plat/mediatek/drivers/spm/mt8188/constraints/mt_spm_rc_dram.c - filogic/atf - Gitiles

 /*
  * Copyright (c) 2023, MediaTek Inc. All rights reserved.
  *
  * SPDX-License-Identifier: BSD-3-Clause
  */

 #include <common/debug.h>
 #include <drivers/spm/mt_spm_resource_req.h>
 #include <lib/pm/mtk_pm.h>
 #include <lpm/mt_lp_api.h>
 #include <lpm/mt_lp_rm.h>
 #include <mt_spm.h>
 #include <mt_spm_cond.h>
 #include <mt_spm_conservation.h>
 #include <mt_spm_constraint.h>
 #include <mt_spm_idle.h>
 #include <mt_spm_internal.h>
 #include <mt_spm_notifier.h>
 #include "mt_spm_rc_api.h"
 #include "mt_spm_rc_internal.h"
 #include <mt_spm_reg.h>
 #include <mt_spm_suspend.h>

 #define CONSTRAINT_DRAM_ALLOW (MT_RM_CONSTRAINT_ALLOW_DRAM_S0 | \
 			       MT_RM_CONSTRAINT_ALLOW_DRAM_S1 | \
 			       MT_RM_CONSTRAINT_ALLOW_CPU_BUCK_OFF)

 #define CONSTRAINT_DRAM_PCM_FLAG (SPM_FLAG_DISABLE_INFRA_PDN | \
 				  SPM_FLAG_DISABLE_VCORE_DVS | \
 				  SPM_FLAG_DISABLE_VCORE_DFS | \
 				  SPM_FLAG_SRAM_SLEEP_CTRL | \
 				  SPM_FLAG_KEEP_CSYSPWRACK_HIGH | \
 				  SPM_FLAG_DISABLE_DRAMC_MCU_SRAM_SLEEP)

 #define CONSTRAINT_DRAM_PCM_FLAG1 (0)

 #define CONSTRAINT_DRAM_RESOURCE_REQ (MT_SPM_SYSPLL | MT_SPM_INFRA | MT_SPM_26M)

 static struct mt_spm_cond_tables cond_dram = {
 	.table_cg = {
 		0xFF5DD002,	/* MTCMOS1 */
 		0x0000003C,	/* MTCMOS2 */
 		0x27AF8000,	/* INFRA0  */
 		0x20010876,	/* INFRA1  */
 		0x86000640,	/* INFRA2  */
 		0x00000000,	/* INFRA3  */
 		0x80000000,	/* INFRA4  */
 		0x01002A00,	/* PERI0   */
 		0x00080000,	/* VPPSYS0_0  */
 		0x38803000,     /* VPPSYS0_1  */
 		0x00081450,	/* VPPSYS1_0  */
 		0x00003000,     /* VPPSYS1_1  */
 		0x00000000,	/* VDOSYS0_0  */
 		0x00000000,     /* VDOSYS0_1  */
 		0x000001F8,	/* VDOSYS1_0  */
 		0x000001E0,     /* VDOSYS1_1  */
 		0x00FB0007,	/* VDOSYS1_2  */
 	},
 	.table_pll = 0U,
 };

 static struct mt_spm_cond_tables cond_dram_res = {
 	.table_cg = { 0U },
 	.table_pll = 0U,
 };

 static struct constraint_status status = {
 	.id = MT_RM_CONSTRAINT_ID_DRAM,
 	.is_valid = (MT_SPM_RC_VALID_SW |
 		     MT_SPM_RC_VALID_COND_CHECK |
 		     MT_SPM_RC_VALID_COND_LATCH |
 		     MT_SPM_RC_VALID_XSOC_BBLPM |
 		     MT_SPM_RC_VALID_TRACE_TIME),
 	.is_cond_block = 0U,
 	.enter_cnt = 0U,
 	.cond_res = &cond_dram_res,
 	.residency = 0ULL,
 };

 static unsigned short ext_status_dram;

