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Release 4.11 drivers/iio/adc/twl6030-gpadc.c

Directory: drivers/iio/adc
/*
 * TWL6030 GPADC module driver
 *
 * Copyright (C) 2009-2013 Texas Instruments Inc.
 * Nishant Kamat <nskamat@ti.com>
 * Balaji T K <balajitk@ti.com>
 * Graeme Gregory <gg@slimlogic.co.uk>
 * Girish S Ghongdemath <girishsg@ti.com>
 * Ambresh K <ambresh@ti.com>
 * Oleksandr Kozaruk <oleksandr.kozaruk@ti.com
 *
 * Based on twl4030-madc.c
 * Copyright (C) 2008 Nokia Corporation
 * Mikko Ylinen <mikko.k.ylinen@nokia.com>
 *
 * This program is free software; you can redistribute it and/or
 * modify it under the terms of the GNU General Public License
 * 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.
 *
 * You should have received a copy of the GNU General Public License
 * along with this program; if not, write to the Free Software
 * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA
 * 02110-1301 USA
 *
 */
#include <linux/interrupt.h>
#include <linux/kernel.h>
#include <linux/module.h>
#include <linux/platform_device.h>
#include <linux/of_platform.h>
#include <linux/i2c/twl.h>
#include <linux/iio/iio.h>
#include <linux/iio/sysfs.h>


#define DRIVER_NAME		"twl6030_gpadc"

/*
 * twl6030 per TRM has 17 channels, and twl6032 has 19 channels
 * 2 test network channels are not used,
 * 2 die temperature channels are not used either, as it is not
 * defined how to convert ADC value to temperature
 */

#define TWL6030_GPADC_USED_CHANNELS		13

#define TWL6030_GPADC_MAX_CHANNELS		15

#define TWL6032_GPADC_USED_CHANNELS		15

#define TWL6032_GPADC_MAX_CHANNELS		19

#define TWL6030_GPADC_NUM_TRIM_REGS		16


#define TWL6030_GPADC_CTRL_P1			0x05


#define TWL6032_GPADC_GPSELECT_ISB		0x07

#define TWL6032_GPADC_CTRL_P1			0x08


#define TWL6032_GPADC_GPCH0_LSB			0x0d

#define TWL6032_GPADC_GPCH0_MSB			0x0e


#define TWL6030_GPADC_CTRL_P1_SP1		BIT(3)


#define TWL6030_GPADC_GPCH0_LSB			(0x29)


#define TWL6030_GPADC_RT_SW1_EOC_MASK		BIT(5)


#define TWL6030_GPADC_TRIM1			0xCD


#define TWL6030_REG_TOGGLE1			0x90

#define TWL6030_GPADCS				BIT(1)

#define TWL6030_GPADCR				BIT(0)

/**
 * struct twl6030_chnl_calib - channel calibration
 * @gain:               slope coefficient for ideal curve
 * @gain_error:         gain error
 * @offset_error:       offset of the real curve
 */

struct twl6030_chnl_calib {
	
s32 gain;
	
s32 gain_error;
	
s32 offset_error;
};

/**
 * struct twl6030_ideal_code - GPADC calibration parameters
 * GPADC is calibrated in two points: close to the beginning and
 * to the and of the measurable input range
 *
 * @channel:    channel number
 * @code1:      ideal code for the input at the beginning
 * @code2:      ideal code for at the end of the range
 * @volt1:      voltage input at the beginning(low voltage)
 * @volt2:      voltage input at the end(high voltage)
 */

struct twl6030_ideal_code {
	
int channel;
	
u16 code1;
	
u16 code2;
	
u16 volt1;
	
u16 volt2;
};

struct twl6030_gpadc_data;

/**
 * struct twl6030_gpadc_platform_data - platform specific data
 * @nchannels:          number of GPADC channels
 * @iio_channels:       iio channels
 * @twl6030_ideal:      pointer to calibration parameters
 * @start_conversion:   pointer to ADC start conversion function
 * @channel_to_reg      pointer to ADC function to convert channel to
 *                      register address for reading conversion result
 * @calibrate:          pointer to calibration function
 */

struct twl6030_gpadc_platform_data {
	
const int nchannels;
	
const struct iio_chan_spec *iio_channels;
	
const struct twl6030_ideal_code *ideal;
	
int (*start_conversion)(int channel);
	
u8 (*channel_to_reg)(int channel);
	
int (*calibrate)(struct twl6030_gpadc_data *gpadc);
};

