/** ****************************************************************************** * @file lsm6dsm_reg.h * @author Sensors Software Solution Team * @brief This file contains all the functions prototypes for the * lsm6dsm_reg.c driver. ****************************************************************************** * @attention * *

© Copyright (c) 2021 STMicroelectronics. * All rights reserved.

* * This software component is licensed by ST under BSD 3-Clause license, * the "License"; You may not use this file except in compliance with the * License. You may obtain a copy of the License at: * opensource.org/licenses/BSD-3-Clause * ****************************************************************************** */ /* Define to prevent recursive inclusion -------------------------------------*/ #ifndef LSM6DSM_REGS_H #define LSM6DSM_REGS_H #ifdef __cplusplus extern "C" { #endif /* Includes ------------------------------------------------------------------*/ #include #include #include /** @addtogroup LSM6DSM * @{ * */ /** @defgroup Endianness definitions * @{ * */ #ifndef DRV_BYTE_ORDER #ifndef __BYTE_ORDER__ #define DRV_LITTLE_ENDIAN 1234 #define DRV_BIG_ENDIAN 4321 /** if _BYTE_ORDER is not defined, choose the endianness of your architecture * by uncommenting the define which fits your platform endianness */ //#define DRV_BYTE_ORDER DRV_BIG_ENDIAN #define DRV_BYTE_ORDER DRV_LITTLE_ENDIAN #else /* defined __BYTE_ORDER__ */ #define DRV_LITTLE_ENDIAN __ORDER_LITTLE_ENDIAN__ #define DRV_BIG_ENDIAN __ORDER_BIG_ENDIAN__ #define DRV_BYTE_ORDER __BYTE_ORDER__ #endif /* __BYTE_ORDER__*/ #endif /* DRV_BYTE_ORDER */ /** * @} * */ /** @defgroup STMicroelectronics sensors common types * @{ * */ #ifndef MEMS_SHARED_TYPES #define MEMS_SHARED_TYPES typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t bit0 : 1; uint8_t bit1 : 1; uint8_t bit2 : 1; uint8_t bit3 : 1; uint8_t bit4 : 1; uint8_t bit5 : 1; uint8_t bit6 : 1; uint8_t bit7 : 1; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t bit7 : 1; uint8_t bit6 : 1; uint8_t bit5 : 1; uint8_t bit4 : 1; uint8_t bit3 : 1; uint8_t bit2 : 1; uint8_t bit1 : 1; uint8_t bit0 : 1; #endif /* DRV_BYTE_ORDER */ } bitwise_t; #define PROPERTY_DISABLE (0U) #define PROPERTY_ENABLE (1U) /** @addtogroup Interfaces_Functions * @brief This section provide a set of functions used to read and * write a generic register of the device. * MANDATORY: return 0 -> no Error. * @{ * */ typedef int32_t (*stmdev_write_ptr)(void *, uint8_t, const uint8_t *, uint16_t); typedef int32_t (*stmdev_read_ptr)(void *, uint8_t, uint8_t *, uint16_t); typedef void (*stmdev_mdelay_ptr)(uint32_t millisec); typedef struct { /** Component mandatory fields **/ stmdev_write_ptr write_reg; stmdev_read_ptr read_reg; /** Component optional fields **/ stmdev_mdelay_ptr mdelay; /** Customizable optional pointer **/ void *handle; } stmdev_ctx_t; /** * @} * */ #endif /* MEMS_SHARED_TYPES */ #ifndef MEMS_UCF_SHARED_TYPES #define MEMS_UCF_SHARED_TYPES /** @defgroup Generic address-data structure definition * @brief This structure is useful to load a predefined configuration * of a sensor. * You can create a sensor configuration by your own or using * Unico / Unicleo tools available on STMicroelectronics * web site. * * @{ * */ typedef struct { uint8_t address; uint8_t data; } ucf_line_t; /** * @} * */ #endif /* MEMS_UCF_SHARED_TYPES */ /** * @} * */ /** @defgroup LSM6DSM_Infos * @{ * */ /** I2C Device Address 8 bit format if SA0=0 -> D5 if SA0=1 -> D7 **/ #define LSM6DSM_I2C_ADD_L 0xD5U #define LSM6DSM_I2C_ADD_H 0xD7U /** Device Identification (Who am I) **/ #define LSM6DSM_ID 0x6AU /** * @} * */ #define LSM6DSM_FUNC_CFG_ACCESS 0x01U typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t not_used_01 : 5; uint8_t func_cfg_en : 3; /* func_cfg_en + func_cfg_en_b */ #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t func_cfg_en : 3; /* func_cfg_en + func_cfg_en_b */ uint8_t not_used_01 : 5; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_func_cfg_access_t; #define LSM6DSM_SENSOR_SYNC_TIME_FRAME 0x04U typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t tph : 4; uint8_t not_used_01 : 4; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t not_used_01 : 4; uint8_t tph : 4; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_sensor_sync_time_frame_t; #define LSM6DSM_SENSOR_SYNC_RES_RATIO 0x05U typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t rr : 2; uint8_t not_used_01 : 6; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t not_used_01 : 6; uint8_t rr : 2; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_sensor_sync_res_ratio_t; #define LSM6DSM_FIFO_CTRL1 0x06U typedef struct { uint8_t fth : 8; /* + FIFO_CTRL2(fth) */ } lsm6dsm_fifo_ctrl1_t; #define LSM6DSM_FIFO_CTRL2 0x07U typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t fth : 3; /* + FIFO_CTRL1(fth) */ uint8_t fifo_temp_en : 1; uint8_t not_used_01 : 2; uint8_t timer_pedo_fifo_drdy : 1; uint8_t timer_pedo_fifo_en : 1; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t timer_pedo_fifo_en : 1; uint8_t timer_pedo_fifo_drdy : 1; uint8_t not_used_01 : 2; uint8_t fifo_temp_en : 1; uint8_t fth : 3; /* + FIFO_CTRL1(fth) */ #endif /* DRV_BYTE_ORDER */ } lsm6dsm_fifo_ctrl2_t; #define LSM6DSM_FIFO_CTRL3 0x08U typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t dec_fifo_xl : 3; uint8_t dec_fifo_gyro : 3; uint8_t not_used_01 : 2; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t not_used_01 : 2; uint8_t dec_fifo_gyro : 3; uint8_t dec_fifo_xl : 3; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_fifo_ctrl3_t; #define LSM6DSM_FIFO_CTRL4 0x09U typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t dec_ds3_fifo : 3; uint8_t dec_ds4_fifo : 3; uint8_t only_high_data : 1; uint8_t stop_on_fth : 1; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t stop_on_fth : 1; uint8_t only_high_data : 1; uint8_t dec_ds4_fifo : 3; uint8_t dec_ds3_fifo : 3; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_fifo_ctrl4_t; #define LSM6DSM_FIFO_CTRL5 0x0AU typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t fifo_mode : 3; uint8_t odr_fifo : 4; uint8_t not_used_01 : 1; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t not_used_01 : 1; uint8_t odr_fifo : 4; uint8_t fifo_mode : 3; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_fifo_ctrl5_t; #define LSM6DSM_DRDY_PULSE_CFG 0x0BU typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t int2_wrist_tilt : 1; uint8_t not_used_01 : 6; uint8_t drdy_pulsed : 1; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t drdy_pulsed : 1; uint8_t not_used_01 : 6; uint8_t int2_wrist_tilt : 1; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_drdy_pulse_cfg_t; #define LSM6DSM_INT1_CTRL 0x0DU typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t int1_drdy_xl : 1; uint8_t int1_drdy_g : 1; uint8_t int1_boot : 1; uint8_t int1_fth : 1; uint8_t int1_fifo_ovr : 1; uint8_t int1_full_flag : 1; uint8_t int1_sign_mot : 1; uint8_t int1_step_detector : 1; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t int1_step_detector : 1; uint8_t int1_sign_mot : 1; uint8_t int1_full_flag : 1; uint8_t int1_fifo_ovr : 1; uint8_t int1_fth : 1; uint8_t int1_boot : 1; uint8_t int1_drdy_g : 1; uint8_t int1_drdy_xl : 1; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_int1_ctrl_t; #define LSM6DSM_INT2_CTRL 0x0EU typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t int2_drdy_xl : 1; uint8_t int2_drdy_g : 1; uint8_t int2_drdy_temp : 1; uint8_t int2_fth : 1; uint8_t int2_fifo_ovr : 1; uint8_t int2_full_flag : 1; uint8_t int2_step_count_ov : 1; uint8_t int2_step_delta : 1; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t int2_step_delta : 1; uint8_t int2_step_count_ov : 1; uint8_t int2_full_flag : 1; uint8_t int2_fifo_ovr : 1; uint8_t int2_fth : 1; uint8_t int2_drdy_temp : 1; uint8_t int2_drdy_g : 1; uint8_t int2_drdy_xl : 1; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_int2_ctrl_t; #define LSM6DSM_WHO_AM_I 0x0FU #define LSM6DSM_CTRL1_XL 0x10U typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t bw0_xl : 1; uint8_t lpf1_bw_sel : 1; uint8_t fs_xl : 2; uint8_t odr_xl : 4; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t odr_xl : 4; uint8_t fs_xl : 2; uint8_t lpf1_bw_sel : 1; uint8_t bw0_xl : 1; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_ctrl1_xl_t; #define LSM6DSM_CTRL2_G 0x11U typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t not_used_01 : 1; uint8_t fs_g : 3; /* fs_g + fs_125 */ uint8_t odr_g : 4; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t odr_g : 4; uint8_t fs_g : 3; /* fs_g + fs_125 */ uint8_t not_used_01 : 1; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_ctrl2_g_t; #define LSM6DSM_CTRL3_C 0x12U typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t sw_reset : 1; uint8_t ble : 1; uint8_t if_inc : 1; uint8_t sim : 1; uint8_t pp_od : 