Release 4.11 drivers/iio/adc/qcom-spmi-vadc.c

Directory: drivers/iio/adc
/*
 * Copyright (c) 2012-2016, The Linux Foundation. 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.
 */

#include <linux/bitops.h>
#include <linux/completion.h>
#include <linux/delay.h>
#include <linux/err.h>
#include <linux/iio/iio.h>
#include <linux/interrupt.h>
#include <linux/kernel.h>
#include <linux/math64.h>
#include <linux/module.h>
#include <linux/of.h>
#include <linux/platform_device.h>
#include <linux/regmap.h>
#include <linux/slab.h>
#include <linux/log2.h>

#include <dt-bindings/iio/qcom,spmi-vadc.h>

/* VADC register and bit definitions */

#define VADC_REVISION2				0x1

#define VADC_REVISION2_SUPPORTED_VADC		1


#define VADC_PERPH_TYPE				0x4

#define VADC_PERPH_TYPE_ADC			8


#define VADC_PERPH_SUBTYPE			0x5

#define VADC_PERPH_SUBTYPE_VADC			1


#define VADC_STATUS1				0x8

#define VADC_STATUS1_OP_MODE			4

#define VADC_STATUS1_REQ_STS			BIT(1)

#define VADC_STATUS1_EOC			BIT(0)

#define VADC_STATUS1_REQ_STS_EOC_MASK		0x3


#define VADC_MODE_CTL				0x40

#define VADC_OP_MODE_SHIFT			3

#define VADC_OP_MODE_NORMAL			0

#define VADC_AMUX_TRIM_EN			BIT(1)

#define VADC_ADC_TRIM_EN			BIT(0)


#define VADC_EN_CTL1				0x46

#define VADC_EN_CTL1_SET			BIT(7)


#define VADC_ADC_CH_SEL_CTL			0x48


#define VADC_ADC_DIG_PARAM			0x50

#define VADC_ADC_DIG_DEC_RATIO_SEL_SHIFT	2


#define VADC_HW_SETTLE_DELAY			0x51


#define VADC_CONV_REQ				0x52

#define VADC_CONV_REQ_SET			BIT(7)


#define VADC_FAST_AVG_CTL			0x5a

#define VADC_FAST_AVG_EN			0x5b

#define VADC_FAST_AVG_EN_SET			BIT(7)


#define VADC_ACCESS				0xd0

#define VADC_ACCESS_DATA			0xa5


#define VADC_PERH_RESET_CTL3			0xda

#define VADC_FOLLOW_WARM_RB			BIT(2)


#define VADC_DATA				0x60	
/* 16 bits */


#define VADC_CONV_TIME_MIN_US			2000

#define VADC_CONV_TIME_MAX_US			2100

/* Min ADC code represents 0V */

#define VADC_MIN_ADC_CODE			0x6000
/* Max ADC code represents full-scale range of 1.8V */

#define VADC_MAX_ADC_CODE			0xa800


#define VADC_ABSOLUTE_RANGE_UV			625000

#define VADC_RATIOMETRIC_RANGE			1800


#define VADC_DEF_PRESCALING			0 
/* 1:1 */

#define VADC_DEF_DECIMATION			0 
/* 512 */

#define VADC_DEF_HW_SETTLE_TIME			0 
/* 0 us */

#define VADC_DEF_AVG_SAMPLES			0 
/* 1 sample */

#define VADC_DEF_CALIB_TYPE			VADC_CALIB_ABSOLUTE


#define VADC_DECIMATION_MIN			512

#define VADC_DECIMATION_MAX			4096


#define VADC_HW_SETTLE_DELAY_MAX		10000

#define VADC_AVG_SAMPLES_MAX			512


#define KELVINMIL_CELSIUSMIL			273150


#define PMI_CHG_SCALE_1				-138890

#define PMI_CHG_SCALE_2				391750000000LL


#define VADC_CHAN_MIN			VADC_USBIN

#define VADC_CHAN_MAX			VADC_LR_MUX3_BUF_PU1_PU2_XO_THERM

/**
 * struct vadc_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 vadc_map_pt {
	
s32 x;
	
s32 y;
};

/*
 * VADC_CALIB_ABSOLUTE: uses the 625mV and 1.25V as reference channels.
 * VADC_CALIB_RATIOMETRIC: uses the reference voltage (1.8V) and GND for
 * calibration.
 */

enum vadc_calibration {
	
VADC_CALIB_ABSOLUTE = 0,
	
VADC_CALIB_RATIOMETRIC
};

/**
 * struct vadc_linear_graph - Represent ADC characteristics.
 * @dy: numerator slope to calculate the gain.
 * @dx: denominator slope to calculate the gain.
 * @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 vadc_linear_graph {
	
s32 dy;
	
s32 dx;
	
s32 gnd;
};

/**
 * struct vadc_prescale_ratio - Represent scaling ratio for ADC input.
 * @num: the inverse numerator of the gain applied to the input channel.
 * @den: the inverse denominator of the gain applied to the input channel.
 */

struct vadc_prescale_ratio {
	
u32 num;
	
u32 den;
};

/**
 * struct vadc_channel_prop - VADC channel property.
 * @channel: channel number, refer to the channel list.
 * @calibration: calibration type.
 * @decimation: sampling rate supported for the channel.
 * @prescale: channel scaling performed on the input signal.
 * @hw_settle_time: the time between AMUX being configured and the
 *      start of conversion.
 * @avg_samples: ability to provide single result from the ADC
 *      that is an average of multiple measurements.
 * @scale_fn: Represents the scaling function to convert voltage
 *      physical units desired by the client for the channel.
 *      Referenced from enum vadc_scale_fn_type.
 */

struct vadc_channel_prop {
	
unsigned int channel;
	
enum vadc_calibration calibration;
	
unsigned int decimation;
	
unsigned int prescale;
	
unsigned int hw_settle_time;
	
unsigned int avg_samples;
	
unsigned int scale_fn;
};