/**
 * struct twl6030_gpadc_data - GPADC data
 * @dev:                device pointer
 * @lock:               mutual exclusion lock for the structure
 * @irq_complete:       completion to signal end of conversion
 * @twl6030_cal_tbl:    pointer to calibration data for each
 *                      channel with gain error and offset
 * @pdata:              pointer to device specific data
 */

struct twl6030_gpadc_data {
	
struct device	*dev;
	
struct mutex	lock;
	
struct completion	irq_complete;
	
struct twl6030_chnl_calib	*twl6030_cal_tbl;
	
const struct twl6030_gpadc_platform_data *pdata;
};

/*
 * channels 11, 12, 13, 15 and 16 have no calibration data
 * calibration offset is same for channels 1, 3, 4, 5
 *
 * The data is taken from GPADC_TRIM registers description.
 * GPADC_TRIM registers keep difference between the code measured
 * at volt1 and volt2 input voltages and corresponding code1 and code2
 */
static const struct twl6030_ideal_code
	
twl6030_ideal[TWL6030_GPADC_USED_CHANNELS] = {
	[0] = { /* ch 0, external, battery type, resistor value */
		.channel = 0,
		.code1 = 116,
		.code2 = 745,
		.volt1 = 141,
		.volt2 = 910,
        },
	[1] = { /* ch 1, external, battery temperature, NTC resistor value */
		.channel = 1,
		.code1 = 82,
		.code2 = 900,
		.volt1 = 100,
		.volt2 = 1100,
        },
	[2] = { /* ch 2, external, audio accessory/general purpose */
		.channel = 2,
		.code1 = 55,
		.code2 = 818,
		.volt1 = 101,
		.volt2 = 1499,
        },
	[3] = { /* ch 3, external, general purpose */
		.channel = 3,
		.code1 = 82,
		.code2 = 900,
		.volt1 = 100,
		.volt2 = 1100,
        },
	[4] = { /* ch 4, external, temperature measurement/general purpose */
		.channel = 4,
		.code1 = 82,
		.code2 = 900,
		.volt1 = 100,
		.volt2 = 1100,
        },
	[5] = { /* ch 5, external, general purpose */
		.channel = 5,
		.code1 = 82,
		.code2 = 900,
		.volt1 = 100,
		.volt2 = 1100,
        },
	[6] = { /* ch 6, external, general purpose */
		.channel = 6,
		.code1 = 82,
		.code2 = 900,
		.volt1 = 100,
		.volt2 = 1100,
        },
	[7] = { /* ch 7, internal, main battery */
		.channel = 7,
		.code1 = 614,
		.code2 = 941,
		.volt1 = 3001,
		.volt2 = 4599,
        },
	[8] = { /* ch 8, internal, backup battery */
		.channel = 8,
		.code1 = 82,
		.code2 = 688,
		.volt1 = 501,
		.volt2 = 4203,
        },
	[9] = { /* ch 9, internal, external charger input */
		.channel = 9,
		.code1 = 182,
		.code2 = 818,
		.volt1 = 2001,
		.volt2 = 8996,
        },
	[10] = { /* ch 10, internal, VBUS */
		.channel = 10,
		.code1 = 149,
		.code2 = 818,
		.volt1 = 1001,
		.volt2 = 5497,
        },
	[11] = { /* ch 11, internal, VBUS charging current */
		.channel = 11,
        },
		/* ch 12, internal, Die temperature */
		/* ch 13, internal, Die temperature */
	[12] = { /* ch 14, internal, USB ID line */
		.channel = 14,
		.code1 = 48,
		.code2 = 714,
		.volt1 = 323,
		.volt2 = 4800,
        },
};