 int spm_dram_conduct(int state_id, struct spm_lp_scen *spm_lp, unsigned int *resource_req)
 {
 	unsigned int res_req = CONSTRAINT_DRAM_RESOURCE_REQ;

 	if ((spm_lp == NULL) || (resource_req == NULL)) {
 		return -1;
 	}

 	spm_lp->pwrctrl->pcm_flags = (uint32_t)CONSTRAINT_DRAM_PCM_FLAG;
 	spm_lp->pwrctrl->pcm_flags1 = (uint32_t)CONSTRAINT_DRAM_PCM_FLAG1;

 	*resource_req |= res_req;
 	return 0;
 }

 bool spm_is_valid_rc_dram(unsigned int cpu, int state_id)
 {
 	return (!(status.is_cond_block && (status.is_valid & MT_SPM_RC_VALID_COND_CHECK)) &&
 		IS_MT_RM_RC_READY(status.is_valid) &&
 		(IS_PLAT_SUSPEND_ID(state_id) ||
 		 (state_id == MT_PLAT_PWR_STATE_SYSTEM_MEM) ||
 		 (state_id == MT_PLAT_PWR_STATE_SYSTEM_PLL) ||
 		 (state_id == MT_PLAT_PWR_STATE_SYSTEM_BUS)));
 }

 static int update_rc_condition(const void *val)
 {
 	const struct mt_spm_cond_tables *tlb = (const struct mt_spm_cond_tables *)val;
 	const struct mt_spm_cond_tables *tlb_check = (const struct mt_spm_cond_tables *)&cond_dram;

 	if (tlb == NULL) {
 		return MT_RM_STATUS_BAD;
 	}

 	status.is_cond_block = mt_spm_cond_check(tlb, tlb_check,
 						 (status.is_valid & MT_SPM_RC_VALID_COND_LATCH) ?
 						  &cond_dram_res : NULL);
 	return MT_RM_STATUS_OK;
 }

 static void update_rc_clkbuf_status(const void *val)
 {
 	unsigned int is_flight = (val) ? !!(*((unsigned int *)val) == FLIGHT_MODE_ON) : 0;

 	if (is_flight != 0U) {
 		spm_rc_constraint_valid_set(MT_RM_CONSTRAINT_ID_DRAM,
 					    MT_RM_CONSTRAINT_ID_DRAM,
 					    MT_SPM_RC_VALID_FLIGHTMODE,
 					    (struct constraint_status * const)&status);
 	} else {
 		spm_rc_constraint_valid_clr(MT_RM_CONSTRAINT_ID_DRAM,
 					    MT_RM_CONSTRAINT_ID_DRAM,
 					    MT_SPM_RC_VALID_FLIGHTMODE,
 					    (struct constraint_status * const)&status);
 	}
 }

 static void update_rc_ufs_status(const void *val)
 {
 	unsigned int is_ufs_h8 = (val) ? !!(*((unsigned int *)val) == UFS_REF_CLK_OFF) : 0;

 	if (is_ufs_h8 != 0U) {
 		spm_rc_constraint_valid_set(MT_RM_CONSTRAINT_ID_DRAM,
 					    MT_RM_CONSTRAINT_ID_DRAM,
 					    MT_SPM_RC_VALID_UFS_H8,
 					    (struct constraint_status * const)&status);
 	} else {
 		spm_rc_constraint_valid_clr(MT_RM_CONSTRAINT_ID_DRAM,
 					    MT_RM_CONSTRAINT_ID_DRAM,
 					    MT_SPM_RC_VALID_UFS_H8,
 					    (struct constraint_status * const)&status);
 	}
 }

 static void update_rc_status(const void *val)
 {
 	const struct rc_common_state *st;

 	st = (const struct rc_common_state *)val;

 	if (st == NULL) {
 		return;
 	}

 	if (st->type == CONSTRAINT_UPDATE_COND_CHECK) {
 		struct mt_spm_cond_tables * const tlb = &cond_dram;

