include/linux/mfd/pm8xxx/pm8xxx-adc.h - kernel/msm - Gitiles

 /*
  * Copyright (c) 2011, Code Aurora Forum. All rights reserved.
  *
  * This program is free software; you can redistribute it and/or modify
  * it under the terms of the GNU General Public License version 2 and
  * only version 2 as published by the Free Software Foundation.
  *
  * 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.
  */
 /*
  * Qualcomm PMIC 8921/8018 ADC driver header file
  *
  */

 #ifndef __PM8XXX_ADC_H
 #define __PM8XXX_ADC_H

 #include <linux/kernel.h>
 #include <linux/list.h>

 /**
  * enum pm8xxx_adc_channels - PM8XXX AMUX arbiter channels
  * %CHANNEL_VCOIN: Backup voltage for certain register set
  * %CHANNEL_VBAT: Battery voltage
  * %CHANNEL_DCIN: Charger input voltage without internal OVP
  * %CHANNEL_ICHG: Charge-current monitor
  * %CHANNEL_VPH_PWR: Main system power
  * %CHANNEL_IBAT: Battery charge current
  * %CHANNEL_MPP_1: 16:1 pre-mux unity scale MPP input
  * %CHANNEL_MPP_2: 16:1 pre-mux 1/3 scale MPP input
  * %CHANNEL_BATT_THERM: Battery temperature
  * %CHANNEL_BATT_ID: Battery detection
  * %CHANNEL_USBIN: Charger input voltage with internal OVP
  * %CHANNEL_DIE_TEMP: Pmic_die temperature
  * %CHANNEL_625MV: 625mv reference channel
  * %CHANNEL_125V: 1.25v reference channel
  * %CHANNEL_CHG_TEMP: Charger temperature
  * %CHANNEL_MUXOFF: Channel to reduce input load on the mux
  * %CHANNEL_NONE: Do not use this channel
  */
 enum pm8xxx_adc_channels {
 	CHANNEL_VCOIN = 0,
 	CHANNEL_VBAT,
 	CHANNEL_DCIN,
 	CHANNEL_ICHG,
 	CHANNEL_VPH_PWR,
 	CHANNEL_IBAT,
 	CHANNEL_MPP_1,
 	CHANNEL_MPP_2,
 	CHANNEL_BATT_THERM,
 	CHANNEL_BATT_ID,
 	CHANNEL_USBIN,
 	CHANNEL_DIE_TEMP,
 	CHANNEL_625MV,
 	CHANNEL_125V,
 	CHANNEL_CHG_TEMP,
 	CHANNEL_MUXOFF,
 	CHANNEL_NONE,
 	ADC_MPP_1_ATEST_8 = 20,
 	ADC_MPP_1_USB_SNS_DIV20,
 	ADC_MPP_1_DCIN_SNS_DIV20,
 	ADC_MPP_1_AMUX3,
 	ADC_MPP_1_AMUX4,
 	ADC_MPP_1_AMUX5,
 	ADC_MPP_1_AMUX6,
 	ADC_MPP_1_AMUX7,
 	ADC_MPP_1_AMUX8,
 	ADC_MPP_1_ATEST_1,
 	ADC_MPP_1_ATEST_2,
 	ADC_MPP_1_ATEST_3,
 	ADC_MPP_1_ATEST_4,
 	ADC_MPP_1_ATEST_5,
 	ADC_MPP_1_ATEST_6,
 	ADC_MPP_1_ATEST_7,
 	ADC_MPP_1_CHANNEL_NONE,
 	ADC_MPP_2_ATEST_8 = 40,
 	ADC_MPP_2_USB_SNS_DIV20,
 	ADC_MPP_2_DCIN_SNS_DIV20,
 	ADC_MPP_2_AMUX3,
 	ADC_MPP_2_AMUX4,
 	ADC_MPP_2_AMUX5,
 	ADC_MPP_2_AMUX6,
 	ADC_MPP_2_AMUX7,
 	ADC_MPP_2_AMUX8,
 	ADC_MPP_2_ATEST_1,
 	ADC_MPP_2_ATEST_2,
 	ADC_MPP_2_ATEST_3,
 	ADC_MPP_2_ATEST_4,
 	ADC_MPP_2_ATEST_5,
 	ADC_MPP_2_ATEST_6,
 	ADC_MPP_2_ATEST_7,
 	ADC_MPP_2_CHANNEL_NONE,
 };

 #define PM8XXX_ADC_PMIC_0	0x0

 #define PM8XXX_CHANNEL_ADC_625_UV	625000
 #define PM8XXX_CHANNEL_MPP_SCALE1_IDX	20
 #define PM8XXX_CHANNEL_MPP_SCALE3_IDX	40

 #define PM8XXX_AMUX_MPP_3	0x3
 #define PM8XXX_AMUX_MPP_4	0x4
 #define PM8XXX_AMUX_MPP_5	0x5
 #define PM8XXX_AMUX_MPP_6	0x6
 #define PM8XXX_AMUX_MPP_7	0x7
 #define PM8XXX_AMUX_MPP_8	0x8

 #define PM8XXX_ADC_DEV_NAME	"pm8xxx-adc"

 /**
  * enum pm8xxx_adc_decimation_type - Sampling rate supported
  * %ADC_DECIMATION_TYPE1: 512
  * %ADC_DECIMATION_TYPE2: 1K
  * %ADC_DECIMATION_TYPE3: 2K
  * %ADC_DECIMATION_TYPE4: 4k
  * %ADC_DECIMATION_NONE: Do not use this Sampling type
  *
  * The Sampling rate is specific to each channel of the PM8XXX ADC arbiter.
  */
 enum pm8xxx_adc_decimation_type {
 	ADC_DECIMATION_TYPE1 = 0,
 	ADC_DECIMATION_TYPE2,
 	ADC_DECIMATION_TYPE3,
 	ADC_DECIMATION_TYPE4,
 	ADC_DECIMATION_NONE,
 };

 /**
  * enum pm8xxx_adc_calib_type - PM8XXX ADC Calibration type
  * %ADC_CALIB_ABSOLUTE: Use 625mV and 1.25V reference channels
  * %ADC_CALIB_RATIOMETRIC: Use reference Voltage/GND
  * %ADC_CALIB_CONFIG_NONE: Do not use this calibration type
  *
  * Use the input reference voltage depending on the calibration type
  * to calcluate the offset and gain parameters. The calibration is
  * specific to each channel of the PM8XXX ADC.
  */
 enum pm8xxx_adc_calib_type {
 	ADC_CALIB_ABSOLUTE = 0,
 	ADC_CALIB_RATIOMETRIC,
 	ADC_CALIB_NONE,
 };

