lib/extensions/amu/aarch64/amu_helpers.S - imx-atf - Git at Google

 /*
  * Copyright (c) 2017, ARM Limited and Contributors. All rights reserved.
  *
  * SPDX-License-Identifier: BSD-3-Clause
  */

 #include <arch.h>
 #include <assert_macros.S>
 #include <asm_macros.S>

 	.globl	amu_group0_cnt_read_internal
 	.globl	amu_group0_cnt_write_internal
 	.globl	amu_group1_cnt_read_internal
 	.globl	amu_group1_cnt_write_internal
 	.globl	amu_group1_set_evtype_internal

 /*
  * uint64_t amu_group0_cnt_read_internal(int idx);
  *
  * Given `idx`, read the corresponding AMU counter
  * and return it in `x0`.
  */
 func amu_group0_cnt_read_internal
 #if ENABLE_ASSERTIONS
 	/*
 	 * It can be dangerous to call this function with an
 	 * out of bounds index.  Ensure `idx` is valid.
 	 */
 	mov	x1, x0
 	lsr	x1, x1, #2
 	cmp	x1, #0
 	ASM_ASSERT(eq)
 #endif

 	/*
 	 * Given `idx` calculate address of mrs/ret instruction pair
 	 * in the table below.
 	 */
 	adr	x1, 1f
 	lsl	x0, x0, #3		/* each mrs/ret sequence is 8 bytes */
 	add	x1, x1, x0
 	br	x1

 1:
 	mrs	x0, AMEVCNTR00_EL0	/* index 0 */
 	ret
 	mrs	x0, AMEVCNTR01_EL0	/* index 1 */
 	ret
 	mrs	x0, AMEVCNTR02_EL0	/* index 2 */
 	ret
 	mrs	x0, AMEVCNTR03_EL0	/* index 3 */
 	ret
 endfunc amu_group0_cnt_read_internal

 /*
  * void amu_group0_cnt_write_internal(int idx, uint64_t val);
  *
  * Given `idx`, write `val` to the corresponding AMU counter.
  */
 func amu_group0_cnt_write_internal
 #if ENABLE_ASSERTIONS
 	/*
 	 * It can be dangerous to call this function with an
 	 * out of bounds index.  Ensure `idx` is valid.
 	 */
 	mov	x2, x0
 	lsr	x2, x2, #2
 	cmp	x2, #0
 	ASM_ASSERT(eq)
 #endif

 	/*
 	 * Given `idx` calculate address of mrs/ret instruction pair
 	 * in the table below.
 	 */
 	adr	x2, 1f
 	lsl	x0, x0, #3		/* each msr/ret sequence is 8 bytes */
 	add	x2, x2, x0
 	br	x2

 1:
 	msr	AMEVCNTR00_EL0, x1	/* index 0 */
 	ret
 	msr	AMEVCNTR01_EL0, x1	/* index 1 */
 	ret
 	msr	AMEVCNTR02_EL0, x1	/* index 2 */
 	ret
 	msr	AMEVCNTR03_EL0, x1	/* index 3 */
 	ret
 endfunc amu_group0_cnt_write_internal

 /*
  * uint64_t amu_group1_cnt_read_internal(int idx);
  *
  * Given `idx`, read the corresponding AMU counter
  * and return it in `x0`.
  */
 func amu_group1_cnt_read_internal
 #if ENABLE_ASSERTIONS
 	/*
 	 * It can be dangerous to call this function with an
 	 * out of bounds index.  Ensure `idx` is valid.
 	 */
 	mov	x1, x0
 	lsr	x1, x1, #4
 	cmp	x1, #0
 	ASM_ASSERT(eq)
 #endif

 	/*
 	 * Given `idx` calculate address of mrs/ret instruction pair
 	 * in the table below.
 	 */
 	adr	x1, 1f
 	lsl	x0, x0, #3		/* each mrs/ret sequence is 8 bytes */
 	add	x1, x1, x0
 	br	x1

