848 lines
20 KiB
C
848 lines
20 KiB
C
/* ST Microelectronics ISM330DHCX 6-axis IMU sensor driver
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*
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* Copyright (c) 2020 STMicroelectronics
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*
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* SPDX-License-Identifier: Apache-2.0
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*
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* Datasheet:
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* https://www.st.com/resource/en/datasheet/ism330dhcx.pdf
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*/
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#define DT_DRV_COMPAT st_ism330dhcx
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#include <drivers/sensor.h>
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#include <kernel.h>
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#include <device.h>
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#include <init.h>
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#include <string.h>
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#include <sys/byteorder.h>
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#include <sys/__assert.h>
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#include <logging/log.h>
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#include "ism330dhcx.h"
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LOG_MODULE_REGISTER(ISM330DHCX, CONFIG_SENSOR_LOG_LEVEL);
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static const uint16_t ism330dhcx_odr_map[] = {0, 12, 26, 52, 104, 208, 416, 833,
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1660, 3330, 6660};
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#if defined(ISM330DHCX_ACCEL_ODR_RUNTIME) || defined(ISM330DHCX_GYRO_ODR_RUNTIME)
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static int ism330dhcx_freq_to_odr_val(uint16_t freq)
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{
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size_t i;
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for (i = 0; i < ARRAY_SIZE(ism330dhcx_odr_map); i++) {
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if (freq == ism330dhcx_odr_map[i]) {
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return i;
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}
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}
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return -EINVAL;
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}
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#endif
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static int ism330dhcx_odr_to_freq_val(uint16_t odr)
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{
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/* for valid index, return value from map */
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if (odr < ARRAY_SIZE(ism330dhcx_odr_map)) {
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return ism330dhcx_odr_map[odr];
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}
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/* invalid index, return last entry */
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return ism330dhcx_odr_map[ARRAY_SIZE(ism330dhcx_odr_map) - 1];
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}
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#ifdef ISM330DHCX_ACCEL_FS_RUNTIME
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static const uint16_t ism330dhcx_accel_fs_map[] = {2, 16, 4, 8};
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static const uint16_t ism330dhcx_accel_fs_sens[] = {1, 8, 2, 4};
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static int ism330dhcx_accel_range_to_fs_val(int32_t range)
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{
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size_t i;
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for (i = 0; i < ARRAY_SIZE(ism330dhcx_accel_fs_map); i++) {
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if (range == ism330dhcx_accel_fs_map[i]) {
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return i;
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}
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}
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return -EINVAL;
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}
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#endif
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#ifdef ISM330DHCX_GYRO_FS_RUNTIME
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static const uint16_t ism330dhcx_gyro_fs_map[] = {250, 500, 1000, 2000, 125};
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static const uint16_t ism330dhcx_gyro_fs_sens[] = {2, 4, 8, 16, 1};
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static int ism330dhcx_gyro_range_to_fs_val(int32_t range)
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{
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size_t i;
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for (i = 0; i < ARRAY_SIZE(ism330dhcx_gyro_fs_map); i++) {
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if (range == ism330dhcx_gyro_fs_map[i]) {
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return i;
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}
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}
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return -EINVAL;
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}
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#endif
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static inline int ism330dhcx_reboot(struct device *dev)
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{
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struct ism330dhcx_data *data = dev->driver_data;
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if (ism330dhcx_boot_set(data->ctx, 1) < 0) {
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return -EIO;
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}
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/* Wait sensor turn-on time as per datasheet */
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k_busy_wait(35 * USEC_PER_MSEC);
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return 0;
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}
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static int ism330dhcx_accel_set_fs_raw(struct device *dev, uint8_t fs)
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{
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struct ism330dhcx_data *data = dev->driver_data;
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if (ism330dhcx_xl_full_scale_set(data->ctx, fs) < 0) {
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return -EIO;
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}
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data->accel_fs = fs;
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return 0;
