504 lines
17 KiB
C
504 lines
17 KiB
C
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/* Copyright (c) 2014-2018, NVIDIA CORPORATION. All rights reserved.
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*
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* This software is licensed under the terms of the GNU General Public
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* License version 2, as published by the Free Software Foundation, and
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* may be copied, distributed, and modified under those terms.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*/
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#ifndef _NVS_H_
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#define _NVS_H_
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#include <linux/device.h>
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#include <linux/regulator/consumer.h>
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#define NVS_STS_SHUTDOWN (1 << 0)
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#define NVS_STS_SUSPEND (1 << 1)
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#define NVS_STS_SYS_N (2)
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#define NVS_STS_SPEW_MSG (1 << (NVS_STS_SYS_N + 0))
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#define NVS_STS_SPEW_DATA (1 << (NVS_STS_SYS_N + 1))
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#define NVS_STS_SPEW_BUF (1 << (NVS_STS_SYS_N + 2))
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#define NVS_STS_SPEW_IRQ (1 << (NVS_STS_SYS_N + 3))
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#define NVS_STS_SPEW_MSK (NVS_STS_SPEW_MSG | \
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NVS_STS_SPEW_DATA | \
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NVS_STS_SPEW_BUF | \
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NVS_STS_SPEW_IRQ)
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#define NVS_STS_DBG_N (NVS_STS_SYS_N + 4)
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#define NVS_STS_EXT_N (NVS_STS_DBG_N)
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#define NVS_STS_MSK ((1 << NVS_STS_DBG_N) - 1)
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#define NVS_CHANNEL_N_MAX (5)
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#define NVS_FLOAT_SIGNIFICANCE_MICRO (1000000) /* IIO_VAL_INT_PLUS_MICRO */
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#define NVS_FLOAT_SIGNIFICANCE_NANO (1000000000) /* IIO_VAL_INT_PLUS_NANO */
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/* from AOS sensors.h */
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#define SENSOR_TYPE_ACCELEROMETER (1)
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#define SENSOR_TYPE_MAGNETIC_FIELD (2)
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#define SENSOR_TYPE_ORIENTATION (3)
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#define SENSOR_TYPE_GYROSCOPE (4)
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#define SENSOR_TYPE_LIGHT (5)
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#define SENSOR_TYPE_PRESSURE (6)
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#define SENSOR_TYPE_TEMPERATURE (7)
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#define SENSOR_TYPE_PROXIMITY (8)
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#define SENSOR_TYPE_GRAVITY (9)
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#define SENSOR_TYPE_LINEAR_ACCELERATION (10)
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#define SENSOR_TYPE_ROTATION_VECTOR (11)
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#define SENSOR_TYPE_RELATIVE_HUMIDITY (12)
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#define SENSOR_TYPE_AMBIENT_TEMPERATURE (13)
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#define SENSOR_TYPE_MAGNETIC_FIELD_UNCALIBRATED (14)
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#define SENSOR_TYPE_GAME_ROTATION_VECTOR (15)
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#define SENSOR_TYPE_GYROSCOPE_UNCALIBRATED (16)
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#define SENSOR_TYPE_SIGNIFICANT_MOTION (17)
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#define SENSOR_TYPE_STEP_DETECTOR (18)
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#define SENSOR_TYPE_STEP_COUNTER (19)
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#define SENSOR_TYPE_GEOMAGNETIC_ROTATION_VECTOR (20)
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#define SENSOR_TYPE_HEART_RATE (21)
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#define SENSOR_TYPE_TILT_DETECTOR (22)
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#define SENSOR_TYPE_WAKE_GESTURE (23)
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#define SENSOR_TYPE_GLANCE_GESTURE (24)
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#define SENSOR_TYPE_PICK_UP_GESTURE (25)
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#define SENSOR_TYPE_WRIST_TILT_GESTURE (26)
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#define SENSOR_TYPE_DEVICE_ORIENTATION (27)
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#define SENSOR_TYPE_POSE_6DOF (28)
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#define SENSOR_TYPE_STATIONARY_DETECT (29)
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#define SENSOR_TYPE_MOTION_DETECT (30)
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#define SENSOR_TYPE_HEART_BEAT (31)
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#define SENSOR_TYPE_DYNAMIC_SENSOR_META (32)
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#define SENSOR_TYPE_ADDITIONAL_INFO (33)
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#define SENSOR_STATUS_NO_CONTACT (-1)
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#define SENSOR_STATUS_UNRELIABLE (0)
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#define SENSOR_STATUS_ACCURACY_LOW (1)
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#define SENSOR_STATUS_ACCURACY_MEDIUM (2)
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#define SENSOR_STATUS_ACCURACY_HIGH (3)
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#define REPORTING_MODE_SHIFT (1)
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#define REPORTING_MODE_MASK (0xE)
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#define DATA_INJECTION_SHIFT (4)
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#define DATA_INJECTION_MASK (0x10)
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#define DYNAMIC_SENSOR_SHIFT (5)
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#define DYNAMIC_SENSOR_MASK (0x20)
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#define ADDITIONAL_INFO_SHIFT (6)
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#define ADDITIONAL_INFO_MASK (0x40)
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#define SENSOR_FLAG_WAKE_UP (0x1)
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#define SENSOR_FLAG_ON_CHANGE_MODE (0x2)
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#define SENSOR_FLAG_ONE_SHOT_MODE (0x4)
