diff options
Diffstat (limited to 'drivers/iio/light/rohm-bu27034.c')
-rw-r--r-- | drivers/iio/light/rohm-bu27034.c | 337 |
1 files changed, 84 insertions, 253 deletions
diff --git a/drivers/iio/light/rohm-bu27034.c b/drivers/iio/light/rohm-bu27034.c index 4937bf6fa046..76711c3cdf7c 100644 --- a/drivers/iio/light/rohm-bu27034.c +++ b/drivers/iio/light/rohm-bu27034.c @@ -1,9 +1,8 @@ // SPDX-License-Identifier: GPL-2.0-only /* - * BU27034 ROHM Ambient Light Sensor + * BU27034ANUC ROHM Ambient Light Sensor * * Copyright (c) 2023, ROHM Semiconductor. - * https://fscdn.rohm.com/en/products/databook/datasheet/ic/sensor/light/bu27034nuc-e.pdf */ #include <linux/bitfield.h> @@ -30,17 +29,15 @@ #define BU27034_REG_MODE_CONTROL2 0x42 #define BU27034_MASK_D01_GAIN GENMASK(7, 3) -#define BU27034_MASK_D2_GAIN_HI GENMASK(7, 6) -#define BU27034_MASK_D2_GAIN_LO GENMASK(2, 0) #define BU27034_REG_MODE_CONTROL3 0x43 #define BU27034_REG_MODE_CONTROL4 0x44 #define BU27034_MASK_MEAS_EN BIT(0) #define BU27034_MASK_VALID BIT(7) +#define BU27034_NUM_HW_DATA_CHANS 2 #define BU27034_REG_DATA0_LO 0x50 #define BU27034_REG_DATA1_LO 0x52 -#define BU27034_REG_DATA2_LO 0x54 -#define BU27034_REG_DATA2_HI 0x55 +#define BU27034_REG_DATA1_HI 0x53 #define BU27034_REG_MANUFACTURER_ID 0x92 #define BU27034_REG_MAX BU27034_REG_MANUFACTURER_ID @@ -88,58 +85,48 @@ enum { BU27034_CHAN_ALS, BU27034_CHAN_DATA0, BU27034_CHAN_DATA1, - BU27034_CHAN_DATA2, BU27034_NUM_CHANS }; static const unsigned long bu27034_scan_masks[] = { - GENMASK(BU27034_CHAN_DATA2, BU27034_CHAN_ALS), 0 + GENMASK(BU27034_CHAN_DATA1, BU27034_CHAN_DATA0), + GENMASK(BU27034_CHAN_DATA1, BU27034_CHAN_ALS), 0 }; /* - * Available scales with gain 1x - 4096x, timings 55, 100, 200, 400 mS + * Available scales with gain 1x - 1024x, timings 55, 100, 200, 400 mS * Time impacts to gain: 1x, 2x, 4x, 8x. * - * => Max total gain is HWGAIN * gain by integration time (8 * 4096) = 32768 + * => Max total gain is HWGAIN * gain by integration time (8 * 1024) = 8192 + * if 1x gain is scale 1, scale for 2x gain is 0.5, 4x => 0.25, + * ... 8192x => 0.0001220703125 => 122070.3125 nanos * - * Using NANO precision for scale we must use scale 64x corresponding gain 1x - * to avoid precision loss. (32x would result scale 976 562.5(nanos). + * Using NANO precision for scale, we must use scale 16x corresponding gain 1x + * to avoid precision loss. (8x would result scale 976 562.5(nanos). */ -#define BU27034_SCALE_1X 64 +#define BU27034_SCALE_1X 16 /* See the data sheet for the "Gain Setting" table */ #define BU27034_GSEL_1X 0x00 /* 00000 */ #define BU27034_GSEL_4X 0x08 /* 01000 */ -#define BU27034_GSEL_16X 0x0a /* 01010 */ #define BU27034_GSEL_32X 0x0b /* 01011 */ -#define BU27034_GSEL_64X 0x0c /* 01100 */ #define BU27034_GSEL_256X 0x18 /* 11000 */ #define BU27034_GSEL_512X 0x19 /* 11001 */ #define BU27034_GSEL_1024X 