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/*
* Amlogic Meson Successive Approximation Register ( SAR ) A / D Converter
*
* Copyright ( C ) 2017 Martin Blumenstingl < martin . blumenstingl @ googlemail . 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 .
*
* You should have received a copy of the GNU General Public License
* along with this program . If not , see < http : //www.gnu.org/licenses/>.
*/
# include <linux/bitfield.h>
# include <linux/clk.h>
# include <linux/clk-provider.h>
# include <linux/delay.h>
# include <linux/io.h>
# include <linux/iio/iio.h>
# include <linux/module.h>
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# include <linux/interrupt.h>
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# include <linux/of.h>
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# include <linux/of_irq.h>
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# include <linux/of_device.h>
# include <linux/platform_device.h>
# include <linux/regmap.h>
# include <linux/regulator/consumer.h>
# define MESON_SAR_ADC_REG0 0x00
# define MESON_SAR_ADC_REG0_PANEL_DETECT BIT(31)
# define MESON_SAR_ADC_REG0_BUSY_MASK GENMASK(30, 28)
# define MESON_SAR_ADC_REG0_DELTA_BUSY BIT(30)
# define MESON_SAR_ADC_REG0_AVG_BUSY BIT(29)
# define MESON_SAR_ADC_REG0_SAMPLE_BUSY BIT(28)
# define MESON_SAR_ADC_REG0_FIFO_FULL BIT(27)
# define MESON_SAR_ADC_REG0_FIFO_EMPTY BIT(26)
# define MESON_SAR_ADC_REG0_FIFO_COUNT_MASK GENMASK(25, 21)
# define MESON_SAR_ADC_REG0_ADC_BIAS_CTRL_MASK GENMASK(20, 19)
# define MESON_SAR_ADC_REG0_CURR_CHAN_ID_MASK GENMASK(18, 16)
# define MESON_SAR_ADC_REG0_ADC_TEMP_SEN_SEL BIT(15)
# define MESON_SAR_ADC_REG0_SAMPLING_STOP BIT(14)
# define MESON_SAR_ADC_REG0_CHAN_DELTA_EN_MASK GENMASK(13, 12)
# define MESON_SAR_ADC_REG0_DETECT_IRQ_POL BIT(10)
# define MESON_SAR_ADC_REG0_DETECT_IRQ_EN BIT(9)
# define MESON_SAR_ADC_REG0_FIFO_CNT_IRQ_MASK GENMASK(8, 4)
# define MESON_SAR_ADC_REG0_FIFO_IRQ_EN BIT(3)
# define MESON_SAR_ADC_REG0_SAMPLING_START BIT(2)
# define MESON_SAR_ADC_REG0_CONTINUOUS_EN BIT(1)
# define MESON_SAR_ADC_REG0_SAMPLE_ENGINE_ENABLE BIT(0)
# define MESON_SAR_ADC_CHAN_LIST 0x04
# define MESON_SAR_ADC_CHAN_LIST_MAX_INDEX_MASK GENMASK(26, 24)
# define MESON_SAR_ADC_CHAN_LIST_ENTRY_MASK(_chan) \
( GENMASK ( 2 , 0 ) < < ( ( _chan ) * 3 ) )
# define MESON_SAR_ADC_AVG_CNTL 0x08
# define MESON_SAR_ADC_AVG_CNTL_AVG_MODE_SHIFT(_chan) \
( 16 + ( ( _chan ) * 2 ) )
# define MESON_SAR_ADC_AVG_CNTL_AVG_MODE_MASK(_chan) \
( GENMASK ( 17 , 16 ) < < ( ( _chan ) * 2 ) )
# define MESON_SAR_ADC_AVG_CNTL_NUM_SAMPLES_SHIFT(_chan) \
( 0 + ( ( _chan ) * 2 ) )
# define MESON_SAR_ADC_AVG_CNTL_NUM_SAMPLES_MASK(_chan) \
( GENMASK ( 1 , 0 ) < < ( ( _chan ) * 2 ) )
# define MESON_SAR_ADC_REG3 0x0c
# define MESON_SAR_ADC_REG3_CNTL_USE_SC_DLY BIT(31)
# define MESON_SAR_ADC_REG3_CLK_EN BIT(30)
# define MESON_SAR_ADC_REG3_BL30_INITIALIZED BIT(28)
# define MESON_SAR_ADC_REG3_CTRL_CONT_RING_COUNTER_EN BIT(27)
# define MESON_SAR_ADC_REG3_CTRL_SAMPLING_CLOCK_PHASE BIT(26)
# define MESON_SAR_ADC_REG3_CTRL_CHAN7_MUX_SEL_MASK GENMASK(25, 23)
# define MESON_SAR_ADC_REG3_DETECT_EN BIT(22)
# define MESON_SAR_ADC_REG3_ADC_EN BIT(21)
# define MESON_SAR_ADC_REG3_PANEL_DETECT_COUNT_MASK GENMASK(20, 18)
# define MESON_SAR_ADC_REG3_PANEL_DETECT_FILTER_TB_MASK GENMASK(17, 16)
# define MESON_SAR_ADC_REG3_ADC_CLK_DIV_SHIFT 10
# define MESON_SAR_ADC_REG3_ADC_CLK_DIV_WIDTH 5
# define MESON_SAR_ADC_REG3_BLOCK_DLY_SEL_MASK GENMASK(9, 8)
# define MESON_SAR_ADC_REG3_BLOCK_DLY_MASK GENMASK(7, 0)
# define MESON_SAR_ADC_DELAY 0x10
# define MESON_SAR_ADC_DELAY_INPUT_DLY_SEL_MASK GENMASK(25, 24)
# define MESON_SAR_ADC_DELAY_BL30_BUSY BIT(15)
# define MESON_SAR_ADC_DELAY_KERNEL_BUSY BIT(14)
# define