1; uint8_t h_lactive : 1; uint8_t bdu : 1; uint8_t boot : 1; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t boot : 1; uint8_t bdu : 1; uint8_t h_lactive : 1; uint8_t pp_od : 1; uint8_t sim : 1; uint8_t if_inc : 1; uint8_t ble : 1; uint8_t sw_reset : 1; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_ctrl3_c_t; #define LSM6DSM_CTRL4_C 0x13U typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t not_used_01 : 1; uint8_t lpf1_sel_g : 1; uint8_t i2c_disable : 1; uint8_t drdy_mask : 1; uint8_t den_drdy_int1 : 1; uint8_t int2_on_int1 : 1; uint8_t sleep : 1; uint8_t den_xl_en : 1; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t den_xl_en : 1; uint8_t sleep : 1; uint8_t int2_on_int1 : 1; uint8_t den_drdy_int1 : 1; uint8_t drdy_mask : 1; uint8_t i2c_disable : 1; uint8_t lpf1_sel_g : 1; uint8_t not_used_01 : 1; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_ctrl4_c_t; #define LSM6DSM_CTRL5_C 0x14U typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t st_xl : 2; uint8_t st_g : 2; uint8_t den_lh : 1; uint8_t rounding : 3; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t rounding : 3; uint8_t den_lh : 1; uint8_t st_g : 2; uint8_t st_xl : 2; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_ctrl5_c_t; #define LSM6DSM_CTRL6_C 0x15U typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t ftype : 2; uint8_t not_used_01 : 1; uint8_t usr_off_w : 1; uint8_t xl_hm_mode : 1; uint8_t den_mode : 3; /* trig_en + lvl_en + lvl2_en */ #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t den_mode : 3; /* trig_en + lvl_en + lvl2_en */ uint8_t xl_hm_mode : 1; uint8_t usr_off_w : 1; uint8_t not_used_01 : 1; uint8_t ftype : 2; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_ctrl6_c_t; #define LSM6DSM_CTRL7_G 0x16U typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t not_used_01 : 2; uint8_t rounding_status : 1; uint8_t not_used_02 : 1; uint8_t hpm_g : 2; uint8_t hp_en_g : 1; uint8_t g_hm_mode : 1; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t g_hm_mode : 1; uint8_t hp_en_g : 1; uint8_t hpm_g : 2; uint8_t not_used_02 : 1; uint8_t rounding_status : 1; uint8_t not_used_01 : 2; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_ctrl7_g_t; #define LSM6DSM_CTRL8_XL 0x17U typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t low_pass_on_6d : 1; uint8_t not_used_01 : 1; uint8_t hp_slope_xl_en : 1; uint8_t input_composite : 1; uint8_t hp_ref_mode : 1; uint8_t hpcf_xl : 2; uint8_t lpf2_xl_en : 1; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t lpf2_xl_en : 1; uint8_t hpcf_xl : 2; uint8_t hp_ref_mode : 1; uint8_t input_composite : 1; uint8_t hp_slope_xl_en : 1; uint8_t not_used_01 : 1; uint8_t low_pass_on_6d : 1; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_ctrl8_xl_t; #define LSM6DSM_CTRL9_XL 0x18U typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t not_used_01 : 2; uint8_t soft_en : 1; uint8_t not_used_02 : 1; uint8_t den_xl_g : 1; uint8_t den_z : 1; uint8_t den_y : 1; uint8_t den_x : 1; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t den_x : 1; uint8_t den_y : 1; uint8_t den_z : 1; uint8_t den_xl_g : 1; uint8_t not_used_02 : 1; uint8_t soft_en : 1; uint8_t not_used_01 : 2; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_ctrl9_xl_t; #define LSM6DSM_CTRL10_C 0x19U typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t sign_motion_en : 1; uint8_t pedo_rst_step : 1; uint8_t func_en : 1; uint8_t tilt_en : 1; uint8_t pedo_en : 1; uint8_t timer_en : 1; uint8_t not_used_01 : 1; uint8_t wrist_tilt_en : 1; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t wrist_tilt_en : 1; uint8_t not_used_01 : 1; uint8_t timer_en : 1; uint8_t pedo_en : 1; uint8_t tilt_en : 1; uint8_t func_en : 1; uint8_t pedo_rst_step : 1; uint8_t sign_motion_en : 1; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_ctrl10_c_t; #define LSM6DSM_MASTER_CONFIG 0x1AU typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t master_on : 1; uint8_t iron_en : 1; uint8_t pass_through_mode : 1; uint8_t pull_up_en : 1; uint8_t start_config : 1; uint8_t not_used_01 : 1; uint8_t data_valid_sel_fifo : 1; uint8_t drdy_on_int1 : 1; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t drdy_on_int1 : 1; uint8_t data_valid_sel_fifo : 1; uint8_t not_used_01 : 1; uint8_t start_config : 1; uint8_t pull_up_en : 1; uint8_t pass_through_mode : 1; uint8_t iron_en : 1; uint8_t master_on : 1; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_master_config_t; #define LSM6DSM_WAKE_UP_SRC 0x1BU typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t z_wu : 1; uint8_t y_wu : 1; uint8_t x_wu : 1; uint8_t wu_ia : 1; uint8_t sleep_state_ia : 1; uint8_t ff_ia : 1; uint8_t not_used_01 : 2; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t not_used_01 : 2; uint8_t ff_ia : 1; uint8_t sleep_state_ia : 1; uint8_t wu_ia : 1; uint8_t x_wu : 1; uint8_t y_wu : 1; uint8_t z_wu : 1; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_wake_up_src_t; #define LSM6DSM_TAP_SRC 0x1CU typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t z_tap : 1; uint8_t y_tap : 1; uint8_t x_tap : 1; uint8_t tap_sign : 1; uint8_t double_tap : 1; uint8_t single_tap : 1; uint8_t tap_ia : 1; uint8_t not_used_01 : 1; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t not_used_01 : 1; uint8_t tap_ia : 1; uint8_t single_tap : 1; uint8_t double_tap : 1; uint8_t tap_sign : 1; uint8_t x_tap : 1; uint8_t y_tap : 1; uint8_t z_tap : 1; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_tap_src_t; #define LSM6DSM_D6D_SRC 0x1DU typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t xl : 1; uint8_t xh : 1; uint8_t yl : 1; uint8_t yh : 1; uint8_t zl : 1; uint8_t zh : 1; uint8_t d6d_ia : 1; uint8_t den_drdy : 1; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t den_drdy : 1; uint8_t d6d_ia : 1; uint8_t zh : 1; uint8_t zl : 1; uint8_t yh : 1; uint8_t yl : 1; uint8_t xh : 1; uint8_t xl : 1; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_d6d_src_t; #define LSM6DSM_STATUS_REG 0x1EU typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t xlda : 1; uint8_t gda : 1; uint8_t tda : 1; uint8_t not_used_01 : 5; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t not_used_01 : 5; uint8_t tda : 1; uint8_t gda : 1; uint8_t xlda : 1; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_status_reg_t; #define LSM6DSM_STATUS_SPIAUX 0x1EU typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t xlda : 1; uint8_t gda : 1; uint8_t gyro_settling : 1; uint8_t not_used_01 : 5; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t not_used_01 : 5; uint8_t gyro_settling : 1; uint8_t gda : 1; uint8_t xlda : 1; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_status_spiaux_t; #define LSM6DSM_OUT_TEMP_L 0x20U #define LSM6DSM_OUT_TEMP_H 0x21U #define LSM6DSM_OUTX_L_G 0x22U #define LSM6DSM_OUTX_H_G 0x23U #define LSM6DSM_OUTY_L_G 0x24U #define LSM6DSM_OUTY_H_G 0x25U #define LSM6DSM_OUTZ_L_G 0x26U #define LSM6DSM_OUTZ_H_G 0x27U #define LSM6DSM_OUTX_L_XL 0x28U #define LSM6DSM_OUTX_H_XL 0x29U #define LSM6DSM_OUTY_L_XL 0x2AU #define LSM6DSM_OUTY_H_XL 0x2BU #define LSM6DSM_OUTZ_L_XL 0x2CU #define LSM6DSM_OUTZ_H_XL 0x2DU #define LSM6DSM_SENSORHUB1_REG 0x2EU typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t bit0 : 1; uint8_t bit1 : 1; uint8_t bit2 : 1; uint8_t bit3 : 1; uint8_t bit4 : 1; uint8_t bit5 : 1; uint8_t bit6 : 1; uint8_t bit7 : 1; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t bit7 : 1; uint8_t bit6 : 1; uint8_t bit5 : 1; uint8_t bit4 : 1; uint8_t bit3 : 1; uint8_t bit2 : 1; uint8_t bit1 : 1; uint8_t bit0 : 1; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_sensorhub1_reg_t; #define LSM6DSM_SENSORHUB2_REG 0x2FU typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t bit0 : 1; uint8_t bit1 : 1; uint8_t bit2 : 1; uint8_t bit3 : 1; uint8_t bit4 : 1; uint8_t bit5 : 1; uint8_t bit6 : 1; uint8_t bit7 : 1; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t bit7 : 1; uint8_t bit6 : 1; uint8_t bit5 : 1; uint8_t bit4 : 1; uint8_t bit3 : 1; uint8_t bit2 : 1; uint8_t bit1 : 1; uint8_t bit0 : 1; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_sensorhub2_reg_t; #define LSM6DSM_SENSORHUB3_REG 0x30U typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t bit0 : 1; uint8_t bit1 : 1; uint8_t bit2 : 1; uint8_t bit3 : 1; uint8_t bit4 : 1; uint8_t bit5 : 1; uint8_t bit6 : 1; uint8_t bit7 : 1; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t bit7 : 1; uint8_t bit6 : 1; uint8_t bit5 : 1; uint8_t bit4 : 1; uint8_t bit3 : 1; uint8_t bit2 : 1; uint8_t bit1 : 1; uint8_t bit0 : 1; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_sensorhub3_reg_t; #define LSM6DSM_SENSORHUB4_REG 0x31U typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t bit0 : 1; uint8_t bit1 : 1; uint8_t bit2 : 1; uint8_t bit3 : 1; uint8_t bit4 : 1; uint8_t bit5 : 1; uint8_t bit6 : 1; uint8_t bit7 : 1; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t