 		spm_rc_condition_modifier(st->id, st->act, st->value,
 					  MT_RM_CONSTRAINT_ID_DRAM, tlb);
 	} else if ((st->type == CONSTRAINT_UPDATE_VALID) ||
 		   (st->type == CONSTRAINT_RESIDNECY)) {
 		spm_rc_constraint_status_set(st->id, st->type, st->act,
 					     MT_RM_CONSTRAINT_ID_DRAM,
 					     (struct constraint_status * const)st->value,
 					     (struct constraint_status * const)&status);
 	} else {
 		INFO("[%s:%d] - Unknown type: 0x%x\n", __func__, __LINE__, st->type);
 	}
 }

 int spm_update_rc_dram(int state_id, int type, const void *val)
 {
 	int res = MT_RM_STATUS_OK;

 	switch (type) {
 	case PLAT_RC_UPDATE_CONDITION:
 		res = update_rc_condition(val);
 		break;
 	case PLAT_RC_CLKBUF_STATUS:
 		update_rc_clkbuf_status(val);
 		break;
 	case PLAT_RC_UFS_STATUS:
 		update_rc_ufs_status(val);
 		break;
 	case PLAT_RC_STATUS:
 		update_rc_status(val);
 		break;
 	default:
 		INFO("[%s:%d] - Do nothing for type: %d\n", __func__, __LINE__, type);
 		break;
 	}

 	return res;
 }

 unsigned int spm_allow_rc_dram(int state_id)
 {
 	return CONSTRAINT_DRAM_ALLOW;
 }

 int spm_run_rc_dram(unsigned int cpu, int state_id)
 {
 	unsigned int ext_op = MT_SPM_EX_OP_HW_S1_DETECT;
 	unsigned int allows = CONSTRAINT_DRAM_ALLOW;

 	ext_status_dram = status.is_valid;

 	if (IS_MT_SPM_RC_BBLPM_MODE(ext_status_dram)) {
 #ifdef MT_SPM_USING_SRCLKEN_RC
 		ext_op |= MT_SPM_EX_OP_SRCLKEN_RC_BBLPM;
 #else
 		allows |= MT_RM_CONSTRAINT_ALLOW_BBLPM;
 #endif
 	}

 #ifndef MTK_PLAT_SPM_SSPM_NOTIFIER_UNSUPPORT
 	mt_spm_sspm_notify_u32(MT_SPM_NOTIFY_LP_ENTER, allows | (IS_PLAT_SUSPEND_ID(state_id) ?
 			       (MT_RM_CONSTRAINT_ALLOW_AP_SUSPEND) : (0U)));
 #else
 	(void)allows;
 #endif

 	if (ext_status_dram & MT_SPM_RC_VALID_TRACE_TIME) {
 		ext_op |= MT_SPM_EX_OP_TRACE_TIMESTAMP_EN;
 	}

 	if (IS_PLAT_SUSPEND_ID(state_id)) {
 		mt_spm_suspend_enter(state_id,
 				     (MT_SPM_EX_OP_CLR_26M_RECORD |
 				      MT_SPM_EX_OP_SET_WDT |
 				      MT_SPM_EX_OP_SET_SUSPEND_MODE |
 				      MT_SPM_EX_OP_HW_S1_DETECT),
 				     CONSTRAINT_DRAM_RESOURCE_REQ);
 	} else {
 		mt_spm_idle_generic_enter(state_id, ext_op, spm_dram_conduct);
 	}

 	return 0;
 }

 int spm_reset_rc_dram(unsigned int cpu, int state_id)
 {
 	unsigned int ext_op = MT_SPM_EX_OP_HW_S1_DETECT;
 	unsigned int allows = CONSTRAINT_DRAM_ALLOW;

 	if (IS_MT_SPM_RC_BBLPM_MODE(ext_status_dram)) {
 #ifdef MT_SPM_USING_SRCLKEN_RC
 		ext_op |= MT_SPM_EX_OP_SRCLKEN_RC_BBLPM;
 #else
 		allows |= MT_RM_CONSTRAINT_ALLOW_BBLPM;
 #endif
 	}