MESON_SAR_ADC_DELAY_INPUT_DLY_CNT_MASK GENMASK(23, 16)
# define MESON_SAR_ADC_DELAY_SAMPLE_DLY_SEL_MASK GENMASK(9, 8)
# define MESON_SAR_ADC_DELAY_SAMPLE_DLY_CNT_MASK GENMASK(7, 0)
# define MESON_SAR_ADC_LAST_RD 0x14
# define MESON_SAR_ADC_LAST_RD_LAST_CHANNEL1_MASK GENMASK(23, 16)
# define MESON_SAR_ADC_LAST_RD_LAST_CHANNEL0_MASK GENMASK(9, 0)
# define MESON_SAR_ADC_FIFO_RD 0x18
# define MESON_SAR_ADC_FIFO_RD_CHAN_ID_MASK GENMASK(14, 12)
# define MESON_SAR_ADC_FIFO_RD_SAMPLE_VALUE_MASK GENMASK(11, 0)
# define MESON_SAR_ADC_AUX_SW 0x1c
# define MESON_SAR_ADC_AUX_SW_MUX_SEL_CHAN_MASK(_chan) \
( GENMASK ( 10 , 8 ) < < ( ( ( _chan ) - 2 ) * 2 ) )
# define MESON_SAR_ADC_AUX_SW_VREF_P_MUX BIT(6)
# define MESON_SAR_ADC_AUX_SW_VREF_N_MUX BIT(5)
# define MESON_SAR_ADC_AUX_SW_MODE_SEL BIT(4)
# define MESON_SAR_ADC_AUX_SW_YP_DRIVE_SW BIT(3)
# define MESON_SAR_ADC_AUX_SW_XP_DRIVE_SW BIT(2)
# define MESON_SAR_ADC_AUX_SW_YM_DRIVE_SW BIT(1)
# define MESON_SAR_ADC_AUX_SW_XM_DRIVE_SW BIT(0)
# define MESON_SAR_ADC_CHAN_10_SW 0x20
# define MESON_SAR_ADC_CHAN_10_SW_CHAN1_MUX_SEL_MASK GENMASK(25, 23)
# define MESON_SAR_ADC_CHAN_10_SW_CHAN1_VREF_P_MUX BIT(22)
# define MESON_SAR_ADC_CHAN_10_SW_CHAN1_VREF_N_MUX BIT(21)
# define MESON_SAR_ADC_CHAN_10_SW_CHAN1_MODE_SEL BIT(20)
# define MESON_SAR_ADC_CHAN_10_SW_CHAN1_YP_DRIVE_SW BIT(19)
# define MESON_SAR_ADC_CHAN_10_SW_CHAN1_XP_DRIVE_SW BIT(18)
# define MESON_SAR_ADC_CHAN_10_SW_CHAN1_YM_DRIVE_SW BIT(17)
# define MESON_SAR_ADC_CHAN_10_SW_CHAN1_XM_DRIVE_SW BIT(16)
# define MESON_SAR_ADC_CHAN_10_SW_CHAN0_MUX_SEL_MASK GENMASK(9, 7)
# define MESON_SAR_ADC_CHAN_10_SW_CHAN0_VREF_P_MUX BIT(6)
# define MESON_SAR_ADC_CHAN_10_SW_CHAN0_VREF_N_MUX BIT(5)
# define MESON_SAR_ADC_CHAN_10_SW_CHAN0_MODE_SEL BIT(4)
# define MESON_SAR_ADC_CHAN_10_SW_CHAN0_YP_DRIVE_SW BIT(3)
# define MESON_SAR_ADC_CHAN_10_SW_CHAN0_XP_DRIVE_SW BIT(2)
# define MESON_SAR_ADC_CHAN_10_SW_CHAN0_YM_DRIVE_SW BIT(1)
# define MESON_SAR_ADC_CHAN_10_SW_CHAN0_XM_DRIVE_SW BIT(0)
# define MESON_SAR_ADC_DETECT_IDLE_SW 0x24
# define MESON_SAR_ADC_DETECT_IDLE_SW_DETECT_SW_EN BIT(26)
# define MESON_SAR_ADC_DETECT_IDLE_SW_DETECT_MUX_MASK GENMASK(25, 23)
# define MESON_SAR_ADC_DETECT_IDLE_SW_DETECT_VREF_P_MUX BIT(22)
# define MESON_SAR_ADC_DETECT_IDLE_SW_DETECT_VREF_N_MUX BIT(21)
# define MESON_SAR_ADC_DETECT_IDLE_SW_DETECT_MODE_SEL BIT(20)
# define MESON_SAR_ADC_DETECT_IDLE_SW_DETECT_YP_DRIVE_SW BIT(19)
# define MESON_SAR_ADC_DETECT_IDLE_SW_DETECT_XP_DRIVE_SW BIT(18)
# define MESON_SAR_ADC_DETECT_IDLE_SW_DETECT_YM_DRIVE_SW BIT(17)
# define MESON_SAR_ADC_DETECT_IDLE_SW_DETECT_XM_DRIVE_SW BIT(16)
# define MESON_SAR_ADC_DETECT_IDLE_SW_IDLE_MUX_SEL_MASK GENMASK(9, 7)
# define MESON_SAR_ADC_DETECT_IDLE_SW_IDLE_VREF_P_MUX BIT(6)
# define MESON_SAR_ADC_DETECT_IDLE_SW_IDLE_VREF_N_MUX BIT(5)
# define MESON_SAR_ADC_DETECT_IDLE_SW_IDLE_MODE_SEL BIT(4)
# define MESON_SAR_ADC_DETECT_IDLE_SW_IDLE_YP_DRIVE_SW BIT(3)
# define MESON_SAR_ADC_DETECT_IDLE_SW_IDLE_XP_DRIVE_SW BIT(2)
# define MESON_SAR_ADC_DETECT_IDLE_SW_IDLE_YM_DRIVE_SW BIT(1)
# define MESON_SAR_ADC_DETECT_IDLE_SW_IDLE_XM_DRIVE_SW BIT(0)
# define MESON_SAR_ADC_DELTA_10 0x28
# define MESON_SAR_ADC_DELTA_10_TEMP_SEL BIT(27)
# define MESON_SAR_ADC_DELTA_10_TS_REVE1 BIT(26)
# define MESON_SAR_ADC_DELTA_10_CHAN1_DELTA_VALUE_MASK GENMASK(25, 16)
# define MESON_SAR_ADC_DELTA_10_TS_REVE0 BIT(15)
# define MESON_SAR_ADC_DELTA_10_TS_C_SHIFT 11
# define MESON_SAR_ADC_DELTA_10_TS_C_MASK GENMASK(14, 11)
# define MESON_SAR_ADC_DELTA_10_TS_VBG_EN BIT(10)
# define MESON_SAR_ADC_DELTA_10_CHAN0_DELTA_VALUE_MASK GENMASK(9, 0)
/*
* NOTE : registers from here are undocumented ( the vendor Linux kernel driver
* and u - boot source served as reference ) . These only seem to be relevant on
* GXBB and newer .