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#define SENSOR_FLAG_SPECIAL_REPORTING_MODE (0x6)
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#define SENSOR_FLAG_SUPPORTS_DATA_INJECTION DATA_INJECTION_MASK
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#define SENSOR_FLAG_DYNAMIC_SENSOR DYNAMIC_SENSOR_MASK
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#define SENSOR_FLAG_ADDITIONAL_INFO ADDITIONAL_INFO_MASK
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/* end AOS sensors.h */
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/* unconfigurable flags */
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#define SENSOR_FLAG_READONLY_MASK (REPORTING_MODE_MASK)
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/* nvs_dsm SENSOR_TYPE_DYNAMIC_SENSOR_META message */
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#define NVS_DSM_MSG_FLAGS_CONNECT (7)
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/* IIO limits sizeof(struct nvs_dsm_msg) to 31 hence the chars */
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struct nvs_dsm_msg {
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unsigned char ver;
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unsigned char flags;
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int dev_id;
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int snsr_id;
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unsigned char uuid[16];
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};
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enum nvs_float_significance {
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NVS_FLOAT_MICRO = 0, /* IIO_VAL_INT_PLUS_MICRO */
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NVS_FLOAT_NANO, /* IIO_VAL_INT_PLUS_NANO */
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NVS_FLOAT_N_MAX,
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};
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enum NVS_KIF { /* Define kernel interface type */
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NVS_KIF_AUTO =0, /* AUTO */
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NVS_KIF_IIO, /* IIO */
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NVS_KIF_INPUT, /* INPUT */
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NVS_KIF_RELAY, /* RELAYFS */
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NVS_KIF_N, /* N-Count */
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};
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/* Set the default kernel interface type */
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#ifndef NVS_CFG_KIF
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#define NVS_CFG_KIF NVS_KIF_AUTO
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#endif
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struct nvs_float {
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int ival;
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int fval;
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};
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struct sensor_cfg {
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const char *name; /* sensor name */
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int snsr_id; /* sensor ID */
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int kbuf_sz; /* kernel buffer size (n bytes) */
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int timestamp_sz; /* hub: timestamp size (n bytes) */
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int snsr_data_n; /* hub: number of data bytes */
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unsigned int ch_n; /* number of channels */
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int ch_sz; /* channel size (n bytes) */
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void *ch_inf; /* if hub then NULL */
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/* the following is for android struct sensor_t */
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const char *part;
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const char *vendor;
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int version;
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struct nvs_float max_range;
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struct nvs_float resolution;
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struct nvs_float milliamp;
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int delay_us_min;
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int delay_us_max;
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unsigned int fifo_rsrv_evnt_cnt;
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unsigned int fifo_max_evnt_cnt;
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unsigned int flags;
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/* end of android struct sensor_t data */
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unsigned char uuid[16]; /* UUID (RFC 4122 byte order) */
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signed char matrix[9]; /* device orientation on platform */
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/* interpolation calibration */
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int uncal_lo;
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int uncal_hi;
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int cal_lo;
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int cal_hi;
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/* thresholds */
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int thresh_lo;
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int thresh_hi;
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int report_n; /* report count for on-change sensor */
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enum nvs_float_significance float_significance;
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/* global scale/offset allows for a 1st order polynomial on the data
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* e.g. data * scale + offset
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*/
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struct nvs_float scale;
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struct nvs_float offset;
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unsigned int ch_n_max; /* NVS_CHANNEL_N_MAX */
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/* channel scale/offset allows for a 1st order polynomial per channel
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* e.g. channel_data * channel_scale + channel_offset
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*/
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struct nvs_float scales[NVS_CHANNEL_N_MAX];
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struct nvs_float offsets[NVS_CHANNEL_N_MAX];
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};
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#define NVS_FN_DEV_VERSION (1)
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struct nvs_fn_dev {
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/**
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* version of this structure.