/**
 * struct vadc_priv - VADC private structure.
 * @regmap: pointer to struct regmap.
 * @dev: pointer to struct device.
 * @base: base address for the ADC peripheral.
 * @nchannels: number of VADC channels.
 * @chan_props: array of VADC channel properties.
 * @iio_chans: array of IIO channels specification.
 * @are_ref_measured: are reference points measured.
 * @poll_eoc: use polling instead of interrupt.
 * @complete: VADC result notification after interrupt is received.
 * @graph: store parameters for calibration.
 * @lock: ADC lock for access to the peripheral.
 */

struct vadc_priv {
	
struct regmap		 *regmap;
	
struct device		 *dev;
	
u16			 base;
	
unsigned int		 nchannels;
	
struct vadc_channel_prop *chan_props;
	
struct iio_chan_spec	 *iio_chans;
	
bool			 are_ref_measured;
	
bool			 poll_eoc;
	
struct completion	 complete;
	
struct vadc_linear_graph graph[2];
	
struct mutex		 lock;
};

/**
 * struct vadc_scale_fn - Scaling function prototype
 * @scale: Function pointer to one of the scaling functions
 *      which takes the adc properties, channel properties,
 *      and returns the physical result.
 */

struct vadc_scale_fn {
	
int (*scale)(struct vadc_priv *, const struct vadc_channel_prop *,
		     u16, int *);
};

/**
 * enum vadc_scale_fn_type - Scaling function to convert ADC code to
 *                              physical scaled units for the channel.
 * SCALE_DEFAULT: Default scaling to convert raw adc code to voltage (uV).
 * SCALE_THERM_100K_PULLUP: Returns temperature in millidegC.
 *                               Uses a mapping table with 100K pullup.
 * SCALE_PMIC_THERM: Returns result in milli degree's Centigrade.
 * SCALE_XOTHERM: Returns XO thermistor voltage in millidegC.
 * SCALE_PMI_CHG_TEMP: Conversion for PMI CHG temp
 */

enum vadc_scale_fn_type {
	
SCALE_DEFAULT = 0,
	
SCALE_THERM_100K_PULLUP,
	
SCALE_PMIC_THERM,
	
SCALE_XOTHERM,
	
SCALE_PMI_CHG_TEMP,
};


static const struct vadc_prescale_ratio vadc_prescale_ratios[] = {
	{.num =  1, .den =  1},
	{.num =  1, .den =  3},
	{.num =  1, .den =  4},
	{.num =  1, .den =  6},
	{.num =  1, .den = 20},
	{.num =  1, .den =  8},
	{.num = 10, .den = 81},
	{.num =  1, .den = 10}
};

/* Voltage to temperature */

static const struct vadc_map_pt adcmap_100k_104ef_104fb[] = {
	{1758,	-40},
	{1742,	-35},
	{1719,	-30},
	{1691,	-25},
	{1654,	-20},
	{1608,	-15},
	{1551,	-10},
	{1483,	-5},
	{1404,	0},
	{1315,	5},
	{1218,	10},
	{1114,	15},
	{1007,	20},
	{900,	25},
	{795,	30},
	{696,	35},
	{605,	40},
	{522,	45},
	{448,	50},
	{383,	55},
	{327,	60},
	{278,	65},
	{237,	70},
	{202,	75},
	{172,	80},
	{146,	85},
	{125,	90},
	{107,	95},
	{92,	100},
	{79,	105},
	{68,	110},
	{59,	115},
	{51,	120},
	{44,	125}
};



static int vadc_read(struct vadc_priv *vadc, u16 offset, u8 *data)
{
	return regmap_bulk_read(vadc->regmap, vadc->base + offset, data, 1);
}

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static int vadc_write(struct vadc_priv *vadc, u16 offset, u8 data)
{
	return regmap_write(vadc->regmap, vadc->base + offset, data);
}

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static int vadc_reset(struct vadc_priv *vadc)
{
	u8 data;
	int ret;

	ret = vadc_write(vadc, VADC_ACCESS, VADC_ACCESS_DATA);
	if (ret)
		return ret;

	ret = vadc_read(vadc, VADC_PERH_RESET_CTL3, &data);
	if (ret)
		return ret;

	ret = vadc_write(vadc, VADC_ACCESS, VADC_ACCESS_DATA);
	if (ret)
		return ret;

	data |= VADC_FOLLOW_WARM_RB;

	return vadc_write(vadc, VADC_PERH_RESET_CTL3, data);
}

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static int vadc_set_state(struct vadc_priv *vadc, bool state)
{
	return vadc_write(vadc, VADC_EN_CTL1, state ? VADC_EN_CTL1_SET : 0);
}

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static void vadc_show_status(struct vadc_priv *vadc)
{
	u8 mode, sta1, chan, dig, en, req;
	int ret;

	ret = vadc_read(vadc, VADC_MODE_CTL, &mode);
	if (ret)
		return;

	ret = vadc_read(vadc, VADC_ADC_DIG_PARAM, &dig);
	if (ret)
		return;

	ret = vadc_read(vadc, VADC_ADC_CH_SEL_CTL, &chan);
	if (ret)
		return;

	ret = vadc_read(vadc, VADC_CONV_REQ, &req);
	if (ret)
		return;

	ret = vadc_read(vadc, VADC_STATUS1, &sta1);
	if (ret)
		return;

	ret = vadc_read(vadc, VADC_EN_CTL1, &en);
	if (ret)
		return;

	dev_err(vadc->dev,
		"mode:%02x en:%02x chan:%02x dig:%02x req:%02x sta1:%02x\n",
		mode, en, chan, dig, req, sta1);
}

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static int vadc_configure(struct vadc_priv *vadc,
			  struct vadc_channel_prop *prop)
{
	u8 decimation, mode_ctrl;
	int ret;

	/* Mode selection */
	mode_ctrl = (VADC_OP_MODE_NORMAL << VADC_OP_MODE_SHIFT) |
		     VADC_ADC_TRIM_EN | VADC_AMUX_TRIM_EN;
	ret = vadc_write(vadc, VADC_MODE_CTL, mode_ctrl);
	if (ret)
		return ret;

