kernel_samsung_a34x-permissive/drivers/battery/common/sec_battery.h

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/*
* sec_battery.h
* Samsung Mobile Battery Header
*
*
* Copyright (C) 2012 Samsung Electronics, Inc.
*
*
* This software is licensed under the terms of the GNU General Public
* License version 2, as published by the Free Software Foundation, and
* may be copied, distributed, and modified under those terms.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
*/
#ifndef __SEC_BATTERY_H
#define __SEC_BATTERY_H __FILE__
#include "sec_charging_common.h"
#include <linux/of_gpio.h>
#include <linux/alarmtimer.h>
#include <linux/pm_wakeup.h>
#include <linux/workqueue.h>
#include <linux/proc_fs.h>
#include <linux/jiffies.h>
#include <linux/i2c.h>
#if IS_ENABLED(CONFIG_PDIC_NOTIFIER)
#include <linux/usb/typec/common/pdic_notifier.h>
#endif
#if IS_ENABLED(CONFIG_USB_TYPEC_MANAGER_NOTIFIER)
#include <linux/usb/typec/manager/usb_typec_manager_notifier.h>
#else
#if IS_ENABLED(CONFIG_MUIC_NOTIFIER)
#include <linux/muic/common/muic.h>
#include <linux/muic/common/muic_notifier.h>
#endif
#endif
#include <linux/battery/sec_pd.h>
#include "sec_cisd.h"
#if IS_ENABLED(CONFIG_DIRECT_CHARGING)
#include "sec_direct_charger.h"
#endif
#if defined(CONFIG_WIRELESS_AUTH)
#include "sec_battery_misc.h"
#endif
#include "sec_adc.h"
#include "sb_checklist_app.h"
#include "sb_full_soc.h"
extern const char *sb_get_ct_str(int cable_type);
extern const char *sb_get_cm_str(int chg_mode);
extern const char *sb_get_bst_str(int st);
extern const char *sb_get_hl_str(int health);
extern const char *sb_get_tz_str(int tz);
extern const char *sb_charge_mode_str(int charge_mode);
#ifndef EXPORT_SYMBOL_KUNIT
#define EXPORT_SYMBOL_KUNIT(sym) /* nothing */
#endif
/* current event */
#define SEC_BAT_CURRENT_EVENT_NONE 0x000000
#define SEC_BAT_CURRENT_EVENT_AFC 0x000001
#define SEC_BAT_CURRENT_EVENT_CHARGE_DISABLE 0x000002
#define SEC_BAT_CURRENT_EVENT_SKIP_HEATING_CONTROL 0x000004
#define SEC_BAT_CURRENT_EVENT_LOW_TEMP_SWELLING_COOL1 0x000008
#define SEC_BAT_CURRENT_EVENT_HIGH_TEMP_SWELLING 0x000020
#define SEC_BAT_CURRENT_EVENT_LOW_TEMP_SWELLING_COOL2 0x000080
#define SEC_BAT_CURRENT_EVENT_LOW_TEMP_SWELLING_COOL3 0x000010
#define SEC_BAT_CURRENT_EVENT_SWELLING_MODE (SEC_BAT_CURRENT_EVENT_LOW_TEMP_SWELLING_COOL1 | SEC_BAT_CURRENT_EVENT_LOW_TEMP_SWELLING_COOL2 | SEC_BAT_CURRENT_EVENT_HIGH_TEMP_SWELLING | SEC_BAT_CURRENT_EVENT_LOW_TEMP_SWELLING_COOL3)
#define SEC_BAT_CURRENT_EVENT_LOW_TEMP_MODE (SEC_BAT_CURRENT_EVENT_LOW_TEMP_SWELLING_COOL1 | SEC_BAT_CURRENT_EVENT_LOW_TEMP_SWELLING_COOL2 | SEC_BAT_CURRENT_EVENT_LOW_TEMP_SWELLING_COOL3)
#define SEC_BAT_CURRENT_EVENT_CHG_LIMIT 0x000200
#define SEC_BAT_CURRENT_EVENT_CALL 0x000400
#define SEC_BAT_CURRENT_EVENT_SLATE 0x000800
#define SEC_BAT_CURRENT_EVENT_VBAT_OVP 0x001000
#define SEC_BAT_CURRENT_EVENT_VSYS_OVP 0x002000
#define SEC_BAT_CURRENT_EVENT_WPC_VOUT_LOCK 0x004000
#define SEC_BAT_CURRENT_EVENT_AICL 0x008000
#define SEC_BAT_CURRENT_EVENT_HV_DISABLE 0x010000
#define SEC_BAT_CURRENT_EVENT_SELECT_PDO 0x020000
#define SEC_BAT_CURRENT_EVENT_FG_RESET 0x040000
#define SEC_BAT_CURRENT_EVENT_WDT_EXPIRED 0x080000
#define SEC_BAT_CURRENT_EVENT_NOPD_HV_DISABLE 0x100000
#if defined(CONFIG_ISDB_CHARGING_CONTROL)
#define SEC_BAT_CURRENT_EVENT_ISDB 0x200000
#else
#define SEC_BAT_CURRENT_EVENT_ISDB 0x000000
#endif
#define SEC_BAT_CURRENT_EVENT_DC_ERR 0x400000
#define SEC_BAT_CURRENT_EVENT_SIOP_LIMIT 0x800000
#define SEC_BAT_CURRENT_EVENT_TEMP_CTRL_TEST 0x1000000
#define SEC_BAT_CURRENT_EVENT_25W_OCP 0x2000000
#define SEC_BAT_CURRENT_EVENT_AFC_DISABLE 0x4000000
#define SEC_BAT_CURRENT_EVENT_SEND_UVDM 0x8000000
#define SEC_BAT_CURRENT_EVENT_USB_SUSPENDED 0x10000000
#define SEC_BAT_CURRENT_EVENT_USB_SUPER 0x20000000
#define SEC_BAT_CURRENT_EVENT_USB_100MA 0x40000000
#define SEC_BAT_CURRENT_EVENT_USB_STATE (SEC_BAT_CURRENT_EVENT_USB_SUSPENDED |\
SEC_BAT_CURRENT_EVENT_USB_SUPER |\
SEC_BAT_CURRENT_EVENT_USB_100MA)
#define SEC_BAT_CURRENT_EVENT_WPC_EN 0x80000000
/* misc_event */
#define BATT_MISC_EVENT_UNDEFINED_RANGE_TYPE 0x00000001
#define BATT_MISC_EVENT_WIRELESS_BACKPACK_TYPE 0x00000002
#define BATT_MISC_EVENT_TIMEOUT_OPEN_TYPE 0x00000004
#define BATT_MISC_EVENT_BATT_RESET_SOC 0x00000008
#define BATT_MISC_EVENT_WATER_HICCUP_TYPE 0x00000020
#define BATT_MISC_EVENT_WIRELESS_DET_LEVEL 0x00000040
#define BATT_MISC_EVENT_WIRELESS_FOD 0x00000100
#define BATT_MISC_EVENT_WIRELESS_AUTH_START 0x00000200
#define BATT_MISC_EVENT_WIRELESS_AUTH_RECVED 0x00000400
#define BATT_MISC_EVENT_WIRELESS_AUTH_FAIL 0x00000800
#define BATT_MISC_EVENT_WIRELESS_AUTH_PASS 0x00001000
#define BATT_MISC_EVENT_TEMP_HICCUP_TYPE 0x00002000
#define BATT_MISC_EVENT_DIRECT_POWER_MODE 0x00004000
#define BATT_MISC_EVENT_BATTERY_HEALTH 0x000F0000
#define BATT_MISC_EVENT_HEALTH_OVERHEATLIMIT 0x00100000
#define BATT_MISC_EVENT_ABNORMAL_PAD 0x00200000
#define BATT_MISC_EVENT_WIRELESS_MISALIGN 0x00400000
#define BATT_MISC_EVENT_FULL_CAPACITY 0x01000000
#define BATT_MISC_EVENT_PASS_THROUGH 0x02000000
#define BATT_MISC_EVENT_MAIN_POWERPATH 0x04000000
#define BATT_MISC_EVENT_SUB_POWERPATH 0x08000000
#define BATT_MISC_EVENT_HV_BY_AICL 0x10000000
#define BATT_MISC_EVENT_WC_JIG_PAD 0x20000000
#define BATTERY_HEALTH_SHIFT 16