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* Note that this is backward compatible with the non-versioned
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* structure since the first member was "release" and never
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* implemented thereby making that structure version 0 (from the
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* NULL pointer).
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* Populate with: NVS_FN_DEV_VERSION
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*/
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unsigned int ver;
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/**
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* sizeof this structure.
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* A little extra protection for ABI compatibility.
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* Populate with: sizeof(struct nvs_fn_dev)
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*/
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unsigned int sizeof_struct;
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/**
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* sts - status flags
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* used by both device and NVS layers
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* See NVS_STS_ defines
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*/
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unsigned int *sts;
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/**
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* errs - error counter
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* used by both device and NVS layers
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*/
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unsigned int *errs;
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/**
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* release - device is gone - driver cleanup
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* @client: clients private data
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* @snsr_id: sensor ID
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*
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* The device has been removed from the system. All resources
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* for this device needs to be freed, possibly the driver
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* itself if it controls no more devices.
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*/
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void (*release)(void *client, int snsr_id);
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/**
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* enable - enable/disable the device
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* @client: clients private data
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* @snsr_id: sensor ID
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* @enable: 0 = off
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* 1 = on
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* -1 = query status
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*
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* Returns device enable state or a negative error code.
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*
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* Note that the enable value may be a bitmap of the enabled
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* channel.
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*/
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int (*enable)(void *client, int snsr_id, int enable);
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/**
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* batch - see Android definition of batch
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* http://source.android.com/devices/sensors/batching.html
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* @client: clients private data
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* @snsr_id: sensor ID
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* @flags: see Android definition of flags (currently obsolete)
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* @period: period timeout in microseconds
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* @timeout: batch timeout in microseconds
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*
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* Returns 0 on success or a negative error code.
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*
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* Note that period should be implemented for setting delay if
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* batching is not supported.
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*/
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int (*batch)(void *client, int snsr_id, int flags,
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unsigned int period_us, unsigned int timeout_us);
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/**
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* batch_read - see Android definition of batch
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* http://source.android.com/devices/sensors/batching.html
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* @client: clients private data
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* @snsr_id: sensor ID
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* @*period: pointer to sensor period in microseconds
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* @*timeout: pointer to batch timeout in microseconds
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*
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* Returns 0 on success or a negative error code.
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*
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* This call is specifically to read the actual rate period
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* and batch timeout set by the HW driver and not the requested
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* period and batch timeout passed with the above batch
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* function which may not necessarily be the same.
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*
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* The call may be made with either the period_us or timeout_us
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* pointer set to NULL, in which case the HW driver just ignores
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* that pointer without error.
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*/
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int (*batch_read)(void *client, int snsr_id,
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unsigned int *period_us, unsigned int *timeout_us);
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/**
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* flush - see Android definition of flush
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* http://source.android.com/devices/sensors/batching.html
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* @client: clients private data
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* @snsr_id: sensor ID
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*
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* Returns 0 on success or a negative error code.
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*
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* Note that if not implemented at the device level, it is
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* implemented in the NVS layer. In other words, if the device
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* does not support batching, leave this NULL.
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*/
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int (*flush)(void *client, int snsr_id);
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/**
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* resolution - set device resolution
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* @client: clients private data
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* @snsr_id: sensor ID
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* @resolution: resolution value
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*
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* Returns 0 on success or a negative error code.
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* If a value > 0 is returned then sensor_cfg->resolution is
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* updated as described in the below note. This allows drivers
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* with multiple sensors to only have to implement the device
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* specific function for certain sensors and allow the NVS
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* layer to handle the others.
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*
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* Note that if not implemented, resolution changes will change
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* sensor_cfg->resolution. If implemented, it is expected
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* that the resolution value will be device-specific. In other
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* words, only the device layer will understand the value which
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* will typically be used to change the mode. This will
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* typically be an index mechanism. See max_range for an
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* example.
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*/
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int (*resolution)(void *client, int snsr_id, int resolution);
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/**
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* max_range - set device max_range
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* @client: clients private data
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* @snsr_id: sensor ID
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* @max_range: max_range value
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*
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* Returns 0 on success or a negative error code.