 /**
  * enum pm8xxx_adc_channel_scaling_param - pre-scaling AMUX ratio
  * %CHAN_PATH_SCALING1: ratio of {1, 1}
  * %CHAN_PATH_SCALING2: ratio of {1, 3}
  * %CHAN_PATH_SCALING3: ratio of {1, 4}
  * %CHAN_PATH_SCALING4: ratio of {1, 6}
  * %CHAN_PATH_NONE: Do not use this pre-scaling ratio type
  *
  * The pre-scaling is applied for signals to be within the voltage range
  * of the ADC.
  */
 enum pm8xxx_adc_channel_scaling_param {
 	CHAN_PATH_SCALING1 = 0,
 	CHAN_PATH_SCALING2,
 	CHAN_PATH_SCALING3,
 	CHAN_PATH_SCALING4,
 	CHAN_PATH_SCALING_NONE,
 };

 /**
  * enum pm8xxx_adc_amux_input_rsv - HK/XOADC reference voltage
  * %AMUX_RSV0: XO_IN/XOADC_GND
  * %AMUX_RSV1: PMIC_IN/XOADC_GND
  * %AMUX_RSV2: PMIC_IN/BMS_CSP
  * %AMUX_RSV3: not used
  * %AMUX_RSV4: XOADC_GND/XOADC_GND
  * %AMUX_RSV5: XOADC_VREF/XOADC_GND
  * %AMUX_NONE: Do not use this input reference voltage selection
  */
 enum pm8xxx_adc_amux_input_rsv {
 	AMUX_RSV0 = 0,
 	AMUX_RSV1,
 	AMUX_RSV2,
 	AMUX_RSV3,
 	AMUX_RSV4,
 	AMUX_RSV5,
 	AMUX_NONE,
 };

 /**
  * enum pm8xxx_adc_premux_mpp_scale_type - 16:1 pre-mux scale ratio
  * %PREMUX_MPP_SCALE_0: No scaling to the input signal
  * %PREMUX_MPP_SCALE_1: Unity scaling selected by the user for MPP input
  * %PREMUX_MPP_SCALE_1_DIV3: 1/3 pre-scale to the input MPP signal
  * %PREMUX_MPP_NONE: Do not use this pre-scale mpp type
  */
 enum pm8xxx_adc_premux_mpp_scale_type {
 	PREMUX_MPP_SCALE_0 = 0,
 	PREMUX_MPP_SCALE_1,
 	PREMUX_MPP_SCALE_1_DIV3,
 	PREMUX_MPP_NONE,
 };

 /**
  * enum pm8xxx_adc_scale_fn_type - Scaling function for pm8921 pre calibrated
  *				   digital data relative to ADC reference
  * %ADC_SCALE_DEFAULT: Default scaling to convert raw adc code to voltage
  * %ADC_SCALE_BATT_THERM: Conversion to temperature based on btm parameters
  * %ADC_SCALE_PMIC_THERM: Returns result in milli degree's Centigrade
  * %ADC_SCALE_XTERN_CHGR_CUR: Returns current across 0.1 ohm resistor
  * %ADC_SCALE_XOTHERM: Returns XO thermistor voltage in degree's Centigrade
  * %ADC_SCALE_NONE: Do not use this scaling type
  */
 enum pm8xxx_adc_scale_fn_type {
 	ADC_SCALE_DEFAULT = 0,
 	ADC_SCALE_BATT_THERM,
 	ADC_SCALE_PA_THERM,
 	ADC_SCALE_PMIC_THERM,
 	ADC_SCALE_XOTHERM,
 	ADC_SCALE_NONE,
 };

 /**
  * struct pm8xxx_adc_linear_graph - Represent ADC characteristics
  * @dy: Numerator slope to calculate the gain
  * @dx: Denominator slope to calculate the gain
  * @adc_vref: A/D word of the voltage reference used for the channel
  * @adc_gnd: A/D word of the ground reference used for the channel
  *
  * Each ADC device has different offset and gain parameters which are computed
  * to calibrate the device.
  */
 struct pm8xxx_adc_linear_graph {
 	int64_t dy;
 	int64_t dx;
 	int64_t adc_vref;
 	int64_t adc_gnd;
 };

 /**
  * struct pm8xxx_adc_map_pt - Map the graph representation for ADC channel
  * @x: Represent the ADC digitized code
  * @y: Represent the physical data which can be temperature, voltage,
  *     resistance
  */
 struct pm8xxx_adc_map_pt {
 	int32_t x;
 	int32_t y;
 };

 /**
  * struct pm8xxx_adc_scaling_ratio - Represent scaling ratio for adc input
  * @num: Numerator scaling parameter
  * @den: Denominator scaling parameter
  */
 struct pm8xxx_adc_scaling_ratio {
 	int32_t num;
 	int32_t den;
 };

 /**
  * struct pm8xxx_adc_properties - Represent the ADC properties
  * @adc_reference: Reference voltage for PM8XXX ADC
  * @bitresolution: ADC bit resolution for PM8XXX ADC
  * @biploar: Polarity for PM8XXX ADC
  */
 struct pm8xxx_adc_properties {
 	uint32_t	adc_vdd_reference;
 	uint32_t	bitresolution;
 	bool		bipolar;
 };

 /**
  * struct pm8xxx_adc_chan_properties - Represent channel properties of the ADC
  * @offset_gain_numerator: The inverse numerator of the gain applied to the
  *			   input channel
  * @offset_gain_denominator: The inverse denominator of the gain applied to the
  *			     input channel
  * @adc_graph: ADC graph for the channel of struct type pm8xxx_adc_linear_graph
  */
 struct pm8xxx_adc_chan_properties {
 	uint32_t			offset_gain_numerator;
 	uint32_t			offset_gain_denominator;
 	struct pm8xxx_adc_linear_graph	adc_graph[2];
 };

 /**
  * struct pm8xxx_adc_chan_result - Represent the result of the PM8XXX ADC
  * @chan: The channel number of the requested conversion
  * @adc_code: The pre-calibrated digital output of a given ADC relative to the
  *	      the ADC reference
  * @measurement: In units specific for a given ADC; most ADC uses reference
  *		 voltage but some ADC uses reference current. This measurement
  *		 here is a number relative to a reference of a given ADC
  * @physical: The data meaningful for each individual channel whether it is
  *	      voltage, current, temperature, etc.
  *	      All voltage units are represented in micro - volts.
  *	      -Battery temperature units are represented as 0.1 DegC
  *	      -PA Therm temperature units are represented as DegC
  *	      -PMIC Die temperature units are represented as 0.001 DegC
  */
 struct pm8xxx_adc_chan_result {
 	uint32_t	chan;
 	int32_t		adc_code;
 	int64_t		measurement;
 	int64_t		physical;
 };