	/* Channel selection */
	ret = vadc_write(vadc, VADC_ADC_CH_SEL_CTL, prop->channel);
	if (ret)
		return ret;

	/* Digital parameter setup */
	decimation = prop->decimation << VADC_ADC_DIG_DEC_RATIO_SEL_SHIFT;
	ret = vadc_write(vadc, VADC_ADC_DIG_PARAM, decimation);
	if (ret)
		return ret;

	/* HW settle time delay */
	ret = vadc_write(vadc, VADC_HW_SETTLE_DELAY, prop->hw_settle_time);
	if (ret)
		return ret;

	ret = vadc_write(vadc, VADC_FAST_AVG_CTL, prop->avg_samples);
	if (ret)
		return ret;

	if (prop->avg_samples)
		ret = vadc_write(vadc, VADC_FAST_AVG_EN, VADC_FAST_AVG_EN_SET);
	else
		ret = vadc_write(vadc, VADC_FAST_AVG_EN, 0);

	return ret;
}

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static int vadc_poll_wait_eoc(struct vadc_priv *vadc, unsigned int interval_us)
{
	unsigned int count, retry;
	u8 sta1;
	int ret;

	retry = interval_us / VADC_CONV_TIME_MIN_US;

	for (count = 0; count < retry; count++) {
		ret = vadc_read(vadc, VADC_STATUS1, &sta1);
		if (ret)
			return ret;

		sta1 &= VADC_STATUS1_REQ_STS_EOC_MASK;
		if (sta1 == VADC_STATUS1_EOC)
			return 0;

		usleep_range(VADC_CONV_TIME_MIN_US, VADC_CONV_TIME_MAX_US);
	}

	vadc_show_status(vadc);

	return -ETIMEDOUT;
}

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static int vadc_read_result(struct vadc_priv *vadc, u16 *data)
{
	int ret;

	ret = regmap_bulk_read(vadc->regmap, vadc->base + VADC_DATA, data, 2);
	if (ret)
		return ret;

	*data = clamp_t(u16, *data, VADC_MIN_ADC_CODE, VADC_MAX_ADC_CODE);

	return 0;
}

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static struct vadc_channel_prop *vadc_get_channel(struct vadc_priv *vadc,
						  unsigned int num)
{
	unsigned int i;

	for (i = 0; i < vadc->nchannels; i++)
		if (vadc->chan_props[i].channel == num)
			return &vadc->chan_props[i];

	dev_dbg(vadc->dev, "no such channel %02x\n", num);

	return NULL;
}

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static int vadc_do_conversion(struct vadc_priv *vadc,
			      struct vadc_channel_prop *prop, u16 *data)
{
	unsigned int timeout;
	int ret;

	mutex_lock(&vadc->lock);

	ret = vadc_configure(vadc, prop);
	if (ret)
		goto unlock;

	if (!vadc->poll_eoc)
		reinit_completion(&vadc->complete);

	ret = vadc_set_state(vadc, true);
	if (ret)
		goto unlock;

	ret = vadc_write(vadc, VADC_CONV_REQ, VADC_CONV_REQ_SET);
	if (ret)
		goto err_disable;

	timeout = BIT(prop->avg_samples) * VADC_CONV_TIME_MIN_US * 2;

	if (vadc->poll_eoc) {
		ret = vadc_poll_wait_eoc(vadc, timeout);
	} else {
		ret = wait_for_completion_timeout(&vadc->complete, timeout);
		if (!ret) {
			ret = -ETIMEDOUT;
			goto err_disable;
		}

		/* Double check conversion status */
		ret = vadc_poll_wait_eoc(vadc, VADC_CONV_TIME_MIN_US);
		if (ret)
			goto err_disable;
	}

	ret = vadc_read_result(vadc, data);

err_disable:
	vadc_set_state(vadc, false);
	if (ret)
		dev_err(vadc->dev, "conversion failed\n");
unlock:
	mutex_unlock(&vadc->lock);
	return ret;
}

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static int vadc_measure_ref_points(struct vadc_priv *vadc)
{
	struct vadc_channel_prop *prop;
	u16 read_1, read_2;
	int ret;

	vadc->graph[VADC_CALIB_RATIOMETRIC].dx = VADC_RATIOMETRIC_RANGE;
	vadc->graph[VADC_CALIB_ABSOLUTE].dx = VADC_ABSOLUTE_RANGE_UV;

	prop = vadc_get_channel(vadc, VADC_REF_1250MV);
	ret = vadc_do_conversion(vadc, prop, &read_1);
	if (ret)
		goto err;

	/* Try with buffered 625mV channel first */
	prop = vadc_get_channel(vadc, VADC_SPARE1);
	if (!prop)
		prop = vadc_get_channel(vadc, VADC_REF_625MV);

	ret = vadc_do_conversion(vadc, prop, &read_2);
	if (ret)
		goto err;

	if (read_1 == read_2) {
		ret = -EINVAL;
		goto err;
	}

	vadc->graph[VADC_CALIB_ABSOLUTE].dy = read_1 - read_2;
	vadc->graph[VADC_CALIB_ABSOLUTE].gnd = read_2;

	/* Ratiometric calibration */
	prop = vadc_get_channel(vadc, VADC_VDD_VADC);
	ret = vadc_do_conversion(vadc, prop, &read_1);
	if (ret)
		goto err;

	prop = vadc_get_channel(vadc, VADC_GND_REF);
	ret = vadc_do_conversion(vadc, prop, &read_2);
	if (ret)
		goto err;

	if (read_1 == read_2) {
		ret = -EINVAL;
		goto err;
	}

	vadc->graph[VADC_CALIB_RATIOMETRIC].dy = read_1 - read_2;
	vadc->graph[VADC_CALIB_RATIOMETRIC].gnd = read_2;
err:
	if (ret)
		dev_err(vadc->dev, "measure reference points failed\n");

	return ret;
}

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static int vadc_map_voltage_temp(const struct vadc_map_pt *pts,
				 u32 tablesize, s32 input, s64 *output)
{
	bool descending = 1;
	u32 i = 0;

	if (!pts)
		return -EINVAL;

