kernel_samsung_a34x-permissive/drivers/devfreq/helio-dvfsrc-v2/helio-dvfsrc-mt6768.c

/* SPDX-License-Identifier: GPL-2.0 */
/*
 * Copyright (c) 2019 MediaTek Inc.
*/

#include <linux/fb.h>
#include <linux/notifier.h>
#include <linux/string.h>

#include <mtk_dramc.h>
#include <mt-plat/upmu_common.h>
//#include <ext_wd_drv.h>
#include <mt_emi_api.h>
#include <mt-plat/mtk_devinfo.h>

#include <helio-dvfsrc_v2.h>
#include <helio-dvfsrc-opp.h>
#include <mtk_dvfsrc_reg.h>
#include <mtk_spm_internal.h>
#include <spm/mtk_vcore_dvfs.h>
#include <mtk_gpufreq.h>

#include "mmdvfs_pmqos.h"

__weak unsigned int get_dram_data_rate(void) { return 0; }

static struct reg_config dvfsrc_init_configs[][128] = {
	/* SPMFW_LP4X_2CH_3600 */
	{
		{ DVFSRC_EMI_REQUEST,		0x00240009 },
		{ DVFSRC_EMI_REQUEST3,		0x09000000 },
		{ DVFSRC_EMI_HRT,		0x003E362C },
		{ DVFSRC_EMI_QOS0,		0x00000033 },
		{ DVFSRC_EMI_QOS1,		0x0000004C },
		{ DVFSRC_EMI_MD2SPM0,		0x0000003F },
		{ DVFSRC_EMI_MD2SPM1,		0x00000000 },
		{ DVFSRC_EMI_MD2SPM2,		0x000080C0 },
		{ DVFSRC_EMI_MD2SPM0_T,		0x00000007 },
		{ DVFSRC_EMI_MD2SPM1_T,		0x00000038 },
		{ DVFSRC_EMI_MD2SPM2_T,		0x000080C0 },

		{ DVFSRC_VCORE_HRT,		0x00000036 },

		{ DVFSRC_MD_SW_CONTROL,		0x20000000 },

		{ DVFSRC_TIMEOUT_NEXTREQ,	0x00000014 },
		{ DVFSRC_INT_EN,		0x00000003 },

		{ DVFSRC_LEVEL_LABEL_0_1,	0x00010000 },
		{ DVFSRC_LEVEL_LABEL_2_3,	0x00020101 },
		{ DVFSRC_LEVEL_LABEL_4_5,	0x01020012 },
		{ DVFSRC_LEVEL_LABEL_6_7,	0x02120112 },
		{ DVFSRC_LEVEL_LABEL_8_9,	0x00230013 },
		{ DVFSRC_LEVEL_LABEL_10_11,	0x01230113 },
		{ DVFSRC_LEVEL_LABEL_12_13,	0x02230213 },
		{ DVFSRC_LEVEL_LABEL_14_15,	0x03230323 },

		{ DVFSRC_FORCE,			0x40000000 },
		{ DVFSRC_RSRV_1,		0x0000000C },

		{ DVFSRC_QOS_EN,		0x0000407F },

		{ DVFSRC_BASIC_CONTROL,		0x0000407B },
		{ DVFSRC_BASIC_CONTROL,		0x0000017B },
		{ DVFSRC_FORCE,			0x00000000 },

		{ -1, 0 },
	},
	/* SPMFW_LP3_1CH_1866 */
	{
		{ DVFSRC_EMI_REQUEST,		0x00240009 },
		{ DVFSRC_EMI_REQUEST3,		0x09000000 },
		{ DVFSRC_EMI_HRT,		0x00000020 },
		{ DVFSRC_EMI_QOS0,		0x00000026 },
		{ DVFSRC_EMI_QOS1,		0x00000033 },
		{ DVFSRC_EMI_MD2SPM0,		0x0000003F },
		{ DVFSRC_EMI_MD2SPM1,		0x00000000 },
		{ DVFSRC_EMI_MD2SPM2,		0x000080C0 },
		{ DVFSRC_EMI_MD2SPM0_T,		0x00000007 },
		{ DVFSRC_EMI_MD2SPM1_T,		0x00000038 },
		{ DVFSRC_EMI_MD2SPM2_T,		0x000080C0 },