 #if defined(CONFIG_SENSORS_PM8XXX_ADC)					\
 			|| defined(CONFIG_SENSORS_PM8XXX_ADC_MODULE)
 /**
  * pm8xxx_adc_scale_default() - Scales the pre-calibrated digital output
  *		of an ADC to the ADC reference and compensates for the
  *		gain and offset.
  * @adc_code:	pre-calibrated digital ouput of the ADC.
  * @adc_prop:	adc properties of the pm8xxx adc such as bit resolution,
  *		reference voltage.
  * @chan_prop:	individual channel properties to compensate the i/p scaling,
  *		slope and offset.
  * @chan_rslt:	Physical result to be stored.
  */
 int32_t pm8xxx_adc_scale_default(int32_t adc_code,
 			const struct pm8xxx_adc_properties *adc_prop,
 			const struct pm8xxx_adc_chan_properties *chan_prop,
 			struct pm8xxx_adc_chan_result *chan_rslt);
 /**
  * pm8xxx_adc_scale_tdkntcg_therm() - Scales the pre-calibrated digital output
  *		of an ADC to the ADC reference and compensates for the
  *		gain and offset. Returns the temperature of the xo therm in mili
 		degC.
  * @adc_code:	pre-calibrated digital ouput of the ADC.
  * @adc_prop:	adc properties of the pm8xxx adc such as bit resolution,
  *		reference voltage.
  * @chan_prop:	individual channel properties to compensate the i/p scaling,
  *		slope and offset.
  * @chan_rslt:	physical result to be stored.
  */
 int32_t pm8xxx_adc_tdkntcg_therm(int32_t adc_code,
 			const struct pm8xxx_adc_properties *adc_prop,
 			const struct pm8xxx_adc_chan_properties *chan_prop,
 			struct pm8xxx_adc_chan_result *chan_rslt);
 /**
  * pm8xxx_adc_scale_batt_therm() - Scales the pre-calibrated digital output
  *		of an ADC to the ADC reference and compensates for the
  *		gain and offset. Returns the temperature in degC.
  * @adc_code:	pre-calibrated digital ouput of the ADC.
  * @adc_prop:	adc properties of the pm8xxx adc such as bit resolution,
  *		reference voltage.
  * @chan_prop:	individual channel properties to compensate the i/p scaling,
  *		slope and offset.
  * @chan_rslt:	physical result to be stored.
  */
 int32_t pm8xxx_adc_scale_batt_therm(int32_t adc_code,
 			const struct pm8xxx_adc_properties *adc_prop,
 			const struct pm8xxx_adc_chan_properties *chan_prop,
 			struct pm8xxx_adc_chan_result *chan_rslt);
 /**
  * pm8xxx_adc_scale_pa_therm() - Scales the pre-calibrated digital output
  *		of an ADC to the ADC reference and compensates for the
  *		gain and offset. Returns the temperature in degC.
  * @adc_code:	pre-calibrated digital ouput of the ADC.
  * @adc_prop:	adc properties of the pm8xxx adc such as bit resolution,
  *		reference voltage.
  * @chan_prop:	individual channel properties to compensate the i/p scaling,
  *		slope and offset.
  * @chan_rslt:	physical result to be stored.
  */
 int32_t pm8xxx_adc_scale_pa_therm(int32_t adc_code,
 			const struct pm8xxx_adc_properties *adc_prop,
 			const struct pm8xxx_adc_chan_properties *chan_prop,
 			struct pm8xxx_adc_chan_result *chan_rslt);
 /**
  * pm8xxx_adc_scale_pmic_therm() - Scales the pre-calibrated digital output
  *		of an ADC to the ADC reference and compensates for the
  *		gain and offset. Performs the AMUX out as 2mv/K and returns
  *		the temperature in mili degC.
  * @adc_code:	pre-calibrated digital ouput of the ADC.
  * @adc_prop:	adc properties of the pm8xxx adc such as bit resolution,
  *		reference voltage.
  * @chan_prop:	individual channel properties to compensate the i/p scaling,
  *		slope and offset.
  * @chan_rslt:	physical result to be stored.
  */
 int32_t pm8xxx_adc_scale_pmic_therm(int32_t adc_code,
 			const struct pm8xxx_adc_properties *adc_prop,
 			const struct pm8xxx_adc_chan_properties *chan_prop,
 			struct pm8xxx_adc_chan_result *chan_rslt);
 /**
  * pm8xxx_adc_scale_batt_id() - Scales the pre-calibrated digital output
  *		of an ADC to the ADC reference and compensates for the
  *		gain and offset.
  * @adc_code:	pre-calibrated digital ouput of the ADC.
  * @adc_prop:	adc properties of the pm8xxx adc such as bit resolution,
  *		reference voltage.
  * @chan_prop:	individual channel properties to compensate the i/p scaling,
  *		slope and offset.
  * @chan_rslt:	physical result to be stored.
  */
 int32_t pm8xxx_adc_scale_batt_id(int32_t adc_code,
 			const struct pm8xxx_adc_properties *adc_prop,
 			const struct pm8xxx_adc_chan_properties *chan_prop,
 			struct pm8xxx_adc_chan_result *chan_rslt);
 #else
 static inline int32_t pm8xxx_adc_scale_default(int32_t adc_code,
 			const struct pm8xxx_adc_properties *adc_prop,
 			const struct pm8xxx_adc_chan_properties *chan_prop,
 			struct pm8xxx_adc_chan_result *chan_rslt)
 { return -ENXIO; }
 static inline int32_t pm8xxx_adc_tdkntcg_therm(int32_t adc_code,
 			const struct pm8xxx_adc_properties *adc_prop,
 			const struct pm8xxx_adc_chan_properties *chan_prop,
 			struct pm8xxx_adc_chan_result *chan_rslt)
 { return -ENXIO; }
 static inline int32_t pm8xxx_adc_scale_batt_therm(int32_t adc_code,
 			const struct pm8xxx_adc_properties *adc_prop,
 			const struct pm8xxx_adc_chan_properties *chan_prop,
 			struct pm8xxx_adc_chan_result *chan_rslt)
 { return -ENXIO; }
 static inline int32_t pm8xxx_adc_scale_pa_therm(int32_t adc_code,
 			const struct pm8xxx_adc_properties *adc_prop,
 			const struct pm8xxx_adc_chan_properties *chan_prop,
 			struct pm8xxx_adc_chan_result *chan_rslt)
 { return -ENXIO; }
 static inline int32_t pm8xxx_adc_scale_pmic_therm(int32_t adc_code,
 			const struct pm8xxx_adc_properties *adc_prop,
 			const struct pm8xxx_adc_chan_properties *chan_prop,
 			struct pm8xxx_adc_chan_result *chan_rslt)
 { return -ENXIO; }
 static inline int32_t pm8xxx_adc_scale_batt_id(int32_t adc_code,
 			const struct pm8xxx_adc_properties *adc_prop,
 			const struct pm8xxx_adc_chan_properties *chan_prop,
 			struct pm8xxx_adc_chan_result *chan_rslt)
 { return -ENXIO; }
 #endif

 /**
  * struct pm8xxx_adc_scale_fn - Scaling function prototype
  * @chan: Function pointer to one of the scaling functions
  *	which takes the adc properties, channel properties,
  *	and returns the physical result
  */
 struct pm8xxx_adc_scale_fn {
 	int32_t (*chan) (int32_t,
 		const struct pm8xxx_adc_properties *,
 		const struct pm8xxx_adc_chan_properties *,
 		struct pm8xxx_adc_chan_result *);
 };