enum misc_battery_health {
BATTERY_HEALTH_UNKNOWN = 0,
BATTERY_HEALTH_GOOD,
BATTERY_HEALTH_NORMAL,
BATTERY_HEALTH_AGED,
BATTERY_HEALTH_MAX = BATTERY_HEALTH_AGED,
/* For event */
BATTERY_HEALTH_BAD = 0xF,
};
#define BATT_MISC_EVENT_MUIC_ABNORMAL (BATT_MISC_EVENT_UNDEFINED_RANGE_TYPE |\
BATT_MISC_EVENT_WATER_HICCUP_TYPE |\
BATT_MISC_EVENT_TEMP_HICCUP_TYPE)
#define DEFAULT_HEALTH_CHECK_COUNT 5
#define SIOP_INPUT_LIMIT_CURRENT 1200
#define SIOP_CHARGING_LIMIT_CURRENT 1800
#define SIOP_WIRELESS_INPUT_LIMIT_CURRENT 600
#define SIOP_HV_WIRELESS_INPUT_LIMIT_CURRENT 700
#define SIOP_STORE_HV_WIRELESS_CHARGING_LIMIT_CURRENT 450
#define SIOP_HV_INPUT_LIMIT_CURRENT 700
#define SIOP_HV_CHARGING_LIMIT_CURRENT 1800
#define SIOP_HV_12V_INPUT_LIMIT_CURRENT 535
#define SIOP_HV_12V_CHARGING_LIMIT_CURRENT 1000
#define SIOP_APDO_INPUT_LIMIT_CURRENT 1000
#define SIOP_APDO_CHARGING_LIMIT_CURRENT 2000
#define WIRELESS_OTG_INPUT_CURRENT 900
enum {
SEC_INPUT_VOLTAGE_0V = 0,
SEC_INPUT_VOLTAGE_NONE = 1000,
SEC_INPUT_VOLTAGE_APDO = 1234,
SEC_INPUT_VOLTAGE_5V = 5000,
SEC_INPUT_VOLTAGE_5_5V = 5500,
SEC_INPUT_VOLTAGE_9V = 9000,
SEC_INPUT_VOLTAGE_10V = 10000,
SEC_INPUT_VOLTAGE_12V = 12000,
SEC_INPUT_VOLTAGE_12_5V = 12500,
};
#define HV_CHARGER_STATUS_STANDARD1 12000 /* mW */
#define HV_CHARGER_STATUS_STANDARD2 20000 /* mW */
#define HV_CHARGER_STATUS_STANDARD3 24500 /* mW */
#define HV_CHARGER_STATUS_STANDARD4 40000 /* mW */
#define mW_by_mVmA(v, a) ((v) * (a) / 1000)
#define mV_by_mWmA(w, a) ((a) ? (((w) * 1000) / (a)) : (0))
#define mA_by_mWmV(w, v) ((v) ? (((w) * 1000) / (v)) : (0))
enum battery_misc_test {
MISC_TEST_RESET = 0,
MISC_TEST_DISPLAY,
MISC_TEST_EPT_UNKNOWN,
MISC_TEST_MAX,
};
enum {
NORMAL_TA,
AFC_9V_OR_15W,
AFC_12V_OR_20W,
SFC_25W,
SFC_45W,
};
struct sec_bat_pdic_list {
unsigned int max_pd_count;
bool now_isApdo;
unsigned int num_fpdo;
unsigned int num_apdo;
};
enum {
USB_CONN_NORMAL = 0x0,
USB_CONN_SLOPE_OVER = 0x1,
USB_CONN_GAP_OVER1 = 0x2,
USB_CONN_GAP_OVER2 = 0x4,
USB_CONN_OVERHEATLIMIT = 0x8,
};
#define MAX_USB_CONN_CHECK_CNT 10
typedef struct sec_charging_current {
unsigned int input_current_limit;
unsigned int fast_charging_current;
#if IS_ENABLED(CONFIG_DUAL_BATTERY)
unsigned int main_limiter_current;
unsigned int sub_limiter_current;
#endif
} sec_charging_current_t;
/**
* struct sec_bat_adc_table_data - adc to temperature table for sec battery
* driver
* @adc: adc value
* @temperature: temperature(C) * 10
*/
typedef struct sec_bat_adc_table_data {
int adc;
int data;
} sec_bat_adc_table_data_t;
typedef struct sec_bat_adc_region {
int min;
int max;
} sec_bat_adc_region_t;
/* nv, hv, fpdo, apdo, wpc, wpc_hv */
enum sec_siop_curr_type {
SIOP_CURR_TYPE_NV = 0,
SIOP_CURR_TYPE_HV,
SIOP_CURR_TYPE_FPDO,
SIOP_CURR_TYPE_APDO,
SIOP_CURR_TYPE_WPC_NV,
SIOP_CURR_TYPE_WPC_HV,
SIOP_CURR_TYPE_MAX,
};
struct sec_siop_table {
int level;
int icl[SIOP_CURR_TYPE_MAX];
int fcc[SIOP_CURR_TYPE_MAX];
};
#define SIOP_SCENARIO_NUM_MAX 10
struct sec_wireless_rx_power_info {
unsigned int vout;
unsigned int input_current_limit;
unsigned int fast_charging_current;
unsigned int ttf_charge_current;
unsigned int wireless_power_class;
unsigned int rx_power;
};
struct sec_bat_thm_info {
int source;
sec_bat_adc_table_data_t *adc_table;
unsigned int adc_table_size;
int offset;
int check_type;
unsigned int check_count;
int test;
int adc;
int channel;
};
enum sec_battery_thm_info {
THM_INFO_NONE = 0,
THM_INFO_BAT,
THM_INFO_USB,
THM_INFO_CHG,
THM_INFO_WPC,
THM_INFO_SUB_BAT,
THM_INFO_BLK,
THM_INFO_DCHG,
};
#define sec_wireless_rx_power_info_t \
struct sec_wireless_rx_power_info
/* LRP structure */
#define LRP_PROPS 12
#define FOREACH_LRP_TYPE(GEN_LRP_TYPE) \
GEN_LRP_TYPE(LRP_NORMAL) \
GEN_LRP_TYPE(LRP_25W) \
GEN_LRP_TYPE(LRP_45W) \
GEN_LRP_TYPE(LRP_MAX)
#define GENERATE_LRP_ENUM(ENUM) ENUM,
#define GENERATE_LRP_STRING(STRING) #STRING,
enum LRP_TYPE_ENUM {
FOREACH_LRP_TYPE(GENERATE_LRP_ENUM)
};
static const char * const LRP_TYPE_STRING[] = {
FOREACH_LRP_TYPE(GENERATE_LRP_STRING)
};
enum {
LRP_NONE = 0,
LRP_STEP1,
LRP_STEP2,
};
enum {
ST1 = 0,
ST2,
};
enum {
LCD_ON = 0,
LCD_OFF,
};
struct lrp_temp_t {
int trig[2][2];
int recov[2][2];
};
struct lrp_current_t {
int st_icl[2];
int st_fcc[2];
};
typedef struct sec_battery_platform_data {
/* NO NEED TO BE CHANGED */
/* callback functions */
void (*initial_check)(void);
void (*monitor_additional_check)(void);
bool (*bat_gpio_init)(void);
bool (*fg_gpio_init)(void);
bool (*is_lpm)(void);
bool (*check_jig_status)(void);
bool (*is_interrupt_cable_check_possible)(int);
int (*check_cable_callback)(void);
int (*get_cable_from_extended_cable_type)(int);
bool (*cable_switch_check)(void);
bool (*cable_switch_normal)(void);
bool (*check_cable_result_callback)(int);
bool (*check_battery_callback)(void);
bool (*check_battery_result_callback)(void);
int (*ovp_uvlo_callback)(void);
bool (*ovp_uvlo_result_callback)(int);
bool (*fuelalert_process)(bool);
bool (*get_temperature_callback)(
enum power_supply_property,
union power_supply_propval*);
/* ADC region by power supply type
* ADC region should be exclusive
*/
sec_bat_adc_region_t *cable_adc_value;
/* charging current for type (0: not use) */
sec_charging_current_t charging_current[SEC_BATTERY_CABLE_MAX];