static const struct twl6030_ideal_code
			
twl6032_ideal[TWL6032_GPADC_USED_CHANNELS] = {
	[0] = { /* ch 0, external, battery type, resistor value */
		.channel = 0,
		.code1 = 1441,
		.code2 = 3276,
		.volt1 = 440,
		.volt2 = 1000,
        },
	[1] = { /* ch 1, external, battery temperature, NTC resistor value */
		.channel = 1,
		.code1 = 1441,
		.code2 = 3276,
		.volt1 = 440,
		.volt2 = 1000,
        },
	[2] = { /* ch 2, external, audio accessory/general purpose */
		.channel = 2,
		.code1 = 1441,
		.code2 = 3276,
		.volt1 = 660,
		.volt2 = 1500,
        },
	[3] = { /* ch 3, external, temperature with external diode/general
                                                                purpose */
		.channel = 3,
		.code1 = 1441,
		.code2 = 3276,
		.volt1 = 440,
		.volt2 = 1000,
        },
	[4] = { /* ch 4, external, temperature measurement/general purpose */
		.channel = 4,
		.code1 = 1441,
		.code2 = 3276,
		.volt1 = 440,
		.volt2 = 1000,
        },
	[5] = { /* ch 5, external, general purpose */
		.channel = 5,
		.code1 = 1441,
		.code2 = 3276,
		.volt1 = 440,
		.volt2 = 1000,
        },
	[6] = { /* ch 6, external, general purpose */
		.channel = 6,
		.code1 = 1441,
		.code2 = 3276,
		.volt1 = 440,
		.volt2 = 1000,
        },
	[7] = { /* ch7, internal, system supply */
		.channel = 7,
		.code1 = 1441,
		.code2 = 3276,
		.volt1 = 2200,
		.volt2 = 5000,
        },
	[8] = { /* ch8, internal, backup battery */
		.channel = 8,
		.code1 = 1441,
		.code2 = 3276,
		.volt1 = 2200,
		.volt2 = 5000,
        },
	[9] = { /* ch 9, internal, external charger input */
		.channel = 9,
		.code1 = 1441,
		.code2 = 3276,
		.volt1 = 3960,
		.volt2 = 9000,
        },
	[10] = { /* ch10, internal, VBUS */
		.channel = 10,
		.code1 = 150,
		.code2 = 751,
		.volt1 = 1000,
		.volt2 = 5000,
        },
	[11] = { /* ch 11, internal, VBUS DC-DC output current */
		.channel = 11,
		.code1 = 1441,
		.code2 = 3276,
		.volt1 = 660,
		.volt2 = 1500,
        },
		/* ch 12, internal, Die temperature */
		/* ch 13, internal, Die temperature */
	[12] = { /* ch 14, internal, USB ID line */
		.channel = 14,
		.code1 = 1441,
		.code2 = 3276,
		.volt1 = 2420,
		.volt2 = 5500,
        },
		/* ch 15, internal, test network */
		/* ch 16, internal, test network */
	[13] = { /* ch 17, internal, battery charging current */
		.channel = 17,
        },
	[14] = { /* ch 18, internal, battery voltage */
		.channel = 18,
		.code1 = 1441,
		.code2 = 3276,
		.volt1 = 2200,
		.volt2 = 5000,
        },
};


static inline int twl6030_gpadc_write(u8 reg, u8 val) { return twl_i2c_write_u8(TWL6030_MODULE_GPADC, val, reg); }

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static inline int twl6030_gpadc_read(u8 reg, u8 *val) { return twl_i2c_read(TWL6030_MODULE_GPADC, val, reg, 2); }

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static int twl6030_gpadc_enable_irq(u8 mask) { int ret; ret = twl6030_interrupt_unmask(mask, REG_INT_MSK_LINE_B); if (ret < 0) return ret; ret = twl6030_interrupt_unmask(mask, REG_INT_MSK_STS_B); return ret; }

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static void twl6030_gpadc_disable_irq(u8 mask) { twl6030_interrupt_mask(mask, REG_INT_MSK_LINE_B); twl6030_interrupt_mask(mask, REG_INT_MSK_STS_B); }

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static irqreturn_t twl6030_gpadc_irq_handler(int irq, void *indio_dev) { struct twl6030_gpadc_data *gpadc = iio_priv(indio_dev); complete(&gpadc->irq_complete); return IRQ_HANDLED; }

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static int twl6030_start_conversion(int channel) { return twl6030_gpadc_write(TWL6030_GPADC_CTRL_P1, TWL6030_GPADC_CTRL_P1_SP1); }

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static int twl6032_start_conversion(int channel) { int ret; ret = twl6030_gpadc_write(TWL6032_GPADC_GPSELECT_ISB, channel); if (ret) return ret; return twl6030_gpadc_write(TWL6032_GPADC_CTRL_P1, TWL6030_GPADC_CTRL_P1_SP1); }