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}
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static int ism330dhcx_accel_set_odr_raw(struct device *dev, uint8_t odr)
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{
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struct ism330dhcx_data *data = dev->driver_data;
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if (ism330dhcx_xl_data_rate_set(data->ctx, odr) < 0) {
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return -EIO;
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}
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data->accel_freq = ism330dhcx_odr_to_freq_val(odr);
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return 0;
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}
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static int ism330dhcx_gyro_set_fs_raw(struct device *dev, uint8_t fs)
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{
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struct ism330dhcx_data *data = dev->driver_data;
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if (ism330dhcx_gy_full_scale_set(data->ctx, fs) < 0) {
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return -EIO;
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}
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return 0;
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}
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static int ism330dhcx_gyro_set_odr_raw(struct device *dev, uint8_t odr)
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{
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struct ism330dhcx_data *data = dev->driver_data;
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if (ism330dhcx_gy_data_rate_set(data->ctx, odr) < 0) {
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return -EIO;
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}
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return 0;
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}
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#ifdef ISM330DHCX_ACCEL_ODR_RUNTIME
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static int ism330dhcx_accel_odr_set(struct device *dev, uint16_t freq)
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{
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int odr;
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odr = ism330dhcx_freq_to_odr_val(freq);
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if (odr < 0) {
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return odr;
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}
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if (ism330dhcx_accel_set_odr_raw(dev, odr) < 0) {
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LOG_DBG("failed to set accelerometer sampling rate");
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return -EIO;
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}
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return 0;
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}
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#endif
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#ifdef ISM330DHCX_ACCEL_FS_RUNTIME
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static int ism330dhcx_accel_range_set(struct device *dev, int32_t range)
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{
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int fs;
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struct ism330dhcx_data *data = dev->driver_data;
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fs = ism330dhcx_accel_range_to_fs_val(range);
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if (fs < 0) {
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return fs;
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}
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if (ism330dhcx_accel_set_fs_raw(dev, fs) < 0) {
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LOG_DBG("failed to set accelerometer full-scale");
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return -EIO;
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}
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data->acc_gain = (ism330dhcx_accel_fs_sens[fs] * GAIN_UNIT_XL);
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return 0;
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}
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#endif
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static int ism330dhcx_accel_config(struct device *dev, enum sensor_channel chan,
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enum sensor_attribute attr,
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const struct sensor_value *val)
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{
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switch (attr) {
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#ifdef ISM330DHCX_ACCEL_FS_RUNTIME
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case SENSOR_ATTR_FULL_SCALE:
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return ism330dhcx_accel_range_set(dev, sensor_ms2_to_g(val));
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#endif
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#ifdef ISM330DHCX_ACCEL_ODR_RUNTIME
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case SENSOR_ATTR_SAMPLING_FREQUENCY:
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return ism330dhcx_accel_odr_set(dev, val->val1);
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#endif
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default:
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LOG_DBG("Accel attribute not supported.");
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return -ENOTSUP;
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}
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return 0;
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}
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#ifdef ISM330DHCX_GYRO_ODR_RUNTIME
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static int ism330dhcx_gyro_odr_set(struct device *dev, uint16_t freq)
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{
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int odr;
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odr = ism330dhcx_freq_to_odr_val(freq);
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if (odr < 0) {
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return odr;
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}
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if (ism330dhcx_gyro_set_odr_raw(dev, odr) < 0) {
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LOG_DBG("failed to set gyroscope sampling rate");
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return -EIO;
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}
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return 0;
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}
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#endif