sec_wireless_rx_power_info_t *wireless_power_info;
unsigned int *polling_time;
char *chip_vendor;
/* NO NEED TO BE CHANGED */
unsigned int pre_afc_input_current;
unsigned int pre_wc_afc_input_current;
unsigned int select_pd_input_current;
unsigned int store_mode_max_input_power;
char *pmic_name;
/* battery */
char *vendor;
int technology;
void *battery_data;
int bat_gpio_ta_nconnected;
/* 1 : active high, 0 : active low */
int bat_polarity_ta_nconnected;
sec_battery_cable_check_t cable_check_type;
sec_battery_cable_source_t cable_source_type;
unsigned int swelling_high_rechg_voltage;
unsigned int swelling_low_rechg_voltage;
unsigned int swelling_low_rechg_soc;
unsigned int swelling_low_cool3_rechg_voltage;
bool chgen_over_swell_rechg_vol;
#if IS_ENABLED(CONFIG_STEP_CHARGING)
/* step charging */
unsigned int **step_chg_cond;
unsigned int **wpc_step_chg_cond;
unsigned int **step_chg_cond_soc;
#if IS_ENABLED(CONFIG_DUAL_BATTERY)
unsigned int **step_chg_cond_sub;
#endif
unsigned int *step_chg_cond_curr;
unsigned int **step_chg_curr;
unsigned int **step_chg_vfloat;
unsigned int *wpc_step_chg_cond_curr;
unsigned int **wpc_step_chg_curr;
unsigned int **wpc_step_chg_vfloat;
#if IS_ENABLED(CONFIG_DIRECT_CHARGING)
#if IS_ENABLED(CONFIG_DUAL_BATTERY)
unsigned int **dc_step_chg_cond_vol_sub;
unsigned int dc_step_cond_v_margin_main;
unsigned int dc_step_cond_v_margin_sub;
unsigned int sc_vbat_thresh_main; /* main vbat threshold which dc to sc */
unsigned int sc_vbat_thresh_sub; /* sub vbat threshold which dc to sc */
#endif
unsigned int dc_step_chg_cond_v_margin;
unsigned int **dc_step_chg_cond_vol;
unsigned int **dc_step_chg_cond_soc;
unsigned int *dc_step_chg_cond_iin;
unsigned int *dc_step_chg_vol_offset;
int dc_step_chg_iin_check_cnt;
unsigned int **dc_step_chg_val_iout;
unsigned int **dc_step_chg_val_vfloat;
#endif
#endif
/* Monitor setting */
int polling_type;
/* for initial check */
unsigned int monitor_initial_count;
/* Battery check */
sec_battery_check_t battery_check_type;
/* how many times do we need to check battery */
unsigned int check_count;
/* ADC */
/* battery check ADC maximum value */
unsigned int check_adc_max;
/* battery check ADC minimum value */
unsigned int check_adc_min;
/* OVP/UVLO check */
int ovp_uvlo_check_type;
struct sec_bat_thm_info bat_thm_info;
struct sec_bat_thm_info usb_thm_info;
struct sec_bat_thm_info chg_thm_info;
struct sec_bat_thm_info wpc_thm_info;
struct sec_bat_thm_info sub_bat_thm_info;
struct sec_bat_thm_info blk_thm_info;
struct sec_bat_thm_info dchg_thm_info;
bool dctp_by_cgtp;
bool dctp_bootmode_en;
bool lrpts_by_batts;
int usb_temp_check_type_backup; /* sec_bat_set_temp_control_test() */
int lrp_temp_check_type;
unsigned int temp_check_count;
sec_bat_adc_table_data_t *inbat_adc_table;
unsigned int inbat_adc_table_size;
unsigned int inbat_voltage;
unsigned int inbat_ocv_type;
/*
* limit can be ADC value or Temperature
* depending on temp_check_type
* temperature should be temp x 10 (0.1 degree)
*/
int wireless_cold_cool3_thresh;
int wireless_cool3_cool2_thresh;
int wireless_cool2_cool1_thresh;
int wireless_cool1_normal_thresh;
int wireless_normal_warm_thresh;
int wireless_warm_overheat_thresh;
int wire_cold_cool3_thresh;
int wire_cool3_cool2_thresh;
int wire_cool2_cool1_thresh;
int wire_cool1_normal_thresh;
int wire_normal_warm_thresh;
int wire_warm_overheat_thresh;
int wire_warm_current;
int wire_cool1_current;
int wire_cool2_current;
int wire_cool3_current;
int wireless_warm_current;
int wireless_cool1_current;
int wireless_cool2_current;
int wireless_cool3_current;
int high_temp_float;
int low_temp_float;
int low_temp_cool3_float;
#if IS_ENABLED(CONFIG_DUAL_BATTERY)
unsigned int limiter_main_warm_current;
unsigned int limiter_sub_warm_current;
unsigned int limiter_main_cool1_current;
unsigned int limiter_sub_cool1_current;
unsigned int limiter_main_cool2_current;
unsigned int limiter_sub_cool2_current;
unsigned int limiter_main_cool3_current;
unsigned int limiter_sub_cool3_current;
unsigned int limiter_aging_float_offset;
#endif
int buck_recovery_margin;
int tx_high_threshold;
int tx_high_recovery;
int tx_low_threshold;
int tx_low_recovery;
int chg_12v_high_temp;
int chg_high_temp;
int chg_high_temp_recovery;
int dchg_high_temp[4];
int dchg_high_temp_recovery[4];
int dchg_high_batt_temp[4];
int dchg_high_batt_temp_recovery[4];
struct lrp_temp_t lrp_temp[LRP_MAX];
struct lrp_current_t lrp_curr[LRP_MAX];
unsigned int chg_charging_limit_current;
unsigned int chg_input_limit_current;
unsigned int dchg_charging_limit_current;
unsigned int dchg_input_limit_current;
unsigned int sub_temp_control_source;
unsigned int wpc_temp_control_source;
unsigned int wpc_temp_lcd_on_control_source;
int wpc_high_temp;
int wpc_high_temp_recovery;
int wpc_high_temp_12w;
int wpc_high_temp_recovery_12w;
int wpc_high_temp_15w;
int wpc_high_temp_recovery_15w;
unsigned int wpc_input_limit_current;
unsigned int wpc_charging_limit_current;
bool enable_check_wpc_temp_v2;
int wpc_temp_v2_cond;
int wpc_temp_v2_cond_12w;
int wpc_temp_v2_cond_15w;
int wpc_lrp_high_temp;
int wpc_lrp_high_temp_recovery;
int wpc_lrp_high_temp_12w;
int wpc_lrp_high_temp_recovery_12w;
int wpc_lrp_high_temp_15w;
int wpc_lrp_high_temp_recovery_15w;
int wpc_lrp_temp_v2_cond;