	/* Check if table is descending or ascending */
	if (tablesize > 1) {
		if (pts[0].x < pts[1].x)
			descending = 0;
	}

	while (i < tablesize) {
		if ((descending) && (pts[i].x < input)) {
			/* table entry is less than measured*/
			 /* value and table is descending, stop */
			break;
		} else if ((!descending) &&
				(pts[i].x > input)) {
			/* table entry is greater than measured*/
			/*value and table is ascending, stop */
			break;
		}
		i++;
	}

	if (i == 0) {
		*output = pts[0].y;
	} else if (i == tablesize) {
		*output = pts[tablesize - 1].y;
	} else {
		/* result is between search_index and search_index-1 */
		/* interpolate linearly */
		*output = (((s32)((pts[i].y - pts[i - 1].y) *
			(input - pts[i - 1].x)) /
			(pts[i].x - pts[i - 1].x)) +
			pts[i - 1].y);
	}

	return 0;
}

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static void vadc_scale_calib(struct vadc_priv *vadc, u16 adc_code,
			     const struct vadc_channel_prop *prop,
			     s64 *scale_voltage)
{
	*scale_voltage = (adc_code -
		vadc->graph[prop->calibration].gnd);
	*scale_voltage *= vadc->graph[prop->calibration].dx;
	*scale_voltage = div64_s64(*scale_voltage,
		vadc->graph[prop->calibration].dy);
	if (prop->calibration == VADC_CALIB_ABSOLUTE)
		*scale_voltage +=
		vadc->graph[prop->calibration].dx;

	if (*scale_voltage < 0)
		*scale_voltage = 0;
}

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static int vadc_scale_volt(struct vadc_priv *vadc,
			   const struct vadc_channel_prop *prop, u16 adc_code,
			   int *result_uv)
{
	const struct vadc_prescale_ratio *prescale;
	s64 voltage = 0, result = 0;

	vadc_scale_calib(vadc, adc_code, prop, &voltage);

	prescale = &vadc_prescale_ratios[prop->prescale];
	voltage = voltage * prescale->den;
	result = div64_s64(voltage, prescale->num);
	*result_uv = result;

	return 0;
}

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static int vadc_scale_therm(struct vadc_priv *vadc,
			    const struct vadc_channel_prop *prop, u16 adc_code,
			    int *result_mdec)
{
	s64 voltage = 0, result = 0;

	vadc_scale_calib(vadc, adc_code, prop, &voltage);

	if (prop->calibration == VADC_CALIB_ABSOLUTE)
		voltage = div64_s64(voltage, 1000);

	vadc_map_voltage_temp(adcmap_100k_104ef_104fb,
			      ARRAY_SIZE(adcmap_100k_104ef_104fb),
			      voltage, &result);
	result *= 1000;
	*result_mdec = result;

	return 0;
}

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static int vadc_scale_die_temp(struct vadc_priv *vadc,
			       const struct vadc_channel_prop *prop,
			       u16 adc_code, int *result_mdec)
{
	const struct vadc_prescale_ratio *prescale;
	s64 voltage = 0;
	u64 temp; /* Temporary variable for do_div */

	vadc_scale_calib(vadc, adc_code, prop, &voltage);

	if (voltage > 0) {
		prescale = &vadc_prescale_ratios[prop->prescale];
		temp = voltage * prescale->den;
		do_div(temp, prescale->num * 2);
		voltage = temp;
	} else {
		voltage = 0;
	}

	voltage -= KELVINMIL_CELSIUSMIL;
	*result_mdec = voltage;

	return 0;
}

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Jonathan Cameron 14 12.61% 1 25.00%
Stanimir Varbanov 5 4.50% 1 25.00%
Total 111 100.00% 4 100.00%



static int vadc_scale_chg_temp(struct vadc_priv *vadc,
			       const struct vadc_channel_prop *prop,
			       u16 adc_code, int *result_mdec)
{
	const struct vadc_prescale_ratio *prescale;
	s64 voltage = 0, result = 0;

	vadc_scale_calib(vadc, adc_code, prop, &voltage);

	prescale = &vadc_prescale_ratios[prop->prescale];
	voltage = voltage * prescale->den;
	voltage = div64_s64(voltage, prescale->num);
	voltage = ((PMI_CHG_SCALE_1) * (voltage * 2));
	voltage = (voltage + PMI_CHG_SCALE_2);
	result =  div64_s64(voltage, 1000000);
	*result_mdec = result;

	return 0;
}

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Rama Krishna Phani A 91 76.47% 2 50.00%
Stanimir Varbanov 24 20.17% 1 25.00%
Ivan T. Ivanov 4 3.36% 1 25.00%
Total 119 100.00% 4 100.00%



static int vadc_decimation_from_dt(u32 value)
{
	if (!is_power_of_2(value) || value < VADC_DECIMATION_MIN ||
	    value > VADC_DECIMATION_MAX)
		return -EINVAL;

	return __ffs64(value / VADC_DECIMATION_MIN);
}

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Stanimir Varbanov 37 100.00% 1 100.00%
Total 37 100.00% 1 100.00%



static int vadc_prescaling_from_dt(u32 num, u32 den)
{
	unsigned int pre;

	for (pre = 0; pre < ARRAY_SIZE(vadc_prescale_ratios); pre++)
		if (vadc_prescale_ratios[pre].num == num &&
		    vadc_prescale_ratios[pre].den == den)
			break;

	if (pre == ARRAY_SIZE(vadc_prescale_ratios))
		return -EINVAL;

	return pre;
}

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Stanimir Varbanov 69 100.00% 1 100.00%
Total 69 100.00% 1 100.00%



static int vadc_hw_settle_time_from_dt(u32 value)
{
	if ((value <= 1000 && value % 100) || (value > 1000 && value % 2000))
		return -EINVAL;

