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path: root/drivers/iio/adc/qcom-spmi-rradc.c
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// SPDX-License-Identifier: GPL-2.0-only
/*
 * Copyright (c) 2016-2017, 2019, The Linux Foundation. All rights reserved.
 * Copyright (c) 2022 Linaro Limited.
 *  Author: Caleb Connolly <caleb.connolly@linaro.org>
 *
 * This driver is for the Round Robin ADC found in the pmi8998 and pm660 PMICs.
 */

#include <linux/bitfield.h>
#include <linux/delay.h>
#include <linux/kernel.h>
#include <linux/math64.h>
#include <linux/module.h>
#include <linux/mod_devicetable.h>
#include <linux/platform_device.h>
#include <linux/property.h>
#include <linux/regmap.h>
#include <linux/spmi.h>
#include <linux/types.h>
#include <linux/units.h>

#include <asm/unaligned.h>

#include <linux/iio/iio.h>
#include <linux/iio/types.h>

#include <soc/qcom/qcom-spmi-pmic.h>

#define DRIVER_NAME "qcom-spmi-rradc"

#define RR_ADC_EN_CTL 0x46
#define RR_ADC_SKIN_TEMP_LSB 0x50
#define RR_ADC_SKIN_TEMP_MSB 0x51
#define RR_ADC_CTL 0x52
#define RR_ADC_CTL_CONTINUOUS_SEL BIT(3)
#define RR_ADC_LOG 0x53
#define RR_ADC_LOG_CLR_CTRL BIT(0)

#define RR_ADC_FAKE_BATT_LOW_LSB 0x58
#define RR_ADC_FAKE_BATT_LOW_MSB 0x59
#define RR_ADC_FAKE_BATT_HIGH_LSB 0x5A
#define RR_ADC_FAKE_BATT_HIGH_MSB 0x5B

#define RR_ADC_BATT_ID_CTRL 0x60
#define RR_ADC_BATT_ID_CTRL_CHANNEL_CONV BIT(0)
#define RR_ADC_BATT_ID_TRIGGER 0x61
#define RR_ADC_BATT_ID_STS 0x62
#define RR_ADC_BATT_ID_CFG 0x63
#define BATT_ID_SETTLE_MASK GENMASK(7, 5)
#define RR_ADC_BATT_ID_5_LSB 0x66
#define RR_ADC_BATT_ID_5_MSB 0x67
#define RR_ADC_BATT_ID_15_LSB 0x68
#define RR_ADC_BATT_ID_15_MSB 0x69
#define RR_ADC_BATT_ID_150_LSB 0x6A
#define RR_ADC_BATT_ID_150_MSB 0x6B

#define RR_ADC_BATT_THERM_CTRL 0x70
#define RR_ADC_BATT_THERM_TRIGGER 0x71
#define RR_ADC_BATT_THERM_STS 0x72
#define RR_ADC_BATT_THERM_CFG 0x73
#define RR_ADC_BATT_THERM_LSB 0x74
#define RR_ADC_BATT_THERM_MSB 0x75
#define RR_ADC_BATT_THERM_FREQ 0x76

#define RR_ADC_AUX_THERM_CTRL 0x80
#define RR_ADC_AUX_THERM_TRIGGER 0x81
#define RR_ADC_AUX_THERM_STS 0x82
#define RR_ADC_AUX_THERM_CFG 0x83
#define RR_ADC_AUX_THERM_LSB 0x84
#define RR_ADC_AUX_THERM_MSB 0x85

#define RR_ADC_SKIN_HOT 0x86
#define RR_ADC_SKIN_TOO_HOT 0x87

#define RR_ADC_AUX_THERM_C1 0x88
#define RR_ADC_AUX_THERM_C2 0x89
#define RR_ADC_AUX_THERM_C3 0x8A
#define RR_ADC_AUX_THERM_HALF_RANGE 0x8B

#define RR_ADC_USB_IN_V_CTRL 0x90
#define RR_ADC_USB_IN_V_TRIGGER 0x91
#define RR_ADC_USB_IN_V_STS 0x92
#define RR_ADC_USB_IN_V_LSB 0x94
#define RR_ADC_USB_IN_V_MSB 0x95
#define RR_ADC_USB_IN_I_CTRL 0x98
#define RR_ADC_USB_IN_I_TRIGGER 0x99
#define RR_ADC_USB_IN_I_STS 0x9A
#define RR_ADC_USB_IN_I_LSB 0x9C
#define RR_ADC_USB_IN_I_MSB 0x9D

#define RR_ADC_DC_IN_V_CTRL 0xA0
#define RR_ADC_DC_IN_V_TRIGGER 0xA1
#define RR_ADC_DC_IN_V_STS 0xA2
#define RR_ADC_DC_IN_V_LSB 0xA4
#define RR_ADC_DC_IN_V_MSB 0xA5
#define RR_ADC_DC_IN_I_CTRL 0xA8
#define RR_ADC_DC_IN_I_TRIGGER 0xA9
#define RR_ADC_DC_IN_I_STS 0xAA
#define RR_ADC_DC_IN_I_LSB 0xAC
#define RR_ADC_DC_IN_I_MSB 0xAD