		{ DVFSRC_VCORE_HRT,		0x00000020 },

		{ DVFSRC_MD_SW_CONTROL,		0x20000000 },

		{ DVFSRC_TIMEOUT_NEXTREQ,	0x00000014 },
		{ DVFSRC_INT_EN,		0x00000003 },

		{ DVFSRC_LEVEL_LABEL_0_1,	0x00010000 },
		{ DVFSRC_LEVEL_LABEL_2_3,	0x00020101 },
		{ DVFSRC_LEVEL_LABEL_4_5,	0x01020012 },
		{ DVFSRC_LEVEL_LABEL_6_7,	0x02120112 },
		{ DVFSRC_LEVEL_LABEL_8_9,	0x00230013 },
		{ DVFSRC_LEVEL_LABEL_10_11,	0x01230113 },
		{ DVFSRC_LEVEL_LABEL_12_13,	0x02230213 },
		{ DVFSRC_LEVEL_LABEL_14_15,	0x03230323 },

		{ DVFSRC_FORCE,			0x40000000 },
		{ DVFSRC_RSRV_1,		0x0000000C },

		{ DVFSRC_QOS_EN,		0x0000407F },

		{ DVFSRC_BASIC_CONTROL,		0x0000407B },

		{ DVFSRC_BASIC_CONTROL,		0x0000017B },
		{ DVFSRC_FORCE,			0x00000000 },

		{ -1, 0 },
	},
	/* NULL */
	{
		{ -1, 0 },
	},
};

struct reg_config *dvfsrc_get_init_conf(void)
{
	int spmfw_idx = spm_get_spmfw_idx();

	if (spmfw_idx < 0)
		spmfw_idx = ARRAY_SIZE(dvfsrc_init_configs) - 1;

	if (spmfw_idx == SPMFW_LP3_1CH_1866)
		spmfw_idx = 1;
	else
		spmfw_idx = 0;
	pr_info("dvfsrc init config index %d\n", spmfw_idx);

	return dvfsrc_init_configs[spmfw_idx];
}

void dvfsrc_update_md_scenario(bool blank)
{
	switch (spm_get_spmfw_idx()) {
	case SPMFW_LP4X_2CH_3600:
	case SPMFW_LP4X_2CH_3200:
	case SPMFW_LP4_2CH_3200:
		if (blank) {
			dvfsrc_write(DVFSRC_EMI_MD2SPM0_T, 0x0000003F);
			dvfsrc_write(DVFSRC_EMI_MD2SPM1_T, 0x00000000);
		} else {
			dvfsrc_write(DVFSRC_EMI_MD2SPM0_T, 0x00000007);
			dvfsrc_write(DVFSRC_EMI_MD2SPM1_T, 0x00000038);
		}
		break;
	case SPMFW_LP3_1CH_1866:
		if (blank) {
			dvfsrc_write(DVFSRC_EMI_MD2SPM0_T, 0x0000003F);
			dvfsrc_write(DVFSRC_EMI_MD2SPM1_T, 0x00000000);
		} else {
			dvfsrc_write(DVFSRC_EMI_MD2SPM0_T, 0x00000007);
			dvfsrc_write(DVFSRC_EMI_MD2SPM1_T, 0x00000038);
		}
		break;
	default:
		break;
	}
}

static int dvfsrc_fb_notifier_call(struct notifier_block *self,
		unsigned long event, void *data)
{
	struct fb_event *evdata = data;
	int blank;

	if (event != FB_EVENT_BLANK)
		return 0;

	blank = *(int *)evdata->data;

	switch (blank) {
	case FB_BLANK_UNBLANK:
		dvfsrc_update_md_scenario(false);
		break;
	case FB_BLANK_POWERDOWN:
		dvfsrc_update_md_scenario(true);
		break;
	default:
		break;
	}