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#ifdef ISM330DHCX_GYRO_FS_RUNTIME
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static int ism330dhcx_gyro_range_set(struct device *dev, int32_t range)
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{
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int fs;
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struct ism330dhcx_data *data = dev->driver_data;
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fs = ism330dhcx_gyro_range_to_fs_val(range);
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if (fs < 0) {
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return fs;
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}
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if (ism330dhcx_gyro_set_fs_raw(dev, fs) < 0) {
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LOG_DBG("failed to set gyroscope full-scale");
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return -EIO;
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}
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data->gyro_gain = (ism330dhcx_gyro_fs_sens[fs] * GAIN_UNIT_G);
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return 0;
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}
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#endif
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static int ism330dhcx_gyro_config(struct device *dev, enum sensor_channel chan,
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enum sensor_attribute attr,
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const struct sensor_value *val)
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{
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switch (attr) {
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#ifdef ISM330DHCX_GYRO_FS_RUNTIME
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case SENSOR_ATTR_FULL_SCALE:
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return ism330dhcx_gyro_range_set(dev, sensor_rad_to_degrees(val));
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#endif
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#ifdef ISM330DHCX_GYRO_ODR_RUNTIME
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case SENSOR_ATTR_SAMPLING_FREQUENCY:
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return ism330dhcx_gyro_odr_set(dev, val->val1);
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#endif
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default:
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LOG_DBG("Gyro attribute not supported.");
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return -ENOTSUP;
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}
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return 0;
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}
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static int ism330dhcx_attr_set(struct device *dev, enum sensor_channel chan,
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enum sensor_attribute attr,
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const struct sensor_value *val)
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{
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switch (chan) {
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case SENSOR_CHAN_ACCEL_XYZ:
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return ism330dhcx_accel_config(dev, chan, attr, val);
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case SENSOR_CHAN_GYRO_XYZ:
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return ism330dhcx_gyro_config(dev, chan, attr, val);
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#if defined(CONFIG_ISM330DHCX_SENSORHUB)
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case SENSOR_CHAN_MAGN_XYZ:
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case SENSOR_CHAN_PRESS:
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case SENSOR_CHAN_HUMIDITY:
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return ism330dhcx_shub_config(dev, chan, attr, val);
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#endif /* CONFIG_ISM330DHCX_SENSORHUB */
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default:
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LOG_WRN("attr_set() not supported on this channel.");
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return -ENOTSUP;
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}
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return 0;
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}
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static int ism330dhcx_sample_fetch_accel(struct device *dev)
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{
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struct ism330dhcx_data *data = dev->driver_data;
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union axis3bit16_t buf;
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if (ism330dhcx_acceleration_raw_get(data->ctx, buf.u8bit) < 0) {
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LOG_DBG("Failed to read sample");
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return -EIO;
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}
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data->acc[0] = sys_le16_to_cpu(buf.i16bit[0]);
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data->acc[1] = sys_le16_to_cpu(buf.i16bit[1]);
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data->acc[2] = sys_le16_to_cpu(buf.i16bit[2]);
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return 0;
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}
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static int ism330dhcx_sample_fetch_gyro(struct device *dev)
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{
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struct ism330dhcx_data *data = dev->driver_data;
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union axis3bit16_t buf;
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if (ism330dhcx_angular_rate_raw_get(data->ctx, buf.u8bit) < 0) {
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LOG_DBG("Failed to read sample");
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return -EIO;
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}
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data->gyro[0] = sys_le16_to_cpu(buf.i16bit[0]);
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data->gyro[1] = sys_le16_to_cpu(buf.i16bit[1]);
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data->gyro[2] = sys_le16_to_cpu(buf.i16bit[2]);
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return 0;
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}
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#if defined(CONFIG_ISM330DHCX_ENABLE_TEMP)
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static int ism330dhcx_sample_fetch_temp(struct device *dev)
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{
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struct ism330dhcx_data *data = dev->driver_data;