bit7 : 1; uint8_t bit6 : 1; uint8_t bit5 : 1; uint8_t bit4 : 1; uint8_t bit3 : 1; uint8_t bit2 : 1; uint8_t bit1 : 1; uint8_t bit0 : 1; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_sensorhub4_reg_t; #define LSM6DSM_SENSORHUB5_REG 0x32U typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t bit0 : 1; uint8_t bit1 : 1; uint8_t bit2 : 1; uint8_t bit3 : 1; uint8_t bit4 : 1; uint8_t bit5 : 1; uint8_t bit6 : 1; uint8_t bit7 : 1; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t bit7 : 1; uint8_t bit6 : 1; uint8_t bit5 : 1; uint8_t bit4 : 1; uint8_t bit3 : 1; uint8_t bit2 : 1; uint8_t bit1 : 1; uint8_t bit0 : 1; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_sensorhub5_reg_t; #define LSM6DSM_SENSORHUB6_REG 0x33U typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t bit0 : 1; uint8_t bit1 : 1; uint8_t bit2 : 1; uint8_t bit3 : 1; uint8_t bit4 : 1; uint8_t bit5 : 1; uint8_t bit6 : 1; uint8_t bit7 : 1; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t bit7 : 1; uint8_t bit6 : 1; uint8_t bit5 : 1; uint8_t bit4 : 1; uint8_t bit3 : 1; uint8_t bit2 : 1; uint8_t bit1 : 1; uint8_t bit0 : 1; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_sensorhub6_reg_t; #define LSM6DSM_SENSORHUB7_REG 0x34U typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t bit0 : 1; uint8_t bit1 : 1; uint8_t bit2 : 1; uint8_t bit3 : 1; uint8_t bit4 : 1; uint8_t bit5 : 1; uint8_t bit6 : 1; uint8_t bit7 : 1; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t bit7 : 1; uint8_t bit6 : 1; uint8_t bit5 : 1; uint8_t bit4 : 1; uint8_t bit3 : 1; uint8_t bit2 : 1; uint8_t bit1 : 1; uint8_t bit0 : 1; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_sensorhub7_reg_t; #define LSM6DSM_SENSORHUB8_REG 0x35U typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t bit0 : 1; uint8_t bit1 : 1; uint8_t bit2 : 1; uint8_t bit3 : 1; uint8_t bit4 : 1; uint8_t bit5 : 1; uint8_t bit6 : 1; uint8_t bit7 : 1; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t bit7 : 1; uint8_t bit6 : 1; uint8_t bit5 : 1; uint8_t bit4 : 1; uint8_t bit3 : 1; uint8_t bit2 : 1; uint8_t bit1 : 1; uint8_t bit0 : 1; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_sensorhub8_reg_t; #define LSM6DSM_SENSORHUB9_REG 0x36U typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t bit0 : 1; uint8_t bit1 : 1; uint8_t bit2 : 1; uint8_t bit3 : 1; uint8_t bit4 : 1; uint8_t bit5 : 1; uint8_t bit6 : 1; uint8_t bit7 : 1; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t bit7 : 1; uint8_t bit6 : 1; uint8_t bit5 : 1; uint8_t bit4 : 1; uint8_t bit3 : 1; uint8_t bit2 : 1; uint8_t bit1 : 1; uint8_t bit0 : 1; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_sensorhub9_reg_t; #define LSM6DSM_SENSORHUB10_REG 0x37U typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t bit0 : 1; uint8_t bit1 : 1; uint8_t bit2 : 1; uint8_t bit3 : 1; uint8_t bit4 : 1; uint8_t bit5 : 1; uint8_t bit6 : 1; uint8_t bit7 : 1; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t bit7 : 1; uint8_t bit6 : 1; uint8_t bit5 : 1; uint8_t bit4 : 1; uint8_t bit3 : 1; uint8_t bit2 : 1; uint8_t bit1 : 1; uint8_t bit0 : 1; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_sensorhub10_reg_t; #define LSM6DSM_SENSORHUB11_REG 0x38U typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t bit0 : 1; uint8_t bit1 : 1; uint8_t bit2 : 1; uint8_t bit3 : 1; uint8_t bit4 : 1; uint8_t bit5 : 1; uint8_t bit6 : 1; uint8_t bit7 : 1; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t bit7 : 1; uint8_t bit6 : 1; uint8_t bit5 : 1; uint8_t bit4 : 1; uint8_t bit3 : 1; uint8_t bit2 : 1; uint8_t bit1 : 1; uint8_t bit0 : 1; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_sensorhub11_reg_t; #define LSM6DSM_SENSORHUB12_REG 0x39U typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t bit0 : 1; uint8_t bit1 : 1; uint8_t bit2 : 1; uint8_t bit3 : 1; uint8_t bit4 : 1; uint8_t bit5 : 1; uint8_t bit6 : 1; uint8_t bit7 : 1; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t bit7 : 1; uint8_t bit6 : 1; uint8_t bit5 : 1; uint8_t bit4 : 1; uint8_t bit3 : 1; uint8_t bit2 : 1; uint8_t bit1 : 1; uint8_t bit0 : 1; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_sensorhub12_reg_t; #define LSM6DSM_FIFO_STATUS1 0x3AU typedef struct { uint8_t diff_fifo : 8; /* + FIFO_STATUS2(diff_fifo) */ } lsm6dsm_fifo_status1_t; #define LSM6DSM_FIFO_STATUS2 0x3BU typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t diff_fifo : 3; /* + FIFO_STATUS1(diff_fifo) */ uint8_t not_used_01 : 1; uint8_t fifo_empty : 1; uint8_t fifo_full_smart : 1; uint8_t over_run : 1; uint8_t waterm : 1; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t waterm : 1; uint8_t over_run : 1; uint8_t fifo_full_smart : 1; uint8_t fifo_empty : 1; uint8_t not_used_01 : 1; uint8_t diff_fifo : 3; /* + FIFO_STATUS1(diff_fifo) */ #endif /* DRV_BYTE_ORDER */ } lsm6dsm_fifo_status2_t; #define LSM6DSM_FIFO_STATUS3 0x3CU typedef struct { uint8_t fifo_pattern : 8; /* + FIFO_STATUS4(fifo_pattern) */ } lsm6dsm_fifo_status3_t; #define LSM6DSM_FIFO_STATUS4 0x3DU typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t fifo_pattern : 2; /* + FIFO_STATUS3(fifo_pattern) */ uint8_t not_used_01 : 6; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t not_used_01 : 6; uint8_t fifo_pattern : 2; /* + FIFO_STATUS3(fifo_pattern) */ #endif /* DRV_BYTE_ORDER */ } lsm6dsm_fifo_status4_t; #define LSM6DSM_FIFO_DATA_OUT_L 0x3EU #define LSM6DSM_FIFO_DATA_OUT_H 0x3FU #define LSM6DSM_TIMESTAMP0_REG 0x40U #define LSM6DSM_TIMESTAMP1_REG 0x41U #define LSM6DSM_TIMESTAMP2_REG 0x42U #define LSM6DSM_STEP_TIMESTAMP_L 0x49U #define LSM6DSM_STEP_TIMESTAMP_H 0x4AU #define LSM6DSM_STEP_COUNTER_L 0x4BU #define LSM6DSM_STEP_COUNTER_H 0x4CU #define LSM6DSM_SENSORHUB13_REG 0x4DU typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t bit0 : 1; uint8_t bit1 : 1; uint8_t bit2 : 1; uint8_t bit3 : 1; uint8_t bit4 : 1; uint8_t bit5 : 1; uint8_t bit6 : 1; uint8_t bit7 : 1; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t bit7 : 1; uint8_t bit6 : 1; uint8_t bit5 : 1; uint8_t bit4 : 1; uint8_t bit3 : 1; uint8_t bit2 : 1; uint8_t bit1 : 1; uint8_t bit0 : 1; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_sensorhub13_reg_t; #define LSM6DSM_SENSORHUB14_REG 0x4EU typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t bit0 : 1; uint8_t bit1 : 1; uint8_t bit2 : 1; uint8_t bit3 : 1; uint8_t bit4 : 1; uint8_t bit5 : 1; uint8_t bit6 : 1; uint8_t bit7 : 1; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t bit7 : 1; uint8_t bit6 : 1; uint8_t bit5 : 1; uint8_t bit4 : 1; uint8_t bit3 : 1; uint8_t bit2 : 1; uint8_t bit1 : 1; uint8_t bit0 : 1; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_sensorhub14_reg_t; #define LSM6DSM_SENSORHUB15_REG 0x4FU typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t bit0 : 1; uint8_t bit1 : 1; uint8_t bit2 : 1; uint8_t bit3 : 1; uint8_t bit4 : 1; uint8_t bit5 : 1; uint8_t bit6 : 1; uint8_t bit7 : 1; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t bit7 : 1; uint8_t bit6 : 1; uint8_t bit5 : 1; uint8_t bit4 : 1; uint8_t bit3 : 1; uint8_t bit2 : 1; uint8_t bit1 : 1; uint8_t bit0 : 1; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_sensorhub15_reg_t; #define LSM6DSM_SENSORHUB16_REG 0x50U typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t bit0 : 1; uint8_t bit1 : 1; uint8_t bit2 : 1; uint8_t bit3 : 1; uint8_t bit4 : 1; uint8_t bit5 : 1; uint8_t bit6 : 1; uint8_t bit7 : 1; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t bit7 : 1; uint8_t bit6 : 1; uint8_t bit5 : 1; uint8_t bit4 : 1; uint8_t bit3 : 1; uint8_t bit2 : 1; uint8_t bit1 : 1; uint8_t bit0 : 1; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_sensorhub16_reg_t; #define LSM6DSM_SENSORHUB17_REG 0x51U typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t bit0 : 1; uint8_t bit1 : 1; uint8_t bit2 : 1; uint8_t bit3 : 1; uint8_t bit4 : 1; uint8_t bit5 : 1; uint8_t bit6 : 1; uint8_t bit7 : 1; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t bit7 : 1; uint8_t bit6 : 1; uint8_t bit5 : 1; uint8_t bit4 : 1; uint8_t bit3 : 1; uint8_t bit2 : 1; uint8_t bit1 : 1; uint8_t bit0 : 1; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_sensorhub17_reg_t; #define LSM6DSM_SENSORHUB18_REG 0x52U typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t bit0 : 1; uint8_t bit1 : 1; uint8_t bit2 : 1; uint8_t bit3 : 1; uint8_t bit4 : 1; uint8_t bit5 : 1; uint8_t bit6 : 1; uint8_t bit7 : 1; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t bit7 : 1; uint8_t bit6 : 1; uint8_t bit5 : 1; uint8_t bit4 : 1; uint8_t bit3 : 1; uint8_t bit2 : 1; uint8_t bit1 : 1; uint8_t bit0 : 1; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_sensorhub18_reg_t; #define LSM6DSM_FUNC_SRC1 0x53U typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t sensorhub_end_op : 1; uint8_t si_end_op : 1; uint8_t hi_fail : 1; uint8_t step_overflow : 1; uint8_t step_detected : 1; uint8_t