	return 0;
}

static struct notifier_block dvfsrc_fb_notifier = {
	.notifier_call = dvfsrc_fb_notifier_call,
};
#if 1
static int is_bypass_flavor(void)
{
	int r = 0;
#if defined(CONFIG_ARM64) && \
		defined(CONFIG_BUILD_ARM64_DTB_OVERLAY_IMAGE_NAMES)

	if (strstr(CONFIG_BUILD_ARM64_DTB_OVERLAY_IMAGE_NAMES,
					"k68v1_64_vcore_dvfs_fix") != NULL)
		r = 0;

	pr_info("flavor check: %s, is_bypass: %d\n",
		CONFIG_BUILD_ARM64_DTB_OVERLAY_IMAGE_NAMES, r);
#endif
	return r;
}
#endif
static int can_dvfsrc_enable(void)
{
	int enable = 0;
#if 1

	if (is_bypass_flavor()) {
		enable = 0;
		pr_info("VCORE DVFS disable for special flavor\n");
	} else {
		enable = 1;
		pr_info("VCORE DVFS enable default\n");
	}
#endif
	return enable;
}

__weak int mtk_rgu_cfg_dvfsrc(int enable) { return 0; }

__weak int emmc_autok(void)
{
	pr_info("NOT SUPPORT EMMC AUTOK\n");
	return 0;
}

__weak int sd_autok(void)
{
	pr_info("NOT SUPPORT SD AUTOK\n");
	return 0;
}

__weak int sdio_autok(void)
{
	pr_info("NOT SUPPORT SDIO AUTOK\n");
	return 0;
}


void begin_autok_task(void)
{
	/* notify MM DVFS for msdc autok start */
	mmdvfs_prepare_action(MMDVFS_PREPARE_CALIBRATION_START);
#if 0 /* def CONFIG_MTK_GPU_SUPPORT */
	/* notify GPU DVFS for msdc autok start */
	mt_gpufreq_disable_by_ptpod();
#endif
}

void finish_autok_task(void)
{
	/* check if dvfs force is released */
	int force = mtk_pm_qos_request(MTK_PM_QOS_VCORE_DVFS_FORCE_OPP);

	/* notify MM DVFS for msdc autok finish */
	mmdvfs_prepare_action(MMDVFS_PREPARE_CALIBRATION_END);
#if 0 /* def CONFIG_MTK_GPU_SUPPORT */

	/* notify GPU DVFS for msdc autok finish */
	mt_gpufreq_enable_by_ptpod();
#endif

	if (force >= 0 && force < 16)
		pr_info("autok task not release force opp: %d\n", force);
}

void dvfsrc_autok_manager(void)
{
	int r = 0;

	begin_autok_task();

	r = emmc_autok();
	pr_info("EMMC autok done: %s\n", (r == 0) ? "Yes" : "No");

	r = sd_autok();
	pr_info("SD autok done: %s\n", (r == 0) ? "Yes" : "No");

	r = sdio_autok();
	pr_info("SDIO autok done: %s\n", (r == 0) ? "Yes" : "No");

	finish_autok_task();
}
int helio_dvfsrc_platform_init(struct helio_dvfsrc *dvfsrc)
{
	mtk_rgu_cfg_dvfsrc(1);
	helio_dvfsrc_sram_reg_init();

	if (can_dvfsrc_enable())
		helio_dvfsrc_enable(1);
	else
		helio_dvfsrc_enable(0);

	dvfsrc->init_config = dvfsrc_get_init_conf();
	helio_dvfsrc_reg_config(dvfsrc->init_config);

	dvfsrc_autok_manager();

	return fb_register_client(&dvfsrc_fb_notifier);
}

void get_opp_info(char *p)
{
#if defined(CONFIG_MTK_PMIC_COMMON)
	int pmic_val = pmic_get_register_value(PMIC_VCORE_ADDR);
	int vcore_uv = vcore_pmic_to_uv(pmic_val);
#endif
	int ddr_khz = get_dram_data_rate() * 1000;
#if defined(CONFIG_MTK_PMIC_COMMON)
	p += sprintf(p, "%-24s: %-8u uv  (PMIC: 0x%x)\n",
			"Vcore", vcore_uv, vcore_uv_to_pmic(vcore_uv));
#endif
	p += sprintf(p, "%-24s: %-8u khz\n", "DDR", ddr_khz);
	p += sprintf(p, "%-24s: %-8u\n", "SW REQ OPP", get_sw_req_vcore_opp());