0x1a /* 11010 */ -#define BU27034_GSEL_2048X 0x1b /* 11011 */ -#define BU27034_GSEL_4096X 0x1c /* 11100 */ /* Available gain settings */ static const struct iio_gain_sel_pair bu27034_gains[] = { GAIN_SCALE_GAIN(1, BU27034_GSEL_1X), GAIN_SCALE_GAIN(4, BU27034_GSEL_4X), - GAIN_SCALE_GAIN(16, BU27034_GSEL_16X), GAIN_SCALE_GAIN(32, BU27034_GSEL_32X), - GAIN_SCALE_GAIN(64, BU27034_GSEL_64X), GAIN_SCALE_GAIN(256, BU27034_GSEL_256X), GAIN_SCALE_GAIN(512, BU27034_GSEL_512X), GAIN_SCALE_GAIN(1024, BU27034_GSEL_1024X), - GAIN_SCALE_GAIN(2048, BU27034_GSEL_2048X), - GAIN_SCALE_GAIN(4096, BU27034_GSEL_4096X), }; /* - * The IC has 5 modes for sampling time. 5 mS mode is exceptional as it limits - * the data collection to data0-channel only and cuts the supported range to - * 10 bit. It is not supported by the driver. - * - * "normal" modes are 55, 100, 200 and 400 mS modes - which do have direct - * multiplying impact to the register values (similar to gain). + * Measurement modes are 55, 100, 200 and 400 mS modes - which do have direct + * multiplying impact to the data register values (similar to gain). * * This means that if meas-mode is changed for example from 400 => 200, * the scale is doubled. Eg, time impact to total gain is x1, x2, x4, x8. @@ -156,13 +143,13 @@ static const struct iio_itime_sel_mul bu27034_itimes[] = { GAIN_SCALE_ITIME_US(55000, BU27034_MEAS_MODE_55MS, 1), }; -#define BU27034_CHAN_DATA(_name, _ch2) \ +#define BU27034_CHAN_DATA(_name) \ { \ .type = IIO_INTENSITY, \ .channel = BU27034_CHAN_##_name, \ - .channel2 = (_ch2), \ .info_mask_separate = BIT(IIO_CHAN_INFO_RAW) | \ - BIT(IIO_CHAN_INFO_SCALE), \ + BIT(IIO_CHAN_INFO_SCALE) | \ + BIT(IIO_CHAN_INFO_HARDWAREGAIN), \ .info_mask_separate_available = BIT(IIO_CHAN_INFO_SCALE), \ .info_mask_shared_by_all = BIT(IIO_CHAN_INFO_INT_TIME), \ .info_mask_shared_by_all_available = \ @@ -195,13 +182,12 @@ static const struct iio_chan_spec bu27034_channels[] = { /* * The BU27034 DATA0 and DATA1 channels are both on the visible light * area (mostly). The data0 sensitivity peaks at 500nm, DATA1 at 600nm. - * These wave lengths are pretty much on the border of colours making - * these a poor candidates for R/G/B standardization. Hence they're both - * marked as clear channels + * These wave lengths are cyan(ish) and orange(ish), making these + * sub-optiomal candidates for R/G/B standardization. Hence the + * colour modifier is omitted. */ - BU27034_CHAN_DATA(DATA0, IIO_MOD_LIGHT_CLEAR), - BU27034_CHAN_DATA(DATA1, IIO_MOD_LIGHT_CLEAR), - BU27034_CHAN_DATA(DATA2, IIO_MOD_LIGHT_IR), + BU27034_CHAN_DATA(DATA0), + BU27034_CHAN_DATA(DATA1), IIO_CHAN_SOFT_TIMESTAMP(4), }; @@ -215,10 +201,10 @@ struct bu27034_data { struct mutex mutex; struct iio_gts gts; struct task_struct *task; - __le16 raw[3]; + __le16 raw[BU27034_NUM_HW_DATA_CHANS]; struct { u32 mlux; - __le16 