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* If a value > 0 is returned then sensor_cfg->max_range is
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* updated as described in the below note. This allows drivers
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* with multiple sensors to only have to implement the device
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* specific function for certain sensors and allow the NVS
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* layer to handle the others.
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*
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* Note that if not implemented, max_range changes will change
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* sensor_cfg->max_range. If implemented, it is expected
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* that the max_range value will be device-specific. In other
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* words, only the device layer will understand the value which
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* will typically be used to change the mode. This will
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* typically be an index mechanism. For example, to select the
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* range for an accelerometer that can support 2g, 4g, and 16g,
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* the following values of 0, 1, and 2, can be written
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* respectively. Once the index is written, the max_range can
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* be read to determine the value associated with the index.
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*/
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int (*max_range)(void *client, int snsr_id, int max_range);
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/**
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* scale - set device scale
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* @client: clients private data
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* @snsr_id: sensor ID
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* @channel: channel index
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* @scale: scale value
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*
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* Returns 0 on success or a negative error code.
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* If a value > 0 is returned then sensor_cfg->scale is updated
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* as described in the below note. This allows drivers with
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* multiple sensors to only have to implement the device
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* specific function for certain sensors and allow the NVS
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* layer to handle the others.
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*
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* Note that if not implemented, scale changes will change
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* sensor_cfg->scale. If implemented, it is expected
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* that the scale value will be device-specific. In other words,
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* only the device layer will understand the value which will
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* typically be used to change the mode.
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*/
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int (*scale)(void *client, int snsr_id, int channel, int scale);
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/**
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* offset - set device offset
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* @client: clients private data
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* @snsr_id: sensor ID
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* @channel: channel index
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* @offset: offset value
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*
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* Returns 0 on success or a negative error code.
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* If a value > 0 is returned then sensor_cfg->offset is updated
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* as described in the below note. This allows drivers with
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* multiple sensors to only have to implement the device
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* specific function for certain sensors and allow the NVS
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* layer to handle the others.
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*
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* Note that if not implemented, offset changes will change
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* sensor_cfg->offset. If implemented, it is expected
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* that the offset value will be device-specific. In other
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* words, only the device layer will understand the value which
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* will typically be used to set calibration.
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*/
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int (*offset)(void *client, int snsr_id, int channel, int offset);
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/**
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* thresh_lo - set device low threshold
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* @client: clients private data
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* @snsr_id: sensor ID
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* @thresh_lo: low threshold value
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*
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* Returns 0 on success or a negative error code.
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* If a value > 0 is returned then sensor_cfg->thresh_lo is
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* updated as described in the below note. This allows drivers
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* with multiple sensors to only have to implement the device
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* specific function for certain sensors and allow the NVS
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* layer to handle the others.
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*
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* Note that if not implemented, thresh_lo changes will change
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* sensor_cfg->thresh_lo. If implemented, it is expected
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||
|
* that the thresh_lo value will be device-specific. In other
|
||
|
* words, only the device layer will understand the value.
|
||
|
*/
|
||
|
int (*thresh_lo)(void *client, int snsr_id, int thresh_lo);
|
||
|
/**
|
||
|
* thresh_hi - set device high threshold
|
||
|
* @client: clients private data
|
||
|
* @snsr_id: sensor ID
|
||
|
* @thresh_hi: high threshold value
|
||
|
*
|
||
|
* Returns 0 on success or a negative error code.
|
||
|
* If a value > 0 is returned then sensor_cfg->thresh_hi is
|
||
|
* updated as described in the below note. This allows drivers
|
||
|
* with multiple sensors to only have to implement the device
|
||
|
* specific function for certain sensors and allow the NVS
|
||
|
* layer to handle the others.
|
||
|
*
|
||
|
* Note that if not implemented, thresh_hi changes will change
|
||
|
* sensor_cfg->thresh_hi. If implemented, it is expected
|
||
|
* that the thresh_hi value will be device-specific. In other
|
||
|
* words, only the device layer will understand the value.
|
||
|
*/
|
||
|
int (*thresh_hi)(void *client, int snsr_id, int thresh_hi);
|
||
|
/**
|
||
|
* reset - device reset
|
||
|
* @client: clients private data
|
||
|
* @snsr_id: sensor ID
|
||
|
*
|
||
|
* Returns 0 on success or a negative error code.
|
||
|
*
|
||
|
* Note a < 0 value for snsr_id is another reset option,
|
||
|
* e.g. global device reset such as on a sensor hub.
|
||
|
* Note mutex is locked for this function.