}

void get_dvfsrc_reg(char *p)
{
	p += sprintf(p, "%-24s: 0x%08x\n",
			"DVFSRC_BASIC_CONTROL",
			dvfsrc_read(DVFSRC_BASIC_CONTROL));
	p += sprintf(p, "%-24s: 0x%08x, 0x%08x\n",
			"DVFSRC_SW_REQ(2)",
			dvfsrc_read(DVFSRC_SW_REQ),
			dvfsrc_read(DVFSRC_SW_REQ2));
	p += sprintf(p, "%-24s: 0x%08x, 0x%08x, 0x%08x\n",
			"DVFSRC_EMI_QOS0(1)(2)",
			dvfsrc_read(DVFSRC_EMI_QOS0),
			dvfsrc_read(DVFSRC_EMI_QOS1),
			dvfsrc_read(DVFSRC_EMI_QOS2));
	p += sprintf(p, "%-24s: 0x%08x, 0x%08x, 0x%08x\n",
			"DVFSRC_EMI_REQUEST(2)(3)",
			dvfsrc_read(DVFSRC_EMI_REQUEST),
			dvfsrc_read(DVFSRC_EMI_REQUEST2),
			dvfsrc_read(DVFSRC_EMI_REQUEST3));
	p += sprintf(p, "%-24s: 0x%08x, 0x%08x, 0x%08x\n",
			"DVFSRC_EMI_MD2SPM0~2",
			dvfsrc_read(DVFSRC_EMI_MD2SPM0),
			dvfsrc_read(DVFSRC_EMI_MD2SPM1),
			dvfsrc_read(DVFSRC_EMI_MD2SPM2));
	p += sprintf(p, "%-24s: 0x%08x, 0x%08x, 0x%08x\n",
			"DVFSRC_EMI_MD2SPM0~2_T",
			dvfsrc_read(DVFSRC_EMI_MD2SPM0_T),
			dvfsrc_read(DVFSRC_EMI_MD2SPM1_T),
			dvfsrc_read(DVFSRC_EMI_MD2SPM2_T));
	p += sprintf(p, "%-24s: 0x%08x, 0x%08x\n",
			"DVFSRC_VCORE_REQUEST(2)",
			dvfsrc_read(DVFSRC_VCORE_REQUEST),
			dvfsrc_read(DVFSRC_VCORE_REQUEST2));
	p += sprintf(p, "%-24s: 0x%08x, 0x%08x, 0x%08x\n",
			"DVFSRC_VCORE_MD2SPM0~2",
			dvfsrc_read(DVFSRC_VCORE_MD2SPM0),
			dvfsrc_read(DVFSRC_VCORE_MD2SPM1),
			dvfsrc_read(DVFSRC_VCORE_MD2SPM2));
	p += sprintf(p, "%-24s: 0x%08x, 0x%08x, 0x%08x\n",
			"DVFSRC_VCORE_MD2SPM0~2_T",
			dvfsrc_read(DVFSRC_VCORE_MD2SPM0_T),
			dvfsrc_read(DVFSRC_VCORE_MD2SPM1_T),
			dvfsrc_read(DVFSRC_VCORE_MD2SPM2_T));
	p += sprintf(p, "%-24s: 0x%08x\n",
			"DVFSRC_MD_REQUEST",
			dvfsrc_read(DVFSRC_MD_REQUEST));
	p += sprintf(p, "%-24s: 0x%08x\n",
			"DVFSRC_INT",
			dvfsrc_read(DVFSRC_INT));
	p += sprintf(p, "%-24s: 0x%08x\n",
			"DVFSRC_INT_EN",
			dvfsrc_read(DVFSRC_INT_EN));
	p += sprintf(p, "%-24s: 0x%08x\n",
			"DVFSRC_LEVEL",
			dvfsrc_read(DVFSRC_LEVEL));
	p += sprintf(p, "%-24s: %d, %d, %d, %d, %d\n",
			"DVFSRC_SW_BW_0~4",
			dvfsrc_read(DVFSRC_SW_BW_0),
			dvfsrc_read(DVFSRC_SW_BW_1),
			dvfsrc_read(DVFSRC_SW_BW_2),
			dvfsrc_read(DVFSRC_SW_BW_3),
			dvfsrc_read(DVFSRC_SW_BW_4));
}

