in s-mode. Performs no
spinning.
@return TRUE if success */
UNIV_INLINE
ibool
rw_lock_s_lock_low(
/*===============*/
	rw_lock_t*	lock,	/*!< in: pointer to rw-lock */
	ulint		pass MY_ATTRIBUTE((unused)),
				/*!< in: pass value; != 0, if the lock will be
				passed to another thread to unlock */
	const char*	file_name, /*!< in: file name where lock requested */
	ulint		line)	/*!< in: line where requested */
{
	if (!rw_lock_lock_word_decr(lock, 1, 0)) {
		/* Locking did not succeed */
		return(FALSE);
	}

	ut_d(rw_lock_add_debug_info(lock, pass, RW_LOCK_S, file_name, line));

	/* These debugging values are not set safely: they may be incorrect
	or even refer to a line that is invalid for the file name. */
	lock->last_s_file_name = file_name;
	lock->last_s_line = line;

	return(TRUE);	/* locking succeeded */
}

/******************************************************************//**
NOTE! Use the corresponding macro, not directly this function! Lock an
rw-lock in shared mode for the current thread. If the rw-lock is locked
in exclusive mode, or there is an exclusive lock request waiting, the
function spins a preset time (controlled by srv_n_spin_wait_rounds), waiting for
the lock, before suspending the thread. */
UNIV_INLINE
void
rw_lock_s_lock_func(
/*================*/
	rw_lock_t*	lock,	/*!< in: pointer to rw-lock */
	ulint		pass,	/*!< in: pass value; != 0, if the lock will
				be passed to another thread to unlock */
	const char*	file_name,/*!< in: file name where lock requested */
	ulint		line)	/*!< in: line where requested */
{
	/* NOTE: As we do not know the thread ids for threads which have
	s-locked a latch, and s-lockers will be served only after waiting
	x-lock requests have been fulfilled, then if this thread already
	owns an s-lock here, it may end up in a deadlock with another thread
	which requests an x-lock here. Therefore, we will forbid recursive
	s-locking of a latch: the following assert will warn the programmer
	of the possibility of this kind of a deadlock. If we want to implement
	safe recursive s-locking, we should keep in a list the thread ids of
	the threads which have s-locked a latch. This would use some CPU
	time. */

	ut_ad(!rw_lock_own(lock, RW_LOCK_S)); /* see NOTE above */
	ut_ad(!rw_lock_own(lock, RW_LOCK_X));

	if (!rw_lock_s_lock_low(lock, pass, file_name, line)) {

		/* Did not succeed, try spin wait */

		rw_lock_s_lock_spin(lock, pass, file_name, line);
	}
}

/******************************************************************//**
NOTE! Use the corresponding macro, not directly this function! Lock an
rw-lock in exclusive mode for the current thread if the lock can be
obtained immediately.
@return TRUE if success */
UNIV_INLINE
ibool
rw_lock_x_lock_func_nowait(
/*=======================*/
	rw_lock_t*	lock,	/*!< in: pointer to rw-lock */
	const char*	file_name,/*!< in: file name where lock requested */
	ulint		line)	/*!< in: line where requested */
{
	const os_thread_id_t curr_thread = os_thread_get_curr_id();

	ibool success;

#ifdef INNODB_RW_LOCKS_USE_ATOMICS
	success = os_compare_and_swap_lint(&lock->lock_word, X_LOCK_DECR, 0);
#else

	success = FALSE;
	mutex_enter(&(lock->mutex));
	if (lock->lock_word == X_LOCK_DECR) {
		lock->lock_word = 0;
		success = TRUE;
	}
	mutex_exit(&(lock->mutex));

#endif
	if (success) {
		rw_lock_set_writer_id_and_recursion_flag(lock, true,
							 curr_thread);

	} else if (lock->recursive
		   && os_thread_eq(lock->writer_thread, curr_thread)) {
		/* Relock: this lock_word modification is safe since no other
		threads can modify (lock, unlock, or reserve) lock_word while
		there is an exclusive writer and this is the writer thread. */
		if (lock->lock_word == 0 || lock->lock_word == -X_LOCK_HALF_DECR) {
			/* There are 1 x-locks */
			lock->lock_word -= X_LOCK_DECR;
		} else if (lock->lock_word <= -X_LOCK_DECR) {
			/* There are 2 or more x-locks */
			lock->lock_word--;
		} else {
			/* Failure */
			return(FALSE);
		}

		/* Watch for too many recursive locks */
		ut_ad(lock->lock_word < 0);