	if (value <= 1000)
		value /= 100;
	else
		value = value / 2000 + 10;

	return value;
}

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Stanimir Varbanov 57 100.00% 1 100.00%
Total 57 100.00% 1 100.00%



static int vadc_avg_samples_from_dt(u32 value)
{
	if (!is_power_of_2(value) || value > VADC_AVG_SAMPLES_MAX)
		return -EINVAL;

	return __ffs64(value);
}

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Total 31 100.00% 1 100.00%


static struct vadc_scale_fn scale_fn[] = {
	[SCALE_DEFAULT] = {vadc_scale_volt},
	[SCALE_THERM_100K_PULLUP] = {vadc_scale_therm},
	[SCALE_PMIC_THERM] = {vadc_scale_die_temp},
	[SCALE_XOTHERM] = {vadc_scale_therm},
	[SCALE_PMI_CHG_TEMP] = {vadc_scale_chg_temp},
};



static int vadc_read_raw(struct iio_dev *indio_dev,
			 struct iio_chan_spec const *chan, int *val, int *val2,
			 long mask)
{
	struct vadc_priv *vadc = iio_priv(indio_dev);
	struct vadc_channel_prop *prop;
	u16 adc_code;
	int ret;

	switch (mask) {
	case IIO_CHAN_INFO_PROCESSED:
		prop = &vadc->chan_props[chan->address];
		ret = vadc_do_conversion(vadc, prop, &adc_code);
		if (ret)
			break;

		scale_fn[prop->scale_fn].scale(vadc, prop, adc_code, val);

		return IIO_VAL_INT;
	case IIO_CHAN_INFO_RAW:
		prop = &vadc->chan_props[chan->address];
		ret = vadc_do_conversion(vadc, prop, &adc_code);
		if (ret)
			break;

		*val = (int)adc_code;
		return IIO_VAL_INT;
	default:
		ret = -EINVAL;
		break;
	}

	return ret;
}

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Stanimir Varbanov 148 91.93% 1 33.33%
Rama Krishna Phani A 13 8.07% 2 66.67%
Total 161 100.00% 3 100.00%



static int vadc_of_xlate(struct iio_dev *indio_dev,
			 const struct of_phandle_args *iiospec)
{
	struct vadc_priv *vadc = iio_priv(indio_dev);
	unsigned int i;

	for (i = 0; i < vadc->nchannels; i++)
		if (vadc->iio_chans[i].channel == iiospec->args[0])
			return i;

	return -EINVAL;
}

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Total 71 100.00% 1 100.00%


static const struct iio_info vadc_info = {
	.read_raw = vadc_read_raw,
	.of_xlate = vadc_of_xlate,
	.driver_module = THIS_MODULE,
};


struct vadc_channels {
	
const char *datasheet_name;
	
unsigned int prescale_index;
	
enum iio_chan_type type;
	
long info_mask;
	
unsigned int scale_fn;
};


#define VADC_CHAN(_dname, _type, _mask, _pre, _scale)			\
	[VADC_##_dname] = {                                             \
                .datasheet_name = __stringify(_dname),                  \
                .prescale_index = _pre,                                 \
                .type = _type,                                          \
                .info_mask = _mask,                                     \
                .scale_fn = _scale                                      \
        },                                                              \

#define VADC_NO_CHAN(_dname, _type, _mask, _pre)                        \
        [VADC_##_dname] = {                                             \
                .datasheet_name = __stringify(_dname),                  \
                .prescale_index = _pre,                                 \
                .type = _type,                                          \
                .info_mask = _mask                                      \
        },


#define VADC_CHAN_TEMP(_dname, _pre, _scale)				\
	VADC_CHAN(_dname, IIO_TEMP,                                     \
                BIT(IIO_CHAN_INFO_RAW) | BIT(IIO_CHAN_INFO_PROCESSED),  \
                _pre, _scale)                                           \

#define VADC_CHAN_VOLT(_dname, _pre, _scale)                            \
        VADC_CHAN(_dname, IIO_VOLTAGE,                                  \
                  BIT(IIO_CHAN_INFO_RAW) | BIT(IIO_CHAN_INFO_PROCESSED),\
                  _pre, _scale)                                         \

#define VADC_CHAN_NO_SCALE(_dname, _pre)                                \
        VADC_NO_CHAN(_dname, IIO_VOLTAGE,                               \
                  BIT(IIO_CHAN_INFO_RAW),                               \
                  _pre)							\

/*
 * The array represents all possible ADC channels found in the supported PMICs.
 * Every index in the array is equal to the channel number per datasheet. The
 * gaps in the array should be treated as reserved channels.
 */

static const struct vadc_channels vadc_chans[] = {
	VADC_CHAN_VOLT(USBIN, 4, SCALE_DEFAULT)
	VADC_CHAN_VOLT(DCIN, 4, SCALE_DEFAULT)
	VADC_CHAN_NO_SCALE(VCHG_SNS, 3)
	VADC_CHAN_NO_SCALE(SPARE1_03, 1)
	VADC_CHAN_NO_SCALE(USB_ID_MV, 1)
	VADC_CHAN_VOLT(VCOIN, 1, SCALE_DEFAULT)
	VADC_CHAN_NO_SCALE(VBAT_SNS, 1)
	VADC_CHAN_VOLT(VSYS, 1, SCALE_DEFAULT)
	VADC_CHAN_TEMP(DIE_TEMP, 0, SCALE_PMIC_THERM)
	VADC_CHAN_VOLT(REF_625MV, 0, SCALE_DEFAULT)
	VADC_CHAN_VOLT(REF_1250MV, 0, SCALE_DEFAULT)
	VADC_CHAN_NO_SCALE(CHG_TEMP, 0)
	VADC_CHAN_NO_SCALE(SPARE1, 0)
	VADC_CHAN_TEMP(SPARE2, 0, SCALE_PMI_CHG_TEMP)
	VADC_CHAN_VOLT(GND_REF, 0, SCALE_DEFAULT)
	VADC_CHAN_VOLT(VDD_VADC, 0, SCALE_DEFAULT)