void get_dvfsrc_record(char *p)
{
	p += sprintf(p, "%-24s: 0x%08x\n",
			"DVFSRC_FORCE",
			dvfsrc_read(DVFSRC_FORCE));
	p += sprintf(p, "%-24s: 0x%08x\n",
			"DVFSRC_SEC_SW_REQ",
			dvfsrc_read(DVFSRC_SEC_SW_REQ));
	p += sprintf(p, "%-24s: 0x%08x\n",
			"DVFSRC_LAST",
			dvfsrc_read(DVFSRC_LAST));
	p += sprintf(p, "%-24s: 0x%08x\n",
			"DVFSRC_MD_SCENARIO",
			dvfsrc_read(DVFSRC_MD_SCENARIO));
	p += sprintf(p, "%-24s: 0x%08x, 0x%08x, 0x%08x\n",
			"DVFSRC_RECORD_0_0~0_2",
			dvfsrc_read(DVFSRC_RECORD_0_0),
			dvfsrc_read(DVFSRC_RECORD_0_1),
			dvfsrc_read(DVFSRC_RECORD_0_2));
	p += sprintf(p, "%-24s: 0x%08x, 0x%08x, 0x%08x\n",
			"DVFSRC_RECORD_1_0~1_2",
			dvfsrc_read(DVFSRC_RECORD_1_0),
			dvfsrc_read(DVFSRC_RECORD_1_1),
			dvfsrc_read(DVFSRC_RECORD_1_2));
	p += sprintf(p, "%-24s: 0x%08x, 0x%08x, 0x%08x\n",
			"DVFSRC_RECORD_2_0~2_2",
			dvfsrc_read(DVFSRC_RECORD_2_0),
			dvfsrc_read(DVFSRC_RECORD_2_1),
			dvfsrc_read(DVFSRC_RECORD_2_2));
	p += sprintf(p, "%-24s: 0x%08x, 0x%08x, 0x%08x\n",
			"DVFSRC_RECORD_3_0~3_2",
			dvfsrc_read(DVFSRC_RECORD_3_0),
			dvfsrc_read(DVFSRC_RECORD_3_1),
			dvfsrc_read(DVFSRC_RECORD_3_2));
	p += sprintf(p, "%-24s: 0x%08x, 0x%08x, 0x%08x\n",
			"DVFSRC_RECORD_4_0~4_2",
			dvfsrc_read(DVFSRC_RECORD_4_0),
			dvfsrc_read(DVFSRC_RECORD_4_1),
			dvfsrc_read(DVFSRC_RECORD_4_2));
	p += sprintf(p, "%-24s: 0x%08x, 0x%08x, 0x%08x\n",
			"DVFSRC_RECORD_5_0~5_2",
			dvfsrc_read(DVFSRC_RECORD_5_0),
			dvfsrc_read(DVFSRC_RECORD_5_1),
			dvfsrc_read(DVFSRC_RECORD_5_2));
	p += sprintf(p, "%-24s: 0x%08x, 0x%08x, 0x%08x\n",
			"DVFSRC_RECORD_6_0~6_2",
			dvfsrc_read(DVFSRC_RECORD_6_0),
			dvfsrc_read(DVFSRC_RECORD_6_1),
			dvfsrc_read(DVFSRC_RECORD_6_2));
	p += sprintf(p, "%-24s: 0x%08x, 0x%08x, 0x%08x\n",
			"DVFSRC_RECORD_7_0~7_2",
			dvfsrc_read(DVFSRC_RECORD_7_0),
			dvfsrc_read(DVFSRC_RECORD_7_1),
			dvfsrc_read(DVFSRC_RECORD_7_2));
	p += sprintf(p, "%-24s: 0x%08x, 0x%08x, 0x%08x, 0x%08x\n",
			"DVFSRC_RECORD_MD_0~3",
			dvfsrc_read(DVFSRC_RECORD_MD_0),
			dvfsrc_read(DVFSRC_RECORD_MD_1),
			dvfsrc_read(DVFSRC_RECORD_MD_2),
			dvfsrc_read(DVFSRC_RECORD_MD_3));
	p += sprintf(p, "%-24s: 0x%08x, 0x%08x, 0x%08x, 0x%08x\n",
			"DVFSRC_RECORD_MD_4~7",
			dvfsrc_read(DVFSRC_RECORD_MD_4),
			dvfsrc_read(DVFSRC_RECORD_MD_5),
			dvfsrc_read(DVFSRC_RECORD_MD_6),
			dvfsrc_read(DVFSRC_RECORD_MD_7));
	p += sprintf(p, "%-24s: 0x%08x\n",
			"DVFSRC_RECORD_COUNT",
			dvfsrc_read(DVFSRC_RECORD_COUNT));
	p += sprintf(p, "%-24s: 0x%08x\n",
			"DVFSRC_RSRV_0",
			dvfsrc_read(DVFSRC_RSRV_0));
}