 1:
 	mrs	x0, AMEVCNTR10_EL0	/* index 0 */
 	ret
 	mrs	x0, AMEVCNTR11_EL0	/* index 1 */
 	ret
 	mrs	x0, AMEVCNTR12_EL0	/* index 2 */
 	ret
 	mrs	x0, AMEVCNTR13_EL0	/* index 3 */
 	ret
 	mrs	x0, AMEVCNTR14_EL0	/* index 4 */
 	ret
 	mrs	x0, AMEVCNTR15_EL0	/* index 5 */
 	ret
 	mrs	x0, AMEVCNTR16_EL0	/* index 6 */
 	ret
 	mrs	x0, AMEVCNTR17_EL0	/* index 7 */
 	ret
 	mrs	x0, AMEVCNTR18_EL0	/* index 8 */
 	ret
 	mrs	x0, AMEVCNTR19_EL0	/* index 9 */
 	ret
 	mrs	x0, AMEVCNTR1A_EL0	/* index 10 */
 	ret
 	mrs	x0, AMEVCNTR1B_EL0	/* index 11 */
 	ret
 	mrs	x0, AMEVCNTR1C_EL0	/* index 12 */
 	ret
 	mrs	x0, AMEVCNTR1D_EL0	/* index 13 */
 	ret
 	mrs	x0, AMEVCNTR1E_EL0	/* index 14 */
 	ret
 	mrs	x0, AMEVCNTR1F_EL0	/* index 15 */
 	ret
 endfunc amu_group1_cnt_read_internal

 /*
  * void amu_group1_cnt_write_internal(int idx, uint64_t val);
  *
  * Given `idx`, write `val` to the corresponding AMU counter.
  */
 func amu_group1_cnt_write_internal
 #if ENABLE_ASSERTIONS
 	/*
 	 * It can be dangerous to call this function with an
 	 * out of bounds index.  Ensure `idx` is valid.
 	 */
 	mov	x2, x0
 	lsr	x2, x2, #4
 	cmp	x2, #0
 	ASM_ASSERT(eq)
 #endif

 	/*
 	 * Given `idx` calculate address of mrs/ret instruction pair
 	 * in the table below.
 	 */
 	adr	x2, 1f
 	lsl	x0, x0, #3		/* each msr/ret sequence is 8 bytes */
 	add	x2, x2, x0
 	br	x2

 1:
 	msr	AMEVCNTR10_EL0, x1	/* index 0 */
 	ret
 	msr	AMEVCNTR11_EL0, x1	/* index 1 */
 	ret
 	msr	AMEVCNTR12_EL0, x1	/* index 2 */
 	ret
 	msr	AMEVCNTR13_EL0, x1	/* index 3 */
 	ret
 	msr	AMEVCNTR14_EL0, x1	/* index 4 */
 	ret
 	msr	AMEVCNTR15_EL0, x1	/* index 5 */
 	ret
 	msr	AMEVCNTR16_EL0, x1	/* index 6 */
 	ret
 	msr	AMEVCNTR17_EL0, x1	/* index 7 */
 	ret
 	msr	AMEVCNTR18_EL0, x1	/* index 8 */
 	ret
 	msr	AMEVCNTR19_EL0, x1	/* index 9 */
 	ret
 	msr	AMEVCNTR1A_EL0, x1	/* index 10 */
 	ret
 	msr	AMEVCNTR1B_EL0, x1	/* index 11 */
 	ret
 	msr	AMEVCNTR1C_EL0, x1	/* index 12 */
 	ret
 	msr	AMEVCNTR1D_EL0, x1	/* index 13 */
 	ret
 	msr	AMEVCNTR1E_EL0, x1	/* index 14 */
 	ret
 	msr	AMEVCNTR1F_EL0, x1	/* index 15 */
 	ret
 endfunc amu_group1_cnt_write_internal