	VADC_CHAN_NO_SCALE(P_MUX1_1_1, 0)
	VADC_CHAN_NO_SCALE(P_MUX2_1_1, 0)
	VADC_CHAN_NO_SCALE(P_MUX3_1_1, 0)
	VADC_CHAN_NO_SCALE(P_MUX4_1_1, 0)
	VADC_CHAN_NO_SCALE(P_MUX5_1_1, 0)
	VADC_CHAN_NO_SCALE(P_MUX6_1_1, 0)
	VADC_CHAN_NO_SCALE(P_MUX7_1_1, 0)
	VADC_CHAN_NO_SCALE(P_MUX8_1_1, 0)
	VADC_CHAN_NO_SCALE(P_MUX9_1_1, 0)
	VADC_CHAN_NO_SCALE(P_MUX10_1_1, 0)
	VADC_CHAN_NO_SCALE(P_MUX11_1_1, 0)
	VADC_CHAN_NO_SCALE(P_MUX12_1_1, 0)
	VADC_CHAN_NO_SCALE(P_MUX13_1_1, 0)
	VADC_CHAN_NO_SCALE(P_MUX14_1_1, 0)
	VADC_CHAN_NO_SCALE(P_MUX15_1_1, 0)
	VADC_CHAN_NO_SCALE(P_MUX16_1_1, 0)

	VADC_CHAN_NO_SCALE(P_MUX1_1_3, 1)
	VADC_CHAN_NO_SCALE(P_MUX2_1_3, 1)
	VADC_CHAN_NO_SCALE(P_MUX3_1_3, 1)
	VADC_CHAN_NO_SCALE(P_MUX4_1_3, 1)
	VADC_CHAN_NO_SCALE(P_MUX5_1_3, 1)
	VADC_CHAN_NO_SCALE(P_MUX6_1_3, 1)
	VADC_CHAN_NO_SCALE(P_MUX7_1_3, 1)
	VADC_CHAN_NO_SCALE(P_MUX8_1_3, 1)
	VADC_CHAN_NO_SCALE(P_MUX9_1_3, 1)
	VADC_CHAN_NO_SCALE(P_MUX10_1_3, 1)
	VADC_CHAN_NO_SCALE(P_MUX11_1_3, 1)
	VADC_CHAN_NO_SCALE(P_MUX12_1_3, 1)
	VADC_CHAN_NO_SCALE(P_MUX13_1_3, 1)
	VADC_CHAN_NO_SCALE(P_MUX14_1_3, 1)
	VADC_CHAN_NO_SCALE(P_MUX15_1_3, 1)
	VADC_CHAN_NO_SCALE(P_MUX16_1_3, 1)

	VADC_CHAN_NO_SCALE(LR_MUX1_BAT_THERM, 0)
	VADC_CHAN_NO_SCALE(LR_MUX2_BAT_ID, 0)
	VADC_CHAN_NO_SCALE(LR_MUX3_XO_THERM, 0)
	VADC_CHAN_NO_SCALE(LR_MUX4_AMUX_THM1, 0)
	VADC_CHAN_NO_SCALE(LR_MUX5_AMUX_THM2, 0)
	VADC_CHAN_NO_SCALE(LR_MUX6_AMUX_THM3, 0)
	VADC_CHAN_NO_SCALE(LR_MUX7_HW_ID, 0)
	VADC_CHAN_NO_SCALE(LR_MUX8_AMUX_THM4, 0)
	VADC_CHAN_NO_SCALE(LR_MUX9_AMUX_THM5, 0)
	VADC_CHAN_NO_SCALE(LR_MUX10_USB_ID, 0)
	VADC_CHAN_NO_SCALE(AMUX_PU1, 0)
	VADC_CHAN_NO_SCALE(AMUX_PU2, 0)
	VADC_CHAN_NO_SCALE(LR_MUX3_BUF_XO_THERM, 0)

	VADC_CHAN_NO_SCALE(LR_MUX1_PU1_BAT_THERM, 0)
	VADC_CHAN_NO_SCALE(LR_MUX2_PU1_BAT_ID, 0)
	VADC_CHAN_NO_SCALE(LR_MUX3_PU1_XO_THERM, 0)
	VADC_CHAN_TEMP(LR_MUX4_PU1_AMUX_THM1, 0, SCALE_THERM_100K_PULLUP)
	VADC_CHAN_TEMP(LR_MUX5_PU1_AMUX_THM2, 0, SCALE_THERM_100K_PULLUP)
	VADC_CHAN_TEMP(LR_MUX6_PU1_AMUX_THM3, 0, SCALE_THERM_100K_PULLUP)
	VADC_CHAN_NO_SCALE(LR_MUX7_PU1_AMUX_HW_ID, 0)
	VADC_CHAN_TEMP(LR_MUX8_PU1_AMUX_THM4, 0, SCALE_THERM_100K_PULLUP)
	VADC_CHAN_TEMP(LR_MUX9_PU1_AMUX_THM5, 0, SCALE_THERM_100K_PULLUP)
	VADC_CHAN_NO_SCALE(LR_MUX10_PU1_AMUX_USB_ID, 0)
	VADC_CHAN_TEMP(LR_MUX3_BUF_PU1_XO_THERM, 0, SCALE_XOTHERM)

	VADC_CHAN_NO_SCALE(LR_MUX1_PU2_BAT_THERM, 0)
	VADC_CHAN_NO_SCALE(LR_MUX2_PU2_BAT_ID, 0)
	VADC_CHAN_NO_SCALE(LR_MUX3_PU2_XO_THERM, 0)
	VADC_CHAN_NO_SCALE(LR_MUX4_PU2_AMUX_THM1, 0)
	VADC_CHAN_NO_SCALE(LR_MUX5_PU2_AMUX_THM2, 0)
	VADC_CHAN_NO_SCALE(LR_MUX6_PU2_AMUX_THM3, 0)
	VADC_CHAN_NO_SCALE(LR_MUX7_PU2_AMUX_HW_ID, 0)
	VADC_CHAN_NO_SCALE(LR_MUX8_PU2_AMUX_THM4, 0)
	VADC_CHAN_NO_SCALE(LR_MUX9_PU2_AMUX_THM5, 0)
	VADC_CHAN_NO_SCALE(LR_MUX10_PU2_AMUX_USB_ID, 0)
	VADC_CHAN_NO_SCALE(LR_MUX3_BUF_PU2_XO_THERM, 0)

