| Author | Tokens | Token Proportion | Commits | Commit Proportion |
|---|---|---|---|---|
| Angelo G. Del Regno | 5145 | 99.98% | 5 | 83.33% |
| David Lechner | 1 | 0.02% | 1 | 16.67% |
| Total | 5146 | 6 |
// SPDX-License-Identifier: GPL-2.0-only /* * MediaTek MT6359 PMIC AUXADC IIO driver * * Copyright (c) 2021 MediaTek Inc. * Copyright (c) 2024 Collabora Ltd * Author: AngeloGioacchino Del Regno <angelogioacchino.delregno@collabora.com> */ #include <linux/bitfield.h> #include <linux/bits.h> #include <linux/cleanup.h> #include <linux/delay.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/types.h> #include <linux/iio/iio.h> #include <linux/mfd/mt6397/core.h> #include <dt-bindings/iio/adc/mediatek,mt6357-auxadc.h> #include <dt-bindings/iio/adc/mediatek,mt6358-auxadc.h> #include <dt-bindings/iio/adc/mediatek,mt6359-auxadc.h> #include <dt-bindings/iio/adc/mediatek,mt6363-auxadc.h> #define AUXADC_AVG_TIME_US 10 #define AUXADC_POLL_DELAY_US 100 #define AUXADC_TIMEOUT_US 32000 #define IMP_STOP_DELAY_US 150 #define IMP_POLL_DELAY_US 1000 /* For PMIC_RG_RESET_VAL and MT6358_IMP0_CLEAR, the bits specific purpose is unknown. */ #define PMIC_RG_RESET_VAL (BIT(0) | BIT(3)) #define PMIC_AUXADC_RDY_BIT BIT(15) #define MT6357_IMP_ADC_NUM 30 #define MT6358_IMP_ADC_NUM 28 #define MT6358_DCM_CK_SW_EN GENMASK(1, 0) #define MT6358_IMP0_CLEAR (BIT(14) | BIT(7)) #define MT6358_IMP0_IRQ_RDY BIT(8) #define MT6358_IMP1_AUTOREPEAT_EN BIT(15) #define MT6359_IMP0_CONV_EN BIT(0) #define MT6359_IMP1_IRQ_RDY BIT(15) #define MT6363_EXT_CHAN_MASK GENMASK(2, 0) #define MT6363_EXT_PURES_MASK GENMASK(4, 3) #define MT6363_PULLUP_RES_100K 0 #define MT6363_PULLUP_RES_30K 1 #define MT6363_PULLUP_RES_OPEN 3 enum mtk_pmic_auxadc_regs { PMIC_AUXADC_ADC0, PMIC_AUXADC_DCM_CON, PMIC_AUXADC_IMP0, PMIC_AUXADC_IMP1, PMIC_AUXADC_IMP3, PMIC_AUXADC_RQST0, PMIC_AUXADC_RQST1, PMIC_AUXADC_RQST3, PMIC_AUXADC_SDMADC_CON0, PMIC_HK_TOP_WKEY, PMIC_HK_TOP_RST_CON0, PMIC_FGADC_R_CON0, PMIC_AUXADC_REGS_MAX }; enum mtk_pmic_auxadc_channels { PMIC_AUXADC_CHAN_BATADC, PMIC_AUXADC_CHAN_ISENSE, PMIC_AUXADC_CHAN_VCDT, PMIC_AUXADC_CHAN_BAT_TEMP, PMIC_AUXADC_CHAN_BATID, PMIC_AUXADC_CHAN_CHIP_TEMP, PMIC_AUXADC_CHAN_VCORE_TEMP, PMIC_AUXADC_CHAN_VPROC_TEMP, PMIC_AUXADC_CHAN_VGPU_TEMP, PMIC_AUXADC_CHAN_ACCDET, PMIC_AUXADC_CHAN_VDCXO, PMIC_AUXADC_CHAN_TSX_TEMP, PMIC_AUXADC_CHAN_HPOFS_CAL, PMIC_AUXADC_CHAN_DCXO_TEMP, PMIC_AUXADC_CHAN_VTREF, PMIC_AUXADC_CHAN_VBIF, PMIC_AUXADC_CHAN_VSYSSNS, PMIC_AUXADC_CHAN_VIN1, PMIC_AUXADC_CHAN_VIN2, PMIC_AUXADC_CHAN_VIN3, PMIC_AUXADC_CHAN_VIN4, PMIC_AUXADC_CHAN_VIN5, PMIC_AUXADC_CHAN_VIN6, PMIC_AUXADC_CHAN_VIN7, PMIC_AUXADC_CHAN_IBAT, PMIC_AUXADC_CHAN_VBAT, PMIC_AUXADC_CHAN_MAX }; /** * struct mt6359_auxadc - Main driver structure * @dev: Device pointer * @regmap: Regmap from SoC PMIC Wrapper * @chip_info: PMIC specific chip info * @lock: Mutex to serialize AUXADC reading vs configuration * @timed_out: Signals whether the last read timed out */ struct mt6359_auxadc { struct device *dev; struct regmap *regmap; const struct mtk_pmic_auxadc_info *chip_info; struct mutex lock; bool timed_out; }; /** * struct mtk_pmic_auxadc_chan - PMIC AUXADC channel data * @req_idx: Request register number * @req_mask: Bitmask to activate a channel * @rdy_idx: Readiness register number * @rdy_mask: Bitmask to determine channel readiness * @ext_sel_idx: PMIC GPIO channel register number * @ext_sel_ch: PMIC GPIO number * @ext_sel_pu: PMIC GPIO channel pullup resistor selector * @num_samples: Number of AUXADC samples for averaging * @r_ratio: Resistance ratio fractional */ struct mtk_pmic_auxadc_chan { u8 req_idx; u16 req_mask; u8 rdy_idx; u16 rdy_mask; s8 ext_sel_idx; u8 ext_sel_ch; u8 ext_sel_pu; u16 num_samples; struct u8_fract r_ratio; }; /** * struct mtk_pmic_auxadc_info - PMIC specific chip info * @model_name: PMIC model name * @channels: IIO specification of ADC channels * @num_channels: Number of ADC channels * @desc: PMIC AUXADC channel data * @regs: List of PMIC specific registers * @sec_unlock_key: Security unlock key for HK_TOP writes * @vref_mV: AUXADC Reference Voltage (VREF) in millivolts * @imp_adc_num: ADC channel for battery impedance readings * @is_spmi: Defines whether this PMIC communicates over SPMI * @no_reset: If true, this PMIC does not support ADC reset * @read_imp: Callback to read impedance channels */ struct mtk_pmic_auxadc_info { const char *model_name; const struct iio_chan_spec *channels; u8 num_channels; const struct mtk_pmic_auxadc_chan *desc; const u16 *regs; u16 sec_unlock_key; u32 vref_mV; u8 imp_adc_num; bool is_spmi; bool no_reset; int (*read_imp)(struct mt6359_auxadc *adc_dev, const struct iio_chan_spec *chan, int *vbat, int *ibat); }; #define MTK_PMIC_ADC_EXT_CHAN(_ch_idx, _req_idx, _req_bit, _rdy_idx, _rdy_bit, \ _ext_sel_idx, _ext_sel_ch, _ext_sel_pu, \ _samples, _rnum, _rdiv) \ [PMIC_AUXADC_CHAN_##_ch_idx] = { \ .req_idx = _req_idx, \ .req_mask = BIT(_req_bit), \ .rdy_idx = _rdy_idx, \ .rdy_mask = BIT(_rdy_bit), \ .ext_sel_idx = _ext_sel_idx, \ .ext_sel_ch = _ext_sel_ch, \ .ext_sel_pu = _ext_sel_pu, \ .num_samples = _samples, \ .r_ratio = { _rnum, _rdiv } \ } #define MTK_PMIC_ADC_CHAN(_ch_idx, _req_idx, _req_bit, _rdy_idx, _rdy_bit, \ _samples, _rnum, _rdiv) \ MTK_PMIC_ADC_EXT_CHAN(_ch_idx, _req_idx, _req_bit, _rdy_idx, _rdy_bit, \ -1, 0, 0, _samples, _rnum, _rdiv) #define MTK_PMIC_IIO_CHAN(_model, _name, _ch_idx, _adc_idx, _nbits, _ch_type) \ { \ .type = _ch_type, \ .channel = _model##_AUXADC_##_ch_idx, \ .address = _adc_idx, \ .scan_index = PMIC_AUXADC_CHAN_##_ch_idx, \ .datasheet_name = __stringify(_name), \ .scan_type = { \ .sign = 'u', \ .realbits = _nbits, \ .storagebits = 16, \ .endianness = IIO_CPU \ }, \ .indexed = 1, \ .info_mask_separate = BIT(IIO_CHAN_INFO_RAW) | BIT(IIO_CHAN_INFO_SCALE) \ } static const struct iio_chan_spec mt6357_auxadc_channels[] = { MTK_PMIC_IIO_CHAN(MT6357, bat_adc, BATADC, 0, 15, IIO_RESISTANCE), MTK_PMIC_IIO_CHAN(MT6357, isense, ISENSE, 1, 12, IIO_CURRENT), MTK_PMIC_IIO_CHAN(MT6357, cdt_v, VCDT, 2, 12, IIO_TEMP), MTK_PMIC_IIO_CHAN(MT6357, batt_temp, BAT_TEMP, 3, 12, IIO_TEMP), MTK_PMIC_IIO_CHAN(MT6357, chip_temp, CHIP_TEMP, 4, 12, IIO_TEMP), MTK_PMIC_IIO_CHAN(MT6357, acc_det, ACCDET, 5, 12, IIO_RESISTANCE), MTK_PMIC_IIO_CHAN(MT6357, dcxo_v, VDCXO, 6, 12, IIO_VOLTAGE), MTK_PMIC_IIO_CHAN(MT6357, tsx_temp, TSX_TEMP, 7, 15, IIO_TEMP), MTK_PMIC_IIO_CHAN(MT6357, hp_ofs_cal, HPOFS_CAL, 9, 15, IIO_RESISTANCE), MTK_PMIC_IIO_CHAN(MT6357, dcxo_temp, DCXO_TEMP, 36, 15, IIO_TEMP), MTK_PMIC_IIO_CHAN(MT6357, vcore_temp, VCORE_TEMP, 40, 12, IIO_TEMP), MTK_PMIC_IIO_CHAN(MT6357, vproc_temp, VPROC_TEMP, 41, 12, IIO_TEMP), /* Battery impedance channels */ MTK_PMIC_IIO_CHAN(MT6357, batt_v, VBAT, 0, 15, IIO_VOLTAGE), }; static const struct mtk_pmic_auxadc_chan mt6357_auxadc_ch_desc[] = { MTK_PMIC_ADC_CHAN(BATADC, PMIC_AUXADC_RQST0, 0, PMIC_AUXADC_IMP0, 8, 128, 3, 1), MTK_PMIC_ADC_CHAN(ISENSE, PMIC_AUXADC_RQST0, 0, PMIC_AUXADC_IMP0, 8, 128, 3, 1), MTK_PMIC_ADC_CHAN(VCDT, PMIC_AUXADC_RQST0, 0, PMIC_AUXADC_IMP0, 8, 8, 1, 1), MTK_PMIC_ADC_CHAN(BAT_TEMP, PMIC_AUXADC_RQST0, 3, PMIC_AUXADC_IMP0, 8, 8, 1, 1), MTK_PMIC_ADC_CHAN(CHIP_TEMP, PMIC_AUXADC_RQST0, 4, PMIC_AUXADC_IMP0, 8, 8, 1, 1), MTK_PMIC_ADC_CHAN(ACCDET, PMIC_AUXADC_RQST0, 5, PMIC_AUXADC_IMP0, 8, 8, 1, 1), MTK_PMIC_ADC_CHAN(TSX_TEMP, PMIC_AUXADC_RQST0, 7, PMIC_AUXADC_IMP0, 8, 128, 1, 1), MTK_PMIC_ADC_CHAN(HPOFS_CAL, PMIC_AUXADC_RQST0, 9, PMIC_AUXADC_IMP0, 8, 256, 1, 1), MTK_PMIC_ADC_CHAN(DCXO_TEMP, PMIC_AUXADC_RQST0, 10, PMIC_AUXADC_IMP0, 8, 16, 1, 1), MTK_PMIC_ADC_CHAN(VBIF, PMIC_AUXADC_RQST0, 11, PMIC_AUXADC_IMP0, 8, 8, 1, 1), MTK_PMIC_ADC_CHAN(VCORE_TEMP, PMIC_AUXADC_RQST1, 5, PMIC_AUXADC_IMP0, 8, 8, 1, 1), MTK_PMIC_ADC_CHAN(VPROC_TEMP, PMIC_AUXADC_RQST1, 6, PMIC_AUXADC_IMP0, 