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

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/*
* sec_charging_common.h
* Samsung Mobile Charging Common 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_CHARGING_COMMON_H
#define __SEC_CHARGING_COMMON_H __FILE__
#include <linux/module.h>
#include <linux/init.h>
#include <linux/platform_device.h>
#include <linux/err.h>
#include <linux/delay.h>
#include <linux/gpio.h>
#include <linux/irq.h>
#include <linux/interrupt.h>
#include <linux/i2c.h>
#include <linux/power_supply.h>
#include <linux/slab.h>
#include <linux/device.h>
#include <linux/pm_wakeup.h>
#include <linux/battery/sec_battery_common.h>
#include <dt-bindings/battery/sec-battery.h>
#include "sec_battery_vote.h"
#include "sec_charging_modprobe.h"
/* definitions */
#define SEC_BATTERY_CABLE_HV_WIRELESS_ETX 100
#define SEC_BATTERY_CABLE_SILENT_TYPE 99
#define WC_AUTH_MSG "@WC_AUTH "
#define WC_TX_MSG "@Tx_Mode "
#define MFC_LDO_ON 1
#define MFC_LDO_OFF 0
#define TX_ID_CHECK_CNT 3
#define MISALIGN_TX_TRY_CNT 3
#define WL_TO_W 99
#if IS_ENABLED(CONFIG_USB_FACTORY_MODE)
#define FOREACH_BOOT_MODE(GEN_BOOT_MODE) \
GEN_BOOT_MODE(NO_MODE) \
GEN_BOOT_MODE(OB_MODE) \
GEN_BOOT_MODE(IB_MODE)
#define GENERATE_BOOT_MODE_ENUM(ENUM) ENUM,
#define GENERATE_BOOT_MODE_STRING(STRING) #STRING,
enum BOOT_MODE_ENUM {
FOREACH_BOOT_MODE(GENERATE_BOOT_MODE_ENUM)
};
static const char * const BOOT_MODE_STRING[] = {
FOREACH_BOOT_MODE(GENERATE_BOOT_MODE_STRING)
};
#endif
enum battery_thermal_zone {
BAT_THERMAL_COLD = 0,
BAT_THERMAL_COOL3,
BAT_THERMAL_COOL2,
BAT_THERMAL_COOL1,
BAT_THERMAL_NORMAL,
BAT_THERMAL_WARM,
BAT_THERMAL_OVERHEAT,
BAT_THERMAL_OVERHEATLIMIT,
};
enum sb_wireless_mode {
SB_WRL_NONE = 0,
SB_WRL_RX_MODE = 1,
SB_WRL_TX_MODE = 2,
};
enum rx_device_type {
NO_DEV = 0,
OTHER_DEV,
SS_GEAR,
SS_PHONE,
SS_BUDS,
};
enum power_supply_ext_health {
POWER_SUPPLY_EXT_HEALTH_MIN = 20,
POWER_SUPPLY_EXT_HEALTH_UNDERVOLTAGE = POWER_SUPPLY_EXT_HEALTH_MIN,
POWER_SUPPLY_EXT_HEALTH_OVERHEATLIMIT,
POWER_SUPPLY_EXT_HEALTH_VSYS_OVP,
POWER_SUPPLY_EXT_HEALTH_VBAT_OVP,
POWER_SUPPLY_EXT_HEALTH_DC_ERR,
POWER_SUPPLY_EXT_HEALTH_MAX,
};
enum sec_battery_current_type {
/* uA */
SEC_BATTERY_CURRENT_UA = 0,
/* mA */
SEC_BATTERY_CURRENT_MA,
};
enum sec_battery_voltage_type {
/* uA */
SEC_BATTERY_VOLTAGE_UV = 0,
/* mA */
SEC_BATTERY_VOLTAGE_MV,
};
enum sec_battery_temp_type {
/* temp */
SEC_BATTERY_TEMP_TEMP = 0,
/* adc */
SEC_BATTERY_TEMP_ADC,
};
#if IS_ENABLED(CONFIG_DUAL_BATTERY)
enum sec_battery_dual_mode {
SEC_DUAL_BATTERY_MAIN = 0,
SEC_DUAL_BATTERY_SUB,
SEC_DUAL_BATTERY_TOTAL,
};
#endif
