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

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

 #include <stdbool.h>
 #include <lib/mmio.h>
 #include <lib/pm/mtk_pm.h>
 #include <mt_spm_cond.h>
 #include <mt_spm_conservation.h>
 #include <mt_spm_constraint.h>
 #include <platform_def.h>

 #define TOPCKGEB_BASE			(IO_PHYS)

 #define MT_LP_TZ_INFRA_REG(ofs)		(INFRACFG_AO_BASE + ofs)

 #define MT_LP_TZ_SPM_REG(ofs)		(SPM_BASE + ofs)
 #define MT_LP_TZ_TOPCK_REG(ofs)		(TOPCKGEB_BASE + ofs)
 #define MT_LP_TZ_APMIXEDSYS(ofs)	(APMIXEDSYS + ofs)

 #define MT_LP_TZ_VPPSYS0_REG(ofs)	(VPPSYS0_BASE + ofs)
 #define MT_LP_TZ_VPPSYS1_REG(ofs)	(VPPSYS1_BASE + ofs)
 #define MT_LP_TZ_VDOSYS0_REG(ofs)	(VDOSYS0_BASE + ofs)
 #define MT_LP_TZ_VDOSYS1_REG(ofs)	(VDOSYS1_BASE + ofs)

 #define MT_LP_TZ_PERI_AO_REG(ofs)	(PERICFG_AO_BASE + ofs)

 #undef SPM_PWR_STATUS
 #define SPM_PWR_STATUS			MT_LP_TZ_SPM_REG(0x016C)
 #define SPM_PWR_STATUS_2ND		MT_LP_TZ_SPM_REG(0x0170)
 #define SPM_CPU_PWR_STATUS		MT_LP_TZ_SPM_REG(0x0174)
 #define	INFRA_SW_CG0			MT_LP_TZ_INFRA_REG(0x0090)
 #define	INFRA_SW_CG1			MT_LP_TZ_INFRA_REG(0x0094)
 #define	INFRA_SW_CG2			MT_LP_TZ_INFRA_REG(0x00AC)
 #define	INFRA_SW_CG3			MT_LP_TZ_INFRA_REG(0x00C8)
 #define	INFRA_SW_CG4			MT_LP_TZ_INFRA_REG(0x00E8)
 #define	TOP_SW_I2C_CG			MT_LP_TZ_TOPCK_REG(0x00A4)
 #define	PERI_SW_CG0			MT_LP_TZ_PERI_AO_REG(0x0018)
 #define	VPPSYS0_SW_CG0			MT_LP_TZ_VPPSYS0_REG(0x0020)
 #define	VPPSYS0_SW_CG1			MT_LP_TZ_VPPSYS0_REG(0x002C)
 #define	VPPSYS0_SW_CG2			MT_LP_TZ_VPPSYS0_REG(0x0038)
 #define	VPPSYS1_SW_CG0			MT_LP_TZ_VPPSYS1_REG(0x0100)
 #define	VPPSYS1_SW_CG1			MT_LP_TZ_VPPSYS1_REG(0x0110)
 #define	VDOSYS0_SW_CG0			MT_LP_TZ_VDOSYS0_REG(0x0100)
 #define	VDOSYS0_SW_CG1			MT_LP_TZ_VDOSYS0_REG(0x0110)
 #define	VDOSYS1_SW_CG0			MT_LP_TZ_VDOSYS1_REG(0x0100)
 #define	VDOSYS1_SW_CG1			MT_LP_TZ_VDOSYS1_REG(0x0120)
 #define	VDOSYS1_SW_CG2			MT_LP_TZ_VDOSYS1_REG(0x0130)

 #define CLK_CFG(id)			MT_LP_TZ_TOPCK_REG(0x2c + id * 0xc)

 enum {
 	/* CLK_CFG_0 1000_002c */
 	CLKMUX_VPP	= 0,
 	NF_CLKMUX,
 };

 #define CLK_CHECK BIT(31)

 static bool check_clkmux_pdn(unsigned int clkmux_id)
 {
 	unsigned int reg, val, idx;
 	bool ret = false;

 	if ((clkmux_id & CLK_CHECK) != 0U) {
 		clkmux_id = (clkmux_id & ~CLK_CHECK);
 		reg = clkmux_id / 4U;
 		val = mmio_read_32(CLK_CFG(reg));
 		idx = clkmux_id % 4U;
 		ret = (((val >> (idx * 8U)) & 0x80) != 0U);
 	}

 	return ret;
 }

 static struct mt_spm_cond_tables spm_cond_t;