/* met profile table */
unsigned int met_vcorefs_info[INFO_MAX];
unsigned int met_vcorefs_src[SRC_MAX];

char *met_info_name[INFO_MAX] = {
	"OPP",
	"FREQ",
	"VCORE",
	"x__SPM_LEVEL",
};

char *met_src_name[SRC_MAX] = {
	"MD2SPM",
	"SRC_DDR_OPP",
	"DDR__SW_REQ1_PMQOS",
	"DDR__SW_REQ2_CM",
	"DDR__EMI_TOTAL",
	"DDR__QOS_BW",
	"SRC_VCORE_OPP",
	"VCORE__SW_REQ1_PMQOS",
	"VCORE__SW_REQ2_CM",
	"VCORE__SCP",
	"TOTAL_EMI_BW",
	"PMQOS_TOTAL",
	"PMQOS_BW0",
	"PMQOS_BW1",
	"PMQOS_BW2",
	"PMQOS_BW3",
	"PMQOS_BW4",
	"MD_REQ_OPP",
	"BWMON__TOTAL_BW",
	"BWMON__CPU_BW",
	"BWMON__GPU_BW",
	"BWMON__MM_BW",
};

/* met profile function */
int vcorefs_get_num_opp(void)
{
	return VCORE_DVFS_OPP_NUM;
}
EXPORT_SYMBOL(vcorefs_get_num_opp);

int vcorefs_get_opp_info_num(void)
{
	return INFO_MAX;
}
EXPORT_SYMBOL(vcorefs_get_opp_info_num);

int vcorefs_get_src_req_num(void)
{
	return SRC_MAX;
}
EXPORT_SYMBOL(vcorefs_get_src_req_num);

char **vcorefs_get_opp_info_name(void)
{
	return met_info_name;
}
EXPORT_SYMBOL(vcorefs_get_opp_info_name);

char **vcorefs_get_src_req_name(void)
{
	return met_src_name;
}
EXPORT_SYMBOL(vcorefs_get_src_req_name);