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static u8 twl6030_channel_to_reg(int channel) { return TWL6030_GPADC_GPCH0_LSB + 2 * channel; }

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static u8 twl6032_channel_to_reg(int channel) { /* * for any prior chosen channel, when the conversion is ready * the result is avalable in GPCH0_LSB, GPCH0_MSB. */ return TWL6032_GPADC_GPCH0_LSB; }

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static int twl6030_gpadc_lookup(const struct twl6030_ideal_code *ideal, int channel, int size) { int i; for (i = 0; i < size; i++) if (ideal[i].channel == channel) break; return i; }

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static int twl6030_channel_calibrated(const struct twl6030_gpadc_platform_data *pdata, int channel) { const struct twl6030_ideal_code *ideal = pdata->ideal; int i; i = twl6030_gpadc_lookup(ideal, channel, pdata->nchannels); /* not calibrated channels have 0 in all structure members */ return pdata->ideal[i].code2; }

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static int twl6030_gpadc_make_correction(struct twl6030_gpadc_data *gpadc, int channel, int raw_code) { const struct twl6030_ideal_code *ideal = gpadc->pdata->ideal; int corrected_code; int i; i = twl6030_gpadc_lookup(ideal, channel, gpadc->pdata->nchannels); corrected_code = ((raw_code * 1000) - gpadc->twl6030_cal_tbl[i].offset_error) / gpadc->twl6030_cal_tbl[i].gain_error; return corrected_code; }

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static int twl6030_gpadc_get_raw(struct twl6030_gpadc_data *gpadc, int channel, int *res) { u8 reg = gpadc->pdata->channel_to_reg(channel); __le16 val; int raw_code; int ret; ret = twl6030_gpadc_read(reg, (u8 *)&val); if (ret) { dev_dbg(gpadc->dev, "unable to read register 0x%X\n", reg); return ret; } raw_code = le16_to_cpu(val); dev_dbg(gpadc->dev, "GPADC raw code: %d", raw_code); if (twl6030_channel_calibrated(gpadc->pdata, channel)) *res = twl6030_gpadc_make_correction(gpadc, channel, raw_code); else *res = raw_code; return ret; }

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static int twl6030_gpadc_get_processed(struct twl6030_gpadc_data *gpadc, int channel, int *val) { const struct twl6030_ideal_code *ideal = gpadc->pdata->ideal; int corrected_code; int channel_value; int i; int ret; ret = twl6030_gpadc_get_raw(gpadc, channel, &corrected_code); if (ret) return ret; i = twl6030_gpadc_lookup(ideal, channel, gpadc->pdata->nchannels); channel_value = corrected_code * gpadc->twl6030_cal_tbl[i].gain; /* Shift back into mV range */ channel_value /= 1000; dev_dbg(gpadc->dev, "GPADC corrected code: %d", corrected_code); dev_dbg(gpadc->dev, "GPADC value: %d", channel_value); *val = channel_value; return ret; }

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static int twl6030_gpadc_read_raw(struct iio_dev *indio_dev, const struct iio_chan_spec *chan, int *val, int *val2, long mask) { struct twl6030_gpadc_data *gpadc = iio_priv(indio_dev); int ret; long timeout; mutex_lock(&gpadc->lock); ret = gpadc->pdata->start_conversion(chan->channel); if (ret) { dev_err(gpadc->dev, "failed to start conversion\n"); goto err; } /* wait for conversion to complete */ timeout = wait_for_completion_interruptible_timeout( &gpadc->irq_complete, msecs_to_jiffies(5000)); if (timeout == 0) { ret = -ETIMEDOUT; goto err; } else if (timeout < 0) { ret = -EINTR; goto err; } switch (mask) { case IIO_CHAN_INFO_RAW: ret = twl6030_gpadc_get_raw(gpadc, chan->channel, val); ret = ret ? -EIO : IIO_VAL_INT; break; case IIO_CHAN_INFO_PROCESSED: ret = twl6030_gpadc_get_processed(gpadc, chan->channel, val); ret = ret ? -EIO : IIO_VAL_INT; break; default: break; } err: mutex_unlock(&gpadc->lock); return ret; }