*/
# define MESON_SAR_ADC_REG11 0x2c
# define MESON_SAR_ADC_REG11_BANDGAP_EN BIT(13)
# define MESON_SAR_ADC_REG13 0x34
# define MESON_SAR_ADC_REG13_12BIT_CALIBRATION_MASK GENMASK(13, 8)
# define MESON_SAR_ADC_MAX_FIFO_SIZE 32
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# define MESON_SAR_ADC_TIMEOUT 100 /* ms */
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/* for use with IIO_VAL_INT_PLUS_MICRO */
# define MILLION 1000000
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# define MESON_SAR_ADC_CHAN(_chan) { \
. type = IIO_VOLTAGE , \
. indexed = 1 , \
. channel = _chan , \
. info_mask_separate = BIT ( IIO_CHAN_INFO_RAW ) | \
BIT ( IIO_CHAN_INFO_AVERAGE_RAW ) , \
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. info_mask_shared_by_type = BIT ( IIO_CHAN_INFO_SCALE ) | \
BIT ( IIO_CHAN_INFO_CALIBBIAS ) | \
BIT ( IIO_CHAN_INFO_CALIBSCALE ) , \
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. datasheet_name = " SAR_ADC_CH " # _chan , \
}
/*
* TODO : the hardware supports IIO_TEMP for channel 6 as well which is
* currently not supported by this driver .
*/
static const struct iio_chan_spec meson_sar_adc_iio_channels [ ] = {
MESON_SAR_ADC_CHAN ( 0 ) ,
MESON_SAR_ADC_CHAN ( 1 ) ,
MESON_SAR_ADC_CHAN ( 2 ) ,
MESON_SAR_ADC_CHAN ( 3 ) ,
MESON_SAR_ADC_CHAN ( 4 ) ,
MESON_SAR_ADC_CHAN ( 5 ) ,
MESON_SAR_ADC_CHAN ( 6 ) ,
MESON_SAR_ADC_CHAN ( 7 ) ,
IIO_CHAN_SOFT_TIMESTAMP ( 8 ) ,
} ;
enum meson_sar_adc_avg_mode {
NO_AVERAGING = 0x0 ,
MEAN_AVERAGING = 0x1 ,
MEDIAN_AVERAGING = 0x2 ,
} ;
enum meson_sar_adc_num_samples {
ONE_SAMPLE = 0x0 ,
TWO_SAMPLES = 0x1 ,
FOUR_SAMPLES = 0x2 ,
EIGHT_SAMPLES = 0x3 ,
} ;
enum meson_sar_adc_chan7_mux_sel {
CHAN7_MUX_VSS = 0x0 ,
CHAN7_MUX_VDD_DIV4 = 0x1 ,
CHAN7_MUX_VDD_DIV2 = 0x2 ,
CHAN7_MUX_VDD_MUL3_DIV4 = 0x3 ,
CHAN7_MUX_VDD = 0x4 ,
CHAN7_MUX_CH7_INPUT = 0x7 ,
} ;
struct meson_sar_adc_data {
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bool has_bl30_integration ;
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unsigned int resolution ;
const char * name ;
} ;
struct meson_sar_adc_priv {
struct regmap * regmap ;
struct regulator * vref ;
const struct meson_sar_adc_data * data ;
struct clk * clkin ;
struct clk * core_clk ;
struct clk * sana_clk ;
struct clk * adc_sel_clk ;
struct clk * adc_clk ;
struct clk_gate clk_gate ;
struct clk * adc_div_clk ;
struct clk_divider clk_div ;
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struct completion done ;
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int calibbias ;
int calibscale ;
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} ;
static const struct regmap_config meson_sar_adc_regmap_config = {
. reg_bits = 8 ,
. val_bits = 32 ,
. reg_stride = 4 ,
. max_register = MESON_SAR_ADC_REG13 ,
} ;
static unsigned int meson_sar_adc_get_fifo_count ( struct iio_dev * indio_dev )
{
struct meson_sar_adc_priv * priv = iio_priv ( indio_dev ) ;
u32 regval ;
regmap_read ( priv - > regmap , MESON_SAR_ADC_REG0 , & regval ) ;
return FIELD_GET ( MESON_SAR_ADC_REG0_FIFO_COUNT_MASK , regval ) ;
}
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static int meson_sar_adc_calib_val ( struct iio_dev * indio_dev , int val )
{
struct meson_sar_adc_priv * priv = iio_priv ( indio_dev ) ;
int tmp ;
/* use val_calib = scale * val_raw + offset calibration function */
tmp = div_s64 ( ( s64 ) val * priv - > calibscale , MILLION ) + priv - > calibbias ;
return clamp ( tmp , 0 , ( 1 < < priv - > data - > resolution ) - 1 ) ;
}
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static int meson_sar_adc_wait_busy_clear ( struct iio_dev * indio_dev )
{
struct meson_sar_adc_priv * priv = iio_priv ( indio_dev ) ;
int regval , timeout = 10000 ;
/*
* NOTE : we need a small delay before reading the status , otherwise
* the sample engine may not have started internally ( which would
* seem to us that sampling is already finished ) .