 /**
  * struct pm8xxx_adc_amux - AMUX properties for individual channel
  * @name: Channel name
  * @channel_name: Channel in integer used from pm8xxx_adc_channels
  * @chan_path_prescaling: Channel scaling performed on the input signal
  * @adc_rsv: Input reference Voltage/GND selection to the ADC
  * @adc_decimation: Sampling rate desired for the channel
  * adc_scale_fn: Scaling function to convert to the data meaningful for
  *		 each individual channel whether it is voltage, current,
  *		 temperature, etc and compensates the channel properties
  */
 struct pm8xxx_adc_amux {
 	char					*name;
 	enum pm8xxx_adc_channels		channel_name;
 	enum pm8xxx_adc_channel_scaling_param	chan_path_prescaling;
 	enum pm8xxx_adc_amux_input_rsv		adc_rsv;
 	enum pm8xxx_adc_decimation_type		adc_decimation;
 	enum pm8xxx_adc_scale_fn_type		adc_scale_fn;
 };

 /**
  * struct pm8xxx_adc_arb_btm_param - PM8XXX ADC BTM parameters to set threshold
  *				     temperature for client notification
  * @low_thr_temp: low temperature threshold request for notification
  * @high_thr_temp: high temperature threshold request for notification
  * @low_thr_voltage: low temperature converted to voltage by arbiter driver
  * @high_thr_voltage: high temperature converted to voltage by arbiter driver
  * @interval: Interval period to check for temperature notification
  * @btm_warm_fn: Remote function call for warm threshold.
  * @btm_cool_fn: Remote function call for cold threshold.
  *
  * BTM client passes the parameters to be set for the
  * temperature threshold notifications. The client is
  * responsible for setting the new threshold
  * levels once the thresholds are reached
  */
 struct pm8xxx_adc_arb_btm_param {
 	int32_t		low_thr_temp;
 	int32_t		high_thr_temp;
 	uint64_t	low_thr_voltage;
 	uint64_t	high_thr_voltage;
 	int32_t		interval;
 	void		(*btm_warm_fn) (bool);
 	void		(*btm_cool_fn) (bool);
 };

 int32_t pm8xxx_adc_batt_scaler(struct pm8xxx_adc_arb_btm_param *,
 			const struct pm8xxx_adc_properties *adc_prop,
 			const struct pm8xxx_adc_chan_properties *chan_prop);
 /**
  * struct pm8xxx_adc_platform_data - PM8XXX ADC platform data
  * @adc_prop: ADC specific parameters, voltage and channel setup
  * @adc_channel: Channel properties of the ADC arbiter
  * @adc_num_board_channel: Number of channels added in the board file
  * @adc_mpp_base: PM8XXX MPP0 base passed from board file. This is used
  *		  to offset the PM8XXX MPP passed to configure the
  *		  the MPP to AMUX mapping.
  */
 struct pm8xxx_adc_platform_data {
 	struct pm8xxx_adc_properties	*adc_prop;
 	struct pm8xxx_adc_amux		*adc_channel;
 	uint32_t			adc_num_board_channel;
 	uint32_t			adc_mpp_base;
 };

 /* Public API */
 #if defined(CONFIG_SENSORS_PM8XXX_ADC)				\
 			|| defined(CONFIG_SENSORS_PM8XXX_ADC_MODULE)
 /**
  * pm8xxx_adc_read() - Performs ADC read on the channel.
  * @channel:	Input channel to perform the ADC read.
  * @result:	Structure pointer of type adc_chan_result
  *		in which the ADC read results are stored.
  */
 uint32_t pm8xxx_adc_read(enum pm8xxx_adc_channels channel,
 				struct pm8xxx_adc_chan_result *result);
 /**
  * pm8xxx_adc_mpp_config_read() - Configure's the PM8XXX MPP
  * to AMUX6 and performs an ADC read.
  *
  * On PM8921 ADC the MPP needs to first be configured
  * as an analog input to the AMUX pre-mux channel before
  * issuing a read request. PM8921 MPP 8 is mapped to AMUX8
  * and is common between remote processor's.
  *
  * On PM8018 ADC the MPP is directly connected to the AMUX
  * pre-mux. Therefore clients of the PM8018 MPP do not need
  * to configure the MPP as an analog input to the pre-mux.
  * Clients can directly issue request on the pre-mux AMUX
  * channel to read the ADC on the MPP. Clients can directly
  * call the pm8xxx_adc_read().
  * @mpp_num	PM8XXX MPP number to configure to AMUX6.
  * @channel:	Input channel to perform the ADC read.
  *		a) 'ADC_MPP_1_AMUX6' if the input voltage is less than 1.8V
  *		b) 'ADC_MPP_2_AMUX6' if the input voltage is greater then 1.8V
  *		the input voltage is pre-divided by 3 and passed to the ADC.
  *		The appropriate scaling function needs to be selected to let
  *		the driver know a post scaling is required before returning
  *		the result.
  * @result:	Structure pointer of type adc_chan_result
  *		in which the ADC read results are stored.
  */
 uint32_t pm8xxx_adc_mpp_config_read(uint32_t mpp_num,
 				enum pm8xxx_adc_channels channel,
 				struct pm8xxx_adc_chan_result *result);
 /**
  * pm8xxx_adc_btm_start() - Configure the BTM registers and start
 			monitoring the BATT_THERM channel for
 			threshold warm/cold temperature set
 			by the Battery client. The btm_start
 			api is to be used after calling the
 			pm8xxx_btm_configure() api which sets
 			the temperature thresholds, interval
 			and functions to call when warm/cold
 			events are triggered.
  * @param:	none.
  */
 uint32_t pm8xxx_adc_btm_start(void);

 /**
  * pm8xxx_adc_btm_end() - Configures the BTM registers to stop
  *			monitoring the BATT_THERM channel for
  *			warm/cold events and disables the
  *			interval timer.
  * @param:	none.
  */
 uint32_t pm8xxx_adc_btm_end(void);

 /**
  * pm8xxx_adc_btm_configure() - Configures the BATT_THERM channel
  *			parameters for warm/cold thresholds.
  *			Sets the interval timer for perfoming
  *			reading the temperature done by the HW.
  * @btm_param:		Structure pointer of type adc_arb_btm_param *
  *			which client provides for threshold warm/cold,
  *			interval and functions to call when warm/cold
  *			events are triggered.
  */
 uint32_t pm8xxx_adc_btm_configure(struct pm8xxx_adc_arb_btm_param *);
 #else
 static inline uint32_t pm8xxx_adc_read(uint32_t channel,
 				struct pm8xxx_adc_chan_result *result)
 { return -ENXIO; }
 static inline uint32_t pm8xxx_adc_mpp_config_read(uint32_t mpp_num,
 				enum pm8xxx_adc_channels channel,
 				struct pm8xxx_adc_chan_result *result)
 { return -ENXIO; }
 static inline uint32_t pm8xxx_adc_btm_start(void)
 { return -ENXIO; }
 static inline uint32_t pm8xxx_adc_btm_end(void)
 { return -ENXIO; }
 static inline uint32_t pm8xxx_adc_btm_configure(
 		struct pm8xxx_adc_arb_btm_param *param)
 { return -ENXIO; }
 #endif