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union axis1bit16_t buf;
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if (ism330dhcx_temperature_raw_get(data->ctx, buf.u8bit) < 0) {
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LOG_DBG("Failed to read sample");
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return -EIO;
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}
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data->temp_sample = sys_le16_to_cpu(buf.i16bit);
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return 0;
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}
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#endif
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#if defined(CONFIG_ISM330DHCX_SENSORHUB)
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static int ism330dhcx_sample_fetch_shub(struct device *dev)
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{
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if (ism330dhcx_shub_fetch_external_devs(dev) < 0) {
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LOG_DBG("failed to read ext shub devices");
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return -EIO;
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}
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return 0;
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}
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#endif /* CONFIG_ISM330DHCX_SENSORHUB */
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static int ism330dhcx_sample_fetch(struct device *dev, enum sensor_channel chan)
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{
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switch (chan) {
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case SENSOR_CHAN_ACCEL_XYZ:
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ism330dhcx_sample_fetch_accel(dev);
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#if defined(CONFIG_ISM330DHCX_SENSORHUB)
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ism330dhcx_sample_fetch_shub(dev);
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#endif
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break;
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case SENSOR_CHAN_GYRO_XYZ:
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ism330dhcx_sample_fetch_gyro(dev);
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break;
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#if defined(CONFIG_ISM330DHCX_ENABLE_TEMP)
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case SENSOR_CHAN_DIE_TEMP:
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ism330dhcx_sample_fetch_temp(dev);
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break;
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#endif
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case SENSOR_CHAN_ALL:
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ism330dhcx_sample_fetch_accel(dev);
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ism330dhcx_sample_fetch_gyro(dev);
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#if defined(CONFIG_ISM330DHCX_ENABLE_TEMP)
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ism330dhcx_sample_fetch_temp(dev);
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#endif
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#if defined(CONFIG_ISM330DHCX_SENSORHUB)
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ism330dhcx_sample_fetch_shub(dev);
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#endif
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break;
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default:
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return -ENOTSUP;
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}
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return 0;
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}
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static inline void ism330dhcx_accel_convert(struct sensor_value *val, int raw_val,
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uint32_t sensitivity)
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{
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int64_t dval;
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/* Sensitivity is exposed in ug/LSB */
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/* Convert to m/s^2 */
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dval = (int64_t)(raw_val) * sensitivity * SENSOR_G_DOUBLE;
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val->val1 = (int32_t)(dval / 1000000);
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val->val2 = (int32_t)(dval % 1000000);
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}
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static inline int ism330dhcx_accel_get_channel(enum sensor_channel chan,
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struct sensor_value *val,
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struct ism330dhcx_data *data,
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uint32_t sensitivity)
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{
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uint8_t i;
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switch (chan) {
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case SENSOR_CHAN_ACCEL_X:
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ism330dhcx_accel_convert(val, data->acc[0], sensitivity);
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break;
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case SENSOR_CHAN_ACCEL_Y:
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ism330dhcx_accel_convert(val, data->acc[1], sensitivity);
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break;
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case SENSOR_CHAN_ACCEL_Z:
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ism330dhcx_accel_convert(val, data->acc[2], sensitivity);
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break;
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case SENSOR_CHAN_ACCEL_XYZ:
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for (i = 0; i < 3; i++) {
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ism330dhcx_accel_convert(val++, data->acc[i], sensitivity);
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}
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break;
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default:
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return -ENOTSUP;
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}
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return 0;
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}
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static int ism330dhcx_accel_channel_get(enum sensor_channel chan,
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struct sensor_value *val,
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struct ism330dhcx_data *data)
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{