#define RR_ADC_PMI_DIE_TEMP_CTRL 0xB0
#define RR_ADC_PMI_DIE_TEMP_TRIGGER 0xB1
#define RR_ADC_PMI_DIE_TEMP_STS 0xB2
#define RR_ADC_PMI_DIE_TEMP_CFG 0xB3
#define RR_ADC_PMI_DIE_TEMP_LSB 0xB4
#define RR_ADC_PMI_DIE_TEMP_MSB 0xB5

#define RR_ADC_CHARGER_TEMP_CTRL 0xB8
#define RR_ADC_CHARGER_TEMP_TRIGGER 0xB9
#define RR_ADC_CHARGER_TEMP_STS 0xBA
#define RR_ADC_CHARGER_TEMP_CFG 0xBB
#define RR_ADC_CHARGER_TEMP_LSB 0xBC
#define RR_ADC_CHARGER_TEMP_MSB 0xBD
#define RR_ADC_CHARGER_HOT 0xBE
#define RR_ADC_CHARGER_TOO_HOT 0xBF

#define RR_ADC_GPIO_CTRL 0xC0
#define RR_ADC_GPIO_TRIGGER 0xC1
#define RR_ADC_GPIO_STS 0xC2
#define RR_ADC_GPIO_LSB 0xC4
#define RR_ADC_GPIO_MSB 0xC5

#define RR_ADC_ATEST_CTRL 0xC8
#define RR_ADC_ATEST_TRIGGER 0xC9
#define RR_ADC_ATEST_STS 0xCA
#define RR_ADC_ATEST_LSB 0xCC
#define RR_ADC_ATEST_MSB 0xCD
#define RR_ADC_SEC_ACCESS 0xD0

#define RR_ADC_PERPH_RESET_CTL2 0xD9
#define RR_ADC_PERPH_RESET_CTL3 0xDA
#define RR_ADC_PERPH_RESET_CTL4 0xDB
#define RR_ADC_INT_TEST1 0xE0
#define RR_ADC_INT_TEST_VAL 0xE1

#define RR_ADC_TM_TRIGGER_CTRLS 0xE2
#define RR_ADC_TM_ADC_CTRLS 0xE3
#define RR_ADC_TM_CNL_CTRL 0xE4
#define RR_ADC_TM_BATT_ID_CTRL 0xE5
#define RR_ADC_TM_THERM_CTRL 0xE6
#define RR_ADC_TM_CONV_STS 0xE7
#define RR_ADC_TM_ADC_READ_LSB 0xE8
#define RR_ADC_TM_ADC_READ_MSB 0xE9
#define RR_ADC_TM_ATEST_MUX_1 0xEA
#define RR_ADC_TM_ATEST_MUX_2 0xEB
#define RR_ADC_TM_REFERENCES 0xED
#define RR_ADC_TM_MISC_CTL 0xEE
#define RR_ADC_TM_RR_CTRL 0xEF

#define RR_ADC_TRIGGER_EVERY_CYCLE BIT(7)
#define RR_ADC_TRIGGER_CTL BIT(0)

#define RR_ADC_BATT_ID_RANGE 820

#define RR_ADC_BITS 10
#define RR_ADC_CHAN_MSB (1 << RR_ADC_BITS)
#define RR_ADC_FS_VOLTAGE_MV 2500

/* BATT_THERM 0.25K/LSB */
#define RR_ADC_BATT_THERM_LSB_K 4

#define RR_ADC_TEMP_FS_VOLTAGE_NUM 5000000
#define RR_ADC_TEMP_FS_VOLTAGE_DEN 3
#define RR_ADC_DIE_TEMP_OFFSET 601400
#define RR_ADC_DIE_TEMP_SLOPE 2
#define RR_ADC_DIE_TEMP_OFFSET_MILLI_DEGC 25000

#define RR_ADC_CHG_TEMP_GF_OFFSET_UV 1303168
#define RR_ADC_CHG_TEMP_GF_SLOPE_UV_PER_C 3784
#define RR_ADC_CHG_TEMP_SMIC_OFFSET_UV 1338433
#define RR_ADC_CHG_TEMP_SMIC_SLOPE_UV_PER_C 3655
#define RR_ADC_CHG_TEMP_660_GF_OFFSET_UV 1309001
#define RR_ADC_CHG_TEMP_660_GF_SLOPE_UV_PER_C 3403
#define RR_ADC_CHG_TEMP_660_SMIC_OFFSET_UV 1295898
#define RR_ADC_CHG_TEMP_660_SMIC_SLOPE_UV_PER_C 3596
#define RR_ADC_CHG_TEMP_660_MGNA_OFFSET_UV 1314779
#define RR_ADC_CHG_TEMP_660_MGNA_SLOPE_UV_PER_C 3496
#define RR_ADC_CHG_TEMP_OFFSET_MILLI_DEGC 25000
#define RR_ADC_CHG_THRESHOLD_SCALE 4

#define RR_ADC_VOLT_INPUT_FACTOR 8
#define RR_ADC_CURR_INPUT_FACTOR 2000
#define RR_ADC_CURR_USBIN_INPUT_FACTOR_MIL 1886
#define RR_ADC_CURR_USBIN_660_FACTOR_MIL 9
#define RR_ADC_CURR_USBIN_660_UV_VAL 579500