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/* * The GPADC channels are calibrated using a two point calibration method. * The channels measured with two known values: volt1 and volt2, and * ideal corresponding output codes are known: code1, code2. * The difference(d1, d2) between ideal and measured codes stored in trim * registers. * The goal is to find offset and gain of the real curve for each calibrated * channel. * gain: k = 1 + ((d2 - d1) / (x2 - x1)) * offset: b = d1 + (k - 1) * x1 */
static void twl6030_calibrate_channel(struct twl6030_gpadc_data *gpadc, int channel, int d1, int d2) { int b, k, gain, x1, x2, i; const struct twl6030_ideal_code *ideal = gpadc->pdata->ideal; i = twl6030_gpadc_lookup(ideal, channel, gpadc->pdata->nchannels); /* Gain */ gain = ((ideal[i].volt2 - ideal[i].volt1) * 1000) / (ideal[i].code2 - ideal[i].code1); x1 = ideal[i].code1; x2 = ideal[i].code2; /* k - real curve gain */ k = 1000 + (((d2 - d1) * 1000) / (x2 - x1)); /* b - offset of the real curve gain */ b = (d1 * 1000) - (k - 1000) * x1; gpadc->twl6030_cal_tbl[i].gain = gain; gpadc->twl6030_cal_tbl[i].gain_error = k; gpadc->twl6030_cal_tbl[i].offset_error = b; dev_dbg(gpadc->dev, "GPADC d1 for Chn: %d = %d\n", channel, d1); dev_dbg(gpadc->dev, "GPADC d2 for Chn: %d = %d\n", channel, d2); dev_dbg(gpadc->dev, "GPADC x1 for Chn: %d = %d\n", channel, x1); dev_dbg(gpadc->dev, "GPADC x2 for Chn: %d = %d\n", channel, x2); dev_dbg(gpadc->dev, "GPADC Gain for Chn: %d = %d\n", channel, gain); dev_dbg(gpadc->dev, "GPADC k for Chn: %d = %d\n", channel, k); dev_dbg(gpadc->dev, "GPADC b for Chn: %d = %d\n", channel, b); }

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static inline int twl6030_gpadc_get_trim_offset(s8 d) { /* * XXX NOTE! * bit 0 - sign, bit 7 - reserved, 6..1 - trim value * though, the documentation states that trim value * is absolute value, the correct conversion results are * obtained if the value is interpreted as 2's complement. */ __u32 temp = ((d & 0x7f) >> 1) | ((d & 1) << 6); return sign_extend32(temp, 6); }

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static int twl6030_calibration(struct twl6030_gpadc_data *gpadc) { int ret; int chn; u8 trim_regs[TWL6030_GPADC_NUM_TRIM_REGS]; s8 d1, d2; /* * for calibration two measurements have been performed at * factory, for some channels, during the production test and * have been stored in registers. This two stored values are * used to correct the measurements. The values represent * offsets for the given input from the output on ideal curve. */ ret = twl_i2c_read(TWL6030_MODULE_ID2, trim_regs, TWL6030_GPADC_TRIM1, TWL6030_GPADC_NUM_TRIM_REGS); if (ret < 0) { dev_err(gpadc->dev, "calibration failed\n"); return ret; } for (chn = 0; chn < TWL6030_GPADC_MAX_CHANNELS; chn++) { switch (chn) { case 0: d1 = trim_regs[0]; d2 = trim_regs[1]; break; case 1: case 3: case 4: case 5: case 6: d1 = trim_regs[4]; d2 = trim_regs[5]; break; case 2: d1 = trim_regs[12]; d2 = trim_regs[13]; break; case 7: d1 = trim_regs[6]; d2 = trim_regs[7]; break; case 8: d1 = trim_regs[2]; d2 = trim_regs[3]; break; case 9: d1 = trim_regs[8]; d2 = trim_regs[9]; break; case 10: d1 = trim_regs[10]; d2 = trim_regs[11]; break; case 14: d1 = trim_regs[14]; d2 = trim_regs[15]; break; default: continue; } d1 = twl6030_gpadc_get_trim_offset(d1); d2 = twl6030_gpadc_get_trim_offset(d2); twl6030_calibrate_channel(gpadc, chn, d1, d2); } return 0; }

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static int twl6032_get_trim_value(u8 *trim_regs, unsigned int reg0, unsigned int reg1, unsigned int mask0, unsigned int mask1, unsigned int shift0) { int val; val = (trim_regs[reg0] & mask0) << shift0; val |= (trim_regs[reg1] & mask1) >> 1; if (trim_regs[reg1] & 0x01) val = -val; return val; }