*/
do {
udelay ( 1 ) ;
regmap_read ( priv - > regmap , MESON_SAR_ADC_REG0 , & regval ) ;
} while ( FIELD_GET ( MESON_SAR_ADC_REG0_BUSY_MASK , regval ) & & timeout - - ) ;
if ( timeout < 0 )
return - ETIMEDOUT ;
return 0 ;
}
static int meson_sar_adc_read_raw_sample ( struct iio_dev * indio_dev ,
const struct iio_chan_spec * chan ,
int * val )
{
struct meson_sar_adc_priv * priv = iio_priv ( indio_dev ) ;
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int regval , fifo_chan , fifo_val , count ;
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if ( ! wait_for_completion_timeout ( & priv - > done ,
msecs_to_jiffies ( MESON_SAR_ADC_TIMEOUT ) ) )
return - ETIMEDOUT ;
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count = meson_sar_adc_get_fifo_count ( indio_dev ) ;
if ( count ! = 1 ) {
dev_err ( & indio_dev - > dev ,
" ADC FIFO has %d element(s) instead of one \n " , count ) ;
return - EINVAL ;
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}
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regmap_read ( priv - > regmap , MESON_SAR_ADC_FIFO_RD , & regval ) ;
fifo_chan = FIELD_GET ( MESON_SAR_ADC_FIFO_RD_CHAN_ID_MASK , regval ) ;
if ( fifo_chan ! = chan - > channel ) {
dev_err ( & indio_dev - > dev ,
" ADC FIFO entry belongs to channel %d instead of %d \n " ,
fifo_chan , chan - > channel ) ;
return - EINVAL ;
}
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fifo_val = FIELD_GET ( MESON_SAR_ADC_FIFO_RD_SAMPLE_VALUE_MASK , regval ) ;
fifo_val & = GENMASK ( priv - > data - > resolution - 1 , 0 ) ;
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* val = meson_sar_adc_calib_val ( indio_dev , fifo_val ) ;
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return 0 ;
}
static void meson_sar_adc_set_averaging ( struct iio_dev * indio_dev ,
const struct iio_chan_spec * chan ,
enum meson_sar_adc_avg_mode mode ,
enum meson_sar_adc_num_samples samples )
{
struct meson_sar_adc_priv * priv = iio_priv ( indio_dev ) ;
int val , channel = chan - > channel ;
val = samples < < MESON_SAR_ADC_AVG_CNTL_NUM_SAMPLES_SHIFT ( channel ) ;
regmap_update_bits ( priv - > regmap , MESON_SAR_ADC_AVG_CNTL ,
MESON_SAR_ADC_AVG_CNTL_NUM_SAMPLES_MASK ( channel ) ,
val ) ;
val = mode < < MESON_SAR_ADC_AVG_CNTL_AVG_MODE_SHIFT ( channel ) ;
regmap_update_bits ( priv - > regmap , MESON_SAR_ADC_AVG_CNTL ,
MESON_SAR_ADC_AVG_CNTL_AVG_MODE_MASK ( channel ) , val ) ;
}
static void meson_sar_adc_enable_channel ( struct iio_dev * indio_dev ,
const struct iio_chan_spec * chan )
{
struct meson_sar_adc_priv * priv = iio_priv ( indio_dev ) ;
u32 regval ;
/*
* the SAR ADC engine allows sampling multiple channels at the same
* time . to keep it simple we ' re only working with one * internal *
* channel , which starts counting at index 0 ( which means : count = 1 ) .
*/
regval = FIELD_PREP ( MESON_SAR_ADC_CHAN_LIST_MAX_INDEX_MASK , 0 ) ;
regmap_update_bits ( priv - > regmap , MESON_SAR_ADC_CHAN_LIST ,
MESON_SAR_ADC_CHAN_LIST_MAX_INDEX_MASK , regval ) ;
/* map channel index 0 to the channel which we want to read */
regval = FIELD_PREP ( MESON_SAR_ADC_CHAN_LIST_ENTRY_MASK ( 0 ) ,
chan - > channel ) ;
regmap_update_bits ( priv - > regmap , MESON_SAR_ADC_CHAN_LIST ,
MESON_SAR_ADC_CHAN_LIST_ENTRY_MASK ( 0 ) , regval ) ;
regval = FIELD_PREP ( MESON_SAR_ADC_DETECT_IDLE_SW_DETECT_MUX_MASK ,
chan - > channel ) ;
regmap_update_bits ( priv - > regmap , MESON_SAR_ADC_DETECT_IDLE_SW ,
MESON_SAR_ADC_DETECT_IDLE_SW_DETECT_MUX_MASK ,
regval ) ;
regval = FIELD_PREP ( MESON_SAR_ADC_DETECT_IDLE_SW_IDLE_MUX_SEL_MASK ,
chan - > channel ) ;
regmap_update_bits ( priv - > regmap , MESON_SAR_ADC_DETECT_IDLE_SW ,
MESON_SAR_ADC_DETECT_IDLE_SW_IDLE_MUX_SEL_MASK ,
regval ) ;
if ( chan - > channel = = 6 )
regmap_update_bits ( priv - > regmap , MESON_SAR_ADC_DELTA_10 ,
MESON_SAR_ADC_DELTA_10_TEMP_SEL , 0 ) ;
}
static void meson_sar_adc_set_chan7_mux ( struct iio_dev * indio_dev ,
enum meson_sar_adc_chan7_mux_sel sel )
{
struct meson_sar_adc_priv * priv = iio_priv ( indio_dev ) ;
u32 regval ;
regval = FIELD_PREP ( MESON_SAR_ADC_REG3_CTRL_CHAN7_MUX_SEL_MASK , sel ) ;
regmap_update_bits ( priv - > regmap , MESON_SAR_ADC_REG3 ,
MESON_SAR_ADC_REG3_CTRL_CHAN7_MUX_SEL_MASK , regval ) ;
usleep_range ( 10 , 20 ) ;
}
static void meson_sar_adc_start_sample_engine ( struct iio_dev * indio_dev )
{
struct meson_sar_adc_priv * priv = iio_priv ( indio_dev ) ;
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reinit_completion ( & priv - > done ) ;
regmap_update_bits ( priv - > regmap , MESON_SAR_ADC_REG0 ,
MESON_SAR_ADC_REG0_FIFO_IRQ_EN ,
MESON_SAR_ADC_REG0_FIFO_IRQ_EN ) ;
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regmap_update_bits ( priv - > regmap , MESON_SAR_ADC_REG0 ,
MESON_SAR_ADC_REG0_SAMPLE_ENGINE_ENABLE ,
MESON_SAR_ADC_REG0_SAMPLE_ENGINE_ENABLE ) ;
regmap_update_bits ( priv - > regmap , MESON_SAR_ADC_REG0 ,
MESON_SAR_ADC_REG0_SAMPLING_START ,
MESON_SAR_ADC_REG0_SAMPLING_START ) ;
}
static void meson_sar_adc_stop_sample_engine ( struct iio_dev * indio_dev )
{
struct meson_sar_adc_priv * priv = iio_priv ( indio_dev ) ;
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regmap_update_bits ( priv - > regmap , MESON_SAR_ADC_REG0 ,
MESON_SAR_ADC_REG0_FIFO_IRQ_EN , 0 ) ;
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regmap_update_bits ( priv - > regmap , MESON_SAR_ADC_REG0 ,
MESON_SAR_ADC_REG0_SAMPLING_STOP ,
MESON_SAR_ADC_REG0_SAMPLING_STOP ) ;
/* wait until all modules are stopped */
meson_sar_adc_wait_busy_clear ( indio_dev ) ;
regmap_update_bits ( priv - > regmap , MESON_SAR_ADC_REG0 ,
MESON_SAR_ADC_REG0_SAMPLE_ENGINE_ENABLE , 0 ) ;
}
static int meson_sar_adc_lock ( struct iio_dev * indio_dev )
{