int wpc_lrp_temp_v2_cond_12w;
int wpc_lrp_temp_v2_cond_15w;
unsigned int wpc_step_limit_size;
unsigned int *wpc_step_limit_temp;
unsigned int *wpc_step_limit_fcc;
unsigned int *wpc_step_limit_fcc_12w;
unsigned int *wpc_step_limit_fcc_15w;
int wpc_lcd_on_high_temp;
int wpc_lcd_on_high_temp_rec;
int wpc_lcd_on_high_temp_12w;
int wpc_lcd_on_high_temp_rec_12w;
int wpc_lcd_on_high_temp_15w;
int wpc_lcd_on_high_temp_rec_15w;
unsigned int wpc_lcd_on_input_limit_current;
unsigned int wpc_flicker_wa_input_limit_current;
unsigned int sleep_mode_limit_current;
unsigned int wc_full_input_limit_current;
unsigned int max_charging_current;
unsigned int max_charging_charge_power;
unsigned int apdo_max_volt;
int mix_high_temp;
int mix_high_chg_temp;
int mix_high_temp_recovery;
bool enable_mix_v2;
int mix_v2_lrp_recov;
int mix_v2_lrp_cond;
int mix_v2_bat_cond;
int mix_v2_chg_cond;
int mix_v2_dchg_cond;
bool wpc_high_check_using_lrp;
unsigned int icl_by_tx_gear; /* check limited charging current during wireless power sharing with cable charging */
unsigned int fcc_by_tx;
unsigned int fcc_by_tx_gear;
unsigned int wpc_input_limit_by_tx_check; /* check limited wpc input current with tx device */
unsigned int wpc_input_limit_current_by_tx;
/* If these is NOT full check type or NONE full check type,
* it is skipped
*/
/* 1st full check */
int full_check_type;
/* 2nd full check */
int full_check_type_2nd;
unsigned int full_check_count;
int chg_gpio_full_check;
/* 1 : active high, 0 : active low */
int chg_polarity_full_check;
sec_battery_full_condition_t full_condition_type;
unsigned int full_condition_soc;
unsigned int full_condition_vcell;
unsigned int full_condition_avgvcell;
unsigned int full_condition_ocv;
unsigned int recharge_check_count;
sec_battery_recharge_condition_t recharge_condition_type;
unsigned int recharge_condition_soc;
unsigned int recharge_condition_vcell;
unsigned long charging_reset_time;
/* fuel gauge */
char *fuelgauge_name;
unsigned int store_mode_charging_max;
unsigned int store_mode_charging_min;
unsigned int store_mode_buckoff;
/* charger */
char *charger_name;
char *otg_name;
char *fgsrc_switch_name;
bool support_fgsrc_change;
bool dynamic_cv_factor;
bool slowcharging_usb_bootcomplete;
/* wireless charger */
char *wireless_charger_name;
int wireless_cc_cv;
bool p2p_cv_headroom;
/* float voltage (mV) */
unsigned int chg_float_voltage;
unsigned int chg_float_voltage_conv;
#if IS_ENABLED(CONFIG_DUAL_BATTERY)
/* current limiter */
char *dual_battery_name;
char *main_limiter_name;
char *sub_limiter_name;
int main_bat_enb_gpio;
int main_bat_enb2_gpio;
int sub_bat_enb_gpio;
#endif
#if IS_ENABLED(CONFIG_DUAL_FUELGAUGE)
char *dual_fuelgauge_name;
char *main_fuelgauge_name;
char *sub_fuelgauge_name;
unsigned int main_design_capacity;
unsigned int sub_design_capacity;
#endif
int num_age_step;
int age_step;
sec_age_data_t* age_data;
battery_health_condition* health_condition;
int siop_icl;
int siop_fcc;
int siop_hv_icl;
int siop_hv_icl_2nd;
int siop_hv_fcc;
int siop_hv_12v_icl;
int siop_hv_12v_fcc;
int siop_apdo_icl;
int siop_apdo_fcc;
int siop_wpc_icl;
int *siop_wpc_fcc;
int siop_hv_wpc_icl;
int *siop_hv_wpc_fcc;
int wireless_otg_input_current;
int wc_hero_stand_cc_cv;
int wc_hero_stand_cv_current;
int wc_hero_stand_hv_cv_current;
int siop_scenarios_num;
int siop_curr_type_num;
struct sec_siop_table siop_table[SIOP_SCENARIO_NUM_MAX];
int default_input_current;
int default_charging_current;
int default_usb_input_current;
int default_usb_charging_current;
unsigned int default_wc20_input_current;
unsigned int default_wc20_charging_current;
unsigned int default_mpp_input_current;
unsigned int default_mpp_charging_current;
int max_input_voltage;
int max_input_current;
int pre_afc_work_delay;
int pre_wc_afc_work_delay;
unsigned int rp_current_rp1;
unsigned int rp_current_rp2;
unsigned int rp_current_rp3;
unsigned int rp_current_rdu_rp3;
unsigned int rp_current_abnormal_rp3;
bool fake_capacity;
bool en_auto_shipmode_temp_ctrl;
bool boosting_voltage_aicl;
bool tx_5v_disable;
unsigned int phm_vout_ctrl_dev;
unsigned int power_value;
bool bc12_ifcon_wa;
bool mass_with_usb_thm;
bool usb_protection;
/* tx power sharging */
unsigned int tx_stop_capacity;
unsigned int battery_full_capacity;
unsigned int cisd_cap_high_thr;
unsigned int cisd_cap_low_thr;
unsigned int cisd_cap_limit;
int max_voltage_thr;
unsigned int cisd_alg_index;
unsigned int *ignore_cisd_index;
unsigned int *ignore_cisd_index_d;
#if IS_ENABLED(CONFIG_DUAL_BATTERY)
/* zone 1 : 0C ~ 0.4C */
unsigned int zone1_limiter_current;
unsigned int main_zone1_current_rate;
unsigned int sub_zone1_current_rate;
/* zone 2 : 0.4C ~ 1.1C */
unsigned int zone2_limiter_current;
unsigned int main_zone2_current_rate;
unsigned int sub_zone2_current_rate;
/* zone 3 : 1.1C ~ MAX */
unsigned int zone3_limiter_current;
unsigned int main_zone3_current_rate;
unsigned int sub_zone3_current_rate;
unsigned int force_recharge_margin;
unsigned int max_main_limiter_current;
unsigned int min_main_limiter_current;
unsigned int max_sub_limiter_current;
unsigned int min_sub_limiter_current;
/* fully turn on flag */
bool main_fto;
bool sub_fto;
/* fully turn on threshold current */
unsigned int main_fto_current_thresh;
unsigned int sub_fto_current_thresh;
#endif