#define RR_ADC_GPIO_FS_RANGE 5000
#define RR_ADC_COHERENT_CHECK_RETRY 5
#define RR_ADC_CHAN_MAX_CONTINUOUS_BUFFER_LEN 16

#define RR_ADC_STS_CHANNEL_READING_MASK GENMASK(1, 0)
#define RR_ADC_STS_CHANNEL_STS BIT(1)

#define RR_ADC_TP_REV_VERSION1 21
#define RR_ADC_TP_REV_VERSION2 29
#define RR_ADC_TP_REV_VERSION3 32

#define RRADC_BATT_ID_DELAY_MAX 8

enum rradc_channel_id {
	RR_ADC_BATT_ID = 0,
	RR_ADC_BATT_THERM,
	RR_ADC_SKIN_TEMP,
	RR_ADC_USBIN_I,
	RR_ADC_USBIN_V,
	RR_ADC_DCIN_I,
	RR_ADC_DCIN_V,
	RR_ADC_DIE_TEMP,
	RR_ADC_CHG_TEMP,
	RR_ADC_GPIO,
	RR_ADC_CHAN_MAX
};

struct rradc_chip;

/**
 * struct rradc_channel - rradc channel data
 * @label:		channel label
 * @lsb:		Channel least significant byte
 * @status:		Channel status address
 * @size:		number of bytes to read
 * @trigger_addr:	Trigger address, trigger is only used on some channels
 * @trigger_mask:	Trigger mask
 * @scale_fn:		Post process callback for channels which can't be exposed
 *			as offset + scale.
 */
struct rradc_channel {
	const char *label;
	u8 lsb;
	u8 status;
	int size;
	int trigger_addr;
	int trigger_mask;
	int (*scale_fn)(struct rradc_chip *chip, u16 adc_code, int *result);
};

struct rradc_chip {
	struct device *dev;
	const struct qcom_spmi_pmic *pmic;
	/*
	 * Lock held while doing channel conversion
	 * involving multiple register read/writes
	 */
	struct mutex conversion_lock;
	struct regmap *regmap;
	u32 base;
	int batt_id_delay;
	u16 batt_id_data;
};

static const int batt_id_delays[] = { 0, 1, 4, 12, 20, 40, 60, 80 };
static const struct rradc_channel rradc_chans[RR_ADC_CHAN_MAX];
static const struct iio_chan_spec rradc_iio_chans[RR_ADC_CHAN_MAX];

static int rradc_read(struct rradc_chip *chip, u16 addr, __le16 *buf, int len)
{
	int ret, retry_cnt = 0;
	__le16 data_check[RR_ADC_CHAN_MAX_CONTINUOUS_BUFFER_LEN / 2];

	if (len > RR_ADC_CHAN_MAX_CONTINUOUS_BUFFER_LEN) {
		dev_err(chip->dev,
			"Can't read more than %d bytes, but asked to read %d bytes.\n",
			RR_ADC_CHAN_MAX_CONTINUOUS_BUFFER_LEN, len);
		return -EINVAL;
	}

	while (retry_cnt < RR_ADC_COHERENT_CHECK_RETRY) {
		ret = regmap_bulk_read(chip->regmap, chip->base + addr, buf,
				       len);
		if (ret < 0) {
			dev_err(chip->dev, "rr_adc reg 0x%x failed :%d\n", addr,
				ret);
			return ret;
		}

		ret = regmap_bulk_read(chip->regmap, chip->base + addr,
				       data_check, len);
		if (ret < 0) {
			dev_err(chip->dev, "rr_adc reg 0x%x failed :%d\n", addr,
				ret);
			return ret;
		}

		if (memcmp(buf, data_check, len) != 0) {
			retry_cnt++;
			dev_dbg(chip->dev,
				"coherent read error, retry_cnt:%d\n",
				retry_cnt);
			continue;
		}

		break;
	}

	if (retry_cnt == RR_ADC_COHERENT_CHECK_RETRY)
		dev_err(chip->dev, "Retry exceeded for coherency check\n");

	return ret;
}

static int rradc_get_fab_coeff(struct rradc_chip *chip, int64_t *offset,
			       int64_t *slope)
{
	if (chip->pmic->subtype == PM660_SUBTYPE) {
		switch (chip->pmic->fab_id) {
		case PM660_FAB_ID_GF:
			*offset = RR_ADC_CHG_TEMP_660_GF_OFFSET_UV;
			*slope = RR_ADC_CHG_TEMP_660_GF_SLOPE_UV_PER_C;
			return 0;
		case PM660_FAB_ID_TSMC:
			*offset = RR_ADC_CHG_TEMP_660_SMIC_OFFSET_UV;
			*slope = RR_ADC_CHG_TEMP_660_SMIC_SLOPE_UV_PER_C;
			return 0;
		default:
			*offset = RR_ADC_CHG_TEMP_660_MGNA_OFFSET_UV;
			*slope = RR_ADC_CHG_TEMP_660_MGNA_SLOPE_UV_PER_C;
		}
	} else if (chip->pmic->subtype == PMI8998_SUBTYPE) {
		switch (chip->pmic->fab_id) {
		case PMI8998_FAB_ID_GF:
			*offset = RR_ADC_CHG_TEMP_GF_OFFSET_UV;
			*slope = RR_ADC_CHG_TEMP_GF_SLOPE_UV_PER_C;
			return 0;
		case PMI8998_FAB_ID_SMIC:
			*offset = RR_ADC_CHG_TEMP_SMIC_OFFSET_UV;
			*slope = RR_ADC_CHG_TEMP_SMIC_SLOPE_UV_PER_C;
			return 0;
		default:
			return -EINVAL;
		}
	}