	} else {
		/* Failure */
		return(FALSE);
	}

	ut_d(rw_lock_add_debug_info(lock, 0, RW_LOCK_X, file_name, line));

	lock->last_x_file_name = file_name;
	lock->last_x_line = line;

	ut_ad(rw_lock_validate(lock));

	return(TRUE);
}

/******************************************************************//**
Releases a shared mode lock. */
UNIV_INLINE
void
rw_lock_s_unlock_func(
/*==================*/
#ifdef UNIV_DEBUG
	ulint		pass,	/*!< in: pass value; != 0, if the lock may have
				been passed to another thread to unlock */
#endif /* UNIV_DEBUG */
	rw_lock_t*	lock)	/*!< in/out: rw-lock */
{
	ut_ad(lock->lock_word > -X_LOCK_DECR);
	ut_ad(lock->lock_word != 0);
	ut_ad(lock->lock_word < X_LOCK_DECR);

	ut_d(rw_lock_remove_debug_info(lock, pass, RW_LOCK_S));

	/* Increment lock_word to indicate 1 less reader */
	lint	lock_word = rw_lock_lock_word_incr(lock, 1);
	if (lock_word == 0 || lock_word == -X_LOCK_HALF_DECR) {

		/* wait_ex waiter exists. It may not be asleep, but we signal
		anyway. We do not wake other waiters, because they can't
		exist without wait_ex waiter and wait_ex waiter goes first.*/
		os_event_set(lock->wait_ex_event);
		sync_array_object_signalled();

	}

	ut_ad(rw_lock_validate(lock));
}

/******************************************************************//**
Releases an exclusive mode lock. */
UNIV_INLINE
void
rw_lock_x_unlock_func(
/*==================*/
#ifdef UNIV_DEBUG
	ulint		pass,	/*!< in: pass value; != 0, if the lock may have
				been passed to another thread to unlock */
#endif /* UNIV_DEBUG */
	rw_lock_t*	lock)	/*!< in/out: rw-lock */
{
	ut_ad(lock->lock_word == 0 || lock->lock_word == -X_LOCK_HALF_DECR
	      || lock->lock_word <= -X_LOCK_DECR);

	/* lock->recursive flag also indicates if lock->writer_thread is
	valid or stale. If we are the last of the recursive callers
	then we must unset lock->recursive flag to indicate that the
	lock->writer_thread is now stale.
	Note that since we still hold the x-lock we can safely read the
	lock_word. */
	if (lock->lock_word == 0) {
		/* Last caller in a possible recursive chain. */
		lock->recursive = FALSE;
	}

	ut_d(rw_lock_remove_debug_info(lock, pass, RW_LOCK_X));

	if (lock->lock_word == 0 || lock->lock_word == -X_LOCK_HALF_DECR) {
		/* There is 1 x-lock */
		/* atomic increment is needed, because it is last */
		if (rw_lock_lock_word_incr(lock, X_LOCK_DECR) <= 0) {
			ut_error;
		}

		/* This no longer has an X-lock but it may still have
		an SX-lock. So it is now free for S-locks by other threads.
		We need to signal read/write waiters.
		We do not need to signal wait_ex waiters, since they cannot
		exist when there is a writer. */
		if (lock->waiters) {
			rw_lock_reset_waiter_flag(lock);
			os_event_set(lock->event);
			sync_array_object_signalled();
		}
	} else if (lock->lock_word == -X_LOCK_DECR
		   || lock->lock_word == -(X_LOCK_DECR + X_LOCK_HALF_DECR)) {
		/* There are 2 x-locks */
		lock->lock_word += X_LOCK_DECR;
	} else {
		/* There are more than 2 x-locks. */
		ut_ad(lock->lock_word < -X_LOCK_DECR);
		lock->lock_word += 1;
	}

	ut_ad(rw_lock_validate(lock));
}

/******************************************************************//**
Releases a sx mode lock. */
UNIV_INLINE
void
rw_lock_sx_unlock_func(
/*===================*/
#ifdef UNIV_DEBUG
	ulint		pass,	/*!< in: pass value; != 0, if the lock may have
				been passed to another thread to unlock */
#endif /* UNIV_DEBUG */
	rw_lock_t*	lock)	/*!< in/out: rw-lock */
{
	ut_ad(rw_lock_get_sx_lock_count(lock));
	ut_ad(lock->sx_recursive > 0);