tilt_ia : 1; uint8_t sign_motion_ia : 1; uint8_t step_count_delta_ia : 1; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t step_count_delta_ia : 1; uint8_t sign_motion_ia : 1; uint8_t tilt_ia : 1; uint8_t step_detected : 1; uint8_t step_overflow : 1; uint8_t hi_fail : 1; uint8_t si_end_op : 1; uint8_t sensorhub_end_op : 1; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_func_src1_t; #define LSM6DSM_FUNC_SRC2 0x54U typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t wrist_tilt_ia : 1; uint8_t not_used_01 : 2; uint8_t slave0_nack : 1; uint8_t slave1_nack : 1; uint8_t slave2_nack : 1; uint8_t slave3_nack : 1; uint8_t not_used_02 : 1; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t not_used_02 : 1; uint8_t slave3_nack : 1; uint8_t slave2_nack : 1; uint8_t slave1_nack : 1; uint8_t slave0_nack : 1; uint8_t not_used_01 : 2; uint8_t wrist_tilt_ia : 1; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_func_src2_t; #define LSM6DSM_WRIST_TILT_IA 0x55U typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t not_used_01 : 2; uint8_t wrist_tilt_ia_zneg : 1; uint8_t wrist_tilt_ia_zpos : 1; uint8_t wrist_tilt_ia_yneg : 1; uint8_t wrist_tilt_ia_ypos : 1; uint8_t wrist_tilt_ia_xneg : 1; uint8_t wrist_tilt_ia_xpos : 1; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t wrist_tilt_ia_xpos : 1; uint8_t wrist_tilt_ia_xneg : 1; uint8_t wrist_tilt_ia_ypos : 1; uint8_t wrist_tilt_ia_yneg : 1; uint8_t wrist_tilt_ia_zpos : 1; uint8_t wrist_tilt_ia_zneg : 1; uint8_t not_used_01 : 2; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_wrist_tilt_ia_t; #define LSM6DSM_TAP_CFG 0x58U typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t lir : 1; uint8_t tap_z_en : 1; uint8_t tap_y_en : 1; uint8_t tap_x_en : 1; uint8_t slope_fds : 1; uint8_t inact_en : 2; uint8_t interrupts_enable : 1; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t interrupts_enable : 1; uint8_t inact_en : 2; uint8_t slope_fds : 1; uint8_t tap_x_en : 1; uint8_t tap_y_en : 1; uint8_t tap_z_en : 1; uint8_t lir : 1; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_tap_cfg_t; #define LSM6DSM_TAP_THS_6D 0x59U typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t tap_ths : 5; uint8_t sixd_ths : 2; uint8_t d4d_en : 1; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t d4d_en : 1; uint8_t sixd_ths : 2; uint8_t tap_ths : 5; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_tap_ths_6d_t; #define LSM6DSM_INT_DUR2 0x5AU typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t shock : 2; uint8_t quiet : 2; uint8_t dur : 4; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t dur : 4; uint8_t quiet : 2; uint8_t shock : 2; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_int_dur2_t; #define LSM6DSM_WAKE_UP_THS 0x5BU typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t wk_ths : 6; uint8_t not_used_01 : 1; uint8_t single_double_tap : 1; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t single_double_tap : 1; uint8_t not_used_01 : 1; uint8_t wk_ths : 6; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_wake_up_ths_t; #define LSM6DSM_WAKE_UP_DUR 0x5CU typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t sleep_dur : 4; uint8_t timer_hr : 1; uint8_t wake_dur : 2; uint8_t ff_dur : 1; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t ff_dur : 1; uint8_t wake_dur : 2; uint8_t timer_hr : 1; uint8_t sleep_dur : 4; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_wake_up_dur_t; #define LSM6DSM_FREE_FALL 0x5DU typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t ff_ths : 3; uint8_t ff_dur : 5; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t ff_dur : 5; uint8_t ff_ths : 3; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_free_fall_t; #define LSM6DSM_MD1_CFG 0x5EU typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t int1_timer : 1; uint8_t int1_tilt : 1; uint8_t int1_6d : 1; uint8_t int1_double_tap : 1; uint8_t int1_ff : 1; uint8_t int1_wu : 1; uint8_t int1_single_tap : 1; uint8_t int1_inact_state : 1; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t int1_inact_state : 1; uint8_t int1_single_tap : 1; uint8_t int1_wu : 1; uint8_t int1_ff : 1; uint8_t int1_double_tap : 1; uint8_t int1_6d : 1; uint8_t int1_tilt : 1; uint8_t int1_timer : 1; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_md1_cfg_t; #define LSM6DSM_MD2_CFG 0x5FU typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t int2_iron : 1; uint8_t int2_tilt : 1; uint8_t int2_6d : 1; uint8_t int2_double_tap : 1; uint8_t int2_ff : 1; uint8_t int2_wu : 1; uint8_t int2_single_tap : 1; uint8_t int2_inact_state : 1; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t int2_inact_state : 1; uint8_t int2_single_tap : 1; uint8_t int2_wu : 1; uint8_t int2_ff : 1; uint8_t int2_double_tap : 1; uint8_t int2_6d : 1; uint8_t int2_tilt : 1; uint8_t int2_iron : 1; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_md2_cfg_t; #define LSM6DSM_MASTER_CMD_CODE 0x60U typedef struct { uint8_t master_cmd_code : 8; } lsm6dsm_master_cmd_code_t; #define LSM6DSM_SENS_SYNC_SPI_ERROR_CODE 0x61U typedef struct { uint8_t error_code : 8; } lsm6dsm_sens_sync_spi_error_code_t; #define LSM6DSM_OUT_MAG_RAW_X_L 0x66U #define LSM6DSM_OUT_MAG_RAW_X_H 0x67U #define LSM6DSM_OUT_MAG_RAW_Y_L 0x68U #define LSM6DSM_OUT_MAG_RAW_Y_H 0x69U #define LSM6DSM_OUT_MAG_RAW_Z_L 0x6AU #define LSM6DSM_OUT_MAG_RAW_Z_H 0x6BU #define LSM6DSM_INT_OIS 0x6FU typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t not_used_01 : 6; uint8_t lvl2_ois : 1; uint8_t int2_drdy_ois : 1; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t int2_drdy_ois : 1; uint8_t lvl2_ois : 1; uint8_t not_used_01 : 6; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_int_ois_t; #define LSM6DSM_CTRL1_OIS 0x70U typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t ois_en_spi2 : 1; uint8_t fs_g_ois : 3; /* fs_g_ois + fs_125_ois */ uint8_t mode4_en : 1; uint8_t sim_ois : 1; uint8_t lvl1_ois : 1; uint8_t ble_ois : 1; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t ble_ois : 1; uint8_t lvl1_ois : 1; uint8_t sim_ois : 1; uint8_t mode4_en : 1; uint8_t fs_g_ois : 3; /* fs_g_ois + fs_125_ois */ uint8_t ois_en_spi2 : 1; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_ctrl1_ois_t; #define LSM6DSM_CTRL2_OIS 0x71U typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t hp_en_ois : 1; uint8_t ftype_ois : 2; uint8_t not_used_01 : 1; uint8_t hpm_ois : 2; uint8_t not_used_02 : 2; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t not_used_02 : 2; uint8_t hpm_ois : 2; uint8_t not_used_01 : 1; uint8_t ftype_ois : 2; uint8_t hp_en_ois : 1; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_ctrl2_ois_t; #define LSM6DSM_CTRL3_OIS 0x72U typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t st_ois_clampdis : 1; uint8_t st_ois : 2; uint8_t filter_xl_conf_ois : 2; uint8_t fs_xl_ois : 2; uint8_t den_lh_ois : 1; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t den_lh_ois : 1; uint8_t fs_xl_ois : 2; uint8_t filter_xl_conf_ois : 2; uint8_t st_ois : 2; uint8_t st_ois_clampdis : 1; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_ctrl3_ois_t; #define LSM6DSM_X_OFS_USR 0x73U #define LSM6DSM_Y_OFS_USR 0x74U #define LSM6DSM_Z_OFS_USR 0x75U #define LSM6DSM_SLV0_ADD 0x02U typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t rw_0 : 1; uint8_t slave0_add : 7; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t slave0_add : 7; uint8_t rw_0 : 1; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_slv0_add_t; #define LSM6DSM_SLV0_SUBADD 0x03U typedef struct { uint8_t slave0_reg : 8; } lsm6dsm_slv0_subadd_t; #define LSM6DSM_SLAVE0_CONFIG 0x04U typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t slave0_numop : 3; uint8_t src_mode : 1; uint8_t aux_sens_on : 2; uint8_t slave0_rate : 2; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t slave0_rate : 2; uint8_t aux_sens_on : 2; uint8_t src_mode : 1; uint8_t slave0_numop : 3; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_slave0_config_t; #define LSM6DSM_SLV1_ADD 0x05U typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t r_1 : 1; uint8_t slave1_add : 7; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t slave1_add : 7; uint8_t r_1 : 1; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_slv1_add_t; #define LSM6DSM_SLV1_SUBADD 0x06U typedef struct { uint8_t slave1_reg : 8; } lsm6dsm_slv1_subadd_t; #define LSM6DSM_SLAVE1_CONFIG 0x07U typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t slave1_numop : 3; uint8_t not_used_01 : 2; uint8_t write_once : 1; uint8_t slave1_rate : 2; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t slave1_rate : 2; uint8_t write_once : 1; uint8_t not_used_01 : 2; uint8_t slave1_numop : 3; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_slave1_config_t; #define LSM6DSM_SLV2_ADD 0x08U typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t r_2 : 1; uint8_t slave2_add : 7; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t slave2_add : 7; uint8_t r_2 : 1; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_slv2_add_t; #define LSM6DSM_SLV2_SUBADD 0x09U typedef struct { uint8_t slave2_reg : 8; } lsm6dsm_slv2_subadd_t; #define LSM6DSM_SLAVE2_CONFIG 0x0AU typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t slave2_numop : 3; uint8_t not_used_01 : 3; uint8_t slave2_rate : 2; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t slave2_rate : 2; uint8_t not_used_01 : 3; uint8_t slave2_numop : 3; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_slave2_config_t; #define LSM6DSM_SLV3_ADD 0x0BU typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t r_3 : 1; uint8_t slave3_add : 7; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t slave3_add : 7; uint8_t r_3 : 1; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_slv3_add_t; #define LSM6DSM_SLV3_SUBADD 0x0CU typedef struct { uint8_t slave3_reg : 8; } lsm6dsm_slv3_subadd_t; #define LSM6DSM_SLAVE3_CONFIG 0x0DU typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t slave3_numop : 3; uint8_t not_used_01 : 3; uint8_t slave3_rate : 2; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t slave3_rate : 2; uint8_t not_used_01 : 3; uint8_t slave3_numop : 3; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_slave3_config_t; #define LSM6DSM_DATAWRITE_SRC_MODE_SUB_SLV0 0x0EU typedef struct { uint8_t slave_dataw : 8; } lsm6dsm_datawrite_src_mode_sub_slv0_t; #define LSM6DSM_CONFIG_PEDO_THS_MIN 0x0FU typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t ths_min : 5; uint8_t not_used_01 : 2; uint8_t pedo_fs : 1; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t pedo_fs : 1; uint8_t not_used_01 : 2; uint8_t ths_min : 5; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_config_pedo_ths_min_t; #define LSM6DSM_SM_THS 0x13U #define LSM6DSM_PEDO_DEB_REG 0x14U typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t deb_step : 3; uint8_t deb_time : 5; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t deb_time : 5; uint8_t deb_step : 3; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_pedo_deb_reg_t; #define LSM6DSM_STEP_COUNT_DELTA 0x15U #define LSM6DSM_MAG_SI_XX 0x24U #define LSM6DSM_MAG_SI_XY 0x25U #define LSM6DSM_MAG_SI_XZ 0x26U #define LSM6DSM_MAG_SI_YX 0x27U #define LSM6DSM_MAG_SI_YY 0x28U #define LSM6DSM_MAG_SI_YZ 0x29U #define LSM6DSM_MAG_SI_ZX 0x2AU #define LSM6DSM_MAG_SI_ZY 0x2BU #define LSM6DSM_MAG_SI_ZZ 0x2CU #define LSM6DSM_MAG_OFFX_L 0x2DU #define LSM6DSM_MAG_OFFX_H 0x2EU #define LSM6DSM_MAG_OFFY_L 0x2FU #define LSM6DSM_MAG_OFFY_H 0x30U #define LSM6DSM_MAG_OFFZ_L 0x31U #define LSM6DSM_MAG_OFFZ_H 0x32U #define LSM6DSM_A_WRIST_TILT_LAT 0x50U #define LSM6DSM_A_WRIST_TILT_THS 0x54U #define LSM6DSM_A_WRIST_TILT_MASK 0x59U typedef struct { #if DRV_BYTE_ORDER == DRV_LITTLE_ENDIAN uint8_t not_used_01 : 2; uint8_t wrist_tilt_mask_zneg : 1; uint8_t wrist_tilt_mask_zpos : 1; uint8_t wrist_tilt_mask_yneg : 1; uint8_t wrist_tilt_mask_ypos : 1; uint8_t wrist_tilt_mask_xneg : 1; uint8_t wrist_tilt_mask_xpos : 1; #elif DRV_BYTE_ORDER == DRV_BIG_ENDIAN uint8_t wrist_tilt_mask_xpos : 1; uint8_t wrist_tilt_mask_xneg : 1; uint8_t wrist_tilt_mask_ypos : 1; uint8_t wrist_tilt_mask_yneg : 1; uint8_t wrist_tilt_mask_zpos : 1; uint8_t wrist_tilt_mask_zneg : 1; uint8_t not_used_01 : 2; #endif /* DRV_BYTE_ORDER */ } lsm6dsm_a_wrist_tilt_mask_t; /** * @defgroup LSM6DSM_Register_Union * @brief This union group all the registers having a bit-field * description. * This union is useful but it's not needed by the driver. * * REMOVING this union you are compliant with: * MISRA-C 2012 [Rule 19.2] -> " Union are not allowed " * * @{ * */ typedef union { lsm6dsm_func_cfg_access_t func_cfg_access; lsm6dsm_sensor_sync_time_frame_t sensor_sync_time_frame; lsm6dsm_sensor_sync_res_ratio_t sensor_sync_res_ratio; lsm6dsm_fifo_ctrl1_t fifo_ctrl1; lsm6dsm_fifo_ctrl2_t fifo_ctrl2; lsm6dsm_fifo_ctrl3_t fifo_ctrl3; lsm6dsm_fifo_ctrl4_t fifo_ctrl4; lsm6dsm_fifo_ctrl5_t fifo_ctrl5; lsm6dsm_drdy_pulse_cfg_t drdy_pulse_cfg; lsm6dsm_int1_ctrl_t int1_ctrl; lsm6dsm_int2_ctrl_t int2_ctrl; lsm6dsm_ctrl1_xl_t ctrl1_xl; lsm6dsm_ctrl2_g_t ctrl2_g; lsm6dsm_ctrl3_c_t ctrl3_c; lsm6dsm_ctrl4_c_t ctrl4_c; lsm6dsm_ctrl5_c_t ctrl5_c; lsm6dsm_ctrl6_c_t ctrl6_c; lsm6dsm_ctrl7_g_t ctrl7_g; lsm6dsm_ctrl8_xl_t ctrl8_xl; lsm6dsm_ctrl9_xl_t ctrl9_xl; lsm6dsm_ctrl10_c_t ctrl10_c; lsm6dsm_master_config_t master_config; lsm6dsm_wake_up_src_t wake_up_src; lsm6dsm_tap_src_t tap_src; lsm6dsm_d6d_src_t d6d_src; lsm6dsm_status_reg_t status_reg; lsm6dsm_status_spiaux_t status_spiaux; lsm6dsm_sensorhub1_reg_t sensorhub1_reg; lsm6dsm_sensorhub2_reg_t sensorhub2_reg; lsm6dsm_sensorhub3_reg_t sensorhub3_reg; lsm6dsm_sensorhub4_reg_t sensorhub4_reg; lsm6dsm_sensorhub5_reg_t sensorhub5_reg; lsm6dsm_sensorhub6_reg_t sensorhub6_reg; lsm6dsm_sensorhub7_reg_t sensorhub7_reg; lsm6dsm_sensorhub8_reg_t sensorhub8_reg; lsm6dsm_sensorhub9_reg_t sensorhub9_reg; lsm6dsm_sensorhub10_reg_t sensorhub10_reg; lsm6dsm_sensorhub11_reg_t sensorhub11_reg; lsm6dsm_sensorhub12_reg_t sensorhub12_reg; lsm6dsm_fifo_status1_t fifo_status1; lsm6dsm_fifo_status2_t fifo_status2; lsm6dsm_fifo_status3_t fifo_status3; lsm6dsm_fifo_status4_t fifo_status4; lsm6dsm_sensorhub13_reg_t sensorhub13_reg; lsm6dsm_sensorhub14_reg_t sensorhub14_reg; lsm6dsm_sensorhub15_reg_t sensorhub15_reg; lsm6dsm_sensorhub16_reg_t sensorhub16_reg; lsm6dsm_sensorhub17_reg_t sensorhub17_reg; lsm6dsm_sensorhub18_reg_t sensorhub18_reg; lsm6dsm_func_src1_t func_src1; lsm6dsm_func_src2_t func_src2; lsm6dsm_wrist_tilt_ia_t wrist_tilt_ia; lsm6dsm_tap_cfg_t tap_cfg; lsm6dsm_tap_ths_6d_t tap_ths_6d; lsm6dsm_int_dur2_t int_dur2; lsm6dsm_wake_up_ths_t wake_up_ths; lsm6dsm_wake_up_dur_t wake_up_dur; lsm6dsm_free_fall_t free_fall; lsm6dsm_md1_cfg_t md1_cfg; lsm6dsm_md2_cfg_t md2_cfg; lsm6dsm_master_cmd_code_t master_cmd_code; lsm6dsm_sens_sync_spi_error_code_t sens_sync_spi_error_code; lsm6dsm_int_ois_t int_ois; lsm6dsm_ctrl1_ois_t ctrl1_ois; lsm6dsm_ctrl2_ois_t ctrl2_ois; lsm6dsm_ctrl3_ois_t ctrl3_ois; lsm6dsm_slv0_add_t slv0_add; lsm6dsm_slv0_subadd_t slv0_subadd; lsm6dsm_slave0_config_t slave0_config; lsm6dsm_slv1_add_t slv1_add; lsm6dsm_slv1_subadd_t slv1_subadd; lsm6dsm_slave1_config_t slave1_config; lsm6dsm_slv2_add_t slv2_add; lsm6dsm_slv2_subadd_t slv2_subadd; lsm6dsm_slave2_config_t slave2_config; lsm6dsm_slv3_add_t slv3_add; lsm6dsm_slv3_subadd_t slv3_subadd; lsm6dsm_slave3_config_t slave3_config; lsm6dsm_datawrite_src_mode_sub_slv0_t datawrite_src_mode_sub_slv0; lsm6dsm_config_pedo_ths_min_t config_pedo_ths_min; lsm6dsm_pedo_deb_reg_t pedo_deb_reg; lsm6dsm_a_wrist_tilt_mask_t a_wrist_tilt_mask; bitwise_t bitwise; uint8_t byte; } lsm6dsm_reg_t; /** * @} * */ #ifndef __weak #define __weak __attribute__((weak)) #endif /* __weak */ /* * These are the basic platform dependent I/O routines to read * and write device registers connected on a standard bus. * The driver keeps offering a default implementation based on function * pointers to read/write routines for backward compatibility. * The __weak directive allows the final application to overwrite * them with a custom implementation. */ int32_t lsm6dsm_read_reg(const stmdev_ctx_t *ctx, uint8_t reg, uint8_t *data, uint16_t len); int32_t lsm6dsm_write_reg(const stmdev_ctx_t *ctx, uint8_t reg, uint8_t *data, uint16_t len); float_t lsm6dsm_from_fs2g_to_mg(int16_t lsb); float_t lsm6dsm_from_fs4g_to_mg(int16_t lsb); float_t lsm6dsm_from_fs8g_to_mg(int16_t lsb); float_t lsm6dsm_from_fs16g_to_mg(int16_t lsb); float_t lsm6dsm_from_fs125dps_to_mdps(int16_t lsb); float_t lsm6dsm_from_fs250dps_to_mdps(int16_t lsb); float_t lsm6dsm_from_fs500dps_to_mdps(int16_t lsb); float_t lsm6dsm_from_fs1000dps_to_mdps(int16_t lsb); float_t lsm6dsm_from_fs2000dps_to_mdps(int16_t lsb); float_t lsm6dsm_from_lsb_to_celsius(int16_t lsb); typedef enum { LSM6DSM_2g = 0, LSM6DSM_16g = 1, LSM6DSM_4g = 2, LSM6DSM_8g = 3, } lsm6dsm_fs_xl_t; int32_t lsm6dsm_xl_full_scale_set(const stmdev_ctx_t *ctx, lsm6dsm_fs_xl_t val); int32_t lsm6dsm_xl_full_scale_get(const stmdev_ctx_t *ctx, lsm6dsm_fs_xl_t *val); typedef enum { LSM6DSM_XL_ODR_OFF = 0, LSM6DSM_XL_ODR_12Hz5 = 1, LSM6DSM_XL_ODR_26Hz = 2, LSM6DSM_XL_ODR_52Hz = 3, LSM6DSM_XL_ODR_104Hz = 4, LSM6DSM_XL_ODR_208Hz = 5, LSM6DSM_XL_ODR_416Hz = 6, LSM6DSM_XL_ODR_833Hz = 7, LSM6DSM_XL_ODR_1k66Hz = 8, LSM6DSM_XL_ODR_3k33Hz = 9, LSM6DSM_XL_ODR_6k66Hz = 10, LSM6DSM_XL_ODR_1Hz6 = 11, } lsm6dsm_odr_xl_t; int32_t lsm6dsm_xl_data_rate_set(const stmdev_ctx_t *ctx, lsm6dsm_odr_xl_t val); int32_t lsm6dsm_xl_data_rate_get(const stmdev_ctx_t *ctx, lsm6dsm_odr_xl_t *val); typedef enum { LSM6DSM_250dps = 0, LSM6DSM_125dps = 1, LSM6DSM_500dps = 2, LSM6DSM_1000dps = 4, LSM6DSM_2000dps = 6, } lsm6dsm_fs_g_t; int32_t lsm6dsm_gy_full_scale_set(const stmdev_ctx_t *ctx, lsm6dsm_fs_g_t