	return -EINVAL;
}

/*
 * These functions explicitly cast int64_t to int.
 * They will never overflow, as the values are small enough.
 */
static int rradc_post_process_batt_id(struct rradc_chip *chip, u16 adc_code,
				      int *result_ohms)
{
	uint32_t current_value;
	int64_t r_id;

	current_value = chip->batt_id_data;
	r_id = ((int64_t)adc_code * RR_ADC_FS_VOLTAGE_MV);
	r_id = div64_s64(r_id, (RR_ADC_CHAN_MSB * current_value));
	*result_ohms = (int)(r_id * MILLI);

	return 0;
}

static int rradc_enable_continuous_mode(struct rradc_chip *chip)
{
	int ret;

	/* Clear channel log */
	ret = regmap_set_bits(chip->regmap, chip->base + RR_ADC_LOG,
			      RR_ADC_LOG_CLR_CTRL);
	if (ret < 0) {
		dev_err(chip->dev, "log ctrl update to clear failed:%d\n", ret);
		return ret;
	}

	ret = regmap_clear_bits(chip->regmap, chip->base + RR_ADC_LOG,
				RR_ADC_LOG_CLR_CTRL);
	if (ret < 0) {
		dev_err(chip->dev, "log ctrl update to not clear failed:%d\n",
			ret);
		return ret;
	}

	/* Switch to continuous mode */
	ret = regmap_set_bits(chip->regmap, chip->base + RR_ADC_CTL,
			      RR_ADC_CTL_CONTINUOUS_SEL);
	if (ret < 0)
		dev_err(chip->dev, "Update to continuous mode failed:%d\n",
			ret);

	return ret;
}

static int rradc_disable_continuous_mode(struct rradc_chip *chip)
{
	int ret;

	/* Switch to non continuous mode */
	ret = regmap_clear_bits(chip->regmap, chip->base + RR_ADC_CTL,
				RR_ADC_CTL_CONTINUOUS_SEL);
	if (ret < 0)
		dev_err(chip->dev, "Update to non-continuous mode failed:%d\n",
			ret);

	return ret;
}

static bool rradc_is_ready(struct rradc_chip *chip,
			   enum rradc_channel_id chan_address)
{
	const struct rradc_channel *chan = &rradc_chans[chan_address];
	int ret;
	unsigned int status, mask;

	/* BATT_ID STS bit does not get set initially */
	switch (chan_address) {
	case RR_ADC_BATT_ID:
		mask = RR_ADC_STS_CHANNEL_STS;
		break;
	default:
		mask = RR_ADC_STS_CHANNEL_READING_MASK;
		break;
	}

	ret = regmap_read(chip->regmap, chip->base + chan->status, &status);
	if (ret < 0 || !(status & mask))
		return false;

	return true;
}

static int rradc_read_status_in_cont_mode(struct rradc_chip *chip,
					  enum rradc_channel_id chan_address)
{
	const struct rradc_channel *chan = &rradc_chans[chan_address];
	const struct iio_chan_spec *iio_chan = &rradc_iio_chans[chan_address];
	int ret, i;

	if (chan->trigger_mask == 0) {
		dev_err(chip->dev, "Channel doesn't have a trigger mask\n");
		return -EINVAL;
	}

	ret = regmap_set_bits(chip->regmap, chip->base + chan->trigger_addr,
			      chan->trigger_mask);
	if (ret < 0) {
		dev_err(chip->dev,
			"Failed to apply trigger for channel '%s' ret=%d\n",
			iio_chan->extend_name, ret);
		return ret;
	}

	ret = rradc_enable_continuous_mode(chip);
	if (ret < 0) {
		dev_err(chip->dev, "Failed to switch to continuous mode\n");
		goto disable_trigger;
	}

	/*
	 * The wait/sleep values were found through trial and error,
	 * this is mostly for the battery ID channel which takes some
	 * time to settle.
	 */
	for (i = 0; i < 5; i++) {
		if (rradc_is_ready(chip, chan_address))
			break;
		usleep_range(50000, 50000 + 500);
	}

	if (i == 5) {
		dev_err(chip->dev, "Channel '%s' is not ready\n",
			iio_chan->extend_name);
		ret = -ETIMEDOUT;
	}

	rradc_disable_continuous_mode(chip);

disable_trigger:
	regmap_clear_bits(chip->regmap, chip->base + chan->trigger_addr,
			  chan->trigger_mask);

	return ret;
}

static int rradc_prepare_batt_id_conversion(struct rradc_chip *chip,
					    enum rradc_channel_id chan_address,
					    u16 *data)
{
	int ret;

	ret = regmap_set_bits(chip->regmap, chip->base + RR_ADC_BATT_ID_CTRL,
			      RR_ADC_BATT_ID_CTRL_CHANNEL_CONV);
	if (ret < 0) {
		dev_err(chip->dev, "Enabling BATT ID channel failed:%d\n", ret);
		return ret;
	}

	ret = regmap_set_bits(chip->regmap,
			      chip->base + RR_ADC_BATT_ID_TRIGGER,
			      RR_ADC_TRIGGER_CTL);
	if (ret < 0) {
		dev_err(chip->dev, "BATT_ID trigger set failed:%d\n", ret);
		goto out_disable_batt_id;
	}

	ret = rradc_read_status_in_cont_mode(chip, chan_address);