 #ifndef MTK_PLAT_SPM_SSPM_NOTIFIER_UNSUPPORT
 	mt_spm_sspm_notify_u32(MT_SPM_NOTIFY_LP_LEAVE, allows);
 #else
 	(void)allows;
 #endif

 	if (ext_status_dram & MT_SPM_RC_VALID_TRACE_TIME) {
 		ext_op |= MT_SPM_EX_OP_TRACE_TIMESTAMP_EN;
 	}

 	if (IS_PLAT_SUSPEND_ID(state_id)) {
 		mt_spm_suspend_resume(state_id,
 				      (MT_SPM_EX_OP_SET_WDT | MT_SPM_EX_OP_HW_S1_DETECT),
 				      NULL);
 	} else {
 		struct wake_status *waken = NULL;

 		if (spm_unlikely(status.is_valid & MT_SPM_RC_VALID_TRACE_EVENT)) {
 			ext_op |= MT_SPM_EX_OP_TRACE_LP;
 		}
 		mt_spm_idle_generic_resume(state_id, ext_op, &waken, NULL);
 		status.enter_cnt++;

 		if (spm_unlikely(status.is_valid & MT_SPM_RC_VALID_RESIDNECY)) {
 			status.residency += (waken != NULL) ? waken->tr.comm.timer_out : 0;
 		}
 	}

 	return 0;
 }

 int spm_get_status_rc_dram(unsigned int type, void *priv)
 {
 	int ret = MT_RM_STATUS_OK;

 	if (type == PLAT_RC_STATUS) {
 		int res = 0;
 		struct rc_common_state *st = (struct rc_common_state *)priv;

 		if (st == NULL) {
 			return MT_RM_STATUS_BAD;
 		}

 		res = spm_rc_constraint_status_get(st->id, st->type,
 						   st->act, MT_RM_CONSTRAINT_ID_DRAM,
 						   (struct constraint_status * const)&status,
 						   (struct constraint_status * const)st->value);
 		if ((res == 0) && (st->id != MT_RM_CONSTRAINT_ID_ALL)) {
 			ret = MT_RM_STATUS_STOP;
 		}
 	}
 	return ret;
 }
	/*
	* Copyright (c) 2023, MediaTek Inc. All rights reserved.
	*
	* SPDX-License-Identifier: BSD-3-Clause
	*/

	#include <common/debug.h>
	#include <drivers/spm/mt_spm_resource_req.h>
	#include <lib/pm/mtk_pm.h>
	#include <lpm/mt_lp_api.h>
	#include <lpm/mt_lp_rm.h>
	#include <mt_spm.h>
	#include <mt_spm_cond.h>
	#include <mt_spm_conservation.h>
	#include <mt_spm_constraint.h>
	#include <mt_spm_idle.h>
	#include <mt_spm_internal.h>
	#include <mt_spm_notifier.h>
	#include "mt_spm_rc_api.h"
	#include "mt_spm_rc_internal.h"
	#include <mt_spm_reg.h>
	#include <mt_spm_suspend.h>

	#define CONSTRAINT_DRAM_ALLOW (MT_RM_CONSTRAINT_ALLOW_DRAM_S0 \| \
	MT_RM_CONSTRAINT_ALLOW_DRAM_S1 \| \
	MT_RM_CONSTRAINT_ALLOW_CPU_BUCK_OFF)

	#define CONSTRAINT_DRAM_PCM_FLAG (SPM_FLAG_DISABLE_INFRA_PDN \| \
	SPM_FLAG_DISABLE_VCORE_DVS \| \
	SPM_FLAG_DISABLE_VCORE_DFS \| \
	SPM_FLAG_SRAM_SLEEP_CTRL \| \
	SPM_FLAG_KEEP_CSYSPWRACK_HIGH \| \
	SPM_FLAG_DISABLE_DRAMC_MCU_SRAM_SLEEP)