channels[3]; + __le16 channels[BU27034_NUM_HW_DATA_CHANS]; s64 ts __aligned(8); } scan; }; @@ -232,7 +218,7 @@ static const struct regmap_range bu27034_volatile_ranges[] = { .range_max = BU27034_REG_MODE_CONTROL4, }, { .range_min = BU27034_REG_DATA0_LO, - .range_max = BU27034_REG_DATA2_HI, + .range_max = BU27034_REG_DATA1_HI, }, }; @@ -244,7 +230,7 @@ static const struct regmap_access_table bu27034_volatile_regs = { static const struct regmap_range bu27034_read_only_ranges[] = { { .range_min = BU27034_REG_DATA0_LO, - .range_max = BU27034_REG_DATA2_HI, + .range_max = BU27034_REG_DATA1_HI, }, { .range_min = BU27034_REG_MANUFACTURER_ID, .range_max = BU27034_REG_MANUFACTURER_ID, @@ -273,41 +259,17 @@ struct bu27034_gain_check { static int bu27034_get_gain_sel(struct bu27034_data *data, int chan) { + int reg[] = { + [BU27034_CHAN_DATA0] = BU27034_REG_MODE_CONTROL2, + [BU27034_CHAN_DATA1] = BU27034_REG_MODE_CONTROL3, + }; int ret, val; - switch (chan) { - case BU27034_CHAN_DATA0: - case BU27034_CHAN_DATA1: - { - int reg[] = { - [BU27034_CHAN_DATA0] = BU27034_REG_MODE_CONTROL2, - [BU27034_CHAN_DATA1] = BU27034_REG_MODE_CONTROL3, - }; - ret = regmap_read(data->regmap, reg[chan], &val); - if (ret) - return ret; - - return FIELD_GET(BU27034_MASK_D01_GAIN, val); - } - case BU27034_CHAN_DATA2: - { - int d2_lo_bits = fls(BU27034_MASK_D2_GAIN_LO); - - ret = regmap_read(data->regmap, BU27034_REG_MODE_CONTROL2, &val); - if (ret) - return ret; + ret = regmap_read(data->regmap, reg[chan], &val); + if (ret) + return ret; - /* - * The data2 channel gain is composed by 5 non continuous bits - * [7:6], [2:0]. Thus when we combine the 5-bit 'selector' - * from register value we must right shift the high bits by 3. - */ - return FIELD_GET(BU27034_MASK_D2_GAIN_HI, val) << d2_lo_bits | - FIELD_GET(BU27034_MASK_D2_GAIN_LO, val); - } - default: - return -EINVAL; - } + return FIELD_GET(BU27034_MASK_D01_GAIN, val); } static int bu27034_get_gain(struct bu27034_data *data, int chan, int *gain) @@ -390,44 +352,9 @@ static int bu27034_write_gain_sel(struct bu27034_data *data, int chan, int sel) }; int mask, val; - if (chan != BU27034_CHAN_DATA0 && chan != BU27034_CHAN_DATA1) - return -EINVAL; - val = FIELD_PREP(BU27034_MASK_D01_GAIN, sel); - mask = BU27034_MASK_D01_GAIN; - if (chan == BU27034_CHAN_DATA0) { - /* - * We keep the same gain for channel 2 as we set for channel 0 - * We can't allow them to be individually controlled because - * setting one will impact also the other. Also, if we don't - * always update both gains we may result unsupported bit - * combinations. - * - * This is not nice but this is yet another place where the - * user space must be prepared to surprizes. Namely, see chan 2 - * gain changed when chan 0 gain is changed. - * - * This is not fatal for most users though. I don't expect the - * channel 2 to be used in any generic