enum sec_battery_capacity_mode {
/* designed capacity */
SEC_BATTERY_CAPACITY_DESIGNED = 0,
/* absolute capacity by fuel gauge */
SEC_BATTERY_CAPACITY_ABSOLUTE,
/* temperary capacity in the time */
SEC_BATTERY_CAPACITY_TEMPERARY,
/* current capacity now */
SEC_BATTERY_CAPACITY_CURRENT,
/* cell aging information */
SEC_BATTERY_CAPACITY_AGEDCELL,
/* charge count */
SEC_BATTERY_CAPACITY_CYCLE,
/* full capacity rep */
SEC_BATTERY_CAPACITY_FULL,
/* QH capacity */
SEC_BATTERY_CAPACITY_QH,
/* vfsoc */
SEC_BATTERY_CAPACITY_VFSOC,
/* rcomp0 */
SEC_BATTERY_CAPACITY_RC0,
};
enum sec_wireless_info_mode {
SEC_WIRELESS_OTP_FIRM_RESULT = 0,
SEC_WIRELESS_IC_REVISION,
SEC_WIRELESS_IC_GRADE,
SEC_WIRELESS_IC_CHIP_ID,
SEC_WIRELESS_OTP_FIRM_VER_BIN,
SEC_WIRELESS_OTP_FIRM_VER,
SEC_WIRELESS_OTP_FIRM_VERIFY,
SEC_WIRELESS_MST_SWITCH_VERIFY,
};
enum sec_wireless_firmware_update_mode {
SEC_WIRELESS_FW_UPDATE_SDCARD_MODE = 0, /* manual update mode , firmware file must be in sdcard */
SEC_WIRELESS_FW_UPDATE_BUILTIN_MODE, /* factory line update mode, MSP wirtes only this mode */
SEC_WIRELESS_FW_UPDATE_AUTO_MODE, /* auto update mode, it works during kernel on, very similar to BUILTIN MODE */
SEC_WIRELESS_FW_UPDATE_SPU_MODE, /* spu update mode */
SEC_WIRELESS_FW_UPDATE_SPU_VERIFY_MODE, /* for automation test */
};
enum sec_tx_sharing_mode {
SEC_TX_OFF = 0,
SEC_TX_STANDBY,
SEC_TX_POWER_TRANSFER,
SEC_TX_ERROR,
};
enum sec_wireless_auth_mode {
WIRELESS_AUTH_WAIT = 0,
WIRELESS_AUTH_START,
WIRELESS_AUTH_SENT,
WIRELESS_AUTH_RECEIVED,
WIRELESS_AUTH_FAIL,
WIRELESS_AUTH_PASS,
};
enum sec_wireless_pad_id {
WC_PAD_ID_UNKNOWN = 0x00,
/* 0x01~1F : Single Port */
WC_PAD_ID_SNGL_NOBLE = 0x10,
WC_PAD_ID_SNGL_VEHICLE,
WC_PAD_ID_SNGL_MINI,
WC_PAD_ID_SNGL_ZERO,
WC_PAD_ID_SNGL_DREAM,
/* 0x20~2F : Multi Port */
/* 0x30~3F : Stand Type */
WC_PAD_ID_STAND_HERO = 0x30,
WC_PAD_ID_STAND_DREAM,
/* 0x40~4F : External Battery Pack */
WC_PAD_ID_EXT_BATT_PACK = 0x40,
WC_PAD_ID_EXT_BATT_PACK_TA,
/* 0x50~6F : Reserved */
WC_PAD_ID_UNO_TX = 0x72,
WC_PAD_ID_UNO_TX_B0 = 0x80,
WC_PAD_ID_UNO_TX_B1,
WC_PAD_ID_UNO_TX_B2,
WC_PAD_ID_UNO_TX_MAX = 0x9F,
WC_PAD_ID_AUTH_PAD = 0xA0,
WC_PAD_ID_DAVINCI_PAD_V,
WC_PAD_ID_DAVINCI_PAD_H,
WC_PAD_ID_AUTH_PAD_ACLASS_END = 0xAF,
WC_PAD_ID_AUTH_PAD_END = 0xBF,
/* reserved 0xA1 ~ 0xBF for auth pad */
WC_PAD_ID_MAX = 0xFF,
};
enum sec_battery_adc_channel {
SEC_BAT_ADC_CHANNEL_CABLE_CHECK = 0,
SEC_BAT_ADC_CHANNEL_BATID_CHECK,
SEC_BAT_ADC_CHANNEL_TEMP,
SEC_BAT_ADC_CHANNEL_TEMP_AMBIENT,
SEC_BAT_ADC_CHANNEL_FULL_CHECK,
SEC_BAT_ADC_CHANNEL_VOLTAGE_NOW,
SEC_BAT_ADC_CHANNEL_CHG_TEMP,
SEC_BAT_ADC_CHANNEL_INBAT_VOLTAGE,