 /* local definitions */
 struct idle_cond_info {
 	/* check SPM_PWR_STATUS for bit definition */
 	unsigned int subsys_mask;
 	/* cg address */
 	uintptr_t addr;
 	/* bitflip value from *addr ? */
 	bool bBitflip;
 	/* check clkmux if bit 31 = 1, id is bit[30:0] */
 	unsigned int clkmux_id;
 };

 #define IDLE_CG(mask, addr, bitflip, clkmux)	{mask, (uintptr_t)addr, bitflip, clkmux}

 static struct idle_cond_info idle_cg_info[PLAT_SPM_COND_MAX] = {
 	IDLE_CG(0xffffffff, SPM_PWR_STATUS, false, 0),
 	IDLE_CG(0xffffffff, SPM_CPU_PWR_STATUS, false, 0),
 	IDLE_CG(0xffffffff, INFRA_SW_CG0, true, 0),
 	IDLE_CG(0xffffffff, INFRA_SW_CG1, true, 0),
 	IDLE_CG(0xffffffff, INFRA_SW_CG2, true, 0),
 	IDLE_CG(0xffffffff, INFRA_SW_CG3, true, 0),
 	IDLE_CG(0xffffffff, INFRA_SW_CG4, true, 0),
 	IDLE_CG(0xffffffff, PERI_SW_CG0, true, 0),
 	IDLE_CG(0x00000800, VPPSYS0_SW_CG0, true, (CLK_CHECK | CLKMUX_VPP)),
 	IDLE_CG(0x00000800, VPPSYS0_SW_CG1, true, (CLK_CHECK | CLKMUX_VPP)),
 	IDLE_CG(0x00001000, VPPSYS1_SW_CG0, true, (CLK_CHECK | CLKMUX_VPP)),
 	IDLE_CG(0x00001000, VPPSYS1_SW_CG1, true, (CLK_CHECK | CLKMUX_VPP)),
 	IDLE_CG(0x00002000, VDOSYS0_SW_CG0, true, (CLK_CHECK | CLKMUX_VPP)),
 	IDLE_CG(0x00002000, VDOSYS0_SW_CG1, true, (CLK_CHECK | CLKMUX_VPP)),
 	IDLE_CG(0x00004000, VDOSYS1_SW_CG0, true, (CLK_CHECK | CLKMUX_VPP)),
 	IDLE_CG(0x00004000, VDOSYS1_SW_CG1, true, (CLK_CHECK | CLKMUX_VPP)),
 	IDLE_CG(0x00004000, VDOSYS1_SW_CG2, true, (CLK_CHECK | CLKMUX_VPP)),
 };

 /* check pll idle condition */
 #define PLL_MFGPLL	MT_LP_TZ_APMIXEDSYS(0x340)
 #define PLL_MMPLL	MT_LP_TZ_APMIXEDSYS(0x544)
 #define PLL_UNIVPLL	MT_LP_TZ_APMIXEDSYS(0x504)
 #define PLL_MSDCPLL	MT_LP_TZ_APMIXEDSYS(0x514)
 #define PLL_TVDPLL1	MT_LP_TZ_APMIXEDSYS(0x524)
 #define PLL_TVDPLL2	MT_LP_TZ_APMIXEDSYS(0x534)
 #define PLL_ETHPLL	MT_LP_TZ_APMIXEDSYS(0x44c)
 #define PLL_IMGPLL	MT_LP_TZ_APMIXEDSYS(0x554)
 #define PLL_APLL1	MT_LP_TZ_APMIXEDSYS(0x304)
 #define PLL_APLL2	MT_LP_TZ_APMIXEDSYS(0x318)
 #define PLL_APLL3	MT_LP_TZ_APMIXEDSYS(0x32c)
 #define PLL_APLL4	MT_LP_TZ_APMIXEDSYS(0x404)
 #define PLL_APLL5	MT_LP_TZ_APMIXEDSYS(0x418)

 unsigned int mt_spm_cond_check(const struct mt_spm_cond_tables *src,
 			       const struct mt_spm_cond_tables *dest,
 			       struct mt_spm_cond_tables *res)
 {
 	unsigned int b_res = 0U;
 	unsigned int i;

 	if ((src == NULL) || (dest == NULL)) {
 		return SPM_COND_CHECK_FAIL;
 	}

 	for (i = 0; i < PLAT_SPM_COND_MAX; i++) {
 		if (res != NULL) {
 			res->table_cg[i] = (src->table_cg[i] & dest->table_cg[i]);