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static int twl6032_calibration(struct twl6030_gpadc_data *gpadc) { int chn, d1 = 0, d2 = 0, temp; u8 trim_regs[TWL6030_GPADC_NUM_TRIM_REGS]; int ret; ret = twl_i2c_read(TWL6030_MODULE_ID2, trim_regs, TWL6030_GPADC_TRIM1, TWL6030_GPADC_NUM_TRIM_REGS); if (ret < 0) { dev_err(gpadc->dev, "calibration failed\n"); return ret; } /* * Loop to calculate the value needed for returning voltages from * GPADC not values. * * gain is calculated to 3 decimal places fixed point. */ for (chn = 0; chn < TWL6032_GPADC_MAX_CHANNELS; chn++) { switch (chn) { case 0: case 1: case 2: case 3: case 4: case 5: case 6: case 11: case 14: d1 = twl6032_get_trim_value(trim_regs, 2, 0, 0x1f, 0x06, 2); d2 = twl6032_get_trim_value(trim_regs, 3, 1, 0x3f, 0x06, 2); break; case 8: temp = twl6032_get_trim_value(trim_regs, 2, 0, 0x1f, 0x06, 2); d1 = temp + twl6032_get_trim_value(trim_regs, 7, 6, 0x18, 0x1E, 1); temp = twl6032_get_trim_value(trim_regs, 3, 1, 0x3F, 0x06, 2); d2 = temp + twl6032_get_trim_value(trim_regs, 9, 7, 0x1F, 0x06, 2); break; case 9: temp = twl6032_get_trim_value(trim_regs, 2, 0, 0x1f, 0x06, 2); d1 = temp + twl6032_get_trim_value(trim_regs, 13, 11, 0x18, 0x1E, 1); temp = twl6032_get_trim_value(trim_regs, 3, 1, 0x3f, 0x06, 2); d2 = temp + twl6032_get_trim_value(trim_regs, 15, 13, 0x1F, 0x06, 1); break; case 10: d1 = twl6032_get_trim_value(trim_regs, 10, 8, 0x0f, 0x0E, 3); d2 = twl6032_get_trim_value(trim_regs, 14, 12, 0x0f, 0x0E, 3); break; case 7: case 18: temp = twl6032_get_trim_value(trim_regs, 2, 0, 0x1f, 0x06, 2); d1 = (trim_regs[4] & 0x7E) >> 1; if (trim_regs[4] & 0x01) d1 = -d1; d1 += temp; temp = twl6032_get_trim_value(trim_regs, 3, 1, 0x3f, 0x06, 2); d2 = (trim_regs[5] & 0xFE) >> 1; if (trim_regs[5] & 0x01) d2 = -d2; d2 += temp; break; default: /* No data for other channels */ continue; } twl6030_calibrate_channel(gpadc, chn, d1, d2); } return 0; }

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Oleksandr Kozaruk460100.00%1100.00%
Total460100.00%1100.00%