SEC_BAT_ADC_CHANNEL_DISCHARGING_CHECK,
SEC_BAT_ADC_CHANNEL_DISCHARGING_NTC,
SEC_BAT_ADC_CHANNEL_WPC_TEMP,
SEC_BAT_ADC_CHANNEL_SUB_CHG_TEMP,
SEC_BAT_ADC_CHANNEL_USB_TEMP,
SEC_BAT_ADC_CHANNEL_SUB_BAT_TEMP,
SEC_BAT_ADC_CHANNEL_BLKT_TEMP,
SEC_BAT_ADC_CHANNEL_NUM,
};
enum sec_battery_charge_mode {
SEC_BAT_CHG_MODE_BUCK_OFF = 0, /* buck, chg off */
SEC_BAT_CHG_MODE_CHARGING_OFF,
SEC_BAT_CHG_MODE_PASS_THROUGH,
SEC_BAT_CHG_MODE_CHARGING, /* buck, chg on */
SEC_BAT_CHG_MODE_OTG_ON,
SEC_BAT_CHG_MODE_OTG_OFF,
SEC_BAT_CHG_MODE_UNO_ON,
SEC_BAT_CHG_MODE_UNO_OFF,
SEC_BAT_CHG_MODE_UNO_ONLY,
SEC_BAT_CHG_MODE_NOT_SET,
SEC_BAT_CHG_MODE_MAX,
};
/* charging mode */
enum sec_battery_charging_mode {
/* no charging */
SEC_BATTERY_CHARGING_NONE = 0,
/* 1st charging */
SEC_BATTERY_CHARGING_1ST,
/* 2nd charging */
SEC_BATTERY_CHARGING_2ND,
/* recharging */
SEC_BATTERY_CHARGING_RECHARGING,
};
/* POWER_SUPPLY_EXT_PROP_MEASURE_SYS */
enum sec_battery_measure_sys {
SEC_BATTERY_ISYS_MA = 0,
SEC_BATTERY_ISYS_UA,
SEC_BATTERY_ISYS_AVG_MA,
SEC_BATTERY_ISYS_AVG_UA,
SEC_BATTERY_VSYS,
};
/* POWER_SUPPLY_EXT_PROP_MEASURE_INPUT */
enum sec_battery_measure_input {
SEC_BATTERY_IIN_MA = 0,
SEC_BATTERY_IIN_UA,
SEC_BATTERY_VBYP,
SEC_BATTERY_VIN_MA,
SEC_BATTERY_VIN_UA,
};
enum sec_battery_direct_charging_source_ctrl {
SEC_TEST_MODE = 0x1,
SEC_SEND_UVDM = 0x2,
SEC_STORE_MODE = 0x4,
};
enum sec_battery_slate_mode {
SEC_SLATE_OFF = 0,
SEC_SLATE_MODE,
SEC_SMART_SWITCH_SLATE,
SEC_SMART_SWITCH_SRC,
};
extern const char *sb_rx_type_str(int type);
extern const char *sb_vout_ctr_mode_str(int vout_mode);
extern const char *sb_rx_vout_str(int vout);
/* tx_event */
#define BATT_TX_EVENT_WIRELESS_TX_STATUS 0x00000001
#define BATT_TX_EVENT_WIRELESS_RX_CONNECT 0x00000002
#define BATT_TX_EVENT_WIRELESS_TX_FOD 0x00000004
#define BATT_TX_EVENT_WIRELESS_TX_HIGH_TEMP 0x00000008
#define BATT_TX_EVENT_WIRELESS_RX_UNSAFE_TEMP 0x00000010
#define BATT_TX_EVENT_WIRELESS_RX_CHG_SWITCH 0x00000020
#define BATT_TX_EVENT_WIRELESS_RX_CS100 0x00000040
#define BATT_TX_EVENT_WIRELESS_TX_OTG_ON 0x00000080
#define BATT_TX_EVENT_WIRELESS_TX_LOW_TEMP 0x00000100
#define BATT_TX_EVENT_WIRELESS_TX_SOC_DRAIN 0x00000200
#define BATT_TX_EVENT_WIRELESS_TX_CRITICAL_EOC 0x00000400
#define BATT_TX_EVENT_WIRELESS_TX_CAMERA_ON 0x00000800
#define BATT_TX_EVENT_WIRELESS_TX_OCP 0x00001000
#define BATT_TX_EVENT_WIRELESS_TX_MISALIGN 0x00002000
#define BATT_TX_EVENT_WIRELESS_TX_ETC 0x00004000
#define BATT_TX_EVENT_WIRELESS_TX_RETRY 0x00008000
#define BATT_TX_EVENT_WIRELESS_TX_5V_TA 0x00010000
#define BATT_TX_EVENT_WIRELESS_TX_AC_MISSING 0x00020000