val); int32_t lsm6dsm_gy_full_scale_get(const stmdev_ctx_t *ctx, lsm6dsm_fs_g_t *val); typedef enum { LSM6DSM_GY_ODR_OFF = 0, LSM6DSM_GY_ODR_12Hz5 = 1, LSM6DSM_GY_ODR_26Hz = 2, LSM6DSM_GY_ODR_52Hz = 3, LSM6DSM_GY_ODR_104Hz = 4, LSM6DSM_GY_ODR_208Hz = 5, LSM6DSM_GY_ODR_416Hz = 6, LSM6DSM_GY_ODR_833Hz = 7, LSM6DSM_GY_ODR_1k66Hz = 8, LSM6DSM_GY_ODR_3k33Hz = 9, LSM6DSM_GY_ODR_6k66Hz = 10, } lsm6dsm_odr_g_t; int32_t lsm6dsm_gy_data_rate_set(const stmdev_ctx_t *ctx, lsm6dsm_odr_g_t val); int32_t lsm6dsm_gy_data_rate_get(const stmdev_ctx_t *ctx, lsm6dsm_odr_g_t *val); int32_t lsm6dsm_block_data_update_set(const stmdev_ctx_t *ctx, uint8_t val); int32_t lsm6dsm_block_data_update_get(const stmdev_ctx_t *ctx, uint8_t *val); typedef enum { LSM6DSM_LSb_1mg = 0, LSM6DSM_LSb_16mg = 1, } lsm6dsm_usr_off_w_t; int32_t lsm6dsm_xl_offset_weight_set(const stmdev_ctx_t *ctx, lsm6dsm_usr_off_w_t val); int32_t lsm6dsm_xl_offset_weight_get(const stmdev_ctx_t *ctx, lsm6dsm_usr_off_w_t *val); typedef enum { LSM6DSM_XL_HIGH_PERFORMANCE = 0, LSM6DSM_XL_NORMAL = 1, } lsm6dsm_xl_hm_mode_t; int32_t lsm6dsm_xl_power_mode_set(const stmdev_ctx_t *ctx, lsm6dsm_xl_hm_mode_t val); int32_t lsm6dsm_xl_power_mode_get(const stmdev_ctx_t *ctx, lsm6dsm_xl_hm_mode_t *val); typedef enum { LSM6DSM_STAT_RND_DISABLE = 0, LSM6DSM_STAT_RND_ENABLE = 1, } lsm6dsm_rounding_status_t; int32_t lsm6dsm_rounding_on_status_set(const stmdev_ctx_t *ctx, lsm6dsm_rounding_status_t val); int32_t lsm6dsm_rounding_on_status_get(const stmdev_ctx_t *ctx, lsm6dsm_rounding_status_t *val); typedef enum { LSM6DSM_GY_HIGH_PERFORMANCE = 0, LSM6DSM_GY_NORMAL = 1, } lsm6dsm_g_hm_mode_t; int32_t lsm6dsm_gy_power_mode_set(const stmdev_ctx_t *ctx, lsm6dsm_g_hm_mode_t val); int32_t lsm6dsm_gy_power_mode_get(const stmdev_ctx_t *ctx, lsm6dsm_g_hm_mode_t *val); typedef struct { lsm6dsm_wake_up_src_t wake_up_src; lsm6dsm_tap_src_t tap_src; lsm6dsm_d6d_src_t d6d_src; lsm6dsm_status_reg_t status_reg; lsm6dsm_func_src1_t func_src1; lsm6dsm_func_src2_t func_src2; lsm6dsm_wrist_tilt_ia_t wrist_tilt_ia; lsm6dsm_a_wrist_tilt_mask_t a_wrist_tilt_mask; } lsm6dsm_all_sources_t; int32_t lsm6dsm_all_sources_get(const stmdev_ctx_t *ctx, lsm6dsm_all_sources_t *val); int32_t lsm6dsm_status_reg_get(const stmdev_ctx_t *ctx, lsm6dsm_status_reg_t *val); int32_t lsm6dsm_xl_flag_data_ready_get(const stmdev_ctx_t *ctx, uint8_t *val); int32_t lsm6dsm_gy_flag_data_ready_get(const stmdev_ctx_t *ctx, uint8_t *val); int32_t lsm6dsm_temp_flag_data_ready_get(const stmdev_ctx_t *ctx, uint8_t *val); int32_t lsm6dsm_xl_usr_offset_set(const stmdev_ctx_t *ctx, uint8_t *buff); int32_t lsm6dsm_xl_usr_offset_get(const stmdev_ctx_t *ctx, uint8_t *buff); int32_t lsm6dsm_timestamp_set(const stmdev_ctx_t *ctx, uint8_t val); int32_t lsm6dsm_timestamp_get(const stmdev_ctx_t *ctx, uint8_t *val); typedef enum { LSM6DSM_LSB_6ms4 = 0, LSM6DSM_LSB_25us = 1, } lsm6dsm_timer_hr_t; int32_t lsm6dsm_timestamp_res_set(const stmdev_ctx_t *ctx, lsm6dsm_timer_hr_t val); int32_t lsm6dsm_timestamp_res_get(const stmdev_ctx_t *ctx, lsm6dsm_timer_hr_t *val); typedef enum { LSM6DSM_ROUND_DISABLE = 0, LSM6DSM_ROUND_XL = 1, LSM6DSM_ROUND_GY = 2, LSM6DSM_ROUND_GY_XL = 3, LSM6DSM_ROUND_SH1_TO_SH6 = 4, LSM6DSM_ROUND_XL_SH1_TO_SH6 = 5, LSM6DSM_ROUND_GY_XL_SH1_TO_SH12 = 6, LSM6DSM_ROUND_GY_XL_SH1_TO_SH6 = 7, } lsm6dsm_rounding_t; int32_t lsm6dsm_rounding_mode_set(const stmdev_ctx_t *ctx, lsm6dsm_rounding_t val); int32_t lsm6dsm_rounding_mode_get(const stmdev_ctx_t *ctx, lsm6dsm_rounding_t *val); int32_t lsm6dsm_temperature_raw_get(const stmdev_ctx_t *ctx, int16_t *val); int32_t lsm6dsm_angular_rate_raw_get(const stmdev_ctx_t *ctx, int16_t *val); int32_t lsm6dsm_acceleration_raw_get(const stmdev_ctx_t *ctx, int16_t *val); int32_t lsm6dsm_mag_calibrated_raw_get(const stmdev_ctx_t *ctx, int16_t *val); int32_t lsm6dsm_fifo_raw_data_get(const stmdev_ctx_t *ctx, uint8_t *buffer, uint8_t len); typedef enum { LSM6DSM_USER_BANK = 0, LSM6DSM_BANK_A = 4, LSM6DSM_BANK_B = 5, } lsm6dsm_func_cfg_en_t; int32_t lsm6dsm_mem_bank_set(const stmdev_ctx_t *ctx, lsm6dsm_func_cfg_en_t val); int32_t lsm6dsm_mem_bank_get(const stmdev_ctx_t *ctx, lsm6dsm_func_cfg_en_t *val); typedef enum { LSM6DSM_DRDY_LATCHED = 0, LSM6DSM_DRDY_PULSED = 1, } lsm6dsm_drdy_pulsed_g_t; int32_t lsm6dsm_data_ready_mode_set(const stmdev_ctx_t *ctx, lsm6dsm_drdy_pulsed_g_t val); int32_t lsm6dsm_data_ready_mode_get(const stmdev_ctx_t *ctx, lsm6dsm_drdy_pulsed_g_t *val); int32_t lsm6dsm_device_id_get(const stmdev_ctx_t *ctx, uint8_t *buff); int32_t lsm6dsm_reset_set(const stmdev_ctx_t *ctx, uint8_t val); int32_t lsm6dsm_reset_get(const stmdev_ctx_t *ctx, uint8_t *val); typedef enum { LSM6DSM_LSB_AT_LOW_ADD = 0, LSM6DSM_MSB_AT_LOW_ADD = 1, } lsm6dsm_ble_t; int32_t lsm6dsm_data_format_set(const stmdev_ctx_t *ctx, lsm6dsm_ble_t val); int32_t lsm6dsm_data_format_get(const stmdev_ctx_t *ctx, lsm6dsm_ble_t *val); int32_t lsm6dsm_auto_increment_set(const stmdev_ctx_t *ctx, uint8_t val); int32_t lsm6dsm_auto_increment_get(const stmdev_ctx_t *ctx, uint8_t *val); int32_t lsm6dsm_boot_set(const stmdev_ctx_t *ctx, uint8_t val); int32_t lsm6dsm_boot_get(const stmdev_ctx_t *ctx, uint8_t *val); typedef enum { LSM6DSM_XL_ST_DISABLE = 0, LSM6DSM_XL_ST_POSITIVE = 1, LSM6DSM_XL_ST_NEGATIVE = 2, } lsm6dsm_st_xl_t; int32_t lsm6dsm_xl_self_test_set(const stmdev_ctx_t *ctx, lsm6dsm_st_xl_t val); int32_t lsm6dsm_xl_self_test_get(const stmdev_ctx_t *ctx, lsm6dsm_st_xl_t *val); typedef enum { LSM6DSM_GY_ST_DISABLE = 0, LSM6DSM_GY_ST_POSITIVE = 1, LSM6DSM_GY_ST_NEGATIVE = 3, } lsm6dsm_st_g_t; int32_t lsm6dsm_gy_self_test_set(const stmdev_ctx_t *ctx, lsm6dsm_st_g_t val); int32_t lsm6dsm_gy_self_test_get(const stmdev_ctx_t *ctx, lsm6dsm_st_g_t *val); int32_t lsm6dsm_filter_settling_mask_set(const stmdev_ctx_t *ctx, uint8_t val); int32_t lsm6dsm_filter_settling_mask_get(const stmdev_ctx_t *ctx, uint8_t *val); typedef enum { LSM6DSM_USE_SLOPE = 0, LSM6DSM_USE_HPF = 1, } lsm6dsm_slope_fds_t; int32_t lsm6dsm_xl_hp_path_internal_set(const stmdev_ctx_t *ctx, lsm6dsm_slope_fds_t val); int32_t lsm6dsm_xl_hp_path_internal_get(const stmdev_ctx_t *ctx, lsm6dsm_slope_fds_t *val); typedef enum { LSM6DSM_XL_ANA_BW_1k5Hz = 0, LSM6DSM_XL_ANA_BW_400Hz = 1, } lsm6dsm_bw0_xl_t; int32_t lsm6dsm_xl_filter_analog_set(const stmdev_ctx_t *ctx, lsm6dsm_bw0_xl_t val); int32_t lsm6dsm_xl_filter_analog_get(const stmdev_ctx_t *ctx, lsm6dsm_bw0_xl_t *val); typedef enum { LSM6DSM_XL_LP1_ODR_DIV_2 = 0, LSM6DSM_XL_LP1_ODR_DIV_4 = 1, LSM6DSM_XL_LP1_NA = 2, /* ERROR CODE */ } lsm6dsm_lpf1_bw_sel_t; int32_t lsm6dsm_xl_lp1_bandwidth_set(const stmdev_ctx_t *ctx, lsm6dsm_lpf1_bw_sel_t val); int32_t lsm6dsm_xl_lp1_bandwidth_get(const stmdev_ctx_t *ctx, lsm6dsm_lpf1_bw_sel_t *val); typedef enum { LSM6DSM_XL_LOW_LAT_LP_ODR_DIV_50 = 0x00, LSM6DSM_XL_LOW_LAT_LP_ODR_DIV_100 = 0x01, LSM6DSM_XL_LOW_LAT_LP_ODR_DIV_9 = 0x02, LSM6DSM_XL_LOW_LAT_LP_ODR_DIV_400 = 0x03, LSM6DSM_XL_LOW_NOISE_LP_ODR_DIV_50 = 0x10, LSM6DSM_XL_LOW_NOISE_LP_ODR_DIV_100 = 0x11, LSM6DSM_XL_LOW_NOISE_LP_ODR_DIV_9 = 0x12, LSM6DSM_XL_LOW_NOISE_LP_ODR_DIV_400 = 0x13, LSM6DSM_XL_LP_NA = 0x20, /* ERROR CODE */ } lsm6dsm_input_composite_t; int32_t lsm6dsm_xl_lp2_bandwidth_set(const stmdev_ctx_t *ctx, lsm6dsm_input_composite_t val); int32_t lsm6dsm_xl_lp2_bandwidth_get(const stmdev_ctx_t *ctx, lsm6dsm_input_composite_t *val); int32_t lsm6dsm_xl_reference_mode_set(const stmdev_ctx_t *ctx, uint8_t val); int32_t lsm6dsm_xl_reference_mode_get(const stmdev_ctx_t *ctx, uint8_t *val); typedef enum { LSM6DSM_XL_HP_ODR_DIV_4 = 0x00, /* Slope filter */ LSM6DSM_XL_HP_ODR_DIV_100 = 0x01, LSM6DSM_XL_HP_ODR_DIV_9 = 0x02, LSM6DSM_XL_HP_ODR_DIV_400 = 0x03, LSM6DSM_XL_HP_NA = 0x10, /* ERROR CODE */ } lsm6dsm_hpcf_xl_t; int32_t lsm6dsm_xl_hp_bandwidth_set(const stmdev_ctx_t *ctx, lsm6dsm_hpcf_xl_t val); int32_t lsm6dsm_xl_hp_bandwidth_get(const stmdev_ctx_t *ctx, lsm6dsm_hpcf_xl_t *val); typedef enum { LSM6DSM_XL_UI_LP1_ODR_DIV_2 = 0, LSM6DSM_XL_UI_LP1_ODR_DIV_4 = 1, LSM6DSM_XL_UI_LP1_NA = 2, } lsm6dsm_ui_lpf1_bw_sel_t; int32_t lsm6dsm_xl_ui_lp1_bandwidth_set(const stmdev_ctx_t *ctx, lsm6dsm_ui_lpf1_bw_sel_t val); int32_t lsm6dsm_xl_ui_lp1_bandwidth_get(const stmdev_ctx_t *ctx, lsm6dsm_ui_lpf1_bw_sel_t *val); int32_t lsm6dsm_xl_ui_slope_set(const stmdev_ctx_t *ctx, uint8_t val); int32_t lsm6dsm_xl_ui_slope_get(const stmdev_ctx_t *ctx, uint8_t *val); typedef enum { LSM6DSM_AUX_LP_LIGHT = 2, LSM6DSM_AUX_LP_NORMAL = 3, LSM6DSM_AUX_LP_STRONG = 0, LSM6DSM_AUX_LP_AGGRESSIVE = 1, } lsm6dsm_filter_xl_conf_ois_t; int32_t lsm6dsm_xl_aux_lp_bandwidth_set(const stmdev_ctx_t *ctx, lsm6dsm_filter_xl_conf_ois_t val); int32_t lsm6dsm_xl_aux_lp_bandwidth_get(const stmdev_ctx_t *ctx, lsm6dsm_filter_xl_conf_ois_t *val); typedef enum { LSM6DSM_LP2_ONLY = 0x00, LSM6DSM_HP_16mHz_LP2 = 0x80, LSM6DSM_HP_65mHz_LP2 = 