 			if ((res->table_cg[i]) != 0U) {
 				b_res |= BIT(i);
 			}
 		} else if ((src->table_cg[i] & dest->table_cg[i]) != 0U) {
 			b_res |= BIT(i);
 			break;
 		}
 	}

 	if (res != NULL) {
 		res->table_pll = (src->table_pll & dest->table_pll);

 		if ((res->table_pll) != 0U) {
 			b_res |= (res->table_pll << SPM_COND_BLOCKED_PLL_IDX) |
 				 SPM_COND_CHECK_BLOCKED_PLL;
 		}
 	} else if ((src->table_pll & dest->table_pll) != 0U) {
 		b_res |= SPM_COND_CHECK_BLOCKED_PLL;
 	}

 	return b_res;
 }

 unsigned int mt_spm_dump_all_pll(const struct mt_spm_cond_tables *src,
 				 const struct mt_spm_cond_tables *dest,
 				 struct mt_spm_cond_tables *res)
 {
 	unsigned int b_res = 0U;

 	if (res != NULL) {
 		res->table_all_pll = src->table_all_pll;
 		if ((res->table_all_pll) != 0U) {
 			b_res |= (res->table_all_pll << SPM_COND_BLOCKED_PLL_IDX) |
 				 SPM_COND_CHECK_BLOCKED_PLL;
 		}
 	} else if ((src->table_pll & dest->table_pll) != 0U) {
 		b_res |= SPM_COND_CHECK_BLOCKED_PLL;
 	}

 	return b_res;
 }

 #define IS_MT_SPM_PWR_OFF(mask) \
 	(!(mmio_read_32(SPM_PWR_STATUS) & mask) && \
 	 !(mmio_read_32(SPM_PWR_STATUS_2ND) & mask))

 int mt_spm_cond_update(struct mt_resource_constraint **con, unsigned int num,
 		       int stateid, void *priv)
 {
 	static const struct {
 		uintptr_t en_reg;
 		uint32_t pll_b;
 	} plls[] = {
 		{ PLL_MFGPLL, PLL_BIT_MFGPLL },
 		{ PLL_MMPLL, PLL_BIT_MMPLL },
 		{ PLL_UNIVPLL, PLL_BIT_UNIVPLL },
 		{ PLL_MSDCPLL, PLL_BIT_MSDCPLL },
 		{ PLL_TVDPLL1, PLL_BIT_TVDPLL1 },
 		{ PLL_TVDPLL2, PLL_BIT_TVDPLL2 },
 		{ PLL_ETHPLL, PLL_BIT_ETHPLL },
 		{ PLL_IMGPLL, PLL_BIT_IMGPLL },
 		{ PLL_APLL1, PLL_BIT_APLL1 },
 		{ PLL_APLL2, PLL_BIT_APLL2 },
 		{ PLL_APLL3, PLL_BIT_APLL3 },
 		{ PLL_APLL4, PLL_BIT_APLL4 },
 		{ PLL_APLL5, PLL_BIT_APLL5 },
 	};

 	int res;
 	unsigned int i;
 	struct mt_resource_constraint *const *_con;

 	/* read all cg state */
 	for (i = 0U; i < PLAT_SPM_COND_MAX; i++) {
 		spm_cond_t.table_cg[i] = 0U;

 		/* check mtcmos, if off set idle_value and clk to 0 disable */
 		if (IS_MT_SPM_PWR_OFF(idle_cg_info[i].subsys_mask)) {
 			continue;
 		}
 		/* check clkmux */
 		if (check_clkmux_pdn(idle_cg_info[i].clkmux_id)) {
 			continue;
 		}
 		spm_cond_t.table_cg[i] = idle_cg_info[i].bBitflip ?
 					 ~mmio_read_32(idle_cg_info[i].addr) :
 					 mmio_read_32(idle_cg_info[i].addr);
 	}

 	spm_cond_t.table_pll = 0U;
 	for (i = 0U; i < ARRAY_SIZE(plls); i++) {
 		if ((mmio_read_32(plls[i].en_reg) & BIT(9)) != 0U) {
 			spm_cond_t.table_pll |= plls[i].pll_b;
 		}
 	}

 	spm_cond_t.priv = priv;
 	for (i = 0U, _con = con; (*_con != NULL) && (i < num); _con++, i++) {
 		if ((*_con)->update == NULL) {
 			continue;
 		}
 		res = (*_con)->update(stateid, PLAT_RC_UPDATE_CONDITION,
 				      (void const *)&spm_cond_t);
 		if (res != MT_RM_STATUS_OK) {
 			break;
 		}
 	}

 	return 0;
 }
	/*
	* Copyright (c) 2023, MediaTek Inc. All rights reserved.
	*
	* SPDX-License-Identifier: BSD-3-Clause
	*/