#define BATT_TX_EVENT_WIRELESS_ALL_MASK 0x0003ffff
#define BATT_TX_EVENT_WIRELESS_TX_ERR (BATT_TX_EVENT_WIRELESS_TX_FOD | \
BATT_TX_EVENT_WIRELESS_TX_HIGH_TEMP | BATT_TX_EVENT_WIRELESS_RX_UNSAFE_TEMP | \
BATT_TX_EVENT_WIRELESS_RX_CHG_SWITCH | BATT_TX_EVENT_WIRELESS_RX_CS100 | \
BATT_TX_EVENT_WIRELESS_TX_OTG_ON | BATT_TX_EVENT_WIRELESS_TX_LOW_TEMP | \
BATT_TX_EVENT_WIRELESS_TX_SOC_DRAIN | BATT_TX_EVENT_WIRELESS_TX_CRITICAL_EOC | \
BATT_TX_EVENT_WIRELESS_TX_CAMERA_ON | BATT_TX_EVENT_WIRELESS_TX_OCP | \
BATT_TX_EVENT_WIRELESS_TX_MISALIGN | BATT_TX_EVENT_WIRELESS_TX_ETC | \
BATT_TX_EVENT_WIRELESS_TX_5V_TA | BATT_TX_EVENT_WIRELESS_TX_AC_MISSING)
#define SEC_BAT_TX_RETRY_NONE 0x0000
#define SEC_BAT_TX_RETRY_MISALIGN 0x0001
#define SEC_BAT_TX_RETRY_CAMERA 0x0002
#define SEC_BAT_TX_RETRY_CALL 0x0004
#define SEC_BAT_TX_RETRY_MIX_TEMP 0x0008
#define SEC_BAT_TX_RETRY_HIGH_TEMP 0x0010
#define SEC_BAT_TX_RETRY_LOW_TEMP 0x0020
#define SEC_BAT_TX_RETRY_OCP 0x0040
#define SEC_BAT_TX_RETRY_AC_MISSING 0x0080
/* ext_event */
#define BATT_EXT_EVENT_NONE 0x00000000
#define BATT_EXT_EVENT_CAMERA 0x00000001
#define BATT_EXT_EVENT_DEX 0x00000002
#define BATT_EXT_EVENT_CALL 0x00000004
#define SEC_BAT_ERROR_CAUSE_NONE 0x0000
#define SEC_BAT_ERROR_CAUSE_FG_INIT_FAIL 0x0001
#define SEC_BAT_ERROR_CAUSE_I2C_FAIL 0xFFFFFFFF
/* monitor activation */
enum sec_battery_polling_time_type {
/* same order with power supply status */
SEC_BATTERY_POLLING_TIME_BASIC = 0,
SEC_BATTERY_POLLING_TIME_CHARGING,
SEC_BATTERY_POLLING_TIME_DISCHARGING,
SEC_BATTERY_POLLING_TIME_NOT_CHARGING,
SEC_BATTERY_POLLING_TIME_SLEEP,
};
/* BATT_INBAT_VOLTAGE */
enum sec_battery_fgsrc_switching {
SEC_BAT_INBAT_FGSRC_SWITCHING_VBAT = 0,
SEC_BAT_INBAT_FGSRC_SWITCHING_VSYS,
SEC_BAT_FGSRC_SWITCHING_VBAT,
SEC_BAT_FGSRC_SWITCHING_VSYS
};
enum ta_alert_mode {
OCP_NONE = 0,
OCP_DETECT,
OCP_WA_ACTIVE,
};
enum tx_switch_mode_state {
TX_SWITCH_MODE_OFF = 0,
TX_SWITCH_CHG_ONLY,
TX_SWITCH_UNO_ONLY,
TX_SWITCH_GEAR_PPS, /* temporary mode */
};
enum d2d_auth_type {
D2D_AUTH_NONE = 0,
D2D_AUTH_SRC,
D2D_AUTH_SNK,
};
enum d2d_mode {
HP_D2D_NONE = 0,
HP_D2D_ON,
HP_D2D_BATT_TMP,
HP_D2D_LRP_TMP,
HP_D2D_OCP,
HP_D2D_SOC,
HP_D2D_LCD,
};
enum {
RX_POWER_NONE,
RX_POWER_5W,
RX_POWER_7_5W,
RX_POWER_12W,
RX_POWER_15W,
};
enum mfc_phm_state {
EXIT_PHM = 0,
ENTER_PHM,
FAILED_PHM,
END_PHM,
};
/* full check condition type (can be used overlapped) */
#define sec_battery_full_condition_t unsigned int
/* battery check : POWER_SUPPLY_PROP_PRESENT */
enum sec_battery_check {
/* No Check for internal battery */
SEC_BATTERY_CHECK_NONE,
/* by ADC */