unsigned int *vcorefs_get_opp_info(void)
{
	met_vcorefs_info[INFO_OPP_IDX] = get_cur_vcore_dvfs_opp();
	met_vcorefs_info[INFO_FREQ_IDX] = get_cur_ddr_khz();
	met_vcorefs_info[INFO_VCORE_IDX] = get_cur_vcore_uv();
	met_vcorefs_info[INFO_SPM_LEVEL_IDX] = spm_get_dvfs_level();

	return met_vcorefs_info;
}
EXPORT_SYMBOL(vcorefs_get_opp_info);

unsigned int *vcorefs_get_src_req(void)
{
	unsigned int qos_total_bw = dvfsrc_read(DVFSRC_SW_BW_0) +
			   dvfsrc_read(DVFSRC_SW_BW_1) +
			   dvfsrc_read(DVFSRC_SW_BW_2) +
			   dvfsrc_read(DVFSRC_SW_BW_3) +
			   dvfsrc_read(DVFSRC_SW_BW_4);
	unsigned int sw_req = dvfsrc_read(DVFSRC_SW_REQ);
	unsigned int sw_req2 = dvfsrc_read(DVFSRC_SW_REQ2);
	unsigned int total_bw_status = get_emi_bwst(0);
	unsigned int total_bw_last = (get_emi_bwvl(0) & 0x7F) * 813;
	unsigned int qos0_thres = dvfsrc_read(DVFSRC_EMI_QOS0);
	unsigned int qos1_thres = dvfsrc_read(DVFSRC_EMI_QOS1);

	met_vcorefs_src[SRC_MD2SPM_IDX] =
		spm_vcorefs_get_MD_status();

	met_vcorefs_src[DDR_OPP_IDX] = get_cur_ddr_opp();

	met_vcorefs_src[DDR_SW_REQ1_PMQOS_IDX] =
		(sw_req >> EMI_SW_AP_SHIFT) & EMI_SW_AP_MASK;

	met_vcorefs_src[DDR_SW_REQ2_CM_IDX] =
		(sw_req2 >> EMI_SW_AP_SHIFT) & EMI_SW_AP_MASK;

	if (((total_bw_status >> 1) & 0x1) != 0)
		met_vcorefs_src[DDR_EMI_TOTAL_IDX] = 2;
	else if ((total_bw_status & 0x1) != 0)
		met_vcorefs_src[DDR_EMI_TOTAL_IDX] = 1;
	else
		met_vcorefs_src[DDR_EMI_TOTAL_IDX] = 0;

	if (qos_total_bw > qos1_thres)
		met_vcorefs_src[DDR_QOS_BW_IDX] = 2;
	else if (qos_total_bw > qos0_thres)
		met_vcorefs_src[DDR_QOS_BW_IDX] = 1;
	else
		met_vcorefs_src[DDR_QOS_BW_IDX] = 0;

	met_vcorefs_src[VCORE_OPP_IDX] = get_cur_vcore_opp();

	met_vcorefs_src[VCORE_SW_REQ1_PMQOS_IDX] =
		(sw_req >> VCORE_SW_AP_SHIFT) & VCORE_SW_AP_MASK;

	met_vcorefs_src[VCORE_SW_REQ2_CM_IDX] =
		(sw_req2 >> VCORE_SW_AP_SHIFT) & VCORE_SW_AP_MASK;

	met_vcorefs_src[VCORE_SCP_IDX] =
	(dvfsrc_read(DVFSRC_VCORE_REQUEST) >> VCORE_SCP_GEAR_SHIFT) &
	VCORE_SCP_GEAR_MASK;

	met_vcorefs_src[SRC_TOTAL_EMI_BW_IDX] = total_bw_last;
	met_vcorefs_src[SRC_PMQOS_TATOL_IDX] = qos_total_bw * 100;

	met_vcorefs_src[SRC_PMQOS_BW0_IDX] =
		dvfsrc_read(DVFSRC_SW_BW_0) * 100;

	met_vcorefs_src[SRC_PMQOS_BW1_IDX] =
		dvfsrc_read(DVFSRC_SW_BW_1) * 100;

