lib/locks/exclusive/aarch64/spinlock.S - filogic/atf - Gitiles

 /*
  * Copyright (c) 2013-2024, Arm Limited and Contributors. All rights reserved.
  *
  * SPDX-License-Identifier: BSD-3-Clause
  */

 #include <asm_macros.S>

 	.globl	spin_lock
 	.globl	spin_unlock
 	.globl	bit_lock
 	.globl	bit_unlock

 #if USE_SPINLOCK_CAS
 #if !ARM_ARCH_AT_LEAST(8, 1)
 #error USE_SPINLOCK_CAS option requires at least an ARMv8.1 platform
 #endif

 /*
  * When compiled for ARMv8.1 or later, choose spin locks based on Compare and
  * Swap instruction.
  */

 /*
  * Acquire lock using Compare and Swap instruction.
  *
  * Compare for 0 with acquire semantics, and swap 1. If failed to acquire, use
  * load exclusive semantics to monitor the address and enter WFE.
  *
  * void spin_lock(spinlock_t *lock);
  */
 func spin_lock
 	mov	w2, #1
 1:	mov	w1, wzr
 2:	casa	w1, w2, [x0]
 	cbz	w1, 3f
 	ldxr	w1, [x0]
 	cbz	w1, 2b
 	wfe
 	b	1b
 3:
 	ret
 endfunc spin_lock

 #else /* !USE_SPINLOCK_CAS */

 /*
  * Acquire lock using load-/store-exclusive instruction pair.
  *
  * void spin_lock(spinlock_t *lock);
  */
 func spin_lock
 	mov	w2, #1
 	sevl
 l1:	wfe
 l2:	ldaxr	w1, [x0]
 	cbnz	w1, l1
 	stxr	w1, w2, [x0]
 	cbnz	w1, l2
 	ret
 endfunc spin_lock

 #endif /* USE_SPINLOCK_CAS */

 /*
  * Release lock previously acquired by spin_lock.
  *
  * Use store-release to unconditionally clear the spinlock variable.
  * Store operation generates an event to all cores waiting in WFE
  * when address is monitored by the global monitor.
  *
  * void spin_unlock(spinlock_t *lock);
  */
 func spin_unlock
 	stlr	wzr, [x0]
 	ret
 endfunc spin_unlock

 /*
  * Atomic bit clear and set instructions require FEAT_LSE which is
  * mandatory from Armv8.1.
  */
 #if ARM_ARCH_AT_LEAST(8, 1)

 /*
  * Acquire bitlock using atomic bit set on byte. If the original read value
  * has the bit set, use load exclusive semantics to monitor the address and
  * enter WFE.
  *
  * void bit_lock(bitlock_t *lock, uint8_t mask);
  */
 func bit_lock
 1:	ldsetab	w1, w2, [x0]
 	tst	w2, w1
 	b.eq	2f
 	ldxrb	w2, [x0]
 	tst	w2, w1
 	b.eq	1b
 	wfe
 	b	1b
 2:
 	ret
 endfunc bit_lock

 /*
  * Use atomic bit clear store-release to unconditionally clear bitlock variable.
  * Store operation generates an event to all cores waiting in WFE when address
  * is monitored by the global monitor.
  *
  * void bit_unlock(bitlock_t *lock, uint8_t mask);
  */
 func bit_unlock
 	stclrlb	w1, [x0]
 	ret
 endfunc bit_unlock

 #endif /* ARM_ARCH_AT_LEAST(8, 1) */
	/*
	* Copyright (c) 2013-2024, Arm Limited and Contributors. All rights reserved.
	*
	* SPDX-License-Identifier: BSD-3-Clause
	*/

	#include <asm_macros.S>

	.globl spin_lock
	.globl spin_unlock
	.globl bit_lock
	.globl bit_unlock

	#if USE_SPINLOCK_CAS
	#if !ARM_ARCH_AT_LEAST(8, 1)
	#error USE_SPINLOCK_CAS option requires at least an ARMv8.1 platform
	#endif

	/*
	* When compiled for ARMv8.1 or later, choose spin locks based on Compare and
	* Swap instruction.
	*/

	/*
	* Acquire lock using Compare and Swap instruction.
	*
	* Compare for 0 with acquire semantics, and swap 1. If failed to acquire, use
	* load exclusive semantics to monitor the address and enter WFE.
	*
	* void spin_lock(spinlock_t *lock);
	*/
	func spin_lock
	mov w2, #1
	1: mov w1, wzr
	2: casa w1, w2, [x0]
	cbz w1, 3f
	ldxr w1, [x0]
	cbz w1, 2b
	wfe
	b 1b
	3:
	ret
	endfunc spin_lock

	#else /* !USE_SPINLOCK_CAS */

	/*
	* Acquire lock using load-/store-exclusive instruction pair.
	*
	* void spin_lock(spinlock_t *lock);
	*/
	func spin_lock
	mov w2, #1
	sevl
	l1: wfe
	l2: ldaxr w1, [x0]
	cbnz w1, l1
	stxr w1, w2, [x0]
	cbnz w1, l2
	ret
	endfunc spin_lock

	#endif /* USE_SPINLOCK_CAS */

	/*
	* Release lock previously acquired by spin_lock.
	*
	* Use store-release to unconditionally clear the spinlock variable.
	* Store operation generates an event to all cores waiting in WFE
	* when address is monitored by the global monitor.
	*
	* void spin_unlock(spinlock_t *lock);
	*/
	func spin_unlock
	stlr wzr, [x0]
	ret
	endfunc spin_unlock

	/*
	* Atomic bit clear and set instructions require FEAT_LSE which is
	* mandatory from Armv8.1.
	*/
	#if ARM_ARCH_AT_LEAST(8, 1)

	/*
	* Acquire bitlock using atomic bit set on byte. If the original read value
	* has the bit set, use load exclusive semantics to monitor the address and
	* enter WFE.
	*
	* void bit_lock(bitlock_t *lock, uint8_t mask);
	*/
	func bit_lock
	1: ldsetab w1, w2, [x0]
	tst w2, w1
	b.eq 2f
	ldxrb w2, [x0]
	tst w2, w1
	b.eq 1b
	wfe
	b 1b
	2:
	ret
	endfunc bit_lock

	/*
	* Use atomic bit clear store-release to unconditionally clear bitlock variable.
	* Store operation generates an event to all cores waiting in WFE when address
	* is monitored by the global monitor.
	*
	* void bit_unlock(bitlock_t *lock, uint8_t mask);
	*/
	func bit_unlock
	stclrlb w1, [x0]
	ret
	endfunc bit_unlock

	#endif /* ARM_ARCH_AT_LEAST(8, 1) */