 #endif /* PM8XXX_ADC_H */
	/*
	* Copyright (c) 2011, Code Aurora Forum. All rights reserved.
	*
	* This program is free software; you can redistribute it and/or modify
	* it under the terms of the GNU General Public License version 2 and
	* only version 2 as published by the Free Software Foundation.
	*
	* 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.
	*/
	/*
	* Qualcomm PMIC 8921/8018 ADC driver header file
	*
	*/

	#ifndef __PM8XXX_ADC_H
	#define __PM8XXX_ADC_H

	#include <linux/kernel.h>
	#include <linux/list.h>

	/**
	* enum pm8xxx_adc_channels - PM8XXX AMUX arbiter channels
	* %CHANNEL_VCOIN: Backup voltage for certain register set
	* %CHANNEL_VBAT: Battery voltage
	* %CHANNEL_DCIN: Charger input voltage without internal OVP
	* %CHANNEL_ICHG: Charge-current monitor
	* %CHANNEL_VPH_PWR: Main system power
	* %CHANNEL_IBAT: Battery charge current
	* %CHANNEL_MPP_1: 16:1 pre-mux unity scale MPP input
	* %CHANNEL_MPP_2: 16:1 pre-mux 1/3 scale MPP input
	* %CHANNEL_BATT_THERM: Battery temperature
	* %CHANNEL_BATT_ID: Battery detection
	* %CHANNEL_USBIN: Charger input voltage with internal OVP
	* %CHANNEL_DIE_TEMP: Pmic_die temperature
	* %CHANNEL_625MV: 625mv reference channel
	* %CHANNEL_125V: 1.25v reference channel
	* %CHANNEL_CHG_TEMP: Charger temperature
	* %CHANNEL_MUXOFF: Channel to reduce input load on the mux
	* %CHANNEL_NONE: Do not use this channel
	*/
	enum pm8xxx_adc_channels {
	CHANNEL_VCOIN = 0,
	CHANNEL_VBAT,
	CHANNEL_DCIN,
	CHANNEL_ICHG,
	CHANNEL_VPH_PWR,
	CHANNEL_IBAT,
	CHANNEL_MPP_1,
	CHANNEL_MPP_2,
	CHANNEL_BATT_THERM,
	CHANNEL_BATT_ID,
	CHANNEL_USBIN,
	CHANNEL_DIE_TEMP,
	CHANNEL_625MV,
	CHANNEL_125V,
	CHANNEL_CHG_TEMP,
	CHANNEL_MUXOFF,
	CHANNEL_NONE,
	ADC_MPP_1_ATEST_8 = 20,
	ADC_MPP_1_USB_SNS_DIV20,
	ADC_MPP_1_DCIN_SNS_DIV20,
	ADC_MPP_1_AMUX3,
	ADC_MPP_1_AMUX4,
	ADC_MPP_1_AMUX5,
	ADC_MPP_1_AMUX6,
	ADC_MPP_1_AMUX7,
	ADC_MPP_1_AMUX8,
	ADC_MPP_1_ATEST_1,
	ADC_MPP_1_ATEST_2,
	ADC_MPP_1_ATEST_3,
	ADC_MPP_1_ATEST_4,
	ADC_MPP_1_ATEST_5,
	ADC_MPP_1_ATEST_6,
	ADC_MPP_1_ATEST_7,
	ADC_MPP_1_CHANNEL_NONE,
	ADC_MPP_2_ATEST_8 = 40,
	ADC_MPP_2_USB_SNS_DIV20,
	ADC_MPP_2_DCIN_SNS_DIV20,
	ADC_MPP_2_AMUX3,
	ADC_MPP_2_AMUX4,
	ADC_MPP_2_AMUX5,
	ADC_MPP_2_AMUX6,
	ADC_MPP_2_AMUX7,
	ADC_MPP_2_AMUX8,
	ADC_MPP_2_ATEST_1,
	ADC_MPP_2_ATEST_2,
	ADC_MPP_2_ATEST_3,
	ADC_MPP_2_ATEST_4,
	ADC_MPP_2_ATEST_5,
	ADC_MPP_2_ATEST_6,
	ADC_MPP_2_ATEST_7,
	ADC_MPP_2_CHANNEL_NONE,
	};

	#define PM8XXX_ADC_PMIC_0 0x0

	#define PM8XXX_CHANNEL_ADC_625_UV 625000
	#define PM8XXX_CHANNEL_MPP_SCALE1_IDX 20
	#define PM8XXX_CHANNEL_MPP_SCALE3_IDX 40

	#define PM8XXX_AMUX_MPP_3 0x3
	#define PM8XXX_AMUX_MPP_4 0x4
	#define PM8XXX_AMUX_MPP_5 0x5
	#define PM8XXX_AMUX_MPP_6 0x6
	#define PM8XXX_AMUX_MPP_7 0x7
	#define PM8XXX_AMUX_MPP_8 0x8

	#define PM8XXX_ADC_DEV_NAME "pm8xxx-adc"

	/**
	* enum pm8xxx_adc_decimation_type - Sampling rate supported
	* %ADC_DECIMATION_TYPE1: 512
	* %ADC_DECIMATION_TYPE2: 1K
	* %ADC_DECIMATION_TYPE3: 2K
	* %ADC_DECIMATION_TYPE4: 4k
	* %ADC_DECIMATION_NONE: Do not use this Sampling type
	*
	* The Sampling rate is specific to each channel of the PM8XXX ADC arbiter.
	*/
	enum pm8xxx_adc_decimation_type {
	ADC_DECIMATION_TYPE1 = 0,
	ADC_DECIMATION_TYPE2,
	ADC_DECIMATION_TYPE3,
	ADC_DECIMATION_TYPE4,
	ADC_DECIMATION_NONE,
	};

	/**
	* enum pm8xxx_adc_calib_type - PM8XXX ADC Calibration type
	* %ADC_CALIB_ABSOLUTE: Use 625mV and 1.25V reference channels
	* %ADC_CALIB_RATIOMETRIC: Use reference Voltage/GND
	* %ADC_CALIB_CONFIG_NONE: Do not use this calibration type
	*
	* Use the input reference voltage depending on the calibration type
	* to calcluate the offset and gain parameters. The calibration is
	* specific to each channel of the PM8XXX ADC.
	*/
	enum pm8xxx_adc_calib_type {
	ADC_CALIB_ABSOLUTE = 0,
	ADC_CALIB_RATIOMETRIC,
	ADC_CALIB_NONE,
	};