	VADC_CHAN_NO_SCALE(LR_MUX1_PU1_PU2_BAT_THERM, 0)
	VADC_CHAN_NO_SCALE(LR_MUX2_PU1_PU2_BAT_ID, 0)
	VADC_CHAN_NO_SCALE(LR_MUX3_PU1_PU2_XO_THERM, 0)
	VADC_CHAN_NO_SCALE(LR_MUX4_PU1_PU2_AMUX_THM1, 0)
	VADC_CHAN_NO_SCALE(LR_MUX5_PU1_PU2_AMUX_THM2, 0)
	VADC_CHAN_NO_SCALE(LR_MUX6_PU1_PU2_AMUX_THM3, 0)
	VADC_CHAN_NO_SCALE(LR_MUX7_PU1_PU2_AMUX_HW_ID, 0)
	VADC_CHAN_NO_SCALE(LR_MUX8_PU1_PU2_AMUX_THM4, 0)
	VADC_CHAN_NO_SCALE(LR_MUX9_PU1_PU2_AMUX_THM5, 0)
	VADC_CHAN_NO_SCALE(LR_MUX10_PU1_PU2_AMUX_USB_ID, 0)
	VADC_CHAN_NO_SCALE(LR_MUX3_BUF_PU1_PU2_XO_THERM, 0)
};



static int vadc_get_dt_channel_data(struct device *dev,
				    struct vadc_channel_prop *prop,
				    struct device_node *node)
{
	const char *name = node->name;
	u32 chan, value, varr[2];
	int ret;

	ret = of_property_read_u32(node, "reg", &chan);
	if (ret) {
		dev_err(dev, "invalid channel number %s\n", name);
		return ret;
	}

	if (chan > VADC_CHAN_MAX || chan < VADC_CHAN_MIN) {
		dev_err(dev, "%s invalid channel number %d\n", name, chan);
		return -EINVAL;
	}

	/* the channel has DT description */
	prop->channel = chan;

	ret = of_property_read_u32(node, "qcom,decimation", &value);
	if (!ret) {
		ret = vadc_decimation_from_dt(value);
		if (ret < 0) {
			dev_err(dev, "%02x invalid decimation %d\n",
				chan, value);
			return ret;
		}
		prop->decimation = ret;
	} else {
		prop->decimation = VADC_DEF_DECIMATION;
	}

	ret = of_property_read_u32_array(node, "qcom,pre-scaling", varr, 2);
	if (!ret) {
		ret = vadc_prescaling_from_dt(varr[0], varr[1]);
		if (ret < 0) {
			dev_err(dev, "%02x invalid pre-scaling <%d %d>\n",
				chan, varr[0], varr[1]);
			return ret;
		}
		prop->prescale = ret;
	} else {
		prop->prescale = vadc_chans[prop->channel].prescale_index;
	}

	ret = of_property_read_u32(node, "qcom,hw-settle-time", &value);
	if (!ret) {
		ret = vadc_hw_settle_time_from_dt(value);
		if (ret < 0) {
			dev_err(dev, "%02x invalid hw-settle-time %d us\n",
				chan, value);
			return ret;
		}
		prop->hw_settle_time = ret;
	} else {
		prop->hw_settle_time = VADC_DEF_HW_SETTLE_TIME;
	}

	ret = of_property_read_u32(node, "qcom,avg-samples", &value);
	if (!ret) {
		ret = vadc_avg_samples_from_dt(value);
		if (ret < 0) {
			dev_err(dev, "%02x invalid avg-samples %d\n",
				chan, value);
			return ret;
		}
		prop->avg_samples = ret;
	} else {
		prop->avg_samples = VADC_DEF_AVG_SAMPLES;
	}

	if (of_property_read_bool(node, "qcom,ratiometric"))
		prop->calibration = VADC_CALIB_RATIOMETRIC;
	else
		prop->calibration = VADC_CALIB_ABSOLUTE;

	dev_dbg(dev, "%02x name %s\n", chan, name);

	return 0;
}

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Total 419 100.00% 1 100.00%



static int vadc_get_dt_data(struct vadc_priv *vadc, struct device_node *node)
{
	const struct vadc_channels *vadc_chan;
	struct iio_chan_spec *iio_chan;
	struct vadc_channel_prop prop;
	struct device_node *child;
	unsigned int index = 0;
	int ret;

	vadc->nchannels = of_get_available_child_count(node);
	if (!vadc->nchannels)
		return -EINVAL;

	vadc->iio_chans = devm_kcalloc(vadc->dev, vadc->nchannels,
				       sizeof(*vadc->iio_chans), GFP_KERNEL);
	if (!vadc->iio_chans)
		return -ENOMEM;

	vadc->chan_props = devm_kcalloc(vadc->dev, vadc->nchannels,
					sizeof(*vadc->chan_props), GFP_KERNEL);
	if (!vadc->chan_props)
		return -ENOMEM;

	iio_chan = vadc->iio_chans;

	for_each_available_child_of_node(node, child) {
		ret = vadc_get_dt_channel_data(vadc->dev, &prop, child);
		if (ret) {
			of_node_put(child);
			return ret;
		}

		prop.scale_fn = vadc_chans[prop.channel].scale_fn;
		vadc->chan_props[index] = prop;

		vadc_chan = &vadc_chans[prop.channel];

		iio_chan->channel = prop.channel;
		iio_chan->datasheet_name = vadc_chan->datasheet_name;
		iio_chan->info_mask_separate = vadc_chan->info_mask;
		iio_chan->type = vadc_chan->type;
		iio_chan->indexed = 1;
		iio_chan->address = index++;