	--lock->sx_recursive;

	ut_d(rw_lock_remove_debug_info(lock, pass, RW_LOCK_SX));

	if (lock->sx_recursive == 0) {
		/* Last caller in a possible recursive chain. */
		if (lock->lock_word > 0) {
			lock->recursive = FALSE;
			UNIV_MEM_INVALID(&lock->writer_thread,
					 sizeof lock->writer_thread);

			if (rw_lock_lock_word_incr(lock, X_LOCK_HALF_DECR)
			    <= X_LOCK_HALF_DECR) {
				ut_error;
			}
			/* Lock is now free. May have to signal read/write
			waiters. We do not need to signal wait_ex waiters,
			since they cannot exist when there is an sx-lock
			holder. */
			if (lock->waiters) {
				rw_lock_reset_waiter_flag(lock);
				os_event_set(lock->event);
				sync_array_object_signalled();
			}
		} else {
			/* still has x-lock */
			ut_ad(lock->lock_word == -X_LOCK_HALF_DECR
			      || lock->lock_word <= -(X_LOCK_DECR
						      + X_LOCK_HALF_DECR));
			lock->lock_word += X_LOCK_HALF_DECR;
		}
	}

	ut_ad(rw_lock_validate(lock));
}

#ifdef UNIV_PFS_RWLOCK

/******************************************************************//**
Performance schema instrumented wrap function for rw_lock_create_func().
NOTE! Please use the corresponding macro rw_lock_create(), not directly
this function! */
UNIV_INLINE
void
pfs_rw_lock_create_func(
/*====================*/
	mysql_pfs_key_t	key,		/*!< in: key registered with
					performance schema */
	rw_lock_t*	lock,		/*!< in/out: pointer to memory */
# ifdef UNIV_DEBUG
	latch_level_t	level,		/*!< in: level */
	const char*	cmutex_name,	/*!< in: mutex name */
# endif /* UNIV_DEBUG */
	const char*	cfile_name,	/*!< in: file name where created */
	ulint		cline)		/*!< in: file line where created */
{
	ut_d(new(lock) rw_lock_t());

	/* Initialize the rwlock for performance schema */
	lock->pfs_psi = PSI_RWLOCK_CALL(init_rwlock)(key.m_value, lock);

	/* The actual function to initialize an rwlock */
	rw_lock_create_func(lock,
#ifdef UNIV_DEBUG
			    level,
			    cmutex_name,
#endif /* UNIV_DEBUG */
			    cfile_name,
			    cline);
}
/******************************************************************//**
Performance schema instrumented wrap function for rw_lock_x_lock_func()
NOTE! Please use the corresponding macro rw_lock_x_lock(), not directly
this function! */
UNIV_INLINE
void
pfs_rw_lock_x_lock_func(
/*====================*/
	rw_lock_t*	lock,	/*!< in: pointer to rw-lock */
	ulint		pass,	/*!< in: pass value; != 0, if the lock will
				be passed to another thread to unlock */
	const char*	file_name,/*!< in: file name where lock requested */
	ulint		line)	/*!< in: line where requested */
{
	if (lock->pfs_psi != NULL) {
		PSI_rwlock_locker*	locker;
		PSI_rwlock_locker_state	state;

		/* Record the acquisition of a read-write lock in exclusive
		mode in performance schema */

		locker = PSI_RWLOCK_CALL(start_rwlock_wrwait)(
			&state, lock->pfs_psi, PSI_RWLOCK_EXCLUSIVELOCK,
			file_name, static_cast<uint>(line));

		rw_lock_x_lock_func(
			lock, pass, file_name, static_cast<uint>(line));

		if (locker != NULL) {
			PSI_RWLOCK_CALL(end_rwlock_wrwait)(locker, 0);
		}
	} else {
		rw_lock_x_lock_func(lock, pass, file_name, line);
	}
}
/******************************************************************//**
Performance schema instrumented wrap function for
rw_lock_x_lock_func_nowait()
NOTE! Please use the corresponding macro rw_lock_x_lock_func(),
not directly this function!
@return TRUE if success */
UNIV_INLINE
ibool
pfs_rw_lock_x_lock_func_nowait(
/*===========================*/
	rw_lock_t*	lock,	/*!< in: pointer to rw-lock */
	const char*	file_name,/*!< in: file name where lock
				requested */
	ulint		line)	/*!< in: line where requested */
{
	ibool		ret;

	if (lock->pfs_psi != NULL) {
		PSI_rwlock_locker*	locker;
		PSI_rwlock_locker_state	state;