SEC_BATTERY_CHECK_ADC,
/* by callback function (battery certification by 1 wired)*/
SEC_BATTERY_CHECK_CALLBACK,
/* by PMIC */
SEC_BATTERY_CHECK_PMIC,
/* by fuel gauge */
SEC_BATTERY_CHECK_FUELGAUGE,
/* by charger */
SEC_BATTERY_CHECK_CHARGER,
/* by interrupt (use check_battery_callback() to check battery) */
SEC_BATTERY_CHECK_INT,
#if IS_ENABLED(CONFIG_DUAL_BATTERY)
/* by dual battery */
SEC_BATTERY_CHECK_DUAL_BAT_GPIO,
#endif
};
#define sec_battery_check_t \
enum sec_battery_check
/* cable check (can be used overlapped) */
#define sec_battery_cable_check_t unsigned int
/* check cable source (can be used overlapped) */
#define sec_battery_cable_source_t unsigned int
/* capacity calculation type (can be used overlapped) */
#define sec_fuelgauge_capacity_type_t int
/* SEC_FUELGAUGE_CAPACITY_TYPE_RESET
* use capacity information to reset fuel gauge
* (only for driver algorithm, can NOT be set by user)
*/
#define SEC_FUELGAUGE_CAPACITY_TYPE_RESET (-1)
/* SEC_FUELGAUGE_CAPACITY_TYPE_RAW
* use capacity information from fuel gauge directly
*/
#define SEC_FUELGAUGE_CAPACITY_TYPE_RAW 0x1
/* SEC_FUELGAUGE_CAPACITY_TYPE_SCALE
* rescale capacity by scaling, need min and max value for scaling
*/
#define SEC_FUELGAUGE_CAPACITY_TYPE_SCALE 0x2
/* SEC_FUELGAUGE_CAPACITY_TYPE_DYNAMIC_SCALE
* change only maximum capacity dynamically
* to keep time for every SOC unit
*/
#define SEC_FUELGAUGE_CAPACITY_TYPE_DYNAMIC_SCALE 0x4
/* SEC_FUELGAUGE_CAPACITY_TYPE_ATOMIC
* change capacity value by only -1 or +1
* no sudden change of capacity
*/
#define SEC_FUELGAUGE_CAPACITY_TYPE_ATOMIC 0x8
/* SEC_FUELGAUGE_CAPACITY_TYPE_SKIP_ABNORMAL
* skip current capacity value
* if it is abnormal value
*/
#define SEC_FUELGAUGE_CAPACITY_TYPE_SKIP_ABNORMAL 0x10
#define SEC_FUELGAUGE_CAPACITY_TYPE_CAPACITY_POINT 0x20
#define SEC_FUELGAUGE_CAPACITY_TYPE_LOST_SOC 0x40
#define SEC_FUELGAUGE_CAPACITY_TYPE_REPCAP 0x80
/* charger function settings (can be used overlapped) */
/* SEC_CHARGER_NO_GRADUAL_CHARGING_CURRENT
* disable gradual charging current setting
* SUMMIT:AICL, MAXIM:regulation loop
*/
#define SEC_CHARGER_NO_GRADUAL_CHARGING_CURRENT 1
/* SEC_CHARGER_MINIMUM_SIOP_CHARGING_CURRENT
* charging current should be over than USB charging current
*/
#define SEC_CHARGER_MINIMUM_SIOP_CHARGING_CURRENT 2
#define SEC_BATTERY_CABLE_TYPE_FROM_MTK 1
#if defined(CONFIG_TABLET_MODEL_CONCEPT) && !defined(CONFIG_SEC_FACTORY)
#define SLOW_CHARGING_CURRENT_STANDARD 1000
#else
#define SLOW_CHARGING_CURRENT_STANDARD 400
#endif
typedef struct sec_age_data {
unsigned int cycle;
unsigned int float_voltage;
unsigned int recharge_condition_vcell;