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return ism330dhcx_accel_get_channel(chan, val, data, data->acc_gain);
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}
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static inline void ism330dhcx_gyro_convert(struct sensor_value *val, int raw_val,
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uint32_t sensitivity)
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{
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int64_t dval;
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/* Sensitivity is exposed in udps/LSB */
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/* Convert to rad/s */
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dval = (int64_t)(raw_val) * sensitivity * SENSOR_DEG2RAD_DOUBLE;
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val->val1 = (int32_t)(dval / 1000000);
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val->val2 = (int32_t)(dval % 1000000);
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}
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static inline int ism330dhcx_gyro_get_channel(enum sensor_channel chan,
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struct sensor_value *val,
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struct ism330dhcx_data *data,
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uint32_t sensitivity)
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{
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uint8_t i;
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switch (chan) {
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case SENSOR_CHAN_GYRO_X:
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ism330dhcx_gyro_convert(val, data->gyro[0], sensitivity);
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break;
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case SENSOR_CHAN_GYRO_Y:
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ism330dhcx_gyro_convert(val, data->gyro[1], sensitivity);
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break;
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case SENSOR_CHAN_GYRO_Z:
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ism330dhcx_gyro_convert(val, data->gyro[2], sensitivity);
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break;
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case SENSOR_CHAN_GYRO_XYZ:
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for (i = 0; i < 3; i++) {
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ism330dhcx_gyro_convert(val++, data->gyro[i], sensitivity);
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}
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break;
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default:
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return -ENOTSUP;
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}
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return 0;
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}
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static int ism330dhcx_gyro_channel_get(enum sensor_channel chan,
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struct sensor_value *val,
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struct ism330dhcx_data *data)
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{
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return ism330dhcx_gyro_get_channel(chan, val, data,
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ISM330DHCX_DEFAULT_GYRO_SENSITIVITY);
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}
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#if defined(CONFIG_ISM330DHCX_ENABLE_TEMP)
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static void ism330dhcx_gyro_channel_get_temp(struct sensor_value *val,
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struct ism330dhcx_data *data)
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{
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/* val = temp_sample / 256 + 25 */
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val->val1 = data->temp_sample / 256 + 25;
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val->val2 = (data->temp_sample % 256) * (1000000 / 256);
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}
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#endif
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#if defined(CONFIG_ISM330DHCX_SENSORHUB)
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static inline void ism330dhcx_magn_convert(struct sensor_value *val, int raw_val,
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uint16_t sensitivity)
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{
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double dval;
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/* Sensitivity is exposed in mgauss/LSB */
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dval = (double)(raw_val * sensitivity);
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val->val1 = (int32_t)dval / 1000000;
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val->val2 = (int32_t)dval % 1000000;
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}
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static inline int ism330dhcx_magn_get_channel(enum sensor_channel chan,
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struct sensor_value *val,
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struct ism330dhcx_data *data)
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{
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int16_t sample[3];
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int idx;
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idx = ism330dhcx_shub_get_idx(SENSOR_CHAN_MAGN_XYZ);
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if (idx < 0) {
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LOG_DBG("external magn not supported");
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return -ENOTSUP;
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}
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sample[0] = (int16_t)(data->ext_data[idx][0] |
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(data->ext_data[idx][1] << 8));
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sample[1] = (int16_t)(data->ext_data[idx][2] |
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(data->ext_data[idx][3] << 8));
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sample[2] = (int16_t)(data->ext_data[idx][4] |
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(data->ext_data[idx][5] << 8));
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switch (chan) {
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case SENSOR_CHAN_MAGN_X:
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ism330dhcx_magn_convert(val, sample[0], data->magn_gain);
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break;
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case SENSOR_CHAN_MAGN_Y:
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ism330dhcx_magn_convert(val, sample[1], data->magn_gain);
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break;