#define TWL6030_GPADC_CHAN(chn, _type, chan_info) { \ .type = _type, \ .channel = chn, \ .info_mask_separate = BIT(chan_info), \ .indexed = 1, \ } static const struct iio_chan_spec twl6030_gpadc_iio_channels[] = { TWL6030_GPADC_CHAN(0, IIO_VOLTAGE, IIO_CHAN_INFO_PROCESSED), TWL6030_GPADC_CHAN(1, IIO_TEMP, IIO_CHAN_INFO_RAW), TWL6030_GPADC_CHAN(2, IIO_VOLTAGE, IIO_CHAN_INFO_PROCESSED), TWL6030_GPADC_CHAN(3, IIO_VOLTAGE, IIO_CHAN_INFO_PROCESSED), TWL6030_GPADC_CHAN(4, IIO_TEMP, IIO_CHAN_INFO_RAW), TWL6030_GPADC_CHAN(5, IIO_VOLTAGE, IIO_CHAN_INFO_PROCESSED), TWL6030_GPADC_CHAN(6, IIO_VOLTAGE, IIO_CHAN_INFO_PROCESSED), TWL6030_GPADC_CHAN(7, IIO_VOLTAGE, IIO_CHAN_INFO_PROCESSED), TWL6030_GPADC_CHAN(8, IIO_VOLTAGE, IIO_CHAN_INFO_PROCESSED), TWL6030_GPADC_CHAN(9, IIO_VOLTAGE, IIO_CHAN_INFO_PROCESSED), TWL6030_GPADC_CHAN(10, IIO_VOLTAGE, IIO_CHAN_INFO_PROCESSED), TWL6030_GPADC_CHAN(11, IIO_VOLTAGE, IIO_CHAN_INFO_RAW), TWL6030_GPADC_CHAN(14, IIO_VOLTAGE, IIO_CHAN_INFO_PROCESSED), }; static const struct iio_chan_spec twl6032_gpadc_iio_channels[] = { TWL6030_GPADC_CHAN(0, IIO_VOLTAGE, IIO_CHAN_INFO_PROCESSED), TWL6030_GPADC_CHAN(1, IIO_TEMP, IIO_CHAN_INFO_RAW), TWL6030_GPADC_CHAN(2, IIO_VOLTAGE, IIO_CHAN_INFO_PROCESSED), TWL6030_GPADC_CHAN(3, IIO_VOLTAGE, IIO_CHAN_INFO_PROCESSED), TWL6030_GPADC_CHAN(4, IIO_TEMP, IIO_CHAN_INFO_RAW), TWL6030_GPADC_CHAN(5, IIO_VOLTAGE, IIO_CHAN_INFO_PROCESSED), TWL6030_GPADC_CHAN(6, IIO_VOLTAGE, IIO_CHAN_INFO_PROCESSED), TWL6030_GPADC_CHAN(7, IIO_VOLTAGE, IIO_CHAN_INFO_PROCESSED), TWL6030_GPADC_CHAN(8, IIO_VOLTAGE, IIO_CHAN_INFO_PROCESSED), TWL6030_GPADC_CHAN(9, IIO_VOLTAGE, IIO_CHAN_INFO_PROCESSED), TWL6030_GPADC_CHAN(10, IIO_VOLTAGE, IIO_CHAN_INFO_PROCESSED), TWL6030_GPADC_CHAN(11, IIO_VOLTAGE, IIO_CHAN_INFO_PROCESSED), TWL6030_GPADC_CHAN(14, IIO_VOLTAGE, IIO_CHAN_INFO_PROCESSED), TWL6030_GPADC_CHAN(17, IIO_VOLTAGE, IIO_CHAN_INFO_RAW), TWL6030_GPADC_CHAN(18, IIO_VOLTAGE, IIO_CHAN_INFO_PROCESSED), }; static const struct iio_info twl6030_gpadc_iio_info = { .read_raw = &twl6030_gpadc_read_raw, .driver_module = THIS_MODULE, }; static const struct twl6030_gpadc_platform_data twl6030_pdata = { .iio_channels = twl6030_gpadc_iio_channels, .nchannels = TWL6030_GPADC_USED_CHANNELS, .ideal = twl6030_ideal, .start_conversion = twl6030_start_conversion, .channel_to_reg = twl6030_channel_to_reg, .calibrate = twl6030_calibration, }; static const struct twl6030_gpadc_platform_data twl6032_pdata = { .iio_channels = twl6032_gpadc_iio_channels, .nchannels = TWL6032_GPADC_USED_CHANNELS, .ideal = twl6032_ideal, .start_conversion = twl6032_start_conversion, .channel_to_reg = twl6032_channel_to_reg, .calibrate = twl6032_calibration, }; static const struct of_device_id of_twl6030_match_tbl[] = { { .compatible = "ti,twl6030-gpadc", .data = &twl6030_pdata, }, { .compatible = "ti,twl6032-gpadc", .data = &twl6032_pdata, }, { /* end */ } }; MODULE_DEVICE_TABLE(of, of_twl6030_match_tbl);
static int twl6030_gpadc_probe(struct platform_device *pdev) { struct device *dev = &pdev->dev; struct twl6030_gpadc_data *gpadc; const struct twl6030_gpadc_platform_data *pdata; const struct of_device_id *match; struct iio_dev *indio_dev; int irq; int ret; match = of_match_device(of_twl6030_match_tbl, dev); if (!match) return -EINVAL; pdata = match->data; indio_dev = devm_iio_device_alloc(dev, sizeof(*gpadc)); if (!indio_dev) return -ENOMEM; gpadc = iio_priv(indio_dev); gpadc->twl6030_cal_tbl = devm_kzalloc(dev, sizeof(*gpadc->twl6030_cal_tbl) * pdata->nchannels, GFP_KERNEL); if (!gpadc->twl6030_cal_tbl) return -ENOMEM; gpadc->dev = dev; gpadc->pdata = pdata; platform_set_drvdata(pdev, indio_dev); mutex_init(&gpadc->lock); init_completion(&gpadc->irq_complete); ret = pdata->calibrate(gpadc); if (ret < 0) { dev_err(&pdev->dev, "failed to read calibration registers\n"); return ret; } irq = platform_get_irq(pdev, 0); if (irq < 0) { dev_err(&pdev->dev, "failed to get irq\n"); return irq; } ret = devm_request_threaded_irq(dev, irq, NULL, twl6030_gpadc_irq_handler, IRQF_ONESHOT, "twl6030_gpadc", indio_dev); ret = twl6030_gpadc_enable_irq(TWL6030_GPADC_RT_SW1_EOC_MASK); if (ret < 0) { dev_err(&pdev->dev, "failed to enable GPADC interrupt\n"); return ret; } ret = twl_i2c_write_u8(TWL6030_MODULE_ID1, TWL6030_GPADCS, TWL6030_REG_TOGGLE1); if (ret < 0) { dev_err(&pdev->dev, "failed to enable GPADC module\n"); return ret; } indio_dev->name = DRIVER_NAME; indio_dev->dev.parent = dev; indio_dev->info = &twl6030_gpadc_iio_info; indio_dev->modes = INDIO_DIRECT_MODE; indio_dev->channels = pdata->iio_channels; indio_dev->num_channels = pdata->nchannels; return iio_device_register(indio_dev); }