unsigned int full_condition_vcell;
unsigned int full_condition_soc;
#if defined(CONFIG_BATTERY_AGE_FORECAST_B2B)
unsigned int max_charging_current;
#endif
} sec_age_data_t;
typedef struct {
unsigned int cycle;
unsigned int asoc;
} battery_health_condition;
#define is_ppde_wireless_type(cable_type) ( \
cable_type == SEC_BATTERY_CABLE_PREPARE_WIRELESS_20 || \
cable_type == SEC_BATTERY_CABLE_HV_WIRELESS_20_LIMIT || \
cable_type == SEC_BATTERY_CABLE_HV_WIRELESS_20)
#define is_pwr_nego_wireless_type(cable_type) ( \
cable_type == SEC_BATTERY_CABLE_HV_WIRELESS_20 || \
cable_type == SEC_BATTERY_CABLE_WIRELESS_EPP || \
cable_type == SEC_BATTERY_CABLE_WIRELESS_MPP)
#define is_hv_wireless_type(cable_type) ( \
cable_type == SEC_BATTERY_CABLE_HV_WIRELESS || \
cable_type == SEC_BATTERY_CABLE_WIRELESS_HV_STAND || \
cable_type == SEC_BATTERY_CABLE_HV_WIRELESS_20 || \
cable_type == SEC_BATTERY_CABLE_HV_WIRELESS_20_LIMIT || \
cable_type == SEC_BATTERY_CABLE_WIRELESS_HV_VEHICLE || \
cable_type == SEC_BATTERY_CABLE_WIRELESS_HV_PACK || \
cable_type == SEC_BATTERY_CABLE_WIRELESS_EPP || \
cable_type == SEC_BATTERY_CABLE_WIRELESS_MPP)
#define is_nv_wireless_type(cable_type) ( \
cable_type == SEC_BATTERY_CABLE_WIRELESS || \
cable_type == SEC_BATTERY_CABLE_PMA_WIRELESS || \
cable_type == SEC_BATTERY_CABLE_WIRELESS_PACK || \
cable_type == SEC_BATTERY_CABLE_WIRELESS_STAND || \
cable_type == SEC_BATTERY_CABLE_WIRELESS_VEHICLE || \
cable_type == SEC_BATTERY_CABLE_PREPARE_WIRELESS_HV || \
cable_type == SEC_BATTERY_CABLE_PREPARE_WIRELESS_20 || \
cable_type == SEC_BATTERY_CABLE_WIRELESS_TX)
#define is_wireless_type(cable_type) \
(is_hv_wireless_type(cable_type) || is_nv_wireless_type(cable_type))
#define is_wireless_fake_type(cable_type) \
(is_wireless_type(cable_type) || (cable_type == SEC_BATTERY_CABLE_WIRELESS_FAKE))
#define is_not_wireless_type(cable_type) ( \
cable_type != SEC_BATTERY_CABLE_WIRELESS && \
cable_type != SEC_BATTERY_CABLE_PMA_WIRELESS && \
cable_type != SEC_BATTERY_CABLE_WIRELESS_PACK && \
cable_type != SEC_BATTERY_CABLE_WIRELESS_STAND && \
cable_type != SEC_BATTERY_CABLE_HV_WIRELESS && \
cable_type != SEC_BATTERY_CABLE_PREPARE_WIRELESS_HV && \
cable_type != SEC_BATTERY_CABLE_WIRELESS_HV_STAND && \
cable_type != SEC_BATTERY_CABLE_WIRELESS_VEHICLE && \
cable_type != SEC_BATTERY_CABLE_WIRELESS_HV_VEHICLE && \
cable_type != SEC_BATTERY_CABLE_WIRELESS_TX && \
cable_type != SEC_BATTERY_CABLE_PREPARE_WIRELESS_20 && \
cable_type != SEC_BATTERY_CABLE_HV_WIRELESS_20 && \
cable_type != SEC_BATTERY_CABLE_HV_WIRELESS_20_LIMIT && \
cable_type != SEC_BATTERY_CABLE_WIRELESS_HV_PACK && \