|
||
|
*/
|
||
|
int (*reset)(void *client, int snsr_id);
|
||
|
/**
|
||
|
* self_test - device self-test
|
||
|
* @client: clients private data
|
||
|
* @snsr_id: sensor ID
|
||
|
* @buf: character buffer to write to
|
||
|
*
|
||
|
* Returns 0 on success or a negative error code if buf == NULL.
|
||
|
* if buf != NULL, return number of characters.
|
||
|
* Note mutex is locked for this function.
|
||
|
*/
|
||
|
int (*self_test)(void *client, int snsr_id, char *buf);
|
||
|
/**
|
||
|
* regs - device register dump
|
||
|
* @client: clients private data
|
||
|
* @snsr_id: sensor ID
|
||
|
* @buf: character buffer to write to
|
||
|
*
|
||
|
* Returns buf count or a negative error code.
|
||
|
*/
|
||
|
int (*regs)(void *client, int snsr_id, char *buf);
|
||
|
/**
|
||
|
* nvs_write - nvs attribute write extension
|
||
|
* @client: clients private data
|
||
|
* @snsr_id: sensor ID
|
||
|
* @nvs: value written to nvs attribute
|
||
|
*
|
||
|
* Returns 0 on success or a negative error code.
|
||
|
*
|
||
|
* Used to extend the functionality of the nvs attribute.
|
||
|
*/
|
||
|
int (*nvs_write)(void *client, int snsr_id, unsigned int nvs);
|
||
|
/**
|
||
|
* nvs_read - nvs attribute read extension
|
||
|
* @client: clients private data
|
||
|
* @snsr_id: sensor ID
|
||
|
* @buf: character buffer to write to
|
||
|
*
|
||
|
* Returns buf count or a negative error code.
|
||
|
*
|
||
|
* Used to extend the functionality of the nvs attribute.
|
||
|
*/
|
||
|
int (*nvs_read)(void *client, int snsr_id, char *buf);
|
||
|
};
|
||
|
|
||
|
struct nvs_fn_if {
|
||
|
int (*probe)(void **handle, void *dev_client, struct device *dev,
|
||
|
struct nvs_fn_dev *fn_dev, struct sensor_cfg *snsr_cfg);
|
||
|
int (*remove)(void *handle);
|
||
|
void (*shutdown)(void *handle);
|
||
|
void (*nvs_mutex_lock)(void *handle);
|
||
|
void (*nvs_mutex_unlock)(void *handle);
|
||
|
int (*suspend)(void *handle);
|
||
|
int (*resume)(void *handle);
|
||
|
int (*handler)(void *handle, void *buffer, s64 ts);
|
||
|
};
|
||
|
|
||
|
extern const char * const nvs_float_significances[];
|
||
|
|
||
|
struct nvs_fn_if *nvs_auto(int);
|
||
|
struct nvs_fn_if *nvs_relay(void);
|
||
|
struct nvs_fn_if *nvs_iio(void);
|
||
|
struct nvs_fn_if *nvs_input(void);
|
||
|
int nvs_of_dt(const struct device_node *np, struct sensor_cfg *cfg,
|
||
|
const char *dev_name);
|
||
|
int nvs_vreg_dis(struct device *dev, struct regulator_bulk_data *vreg);
|
||
|
int nvs_vregs_disable(struct device *dev, struct regulator_bulk_data *vregs,
|
||
|
unsigned int vregs_n);
|
||
|
int nvs_vreg_en(struct device *dev, struct regulator_bulk_data *vreg);
|
||
|
int nvs_vregs_enable(struct device *dev, struct regulator_bulk_data *vregs,
|
||
|
unsigned int vregs_n);
|
||
|
void nvs_vregs_exit(struct device *dev, struct regulator_bulk_data *vregs,
|
||
|
unsigned int vregs_n);
|
||
|
int nvs_vregs_init(struct device *dev, struct regulator_bulk_data *vregs,
|
||
|
unsigned int vregs_n, char **vregs_name);
|
||
|
int nvs_vregs_sts(struct regulator_bulk_data *vregs, unsigned int vregs_n);
|
||
|
s64 nvs_timestamp(void);
|
||
|
int nvs_dsm_relay(int dev_id, bool connect, int snsr_id, unsigned char *uuid);
|
||
|
int nvs_dsm_iio(int dev_id, bool connect, int snsr_id, unsigned char *uuid);
|
||
|
int nvs_dsm_input(int dev_id, bool connect, int snsr_id, unsigned char *uuid);
|
||
|
|
||
|
#endif /* _NVS_H_ */
|