	#include <stdbool.h>
	#include <lib/mmio.h>
	#include <lib/pm/mtk_pm.h>
	#include <mt_spm_cond.h>
	#include <mt_spm_conservation.h>
	#include <mt_spm_constraint.h>
	#include <platform_def.h>

	#define TOPCKGEB_BASE (IO_PHYS)

	#define MT_LP_TZ_INFRA_REG(ofs) (INFRACFG_AO_BASE + ofs)

	#define MT_LP_TZ_SPM_REG(ofs) (SPM_BASE + ofs)
	#define MT_LP_TZ_TOPCK_REG(ofs) (TOPCKGEB_BASE + ofs)
	#define MT_LP_TZ_APMIXEDSYS(ofs) (APMIXEDSYS + ofs)

	#define MT_LP_TZ_VPPSYS0_REG(ofs) (VPPSYS0_BASE + ofs)
	#define MT_LP_TZ_VPPSYS1_REG(ofs) (VPPSYS1_BASE + ofs)
	#define MT_LP_TZ_VDOSYS0_REG(ofs) (VDOSYS0_BASE + ofs)
	#define MT_LP_TZ_VDOSYS1_REG(ofs) (VDOSYS1_BASE + ofs)

	#define MT_LP_TZ_PERI_AO_REG(ofs) (PERICFG_AO_BASE + ofs)

	#undef SPM_PWR_STATUS
	#define SPM_PWR_STATUS MT_LP_TZ_SPM_REG(0x016C)
	#define SPM_PWR_STATUS_2ND MT_LP_TZ_SPM_REG(0x0170)
	#define SPM_CPU_PWR_STATUS MT_LP_TZ_SPM_REG(0x0174)
	#define INFRA_SW_CG0 MT_LP_TZ_INFRA_REG(0x0090)
	#define INFRA_SW_CG1 MT_LP_TZ_INFRA_REG(0x0094)
	#define INFRA_SW_CG2 MT_LP_TZ_INFRA_REG(0x00AC)
	#define INFRA_SW_CG3 MT_LP_TZ_INFRA_REG(0x00C8)
	#define INFRA_SW_CG4 MT_LP_TZ_INFRA_REG(0x00E8)
	#define TOP_SW_I2C_CG MT_LP_TZ_TOPCK_REG(0x00A4)
	#define PERI_SW_CG0 MT_LP_TZ_PERI_AO_REG(0x0018)
	#define VPPSYS0_SW_CG0 MT_LP_TZ_VPPSYS0_REG(0x0020)
	#define VPPSYS0_SW_CG1 MT_LP_TZ_VPPSYS0_REG(0x002C)
	#define VPPSYS0_SW_CG2 MT_LP_TZ_VPPSYS0_REG(0x0038)
	#define VPPSYS1_SW_CG0 MT_LP_TZ_VPPSYS1_REG(0x0100)
	#define VPPSYS1_SW_CG1 MT_LP_TZ_VPPSYS1_REG(0x0110)
	#define VDOSYS0_SW_CG0 MT_LP_TZ_VDOSYS0_REG(0x0100)
	#define VDOSYS0_SW_CG1 MT_LP_TZ_VDOSYS0_REG(0x0110)
	#define VDOSYS1_SW_CG0 MT_LP_TZ_VDOSYS1_REG(0x0100)
	#define VDOSYS1_SW_CG1 MT_LP_TZ_VDOSYS1_REG(0x0120)
	#define VDOSYS1_SW_CG2 MT_LP_TZ_VDOSYS1_REG(0x0130)

	#define CLK_CFG(id) MT_LP_TZ_TOPCK_REG(0x2c + id * 0xc)

	enum {
	/* CLK_CFG_0 1000_002c */
	CLKMUX_VPP = 0,
	NF_CLKMUX,
	};

	#define CLK_CHECK BIT(31)

	static bool check_clkmux_pdn(unsigned int clkmux_id)
	{
	unsigned int reg, val, idx;
	bool ret = false;

	if ((clkmux_id & CLK_CHECK) != 0U) {
	clkmux_id = (clkmux_id & ~CLK_CHECK);
	reg = clkmux_id / 4U;
	val = mmio_read_32(CLK_CFG(reg));
	idx = clkmux_id % 4U;
	ret = (((val >> (idx * 8U)) & 0x80) != 0U);
	}

	return ret;
	}

	static struct mt_spm_cond_tables spm_cond_t;