8, 8, 1, 1), /* Battery impedance channels */ MTK_PMIC_ADC_CHAN(VBAT, 0, 0, PMIC_AUXADC_IMP0, 8, 128, 3, 1), }; static const u16 mt6357_auxadc_regs[] = { [PMIC_HK_TOP_RST_CON0] = 0x0f90, [PMIC_AUXADC_DCM_CON] = 0x122e, [PMIC_AUXADC_ADC0] = 0x1088, [PMIC_AUXADC_IMP0] = 0x119c, [PMIC_AUXADC_IMP1] = 0x119e, [PMIC_AUXADC_RQST0] = 0x110e, [PMIC_AUXADC_RQST1] = 0x1114, }; static const struct iio_chan_spec mt6358_auxadc_channels[] = { MTK_PMIC_IIO_CHAN(MT6358, bat_adc, BATADC, 0, 15, IIO_RESISTANCE), MTK_PMIC_IIO_CHAN(MT6358, cdt_v, VCDT, 2, 12, IIO_TEMP), MTK_PMIC_IIO_CHAN(MT6358, batt_temp, BAT_TEMP, 3, 12, IIO_TEMP), MTK_PMIC_IIO_CHAN(MT6358, chip_temp, CHIP_TEMP, 4, 12, IIO_TEMP), MTK_PMIC_IIO_CHAN(MT6358, acc_det, ACCDET, 5, 12, IIO_RESISTANCE), MTK_PMIC_IIO_CHAN(MT6358, dcxo_v, VDCXO, 6, 12, IIO_VOLTAGE), MTK_PMIC_IIO_CHAN(MT6358, tsx_temp, TSX_TEMP, 7, 15, IIO_TEMP), MTK_PMIC_IIO_CHAN(MT6358, hp_ofs_cal, HPOFS_CAL, 9, 15, IIO_RESISTANCE), MTK_PMIC_IIO_CHAN(MT6358, dcxo_temp, DCXO_TEMP, 10, 15, IIO_TEMP), MTK_PMIC_IIO_CHAN(MT6358, bif_v, VBIF, 11, 12, IIO_VOLTAGE), MTK_PMIC_IIO_CHAN(MT6358, vcore_temp, VCORE_TEMP, 38, 12, IIO_TEMP), MTK_PMIC_IIO_CHAN(MT6358, vproc_temp, VPROC_TEMP, 39, 12, IIO_TEMP), MTK_PMIC_IIO_CHAN(MT6358, vgpu_temp, VGPU_TEMP, 40, 12, IIO_TEMP), /* Battery impedance channels */ MTK_PMIC_IIO_CHAN(MT6358, batt_v, VBAT, 0, 15, IIO_VOLTAGE), }; static const struct mtk_pmic_auxadc_chan mt6358_auxadc_ch_desc[] = { MTK_PMIC_ADC_CHAN(BATADC, PMIC_AUXADC_RQST0, 0, PMIC_AUXADC_IMP0, 8, 128, 3, 1), MTK_PMIC_ADC_CHAN(VCDT, PMIC_AUXADC_RQST0, 0, PMIC_AUXADC_IMP0, 8, 8, 1, 1), MTK_PMIC_ADC_CHAN(BAT_TEMP, PMIC_AUXADC_RQST0, 3, PMIC_AUXADC_IMP0, 8, 8, 2, 1), MTK_PMIC_ADC_CHAN(CHIP_TEMP, PMIC_AUXADC_RQST0, 4, PMIC_AUXADC_IMP0, 8, 8, 1, 1), MTK_PMIC_ADC_CHAN(ACCDET, PMIC_AUXADC_RQST0, 5, PMIC_AUXADC_IMP0, 8, 8, 1, 1), MTK_PMIC_ADC_CHAN(VDCXO, PMIC_AUXADC_RQST0, 6, PMIC_AUXADC_IMP0, 8, 8, 3, 2), MTK_PMIC_ADC_CHAN(TSX_TEMP, PMIC_AUXADC_RQST0, 7, PMIC_AUXADC_IMP0, 8, 128, 1, 1), MTK_PMIC_ADC_CHAN(HPOFS_CAL, PMIC_AUXADC_RQST0, 9, PMIC_AUXADC_IMP0, 8, 256, 1, 1), MTK_PMIC_ADC_CHAN(DCXO_TEMP, PMIC_AUXADC_RQST0, 10, PMIC_AUXADC_IMP0, 8, 16, 1, 1), MTK_PMIC_ADC_CHAN(VBIF, PMIC_AUXADC_RQST0, 11, PMIC_AUXADC_IMP0, 8, 8, 2, 1), MTK_PMIC_ADC_CHAN(VCORE_TEMP, PMIC_AUXADC_RQST1, 8, PMIC_AUXADC_IMP0, 8, 8, 1, 1), MTK_PMIC_ADC_CHAN(VPROC_TEMP, PMIC_AUXADC_RQST1, 9, PMIC_AUXADC_IMP0, 8, 8, 1, 1), MTK_PMIC_ADC_CHAN(VGPU_TEMP, PMIC_AUXADC_RQST1, 10, PMIC_AUXADC_IMP0, 8, 8, 1, 1), /* Battery impedance channels */ MTK_PMIC_ADC_CHAN(VBAT, 0, 0, PMIC_AUXADC_IMP0, 8, 128, 7, 2), }; static const u16 mt6358_auxadc_regs[] = { [PMIC_HK_TOP_RST_CON0] = 0x0f90, [PMIC_AUXADC_DCM_CON] = 0x1260, [PMIC_AUXADC_ADC0] = 0x1088, [PMIC_AUXADC_IMP0] = 0x1208, [PMIC_AUXADC_IMP1] = 0x120a, [PMIC_AUXADC_RQST0] = 0x1108, [PMIC_AUXADC_RQST1] = 0x110a, }; static const struct iio_chan_spec mt6359_auxadc_channels[] = { MTK_PMIC_IIO_CHAN(MT6359, bat_adc, BATADC, 0, 15, IIO_RESISTANCE), MTK_PMIC_IIO_CHAN(MT6359, batt_temp, BAT_TEMP, 3, 12, IIO_TEMP), MTK_PMIC_IIO_CHAN(MT6359, chip_temp, CHIP_TEMP, 4, 12, IIO_TEMP), MTK_PMIC_IIO_CHAN(MT6359, acc_det, ACCDET, 5, 12, IIO_RESISTANCE), MTK_PMIC_IIO_CHAN(MT6359, dcxo_v, VDCXO, 6, 12, IIO_VOLTAGE), MTK_PMIC_IIO_CHAN(MT6359, tsx_temp, TSX_TEMP, 7, 15, IIO_TEMP), MTK_PMIC_IIO_CHAN(MT6359, hp_ofs_cal, HPOFS_CAL, 9, 15, IIO_RESISTANCE), MTK_PMIC_IIO_CHAN(MT6359, dcxo_temp, DCXO_TEMP, 10, 15, IIO_TEMP), MTK_PMIC_IIO_CHAN(MT6359, bif_v, VBIF, 11, 12, IIO_VOLTAGE), MTK_PMIC_IIO_CHAN(MT6359, vcore_temp, VCORE_TEMP, 30, 12, IIO_TEMP), MTK_PMIC_IIO_CHAN(MT6359, vproc_temp, VPROC_TEMP, 31, 12, IIO_TEMP), MTK_PMIC_IIO_CHAN(MT6359, vgpu_temp, VGPU_TEMP, 32, 12, IIO_TEMP), /* Battery impedance channels */ MTK_PMIC_IIO_CHAN(MT6359, batt_v, VBAT, 0, 15, IIO_VOLTAGE), MTK_PMIC_IIO_CHAN(MT6359, batt_i, IBAT, 0, 15, IIO_CURRENT), }; static