cable_type != SEC_BATTERY_CABLE_WIRELESS_EPP && \
cable_type != SEC_BATTERY_CABLE_WIRELESS_MPP)
#define is_wired_type(cable_type) \
(is_not_wireless_type(cable_type) && (cable_type != SEC_BATTERY_CABLE_NONE) && \
(cable_type != SEC_BATTERY_CABLE_OTG))
#define is_hv_qc_wire_type(cable_type) ( \
cable_type == SEC_BATTERY_CABLE_QC20 || \
cable_type == SEC_BATTERY_CABLE_QC30)
#define is_hv_afc_wire_type(cable_type) ( \
cable_type == SEC_BATTERY_CABLE_9V_ERR || \
cable_type == SEC_BATTERY_CABLE_9V_TA || \
cable_type == SEC_BATTERY_CABLE_9V_UNKNOWN || \
cable_type == SEC_BATTERY_CABLE_12V_TA)
#define is_hv_wire_9v_type(cable_type) ( \
cable_type == SEC_BATTERY_CABLE_9V_ERR || \
cable_type == SEC_BATTERY_CABLE_9V_TA || \
cable_type == SEC_BATTERY_CABLE_9V_UNKNOWN || \
cable_type == SEC_BATTERY_CABLE_POGO_9V || \
cable_type == SEC_BATTERY_CABLE_QC20)
#define is_hv_wire_12v_type(cable_type) ( \
cable_type == SEC_BATTERY_CABLE_12V_TA || \
cable_type == SEC_BATTERY_CABLE_QC30)
#define is_hv_wire_type(cable_type) ( \
is_hv_afc_wire_type(cable_type) || is_hv_qc_wire_type(cable_type))
#define is_nocharge_type(cable_type) ( \
cable_type == SEC_BATTERY_CABLE_NONE || \
cable_type == SEC_BATTERY_CABLE_OTG || \
cable_type == SEC_BATTERY_CABLE_POWER_SHARING)
#define chg_can_sleep_type(cable_type) ( \
!is_wired_type(cable_type) || cable_type == SEC_BATTERY_CABLE_TIMEOUT)
#define is_slate_mode(battery) ((battery->current_event & SEC_BAT_CURRENT_EVENT_SLATE) \
== SEC_BAT_CURRENT_EVENT_SLATE)
#define can_usb_suspend_type(cable_type) ( \
cable_type == SEC_BATTERY_CABLE_PDIC || \
cable_type == SEC_BATTERY_CABLE_FPDO_DC || \
cable_type == SEC_BATTERY_CABLE_PDIC_APDO || \
cable_type == SEC_BATTERY_CABLE_USB || \
cable_type == SEC_BATTERY_CABLE_USB_CDP)
#define is_pd_wire_type(cable_type) ( \
cable_type == SEC_BATTERY_CABLE_PDIC || \
cable_type == SEC_BATTERY_CABLE_FPDO_DC || \
cable_type == SEC_BATTERY_CABLE_PDIC_APDO)
#define is_pd_apdo_wire_type(cable_type) ( \
cable_type == SEC_BATTERY_CABLE_FPDO_DC || \
cable_type == SEC_BATTERY_CABLE_PDIC_APDO)
#define is_pd_fpdo_wire_type(cable_type) ( \
cable_type == SEC_BATTERY_CABLE_PDIC)
#define is_hv_pdo_wire_type(cable_type, hv_pdo) ( \
(cable_type == SEC_BATTERY_CABLE_PDIC || \
cable_type == SEC_BATTERY_CABLE_FPDO_DC || \
cable_type == SEC_BATTERY_CABLE_PDIC_APDO) && \
hv_pdo)
#define is_pogo_wire_type(cable_type) ( \
cable_type == SEC_BATTERY_CABLE_POGO || \
cable_type == SEC_BATTERY_CABLE_POGO_9V)
#define is_wcin_type(cable_type) ( \
is_pogo_wire_type(cable_type) || is_wireless_type(cable_type))
#endif /* __SEC_CHARGING_COMMON_H */