 /*
  * void amu_group1_set_evtype_internal(int idx, unsigned int val);
  *
  * Program the AMU event type register indexed by `idx`
  * with the value `val`.
  */
 func amu_group1_set_evtype_internal
 #if ENABLE_ASSERTIONS
 	/*
 	 * It can be dangerous to call this function with an
 	 * out of bounds index.  Ensure `idx` is valid.
 	 */
 	mov	x2, x0
 	lsr	x2, x2, #4
 	cmp	x2, #0
 	ASM_ASSERT(eq)

 	/* val should be between [0, 65535] */
 	mov	x2, x1
 	lsr	x2, x2, #16
 	cmp	x2, #0
 	ASM_ASSERT(eq)
 #endif

 	/*
 	 * Given `idx` calculate address of msr/ret instruction pair
 	 * in the table below.
 	 */
 	adr	x2, 1f
 	lsl	x0, x0, #3		/* each msr/ret sequence is 8 bytes */
 	add	x2, x2, x0
 	br	x2

 1:
 	msr	AMEVTYPER10_EL0, x1	/* index 0 */
 	ret
 	msr	AMEVTYPER11_EL0, x1	/* index 1 */
 	ret
 	msr	AMEVTYPER12_EL0, x1	/* index 2 */
 	ret
 	msr	AMEVTYPER13_EL0, x1	/* index 3 */
 	ret
 	msr	AMEVTYPER14_EL0, x1	/* index 4 */
 	ret
 	msr	AMEVTYPER15_EL0, x1	/* index 5 */
 	ret
 	msr	AMEVTYPER16_EL0, x1	/* index 6 */
 	ret
 	msr	AMEVTYPER17_EL0, x1	/* index 7 */
 	ret
 	msr	AMEVTYPER18_EL0, x1	/* index 8 */
 	ret
 	msr	AMEVTYPER19_EL0, x1	/* index 9 */
 	ret
 	msr	AMEVTYPER1A_EL0, x1	/* index 10 */
 	ret
 	msr	AMEVTYPER1B_EL0, x1	/* index 11 */
 	ret
 	msr	AMEVTYPER1C_EL0, x1	/* index 12 */
 	ret
 	msr	AMEVTYPER1D_EL0, x1	/* index 13 */
 	ret
 	msr	AMEVTYPER1E_EL0, x1	/* index 14 */
 	ret
 	msr	AMEVTYPER1F_EL0, x1	/* index 15 */
 	ret
 endfunc amu_group1_set_evtype_internal
	/*
	* Copyright (c) 2017, ARM Limited and Contributors. All rights reserved.
	*
	* SPDX-License-Identifier: BSD-3-Clause
	*/

	#include <arch.h>
	#include <assert_macros.S>
	#include <asm_macros.S>

	.globl amu_group0_cnt_read_internal
	.globl amu_group0_cnt_write_internal
	.globl amu_group1_cnt_read_internal
	.globl amu_group1_cnt_write_internal
	.globl amu_group1_set_evtype_internal

	/*
	* uint64_t amu_group0_cnt_read_internal(int idx);
	*
	* Given `idx`, read the corresponding AMU counter
	* and return it in `x0`.
	*/
	func amu_group0_cnt_read_internal
	#if ENABLE_ASSERTIONS
	/*
	* It can be dangerous to call this function with an
	* out of bounds index. Ensure `idx` is valid.
	*/
	mov x1, x0
	lsr x1, x1, #2
	cmp x1, #0
	ASM_ASSERT(eq)
	#endif

	/*
	* Given `idx` calculate address of mrs/ret instruction pair
	* in the table below.
	*/
	adr x1, 1f
	lsl x0, x0, #3 /* each mrs/ret sequence is 8 bytes */
	add x1, x1, x0
	br x1

	1:
	mrs x0, AMEVCNTR00_EL0 /* index 0 */
	ret
	mrs x0, AMEVCNTR01_EL0 /* index 1 */
	ret
	mrs x0, AMEVCNTR02_EL0 /* index 2 */
	ret
	mrs x0, AMEVCNTR03_EL0 /* index 3 */
	ret
	endfunc amu_group0_cnt_read_internal