const struct mtk_pmic_auxadc_chan mt6359_auxadc_ch_desc[] = { MTK_PMIC_ADC_CHAN(BATADC, PMIC_AUXADC_RQST0, 0, PMIC_AUXADC_IMP1, 15, 128, 7, 2), MTK_PMIC_ADC_CHAN(BAT_TEMP, PMIC_AUXADC_RQST0, 3, PMIC_AUXADC_IMP1, 15, 8, 5, 2), MTK_PMIC_ADC_CHAN(CHIP_TEMP, PMIC_AUXADC_RQST0, 4, PMIC_AUXADC_IMP1, 15, 8, 1, 1), MTK_PMIC_ADC_CHAN(ACCDET, PMIC_AUXADC_RQST0, 5, PMIC_AUXADC_IMP1, 15 ,8, 1, 1), MTK_PMIC_ADC_CHAN(VDCXO, PMIC_AUXADC_RQST0, 6, PMIC_AUXADC_IMP1, 15, 8, 3, 2), MTK_PMIC_ADC_CHAN(TSX_TEMP, PMIC_AUXADC_RQST0, 7, PMIC_AUXADC_IMP1, 15, 128, 1, 1), MTK_PMIC_ADC_CHAN(HPOFS_CAL, PMIC_AUXADC_RQST0, 9, PMIC_AUXADC_IMP1, 15, 256, 1, 1), MTK_PMIC_ADC_CHAN(DCXO_TEMP, PMIC_AUXADC_RQST0, 10, PMIC_AUXADC_IMP1, 15, 16, 1, 1), MTK_PMIC_ADC_CHAN(VBIF, PMIC_AUXADC_RQST0, 11, PMIC_AUXADC_IMP1, 15, 8, 5, 2), MTK_PMIC_ADC_CHAN(VCORE_TEMP, PMIC_AUXADC_RQST1, 8, PMIC_AUXADC_IMP1, 15, 8, 1, 1), MTK_PMIC_ADC_CHAN(VPROC_TEMP, PMIC_AUXADC_RQST1, 9, PMIC_AUXADC_IMP1, 15, 8, 1, 1), MTK_PMIC_ADC_CHAN(VGPU_TEMP, PMIC_AUXADC_RQST1, 10, PMIC_AUXADC_IMP1, 15, 8, 1, 1), /* Battery impedance channels */ MTK_PMIC_ADC_CHAN(VBAT, 0, 0, PMIC_AUXADC_IMP1, 15, 128, 7, 2), MTK_PMIC_ADC_CHAN(IBAT, 0, 0, PMIC_AUXADC_IMP1, 15, 128, 7, 2), }; static const u16 mt6359_auxadc_regs[] = { [PMIC_FGADC_R_CON0] = 0x0d88, [PMIC_HK_TOP_WKEY] = 0x0fb4, [PMIC_HK_TOP_RST_CON0] = 0x0f90, [PMIC_AUXADC_RQST0] = 0x1108, [PMIC_AUXADC_RQST1] = 0x110a, [PMIC_AUXADC_ADC0] = 0x1088, [PMIC_AUXADC_IMP0] = 0x1208, [PMIC_AUXADC_IMP1] = 0x120a, [PMIC_AUXADC_IMP3] = 0x120e, }; static const struct iio_chan_spec mt6363_auxadc_channels[] = { MTK_PMIC_IIO_CHAN(MT6363, bat_adc, BATADC, 0, 15, IIO_RESISTANCE), MTK_PMIC_IIO_CHAN(MT6363, cdt_v, VCDT, 2, 12, IIO_TEMP), MTK_PMIC_IIO_CHAN(MT6363, batt_temp, BAT_TEMP, 3, 12, IIO_TEMP), MTK_PMIC_IIO_CHAN(MT6363, chip_temp, CHIP_TEMP, 4, 12, IIO_TEMP), MTK_PMIC_IIO_CHAN(MT6363, sys_sns_v, VSYSSNS, 6, 15, IIO_VOLTAGE), MTK_PMIC_IIO_CHAN(MT6363, tref_v, VTREF, 11, 12, IIO_VOLTAGE), MTK_PMIC_IIO_CHAN(MT6363, vcore_temp, VCORE_TEMP, 38, 12, IIO_TEMP), MTK_PMIC_IIO_CHAN(MT6363, vproc_temp, VPROC_TEMP, 39, 12, IIO_TEMP), MTK_PMIC_IIO_CHAN(MT6363, vgpu_temp, VGPU_TEMP, 40, 12, IIO_TEMP), /* For VIN, ADC12 holds the result depending on which GPIO was activated */ MTK_PMIC_IIO_CHAN(MT6363, in1_v, VIN1, 45, 15, IIO_VOLTAGE), MTK_PMIC_IIO_CHAN(MT6363, in2_v, VIN2, 45, 15, IIO_VOLTAGE), MTK_PMIC_IIO_CHAN(MT6363, in3_v, VIN3, 45, 15, IIO_VOLTAGE), MTK_PMIC_IIO_CHAN(MT6363, in4_v, VIN4, 45, 15, IIO_VOLTAGE), MTK_PMIC_IIO_CHAN(MT6363, in5_v, VIN5, 45, 15, IIO_VOLTAGE), MTK_PMIC_IIO_CHAN(MT6363, in6_v, VIN6, 45, 15, IIO_VOLTAGE), MTK_PMIC_IIO_CHAN(MT6363, in7_v, VIN7, 45, 15, IIO_VOLTAGE), }; static const struct mtk_pmic_auxadc_chan mt6363_auxadc_ch_desc[] = { MTK_PMIC_ADC_CHAN(BATADC, PMIC_AUXADC_RQST0, 0, PMIC_AUXADC_ADC0, 15, 64, 4, 1), MTK_PMIC_ADC_CHAN(VCDT, PMIC_AUXADC_RQST0, 2, PMIC_AUXADC_ADC0, 15, 32, 1, 1), MTK_PMIC_ADC_CHAN(BAT_TEMP, PMIC_AUXADC_RQST0, 3, PMIC_AUXADC_ADC0, 15, 32, 3, 2), MTK_PMIC_ADC_CHAN(CHIP_TEMP, PMIC_AUXADC_RQST0, 4, PMIC_AUXADC_ADC0, 15, 32, 1, 1), MTK_PMIC_ADC_CHAN(VSYSSNS, PMIC_AUXADC_RQST1, 6, PMIC_AUXADC_ADC0, 15, 64, 3, 1), MTK_PMIC_ADC_CHAN(VTREF, PMIC_AUXADC_RQST1, 3, PMIC_AUXADC_ADC0, 15, 32, 3, 2), MTK_PMIC_ADC_CHAN(VCORE_TEMP, PMIC_AUXADC_RQST3, 0, PMIC_AUXADC_ADC0, 15, 32, 1, 1), MTK_PMIC_ADC_CHAN(VPROC_TEMP, PMIC_AUXADC_RQST3, 1, PMIC_AUXADC_ADC0, 15, 32, 1, 1), MTK_PMIC_ADC_CHAN(VGPU_TEMP, PMIC_AUXADC_RQST3, 2, PMIC_AUXADC_ADC0, 15, 32, 1, 1), MTK_PMIC_ADC_EXT_CHAN(VIN1, PMIC_AUXADC_RQST1, 4, PMIC_AUXADC_ADC0, 15, PMIC_AUXADC_SDMADC_CON0, 1, MT6363_PULLUP_RES_100K, 32, 1, 1), MTK_PMIC_ADC_EXT_CHAN(VIN2, PMIC_AUXADC_RQST1, 4, PMIC_AUXADC_ADC0, 15, PMIC_AUXADC_SDMADC_CON0, 2, MT6363_PULLUP_RES_100K, 32, 1, 1), MTK_PMIC_ADC_EXT_CHAN(VIN3, PMIC_AUXADC_RQST1, 4, PMIC_AUXADC_ADC0, 15, PMIC_AUXADC_SDMADC_CON0, 3, MT6363_PULLUP_RES_100K, 