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Oleksandr Kozaruk35899.72%266.67%
Sachin Kamat10.28%133.33%
Total359100.00%3100.00%


static int twl6030_gpadc_remove(struct platform_device *pdev) { struct iio_dev *indio_dev = platform_get_drvdata(pdev); twl6030_gpadc_disable_irq(TWL6030_GPADC_RT_SW1_EOC_MASK); iio_device_unregister(indio_dev); return 0; }

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Oleksandr Kozaruk34100.00%1100.00%
Total34100.00%1100.00%

#ifdef CONFIG_PM_SLEEP
static int twl6030_gpadc_suspend(struct device *pdev) { int ret; ret = twl_i2c_write_u8(TWL6030_MODULE_ID1, TWL6030_GPADCR, TWL6030_REG_TOGGLE1); if (ret) dev_err(pdev, "error resetting GPADC (%d)!\n", ret); return 0; }

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Oleksandr Kozaruk4097.56%150.00%
Masanari Iida12.44%150.00%
Total41100.00%2100.00%

;
static int twl6030_gpadc_resume(struct device *pdev) { int ret; ret = twl_i2c_write_u8(TWL6030_MODULE_ID1, TWL6030_GPADCS, TWL6030_REG_TOGGLE1); if (ret) dev_err(pdev, "error setting GPADC (%d)!\n", ret); return 0; }

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Oleksandr Kozaruk41100.00%1100.00%
Total41100.00%1100.00%

; #endif static SIMPLE_DEV_PM_OPS(twl6030_gpadc_pm_ops, twl6030_gpadc_suspend, twl6030_gpadc_resume); static struct platform_driver twl6030_gpadc_driver = { .probe = twl6030_gpadc_probe, .remove = twl6030_gpadc_remove, .driver = { .name = DRIVER_NAME, .pm = &twl6030_gpadc_pm_ops, .of_match_table = of_twl6030_match_tbl, }, }; module_platform_driver(twl6030_gpadc_driver); MODULE_ALIAS("platform:" DRIVER_NAME); MODULE_AUTHOR("Balaji T K <balajitk@ti.com>"); MODULE_AUTHOR("Graeme Gregory <gg@slimlogic.co.uk>"); MODULE_AUTHOR("Oleksandr Kozaruk <oleksandr.kozaruk@ti.com"); MODULE_DESCRIPTION("twl6030 ADC driver"); MODULE_LICENSE("GPL");

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Oleksandr Kozaruk407499.68%228.57%
Luis de Bethencourt70.17%114.29%
Wei Yongjun30.07%114.29%
Sachin Kamat10.02%114.29%
Masanari Iida10.02%114.29%
Axel Lin10.02%114.29%
Total4087100.00%7100.00%
Directory: drivers/iio/adc
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