	/*
	* void amu_group0_cnt_write_internal(int idx, uint64_t val);
	*
	* Given `idx`, write `val` to the corresponding AMU counter.
	*/
	func amu_group0_cnt_write_internal
	#if ENABLE_ASSERTIONS
	/*
	* It can be dangerous to call this function with an
	* out of bounds index. Ensure `idx` is valid.
	*/
	mov x2, x0
	lsr x2, x2, #2
	cmp x2, #0
	ASM_ASSERT(eq)
	#endif

	/*
	* Given `idx` calculate address of mrs/ret instruction pair
	* in the table below.
	*/
	adr x2, 1f
	lsl x0, x0, #3 /* each msr/ret sequence is 8 bytes */
	add x2, x2, x0
	br x2

	1:
	msr AMEVCNTR00_EL0, x1 /* index 0 */
	ret
	msr AMEVCNTR01_EL0, x1 /* index 1 */
	ret
	msr AMEVCNTR02_EL0, x1 /* index 2 */
	ret
	msr AMEVCNTR03_EL0, x1 /* index 3 */
	ret
	endfunc amu_group0_cnt_write_internal

	/*
	* uint64_t amu_group1_cnt_read_internal(int idx);
	*
	* Given `idx`, read the corresponding AMU counter
	* and return it in `x0`.
	*/
	func amu_group1_cnt_read_internal
	#if ENABLE_ASSERTIONS
	/*
	* It can be dangerous to call this function with an
	* out of bounds index. Ensure `idx` is valid.
	*/
	mov x1, x0
	lsr x1, x1, #4
	cmp x1, #0
	ASM_ASSERT(eq)
	#endif

	/*
	* Given `idx` calculate address of mrs/ret instruction pair
	* in the table below.
	*/
	adr x1, 1f
	lsl x0, x0, #3 /* each mrs/ret sequence is 8 bytes */
	add x1, x1, x0
	br x1

	1:
	mrs x0, AMEVCNTR10_EL0 /* index 0 */
	ret
	mrs x0, AMEVCNTR11_EL0 /* index 1 */
	ret
	mrs x0, AMEVCNTR12_EL0 /* index 2 */
	ret
	mrs x0, AMEVCNTR13_EL0 /* index 3 */
	ret
	mrs x0, AMEVCNTR14_EL0 /* index 4 */
	ret
	mrs x0, AMEVCNTR15_EL0 /* index 5 */
	ret
	mrs x0, AMEVCNTR16_EL0 /* index 6 */
	ret
	mrs x0, AMEVCNTR17_EL0 /* index 7 */
	ret
	mrs x0, AMEVCNTR18_EL0 /* index 8 */
	ret
	mrs x0, AMEVCNTR19_EL0 /* index 9 */
	ret
	mrs x0, AMEVCNTR1A_EL0 /* index 10 */
	ret
	mrs x0, AMEVCNTR1B_EL0 /* index 11 */
	ret
	mrs x0, AMEVCNTR1C_EL0 /* index 12 */
	ret
	mrs x0, AMEVCNTR1D_EL0 /* index 13 */
	ret
	mrs x0, AMEVCNTR1E_EL0 /* index 14 */
	ret
	mrs x0, AMEVCNTR1F_EL0 /* index 15 */
	ret
	endfunc amu_group1_cnt_read_internal

	/*
	* void amu_group1_cnt_write_internal(int idx, uint64_t val);
	*
	* Given `idx`, write `val` to the corresponding AMU counter.
	*/
	func amu_group1_cnt_write_internal
	#if ENABLE_ASSERTIONS
	/*
	* It can be dangerous to call this function with an
	* out of bounds index. Ensure `idx` is valid.
	*/
	mov x2, x0
	lsr x2, x2, #4
	cmp x2, #0
	ASM_ASSERT(eq)
	#endif