		/* Record the acquisition of a read-write trylock in exclusive
		mode in performance schema */

		locker = PSI_RWLOCK_CALL(start_rwlock_wrwait)(
			&state, lock->pfs_psi, PSI_RWLOCK_TRYEXCLUSIVELOCK,
			file_name, static_cast<uint>(line));

		ret = rw_lock_x_lock_func_nowait(lock, file_name, line);

		if (locker != NULL) {
			PSI_RWLOCK_CALL(end_rwlock_wrwait)(
				locker, static_cast<int>(ret));
		}
	} else {
		ret = rw_lock_x_lock_func_nowait(lock, file_name, line);
	}

	return(ret);
}
/******************************************************************//**
Performance schema instrumented wrap function for rw_lock_free_func()
NOTE! Please use the corresponding macro rw_lock_free(), not directly
this function! */
UNIV_INLINE
void
pfs_rw_lock_free_func(
/*==================*/
	rw_lock_t*	lock)	/*!< in: pointer to rw-lock */
{
	if (lock->pfs_psi != NULL) {
		PSI_RWLOCK_CALL(destroy_rwlock)(lock->pfs_psi);
		lock->pfs_psi = NULL;
	}

	rw_lock_free_func(lock);
}
/******************************************************************//**
Performance schema instrumented wrap function for rw_lock_s_lock_func()
NOTE! Please use the corresponding macro rw_lock_s_lock(), not
directly this function! */
UNIV_INLINE
void
pfs_rw_lock_s_lock_func(
/*====================*/
	rw_lock_t*	lock,	/*!< in: pointer to rw-lock */
	ulint		pass,	/*!< in: pass value; != 0, if the
				lock will be passed to another
				thread to unlock */
	const char*	file_name,/*!< in: file name where lock
				requested */
	ulint		line)	/*!< in: line where requested */
{
	if (lock->pfs_psi != NULL) {
		PSI_rwlock_locker*	locker;
		PSI_rwlock_locker_state	state;

		/* Instrumented to inform we are aquiring a shared rwlock */
		locker = PSI_RWLOCK_CALL(start_rwlock_rdwait)(
			&state, lock->pfs_psi, PSI_RWLOCK_SHAREDLOCK,
			file_name, static_cast<uint>(line));

		rw_lock_s_lock_func(lock, pass, file_name, line);

		if (locker != NULL) {
			PSI_RWLOCK_CALL(end_rwlock_rdwait)(locker, 0);
		}
	} else {
		rw_lock_s_lock_func(lock, pass, file_name, line);
	}
}
/******************************************************************//**
Performance schema instrumented wrap function for rw_lock_sx_lock_func()
NOTE! Please use the corresponding macro rw_lock_sx_lock(), not
directly this function! */
UNIV_INLINE
void
pfs_rw_lock_sx_lock_func(
/*====================*/
	rw_lock_t*	lock,	/*!< in: pointer to rw-lock */
	ulint		pass,	/*!< in: pass value; != 0, if the
				lock will be passed to another
				thread to unlock */
	const char*	file_name,/*!< in: file name where lock
				requested */
	ulint		line)	/*!< in: line where requested */
{
	if (lock->pfs_psi != NULL) {
		PSI_rwlock_locker*	locker;
		PSI_rwlock_locker_state	state;

		/* Instrumented to inform we are aquiring a shared rwlock */
		locker = PSI_RWLOCK_CALL(start_rwlock_wrwait)(
			&state, lock->pfs_psi, PSI_RWLOCK_SHAREDEXCLUSIVELOCK,
			file_name, static_cast<uint>(line));

		rw_lock_sx_lock_func(lock, pass, file_name, line);

		if (locker != NULL) {
			PSI_RWLOCK_CALL(end_rwlock_wrwait)(locker, 0);
		}
	} else {
		rw_lock_sx_lock_func(lock, pass, file_name, line);
	}
}
/******************************************************************//**
Performance schema instrumented wrap function for rw_lock_s_lock_func()
NOTE! Please use the corresponding macro rw_lock_s_lock(), not
directly this function!
@return TRUE if success */
UNIV_INLINE
ibool
pfs_rw_lock_s_lock_low(
/*===================*/
	rw_lock_t*	lock,	/*!< in: pointer to rw-lock */
	ulint		pass,	/*!< in: pass value; != 0, if the
				lock will be passed to another
				thread to unlock */
	const char*	file_name, /*!< in: file name where lock requested */
	ulint		line)	/*!< in: line where requested */
{
	ibool		ret;

	if (lock->pfs_psi != NULL) {
		PSI_rwlock_locker*	locker;
		PSI_rwlock_locker_state	state;