	/* Reset registers back to default values */
	regmap_clear_bits(chip->regmap, chip->base + RR_ADC_BATT_ID_TRIGGER,
			  RR_ADC_TRIGGER_CTL);

out_disable_batt_id:
	regmap_clear_bits(chip->regmap, chip->base + RR_ADC_BATT_ID_CTRL,
			  RR_ADC_BATT_ID_CTRL_CHANNEL_CONV);

	return ret;
}

static int rradc_do_conversion(struct rradc_chip *chip,
			       enum rradc_channel_id chan_address, u16 *data)
{
	const struct rradc_channel *chan = &rradc_chans[chan_address];
	const struct iio_chan_spec *iio_chan = &rradc_iio_chans[chan_address];
	int ret;
	__le16 buf[3];

	mutex_lock(&chip->conversion_lock);

	switch (chan_address) {
	case RR_ADC_BATT_ID:
		ret = rradc_prepare_batt_id_conversion(chip, chan_address, data);
		if (ret < 0) {
			dev_err(chip->dev, "Battery ID conversion failed:%d\n",
				ret);
			goto unlock_out;
		}
		break;

	case RR_ADC_USBIN_V:
	case RR_ADC_DIE_TEMP:
		ret = rradc_read_status_in_cont_mode(chip, chan_address);
		if (ret < 0) {
			dev_err(chip->dev,
				"Error reading in continuous mode:%d\n", ret);
			goto unlock_out;
		}
		break;
	default:
		if (!rradc_is_ready(chip, chan_address)) {
			/*
			 * Usually this means the channel isn't attached, for example
			 * the in_voltage_usbin_v_input channel will not be ready if
			 * no USB cable is attached
			 */
			dev_dbg(chip->dev, "channel '%s' is not ready\n",
				iio_chan->extend_name);
			ret = -ENODATA;
			goto unlock_out;
		}
		break;
	}

	ret = rradc_read(chip, chan->lsb, buf, chan->size);
	if (ret) {
		dev_err(chip->dev, "read data failed\n");
		goto unlock_out;
	}

	/*
	 * For the battery ID we read the register for every ID ADC and then
	 * see which one is actually connected.
	 */
	if (chan_address == RR_ADC_BATT_ID) {
		u16 batt_id_150 = le16_to_cpu(buf[2]);
		u16 batt_id_15 = le16_to_cpu(buf[1]);
		u16 batt_id_5 = le16_to_cpu(buf[0]);

		if (!batt_id_150 && !batt_id_15 && !batt_id_5) {
			dev_err(chip->dev,
				"Invalid batt_id values with all zeros\n");
			ret = -EINVAL;
			goto unlock_out;
		}

		if (batt_id_150 <= RR_ADC_BATT_ID_RANGE) {
			*data = batt_id_150;
			chip->batt_id_data = 150;
		} else if (batt_id_15 <= RR_ADC_BATT_ID_RANGE) {
			*data = batt_id_15;
			chip->batt_id_data = 15;
		} else {
			*data = batt_id_5;
			chip->batt_id_data = 5;
		}
	} else {
		/*
		 * All of the other channels are either 1 or 2 bytes.
		 * We can rely on the second byte being 0 for 1-byte channels.
		 */
		*data = le16_to_cpu(buf[0]);
	}

unlock_out:
	mutex_unlock(&chip->conversion_lock);

	return ret;
}

static int rradc_read_scale(struct rradc_chip *chip, int chan_address, int *val,
			    int *val2)
{
	int64_t fab_offset, fab_slope;
	int ret;

	ret = rradc_get_fab_coeff(chip, &fab_offset, &fab_slope);
	if (ret < 0) {
		dev_err(chip->dev, "Unable to get fab id coefficients\n");
		return -EINVAL;
	}

	switch (chan_address) {
	case RR_ADC_SKIN_TEMP:
		*val = MILLI;
		*val2 = RR_ADC_BATT_THERM_LSB_K;
		return IIO_VAL_FRACTIONAL;
	case RR_ADC_USBIN_I:
		*val = RR_ADC_CURR_USBIN_INPUT_FACTOR_MIL *
		       RR_ADC_FS_VOLTAGE_MV;
		*val2 = RR_ADC_CHAN_MSB;
		return IIO_VAL_FRACTIONAL;
	case RR_ADC_DCIN_I:
		*val = RR_ADC_CURR_INPUT_FACTOR * RR_ADC_FS_VOLTAGE_MV;
		*val2 = RR_ADC_CHAN_MSB;
		return IIO_VAL_FRACTIONAL;
	case RR_ADC_USBIN_V:
	case RR_ADC_DCIN_V:
		*val = RR_ADC_VOLT_INPUT_FACTOR * RR_ADC_FS_VOLTAGE_MV * MILLI;
		*val2 = RR_ADC_CHAN_MSB;
		return IIO_VAL_FRACTIONAL;
	case RR_ADC_GPIO:
		*val = RR_ADC_GPIO_FS_RANGE;
		*val2 = RR_ADC_CHAN_MSB;
		return IIO_VAL_FRACTIONAL;
	case RR_ADC_CHG_TEMP:
		/*
		 * We divide val2 by MILLI instead of multiplying val
		 * to avoid an integer overflow.
		 */
		*val = -RR_ADC_TEMP_FS_VOLTAGE_NUM;
		*val2 = div64_s64(RR_ADC_TEMP_FS_VOLTAGE_DEN * RR_ADC_CHAN_MSB *
					  fab_slope,
				  MILLI);