	#define CONSTRAINT_DRAM_PCM_FLAG1 (0)

	#define CONSTRAINT_DRAM_RESOURCE_REQ (MT_SPM_SYSPLL \| MT_SPM_INFRA \| MT_SPM_26M)

	static struct mt_spm_cond_tables cond_dram = {
	.table_cg = {
	0xFF5DD002, /* MTCMOS1 */
	0x0000003C, /* MTCMOS2 */
	0x27AF8000, /* INFRA0 */
	0x20010876, /* INFRA1 */
	0x86000640, /* INFRA2 */
	0x00000000, /* INFRA3 */
	0x80000000, /* INFRA4 */
	0x01002A00, /* PERI0 */
	0x00080000, /* VPPSYS0_0 */
	0x38803000, /* VPPSYS0_1 */
	0x00081450, /* VPPSYS1_0 */
	0x00003000, /* VPPSYS1_1 */
	0x00000000, /* VDOSYS0_0 */
	0x00000000, /* VDOSYS0_1 */
	0x000001F8, /* VDOSYS1_0 */
	0x000001E0, /* VDOSYS1_1 */
	0x00FB0007, /* VDOSYS1_2 */
	},
	.table_pll = 0U,
	};

	static struct mt_spm_cond_tables cond_dram_res = {
	.table_cg = { 0U },
	.table_pll = 0U,
	};

	static struct constraint_status status = {
	.id = MT_RM_CONSTRAINT_ID_DRAM,
	.is_valid = (MT_SPM_RC_VALID_SW \|
	MT_SPM_RC_VALID_COND_CHECK \|
	MT_SPM_RC_VALID_COND_LATCH \|
	MT_SPM_RC_VALID_XSOC_BBLPM \|
	MT_SPM_RC_VALID_TRACE_TIME),
	.is_cond_block = 0U,
	.enter_cnt = 0U,
	.cond_res = &cond_dram_res,
	.residency = 0ULL,
	};

	static unsigned short ext_status_dram;

	int spm_dram_conduct(int state_id, struct spm_lp_scen spm_lp, unsigned int resource_req)
	{
	unsigned int res_req = CONSTRAINT_DRAM_RESOURCE_REQ;

	if ((spm_lp == NULL) \|\| (resource_req == NULL)) {
	return -1;
	}

	spm_lp->pwrctrl->pcm_flags = (uint32_t)CONSTRAINT_DRAM_PCM_FLAG;
	spm_lp->pwrctrl->pcm_flags1 = (uint32_t)CONSTRAINT_DRAM_PCM_FLAG1;

	*resource_req \|= res_req;
	return 0;
	}

	bool spm_is_valid_rc_dram(unsigned int cpu, int state_id)
	{
	return (!(status.is_cond_block && (status.is_valid & MT_SPM_RC_VALID_COND_CHECK)) &&
	IS_MT_RM_RC_READY(status.is_valid) &&
	(IS_PLAT_SUSPEND_ID(state_id) \|\|
	(state_id == MT_PLAT_PWR_STATE_SYSTEM_MEM) \|\|
	(state_id == MT_PLAT_PWR_STATE_SYSTEM_PLL) \|\|
	(state_id == MT_PLAT_PWR_STATE_SYSTEM_BUS)));
	}

	static int update_rc_condition(const void *val)
	{
	const struct mt_spm_cond_tables tlb = (const struct mt_spm_cond_tables )val;
	const struct mt_spm_cond_tables tlb_check = (const struct mt_spm_cond_tables )&cond_dram;

	if (tlb == NULL) {
	return MT_RM_STATUS_BAD;
	}

	status.is_cond_block = mt_spm_cond_check(tlb, tlb_check,
	(status.is_valid & MT_SPM_RC_VALID_COND_LATCH) ?
	&cond_dram_res : NULL);
	return MT_RM_STATUS_OK;
	}