		/* Instrumented to inform we are aquiring a shared rwlock */
		locker = PSI_RWLOCK_CALL(start_rwlock_rdwait)(
			&state, lock->pfs_psi, PSI_RWLOCK_TRYSHAREDLOCK,
			file_name, static_cast<uint>(line));

		ret = rw_lock_s_lock_low(lock, pass, file_name, line);

		if (locker != NULL) {
			PSI_RWLOCK_CALL(end_rwlock_rdwait)(
				locker, static_cast<int>(ret));
		}
	} else {
		ret = rw_lock_s_lock_low(lock, pass, file_name, line);
	}

	return(ret);
}
/******************************************************************//**
Performance schema instrumented wrap function for rw_lock_sx_lock_nowait()
NOTE! Please use the corresponding macro, not
directly this function!
@return TRUE if success */
UNIV_INLINE
ibool
pfs_rw_lock_sx_lock_func_nowait(
/*============================*/
	rw_lock_t*	lock,	/*!< in: pointer to rw-lock */
	ulint		pass,	/*!< in: pass value; != 0, if the
				lock will be passed to another
				thread to unlock */
	const char*	file_name, /*!< in: file name where lock requested */
	ulint		line)	/*!< in: line where requested */
{
	ibool		ret;

	if (lock->pfs_psi != NULL) {
		PSI_rwlock_locker*	locker;
		PSI_rwlock_locker_state	state;

		/* Instrumented to inform we are aquiring a shared
		exclusive rwlock */
		locker = PSI_RWLOCK_CALL(start_rwlock_rdwait)(
			&state, lock->pfs_psi,
			PSI_RWLOCK_TRYSHAREDEXCLUSIVELOCK,
			file_name, static_cast<uint>(line));

		ret = rw_lock_sx_lock_func_nowait(lock, pass, file_name, line);

		if (locker != NULL) {
			PSI_RWLOCK_CALL(end_rwlock_rdwait)(
				locker, static_cast<int>(ret));
		}
	} else {
		ret = rw_lock_sx_lock_func_nowait(lock, pass, file_name, line);
	}

	return(ret);
}
/******************************************************************//**
Performance schema instrumented wrap function for rw_lock_x_unlock_func()
NOTE! Please use the corresponding macro rw_lock_x_unlock(), not directly
this function! */
UNIV_INLINE
void
pfs_rw_lock_x_unlock_func(
/*======================*/
#ifdef UNIV_DEBUG
	ulint		pass,	/*!< in: pass value; != 0, if the
				lock may have been passed to another
				thread to unlock */
#endif /* UNIV_DEBUG */
	rw_lock_t*	lock)	/*!< in/out: rw-lock */
{
	/* Inform performance schema we are unlocking the lock */
	if (lock->pfs_psi != NULL) {
		PSI_RWLOCK_CALL(unlock_rwlock)(lock->pfs_psi);
	}

	rw_lock_x_unlock_func(
#ifdef UNIV_DEBUG
		pass,
#endif /* UNIV_DEBUG */
		lock);
}

/******************************************************************//**
Performance schema instrumented wrap function for rw_lock_sx_unlock_func()
NOTE! Please use the corresponding macro rw_lock_sx_unlock(), not directly
this function! */
UNIV_INLINE
void
pfs_rw_lock_sx_unlock_func(
/*======================*/
#ifdef UNIV_DEBUG
	ulint		pass,	/*!< in: pass value; != 0, if the
				lock may have been passed to another
				thread to unlock */
#endif /* UNIV_DEBUG */
	rw_lock_t*	lock)	/*!< in/out: rw-lock */
{
	/* Inform performance schema we are unlocking the lock */
	if (lock->pfs_psi != NULL) {
		PSI_RWLOCK_CALL(unlock_rwlock)(lock->pfs_psi);
	}

	rw_lock_sx_unlock_func(
#ifdef UNIV_DEBUG
		pass,
#endif /* UNIV_DEBUG */
		lock);
}

/******************************************************************//**
Performance schema instrumented wrap function for rw_lock_s_unlock_func()
NOTE! Please use the corresponding macro pfs_rw_lock_s_unlock(), not
directly this function! */
UNIV_INLINE
void
pfs_rw_lock_s_unlock_func(
/*======================*/
#ifdef UNIV_DEBUG
	ulint		pass,	/*!< in: pass value; != 0, if the
				lock may have been passed to another
				thread to unlock */
#endif /* UNIV_DEBUG */
	rw_lock_t*	lock)	/*!< in/out: rw-lock */
{
	/* Inform performance schema we are unlocking the lock */
	if (lock->pfs_psi != NULL) {
		PSI_RWLOCK_CALL(unlock_rwlock)(lock->pfs_psi);
	}

	rw_lock_s_unlock_func(
#ifdef UNIV_DEBUG
		pass,
#endif /* UNIV_DEBUG */
		lock);

}
#endif /* UNIV_PFS_RWLOCK */