	/* local definitions */
	struct idle_cond_info {
	/* check SPM_PWR_STATUS for bit definition */
	unsigned int subsys_mask;
	/* cg address */
	uintptr_t addr;
	/* bitflip value from addr ? /
	bool bBitflip;
	/* check clkmux if bit 31 = 1, id is bit[30:0] */
	unsigned int clkmux_id;
	};

	#define IDLE_CG(mask, addr, bitflip, clkmux) {mask, (uintptr_t)addr, bitflip, clkmux}

	static struct idle_cond_info idle_cg_info[PLAT_SPM_COND_MAX] = {
	IDLE_CG(0xffffffff, SPM_PWR_STATUS, false, 0),
	IDLE_CG(0xffffffff, SPM_CPU_PWR_STATUS, false, 0),
	IDLE_CG(0xffffffff, INFRA_SW_CG0, true, 0),
	IDLE_CG(0xffffffff, INFRA_SW_CG1, true, 0),
	IDLE_CG(0xffffffff, INFRA_SW_CG2, true, 0),
	IDLE_CG(0xffffffff, INFRA_SW_CG3, true, 0),
	IDLE_CG(0xffffffff, INFRA_SW_CG4, true, 0),
	IDLE_CG(0xffffffff, PERI_SW_CG0, true, 0),
	IDLE_CG(0x00000800, VPPSYS0_SW_CG0, true, (CLK_CHECK \| CLKMUX_VPP)),
	IDLE_CG(0x00000800, VPPSYS0_SW_CG1, true, (CLK_CHECK \| CLKMUX_VPP)),
	IDLE_CG(0x00001000, VPPSYS1_SW_CG0, true, (CLK_CHECK \| CLKMUX_VPP)),
	IDLE_CG(0x00001000, VPPSYS1_SW_CG1, true, (CLK_CHECK \| CLKMUX_VPP)),
	IDLE_CG(0x00002000, VDOSYS0_SW_CG0, true, (CLK_CHECK \| CLKMUX_VPP)),
	IDLE_CG(0x00002000, VDOSYS0_SW_CG1, true, (CLK_CHECK \| CLKMUX_VPP)),
	IDLE_CG(0x00004000, VDOSYS1_SW_CG0, true, (CLK_CHECK \| CLKMUX_VPP)),
	IDLE_CG(0x00004000, VDOSYS1_SW_CG1, true, (CLK_CHECK \| CLKMUX_VPP)),
	IDLE_CG(0x00004000, VDOSYS1_SW_CG2, true, (CLK_CHECK \| CLKMUX_VPP)),
	};

	/* check pll idle condition */
	#define PLL_MFGPLL MT_LP_TZ_APMIXEDSYS(0x340)
	#define PLL_MMPLL MT_LP_TZ_APMIXEDSYS(0x544)
	#define PLL_UNIVPLL MT_LP_TZ_APMIXEDSYS(0x504)
	#define PLL_MSDCPLL MT_LP_TZ_APMIXEDSYS(0x514)
	#define PLL_TVDPLL1 MT_LP_TZ_APMIXEDSYS(0x524)
	#define PLL_TVDPLL2 MT_LP_TZ_APMIXEDSYS(0x534)
	#define PLL_ETHPLL MT_LP_TZ_APMIXEDSYS(0x44c)
	#define PLL_IMGPLL MT_LP_TZ_APMIXEDSYS(0x554)
	#define PLL_APLL1 MT_LP_TZ_APMIXEDSYS(0x304)
	#define PLL_APLL2 MT_LP_TZ_APMIXEDSYS(0x318)
	#define PLL_APLL3 MT_LP_TZ_APMIXEDSYS(0x32c)
	#define PLL_APLL4 MT_LP_TZ_APMIXEDSYS(0x404)
	#define PLL_APLL5 MT_LP_TZ_APMIXEDSYS(0x418)

	unsigned int mt_spm_cond_check(const struct mt_spm_cond_tables *src,
	const struct mt_spm_cond_tables *dest,
	struct mt_spm_cond_tables *res)
	{
	unsigned int b_res = 0U;
	unsigned int i;

	if ((src == NULL) \|\| (dest == NULL)) {
	return SPM_COND_CHECK_FAIL;
	}

	for (i = 0; i < PLAT_SPM_COND_MAX; i++) {
	if (res != NULL) {
	res->table_cg[i] = (src->table_cg[i] & dest->table_cg[i]);