	/**
	* enum pm8xxx_adc_channel_scaling_param - pre-scaling AMUX ratio
	* %CHAN_PATH_SCALING1: ratio of {1, 1}
	* %CHAN_PATH_SCALING2: ratio of {1, 3}
	* %CHAN_PATH_SCALING3: ratio of {1, 4}
	* %CHAN_PATH_SCALING4: ratio of {1, 6}
	* %CHAN_PATH_NONE: Do not use this pre-scaling ratio type
	*
	* The pre-scaling is applied for signals to be within the voltage range
	* of the ADC.
	*/
	enum pm8xxx_adc_channel_scaling_param {
	CHAN_PATH_SCALING1 = 0,
	CHAN_PATH_SCALING2,
	CHAN_PATH_SCALING3,
	CHAN_PATH_SCALING4,
	CHAN_PATH_SCALING_NONE,
	};

	/**
	* enum pm8xxx_adc_amux_input_rsv - HK/XOADC reference voltage
	* %AMUX_RSV0: XO_IN/XOADC_GND
	* %AMUX_RSV1: PMIC_IN/XOADC_GND
	* %AMUX_RSV2: PMIC_IN/BMS_CSP
	* %AMUX_RSV3: not used
	* %AMUX_RSV4: XOADC_GND/XOADC_GND
	* %AMUX_RSV5: XOADC_VREF/XOADC_GND
	* %AMUX_NONE: Do not use this input reference voltage selection
	*/
	enum pm8xxx_adc_amux_input_rsv {
	AMUX_RSV0 = 0,
	AMUX_RSV1,
	AMUX_RSV2,
	AMUX_RSV3,
	AMUX_RSV4,
	AMUX_RSV5,
	AMUX_NONE,
	};

	/**
	* enum pm8xxx_adc_premux_mpp_scale_type - 16:1 pre-mux scale ratio
	* %PREMUX_MPP_SCALE_0: No scaling to the input signal
	* %PREMUX_MPP_SCALE_1: Unity scaling selected by the user for MPP input
	* %PREMUX_MPP_SCALE_1_DIV3: 1/3 pre-scale to the input MPP signal
	* %PREMUX_MPP_NONE: Do not use this pre-scale mpp type
	*/
	enum pm8xxx_adc_premux_mpp_scale_type {
	PREMUX_MPP_SCALE_0 = 0,
	PREMUX_MPP_SCALE_1,
	PREMUX_MPP_SCALE_1_DIV3,
	PREMUX_MPP_NONE,
	};

	/**
	* enum pm8xxx_adc_scale_fn_type - Scaling function for pm8921 pre calibrated
	* digital data relative to ADC reference
	* %ADC_SCALE_DEFAULT: Default scaling to convert raw adc code to voltage
	* %ADC_SCALE_BATT_THERM: Conversion to temperature based on btm parameters
	* %ADC_SCALE_PMIC_THERM: Returns result in milli degree's Centigrade
	* %ADC_SCALE_XTERN_CHGR_CUR: Returns current across 0.1 ohm resistor
	* %ADC_SCALE_XOTHERM: Returns XO thermistor voltage in degree's Centigrade
	* %ADC_SCALE_NONE: Do not use this scaling type
	*/
	enum pm8xxx_adc_scale_fn_type {
	ADC_SCALE_DEFAULT = 0,
	ADC_SCALE_BATT_THERM,
	ADC_SCALE_PA_THERM,
	ADC_SCALE_PMIC_THERM,
	ADC_SCALE_XOTHERM,
	ADC_SCALE_NONE,
	};

	/**
	* struct pm8xxx_adc_linear_graph - Represent ADC characteristics
	* @dy: Numerator slope to calculate the gain
	* @dx: Denominator slope to calculate the gain
	* @adc_vref: A/D word of the voltage reference used for the channel
	* @adc_gnd: A/D word of the ground reference used for the channel
	*
	* Each ADC device has different offset and gain parameters which are computed
	* to calibrate the device.
	*/
	struct pm8xxx_adc_linear_graph {
	int64_t dy;
	int64_t dx;
	int64_t adc_vref;
	int64_t adc_gnd;
	};

	/**
	* struct pm8xxx_adc_map_pt - Map the graph representation for ADC channel
	* @x: Represent the ADC digitized code
	* @y: Represent the physical data which can be temperature, voltage,
	* resistance
	*/
	struct pm8xxx_adc_map_pt {
	int32_t x;
	int32_t y;
	};

	/**
	* struct pm8xxx_adc_scaling_ratio - Represent scaling ratio for adc input
	* @num: Numerator scaling parameter
	* @den: Denominator scaling parameter
	*/
	struct pm8xxx_adc_scaling_ratio {
	int32_t num;
	int32_t den;
	};

	/**
	* struct pm8xxx_adc_properties - Represent the ADC properties
	* @adc_reference: Reference voltage for PM8XXX ADC
	* @bitresolution: ADC bit resolution for PM8XXX ADC
	* @biploar: Polarity for PM8XXX ADC
	*/
	struct pm8xxx_adc_properties {
	uint32_t adc_vdd_reference;
	uint32_t bitresolution;
	bool bipolar;
	};

	/**
	* struct pm8xxx_adc_chan_properties - Represent channel properties of the ADC
	* @offset_gain_numerator: The inverse numerator of the gain applied to the
	* input channel
	* @offset_gain_denominator: The inverse denominator of the gain applied to the
	* input channel
	* @adc_graph: ADC graph for the channel of struct type pm8xxx_adc_linear_graph
	*/
	struct pm8xxx_adc_chan_properties {
	uint32_t offset_gain_numerator;
	uint32_t offset_gain_denominator;
	struct pm8xxx_adc_linear_graph adc_graph[2];
	};

	/**
	* struct pm8xxx_adc_chan_result - Represent the result of the PM8XXX ADC
	* @chan: The channel number of the requested conversion
	* @adc_code: The pre-calibrated digital output of a given ADC relative to the
	* the ADC reference
	* @measurement: In units specific for a given ADC; most ADC uses reference
	* voltage but some ADC uses reference current. This measurement
	* here is a number relative to a reference of a given ADC
	* @physical: The data meaningful for each individual channel whether it is
	* voltage, current, temperature, etc.
	* All voltage units are represented in micro - volts.
	* -Battery temperature units are represented as 0.1 DegC
	* -PA Therm temperature units are represented as DegC
	* -PMIC Die temperature units are represented as 0.001 DegC
	*/
	struct pm8xxx_adc_chan_result {
	uint32_t chan;
	int32_t adc_code;
	int64_t measurement;
	int64_t physical;
	};