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case SENSOR_CHAN_MAGN_Z:
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ism330dhcx_magn_convert(val, sample[2], data->magn_gain);
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break;
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case SENSOR_CHAN_MAGN_XYZ:
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ism330dhcx_magn_convert(val, sample[0], data->magn_gain);
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ism330dhcx_magn_convert(val + 1, sample[1], data->magn_gain);
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ism330dhcx_magn_convert(val + 2, sample[2], data->magn_gain);
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break;
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default:
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return -ENOTSUP;
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}
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return 0;
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}
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static inline void ism330dhcx_hum_convert(struct sensor_value *val,
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struct ism330dhcx_data *data)
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{
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float rh;
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int16_t raw_val;
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struct hts221_data *ht = &data->hts221;
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int idx;
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idx = ism330dhcx_shub_get_idx(SENSOR_CHAN_HUMIDITY);
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if (idx < 0) {
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LOG_DBG("external press/temp not supported");
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return;
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}
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raw_val = ((int16_t)(data->ext_data[idx][0] |
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(data->ext_data[idx][1] << 8)));
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/* find relative humidty by linear interpolation */
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rh = (ht->y1 - ht->y0) * raw_val + ht->x1 * ht->y0 - ht->x0 * ht->y1;
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rh /= (ht->x1 - ht->x0);
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/* convert humidity to integer and fractional part */
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val->val1 = rh;
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val->val2 = rh * 1000000;
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}
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static inline void ism330dhcx_press_convert(struct sensor_value *val,
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struct ism330dhcx_data *data)
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{
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int32_t raw_val;
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int idx;
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idx = ism330dhcx_shub_get_idx(SENSOR_CHAN_PRESS);
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if (idx < 0) {
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LOG_DBG("external press/temp not supported");
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return;
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}
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raw_val = (int32_t)(data->ext_data[idx][0] |
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(data->ext_data[idx][1] << 8) |
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(data->ext_data[idx][2] << 16));
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/* Pressure sensitivity is 4096 LSB/hPa */
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/* Convert raw_val to val in kPa */
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val->val1 = (raw_val >> 12) / 10;
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val->val2 = (raw_val >> 12) % 10 * 100000 +
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(((int32_t)((raw_val) & 0x0FFF) * 100000L) >> 12);
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}
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static inline void ism330dhcx_temp_convert(struct sensor_value *val,
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struct ism330dhcx_data *data)
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{
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int16_t raw_val;
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int idx;
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idx = ism330dhcx_shub_get_idx(SENSOR_CHAN_PRESS);
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if (idx < 0) {
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LOG_DBG("external press/temp not supported");
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return;
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}
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raw_val = (int16_t)(data->ext_data[idx][3] |
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(data->ext_data[idx][4] << 8));
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/* Temperature sensitivity is 100 LSB/deg C */
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val->val1 = raw_val / 100;
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val->val2 = (int32_t)raw_val % 100 * (10000);
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}
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#endif
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static int ism330dhcx_channel_get(struct device *dev,
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enum sensor_channel chan,
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struct sensor_value *val)
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{
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struct ism330dhcx_data *data = dev->driver_data;
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switch (chan) {
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case SENSOR_CHAN_ACCEL_X:
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case SENSOR_CHAN_ACCEL_Y:
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case SENSOR_CHAN_ACCEL_Z:
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case SENSOR_CHAN_ACCEL_XYZ:
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ism330dhcx_accel_channel_get(chan, val, data);
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break;
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case SENSOR_CHAN_GYRO_X:
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case SENSOR_CHAN_GYRO_Y:
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case SENSOR_CHAN_GYRO_Z:
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case SENSOR_CHAN_GYRO_XYZ:
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ism330dhcx_gyro_channel_get(chan, val, data);