/* ADC setting */
unsigned int adc_check_count;
unsigned int adc_read_type;
unsigned int full_check_current_1st;
unsigned int full_check_current_2nd;
unsigned int pd_charging_charge_power;
unsigned int nv_charge_power;
unsigned int expired_time;
unsigned int recharging_expired_time;
int standard_curr;
unsigned int tx_minduty_5V;
unsigned int tx_minduty_default;
unsigned int tx_ping_duty_no_ta;
unsigned int tx_ping_duty_default;
unsigned int tx_uno_vout;
unsigned int tx_uno_iout;
unsigned int tx_uno_iout_gear;
unsigned int tx_uno_iout_aov_gear;
unsigned int tx_buds_vout; // true wireless stereo type like buds
unsigned int tx_gear_vout; // watch type
unsigned int tx_ping_vout;
unsigned int tx_mfc_iout_gear;
unsigned int tx_mfc_iout_aov_gear;
unsigned int tx_mfc_iout_phone;
unsigned int tx_mfc_iout_phone_5v;
unsigned int tx_mfc_iout_lcd_on;
unsigned int tx_aov_start_vout;
unsigned int tx_aov_freq_low;
unsigned int tx_aov_freq_high;
unsigned int tx_aov_delay;
unsigned int tx_aov_delay_phm_escape;
/* MAIN LRPST compensation */
bool lr_enable;
unsigned int lr_param_bat_thm;
unsigned int lr_param_sub_bat_thm;
unsigned int lr_delta;
unsigned int lr_param_init_bat_thm;
unsigned int lr_param_init_sub_bat_thm;
unsigned int lr_round_off;
bool wpc_vout_ctrl_lcd_on;
bool soc_by_repcap_en;
unsigned int d2d_check_type;
bool support_vpdo;
bool support_fpdo_dc;
unsigned int fpdo_dc_charge_power;
bool sc_LRP_25W;
int batt_temp_adj_gap_inc;
int change_FV_after_full;
bool support_usb_conn_check;
unsigned int usb_conn_slope_avg;
bool wpc_warm_fod;
unsigned int wpc_warm_fod_icc;
bool loosened_unknown_temp;
bool support_spsn_ctrl;
} sec_battery_platform_data_t;
struct sec_ttf_data;
struct sec_eoc_info {
bool eoc_check;
unsigned int eoc_cnt;
};
struct sec_battery_info {
struct device *dev;
sec_battery_platform_data_t *pdata;
struct sec_ttf_data *ttf_d;
struct sec_eoc_info *eoc_d;
/* power supply used in Android */
struct power_supply *psy_bat;
struct power_supply *psy_usb;
struct power_supply *psy_ac;
struct power_supply *psy_wireless;
struct power_supply *psy_pogo;
struct power_supply *psy_otg;
int pd_usb_attached;
#if IS_ENABLED(CONFIG_USB_TYPEC_MANAGER_NOTIFIER)
struct notifier_block usb_typec_nb;
#else
#if IS_ENABLED(CONFIG_MUIC_NOTIFIER)
struct notifier_block batt_nb;
#endif
#endif
struct notifier_block sb_nb;
bool pdic_attach;
bool pdic_ps_rdy;
bool init_src_cap;
SEC_PD_SINK_STATUS sink_status;
SEC_PD_SINK_STATUS *psink_status;
struct sec_bat_pdic_list pd_list;
bool hv_pdo;
bool update_pd_list;
int d2d_auth;
bool vpdo_src_boost;
bool vpdo_ocp;
int vpdo_auth_stat;
int hp_d2d;
bool is_sysovlo;
bool is_vbatovlo;
bool is_abnormal_temp;
bool safety_timer_set;
bool lcd_status;
bool skip_swelling;
bool wc_auth_retried;
int status;
int health;
bool present;
unsigned int charger_mode;
int voltage_now; /* cell voltage (mV) */
int voltage_avg; /* average voltage (mV) */
int voltage_ocv; /* open circuit voltage (mV) */
int current_now; /* current (mA) */
int inbat_adc; /* inbat adc */
int current_avg; /* average current (mA) */
int current_max; /* input current limit (mA) */
int current_sys; /* system current (mA) */
int current_sys_avg; /* average system current (mA) */
int charge_counter; /* remaining capacity (uAh) */
int current_adc;
int voltage_pack_main; /* pack voltage main battery (mV) */
int voltage_pack_sub; /* pack voltage sub battery (mV) */
int current_now_main; /* current from main battery (mA) */
int current_now_sub; /* current from sub battery (mA) */
#if IS_ENABLED(CONFIG_DUAL_BATTERY)
unsigned int limiter_check;
bool set_lower_curr;
#endif
unsigned int capacity; /* SOC (%) */
unsigned int input_voltage; /* CHGIN/WCIN input voltage (V) */
unsigned int charge_power; /* charge power (mW) */
unsigned int max_charge_power; /* max charge power (mW) */
unsigned int pd_max_charge_power; /* max charge power for pd (mW) */
unsigned int pd_rated_power; /* rated power for pd (W) */
/* keep awake until monitor is done */
struct wakeup_source *monitor_ws;
struct workqueue_struct *monitor_wqueue;
struct delayed_work monitor_work;
unsigned int polling_count;
unsigned int polling_time;
bool polling_in_sleep;
bool polling_short;
struct delayed_work polling_work;
struct alarm polling_alarm;
ktime_t last_poll_time;
struct cisd cisd;
bool skip_cisd;
bool usb_overheat_check;
bool otg_check;
bool d2d_check;
int prev_volt;
int prev_temp;
int prev_jig_on;
int enable_update_data;
int prev_chg_on;
#if defined(CONFIG_WIRELESS_AUTH)
sec_bat_misc_dev_t *misc_dev;
#endif
/* battery check */
unsigned int check_count;
/* ADC check */
unsigned int check_adc_count;
unsigned int check_adc_value;
/* health change check*/
bool health_change;
/* ovp-uvlo health check */
int health_check_count;
/* time check */
unsigned long charging_retention_time; /* retention time of charger connection */
unsigned long charging_start_time;
unsigned long charging_passed_time;
unsigned long charging_next_time;
unsigned long charging_fullcharged_time;
unsigned long wc_heating_start_time;
unsigned long wc_heating_passed_time;
/* chg temperature check */
unsigned int chg_limit;
unsigned int chg_limit_recovery_cable;
unsigned int mix_limit;
/* lrp temperature check */
unsigned int lrp_limit;
unsigned int lrp_step;
/* temperature check */