	if ((res->table_cg[i]) != 0U) {
	b_res \|= BIT(i);
	}
	} else if ((src->table_cg[i] & dest->table_cg[i]) != 0U) {
	b_res \|= BIT(i);
	break;
	}
	}

	if (res != NULL) {
	res->table_pll = (src->table_pll & dest->table_pll);

	if ((res->table_pll) != 0U) {
	b_res \|= (res->table_pll << SPM_COND_BLOCKED_PLL_IDX) \|
	SPM_COND_CHECK_BLOCKED_PLL;
	}
	} else if ((src->table_pll & dest->table_pll) != 0U) {
	b_res \|= SPM_COND_CHECK_BLOCKED_PLL;
	}

	return b_res;
	}

	unsigned int mt_spm_dump_all_pll(const struct mt_spm_cond_tables *src,
	const struct mt_spm_cond_tables *dest,
	struct mt_spm_cond_tables *res)
	{
	unsigned int b_res = 0U;

	if (res != NULL) {
	res->table_all_pll = src->table_all_pll;
	if ((res->table_all_pll) != 0U) {
	b_res \|= (res->table_all_pll << SPM_COND_BLOCKED_PLL_IDX) \|
	SPM_COND_CHECK_BLOCKED_PLL;
	}
	} else if ((src->table_pll & dest->table_pll) != 0U) {
	b_res \|= SPM_COND_CHECK_BLOCKED_PLL;
	}

	return b_res;
	}

	#define IS_MT_SPM_PWR_OFF(mask) \
	(!(mmio_read_32(SPM_PWR_STATUS) & mask) && \
	!(mmio_read_32(SPM_PWR_STATUS_2ND) & mask))

	int mt_spm_cond_update(struct mt_resource_constraint **con, unsigned int num,
	int stateid, void *priv)
	{
	static const struct {
	uintptr_t en_reg;
	uint32_t pll_b;
	} plls[] = {
	{ PLL_MFGPLL, PLL_BIT_MFGPLL },
	{ PLL_MMPLL, PLL_BIT_MMPLL },
	{ PLL_UNIVPLL, PLL_BIT_UNIVPLL },
	{ PLL_MSDCPLL, PLL_BIT_MSDCPLL },
	{ PLL_TVDPLL1, PLL_BIT_TVDPLL1 },
	{ PLL_TVDPLL2, PLL_BIT_TVDPLL2 },
	{ PLL_ETHPLL, PLL_BIT_ETHPLL },
	{ PLL_IMGPLL, PLL_BIT_IMGPLL },
	{ PLL_APLL1, PLL_BIT_APLL1 },
	{ PLL_APLL2, PLL_BIT_APLL2 },
	{ PLL_APLL3, PLL_BIT_APLL3 },
	{ PLL_APLL4, PLL_BIT_APLL4 },
	{ PLL_APLL5, PLL_BIT_APLL5 },
	};

	int res;
	unsigned int i;
	struct mt_resource_constraint const _con;

	/* read all cg state */
	for (i = 0U; i < PLAT_SPM_COND_MAX; i++) {
	spm_cond_t.table_cg[i] = 0U;

	/* check mtcmos, if off set idle_value and clk to 0 disable */
	if (IS_MT_SPM_PWR_OFF(idle_cg_info[i].subsys_mask)) {
	continue;
	}
	/* check clkmux */
	if (check_clkmux_pdn(idle_cg_info[i].clkmux_id)) {
	continue;
	}
	spm_cond_t.table_cg[i] = idle_cg_info[i].bBitflip ?
	~mmio_read_32(idle_cg_info[i].addr) :
	mmio_read_32(idle_cg_info[i].addr);
	}

	spm_cond_t.table_pll = 0U;
	for (i = 0U; i < ARRAY_SIZE(plls); i++) {
	if ((mmio_read_32(plls[i].en_reg) & BIT(9)) != 0U) {
	spm_cond_t.table_pll \|= plls[i].pll_b;
	}
	}

	spm_cond_t.priv = priv;
	for (i = 0U, _con = con; (*_con != NULL) && (i < num); _con++, i++) {
	if ((*_con)->update == NULL) {
	continue;
	}
	res = (*_con)->update(stateid, PLAT_RC_UPDATE_CONDITION,
	(void const *)&spm_cond_t);
	if (res != MT_RM_STATUS_OK) {
	break;
	}
	}

	return 0;
	}