	met_vcorefs_src[SRC_PMQOS_BW2_IDX] =
		dvfsrc_read(DVFSRC_SW_BW_2) * 100;

	met_vcorefs_src[SRC_PMQOS_BW3_IDX] =
		dvfsrc_read(DVFSRC_SW_BW_3) * 100;

	met_vcorefs_src[SRC_PMQOS_BW4_IDX] =
		dvfsrc_read(DVFSRC_SW_BW_4) * 100;

	met_vcorefs_src[SRC_MD_REQ_OPP] =
		dvfsrc_read(DVFSRC_RSRV_0);

	met_vcorefs_src[BWMON_TOTAL_BW_IDX] =
	(qos_sram_read(QOS_DEBUG_0) & 0x7FFFFFFF) ^ 12345600;
	met_vcorefs_src[BWMON_CPU_BW_IDX] =
	(qos_sram_read(QOS_DEBUG_1) & 0x7FFFFFFF) ^ 12345600;
	met_vcorefs_src[BWMON_GPU_BW_IDX] =
	(qos_sram_read(QOS_DEBUG_2) & 0x7FFFFFFF) ^ 12345600;
	met_vcorefs_src[BWMON_MM_BW_IDX] =
	(qos_sram_read(QOS_DEBUG_3) & 0x7FFFFFFF) ^ 12345600;
	return met_vcorefs_src;
}
EXPORT_SYMBOL(vcorefs_get_src_req);
/* gps workarund function */
static int is_freq_hopping;

void dvfsrc_enable_dvfs_freq_hopping(int gps_on)
{
	static struct mtk_pm_qos_request gps_vcore_req;
	static struct mtk_pm_qos_request gps_ddr_req;

	if (!is_dvfsrc_enabled())
		return;

	if (spm_get_spmfw_idx() == SPMFW_LP3_1CH_1866)
		return;

	if (spm_get_spmfw_idx() == SPMFW_LP4X_2CH_3600)
		return;

	if (!mtk_pm_qos_request_active(&gps_vcore_req))
		mtk_pm_qos_add_request(&gps_vcore_req,
			MTK_PM_QOS_VCORE_OPP, MTK_PM_QOS_VCORE_OPP_DEFAULT_VALUE);

	if (!mtk_pm_qos_request_active(&gps_ddr_req))
		mtk_pm_qos_add_request(&gps_ddr_req,
			MTK_PM_QOS_DDR_OPP, MTK_PM_QOS_DDR_OPP_DEFAULT_VALUE);

	mtk_pm_qos_update_request(&gps_vcore_req, VCORE_OPP_0);
	mtk_pm_qos_update_request(&gps_ddr_req, DDR_OPP_0);
#if defined(CONFIG_MTK_PMIC_COMMON)
	pr_info("[before]gps_on: %d, vcore: %d ddr: %d dvfsrc_level: 0x%x\n",
		gps_on,
		vcore_pmic_to_uv(pmic_get_register_value(PMIC_VCORE_ADDR)),
		get_dram_data_rate(),
		dvfsrc_read(DVFSRC_LEVEL));
#endif
	spm_freq_hopping_cmd(!!gps_on);

	mtk_pm_qos_update_request(&gps_ddr_req, DDR_OPP_UNREQ);
	mtk_pm_qos_update_request(&gps_vcore_req, VCORE_OPP_UNREQ);

	is_freq_hopping = !!gps_on;
#if defined(CONFIG_MTK_PMIC_COMMON)
	pr_info("[after]gps_on: %d, vcore: %d ddr: %d dvfsrc_level: 0x%x\n",
		gps_on,
		vcore_pmic_to_uv(pmic_get_register_value(PMIC_VCORE_ADDR)),
		get_dram_data_rate(),
		dvfsrc_read(DVFSRC_LEVEL));
#endif
}
EXPORT_SYMBOL(dvfsrc_enable_dvfs_freq_hopping);

int dvfsrc_get_dvfs_freq_hopping_status(void)
{
	return is_freq_hopping;
}