		iio_chan++;
	}

	/* These channels are mandatory, they are used as reference points */
	if (!vadc_get_channel(vadc, VADC_REF_1250MV)) {
		dev_err(vadc->dev, "Please define 1.25V channel\n");
		return -ENODEV;
	}

	if (!vadc_get_channel(vadc, VADC_REF_625MV)) {
		dev_err(vadc->dev, "Please define 0.625V channel\n");
		return -ENODEV;
	}

	if (!vadc_get_channel(vadc, VADC_VDD_VADC)) {
		dev_err(vadc->dev, "Please define VDD channel\n");
		return -ENODEV;
	}

	if (!vadc_get_channel(vadc, VADC_GND_REF)) {
		dev_err(vadc->dev, "Please define GND channel\n");
		return -ENODEV;
	}

	return 0;
}

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Total 363 100.00% 3 100.00%



static irqreturn_t vadc_isr(int irq, void *dev_id)
{
	struct vadc_priv *vadc = dev_id;

	complete(&vadc->complete);

	return IRQ_HANDLED;
}

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static int vadc_check_revision(struct vadc_priv *vadc)
{
	u8 val;
	int ret;

	ret = vadc_read(vadc, VADC_PERPH_TYPE, &val);
	if (ret)
		return ret;

	if (val < VADC_PERPH_TYPE_ADC) {
		dev_err(vadc->dev, "%d is not ADC\n", val);
		return -ENODEV;
	}

	ret = vadc_read(vadc, VADC_PERPH_SUBTYPE, &val);
	if (ret)
		return ret;

	if (val < VADC_PERPH_SUBTYPE_VADC) {
		dev_err(vadc->dev, "%d is not VADC\n", val);
		return -ENODEV;
	}

	ret = vadc_read(vadc, VADC_REVISION2, &val);
	if (ret)
		return ret;

	if (val < VADC_REVISION2_SUPPORTED_VADC) {
		dev_err(vadc->dev, "revision %d not supported\n", val);
		return -ENODEV;
	}

	return 0;
}

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static int vadc_probe(struct platform_device *pdev)
{
	struct device_node *node = pdev->dev.of_node;
	struct device *dev = &pdev->dev;
	struct iio_dev *indio_dev;
	struct vadc_priv *vadc;
	struct regmap *regmap;
	int ret, irq_eoc;
	u32 reg;

	regmap = dev_get_regmap(dev->parent, NULL);
	if (!regmap)
		return -ENODEV;

	ret = of_property_read_u32(node, "reg", &reg);
	if (ret < 0)
		return ret;

	indio_dev = devm_iio_device_alloc(dev, sizeof(*vadc));
	if (!indio_dev)
		return -ENOMEM;

	vadc = iio_priv(indio_dev);
	vadc->regmap = regmap;
	vadc->dev = dev;
	vadc->base = reg;
	vadc->are_ref_measured = false;
	init_completion(&vadc->complete);
	mutex_init(&vadc->lock);

	ret = vadc_check_revision(vadc);
	if (ret)
		return ret;

	ret = vadc_get_dt_data(vadc, node);
	if (ret)
		return ret;

	irq_eoc = platform_get_irq(pdev, 0);
	if (irq_eoc < 0) {
		if (irq_eoc == -EPROBE_DEFER || irq_eoc == -EINVAL)
			return irq_eoc;
		vadc->poll_eoc = true;
	} else {
		ret = devm_request_irq(dev, irq_eoc, vadc_isr, 0,
				       "spmi-vadc", vadc);
		if (ret)
			return ret;
	}

	ret = vadc_reset(vadc);
	if (ret) {
		dev_err(dev, "reset failed\n");
		return ret;
	}

	ret = vadc_measure_ref_points(vadc);
	if (ret)
		return ret;

	indio_dev->dev.parent = dev;
	indio_dev->dev.of_node = node;
	indio_dev->name = pdev->name;
	indio_dev->modes = INDIO_DIRECT_MODE;
	indio_dev->info = &vadc_info;
	indio_dev->channels = vadc->iio_chans;
	indio_dev->num_channels = vadc->nchannels;

	return devm_iio_device_register(dev, indio_dev);
}

Contributors
Person Tokens Prop Commits CommitProp
Stanimir Varbanov 358 100.00% 1 100.00%
Total 358 100.00% 1 100.00%


static const struct of_device_id vadc_match_table[] = {
	{ .compatible = "qcom,spmi-vadc" },
	{ }
};
MODULE_DEVICE_TABLE(of, vadc_match_table);


static struct platform_driver vadc_driver = {
	.driver = {
		   .name = "qcom-spmi-vadc",
		   .of_match_table = vadc_match_table,
        },
	.probe = vadc_probe,
};

module_platform_driver(vadc_driver);

MODULE_ALIAS("platform:qcom-spmi-vadc");
MODULE_DESCRIPTION("Qualcomm SPMI PMIC voltage ADC driver");
MODULE_LICENSE("GPL v2");
MODULE_AUTHOR("Stanimir Varbanov <svarbanov@mm-sol.com>");
MODULE_AUTHOR("Ivan T. Ivanov <iivanov@mm-sol.com>");
Overall Contributors
Person Tokens Prop Commits CommitProp
Stanimir Varbanov 4122 77.47% 1 12.50%
Rama Krishna Phani A 1160 21.80% 2 25.00%
Jonathan Cameron 21 0.39% 3 37.50%
Ivan T. Ivanov 11 0.21% 1 12.50%
Julia Lawall 7 0.13% 1 12.50%
Total 5321 100.00% 8 100.00%
Directory: drivers/iio/adc

Information contained on this website is for historical information purposes only and does not indicate or represent copyright ownership.
Created with cregit.
Person	Tokens	Prop	Commits	CommitProp
Stanimir Varbanov	36	100.00%	1	100.00%
Total	36	100.00%	1	100.00%
cregit-Linux how code gets into the kernel

Release 4.11 drivers/iio/adc/qcom-spmi-vadc.c

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