struct meson_sar_adc_priv * priv = iio_priv ( indio_dev ) ;
int val , timeout = 10000 ;
mutex_lock ( & indio_dev - > mlock ) ;
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if ( priv - > data - > has_bl30_integration ) {
/* prevent BL30 from using the SAR ADC while we are using it */
regmap_update_bits ( priv - > regmap , MESON_SAR_ADC_DELAY ,
MESON_SAR_ADC_DELAY_KERNEL_BUSY ,
MESON_SAR_ADC_DELAY_KERNEL_BUSY ) ;
/*
* wait until BL30 releases it ' s lock ( so we can use the SAR
* ADC )
*/
do {
udelay ( 1 ) ;
regmap_read ( priv - > regmap , MESON_SAR_ADC_DELAY , & val ) ;
} while ( val & MESON_SAR_ADC_DELAY_BL30_BUSY & & timeout - - ) ;
if ( timeout < 0 )
return - ETIMEDOUT ;
}
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return 0 ;
}
static void meson_sar_adc_unlock ( struct iio_dev * indio_dev )
{
struct meson_sar_adc_priv * priv = iio_priv ( indio_dev ) ;
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if ( priv - > data - > has_bl30_integration )
/* allow BL30 to use the SAR ADC again */
regmap_update_bits ( priv - > regmap , MESON_SAR_ADC_DELAY ,
MESON_SAR_ADC_DELAY_KERNEL_BUSY , 0 ) ;
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mutex_unlock ( & indio_dev - > mlock ) ;
}
static void meson_sar_adc_clear_fifo ( struct iio_dev * indio_dev )
{
struct meson_sar_adc_priv * priv = iio_priv ( indio_dev ) ;
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unsigned int count , tmp ;
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for ( count = 0 ; count < MESON_SAR_ADC_MAX_FIFO_SIZE ; count + + ) {
if ( ! meson_sar_adc_get_fifo_count ( indio_dev ) )
break ;
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regmap_read ( priv - > regmap , MESON_SAR_ADC_FIFO_RD , & tmp ) ;
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}
}
static int meson_sar_adc_get_sample ( struct iio_dev * indio_dev ,
const struct iio_chan_spec * chan ,
enum meson_sar_adc_avg_mode avg_mode ,
enum meson_sar_adc_num_samples avg_samples ,
int * val )
{
int ret ;
ret = meson_sar_adc_lock ( indio_dev ) ;
if ( ret )
return ret ;
/* clear the FIFO to make sure we're not reading old values */
meson_sar_adc_clear_fifo ( indio_dev ) ;
meson_sar_adc_set_averaging ( indio_dev , chan , avg_mode , avg_samples ) ;
meson_sar_adc_enable_channel ( indio_dev , chan ) ;
meson_sar_adc_start_sample_engine ( indio_dev ) ;
ret = meson_sar_adc_read_raw_sample ( indio_dev , chan , val ) ;
meson_sar_adc_stop_sample_engine ( indio_dev ) ;
meson_sar_adc_unlock ( indio_dev ) ;
if ( ret ) {
dev_warn ( indio_dev - > dev . parent ,
" failed to read sample for channel %d: %d \n " ,
chan - > channel , ret ) ;
return ret ;
}
return IIO_VAL_INT ;
}
static int meson_sar_adc_iio_info_read_raw ( struct iio_dev * indio_dev ,
const struct iio_chan_spec * chan ,
int * val , int * val2 , long mask )
{
struct meson_sar_adc_priv * priv = iio_priv ( indio_dev ) ;
int ret ;
switch ( mask ) {
case IIO_CHAN_INFO_RAW :
return meson_sar_adc_get_sample ( indio_dev , chan , NO_AVERAGING ,
ONE_SAMPLE , val ) ;
break ;
case IIO_CHAN_INFO_AVERAGE_RAW :
return meson_sar_adc_get_sample ( indio_dev , chan ,
MEAN_AVERAGING , EIGHT_SAMPLES ,
val ) ;
break ;
case IIO_CHAN_INFO_SCALE :
ret = regulator_get_voltage ( priv - > vref ) ;
if ( ret < 0 ) {
dev_err ( indio_dev - > dev . parent ,
" failed to get vref voltage: %d \n " , ret ) ;
return ret ;
}
* val = ret / 1000 ;
* val2 = priv - > data - > resolution ;
return IIO_VAL_FRACTIONAL_LOG2 ;
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case IIO_CHAN_INFO_CALIBBIAS :
* val = priv - > calibbias ;
return IIO_VAL_INT ;
case IIO_CHAN_INFO_CALIBSCALE :
* val = priv - > calibscale / MILLION ;
* val2 = priv - > calibscale % MILLION ;
return IIO_VAL_INT_PLUS_MICRO ;
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default :
return - EINVAL ;
}
}
static int meson_sar_adc_clk_init ( struct iio_dev * indio_dev ,
void __iomem * base )
{
struct meson_sar_adc_priv * priv = iio_priv ( indio_dev ) ;
struct clk_init_data init ;
const char * clk_parents [ 1 ] ;
init . name = devm_kasprintf ( & indio_dev - > dev , GFP_KERNEL , " %s#adc_div " ,
of_node_full_name ( indio_dev - > dev . of_node ) ) ;
init . flags = 0 ;
init . ops = & clk_divider_ops ;
clk_parents [ 0 ] = __clk_get_name ( priv - > clkin ) ;
init . parent_names = clk_parents ;
init . num_parents = 1 ;
priv - > clk_div . reg = base + MESON_SAR_ADC_REG3 ;
priv - > clk_div . shift = MESON_SAR_ADC_REG3_ADC_CLK_DIV_SHIFT ;
priv - > clk_div . width = MESON_SAR_ADC_REG3_ADC_CLK_DIV_WIDTH ;
priv - > clk_div . hw . init = & init ;
priv - > clk_div . flags = 0 ;
priv - > adc_div_clk = devm_clk_register ( & indio_dev - > dev ,
& priv - > clk_div . hw ) ;
if ( WARN_ON ( IS_ERR ( priv - > adc_div_clk ) ) )
return PTR_ERR ( priv - > adc_div_clk ) ;
init . name = devm_kasprintf ( & indio_dev - > dev , GFP_KERNEL , " %s#adc_en " ,
of_node_full_name ( indio_dev - > dev . of_node ) ) ;
init . flags = CLK_SET_RATE_PARENT ;
init . ops = & clk_gate_ops ;
clk_parents [ 0 ] = __clk_get_name ( priv - > adc_div_clk ) ;
init . parent_names = clk_parents ;
init . num_parents = 1 ;
priv - > clk_gate . reg = base + MESON_SAR_ADC_REG3 ;
priv - > clk_gate . bit_idx = fls ( MESON_SAR_ADC_REG3_CLK_EN ) ;
priv - > clk_gate . hw . init = & init ;
priv - > adc_clk = devm_clk_register ( & indio_dev - > dev , & priv - > clk_gate . hw ) ;
if ( WARN_ON ( IS_ERR ( priv - > adc_clk ) ) )
return PTR_ERR ( priv - > adc_clk ) ;
return 0 ;
}
static int meson_sar_adc_init ( struct iio_dev * indio_dev )
{
struct meson_sar_adc_priv * priv = iio_priv ( indio_dev ) ;
int regval , ret ;
/*
* make sure we start at CH7 input since the other muxes are only used
* for internal calibration .