		return IIO_VAL_FRACTIONAL;
	case RR_ADC_DIE_TEMP:
		*val = RR_ADC_TEMP_FS_VOLTAGE_NUM;
		*val2 = RR_ADC_TEMP_FS_VOLTAGE_DEN * RR_ADC_CHAN_MSB *
			RR_ADC_DIE_TEMP_SLOPE;

		return IIO_VAL_FRACTIONAL;
	default:
		return -EINVAL;
	}
}

static int rradc_read_offset(struct rradc_chip *chip, int chan_address, int *val)
{
	int64_t fab_offset, fab_slope;
	int64_t offset1, offset2;
	int ret;

	switch (chan_address) {
	case RR_ADC_SKIN_TEMP:
		/*
		 * Offset from kelvin to degC, divided by the
		 * scale factor (250). We lose some precision here.
		 * 273150 / 250 = 1092.6
		 */
		*val = div64_s64(ABSOLUTE_ZERO_MILLICELSIUS,
				 (MILLI / RR_ADC_BATT_THERM_LSB_K));
		return IIO_VAL_INT;
	case RR_ADC_CHG_TEMP:
		ret = rradc_get_fab_coeff(chip, &fab_offset, &fab_slope);
		if (ret < 0) {
			dev_err(chip->dev,
				"Unable to get fab id coefficients\n");
			return -EINVAL;
		}
		offset1 = -(fab_offset * RR_ADC_TEMP_FS_VOLTAGE_DEN *
			    RR_ADC_CHAN_MSB);
		offset1 += (int64_t)RR_ADC_TEMP_FS_VOLTAGE_NUM / 2ULL;
		offset1 = div64_s64(offset1,
				    (int64_t)(RR_ADC_TEMP_FS_VOLTAGE_NUM));

		offset2 = (int64_t)RR_ADC_CHG_TEMP_OFFSET_MILLI_DEGC *
			  RR_ADC_TEMP_FS_VOLTAGE_DEN * RR_ADC_CHAN_MSB *
			  (int64_t)fab_slope;
		offset2 += ((int64_t)MILLI * RR_ADC_TEMP_FS_VOLTAGE_NUM) / 2;
		offset2 = div64_s64(
			offset2, ((int64_t)MILLI * RR_ADC_TEMP_FS_VOLTAGE_NUM));

		/*
		 * The -1 is to compensate for lost precision.
		 * It should actually be -0.7906976744186046.
		 * This works out to every value being off
		 * by about +0.091 degrees C after applying offset and scale.
		 */
		*val = (int)(offset1 - offset2 - 1);
		return IIO_VAL_INT;
	case RR_ADC_DIE_TEMP:
		offset1 = -RR_ADC_DIE_TEMP_OFFSET *
			  (int64_t)RR_ADC_TEMP_FS_VOLTAGE_DEN *
			  (int64_t)RR_ADC_CHAN_MSB;
		offset1 = div64_s64(offset1, RR_ADC_TEMP_FS_VOLTAGE_NUM);

		offset2 = -(int64_t)RR_ADC_CHG_TEMP_OFFSET_MILLI_DEGC *
			  RR_ADC_TEMP_FS_VOLTAGE_DEN * RR_ADC_CHAN_MSB *
			  RR_ADC_DIE_TEMP_SLOPE;
		offset2 = div64_s64(offset2,
				    ((int64_t)RR_ADC_TEMP_FS_VOLTAGE_NUM));

		/*
		 * The result is -339, it should be -338.69789, this results
		 * in the calculated die temp being off by
		 * -0.004 - -0.0175 degrees C
		 */
		*val = (int)(offset1 - offset2);
		return IIO_VAL_INT;
	default:
		break;
	}
	return -EINVAL;
}

static int rradc_read_raw(struct iio_dev *indio_dev,
			  struct iio_chan_spec const *chan_spec, int *val,
			  int *val2, long mask)
{
	struct rradc_chip *chip = iio_priv(indio_dev);
	const struct rradc_channel *chan;
	int ret;
	u16 adc_code;

	if (chan_spec->address >= RR_ADC_CHAN_MAX) {
		dev_err(chip->dev, "Invalid channel index:%lu\n",
			chan_spec->address);
		return -EINVAL;
	}

	switch (mask) {
	case IIO_CHAN_INFO_SCALE:
		return rradc_read_scale(chip, chan_spec->address, val, val2);
	case IIO_CHAN_INFO_OFFSET:
		return rradc_read_offset(chip, chan_spec->address, val);
	case IIO_CHAN_INFO_RAW:
		ret = rradc_do_conversion(chip, chan_spec->address, &adc_code);
		if (ret < 0)
			return ret;