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break;
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#if defined(CONFIG_ISM330DHCX_ENABLE_TEMP)
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case SENSOR_CHAN_DIE_TEMP:
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ism330dhcx_gyro_channel_get_temp(val, data);
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break;
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#endif
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#if defined(CONFIG_ISM330DHCX_SENSORHUB)
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case SENSOR_CHAN_MAGN_X:
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case SENSOR_CHAN_MAGN_Y:
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case SENSOR_CHAN_MAGN_Z:
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case SENSOR_CHAN_MAGN_XYZ:
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ism330dhcx_magn_get_channel(chan, val, data);
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break;
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case SENSOR_CHAN_HUMIDITY:
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ism330dhcx_hum_convert(val, data);
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break;
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case SENSOR_CHAN_PRESS:
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ism330dhcx_press_convert(val, data);
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break;
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case SENSOR_CHAN_AMBIENT_TEMP:
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ism330dhcx_temp_convert(val, data);
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break;
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#endif
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default:
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return -ENOTSUP;
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}
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return 0;
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}
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static const struct sensor_driver_api ism330dhcx_api_funcs = {
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.attr_set = ism330dhcx_attr_set,
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#if CONFIG_ISM330DHCX_TRIGGER
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.trigger_set = ism330dhcx_trigger_set,
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#endif
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.sample_fetch = ism330dhcx_sample_fetch,
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.channel_get = ism330dhcx_channel_get,
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};
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static int ism330dhcx_init_chip(struct device *dev)
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{
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struct ism330dhcx_data *ism330dhcx = dev->driver_data;
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uint8_t chip_id;
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if (ism330dhcx_device_id_get(ism330dhcx->ctx, &chip_id) < 0) {
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LOG_DBG("Failed reading chip id");
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return -EIO;
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}
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LOG_INF("chip id 0x%x", chip_id);
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if (chip_id != ISM330DHCX_ID) {
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LOG_DBG("Invalid chip id 0x%x", chip_id);
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return -EIO;
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}
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/* reset device */
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if (ism330dhcx_reset_set(ism330dhcx->ctx, 1) < 0) {
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return -EIO;
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}
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k_busy_wait(100);
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if (ism330dhcx_accel_set_fs_raw(dev,
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ISM330DHCX_DEFAULT_ACCEL_FULLSCALE) < 0) {
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LOG_DBG("failed to set accelerometer full-scale");
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return -EIO;
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}
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ism330dhcx->acc_gain = ISM330DHCX_DEFAULT_ACCEL_SENSITIVITY;
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ism330dhcx->accel_freq = ism330dhcx_odr_to_freq_val(CONFIG_ISM330DHCX_ACCEL_ODR);
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if (ism330dhcx_accel_set_odr_raw(dev, CONFIG_ISM330DHCX_ACCEL_ODR) < 0) {
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LOG_DBG("failed to set accelerometer sampling rate");
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return -EIO;
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}
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if (ism330dhcx_gyro_set_fs_raw(dev, ISM330DHCX_DEFAULT_GYRO_FULLSCALE) < 0) {
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LOG_DBG("failed to set gyroscope full-scale");
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return -EIO;
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}
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ism330dhcx->gyro_gain = ISM330DHCX_DEFAULT_GYRO_SENSITIVITY;
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ism330dhcx->gyro_freq = ism330dhcx_odr_to_freq_val(CONFIG_ISM330DHCX_GYRO_ODR);
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if (ism330dhcx_gyro_set_odr_raw(dev, CONFIG_ISM330DHCX_GYRO_ODR) < 0) {
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LOG_DBG("failed to set gyroscope sampling rate");
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return -EIO;
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}
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/* Set FIFO bypass mode */
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if (ism330dhcx_fifo_mode_set(ism330dhcx->ctx, ISM330DHCX_BYPASS_MODE) < 0) {
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LOG_DBG("failed to set FIFO mode");
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return -EIO;
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}
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if (ism330dhcx_block_data_update_set(ism330dhcx->ctx, 1) < 0) {
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LOG_DBG("failed to set BDU mode");
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return -EIO;
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}
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return 0;
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}
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static struct ism330dhcx_data ism330dhcx_data;
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static const struct ism330dhcx_config ism330dhcx_config = {