*/
meson_sar_adc_set_chan7_mux ( indio_dev , CHAN7_MUX_CH7_INPUT ) ;
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if ( priv - > data - > has_bl30_integration ) {
/*
* leave sampling delay and the input clocks as configured by
* BL30 to make sure BL30 gets the values it expects when
* reading the temperature sensor .
*/
regmap_read ( priv - > regmap , MESON_SAR_ADC_REG3 , & regval ) ;
if ( regval & MESON_SAR_ADC_REG3_BL30_INITIALIZED )
return 0 ;
}
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meson_sar_adc_stop_sample_engine ( indio_dev ) ;
/* update the channel 6 MUX to select the temperature sensor */
regmap_update_bits ( priv - > regmap , MESON_SAR_ADC_REG0 ,
MESON_SAR_ADC_REG0_ADC_TEMP_SEN_SEL ,
MESON_SAR_ADC_REG0_ADC_TEMP_SEN_SEL ) ;
/* disable all channels by default */
regmap_write ( priv - > regmap , MESON_SAR_ADC_CHAN_LIST , 0x0 ) ;
regmap_update_bits ( priv - > regmap , MESON_SAR_ADC_REG3 ,
MESON_SAR_ADC_REG3_CTRL_SAMPLING_CLOCK_PHASE , 0 ) ;
regmap_update_bits ( priv - > regmap , MESON_SAR_ADC_REG3 ,
MESON_SAR_ADC_REG3_CNTL_USE_SC_DLY ,
MESON_SAR_ADC_REG3_CNTL_USE_SC_DLY ) ;
/* delay between two samples = (10+1) * 1uS */
regmap_update_bits ( priv - > regmap , MESON_SAR_ADC_DELAY ,
MESON_SAR_ADC_DELAY_INPUT_DLY_CNT_MASK ,
FIELD_PREP ( MESON_SAR_ADC_DELAY_SAMPLE_DLY_CNT_MASK ,
10 ) ) ;
regmap_update_bits ( priv - > regmap , MESON_SAR_ADC_DELAY ,
MESON_SAR_ADC_DELAY_SAMPLE_DLY_SEL_MASK ,
FIELD_PREP ( MESON_SAR_ADC_DELAY_SAMPLE_DLY_SEL_MASK ,
0 ) ) ;
/* delay between two samples = (10+1) * 1uS */
regmap_update_bits ( priv - > regmap , MESON_SAR_ADC_DELAY ,
MESON_SAR_ADC_DELAY_INPUT_DLY_CNT_MASK ,
FIELD_PREP ( MESON_SAR_ADC_DELAY_INPUT_DLY_CNT_MASK ,
10 ) ) ;
regmap_update_bits ( priv - > regmap , MESON_SAR_ADC_DELAY ,
MESON_SAR_ADC_DELAY_INPUT_DLY_SEL_MASK ,
FIELD_PREP ( MESON_SAR_ADC_DELAY_INPUT_DLY_SEL_MASK ,
1 ) ) ;
ret = clk_set_parent ( priv - > adc_sel_clk , priv - > clkin ) ;
if ( ret ) {
dev_err ( indio_dev - > dev . parent ,
" failed to set adc parent to clkin \n " ) ;
return ret ;
}
ret = clk_set_rate ( priv - > adc_clk , 1200000 ) ;
if ( ret ) {
dev_err ( indio_dev - > dev . parent ,
" failed to set adc clock rate \n " ) ;
return ret ;
}
return 0 ;
}
static int meson_sar_adc_hw_enable ( struct iio_dev * indio_dev )
{
struct meson_sar_adc_priv * priv = iio_priv ( indio_dev ) ;
int ret ;
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u32 regval ;
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ret = meson_sar_adc_lock ( indio_dev ) ;
if ( ret )
goto err_lock ;
ret = regulator_enable ( priv - > vref ) ;
if ( ret < 0 ) {
dev_err ( indio_dev - > dev . parent ,
" failed to enable vref regulator \n " ) ;
goto err_vref ;
}
ret = clk_prepare_enable ( priv - > core_clk ) ;
if ( ret ) {
dev_err ( indio_dev - > dev . parent , " failed to enable core clk \n " ) ;
goto err_core_clk ;
}
ret = clk_prepare_enable ( priv - > sana_clk ) ;
if ( ret ) {
dev_err ( indio_dev - > dev . parent , " failed to enable sana clk \n " ) ;
goto err_sana_clk ;
}
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regval = FIELD_PREP ( MESON_SAR_ADC_REG0_FIFO_CNT_IRQ_MASK , 1 ) ;
regmap_update_bits ( priv - > regmap , MESON_SAR_ADC_REG0 ,
MESON_SAR_ADC_REG0_FIFO_CNT_IRQ_MASK , regval ) ;
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regmap_update_bits ( priv - > regmap , MESON_SAR_ADC_REG11 ,
MESON_SAR_ADC_REG11_BANDGAP_EN ,
MESON_SAR_ADC_REG11_BANDGAP_EN ) ;
regmap_update_bits ( priv - > regmap , MESON_SAR_ADC_REG3 ,
MESON_SAR_ADC_REG3_ADC_EN ,
MESON_SAR_ADC_REG3_ADC_EN ) ;
udelay ( 5 ) ;
ret = clk_prepare_enable ( priv - > adc_clk ) ;
if ( ret ) {
dev_err ( indio_dev - > dev . parent , " failed to enable adc clk \n " ) ;
goto err_adc_clk ;
}
meson_sar_adc_unlock ( indio_dev ) ;
return 0 ;
err_adc_clk :
regmap_update_bits ( priv - > regmap , MESON_SAR_ADC_REG3 ,
MESON_SAR_ADC_REG3_ADC_EN , 0 ) ;
regmap_update_bits ( priv - > regmap , MESON_SAR_ADC_REG11 ,
MESON_SAR_ADC_REG11_BANDGAP_EN , 0 ) ;
clk_disable_unprepare ( priv - > sana_clk ) ;
err_sana_clk :
clk_disable_unprepare ( priv - > core_clk ) ;
err_core_clk :
regulator_disable ( priv - > vref ) ;
err_vref :
meson_sar_adc_unlock ( indio_dev ) ;
err_lock :
return ret ;
}
static int meson_sar_adc_hw_disable ( struct iio_dev * indio_dev )
{
struct meson_sar_adc_priv * priv = iio_priv ( indio_dev ) ;
int ret ;
ret = meson_sar_adc_lock ( indio_dev ) ;
if ( ret )
return ret ;
clk_disable_unprepare ( priv - > adc_clk ) ;
regmap_update_bits ( priv - > regmap , MESON_SAR_ADC_REG3 ,
MESON_SAR_ADC_REG3_ADC_EN , 0 ) ;
regmap_update_bits ( priv - > regmap , MESON_SAR_ADC_REG11 ,
MESON_SAR_ADC_REG11_BANDGAP_EN , 0 ) ;
clk_disable_unprepare ( priv - > sana_clk ) ;
clk_disable_unprepare ( priv - > core_clk ) ;