		*val = adc_code;
		return IIO_VAL_INT;
	case IIO_CHAN_INFO_PROCESSED:
		chan = &rradc_chans[chan_spec->address];
		if (!chan->scale_fn)
			return -EINVAL;
		ret = rradc_do_conversion(chip, chan_spec->address, &adc_code);
		if (ret < 0)
			return ret;

		*val = chan->scale_fn(chip, adc_code, val);
		return IIO_VAL_INT;
	default:
		return -EINVAL;
	}
}

static int rradc_read_label(struct iio_dev *indio_dev,
			    struct iio_chan_spec const *chan, char *label)
{
	return snprintf(label, PAGE_SIZE, "%s\n",
			rradc_chans[chan->address].label);
}

static const struct iio_info rradc_info = {
	.read_raw = rradc_read_raw,
	.read_label = rradc_read_label,
};

static const struct rradc_channel rradc_chans[RR_ADC_CHAN_MAX] = {
	{
		.label = "batt_id",
		.scale_fn = rradc_post_process_batt_id,
		.lsb = RR_ADC_BATT_ID_5_LSB,
		.status = RR_ADC_BATT_ID_STS,
		.size = 6,
		.trigger_addr = RR_ADC_BATT_ID_TRIGGER,
		.trigger_mask = BIT(0),
	}, {
		.label = "batt",
		.lsb = RR_ADC_BATT_THERM_LSB,
		.status = RR_ADC_BATT_THERM_STS,
		.size = 2,
		.trigger_addr = RR_ADC_BATT_THERM_TRIGGER,
	}, {
		.label = "pmi8998_skin",
		.lsb = RR_ADC_SKIN_TEMP_LSB,
		.status = RR_ADC_AUX_THERM_STS,
		.size = 2,
		.trigger_addr = RR_ADC_AUX_THERM_TRIGGER,
	}, {
		.label = "usbin_i",
		.lsb = RR_ADC_USB_IN_I_LSB,
		.status = RR_ADC_USB_IN_I_STS,
		.size = 2,
		.trigger_addr = RR_ADC_USB_IN_I_TRIGGER,
	}, {
		.label = "usbin_v",
		.lsb = RR_ADC_USB_IN_V_LSB,
		.status = RR_ADC_USB_IN_V_STS,
		.size = 2,
		.trigger_addr = RR_ADC_USB_IN_V_TRIGGER,
		.trigger_mask = BIT(7),
	}, {
		.label = "dcin_i",
		.lsb = RR_ADC_DC_IN_I_LSB,
		.status = RR_ADC_DC_IN_I_STS,
		.size = 2,
		.trigger_addr = RR_ADC_DC_IN_I_TRIGGER,
	}, {
		.label = "dcin_v",
		.lsb = RR_ADC_DC_IN_V_LSB,
		.status = RR_ADC_DC_IN_V_STS,
		.size = 2,
		.trigger_addr = RR_ADC_DC_IN_V_TRIGGER,
	}, {
		.label = "pmi8998_die",
		.lsb = RR_ADC_PMI_DIE_TEMP_LSB,
		.status = RR_ADC_PMI_DIE_TEMP_STS,
		.size = 2,
		.trigger_addr = RR_ADC_PMI_DIE_TEMP_TRIGGER,
		.trigger_mask = RR_ADC_TRIGGER_EVERY_CYCLE,
	}, {
		.label = "chg",
		.lsb = RR_ADC_CHARGER_TEMP_LSB,
		.status = RR_ADC_CHARGER_TEMP_STS,
		.size = 2,
		.trigger_addr = RR_ADC_CHARGER_TEMP_TRIGGER,
	}, {
		.label = "gpio",
		.lsb = RR_ADC_GPIO_LSB,
		.status = RR_ADC_GPIO_STS,
		.size = 2,
		.trigger_addr = RR_ADC_GPIO_TRIGGER,
	},
};