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.bus_name = DT_INST_BUS_LABEL(0),
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#if DT_ANY_INST_ON_BUS_STATUS_OKAY(spi)
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.bus_init = ism330dhcx_spi_init,
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.spi_conf.frequency = DT_INST_PROP(0, spi_max_frequency),
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.spi_conf.operation = (SPI_OP_MODE_MASTER | SPI_MODE_CPOL |
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SPI_MODE_CPHA | SPI_WORD_SET(8) |
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SPI_LINES_SINGLE),
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.spi_conf.slave = DT_INST_REG_ADDR(0),
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#if DT_INST_SPI_DEV_HAS_CS_GPIOS(0)
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.gpio_cs_port = DT_INST_SPI_DEV_CS_GPIOS_LABEL(0),
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.cs_gpio = DT_INST_SPI_DEV_CS_GPIOS_PIN(0),
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.cs_gpio_flags = DT_INST_SPI_DEV_CS_GPIOS_FLAGS(0),
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.spi_conf.cs = &ism330dhcx_data.cs_ctrl,
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#else
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.spi_conf.cs = NULL,
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#endif
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#elif DT_ANY_INST_ON_BUS_STATUS_OKAY(i2c)
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.bus_init = ism330dhcx_i2c_init,
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.i2c_slv_addr = DT_INST_REG_ADDR(0),
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#else
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#error "BUS MACRO NOT DEFINED IN DTS"
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#endif
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#ifdef CONFIG_ISM330DHCX_TRIGGER
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#if DT_INST_PROP_HAS_IDX(0, drdy_gpios, 1)
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/* Two gpio pins declared in DTS */
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#if defined(CONFIG_ISM330DHCX_INT_PIN_1)
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.int_gpio_port = DT_INST_GPIO_LABEL_BY_IDX(0, drdy_gpios, 0),
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.int_gpio_pin = DT_INST_GPIO_PIN_BY_IDX(0, drdy_gpios, 0),
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.int_gpio_flags = DT_INST_GPIO_FLAGS_BY_IDX(0, drdy_gpios, 0),
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.int_pin = 1,
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#elif defined(CONFIG_ISM330DHCX_INT_PIN_2)
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.int_gpio_port = DT_INST_GPIO_LABEL_BY_IDX(0, drdy_gpios, 1),
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.int_gpio_pin = DT_INST_GPIO_PIN_BY_IDX(0, drdy_gpios, 1),
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.int_gpio_flags = DT_INST_GPIO_FLAGS_BY_IDX(0, drdy_gpios, 1),
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.int_pin = 2,
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#endif /* CONFIG_ISM330DHCX_INT_PIN_* */
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#else
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/* One gpio pin declared in DTS */
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.int_gpio_port = DT_INST_GPIO_LABEL(0, drdy_gpios),
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.int_gpio_pin = DT_INST_GPIO_PIN(0, drdy_gpios),
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.int_gpio_flags = DT_INST_GPIO_FLAGS(0, drdy_gpios),
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#if defined(CONFIG_ISM330DHCX_INT_PIN_1)
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.int_pin = 1,
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#elif defined(CONFIG_ISM330DHCX_INT_PIN_2)
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.int_pin = 2,
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#endif /* CONFIG_ISM330DHCX_INT_PIN_* */
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#endif /* DT_INST_PROP_HAS_IDX(0, drdy_gpios, 1) */
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#endif /* CONFIG_ISM330DHCX_TRIGGER */
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};
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static int ism330dhcx_init(struct device *dev)
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{
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const struct ism330dhcx_config * const config = dev->config_info;
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struct ism330dhcx_data *data = dev->driver_data;
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data->bus = device_get_binding(config->bus_name);
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if (!data->bus) {
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LOG_DBG("master not found: %s",
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config->bus_name);
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return -EINVAL;
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}
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config->bus_init(dev);
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#ifdef CONFIG_ISM330DHCX_TRIGGER
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if (ism330dhcx_init_interrupt(dev) < 0) {
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LOG_ERR("Failed to initialize interrupt.");
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return -EIO;
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}
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#endif
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if (ism330dhcx_init_chip(dev) < 0) {
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LOG_DBG("failed to initialize chip");
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return -EIO;
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}
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#ifdef CONFIG_ISM330DHCX_SENSORHUB
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if (ism330dhcx_shub_init(dev) < 0) {
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LOG_DBG("failed to initialize external chip");
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return -EIO;
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}
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#endif
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return 0;
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}
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static struct ism330dhcx_data ism330dhcx_data;
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DEVICE_AND_API_INIT(ism330dhcx, DT_INST_LABEL(0), ism330dhcx_init,
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&ism330dhcx_data, &ism330dhcx_config, POST_KERNEL,
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CONFIG_SENSOR_INIT_PRIORITY, &ism330dhcx_api_funcs);
|