regulator_disable ( priv - > vref ) ;
meson_sar_adc_unlock ( indio_dev ) ;
return 0 ;
}
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static irqreturn_t meson_sar_adc_irq ( int irq , void * data )
{
struct iio_dev * indio_dev = data ;
struct meson_sar_adc_priv * priv = iio_priv ( indio_dev ) ;
unsigned int cnt , threshold ;
u32 regval ;
regmap_read ( priv - > regmap , MESON_SAR_ADC_REG0 , & regval ) ;
cnt = FIELD_GET ( MESON_SAR_ADC_REG0_FIFO_COUNT_MASK , regval ) ;
threshold = FIELD_GET ( MESON_SAR_ADC_REG0_FIFO_CNT_IRQ_MASK , regval ) ;
if ( cnt < threshold )
return IRQ_NONE ;
complete ( & priv - > done ) ;
return IRQ_HANDLED ;
}
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static int meson_sar_adc_calib ( struct iio_dev * indio_dev )
{
struct meson_sar_adc_priv * priv = iio_priv ( indio_dev ) ;
int ret , nominal0 , nominal1 , value0 , value1 ;
/* use points 25% and 75% for calibration */
nominal0 = ( 1 < < priv - > data - > resolution ) / 4 ;
nominal1 = ( 1 < < priv - > data - > resolution ) * 3 / 4 ;
meson_sar_adc_set_chan7_mux ( indio_dev , CHAN7_MUX_VDD_DIV4 ) ;
usleep_range ( 10 , 20 ) ;
ret = meson_sar_adc_get_sample ( indio_dev ,
& meson_sar_adc_iio_channels [ 7 ] ,
MEAN_AVERAGING , EIGHT_SAMPLES , & value0 ) ;
if ( ret < 0 )
goto out ;
meson_sar_adc_set_chan7_mux ( indio_dev , CHAN7_MUX_VDD_MUL3_DIV4 ) ;
usleep_range ( 10 , 20 ) ;
ret = meson_sar_adc_get_sample ( indio_dev ,
& meson_sar_adc_iio_channels [ 7 ] ,
MEAN_AVERAGING , EIGHT_SAMPLES , & value1 ) ;
if ( ret < 0 )
goto out ;
if ( value1 < = value0 ) {
ret = - EINVAL ;
goto out ;
}
priv - > calibscale = div_s64 ( ( nominal1 - nominal0 ) * ( s64 ) MILLION ,
value1 - value0 ) ;
priv - > calibbias = nominal0 - div_s64 ( ( s64 ) value0 * priv - > calibscale ,
MILLION ) ;
ret = 0 ;
out :
meson_sar_adc_set_chan7_mux ( indio_dev , CHAN7_MUX_CH7_INPUT ) ;
return ret ;
}
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static const struct iio_info meson_sar_adc_iio_info = {
. read_raw = meson_sar_adc_iio_info_read_raw ,
. driver_module = THIS_MODULE ,
} ;
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static const struct meson_sar_adc_data meson_sar_adc_meson8_data = {
. has_bl30_integration = false ,
. resolution = 10 ,
. name = " meson-meson8-saradc " ,
} ;
static const struct meson_sar_adc_data meson_sar_adc_meson8b_data = {
. has_bl30_integration = false ,
. resolution = 10 ,
. name = " meson-meson8b-saradc " ,
} ;
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static const struct meson_sar_adc_data meson_sar_adc_gxbb_data = {
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. has_bl30_integration = true ,
2017-01-22 21:17:13 +03:00
. resolution = 10 ,
. name = " meson-gxbb-saradc " ,
} ;
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static const struct meson_sar_adc_data meson_sar_adc_gxl_data = {
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. has_bl30_integration = true ,
2017-01-22 21:17:13 +03:00
. resolution = 12 ,
. name = " meson-gxl-saradc " ,
} ;
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static const struct meson_sar_adc_data meson_sar_adc_gxm_data = {
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. has_bl30_integration = true ,
2017-01-22 21:17:13 +03:00
. resolution = 12 ,
. name = " meson-gxm-saradc " ,
} ;
static const struct of_device_id meson_sar_adc_of_match [ ] = {
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{
. compatible = " amlogic,meson8-saradc " ,
. data = & meson_sar_adc_meson8_data ,
} ,
{
. compatible = " amlogic,meson8b-saradc " ,
. data = & meson_sar_adc_meson8b_data ,
} ,
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{
. compatible = " amlogic,meson-gxbb-saradc " ,
. data = & meson_sar_adc_gxbb_data ,
} , {
. compatible = " amlogic,meson-gxl-saradc " ,
. data = & meson_sar_adc_gxl_data ,
} , {
. compatible = " amlogic,meson-gxm-saradc " ,
. data = & meson_sar_adc_gxm_data ,
} ,
{ } ,
} ;
MODULE_DEVICE_TABLE ( of , meson_sar_adc_of_match ) ;
static int meson_sar_adc_probe ( struct platform_device * pdev )
{
struct meson_sar_adc_priv * priv ;
struct iio_dev * indio_dev ;
struct resource * res ;
void __iomem * base ;
const struct of_device_id * match ;
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int irq , ret ;
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indio_dev = devm_iio_device_alloc ( & pdev - > dev , sizeof ( * priv ) ) ;
if ( ! indio_dev ) {
dev_err ( & pdev - > dev , " failed allocating iio device \n " ) ;
return - ENOMEM ;
}
priv = iio_priv ( indio_dev ) ;
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init_completion ( & priv - > done ) ;
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match = of_match_device ( meson_sar_adc_of_match , & pdev - > dev ) ;