	#if defined(CONFIG_SENSORS_PM8XXX_ADC) \
	\|\| defined(CONFIG_SENSORS_PM8XXX_ADC_MODULE)
	/**
	* pm8xxx_adc_scale_default() - Scales the pre-calibrated digital output
	* of an ADC to the ADC reference and compensates for the
	* gain and offset.
	* @adc_code: pre-calibrated digital ouput of the ADC.
	* @adc_prop: adc properties of the pm8xxx adc such as bit resolution,
	* reference voltage.
	* @chan_prop: individual channel properties to compensate the i/p scaling,
	* slope and offset.
	* @chan_rslt: Physical result to be stored.
	*/
	int32_t pm8xxx_adc_scale_default(int32_t adc_code,
	const struct pm8xxx_adc_properties *adc_prop,
	const struct pm8xxx_adc_chan_properties *chan_prop,
	struct pm8xxx_adc_chan_result *chan_rslt);
	/**
	* pm8xxx_adc_scale_tdkntcg_therm() - Scales the pre-calibrated digital output
	* of an ADC to the ADC reference and compensates for the
	* gain and offset. Returns the temperature of the xo therm in mili
	degC.
	* @adc_code: pre-calibrated digital ouput of the ADC.
	* @adc_prop: adc properties of the pm8xxx adc such as bit resolution,
	* reference voltage.
	* @chan_prop: individual channel properties to compensate the i/p scaling,
	* slope and offset.
	* @chan_rslt: physical result to be stored.
	*/
	int32_t pm8xxx_adc_tdkntcg_therm(int32_t adc_code,
	const struct pm8xxx_adc_properties *adc_prop,
	const struct pm8xxx_adc_chan_properties *chan_prop,
	struct pm8xxx_adc_chan_result *chan_rslt);
	/**
	* pm8xxx_adc_scale_batt_therm() - Scales the pre-calibrated digital output
	* of an ADC to the ADC reference and compensates for the
	* gain and offset. Returns the temperature in degC.
	* @adc_code: pre-calibrated digital ouput of the ADC.
	* @adc_prop: adc properties of the pm8xxx adc such as bit resolution,
	* reference voltage.
	* @chan_prop: individual channel properties to compensate the i/p scaling,
	* slope and offset.
	* @chan_rslt: physical result to be stored.
	*/
	int32_t pm8xxx_adc_scale_batt_therm(int32_t adc_code,
	const struct pm8xxx_adc_properties *adc_prop,
	const struct pm8xxx_adc_chan_properties *chan_prop,
	struct pm8xxx_adc_chan_result *chan_rslt);
	/**
	* pm8xxx_adc_scale_pa_therm() - Scales the pre-calibrated digital output
	* of an ADC to the ADC reference and compensates for the
	* gain and offset. Returns the temperature in degC.
	* @adc_code: pre-calibrated digital ouput of the ADC.
	* @adc_prop: adc properties of the pm8xxx adc such as bit resolution,
	* reference voltage.
	* @chan_prop: individual channel properties to compensate the i/p scaling,
	* slope and offset.
	* @chan_rslt: physical result to be stored.
	*/
	int32_t pm8xxx_adc_scale_pa_therm(int32_t adc_code,
	const struct pm8xxx_adc_properties *adc_prop,
	const struct pm8xxx_adc_chan_properties *chan_prop,
	struct pm8xxx_adc_chan_result *chan_rslt);
	/**
	* pm8xxx_adc_scale_pmic_therm() - Scales the pre-calibrated digital output
	* of an ADC to the ADC reference and compensates for the
	* gain and offset. Performs the AMUX out as 2mv/K and returns
	* the temperature in mili degC.
	* @adc_code: pre-calibrated digital ouput of the ADC.
	* @adc_prop: adc properties of the pm8xxx adc such as bit resolution,
	* reference voltage.
	* @chan_prop: individual channel properties to compensate the i/p scaling,
	* slope and offset.
	* @chan_rslt: physical result to be stored.
	*/
	int32_t pm8xxx_adc_scale_pmic_therm(int32_t adc_code,
	const struct pm8xxx_adc_properties *adc_prop,
	const struct pm8xxx_adc_chan_properties *chan_prop,
	struct pm8xxx_adc_chan_result *chan_rslt);
	/**
	* pm8xxx_adc_scale_batt_id() - Scales the pre-calibrated digital output
	* of an ADC to the ADC reference and compensates for the
	* gain and offset.
	* @adc_code: pre-calibrated digital ouput of the ADC.
	* @adc_prop: adc properties of the pm8xxx adc such as bit resolution,
	* reference voltage.
	* @chan_prop: individual channel properties to compensate the i/p scaling,
	* slope and offset.
	* @chan_rslt: physical result to be stored.
	*/
	int32_t pm8xxx_adc_scale_batt_id(int32_t adc_code,
	const struct pm8xxx_adc_properties *adc_prop,
	const struct pm8xxx_adc_chan_properties *chan_prop,
	struct pm8xxx_adc_chan_result *chan_rslt);
	#else
	static inline int32_t pm8xxx_adc_scale_default(int32_t adc_code,
	const struct pm8xxx_adc_properties *adc_prop,
	const struct pm8xxx_adc_chan_properties *chan_prop,
	struct pm8xxx_adc_chan_result *chan_rslt)
	{ return -ENXIO; }
	static inline int32_t pm8xxx_adc_tdkntcg_therm(int32_t adc_code,
	const struct pm8xxx_adc_properties *adc_prop,
	const struct pm8xxx_adc_chan_properties *chan_prop,
	struct pm8xxx_adc_chan_result *chan_rslt)
	{ return -ENXIO; }
	static inline int32_t pm8xxx_adc_scale_batt_therm(int32_t adc_code,
	const struct pm8xxx_adc_properties *adc_prop,
	const struct pm8xxx_adc_chan_properties *chan_prop,
	struct pm8xxx_adc_chan_result *chan_rslt)
	{ return -ENXIO; }
	static inline int32_t pm8xxx_adc_scale_pa_therm(int32_t adc_code,
	const struct pm8xxx_adc_properties *adc_prop,
	const struct pm8xxx_adc_chan_properties *chan_prop,
	struct pm8xxx_adc_chan_result *chan_rslt)
	{ return -ENXIO; }
	static inline int32_t pm8xxx_adc_scale_pmic_therm(int32_t adc_code,
	const struct pm8xxx_adc_properties *adc_prop,
	const struct pm8xxx_adc_chan_properties *chan_prop,
	struct pm8xxx_adc_chan_result *chan_rslt)
	{ return -ENXIO; }
	static inline int32_t pm8xxx_adc_scale_batt_id(int32_t adc_code,
	const struct pm8xxx_adc_properties *adc_prop,
	const struct pm8xxx_adc_chan_properties *chan_prop,
	struct pm8xxx_adc_chan_result *chan_rslt)
	{ return -ENXIO; }
	#endif

	/**
	* struct pm8xxx_adc_scale_fn - Scaling function prototype
	* @chan: Function pointer to one of the scaling functions
	* which takes the adc properties, channel properties,
	* and returns the physical result
	*/
	struct pm8xxx_adc_scale_fn {
	int32_t (*chan) (int32_t,
	const struct pm8xxx_adc_properties *,
	const struct pm8xxx_adc_chan_properties *,
	struct pm8xxx_adc_chan_result *);
	};