	static void update_rc_clkbuf_status(const void *val)
	{
	unsigned int is_flight = (val) ? !!(((unsigned int )val) == FLIGHT_MODE_ON) : 0;

	if (is_flight != 0U) {
	spm_rc_constraint_valid_set(MT_RM_CONSTRAINT_ID_DRAM,
	MT_RM_CONSTRAINT_ID_DRAM,
	MT_SPM_RC_VALID_FLIGHTMODE,
	(struct constraint_status * const)&status);
	} else {
	spm_rc_constraint_valid_clr(MT_RM_CONSTRAINT_ID_DRAM,
	MT_RM_CONSTRAINT_ID_DRAM,
	MT_SPM_RC_VALID_FLIGHTMODE,
	(struct constraint_status * const)&status);
	}
	}

	static void update_rc_ufs_status(const void *val)
	{
	unsigned int is_ufs_h8 = (val) ? !!(((unsigned int )val) == UFS_REF_CLK_OFF) : 0;

	if (is_ufs_h8 != 0U) {
	spm_rc_constraint_valid_set(MT_RM_CONSTRAINT_ID_DRAM,
	MT_RM_CONSTRAINT_ID_DRAM,
	MT_SPM_RC_VALID_UFS_H8,
	(struct constraint_status * const)&status);
	} else {
	spm_rc_constraint_valid_clr(MT_RM_CONSTRAINT_ID_DRAM,
	MT_RM_CONSTRAINT_ID_DRAM,
	MT_SPM_RC_VALID_UFS_H8,
	(struct constraint_status * const)&status);
	}
	}

	static void update_rc_status(const void *val)
	{
	const struct rc_common_state *st;

	st = (const struct rc_common_state *)val;

	if (st == NULL) {
	return;
	}

	if (st->type == CONSTRAINT_UPDATE_COND_CHECK) {
	struct mt_spm_cond_tables * const tlb = &cond_dram;

	spm_rc_condition_modifier(st->id, st->act, st->value,
	MT_RM_CONSTRAINT_ID_DRAM, tlb);
	} else if ((st->type == CONSTRAINT_UPDATE_VALID) \|\|
	(st->type == CONSTRAINT_RESIDNECY)) {
	spm_rc_constraint_status_set(st->id, st->type, st->act,
	MT_RM_CONSTRAINT_ID_DRAM,
	(struct constraint_status * const)st->value,
	(struct constraint_status * const)&status);
	} else {
	INFO("[%s:%d] - Unknown type: 0x%x\n", __func__, __LINE__, st->type);
	}
	}

	int spm_update_rc_dram(int state_id, int type, const void *val)
	{
	int res = MT_RM_STATUS_OK;

	switch (type) {
	case PLAT_RC_UPDATE_CONDITION:
	res = update_rc_condition(val);
	break;
	case PLAT_RC_CLKBUF_STATUS:
	update_rc_clkbuf_status(val);
	break;
	case PLAT_RC_UFS_STATUS:
	update_rc_ufs_status(val);
	break;
	case PLAT_RC_STATUS:
	update_rc_status(val);
	break;
	default:
	INFO("[%s:%d] - Do nothing for type: %d\n", __func__, __LINE__, type);
	break;
	}

	return res;
	}

	unsigned int spm_allow_rc_dram(int state_id)
	{
	return CONSTRAINT_DRAM_ALLOW;
	}

	int spm_run_rc_dram(unsigned int cpu, int state_id)
	{
	unsigned int ext_op = MT_SPM_EX_OP_HW_S1_DETECT;
	unsigned int allows = CONSTRAINT_DRAM_ALLOW;

	ext_status_dram = status.is_valid;

	if (IS_MT_SPM_RC_BBLPM_MODE(ext_status_dram)) {
	#ifdef MT_SPM_USING_SRCLKEN_RC
	ext_op \|= MT_SPM_EX_OP_SRCLKEN_RC_BBLPM;
	#else
	allows \|= MT_RM_CONSTRAINT_ALLOW_BBLPM;
	#endif
	}