	/*
	* Given `idx` calculate address of mrs/ret instruction pair
	* in the table below.
	*/
	adr x2, 1f
	lsl x0, x0, #3 /* each msr/ret sequence is 8 bytes */
	add x2, x2, x0
	br x2

	1:
	msr AMEVCNTR10_EL0, x1 /* index 0 */
	ret
	msr AMEVCNTR11_EL0, x1 /* index 1 */
	ret
	msr AMEVCNTR12_EL0, x1 /* index 2 */
	ret
	msr AMEVCNTR13_EL0, x1 /* index 3 */
	ret
	msr AMEVCNTR14_EL0, x1 /* index 4 */
	ret
	msr AMEVCNTR15_EL0, x1 /* index 5 */
	ret
	msr AMEVCNTR16_EL0, x1 /* index 6 */
	ret
	msr AMEVCNTR17_EL0, x1 /* index 7 */
	ret
	msr AMEVCNTR18_EL0, x1 /* index 8 */
	ret
	msr AMEVCNTR19_EL0, x1 /* index 9 */
	ret
	msr AMEVCNTR1A_EL0, x1 /* index 10 */
	ret
	msr AMEVCNTR1B_EL0, x1 /* index 11 */
	ret
	msr AMEVCNTR1C_EL0, x1 /* index 12 */
	ret
	msr AMEVCNTR1D_EL0, x1 /* index 13 */
	ret
	msr AMEVCNTR1E_EL0, x1 /* index 14 */
	ret
	msr AMEVCNTR1F_EL0, x1 /* index 15 */
	ret
	endfunc amu_group1_cnt_write_internal

	/*
	* void amu_group1_set_evtype_internal(int idx, unsigned int val);
	*
	* Program the AMU event type register indexed by `idx`
	* with the value `val`.
	*/
	func amu_group1_set_evtype_internal
	#if ENABLE_ASSERTIONS
	/*
	* It can be dangerous to call this function with an
	* out of bounds index. Ensure `idx` is valid.
	*/
	mov x2, x0
	lsr x2, x2, #4
	cmp x2, #0
	ASM_ASSERT(eq)

	/* val should be between [0, 65535] */
	mov x2, x1
	lsr x2, x2, #16
	cmp x2, #0
	ASM_ASSERT(eq)
	#endif

	/*
	* Given `idx` calculate address of msr/ret instruction pair
	* in the table below.
	*/
	adr x2, 1f
	lsl x0, x0, #3 /* each msr/ret sequence is 8 bytes */
	add x2, x2, x0
	br x2

	1:
	msr AMEVTYPER10_EL0, x1 /* index 0 */
	ret
	msr AMEVTYPER11_EL0, x1 /* index 1 */
	ret
	msr AMEVTYPER12_EL0, x1 /* index 2 */
	ret
	msr AMEVTYPER13_EL0, x1 /* index 3 */
	ret
	msr AMEVTYPER14_EL0, x1 /* index 4 */
	ret
	msr AMEVTYPER15_EL0, x1 /* index 5 */
	ret
	msr AMEVTYPER16_EL0, x1 /* index 6 */
	ret
	msr AMEVTYPER17_EL0, x1 /* index 7 */
	ret
	msr AMEVTYPER18_EL0, x1 /* index 8 */
	ret
	msr AMEVTYPER19_EL0, x1 /* index 9 */
	ret
	msr AMEVTYPER1A_EL0, x1 /* index 10 */
	ret
	msr AMEVTYPER1B_EL0, x1 /* index 11 */
	ret
	msr AMEVTYPER1C_EL0, x1 /* index 12 */
	ret
	msr AMEVTYPER1D_EL0, x1 /* index 13 */
	ret
	msr AMEVTYPER1E_EL0, x1 /* index 14 */
	ret
	msr AMEVTYPER1F_EL0, x1 /* index 15 */
	ret
	endfunc amu_group1_set_evtype_internal