	/**
	* struct pm8xxx_adc_amux - AMUX properties for individual channel
	* @name: Channel name
	* @channel_name: Channel in integer used from pm8xxx_adc_channels
	* @chan_path_prescaling: Channel scaling performed on the input signal
	* @adc_rsv: Input reference Voltage/GND selection to the ADC
	* @adc_decimation: Sampling rate desired for the channel
	* adc_scale_fn: Scaling function to convert to the data meaningful for
	* each individual channel whether it is voltage, current,
	* temperature, etc and compensates the channel properties
	*/
	struct pm8xxx_adc_amux {
	char *name;
	enum pm8xxx_adc_channels channel_name;
	enum pm8xxx_adc_channel_scaling_param chan_path_prescaling;
	enum pm8xxx_adc_amux_input_rsv adc_rsv;
	enum pm8xxx_adc_decimation_type adc_decimation;
	enum pm8xxx_adc_scale_fn_type adc_scale_fn;
	};

	/**
	* struct pm8xxx_adc_arb_btm_param - PM8XXX ADC BTM parameters to set threshold
	* temperature for client notification
	* @low_thr_temp: low temperature threshold request for notification
	* @high_thr_temp: high temperature threshold request for notification
	* @low_thr_voltage: low temperature converted to voltage by arbiter driver
	* @high_thr_voltage: high temperature converted to voltage by arbiter driver
	* @interval: Interval period to check for temperature notification
	* @btm_warm_fn: Remote function call for warm threshold.
	* @btm_cool_fn: Remote function call for cold threshold.
	*
	* BTM client passes the parameters to be set for the
	* temperature threshold notifications. The client is
	* responsible for setting the new threshold
	* levels once the thresholds are reached
	*/
	struct pm8xxx_adc_arb_btm_param {
	int32_t low_thr_temp;
	int32_t high_thr_temp;
	uint64_t low_thr_voltage;
	uint64_t high_thr_voltage;
	int32_t interval;
	void (*btm_warm_fn) (bool);
	void (*btm_cool_fn) (bool);
	};

	int32_t pm8xxx_adc_batt_scaler(struct pm8xxx_adc_arb_btm_param *,
	const struct pm8xxx_adc_properties *adc_prop,
	const struct pm8xxx_adc_chan_properties *chan_prop);
	/**
	* struct pm8xxx_adc_platform_data - PM8XXX ADC platform data
	* @adc_prop: ADC specific parameters, voltage and channel setup
	* @adc_channel: Channel properties of the ADC arbiter
	* @adc_num_board_channel: Number of channels added in the board file
	* @adc_mpp_base: PM8XXX MPP0 base passed from board file. This is used
	* to offset the PM8XXX MPP passed to configure the
	* the MPP to AMUX mapping.
	*/
	struct pm8xxx_adc_platform_data {
	struct pm8xxx_adc_properties *adc_prop;
	struct pm8xxx_adc_amux *adc_channel;
	uint32_t adc_num_board_channel;
	uint32_t adc_mpp_base;
	};

	/* Public API */
	#if defined(CONFIG_SENSORS_PM8XXX_ADC) \
	\|\| defined(CONFIG_SENSORS_PM8XXX_ADC_MODULE)
	/**
	* pm8xxx_adc_read() - Performs ADC read on the channel.
	* @channel: Input channel to perform the ADC read.
	* @result: Structure pointer of type adc_chan_result
	* in which the ADC read results are stored.
	*/
	uint32_t pm8xxx_adc_read(enum pm8xxx_adc_channels channel,
	struct pm8xxx_adc_chan_result *result);
	/**
	* pm8xxx_adc_mpp_config_read() - Configure's the PM8XXX MPP
	* to AMUX6 and performs an ADC read.
	*
	* On PM8921 ADC the MPP needs to first be configured
	* as an analog input to the AMUX pre-mux channel before
	* issuing a read request. PM8921 MPP 8 is mapped to AMUX8
	* and is common between remote processor's.
	*
	* On PM8018 ADC the MPP is directly connected to the AMUX
	* pre-mux. Therefore clients of the PM8018 MPP do not need
	* to configure the MPP as an analog input to the pre-mux.
	* Clients can directly issue request on the pre-mux AMUX
	* channel to read the ADC on the MPP. Clients can directly
	* call the pm8xxx_adc_read().
	* @mpp_num PM8XXX MPP number to configure to AMUX6.
	* @channel: Input channel to perform the ADC read.
	* a) 'ADC_MPP_1_AMUX6' if the input voltage is less than 1.8V
	* b) 'ADC_MPP_2_AMUX6' if the input voltage is greater then 1.8V
	* the input voltage is pre-divided by 3 and passed to the ADC.
	* The appropriate scaling function needs to be selected to let
	* the driver know a post scaling is required before returning
	* the result.
	* @result: Structure pointer of type adc_chan_result
	* in which the ADC read results are stored.
	*/
	uint32_t pm8xxx_adc_mpp_config_read(uint32_t mpp_num,
	enum pm8xxx_adc_channels channel,
	struct pm8xxx_adc_chan_result *result);
	/**
	* pm8xxx_adc_btm_start() - Configure the BTM registers and start
	monitoring the BATT_THERM channel for
	threshold warm/cold temperature set
	by the Battery client. The btm_start
	api is to be used after calling the
	pm8xxx_btm_configure() api which sets
	the temperature thresholds, interval
	and functions to call when warm/cold
	events are triggered.
	* @param: none.
	*/
	uint32_t pm8xxx_adc_btm_start(void);

	/**
	* pm8xxx_adc_btm_end() - Configures the BTM registers to stop
	* monitoring the BATT_THERM channel for
	* warm/cold events and disables the
	* interval timer.
	* @param: none.
	*/
	uint32_t pm8xxx_adc_btm_end(void);

	/**
	* pm8xxx_adc_btm_configure() - Configures the BATT_THERM channel
	* parameters for warm/cold thresholds.
	* Sets the interval timer for perfoming
	* reading the temperature done by the HW.
	* @btm_param: Structure pointer of type adc_arb_btm_param *
	* which client provides for threshold warm/cold,
	* interval and functions to call when warm/cold
	* events are triggered.
	*/
	uint32_t pm8xxx_adc_btm_configure(struct pm8xxx_adc_arb_btm_param *);
	#else
	static inline uint32_t pm8xxx_adc_read(uint32_t channel,
	struct pm8xxx_adc_chan_result *result)
	{ return -ENXIO; }
	static inline uint32_t pm8xxx_adc_mpp_config_read(uint32_t mpp_num,
	enum pm8xxx_adc_channels channel,
	struct pm8xxx_adc_chan_result *result)
	{ return -ENXIO; }
	static inline uint32_t pm8xxx_adc_btm_start(void)
	{ return -ENXIO; }
	static inline uint32_t pm8xxx_adc_btm_end(void)
	{ return -ENXIO; }
	static inline uint32_t pm8xxx_adc_btm_configure(
	struct pm8xxx_adc_arb_btm_param *param)
	{ return -ENXIO; }
	#endif

	#endif /* PM8XXX_ADC_H */