int temperature; /* battery temperature */
#if defined(CONFIG_ENG_BATTERY_CONCEPT)
bool test_max_current;
bool test_charge_current;
#if IS_ENABLED(CONFIG_STEP_CHARGING)
int test_step_condition;
#endif
#endif
int temper_amb; /* target temperature */
int usb_temp;
int chg_temp; /* charger temperature */
int wpc_temp;
int sub_bat_temp;
int usb_conn_status;
int usb_protection_temp;
int temp_gap_bat_usb;
int dchg_temp;
int blkt_temp; /* blanket temperature(instead of batt temp in mix_temp func for tablet model) */
int lrp;
int lrp_test;
unsigned int lrp_chg_src;
int overheatlimit_threshold_backup; /* sec_bat_set_temp_control_test() */
int overheatlimit_recovery_backup; /* sec_bat_set_temp_control_test() */
int overheatlimit_threshold;
int overheatlimit_recovery;
int cold_cool3_thresh;
int cool3_cool2_thresh;
int cool2_cool1_thresh;
int cool1_normal_thresh;
int normal_warm_thresh;
int warm_overheat_thresh;
int thermal_zone;
int bat_thm_count;
int adc_init_count;
/* charging */
unsigned int charging_mode;
bool is_recharging;
int wdt_kick_disable;
bool is_jig_on;
int cable_type;
int muic_cable_type;
bool auto_mode;
struct wakeup_source *cable_ws;
struct delayed_work cable_work;
struct wakeup_source *vbus_ws;
struct wakeup_source *input_ws;
struct delayed_work input_check_work;
#if defined(CONFIG_WIRELESS_FIRMWARE_UPDATE)
struct delayed_work fw_init_work;
#endif
struct delayed_work siop_level_work;
struct wakeup_source *siop_level_ws;
struct wakeup_source *wpc_tx_ws;
struct delayed_work wpc_tx_work;
struct wakeup_source *wpc_tx_en_ws;
struct delayed_work wpc_tx_en_work;
#if defined(CONFIG_UPDATE_BATTERY_DATA)
struct delayed_work batt_data_work;
struct wakeup_source *batt_data_ws;
char *data_path;
#endif
#ifdef CONFIG_OF
struct delayed_work parse_mode_dt_work;
struct wakeup_source *parse_mode_dt_ws;
#endif
struct delayed_work dev_init_work;
struct wakeup_source *dev_init_ws;
struct delayed_work afc_init_work;
struct delayed_work usb_conn_check_work;
struct wakeup_source *usb_conn_check_ws;
struct delayed_work transit_clear_work;
char batt_type[48];
unsigned int full_check_cnt;
unsigned int recharge_check_cnt;
unsigned int input_check_cnt;
unsigned int usb_conn_check_cnt;
bool run_usb_conn_check;
struct mutex iolock;
int input_current;
int charging_current;
#if IS_ENABLED(CONFIG_DUAL_BATTERY)
unsigned int main_current;
unsigned int sub_current;
#endif
int topoff_condition;
int wpc_vout_level;
int wpc_max_vout_level;
unsigned int current_event;
/* wireless charging enable */
struct mutex wclock;
bool wc_enable;
int wc_enable_cnt;
int wc_enable_cnt_value;
int led_cover;
int mag_cover;
int wc_status;
bool wc_cv_mode;
#if defined(CONFIG_WIRELESS_RX_PHM_CTRL)
bool wc_rx_pdetb_mode; // phm state in case of rx mode with models which support pdet_b gpio
#else
bool wc_rx_phm_mode; // phm state in case of rx mode with models which non-support pdet_b gpio
#endif
bool wc_tx_phm_mode; // phm state in case of tx mode
bool prev_tx_phm_mode; // prev phm state in case of tx mode
bool wc_tx_adaptive_vout;
bool wc_need_ldo_on;
int wire_status;
#if IS_ENABLED(CONFIG_MTK_CHARGER) && !IS_ENABLED(CONFIG_VIRTUAL_MUIC)
int bc12_cable;
#endif
/* wireless tx */
bool wc_tx_enable;
bool wc_rx_connected;
bool afc_disable;
bool pd_disable;
bool buck_cntl_by_tx;
bool tx_switch_mode_change;
int wc_tx_vout;
bool uno_en;
unsigned int wc_rx_type;
unsigned int tx_minduty;
unsigned int tx_ping_duty;
unsigned int tx_switch_mode;
unsigned int tx_switch_start_soc;
unsigned int tx_mfc_iout;
unsigned int tx_uno_iout;
int pogo_status;
bool pogo_9v;
/* test mode */
int test_mode;
bool factory_mode;
bool factory_mode_boot_on;
bool display_test;
bool store_mode;
#if defined(CONFIG_BC12_DEVICE) && defined(CONFIG_SEC_FACTORY)
bool vbat_adc_open;
#endif
/* usb suspend */
int prev_usb_conf;
/* MTBF test for CMCC */
bool is_hc_usb;
int siop_level;
int stability_test;
int eng_not_full_status;
int wpc_temp_v2_offset;
bool wpc_vout_ctrl_mode;
char *hv_chg_name;
#if IS_ENABLED(CONFIG_WIRELESS_CHARGING)
bool disable_mfc;
bool nv_wc_temp_ctrl_skip;
int tx_avg_curr;
int tx_time_cnt;
int tx_total_power;
struct delayed_work wpc_txpower_calc_work;
bool wc_ept_timeout;
unsigned int wc20_vout;
unsigned int wc20_power_class;
unsigned int wc20_rx_power;
unsigned int wc20_info_len;
unsigned int wc20_info_idx;
struct delayed_work wc20_current_work;
struct delayed_work wc_ept_timeout_work;
struct wakeup_source *wc20_current_ws;
struct wakeup_source *wc_ept_timeout_ws;
#endif
struct delayed_work slowcharging_work;
int batt_cycle;
int batt_asoc;
#if IS_ENABLED(CONFIG_STEP_CHARGING)
bool step_charging_skip_lcd_on;
bool step_chg_en_in_factory;
unsigned int step_chg_type;
unsigned int step_chg_charge_power;
int step_chg_status;
int step_chg_step;
#if IS_ENABLED(CONFIG_WIRELESS_CHARGING)
unsigned int wpc_step_chg_type;
unsigned int wpc_step_chg_charge_power;
int wpc_step_chg_step;
#endif
#if IS_ENABLED(CONFIG_DIRECT_CHARGING)
int dc_step_chg_step;
unsigned int *dc_step_chg_type;
unsigned int dc_step_chg_charge_power;
bool dc_float_voltage_set;
unsigned int dc_step_chg_iin_cnt;
#endif
#endif
bool dchg_dc_in_swelling;
struct mutex misclock;
struct mutex txeventlock;
unsigned int misc_event;
unsigned int tx_event;
unsigned int ext_event;