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if ( ! match ) {
dev_err ( & pdev - > dev , " failed to match device \n " ) ;
return - ENODEV ;
}
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priv - > data = match - > data ;
indio_dev - > name = priv - > data - > name ;
indio_dev - > dev . parent = & pdev - > dev ;
indio_dev - > dev . of_node = pdev - > dev . of_node ;
indio_dev - > modes = INDIO_DIRECT_MODE ;
indio_dev - > info = & meson_sar_adc_iio_info ;
indio_dev - > channels = meson_sar_adc_iio_channels ;
indio_dev - > num_channels = ARRAY_SIZE ( meson_sar_adc_iio_channels ) ;
res = platform_get_resource ( pdev , IORESOURCE_MEM , 0 ) ;
base = devm_ioremap_resource ( & pdev - > dev , res ) ;
if ( IS_ERR ( base ) )
return PTR_ERR ( base ) ;
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irq = irq_of_parse_and_map ( pdev - > dev . of_node , 0 ) ;
if ( ! irq )
return - EINVAL ;
ret = devm_request_irq ( & pdev - > dev , irq , meson_sar_adc_irq , IRQF_SHARED ,
dev_name ( & pdev - > dev ) , indio_dev ) ;
if ( ret )
return ret ;
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priv - > regmap = devm_regmap_init_mmio ( & pdev - > dev , base ,
& meson_sar_adc_regmap_config ) ;
if ( IS_ERR ( priv - > regmap ) )
return PTR_ERR ( priv - > regmap ) ;
priv - > clkin = devm_clk_get ( & pdev - > dev , " clkin " ) ;
if ( IS_ERR ( priv - > clkin ) ) {
dev_err ( & pdev - > dev , " failed to get clkin \n " ) ;
return PTR_ERR ( priv - > clkin ) ;
}
priv - > core_clk = devm_clk_get ( & pdev - > dev , " core " ) ;
if ( IS_ERR ( priv - > core_clk ) ) {
dev_err ( & pdev - > dev , " failed to get core clk \n " ) ;
return PTR_ERR ( priv - > core_clk ) ;
}
priv - > sana_clk = devm_clk_get ( & pdev - > dev , " sana " ) ;
if ( IS_ERR ( priv - > sana_clk ) ) {
if ( PTR_ERR ( priv - > sana_clk ) = = - ENOENT ) {
priv - > sana_clk = NULL ;
} else {
dev_err ( & pdev - > dev , " failed to get sana clk \n " ) ;
return PTR_ERR ( priv - > sana_clk ) ;
}
}
priv - > adc_clk = devm_clk_get ( & pdev - > dev , " adc_clk " ) ;
if ( IS_ERR ( priv - > adc_clk ) ) {
if ( PTR_ERR ( priv - > adc_clk ) = = - ENOENT ) {
priv - > adc_clk = NULL ;
} else {
dev_err ( & pdev - > dev , " failed to get adc clk \n " ) ;
return PTR_ERR ( priv - > adc_clk ) ;
}
}
priv - > adc_sel_clk = devm_clk_get ( & pdev - > dev , " adc_sel " ) ;
if ( IS_ERR ( priv - > adc_sel_clk ) ) {
if ( PTR_ERR ( priv - > adc_sel_clk ) = = - ENOENT ) {
priv - > adc_sel_clk = NULL ;
} else {
dev_err ( & pdev - > dev , " failed to get adc_sel clk \n " ) ;
return PTR_ERR ( priv - > adc_sel_clk ) ;
}
}
/* on pre-GXBB SoCs the SAR ADC itself provides the ADC clock: */
if ( ! priv - > adc_clk ) {
ret = meson_sar_adc_clk_init ( indio_dev , base ) ;
if ( ret )
return ret ;
}
priv - > vref = devm_regulator_get ( & pdev - > dev , " vref " ) ;
if ( IS_ERR ( priv - > vref ) ) {
dev_err ( & pdev - > dev , " failed to get vref regulator \n " ) ;
return PTR_ERR ( priv - > vref ) ;
}
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priv - > calibscale = MILLION ;
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ret = meson_sar_adc_init ( indio_dev ) ;
if ( ret )
goto err ;
ret = meson_sar_adc_hw_enable ( indio_dev ) ;
if ( ret )
goto err ;
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ret = meson_sar_adc_calib ( indio_dev ) ;
if ( ret )
dev_warn ( & pdev - > dev , " calibration failed \n " ) ;
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platform_set_drvdata ( pdev , indio_dev ) ;
ret = iio_device_register ( indio_dev ) ;
if ( ret )
goto err_hw ;
return 0 ;
err_hw :
meson_sar_adc_hw_disable ( indio_dev ) ;
err :
return ret ;
}
static int meson_sar_adc_remove ( struct platform_device * pdev )
{
struct iio_dev * indio_dev = platform_get_drvdata ( pdev ) ;
iio_device_unregister ( indio_dev ) ;
return meson_sar_adc_hw_disable ( indio_dev ) ;
}
static int __maybe_unused meson_sar_adc_suspend ( struct device * dev )
{
struct iio_dev * indio_dev = dev_get_drvdata ( dev ) ;
return meson_sar_adc_hw_disable ( indio_dev ) ;
}
static int __maybe_unused meson_sar_adc_resume ( struct device * dev )
{
struct iio_dev * indio_dev = dev_get_drvdata ( dev ) ;
return meson_sar_adc_hw_enable ( indio_dev ) ;
}
static SIMPLE_DEV_PM_OPS ( meson_sar_adc_pm_ops ,
meson_sar_adc_suspend , meson_sar_adc_resume ) ;
static struct platform_driver meson_sar_adc_driver = {
. probe = meson_sar_adc_probe ,
. remove = meson_sar_adc_remove ,
. driver = {
. name = " meson-saradc " ,
. of_match_table = meson_sar_adc_of_match ,
. pm = & meson_sar_adc_pm_ops ,
} ,
} ;
module_platform_driver ( meson_sar_adc_driver ) ;
MODULE_AUTHOR ( " Martin Blumenstingl <martin.blumenstingl@googlemail.com> " ) ;
MODULE_DESCRIPTION ( " Amlogic Meson SAR ADC driver " ) ;
MODULE_LICENSE ( " GPL v2 " ) ;