cases - the intensity - * values provided by the sensor for IR area are not openly - * documented. Also, channel 2 is not used for visible light. - * - * So, if there is application which is written to utilize the - * channel 2 - then it is probably specifically targeted to this - * sensor and knows how to utilize those values. It is safe to - * hope such user can also cope with the gain changes. - */ - mask |= BU27034_MASK_D2_GAIN_LO; - - /* - * The D2 gain bits are directly the lowest bits of selector. - * Just do add those bits to the value - */ - val |= sel & BU27034_MASK_D2_GAIN_LO; - } - return regmap_update_bits(data->regmap, reg[chan], mask, val); } @@ -435,13 +362,6 @@ static int bu27034_set_gain(struct bu27034_data *data, int chan, int gain) { int ret; - /* - * We don't allow setting channel 2 gain as it messes up the - * gain for channel 0 - which shares the high bits - */ - if (chan != BU27034_CHAN_DATA0 && chan != BU27034_CHAN_DATA1) - return -EINVAL; - ret = iio_gts_find_sel_by_gain(&data->gts, gain); if (ret < 0) return ret; @@ -565,9 +485,6 @@ static int bu27034_set_scale(struct bu27034_data *data, int chan, int ret, time_sel, gain_sel, i; bool found = false; - if (chan == BU27034_CHAN_DATA2) - return -EINVAL; - if (chan == BU27034_CHAN_ALS) { if (val == 0 && val2 == 1000000) return 0; @@ -592,9 +509,7 @@ static int bu27034_set_scale(struct bu27034_data *data, int chan, /* * Populate information for the other channel which should also - * maintain the scale. (Due to the HW limitations the chan2 - * gets the same gain as chan0, so we only need to explicitly - * set the chan 0 and 1). + * maintain the scale. */ if (chan == BU27034_CHAN_DATA0) gain.chan = BU27034_CHAN_DATA1; @@ -608,7 +523,7 @@ static int bu27034_set_scale(struct bu27034_data *data, int chan, /* * Iterate through all the times to see if we find one which * can support requested scale for requested channel, while - * maintaining the scale for other channels + * maintaining the scale for the other channel */ for (i = 0; i < data->gts.num_itime; i++) { new_time_sel = data->gts.itime_table[i].sel; @@ -623,7 +538,7 @@ static int bu27034_set_scale(struct bu27034_data *data, int chan, if (ret) continue; - /* Can the other channel(s) maintain scale? */ + /* Can the other channel maintain scale? */ ret = iio_gts_find_new_gain_sel_by_old_gain_time( &data->gts, gain.old_gain, time_sel, new_time_sel, &gain.new_gain); @@ -635,7 +550,7 @@ static int bu27034_set_scale(struct bu27034_data *data, int chan, } if (!found) { dev_dbg(data->dev, - "Can't set scale maintaining other channels\n"); + "Can't set scale maintaining other channel\n"); ret = -EINVAL; goto unlock_out; @@ -659,102 +574,21 @@ unlock_out: } /* - * for (D1/D0 < 0.87): - * lx = 0.004521097 * D1 - 0.002663996 * D0 + - * 0.00012213 * D1 * D1 / D0 - * - * => 115.7400832 * ch1 / gain1 / mt - - * 68.1982976 * ch0 / gain0 / mt + - * 0.00012213 * 25600 * (ch1 / gain1 / mt) * 25600 * - * (ch1 /gain1 / mt) / (25600 * ch0 / gain0 / mt) - * - * A = 0.00012213 * 25600 * (ch1 /gain1 / mt) * 25600 * - * (ch1 /gain1 / mt) / (25600 * ch0 / gain0 / mt) - * => 0.00012213 * 25600 * (ch1 /gain1 / mt) * - * (ch1 /gain1 / mt) / (ch0 / gain0 / mt) - * => 0.00012213 * 25600 * (ch1 / gain1) * (ch1 /gain1 / mt) / - * (ch0 / gain0) - * => 0.00012213 * 25600 * (ch1 / gain1) * (ch1 /gain1 / mt) * - * gain0 / ch0 - * => 3.126528 * ch1 * ch1 * gain0 / gain1 / gain1 / mt /ch0 - * - * lx = (115.7400832 * ch1 / gain1 - 68.1982976 * ch0 / gain0) / - * mt + A - * => (115.7400832 * ch1 / gain1 - 68.1982976 * ch0 / gain0) / - * mt + 3.126528 * ch1 * ch1 * gain0 / gain1 / gain1 / mt / - * ch0 - * - * => (115.7400832 * ch1 / gain1 - 68.1982976 * ch0 / gain0 + - * 3.126528 * ch1 * ch1 * gain0 / gain1 / gain1 / ch0) / - * mt - * - * For (0.87 <= D1/D0 < 1.00) - * lx = (0.001331* D0 + 0.0000354 * D1) * ((D1/D0 – 0.87) * (0.385) + 1) - * => (0.001331 * 256 * 100 * ch0 / gain0 / mt + 0.0000354 * 256 * - * 100 * ch1 / gain1 / mt) * ((D1/D0 - 0.87) * (0.385) + 1) - * => (34.0736 * ch0 / gain0 / mt + 0.90624 * ch1 / gain1 / mt) * - * ((D1/D0 - 0.87) * (0.385) + 1) - * => (34.0736 * ch0 / gain0 / mt + 0.90624 * ch1 / gain1 / mt) * - * (0.385 * D1/D0 - 0.66505) - * => (34.0736 * ch0 / gain0 / mt + 0.90624 * ch1 / gain1 / mt) * - * (0.385 * 256 * 100 * ch1 / gain1 / mt / (256 * 100 * ch0 / gain0 / mt) - 0.66505) - * => (34.0736 * ch0 / gain0 / mt + 0.90624 * ch1 / gain1 / mt) * - * (9856 * ch1 / gain1 / mt / (25600 * ch0 / gain0 / mt) + 0.66505) - * => 13.118336 * ch1 / (gain1 * mt) - * + 22.66064768 * ch0 / (gain0 * mt) - * + 8931.90144 * ch1 * ch1 * gain0 / - * (25600 * ch0 * gain1 * gain1 * mt) - * + 0.602694912 * ch1 / (gain1 * mt) - * - * => [0.3489024 * ch1 * ch1 * gain0 / (ch0 * gain1 * gain1) - * + 22.66064768 * ch0 / gain0 - * + 13.721030912 * ch1 / gain1 - * ] / mt - * - * For (D1/D0 >= 1.00) + * for (D1/D0 < 1.5): + * lx = (0.001193 * D0 + (-0.0000747) * D1) * ((D1/D0 – 1.5) * (0.25) + 1) * - * lx = (0.001331* D0 + 0.0000354 * D1) * ((D1/D0 – 2.0) * (-0.05) + 1) - * => (0.001331* D0 + 0.0000354 * D1) * (-0.05D1/D0 + 1.1) - * => (0.001331 * 256 * 100 * ch0 / gain0 / mt + 0.0000354 * 256 * - * 100 * ch1 / gain1 / mt) * (-0.05D1/D0 + 1.1) - * => (34.0736 * ch0 / gain0 / mt + 0.90624 * ch1 / gain1 / mt) * - * (-0.05 * 256 * 100 * ch1 / gain1 / mt / (256 * 100 * ch0 / gain0 / mt) + 1.1) - * => (34.0736 * ch0 / gain0 / mt + 0.90624 * ch1 / gain1 / mt) * - * (-1280 * ch1 / (gain1 * mt * 25600 * ch0 / gain0 / mt) + 1.1) - * => (34.0736 * ch0 * -1280 * ch1 * gain0 * mt /( gain0 * mt * gain1 * mt * 25600 * ch0) - * + 34.0736 * 1.1 * ch0 / (gain0 * mt) - * + 0.90624 * ch1 * -1280 * ch1 *gain0 * mt / (gain1 * mt *gain1 * mt * 25600 * ch0) - * + 