unsigned int prev_misc_event;
unsigned int tx_retry_case;
unsigned int tx_misalign_cnt;
unsigned int tx_ocp_cnt;
struct delayed_work ext_event_work;
struct delayed_work misc_event_work;
struct wakeup_source *ext_event_ws;
struct wakeup_source *misc_event_ws;
struct wakeup_source *tx_event_ws;
struct mutex batt_handlelock;
struct mutex current_eventlock;
struct mutex typec_notylock;
#if IS_ENABLED(CONFIG_MTK_CHARGER) && !IS_ENABLED(CONFIG_VIRTUAL_MUIC)
struct mutex bc12_notylock;
#endif
struct mutex voutlock;
unsigned long tx_misalign_start_time;
unsigned long tx_misalign_passed_time;
unsigned long tx_ocp_start_time;
unsigned long tx_ocp_passed_time;
unsigned int hiccup_status;
bool hiccup_clear;
bool stop_timer;
unsigned long prev_safety_time;
unsigned long expired_time;
unsigned long cal_safety_time;
int fg_reset;
struct sec_vote *fcc_vote;
struct sec_vote *input_vote;
struct sec_vote *fv_vote;
struct sec_vote *dc_fv_vote;
struct sec_vote *chgen_vote;
struct sec_vote *topoff_vote;
struct sec_vote *iv_vote;
struct sb_full_soc *fs;
/* 25w ta alert */
bool ta_alert_wa;
int ta_alert_mode;
bool sleep_mode;
bool mfc_fw_update;
int charging_night_mode;
/* MAIN LRPST compensation */
unsigned long lr_start_time;
unsigned long lr_time_span;
int lrp_temp;
int lr_bat_t_1;
bool is_fpdo_dc;
#if IS_ENABLED(CONFIG_USB_FACTORY_MODE)
bool usb_factory_init;
int usb_factory_mode;
#if defined(CONFIG_SEC_FACTORY)
bool usb_factory_slate_mode;
#endif
unsigned int batt_f_mode;
#endif
bool abnormal_ta;
int srccap_transit_cnt;
bool srccap_transit;
int dc_check_cnt;
bool usb_slow_chg;
bool usb_bootcomplete;
unsigned int flash_state;
unsigned int mst_en;
#if IS_ENABLED(CONFIG_MTK_CHARGER)
unsigned int mtk_fg_init;
#endif
#if IS_ENABLED(CONFIG_VBUS_NOTIFIER)
struct notifier_block vbus_nb;
#endif
bool is_otg_on;
bool smart_sw_src;
};
enum {
EXT_DEV_NONE = 0,
EXT_DEV_GAMEPAD_CHG,
EXT_DEV_GAMEPAD_OTG,
};
#if IS_ENABLED(CONFIG_MTK_CHARGER) && IS_ENABLED(CONFIG_AFC_CHARGER)
extern int afc_set_voltage(int vol);
#endif
extern unsigned int sec_bat_get_lpmode(void);
extern void sec_bat_set_lpmode(unsigned int value);
extern int sec_bat_get_fgreset(void);
extern int sec_bat_get_facmode(void);
extern unsigned int sec_bat_get_chgmode(void);
extern void sec_bat_set_chgmode(unsigned int value);
extern unsigned int sec_bat_get_dispd(void);
extern void sec_bat_set_dispd(unsigned int value);
extern int adc_read(struct sec_battery_info *battery, int channel);
extern void adc_init(struct platform_device *pdev, struct sec_battery_info *battery);
extern void adc_exit(struct sec_battery_info *battery);
extern void sec_cable_init(struct platform_device *pdev, struct sec_battery_info *battery);
extern int sec_bat_get_adc_data(struct device *dev, int adc_ch, int count, int batt_adc_type);
extern int sec_bat_get_charger_type_adc(struct sec_battery_info *battery);
extern bool sec_bat_convert_adc_to_val(int adc, int offset,
sec_bat_adc_table_data_t *adc_table, int size, int *value);
extern int sec_bat_get_adc_value(struct sec_battery_info *battery, int channel);
extern int sec_bat_get_inbat_vol_by_adc(struct sec_battery_info *battery);
extern bool sec_bat_check_vf_adc(struct sec_battery_info *battery);
#if IS_ENABLED(CONFIG_DIRECT_CHARGING)
extern int sec_bat_get_direct_chg_temp_adc(struct sec_battery_info *battery, int adc_data, int count, int check_type);
#endif
extern void sec_bat_set_misc_event(struct sec_battery_info *battery, unsigned int misc_event_val, unsigned int misc_event_mask);
extern void sec_bat_set_tx_event(struct sec_battery_info *battery,
unsigned int tx_event_val, unsigned int tx_event_mask);
extern void sec_bat_set_current_event(struct sec_battery_info *battery, unsigned int current_event_val, unsigned int current_event_mask);
extern void sec_bat_set_temp_control_test(struct sec_battery_info *battery, bool temp_enable);
extern void sec_bat_get_battery_info(struct sec_battery_info *battery);
extern int sec_bat_set_charging_current(struct sec_battery_info *battery);
extern void sec_bat_aging_check(struct sec_battery_info *battery);
extern void sec_bat_set_threshold(struct sec_battery_info *battery, int cable_type);
extern void sec_bat_thermal_check(struct sec_battery_info *battery);
extern void sec_bat_set_charging_status(struct sec_battery_info *battery, int status);
void sec_bat_set_health(struct sec_battery_info *battery, int status);
extern bool sec_bat_check_full(struct sec_battery_info *battery, int full_check_type);
extern bool sec_bat_check_fullcharged(struct sec_battery_info *battery);
extern void sec_bat_check_wpc_temp(struct sec_battery_info *battery, int ct, int siop_level);
extern void sec_bat_check_wpc_temp_v2(struct sec_battery_info *battery);
extern void sec_bat_check_mix_temp(struct sec_battery_info *battery, int ct, int siop_level, bool is_apdo);
extern void sec_bat_check_mix_temp_v2(struct sec_battery_info *battery);
extern void sec_bat_check_afc_temp(struct sec_battery_info *battery, int siop_level);
extern void sec_bat_check_pdic_temp(struct sec_battery_info *battery, int siop_level);
extern void sec_bat_check_direct_chg_temp(struct sec_battery_info *battery, int siop_level);
extern int sec_bat_check_power_type(int max_chg_pwr, int pd_max_chg_pwr, int ct, int ws, int is_apdo);