32, 1, 1), MTK_PMIC_ADC_EXT_CHAN(VIN4, PMIC_AUXADC_RQST1, 4, PMIC_AUXADC_ADC0, 15, PMIC_AUXADC_SDMADC_CON0, 4, MT6363_PULLUP_RES_100K, 32, 1, 1), MTK_PMIC_ADC_EXT_CHAN(VIN5, PMIC_AUXADC_RQST1, 4, PMIC_AUXADC_ADC0, 15, PMIC_AUXADC_SDMADC_CON0, 5, MT6363_PULLUP_RES_100K, 32, 1, 1), MTK_PMIC_ADC_EXT_CHAN(VIN6, PMIC_AUXADC_RQST1, 4, PMIC_AUXADC_ADC0, 15, PMIC_AUXADC_SDMADC_CON0, 6, MT6363_PULLUP_RES_100K, 32, 1, 1), MTK_PMIC_ADC_EXT_CHAN(VIN7, PMIC_AUXADC_RQST1, 4, PMIC_AUXADC_ADC0, 15, PMIC_AUXADC_SDMADC_CON0, 7, MT6363_PULLUP_RES_100K, 32, 1, 1), }; static const u16 mt6363_auxadc_regs[] = { [PMIC_AUXADC_RQST0] = 0x1108, [PMIC_AUXADC_RQST1] = 0x1109, [PMIC_AUXADC_RQST3] = 0x110c, [PMIC_AUXADC_ADC0] = 0x1088, [PMIC_AUXADC_IMP0] = 0x1208, [PMIC_AUXADC_IMP1] = 0x1209, }; static const struct iio_chan_spec mt6373_auxadc_channels[] = { MTK_PMIC_IIO_CHAN(MT6363, chip_temp, CHIP_TEMP, 4, 12, IIO_TEMP), MTK_PMIC_IIO_CHAN(MT6363, vcore_temp, VCORE_TEMP, 38, 12, IIO_TEMP), MTK_PMIC_IIO_CHAN(MT6363, vproc_temp, VPROC_TEMP, 39, 12, IIO_TEMP), MTK_PMIC_IIO_CHAN(MT6363, vgpu_temp, VGPU_TEMP, 40, 12, IIO_TEMP), /* For VIN, ADC12 holds the result depending on which GPIO was activated */ MTK_PMIC_IIO_CHAN(MT6363, in1_v, VIN1, 45, 15, IIO_VOLTAGE), MTK_PMIC_IIO_CHAN(MT6363, in2_v, VIN2, 45, 15, IIO_VOLTAGE), MTK_PMIC_IIO_CHAN(MT6363, in3_v, VIN3, 45, 15, IIO_VOLTAGE), MTK_PMIC_IIO_CHAN(MT6363, in4_v, VIN4, 45, 15, IIO_VOLTAGE), MTK_PMIC_IIO_CHAN(MT6363, in5_v, VIN5, 45, 15, IIO_VOLTAGE), }; static const struct mtk_pmic_auxadc_chan mt6373_auxadc_ch_desc[] = { MTK_PMIC_ADC_CHAN(CHIP_TEMP, PMIC_AUXADC_RQST0, 4, PMIC_AUXADC_ADC0, 15, 32, 1, 1), MTK_PMIC_ADC_CHAN(VCORE_TEMP, PMIC_AUXADC_RQST3, 0, PMIC_AUXADC_ADC0, 15, 32, 1, 1), MTK_PMIC_ADC_CHAN(VPROC_TEMP, PMIC_AUXADC_RQST3, 1, PMIC_AUXADC_ADC0, 15, 32, 1, 1), MTK_PMIC_ADC_CHAN(VGPU_TEMP, PMIC_AUXADC_RQST3, 2, PMIC_AUXADC_ADC0, 15, 32, 1, 1), MTK_PMIC_ADC_EXT_CHAN(VIN1, PMIC_AUXADC_RQST1, 4, PMIC_AUXADC_ADC0, 15, PMIC_AUXADC_SDMADC_CON0, 1, MT6363_PULLUP_RES_30K, 32, 1, 1), MTK_PMIC_ADC_EXT_CHAN(VIN2, PMIC_AUXADC_RQST1, 4, PMIC_AUXADC_ADC0, 15, PMIC_AUXADC_SDMADC_CON0, 2, MT6363_PULLUP_RES_OPEN, 32, 1, 1), MTK_PMIC_ADC_EXT_CHAN(VIN3, PMIC_AUXADC_RQST1, 4, PMIC_AUXADC_ADC0, 15, PMIC_AUXADC_SDMADC_CON0, 3, MT6363_PULLUP_RES_OPEN, 32, 1, 1), MTK_PMIC_ADC_EXT_CHAN(VIN4, PMIC_AUXADC_RQST1, 4, PMIC_AUXADC_ADC0, 15, PMIC_AUXADC_SDMADC_CON0, 4, MT6363_PULLUP_RES_OPEN, 32, 1, 1), MTK_PMIC_ADC_EXT_CHAN(VIN5, PMIC_AUXADC_RQST1, 4, PMIC_AUXADC_ADC0, 15, PMIC_AUXADC_SDMADC_CON0, 5, MT6363_PULLUP_RES_OPEN, 32, 1, 1), }; static void mt6358_stop_imp_conv(struct mt6359_auxadc *adc_dev) { const struct mtk_pmic_auxadc_info *cinfo = adc_dev->chip_info; struct regmap *regmap = adc_dev->regmap; regmap_set_bits(regmap, cinfo->regs[PMIC_AUXADC_IMP0], MT6358_IMP0_CLEAR); regmap_clear_bits(regmap, cinfo->regs[PMIC_AUXADC_IMP0], MT6358_IMP0_CLEAR); regmap_clear_bits(regmap, cinfo->regs[PMIC_AUXADC_IMP1], MT6358_IMP1_AUTOREPEAT_EN); regmap_clear_bits(regmap, cinfo->regs[PMIC_AUXADC_DCM_CON], MT6358_DCM_CK_SW_EN); } static int mt6358_start_imp_conv(struct mt6359_auxadc *adc_dev, const struct iio_chan_spec *chan) { const struct mtk_pmic_auxadc_info *cinfo = adc_dev->chip_info; const struct mtk_pmic_auxadc_chan *desc = &cinfo->desc[chan->scan_index]; struct regmap *regmap = adc_dev->regmap; u32 val; int ret; regmap_set_bits(regmap, cinfo->regs[PMIC_AUXADC_DCM_CON], MT6358_DCM_CK_SW_EN); regmap_set_bits(regmap, cinfo->regs[PMIC_AUXADC_IMP1], MT6358_IMP1_AUTOREPEAT_EN); ret = regmap_read_poll_timeout(regmap, cinfo->regs[desc->rdy_idx], val, val & desc->rdy_mask, IMP_POLL_DELAY_US, AUXADC_TIMEOUT_US); if (ret) { mt6358_stop_imp_conv(adc_dev); return ret; } return 0; } static int mt6358_read_imp(struct mt6359_auxadc *adc_dev, const struct iio_chan_spec *chan, int *vbat, int *ibat) { const struct mtk_pmic_auxadc_info *cinfo = adc_dev->chip_info; struct regmap *regmap = adc_dev->regmap; u16 reg_adc0 = cinfo->regs[PMIC_AUXADC_ADC0]; u32 val_v; int ret; ret = mt6358_start_imp_conv(adc_dev, chan); if (ret) return ret; /* Read the params before stopping */ regmap_read(regmap, reg_adc0 + (cinfo->imp_adc_num << 1), &val_v); mt6358_stop_imp_conv(adc_dev); if (vbat) *vbat = val_v; if (ibat) *ibat = 0; return 0; } static int mt6359_read_imp(struct mt6359_auxadc *adc_dev, const struct iio_chan_spec *chan, int *vbat, int *ibat) { const struct mtk_pmic_auxadc_info *cinfo = adc_dev->chip_info; const struct mtk_pmic_auxadc_chan *desc = &cinfo->desc[chan->scan_index]; struct regmap *regmap = adc_dev->regmap; u32 val, val_v, val_i; int ret; /* Start conversion */ regmap_write(regmap, cinfo->regs[PMIC_AUXADC_IMP0], MT6359_IMP0_CONV_EN); ret = regmap_read_poll_timeout(regmap, cinfo->regs[desc->rdy_idx], val, val & desc->rdy_mask, IMP_POLL_DELAY_US, AUXADC_TIMEOUT_US); /* Stop conversion regardless of the result */ regmap_write(regmap, cinfo->regs[PMIC_AUXADC_IMP0], 0); if (ret) return ret; /* If it succeeded, wait for the registers to be populated */ fsleep(IMP_STOP_DELAY_US); ret = regmap_read(regmap, cinfo->regs[PMIC_AUXADC_IMP3], &val_v); if (ret) return ret; ret = regmap_read(regmap, cinfo->regs[PMIC_FGADC_R_CON0], &val_i); if (ret) return ret; if (vbat) *vbat = val_v; if (ibat) *ibat = val_i; return 0; } static const struct mtk_pmic_auxadc_info mt6357_chip_info = { .model_name = "MT6357", .channels = mt6357_auxadc_channels, .num_channels = ARRAY_SIZE(mt6357_auxadc_channels), .desc = mt6357_auxadc_ch_desc, .regs = mt6357_auxadc_regs, .imp_adc_num = MT6357_IMP_ADC_NUM, .read_imp = mt6358_read_imp, .vref_mV = 1800, }; static const struct mtk_pmic_auxadc_info mt6358_chip_info = { .model_name = "MT6358", .channels = mt6358_auxadc_channels, .num_channels = ARRAY_SIZE(mt6358_auxadc_channels), .desc = mt6358_auxadc_ch_desc, .regs = mt6358_auxadc_regs, .imp_adc_num = MT6358_IMP_ADC_NUM, .read_imp = mt6358_read_imp, .vref_mV = 1800, }; static const struct mtk_pmic_auxadc_info mt6359_chip_info = { .model_name = "MT6359", .channels = mt6359_auxadc_channels, .num_channels = ARRAY_SIZE(mt6359_auxadc_channels), .desc = mt6359_auxadc_ch_desc, .regs = mt6359_auxadc_regs, .sec_unlock_key = 0x6359, .read_imp = mt6359_read_imp, .vref_mV = 1800, }; static const struct mtk_pmic_auxadc_info mt6363_chip_info = { .model_name = "MT6363", .channels = mt6363_auxadc_channels, .num_channels = ARRAY_SIZE(mt6363_auxadc_channels), .desc = mt6363_auxadc_ch_desc, .regs = mt6363_auxadc_regs, .is_spmi = true, .no_reset = true, .vref_mV = 1840, }; static const struct mtk_pmic_auxadc_info mt6373_chip_info = { .model_name = "MT6373", .channels = mt6373_auxadc_channels, .num_channels = ARRAY_SIZE(mt6373_auxadc_channels), .desc = mt6373_auxadc_ch_desc, .regs = mt6363_auxadc_regs, .is_spmi = true, .no_reset = true, .vref_mV = 1840, }; static void mt6359_auxadc_reset(struct mt6359_auxadc *adc_dev) { const struct mtk_pmic_auxadc_info *cinfo = adc_dev->chip_info; struct regmap *regmap = adc_dev->regmap; /* Some PMICs do not support reset */ if (cinfo->no_reset) return; /* Unlock HK_TOP writes */ if (cinfo->sec_unlock_key) regmap_write(regmap, cinfo->regs[PMIC_HK_TOP_WKEY], cinfo->sec_unlock_key); /* Assert ADC reset */ regmap_set_bits(regmap, cinfo->regs[PMIC_HK_TOP_RST_CON0], PMIC_RG_RESET_VAL); /* De-assert ADC reset. No wait required, as pwrap takes care of that for us. */ regmap_clear_bits(regmap, cinfo->regs[PMIC_HK_TOP_RST_CON0], PMIC_RG_RESET_VAL); /* Lock HK_TOP writes again */ if (cinfo->sec_unlock_key) regmap_write(regmap, cinfo->regs[PMIC_HK_TOP_WKEY], 0); } /** * mt6359_auxadc_sample_adc_val() - Start ADC channel sampling and read value * @adc_dev: Main driver structure * @chan: IIO Channel spec for requested ADC * @out: Preallocated variable to store the value read from HW * * This function starts the sampling for an ADC channel, waits until all * of the samples are averaged and then reads the value from the HW. * * Note that the caller must stop the ADC sampling on its own, as this * function *never* stops it. * * Return: * Negative number for error; * Upon success returns zero and writes the read value to *out. */ static int mt6359_auxadc_sample_adc_val(struct mt6359_auxadc *adc_dev, const struct iio_chan_spec *chan, u32 *out) { const struct mtk_pmic_auxadc_info *cinfo = adc_dev->chip_info; const struct mtk_pmic_auxadc_chan *desc = &cinfo->desc[chan->scan_index]; struct regmap *regmap = adc_dev->regmap; u32 reg, rdy_mask, val, lval; int ret; /* Request to start sampling for ADC channel */ ret = regmap_write(regmap, cinfo->regs[desc->req_idx], desc->req_mask); if (ret) return ret; /* Wait until all samples are averaged */ fsleep(desc->num_samples * AUXADC_AVG_TIME_US); reg = cinfo->regs[PMIC_AUXADC_ADC0] + (chan->address << 1); rdy_mask = PMIC_AUXADC_RDY_BIT; /* * Even though for both PWRAP and SPMI cases the ADC HW signals that * the data is ready by setting AUXADC_RDY_BIT, for SPMI the register * read is only 8 bits long: for this case, the check has to be done * on the ADC(x)_H register (high bits) and the rdy_mask needs to be * shifted to the right by the same 8 bits. */ if (cinfo->is_spmi) { rdy_mask >>= 8; reg += 1; } ret = regmap_read_poll_timeout(regmap, reg, val, val & rdy_mask, AUXADC_POLL_DELAY_US, AUXADC_TIMEOUT_US); if (ret) { dev_dbg(adc_dev->dev, "ADC read timeout for chan %lu\n", chan->address); return ret; } if (cinfo->is_spmi) { ret = regmap_read(regmap, reg - 1, &lval); if (ret) return ret; val = (val << 8) | lval; } *out = val; return 0; } static int mt6359_auxadc_read_adc(struct mt6359_auxadc *adc_dev, const struct iio_chan_spec *chan, int *out) { const struct mtk_pmic_auxadc_info *cinfo = adc_dev->chip_info; const struct mtk_pmic_auxadc_chan *desc = &cinfo->desc[chan->scan_index]; struct regmap *regmap = adc_dev->regmap; int ret, adc_stop_err; u8 ext_sel; u32 val; if (desc->ext_sel_idx >= 0) { ext_sel = FIELD_PREP(MT6363_EXT_PURES_MASK, desc->ext_sel_pu); ext_sel |= FIELD_PREP(MT6363_EXT_CHAN_MASK, desc->ext_sel_ch); ret = regmap_update_bits(regmap, cinfo->regs[desc->ext_sel_idx], MT6363_EXT_PURES_MASK | MT6363_EXT_CHAN_MASK, ext_sel); if (ret) return ret; } /* * Get sampled value, then stop sampling unconditionally; the gathered * value is good regardless of if the ADC could be stopped. * * Note that if the ADC cannot be stopped but sampling was ok, this * function will not return any error, but will set the timed_out * status: this is not critical, as the ADC may auto recover and auto * stop after some time (depending on the PMIC model); if not, the next * read attempt will return -ETIMEDOUT and, for models that support it, * reset will be triggered. */ ret = mt6359_auxadc_sample_adc_val(adc_dev, chan, &val); adc_stop_err = regmap_write(regmap, cinfo->regs[desc->req_idx], 0); if (adc_stop_err) { dev_warn(adc_dev->dev, "Could not stop the ADC: %d\n,", adc_stop_err); adc_dev->timed_out = true; } /* If any sampling error occurred, the retrieved value is invalid */ if (ret) return ret; /* ...and deactivate the ADC GPIO if previously done */ if (desc->ext_sel_idx >= 0) { ext_sel = FIELD_PREP(MT6363_EXT_PURES_MASK, MT6363_PULLUP_RES_OPEN); ret = regmap_update_bits(regmap, cinfo->regs[desc->ext_sel_idx], MT6363_EXT_PURES_MASK, ext_sel); if (ret) return ret; } /* Everything went fine, give back the ADC reading */ *out = val & GENMASK(chan->scan_type.realbits - 1, 0); return 0; } static int mt6359_auxadc_read_label(struct iio_dev *indio_dev, const struct iio_chan_spec *chan, char *label) { return sysfs_emit(label, "%s\n", chan->datasheet_name); } static int mt6359_auxadc_read_raw(struct iio_dev *indio_dev, const struct iio_chan_spec *chan, int *val, int *val2, long