1.1 * 0.90624 * ch1 / (gain1 * mt) - * => -43614.208 * ch1 / (gain1 * mt * 25600) - * + 37.48096 ch0 / (gain0 * mt) - * - 1159.9872 * ch1 * ch1 * gain0 / (gain1 * gain1 * mt * 25600 * ch0) - * + 0.996864 ch1 / (gain1 * mt) - * => [ - * - 0.045312 * ch1 * ch1 * gain0 / (gain1 * gain1 * ch0) - * - 0.706816 * ch1 / gain1 - * + 37.48096 ch0 /gain0 - * ] * mt + * => -0.000745625 * D0 + 0.0002515625 * D1 + -0.000018675 * D1 * D1 / D0 * + * => (6.44 * ch1 / gain1 + 19.088 * ch0 / gain0 - + * 0.47808 * ch1 * ch1 * gain0 / gain1 / gain1 / ch0) / + * mt * - * So, the first case (D1/D0 < 0.87) can be computed to a form: + * Else + * lx = 0.001193 * D0 - 0.0000747 * D1 * - * lx = (3.126528 * ch1 * ch1 * gain0 / (ch0 * gain1 * gain1) + - * 115.7400832 * ch1 / gain1 + - * -68.1982976 * ch0 / gain0 - * / mt - * - * Second case (0.87 <= D1/D0 < 1.00) goes to form: - * - * => [0.3489024 * ch1 * ch1 * gain0 / (ch0 * gain1 * gain1) + - * 13.721030912 * ch1 / gain1 + - * 22.66064768 * ch0 / gain0 - * ] / mt - * - * Third case (D1/D0 >= 1.00) goes to form: - * => [-0.045312 * ch1 * ch1 * gain0 / (ch0 * gain1 * gain1) + - * -0.706816 * ch1 / gain1 + - * 37.48096 ch0 /(gain0 - * ] / mt + * => (1.91232 * ch1 / gain1 + 30.5408 * ch0 / gain0 + + * [0 * ch1 * ch1 * gain0 / gain1 / gain1 / ch0] ) / + * mt * * This can be unified to format: * lx = [ @@ -764,19 +598,14 @@ unlock_out: * ] / mt * * For case 1: - * A = 3.126528, - * B = 115.7400832 - * C = -68.1982976 + * A = -0.47808, + * B = 6.44, + * C = 19.088 * * For case 2: - * A = 0.3489024 - * B = 13.721030912 - * C = 22.66064768 - * - * For case 3: - * A = -0.045312 - * B = -0.706816 - * C = 37.48096 + * A = 0 + * B = 1.91232 + * C = 30.5408 */ struct bu27034_lx_coeff { @@ -881,21 +710,16 @@ static int bu27034_fixp_calc_lx(unsigned int ch0, unsigned int ch1, { static const struct bu27034_lx_coeff coeff[] = { { - .A = 31265280, /* 3.126528 */ - .B = 1157400832, /*115.7400832 */ - .C = 681982976, /* -68.1982976 */ - .is_neg = {false, false, true}, + .A = 4780800, /* -0.47808 */ + .B = 64400000, /* 6.44 */ + .C = 190880000, /* 19.088 */ + .is_neg = { true, false, false }, }, { - .A = 3489024, /* 0.3489024 */ - .B = 137210309, /* 13.721030912 */ - .C = 226606476, /* 22.66064768 */ + .A = 0, /* 0 */ + .B = 19123200, /* 1.91232 */ + .C = 305408000, /* 30.5408 */ /* All terms positive */ - }, { - .A = 453120, /* -0.045312 */ - .B = 7068160, /* -0.706816 */ - .C = 374809600, /* 37.48096 */ - .is_neg = {true, true, false}, - } + }, }; const struct bu27034_lx_coeff *c = &coeff[coeff_idx]; u64 res = 0, terms[3]; @@ -967,7 +791,6 @@ static int bu27034_read_result(struct bu27034_data *data, int chan, int *res) int reg[] = { [BU27034_CHAN_DATA0] = BU27034_REG_DATA0_LO, [BU27034_CHAN_DATA1] = BU27034_REG_DATA1_LO, - [BU27034_CHAN_DATA2] = BU27034_REG_DATA2_LO, }; int valid, ret; __le16 val; @@ -1034,7 +857,7 @@ static int bu27034_get_single_result(struct bu27034_data *data, int chan, { int ret; - if (chan < BU27034_CHAN_DATA0 || chan > BU27034_CHAN_DATA2) + if (chan < BU27034_CHAN_DATA0 || chan > BU27034_CHAN_DATA1) return -EINVAL; ret = bu27034_meas_set(data, true); @@ -1059,12 +882,10 @@ static int bu27034_get_single_result(struct bu27034_data *data, int chan, * D1 = data1/ch1_gain/meas_time_ms * 25600 * * Then: - * if (D1/D0 < 0.87) - * lx = (0.001331 * D0 + 0.0000354 * D1) * ((D1 / D0 - 0.87) * 3.45 + 1) - * else if (D1/D0 < 1) - * lx = (0.001331 * D0 + 0.0000354 * D1) * ((D1 / D0 - 0.87) * 0.385 + 1) - * else - * lx = (0.001331 * D0 + 0.0000354 * D1) * ((D1 / D0 - 2) * -0.05 + 1) + * If (D1/D0 < 1.5) + * lx = (0.001193 * D0 + (-0.0000747) * D1) * ((D1 / D0 – 1.5) * 0.25 + 1) + * Else + * lx = (0.001193 * D0 + (-0.0000747) * D1) * * We use it here. Users who have for example some colored lens * need to modify the calculation but I hope this gives a starting point for @@ -1115,12 +936,10 @@ static int bu27034_calc_mlux(struct bu27034_data *data, __le16 *res, int *val) d1_d0_ratio_scaled /= ch0 * gain1; } - if (d1_d0_ratio_scaled < 87) + if (d1_d0_ratio_scaled < 150) ret = bu27034_fixp_calc_lx(ch0, ch1, gain0, gain1, meastime, 0); - else if (d1_d0_ratio_scaled < 100) - ret = bu27034_fixp_calc_lx(ch0, ch1, gain0, gain1, meastime, 1); else - ret = bu27034_fixp_calc_lx(ch0, ch1, gain0, gain1, meastime, 2); + ret = bu27034_fixp_calc_lx(ch0, ch1, gain0, gain1, meastime, 1); if (ret < 0) return ret; @@ -1133,7 +952,7 @@ static int bu27034_calc_mlux(struct bu27034_data *data, __le16 *res, int *val) static int bu27034_get_mlux(struct bu27034_data *data, int chan, int *val) { - __le16 res[3]; + __le16 res[BU27034_NUM_HW_DATA_CHANS]; int ret; ret = bu27034_meas_set(data, true); @@ -1171,6 +990,13 @@ static int bu27034_read_raw(struct iio_dev *idev, return IIO_VAL_INT_PLUS_MICRO; + case IIO_CHAN_INFO_HARDWAREGAIN: + ret = bu27034_get_gain(data, chan->channel, val); + if (ret) + return ret; + + return IIO_VAL_INT; + case IIO_CHAN_INFO_SCALE: return bu27034_get_scale(data, chan->channel, val, val2); @@ -1215,12 +1041,17 @@ static int bu27034_write_raw_get_fmt(struct iio_dev *indio_dev, struct iio_chan_spec const *chan, long mask) { + struct bu27034_data *data = iio_priv(indio_dev); switch (mask) { case IIO_CHAN_INFO_SCALE: return IIO_VAL_INT_PLUS_NANO; case IIO_CHAN_INFO_INT_TIME: return IIO_VAL_INT_PLUS_MICRO; + case IIO_CHAN_INFO_HARDWAREGAIN: + dev_dbg(data->dev, + "HARDWAREGAIN is read-only, use scale to set\n"); + return -EINVAL; default: return -EINVAL; } @@ -1501,7 +1332,7 @@ static int bu27034_probe(struct i2c_client *i2c) } static const struct of_device_id bu27034_of_match[] = { - { .compatible = "rohm,bu27034" }, + { .compatible = "rohm,bu27034anuc" }, { } }; MODULE_DEVICE_TABLE(of, bu27034_of_match); |