extern void sec_bat_check_lrp_temp(struct sec_battery_info *battery, int ct, int ws, int siop_level, bool lcd_sts);
extern void sec_bat_check_tx_temperature(struct sec_battery_info *battery);
extern void sec_bat_change_default_current(struct sec_battery_info *battery, int cable_type, int input, int output);
extern int sec_bat_set_charge(void *data, int chg_mode);
extern int adjust_bat_temp(struct sec_battery_info *battery, int batt_temp, int sub_bat_temp);
extern int get_chg_power_type(int ct, int ws, int pd_max_pw, int max_pw);
extern int sec_usb_conn_check(struct sec_battery_info *battery);
#if !defined(CONFIG_SEC_FACTORY)
extern void sec_bat_check_temp_ctrl_by_cable(struct sec_battery_info *battery);
#endif
#if IS_ENABLED(CONFIG_WIRELESS_CHARGING)
extern void sec_bat_get_wireless_current(struct sec_battery_info *battery);
extern void sec_bat_mfc_work(struct work_struct *work);
extern int sec_bat_check_wc_available(struct sec_battery_info *battery);
extern bool sec_bat_hv_wc_normal_mode_check(struct sec_battery_info *battery);
extern void sec_bat_ext_event_work_content(struct sec_battery_info *battery);
extern void sec_bat_wpc_tx_work_content(struct sec_battery_info *battery);
extern void sec_bat_wpc_tx_en_work_content(struct sec_battery_info *battery);
extern void sec_bat_set_wc20_current(struct sec_battery_info *battery);
extern void sec_wireless_otg_control(struct sec_battery_info *battery, int enable);
extern void set_wireless_otg_input_current(struct sec_battery_info *battery);
extern void sec_bat_set_mfc_off(struct sec_battery_info *battery, char flag, bool need_ept);
extern void sec_bat_set_mfc_on(struct sec_battery_info *battery, char flag);
extern int sec_bat_choose_cable_type(struct sec_battery_info *battery);
extern void sec_bat_handle_tx_misalign(struct sec_battery_info *battery, bool trigger_misalign);
extern void sec_bat_handle_tx_ocp(struct sec_battery_info *battery, bool trigger_ocp);
extern void sec_bat_wireless_minduty_cntl(struct sec_battery_info *battery, unsigned int duty_val);
extern void sec_bat_wireless_uno_cntl(struct sec_battery_info *battery, bool en);
extern void sec_bat_wireless_iout_cntl(struct sec_battery_info *battery, int uno_iout, int mfc_iout);
extern void sec_bat_wireless_vout_cntl(struct sec_battery_info *battery, int vout_now);
extern void sec_bat_check_tx_mode(struct sec_battery_info *battery);
extern void sec_bat_wc_cv_mode_check(struct sec_battery_info *battery);
extern void sec_bat_run_wpc_tx_work(struct sec_battery_info *battery, int work_delay);
extern void sec_bat_txpower_calc(struct sec_battery_info *battery);
extern void sec_wireless_set_tx_enable(struct sec_battery_info *battery, bool wc_tx_enable);
extern void sec_bat_check_wc_re_auth(struct sec_battery_info *battery);
extern unsigned int get_wc20_vout(unsigned int vout);
extern void sec_bat_mfc_ldo_cntl(struct sec_battery_info *battery, bool en);
#else
static inline void sec_bat_set_mfc_off(struct sec_battery_info *battery, char flag, bool need_ept) {}
static inline void sec_bat_set_mfc_on(struct sec_battery_info *battery, char flag) {}
#endif
#if defined(CONFIG_WIRELESS_FIRMWARE_UPDATE)
extern void sec_bat_fw_update(struct sec_battery_info *battery, int mode);
extern bool sec_bat_check_boost_mfc_condition(struct sec_battery_info *battery, int mode);
#endif
#if IS_ENABLED(CONFIG_STEP_CHARGING)
extern void sec_bat_reset_step_charging(struct sec_battery_info *battery);
extern void sec_step_charging_init(struct sec_battery_info *battery, struct device *dev);
extern bool sec_bat_check_step_charging(struct sec_battery_info *battery);
#if IS_ENABLED(CONFIG_WIRELESS_CHARGING)
extern bool sec_bat_check_wpc_step_charging(struct sec_battery_info *battery);
#endif
#if IS_ENABLED(CONFIG_DIRECT_CHARGING)
extern bool sec_bat_check_dc_step_charging(struct sec_battery_info *battery);
#endif
void sec_bat_set_aging_info_step_charging(struct sec_battery_info *battery);
#endif
#if !defined(CONFIG_SEC_FACTORY)
bool sales_code_is(char *str);
#endif
#if defined(CONFIG_UPDATE_BATTERY_DATA)
extern int sec_battery_update_data(const char* file_path);
#endif
extern bool sec_bat_cisd_check(struct sec_battery_info *battery);
extern void sec_battery_cisd_init(struct sec_battery_info *battery);
extern void set_cisd_pad_data(struct sec_battery_info *battery, const char* buf);
extern void set_cisd_power_data(struct sec_battery_info *battery, const char* buf);
extern void set_cisd_pd_data(struct sec_battery_info *battery, const char *buf);
#if defined(CONFIG_WIRELESS_AUTH)
extern int sec_bat_misc_init(struct sec_battery_info *battery);
#endif
int sec_bat_parse_dt(struct device *dev, struct sec_battery_info *battery);
void sec_bat_parse_mode_dt(struct sec_battery_info *battery);
void sec_bat_parse_mode_dt_work(struct work_struct *work);
void sec_bat_check_battery_health(struct sec_battery_info *battery);
bool sec_bat_hv_wc_normal_mode_check(struct sec_battery_info *battery);
int sec_bat_get_temperature(struct device *dev, struct sec_bat_thm_info *info, int old_val,
char *chg_name, char *fg_name, int batt_adc_type);
int sec_bat_get_inbat_vol_ocv(struct sec_battery_info *battery);
void sec_bat_smart_sw_src(struct sec_battery_info *battery, bool enable, int curr);
#endif /* __SEC_BATTERY_H */