	#ifndef MTK_PLAT_SPM_SSPM_NOTIFIER_UNSUPPORT
	mt_spm_sspm_notify_u32(MT_SPM_NOTIFY_LP_ENTER, allows \| (IS_PLAT_SUSPEND_ID(state_id) ?
	(MT_RM_CONSTRAINT_ALLOW_AP_SUSPEND) : (0U)));
	#else
	(void)allows;
	#endif

	if (ext_status_dram & MT_SPM_RC_VALID_TRACE_TIME) {
	ext_op \|= MT_SPM_EX_OP_TRACE_TIMESTAMP_EN;
	}

	if (IS_PLAT_SUSPEND_ID(state_id)) {
	mt_spm_suspend_enter(state_id,
	(MT_SPM_EX_OP_CLR_26M_RECORD \|
	MT_SPM_EX_OP_SET_WDT \|
	MT_SPM_EX_OP_SET_SUSPEND_MODE \|
	MT_SPM_EX_OP_HW_S1_DETECT),
	CONSTRAINT_DRAM_RESOURCE_REQ);
	} else {
	mt_spm_idle_generic_enter(state_id, ext_op, spm_dram_conduct);
	}

	return 0;
	}

	int spm_reset_rc_dram(unsigned int cpu, int state_id)
	{
	unsigned int ext_op = MT_SPM_EX_OP_HW_S1_DETECT;
	unsigned int allows = CONSTRAINT_DRAM_ALLOW;

	if (IS_MT_SPM_RC_BBLPM_MODE(ext_status_dram)) {
	#ifdef MT_SPM_USING_SRCLKEN_RC
	ext_op \|= MT_SPM_EX_OP_SRCLKEN_RC_BBLPM;
	#else
	allows \|= MT_RM_CONSTRAINT_ALLOW_BBLPM;
	#endif
	}

	#ifndef MTK_PLAT_SPM_SSPM_NOTIFIER_UNSUPPORT
	mt_spm_sspm_notify_u32(MT_SPM_NOTIFY_LP_LEAVE, allows);
	#else
	(void)allows;
	#endif

	if (ext_status_dram & MT_SPM_RC_VALID_TRACE_TIME) {
	ext_op \|= MT_SPM_EX_OP_TRACE_TIMESTAMP_EN;
	}

	if (IS_PLAT_SUSPEND_ID(state_id)) {
	mt_spm_suspend_resume(state_id,
	(MT_SPM_EX_OP_SET_WDT \| MT_SPM_EX_OP_HW_S1_DETECT),
	NULL);
	} else {
	struct wake_status *waken = NULL;

	if (spm_unlikely(status.is_valid & MT_SPM_RC_VALID_TRACE_EVENT)) {
	ext_op \|= MT_SPM_EX_OP_TRACE_LP;
	}
	mt_spm_idle_generic_resume(state_id, ext_op, &waken, NULL);
	status.enter_cnt++;

	if (spm_unlikely(status.is_valid & MT_SPM_RC_VALID_RESIDNECY)) {
	status.residency += (waken != NULL) ? waken->tr.comm.timer_out : 0;
	}
	}

	return 0;
	}

	int spm_get_status_rc_dram(unsigned int type, void *priv)
	{
	int ret = MT_RM_STATUS_OK;

	if (type == PLAT_RC_STATUS) {
	int res = 0;
	struct rc_common_state st = (struct rc_common_state )priv;

	if (st == NULL) {
	return MT_RM_STATUS_BAD;
	}

	res = spm_rc_constraint_status_get(st->id, st->type,
	st->act, MT_RM_CONSTRAINT_ID_DRAM,
	(struct constraint_status * const)&status,
	(struct constraint_status * const)st->value);
	if ((res == 0) && (st->id != MT_RM_CONSTRAINT_ID_ALL)) {
	ret = MT_RM_STATUS_STOP;
	}
	}
	return ret;
	}