mask) { struct mt6359_auxadc *adc_dev = iio_priv(indio_dev); const struct mtk_pmic_auxadc_info *cinfo = adc_dev->chip_info; const struct mtk_pmic_auxadc_chan *desc = &cinfo->desc[chan->scan_index]; int ret; if (mask == IIO_CHAN_INFO_SCALE) { *val = desc->r_ratio.numerator * cinfo->vref_mV; if (desc->r_ratio.denominator > 1) { *val2 = desc->r_ratio.denominator; return IIO_VAL_FRACTIONAL; } return IIO_VAL_INT; } scoped_guard(mutex, &adc_dev->lock) { switch (chan->scan_index) { case PMIC_AUXADC_CHAN_IBAT: if (!adc_dev->chip_info->read_imp) return -EOPNOTSUPP; ret = adc_dev->chip_info->read_imp(adc_dev, chan, NULL, val); break; case PMIC_AUXADC_CHAN_VBAT: if (!adc_dev->chip_info->read_imp) return -EOPNOTSUPP; ret = adc_dev->chip_info->read_imp(adc_dev, chan, val, NULL); break; default: ret = mt6359_auxadc_read_adc(adc_dev, chan, val); break; } } if (ret) { /* * If we get more than one timeout, it's possible that the * AUXADC is stuck: perform a full reset to recover it. */ if (ret == -ETIMEDOUT) { if (adc_dev->timed_out) { dev_warn(adc_dev->dev, "Resetting stuck ADC!\r\n"); mt6359_auxadc_reset(adc_dev); } adc_dev->timed_out = true; } return ret; } adc_dev->timed_out = false; return IIO_VAL_INT; } static const struct iio_info mt6359_auxadc_iio_info = { .read_label = mt6359_auxadc_read_label, .read_raw = mt6359_auxadc_read_raw, }; static int mt6359_auxadc_probe(struct platform_device *pdev) { const struct mtk_pmic_auxadc_info *chip_info; struct device *dev = &pdev->dev; struct device *mfd_dev = dev->parent; struct mt6359_auxadc *adc_dev; struct iio_dev *indio_dev; struct device *regmap_dev; struct regmap *regmap; int ret; chip_info = device_get_match_data(dev); if (!chip_info) return -EINVAL; /* * The regmap for this device has to be acquired differently for * SoC PMIC Wrapper and SPMI PMIC cases: * * If this is under SPMI, the regmap comes from the direct parent of * this driver: this_device->parent(mfd). * ... or ... * If this is under the SoC PMIC Wrapper, the regmap comes from the * parent of the MT6397 MFD: this_device->parent(mfd)->parent(pwrap) */ if (chip_info->is_spmi) regmap_dev = mfd_dev; else regmap_dev = mfd_dev->parent; /* Regmap is from SoC PMIC Wrapper, parent of the mt6397 MFD */ regmap = dev_get_regmap(regmap_dev, NULL); if (!regmap) return dev_err_probe(dev, -ENODEV, "Failed to get regmap\n"); indio_dev = devm_iio_device_alloc(dev, sizeof(*adc_dev)); if (!indio_dev) return -ENOMEM; adc_dev = iio_priv(indio_dev); adc_dev->regmap = regmap; adc_dev->dev = dev; adc_dev->chip_info = chip_info; mutex_init(&adc_dev->lock); mt6359_auxadc_reset(adc_dev); indio_dev->name = adc_dev->chip_info->model_name; indio_dev->info = &mt6359_auxadc_iio_info; indio_dev->modes = INDIO_DIRECT_MODE; indio_dev->channels = adc_dev->chip_info->channels; indio_dev->num_channels = adc_dev->chip_info->num_channels; ret = devm_iio_device_register(dev, indio_dev); if (ret) return dev_err_probe(dev, ret, "failed to register iio device\n"); return 0; } static const struct of_device_id mt6359_auxadc_of_match[] = { { .compatible = "mediatek,mt6357-auxadc", .data = &mt6357_chip_info }, { .compatible = "mediatek,mt6358-auxadc", .data = &mt6358_chip_info }, { .compatible = "mediatek,mt6359-auxadc", .data = &mt6359_chip_info }, { .compatible = "mediatek,mt6363-auxadc", .data = &mt6363_chip_info }, { .compatible = "mediatek,mt6373-auxadc", .data = &mt6373_chip_info }, { } }; MODULE_DEVICE_TABLE(of, mt6359_auxadc_of_match); static struct platform_driver mt6359_auxadc_driver = { .driver = { .name = "mt6359-auxadc", .of_match_table = mt6359_auxadc_of_match, }, .probe = mt6359_auxadc_probe, }; module_platform_driver(mt6359_auxadc_driver); MODULE_LICENSE("GPL"); MODULE_AUTHOR("AngeloGioacchino Del Regno <angelogioacchino.delregno@collabora.com>"); MODULE_DESCRIPTION("MediaTek MT6359 PMIC AUXADC Driver");
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