static const struct iio_chan_spec rradc_iio_chans[RR_ADC_CHAN_MAX] = {
	{
		.type = IIO_RESISTANCE,
		.info_mask_separate = BIT(IIO_CHAN_INFO_RAW),
		.address = RR_ADC_BATT_ID,
		.channel = 0,
		.indexed = 1,
	}, {
		.type = IIO_TEMP,
		.info_mask_separate = BIT(IIO_CHAN_INFO_RAW),
		.address = RR_ADC_BATT_THERM,
		.channel = 0,
		.indexed = 1,
	}, {
		.type = IIO_TEMP,
		.info_mask_separate = BIT(IIO_CHAN_INFO_RAW) |
				      BIT(IIO_CHAN_INFO_SCALE) |
				      BIT(IIO_CHAN_INFO_OFFSET),
		.address = RR_ADC_SKIN_TEMP,
		.channel = 1,
		.indexed = 1,
	}, {
		.type = IIO_CURRENT,
		.info_mask_separate = BIT(IIO_CHAN_INFO_RAW) |
				      BIT(IIO_CHAN_INFO_SCALE),
		.address = RR_ADC_USBIN_I,
		.channel = 0,
		.indexed = 1,
	}, {
		.type = IIO_VOLTAGE,
		.info_mask_separate = BIT(IIO_CHAN_INFO_RAW) |
				      BIT(IIO_CHAN_INFO_SCALE),
		.address = RR_ADC_USBIN_V,
		.channel = 0,
		.indexed = 1,
	}, {
		.type = IIO_CURRENT,
		.info_mask_separate = BIT(IIO_CHAN_INFO_RAW) |
				      BIT(IIO_CHAN_INFO_SCALE),
		.address = RR_ADC_DCIN_I,
		.channel = 1,
		.indexed = 1,
	}, {
		.type = IIO_VOLTAGE,
		.info_mask_separate = BIT(IIO_CHAN_INFO_RAW) |
				      BIT(IIO_CHAN_INFO_SCALE),
		.address = RR_ADC_DCIN_V,
		.channel = 1,
		.indexed = 1,
	}, {
		.type = IIO_TEMP,
		.info_mask_separate = BIT(IIO_CHAN_INFO_RAW) |
				      BIT(IIO_CHAN_INFO_SCALE) |
				      BIT(IIO_CHAN_INFO_OFFSET),
		.address = RR_ADC_DIE_TEMP,
		.channel = 2,
		.indexed = 1,
	}, {
		.type = IIO_TEMP,
		.info_mask_separate = BIT(IIO_CHAN_INFO_RAW) |
				      BIT(IIO_CHAN_INFO_OFFSET) |
				      BIT(IIO_CHAN_INFO_SCALE),
		.address = RR_ADC_CHG_TEMP,
		.channel = 3,
		.indexed = 1,
	}, {
		.type = IIO_VOLTAGE,
		.info_mask_separate = BIT(IIO_CHAN_INFO_PROCESSED) |
				      BIT(IIO_CHAN_INFO_SCALE),
		.address = RR_ADC_GPIO,
		.channel = 2,
		.indexed = 1,
	},
};

static int rradc_probe(struct platform_device *pdev)
{
	struct device *dev = &pdev->dev;
	struct iio_dev *indio_dev;
	struct rradc_chip *chip;
	int ret, i, batt_id_delay;

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

	chip = iio_priv(indio_dev);
	chip->regmap = dev_get_regmap(pdev->dev.parent, NULL);
	if (!chip->regmap) {
		dev_err(dev, "Couldn't get parent's regmap\n");
		return -EINVAL;
	}

	chip->dev = dev;
	mutex_init(&chip->conversion_lock);

	ret = device_property_read_u32(dev, "reg", &chip->base);
	if (ret < 0) {
		dev_err(chip->dev, "Couldn't find reg address, ret = %d\n",
			ret);
		return ret;
	}

	batt_id_delay = -1;
	ret = device_property_read_u32(dev, "qcom,batt-id-delay-ms",
				       &batt_id_delay);
	if (!ret) {
		for (i = 0; i < RRADC_BATT_ID_DELAY_MAX; i++) {
			if (batt_id_delay == batt_id_delays[i])
				break;
		}
		if (i == RRADC_BATT_ID_DELAY_MAX)
			batt_id_delay = -1;
	}

	if (batt_id_delay >= 0) {
		batt_id_delay = FIELD_PREP(BATT_ID_SETTLE_MASK, batt_id_delay);
		ret = regmap_set_bits(chip->regmap,
				      chip->base + RR_ADC_BATT_ID_CFG,
				      batt_id_delay);
		if (ret < 0) {
			dev_err(chip->dev,
				"BATT_ID settling time config failed:%d\n",
				ret);
		}
	}

	/* Get the PMIC revision, we need it to handle some varying coefficients */
	chip->pmic = qcom_pmic_get(chip->dev);
	if (IS_ERR(chip->pmic)) {
		dev_err(chip->dev, "Unable to get reference to PMIC device\n");
		return PTR_ERR(chip->pmic);
	}

	switch (chip->pmic->subtype) {
	case PMI8998_SUBTYPE:
		indio_dev->name = "pmi8998-rradc";
		break;
	case PM660_SUBTYPE:
		indio_dev->name = "pm660-rradc";
		break;
	default:
		indio_dev->name = DRIVER_NAME;
		break;
	}
	indio_dev->modes = INDIO_DIRECT_MODE;
	indio_dev->info = &rradc_info;
	indio_dev->channels = rradc_iio_chans;
	indio_dev->num_channels = ARRAY_SIZE(rradc_iio_chans);

	return devm_iio_device_register(dev, indio_dev);
}

static const struct of_device_id rradc_match_table[] = {
	{ .compatible = "qcom,pm660-rradc" },
	{ .compatible = "qcom,pmi8998-rradc" },
	{ }
};
MODULE_DEVICE_TABLE(of, rradc_match_table);

static struct platform_driver rradc_driver = {
	.driver		= {
		.name		= DRIVER_NAME,
		.of_match_table	= rradc_match_table,
	},
	.probe = rradc_probe,
};
module_platform_driver(rradc_driver);

MODULE_DESCRIPTION("QCOM SPMI PMIC RR ADC driver");
MODULE_AUTHOR("Caleb Connolly <caleb.connolly@linaro.org>");
MODULE_LICENSE("GPL");