0x90, LSM6DSM_HP_260mHz_LP2 = 0xA0, LSM6DSM_HP_1Hz04_LP2 = 0xB0, LSM6DSM_HP_DISABLE_LP1_LIGHT = 0x0A, LSM6DSM_HP_DISABLE_LP1_NORMAL = 0x09, LSM6DSM_HP_DISABLE_LP_STRONG = 0x08, LSM6DSM_HP_DISABLE_LP1_AGGRESSIVE = 0x0B, LSM6DSM_HP_16mHz_LP1_LIGHT = 0x8A, LSM6DSM_HP_65mHz_LP1_NORMAL = 0x99, LSM6DSM_HP_260mHz_LP1_STRONG = 0xA8, LSM6DSM_HP_1Hz04_LP1_AGGRESSIVE = 0xBB, } lsm6dsm_lpf1_sel_g_t; int32_t lsm6dsm_gy_band_pass_set(const stmdev_ctx_t *ctx, lsm6dsm_lpf1_sel_g_t val); int32_t lsm6dsm_gy_band_pass_get(const stmdev_ctx_t *ctx, lsm6dsm_lpf1_sel_g_t *val); int32_t lsm6dsm_gy_ui_high_pass_set(const stmdev_ctx_t *ctx, uint8_t val); int32_t lsm6dsm_gy_ui_high_pass_get(const stmdev_ctx_t *ctx, uint8_t *val); typedef enum { LSM6DSM_HP_DISABLE_LP_173Hz = 0x02, LSM6DSM_HP_DISABLE_LP_237Hz = 0x01, LSM6DSM_HP_DISABLE_LP_351Hz = 0x00, LSM6DSM_HP_DISABLE_LP_937Hz = 0x03, LSM6DSM_HP_16mHz_LP_173Hz = 0x82, LSM6DSM_HP_65mHz_LP_237Hz = 0x91, LSM6DSM_HP_260mHz_LP_351Hz = 0xA0, LSM6DSM_HP_1Hz04_LP_937Hz = 0xB3, } lsm6dsm_hp_en_ois_t; int32_t lsm6dsm_gy_aux_bandwidth_set(const stmdev_ctx_t *ctx, lsm6dsm_hp_en_ois_t val); int32_t lsm6dsm_gy_aux_bandwidth_get(const stmdev_ctx_t *ctx, lsm6dsm_hp_en_ois_t *val); int32_t lsm6dsm_aux_status_reg_get(const stmdev_ctx_t *ctx, lsm6dsm_status_spiaux_t *val); int32_t lsm6dsm_aux_xl_flag_data_ready_get(const stmdev_ctx_t *ctx, uint8_t *val); int32_t lsm6dsm_aux_gy_flag_data_ready_get(const stmdev_ctx_t *ctx, uint8_t *val); int32_t lsm6dsm_aux_gy_flag_settling_get(const stmdev_ctx_t *ctx, uint8_t *val); typedef enum { LSM6DSM_AUX_DEN_DISABLE = 0, LSM6DSM_AUX_DEN_LEVEL_LATCH = 3, LSM6DSM_AUX_DEN_LEVEL_TRIG = 2, } lsm6dsm_lvl_ois_t; int32_t lsm6dsm_aux_den_mode_set(const stmdev_ctx_t *ctx, lsm6dsm_lvl_ois_t val); int32_t lsm6dsm_aux_den_mode_get(const stmdev_ctx_t *ctx, lsm6dsm_lvl_ois_t *val); int32_t lsm6dsm_aux_drdy_on_int2_set(const stmdev_ctx_t *ctx, uint8_t val); int32_t lsm6dsm_aux_drdy_on_int2_get(const stmdev_ctx_t *ctx, uint8_t *val); typedef enum { LSM6DSM_AUX_DISABLE = 0, LSM6DSM_MODE_3_GY = 1, LSM6DSM_MODE_4_GY_XL = 3, } lsm6dsm_ois_en_spi2_t; int32_t lsm6dsm_aux_mode_set(const stmdev_ctx_t *ctx, lsm6dsm_ois_en_spi2_t val); int32_t lsm6dsm_aux_mode_get(const stmdev_ctx_t *ctx, lsm6dsm_ois_en_spi2_t *val); typedef enum { LSM6DSM_250dps_AUX = 0, LSM6DSM_125dps_AUX = 1, LSM6DSM_500dps_AUX = 2, LSM6DSM_1000dps_AUX = 4, LSM6DSM_2000dps_AUX = 6, } lsm6dsm_fs_g_ois_t; int32_t lsm6dsm_aux_gy_full_scale_set(const stmdev_ctx_t *ctx, lsm6dsm_fs_g_ois_t val); int32_t lsm6dsm_aux_gy_full_scale_get(const stmdev_ctx_t *ctx, lsm6dsm_fs_g_ois_t *val); typedef enum { LSM6DSM_AUX_SPI_4_WIRE = 0, LSM6DSM_AUX_SPI_3_WIRE = 1, } lsm6dsm_sim_ois_t; int32_t lsm6dsm_aux_spi_mode_set(const stmdev_ctx_t *ctx, lsm6dsm_sim_ois_t val); int32_t lsm6dsm_aux_spi_mode_get(const stmdev_ctx_t *ctx, lsm6dsm_sim_ois_t *val); typedef enum { LSM6DSM_AUX_LSB_AT_LOW_ADD = 0, LSM6DSM_AUX_MSB_AT_LOW_ADD = 1, } lsm6dsm_ble_ois_t; int32_t lsm6dsm_aux_data_format_set(const stmdev_ctx_t *ctx, lsm6dsm_ble_ois_t val); int32_t lsm6dsm_aux_data_format_get(const stmdev_ctx_t *ctx, lsm6dsm_ble_ois_t *val); typedef enum { LSM6DSM_ENABLE_CLAMP = 0, LSM6DSM_DISABLE_CLAMP = 1, } lsm6dsm_st_ois_clampdis_t; int32_t lsm6dsm_aux_gy_clamp_set(const stmdev_ctx_t *ctx, lsm6dsm_st_ois_clampdis_t val); int32_t lsm6dsm_aux_gy_clamp_get(const stmdev_ctx_t *ctx, lsm6dsm_st_ois_clampdis_t *val); typedef enum { LSM6DSM_AUX_GY_DISABLE = 0, LSM6DSM_AUX_GY_POS = 1, LSM6DSM_AUX_GY_NEG = 3, } lsm6dsm_st_ois_t; int32_t lsm6dsm_aux_gy_self_test_set(const stmdev_ctx_t *ctx, lsm6dsm_st_ois_t val); int32_t lsm6dsm_aux_gy_self_test_get(const stmdev_ctx_t *ctx, lsm6dsm_st_ois_t *val); typedef enum { LSM6DSM_AUX_2g = 0, LSM6DSM_AUX_16g = 1, LSM6DSM_AUX_4g = 2, LSM6DSM_AUX_8g = 3, } lsm6dsm_fs_xl_ois_t; int32_t lsm6dsm_aux_xl_full_scale_set(const stmdev_ctx_t *ctx, lsm6dsm_fs_xl_ois_t val); int32_t lsm6dsm_aux_xl_full_scale_get(const stmdev_ctx_t *ctx, lsm6dsm_fs_xl_ois_t *val); typedef enum { LSM6DSM_AUX_DEN_ACTIVE_LOW = 0, LSM6DSM_AUX_DEN_ACTIVE_HIGH = 1, } lsm6dsm_den_lh_ois_t; int32_t lsm6dsm_aux_den_polarity_set(const stmdev_ctx_t *ctx, lsm6dsm_den_lh_ois_t val); int32_t lsm6dsm_aux_den_polarity_get(const stmdev_ctx_t *ctx, lsm6dsm_den_lh_ois_t *val); typedef enum { LSM6DSM_SPI_4_WIRE = 0, LSM6DSM_SPI_3_WIRE = 1, } lsm6dsm_sim_t; int32_t lsm6dsm_spi_mode_set(const stmdev_ctx_t *ctx, lsm6dsm_sim_t val); int32_t lsm6dsm_spi_mode_get(const stmdev_ctx_t *ctx, lsm6dsm_sim_t *val); typedef enum { LSM6DSM_I2C_ENABLE = 0, LSM6DSM_I2C_DISABLE = 1, } lsm6dsm_i2c_disable_t; int32_t lsm6dsm_i2c_interface_set(const stmdev_ctx_t *ctx, lsm6dsm_i2c_disable_t val); int32_t lsm6dsm_i2c_interface_get(const stmdev_ctx_t *ctx, lsm6dsm_i2c_disable_t *val); typedef struct { uint8_t int1_drdy_xl : 1; uint8_t int1_drdy_g : 1; uint8_t int1_boot : 1; uint8_t int1_fth : 1; uint8_t int1_fifo_ovr : 1; uint8_t int1_full_flag : 1; uint8_t int1_sign_mot : 1; uint8_t int1_step_detector : 1; uint8_t int1_timer : 1; uint8_t int1_tilt : 1; uint8_t int1_6d : 1; uint8_t int1_double_tap : 1; uint8_t int1_ff : 1; uint8_t int1_wu : 1; uint8_t int1_single_tap : 1; uint8_t int1_inact_state : 1; uint8_t den_drdy_int1 : 1; uint8_t drdy_on_int1 : 1; } lsm6dsm_int1_route_t; int32_t lsm6dsm_pin_int1_route_set(const stmdev_ctx_t *ctx, lsm6dsm_int1_route_t val); int32_t lsm6dsm_pin_int1_route_get(const stmdev_ctx_t *ctx, lsm6dsm_int1_route_t *val); typedef struct { uint8_t int2_drdy_xl : 1; uint8_t int2_drdy_g : 1; uint8_t int2_drdy_temp : 1; uint8_t int2_fth : 1; uint8_t int2_fifo_ovr : 1; uint8_t int2_full_flag : 1; uint8_t int2_step_count_ov : 1; uint8_t int2_step_delta : 1; uint8_t int2_iron : 1; uint8_t int2_tilt : 1; uint8_t int2_6d : 1; uint8_t int2_double_tap : 1; uint8_t int2_ff : 1; uint8_t int2_wu : 1; uint8_t int2_single_tap : 1; uint8_t int2_inact_state : 1; uint8_t int2_wrist_tilt : 1; } lsm6dsm_int2_route_t; int32_t lsm6dsm_pin_int2_route_set(const stmdev_ctx_t *ctx, lsm6dsm_int2_route_t val); int32_t lsm6dsm_pin_int2_route_get(const stmdev_ctx_t *ctx, lsm6dsm_int2_route_t *val); typedef enum { LSM6DSM_PUSH_PULL = 0, LSM6DSM_OPEN_DRAIN = 1, } lsm6dsm_pp_od_t; int32_t lsm6dsm_pin_mode_set(const stmdev_ctx_t *ctx, lsm6dsm_pp_od_t val); int32_t lsm6dsm_pin_mode_get(const stmdev_ctx_t *ctx, lsm6dsm_pp_od_t *val); typedef enum { LSM6DSM_ACTIVE_HIGH = 0, LSM6DSM_ACTIVE_LOW = 1, } lsm6dsm_h_lactive_t; int32_t lsm6dsm_pin_polarity_set(const stmdev_ctx_t *ctx, lsm6dsm_h_lactive_t val); int32_t lsm6dsm_pin_polarity_get(const stmdev_ctx_t *ctx, lsm6dsm_h_lactive_t *val); int32_t lsm6dsm_all_on_int1_set(const stmdev_ctx_t *ctx, uint8_t val); int32_t lsm6dsm_all_on_int1_get(const stmdev_ctx_t *ctx, uint8_t *val); typedef enum { LSM6DSM_INT_PULSED = 0, LSM6DSM_INT_LATCHED = 1, } lsm6dsm_lir_t; int32_t lsm6dsm_int_notification_set(const stmdev_ctx_t *ctx, lsm6dsm_lir_t val); int32_t lsm6dsm_int_notification_get(const stmdev_ctx_t *ctx, lsm6dsm_lir_t *val); int32_t lsm6dsm_wkup_threshold_set(const stmdev_ctx_t *ctx, uint8_t val); int32_t lsm6dsm_wkup_threshold_get(const stmdev_ctx_t *ctx, uint8_t *val); int32_t lsm6dsm_wkup_dur_set(const stmdev_ctx_t *ctx, uint8_t val); int32_t lsm6dsm_wkup_dur_get(const stmdev_ctx_t *ctx, uint8_t *val); int32_t lsm6dsm_gy_sleep_mode_set(const stmdev_ctx_t *ctx, uint8_t val); int32_t lsm6dsm_gy_sleep_mode_get(const stmdev_ctx_t *ctx, uint8_t *val); typedef enum { LSM6DSM_PROPERTY_DISABLE = 0, LSM6DSM_XL_12Hz5_GY_NOT_AFFECTED = 1, LSM6DSM_XL_12Hz5_GY_SLEEP = 2, LSM6DSM_XL_12Hz5_GY_PD = 3, } lsm6dsm_inact_en_t; int32_t lsm6dsm_act_mode_set(const stmdev_ctx_t *ctx, lsm6dsm_inact_en_t val); int32_t lsm6dsm_act_mode_get(const stmdev_ctx_t *ctx, lsm6dsm_inact_en_t *val); int32_t lsm6dsm_act_sleep_dur_set(const stmdev_ctx_t *ctx, uint8_t val); int32_t lsm6dsm_act_sleep_dur_get(const stmdev_ctx_t *ctx, uint8_t *val); int32_t lsm6dsm_tap_src_get(const stmdev_ctx_t *ctx, lsm6dsm_tap_src_t *val); int32_t lsm6dsm_tap_detection_on_z_set(const stmdev_ctx_t *ctx, uint8_t val); int32_t lsm6dsm_tap_detection_on_z_get(const stmdev_ctx_t *ctx, uint8_t *val); int32_t lsm6dsm_tap_detection_on_y_set(const stmdev_ctx_t *ctx, uint8_t val); int32_t lsm6dsm_tap_detection_on_y_get(const stmdev_ctx_t *ctx, uint8_t *val); int32_t lsm6dsm_tap_detection_on_x_set(const stmdev_ctx_t *ctx, uint8_t val); int32_t lsm6dsm_tap_detection_on_x_get(const stmdev_ctx_t *ctx, uint8_t *val); int32_t lsm6dsm_tap_threshold_x_set(const stmdev_ctx_t *ctx, uint8_t val); int32_t lsm6dsm_tap_threshold_x_get(const stmdev_ctx_t *ctx, uint8_t *val); int32_t lsm6dsm_tap_shock_set(const stmdev_ctx_t *ctx, uint8_t val); int32_t lsm6dsm_tap_shock_get(const stmdev_ctx_t *ctx, uint8_t *val); int32_t lsm6dsm_tap_quiet_set(const stmdev_ctx_t *ctx, uint8_t val); int32_t lsm6dsm_tap_quiet_get(const stmdev_ctx_t *ctx, uint8_t *val); int32_t lsm6dsm_tap_dur_set(const stmdev_ctx_t *ctx, uint8_t val); int32_t lsm6dsm_tap_dur_get(const stmdev_ctx_t *ctx, uint8_t *val); typedef enum { LSM6DSM_ONLY_SINGLE = 0, LSM6DSM_BOTH_SINGLE_DOUBLE = 1, } lsm6dsm_single_double_tap_t; int32_t lsm6dsm_tap_mode_set(const stmdev_ctx_t *ctx, lsm6dsm_single_double_tap_t val); int32_t lsm6dsm_tap_mode_get(const stmdev_ctx_t *ctx, lsm6dsm_single_double_tap_t *val); typedef enum { LSM6DSM_ODR_DIV_2_FEED = 0, LSM6DSM_LPF2_FEED = 1, } lsm6dsm_low_pass_on_6d_t; int32_t lsm6dsm_6d_feed_data_set(const stmdev_ctx_t *ctx, lsm6dsm_low_pass_on_6d_t val); int32_t lsm6dsm_6d_feed_data_get(const stmdev_ctx_t *ctx, lsm6dsm_low_pass_on_6d_t *val); typedef enum { LSM6DSM_DEG_80 = 0, LSM6DSM_DEG_70 = 1, LSM6DSM_DEG_60 = 2, LSM6DSM_DEG_50 = 3, } lsm6dsm_sixd_ths_t; int32_t lsm6dsm_6d_threshold_set(const stmdev_ctx_t *ctx, lsm6dsm_sixd_ths_t val); int32_t lsm6dsm_6d_threshold_get(const stmdev_ctx_t *ctx, lsm6dsm_sixd_ths_t *val); int32_t lsm6dsm_4d_mode_set(const stmdev_ctx_t *ctx, uint8_t val); int32_t lsm6dsm_4d_mode_get(const stmdev_ctx_t *ctx, uint8_t *val); int32_t lsm6dsm_ff_dur_set(const stmdev_ctx_t *ctx, uint8_t val); int32_t lsm6dsm_ff_dur_get(const stmdev_ctx_t *ctx, uint8_t *val); typedef enum { LSM6DSM_FF_TSH_156mg = 0, LSM6DSM_FF_TSH_219mg = 1, LSM6DSM_FF_TSH_250mg = 2, LSM6DSM_FF_TSH_312mg = 3, LSM6DSM_FF_TSH_344mg = 4, LSM6DSM_FF_TSH_406mg = 5, LSM6DSM_FF_TSH_469mg = 6, LSM6DSM_FF_TSH_500mg = 7, } lsm6dsm_ff_ths_t; int32_t lsm6dsm_ff_threshold_set(const stmdev_ctx_t *ctx, lsm6dsm_ff_ths_t val); int32_t lsm6dsm_ff_threshold_get(const stmdev_ctx_t *ctx, lsm6dsm_ff_ths_t *val); int32_t lsm6dsm_fifo_watermark_set(const stmdev_ctx_t *ctx, uint16_t val); int32_t lsm6dsm_fifo_watermark_get(const stmdev_ctx_t *ctx, uint16_t *val); int32_t lsm6dsm_fifo_data_level_get(const stmdev_ctx_t *ctx, uint16_t *val); int32_t lsm6dsm_fifo_wtm_flag_get(const stmdev_ctx_t *ctx, uint8_t *val); int32_t lsm6dsm_fifo_over_run_get(const stmdev_ctx_t *ctx, uint8_t *val); int32_t lsm6dsm_fifo_pattern_get(const stmdev_ctx_t *ctx, uint16_t *val); int32_t lsm6dsm_fifo_temp_batch_set(const stmdev_ctx_t *ctx, uint8_t val); int32_t lsm6dsm_fifo_temp_batch_get(const stmdev_ctx_t *ctx, uint8_t *val); typedef enum { LSM6DSM_TRG_XL_GY_DRDY = 0, LSM6DSM_TRG_STEP_DETECT = 1, LSM6DSM_TRG_SH_DRDY = 2, } lsm6dsm_trigger_fifo_t; int32_t lsm6dsm_fifo_write_trigger_set(const stmdev_ctx_t *ctx, lsm6dsm_trigger_fifo_t val); int32_t lsm6dsm_fifo_write_trigger_get(const stmdev_ctx_t *ctx, lsm6dsm_trigger_fifo_t *val); int32_t lsm6dsm_fifo_pedo_and_timestamp_batch_set(const stmdev_ctx_t *ctx, uint8_t val); int32_t lsm6dsm_fifo_pedo_and_timestamp_batch_get(const stmdev_ctx_t *ctx, uint8_t *val); typedef enum { LSM6DSM_FIFO_XL_DISABLE = 0, LSM6DSM_FIFO_XL_NO_DEC = 1, LSM6DSM_FIFO_XL_DEC_2 = 2, LSM6DSM_FIFO_XL_DEC_3 = 3, LSM6DSM_FIFO_XL_DEC_4 = 4, LSM6DSM_FIFO_XL_DEC_8 = 5, LSM6DSM_FIFO_XL_DEC_16 = 6, LSM6DSM_FIFO_XL_DEC_32 = 7, } lsm6dsm_dec_fifo_xl_t; int32_t lsm6dsm_fifo_xl_batch_set(const stmdev_ctx_t *ctx, lsm6dsm_dec_fifo_xl_t val); int32_t lsm6dsm_fifo_xl_batch_get(const stmdev_ctx_t *ctx, lsm6dsm_dec_fifo_xl_t *val); typedef enum { LSM6DSM_FIFO_GY_DISABLE = 0, LSM6DSM_FIFO_GY_NO_DEC = 1, LSM6DSM_FIFO_GY_DEC_2 = 2, LSM6DSM_FIFO_GY_DEC_3 = 3, LSM6DSM_FIFO_GY_DEC_4 = 4, LSM6DSM_FIFO_GY_DEC_8 = 5, LSM6DSM_FIFO_GY_DEC_16 = 6, LSM6DSM_FIFO_GY_DEC_32 = 7, } lsm6dsm_dec_fifo_gyro_t; int32_t lsm6dsm_fifo_gy_batch_set(const stmdev_ctx_t *ctx, lsm6dsm_dec_fifo_gyro_t val); int32_t lsm6dsm_fifo_gy_batch_get(const stmdev_ctx_t *ctx, lsm6dsm_dec_fifo_gyro_t *val); typedef enum { LSM6DSM_FIFO_DS3_DISABLE = 0, LSM6DSM_FIFO_DS3_NO_DEC = 1, LSM6DSM_FIFO_DS3_DEC_2 = 2, LSM6DSM_FIFO_DS3_DEC_3 = 3, LSM6DSM_FIFO_DS3_DEC_4 = 4, LSM6DSM_FIFO_DS3_DEC_8 = 5, LSM6DSM_FIFO_DS3_DEC_16 = 6, LSM6DSM_FIFO_DS3_DEC_32 = 7, } lsm6dsm_dec_ds3_fifo_t; int32_t lsm6dsm_fifo_dataset_3_batch_set(const stmdev_ctx_t *ctx, lsm6dsm_dec_ds3_fifo_t val); int32_t lsm6dsm_fifo_dataset_3_batch_get(const stmdev_ctx_t *ctx, lsm6dsm_dec_ds3_fifo_t *val); typedef enum { LSM6DSM_FIFO_DS4_DISABLE = 0, LSM6DSM_FIFO_DS4_NO_DEC = 1, LSM6DSM_FIFO_DS4_DEC_2 = 2, LSM6DSM_FIFO_DS4_DEC_3 = 3, LSM6DSM_FIFO_DS4_DEC_4 = 4, LSM6DSM_FIFO_DS4_DEC_8 = 5, LSM6DSM_FIFO_DS4_DEC_16 = 6, LSM6DSM_FIFO_DS4_DEC_32 = 7, } lsm6dsm_dec_ds4_fifo_t; int32_t lsm6dsm_fifo_dataset_4_batch_set(const stmdev_ctx_t *ctx, lsm6dsm_dec_ds4_fifo_t val); int32_t lsm6dsm_fifo_dataset_4_batch_get(const stmdev_ctx_t *ctx, lsm6dsm_dec_ds4_fifo_t *val); int32_t lsm6dsm_fifo_xl_gy_8bit_format_set(const stmdev_ctx_t *ctx, uint8_t val); int32_t lsm6dsm_fifo_xl_gy_8bit_format_get(const stmdev_ctx_t *ctx, uint8_t *val); int32_t lsm6dsm_fifo_stop_on_wtm_set(const stmdev_ctx_t *ctx, uint8_t val); int32_t lsm6dsm_fifo_stop_on_wtm_get(const stmdev_ctx_t *ctx, uint8_t *val); typedef enum { LSM6DSM_BYPASS_MODE = 0, LSM6DSM_FIFO_MODE = 1, LSM6DSM_STREAM_TO_FIFO_MODE = 3, LSM6DSM_BYPASS_TO_STREAM_MODE = 4, LSM6DSM_STREAM_MODE = 6, } lsm6dsm_fifo_mode_t; int32_t lsm6dsm_fifo_mode_set(const stmdev_ctx_t *ctx, lsm6dsm_fifo_mode_t val); int32_t lsm6dsm_fifo_mode_get(const stmdev_ctx_t *ctx, lsm6dsm_fifo_mode_t *val); typedef enum { LSM6DSM_FIFO_DISABLE = 0, LSM6DSM_FIFO_12Hz5 = 1, LSM6DSM_FIFO_26Hz = 2, LSM6DSM_FIFO_52Hz = 3, LSM6DSM_FIFO_104Hz = 4, LSM6DSM_FIFO_208Hz = 5, LSM6DSM_FIFO_416Hz = 6, LSM6DSM_FIFO_833Hz = 7, LSM6DSM_FIFO_1k66Hz = 8, LSM6DSM_FIFO_3k33Hz = 9, LSM6DSM_FIFO_6k66Hz = 10, } lsm6dsm_odr_fifo_t; int32_t lsm6dsm_fifo_data_rate_set(const stmdev_ctx_t *ctx, lsm6dsm_odr_fifo_t val); int32_t lsm6dsm_fifo_data_rate_get(const stmdev_ctx_t *ctx, lsm6dsm_odr_fifo_t *val); typedef enum { LSM6DSM_DEN_ACT_LOW = 0, LSM6DSM_DEN_ACT_HIGH = 1, } lsm6dsm_den_lh_t; int32_t lsm6dsm_den_polarity_set(const stmdev_ctx_t *ctx, lsm6dsm_den_lh_t val); int32_t lsm6dsm_den_polarity_get(const stmdev_ctx_t *ctx, lsm6dsm_den_lh_t *val); typedef enum { LSM6DSM_DEN_DISABLE = 0, LSM6DSM_LEVEL_FIFO = 6, LSM6DSM_LEVEL_LETCHED = 3, LSM6DSM_LEVEL_TRIGGER = 2, LSM6DSM_EDGE_TRIGGER = 4, } lsm6dsm_den_mode_t; int32_t lsm6dsm_den_mode_set(const stmdev_ctx_t *ctx, lsm6dsm_den_mode_t val); int32_t lsm6dsm_den_mode_get(const stmdev_ctx_t *ctx, lsm6dsm_den_mode_t *val); typedef enum { LSM6DSM_STAMP_IN_GY_DATA = 0, LSM6DSM_STAMP_IN_XL_DATA = 1, LSM6DSM_STAMP_IN_GY_XL_DATA = 2, } lsm6dsm_den_xl_en_t; int32_t lsm6dsm_den_enable_set(const stmdev_ctx_t *ctx, lsm6dsm_den_xl_en_t val); int32_t lsm6dsm_den_enable_get(const stmdev_ctx_t *ctx, lsm6dsm_den_xl_en_t *val); int32_t lsm6dsm_den_mark_axis_z_set(const stmdev_ctx_t *ctx, uint8_t val); int32_t lsm6dsm_den_mark_axis_z_get(const stmdev_ctx_t *ctx, uint8_t *val); int32_t lsm6dsm_den_mark_axis_y_set(const stmdev_ctx_t *ctx, uint8_t val); int32_t lsm6dsm_den_mark_axis_y_get(const stmdev_ctx_t *ctx, uint8_t *val); int32_t lsm6dsm_den_mark_axis_x_set(const stmdev_ctx_t *ctx, uint8_t val); int32_t lsm6dsm_den_mark_axis_x_get(const stmdev_ctx_t *ctx, uint8_t *val); int32_t lsm6dsm_pedo_step_reset_set(const stmdev_ctx_t *ctx, uint8_t val); int32_t lsm6dsm_pedo_step_reset_get(const stmdev_ctx_t *ctx, uint8_t *val); int32_t lsm6dsm_pedo_sens_set(const stmdev_ctx_t *ctx, uint8_t val); int32_t lsm6dsm_pedo_sens_get(const stmdev_ctx_t *ctx, uint8_t *val); int32_t lsm6dsm_pedo_threshold_set(const stmdev_ctx_t *ctx, uint8_t val); int32_t lsm6dsm_pedo_threshold_get(const stmdev_ctx_t *ctx, uint8_t *val); typedef enum { LSM6DSM_PEDO_AT_2g = 0, LSM6DSM_PEDO_AT_4g = 1, } lsm6dsm_pedo_fs_t; int32_t lsm6dsm_pedo_full_scale_set(const stmdev_ctx_t *ctx, lsm6dsm_pedo_fs_t val); int32_t lsm6dsm_pedo_full_scale_get(const stmdev_ctx_t *ctx, lsm6dsm_pedo_fs_t *val); int32_t lsm6dsm_pedo_debounce_steps_set(const stmdev_ctx_t *ctx, uint8_t val); int32_t lsm6dsm_pedo_debounce_steps_get(const stmdev_ctx_t *ctx, uint8_t *val); int32_t lsm6dsm_pedo_timeout_set(const stmdev_ctx_t *ctx, uint8_t val); int32_t lsm6dsm_pedo_timeout_get(const stmdev_ctx_t *ctx, uint8_t *val); int32_t lsm6dsm_pedo_steps_period_set(const stmdev_ctx_t *ctx, uint8_t *buff); int32_t lsm6dsm_pedo_steps_period_get(const stmdev_ctx_t *ctx, uint8_t *buff); int32_t lsm6dsm_motion_sens_set(const stmdev_ctx_t *ctx, uint8_t val); int32_t lsm6dsm_motion_sens_get(const stmdev_ctx_t *ctx, uint8_t *val); int32_t lsm6dsm_motion_threshold_set(const stmdev_ctx_t *ctx, uint8_t *buff); int32_t lsm6dsm_motion_threshold_get(const stmdev_ctx_t *ctx, uint8_t *buff); int32_t lsm6dsm_tilt_sens_set(const stmdev_ctx_t *ctx, uint8_t val); int32_t lsm6dsm_tilt_sens_get(const stmdev_ctx_t *ctx, uint8_t *val); int32_t lsm6dsm_wrist_tilt_sens_set(const stmdev_ctx_t *ctx, uint8_t val); int32_t lsm6dsm_wrist_tilt_sens_get(const stmdev_ctx_t *ctx, uint8_t *val); int32_t lsm6dsm_tilt_latency_set(const stmdev_ctx_t *ctx, uint8_t *buff); int32_t lsm6dsm_tilt_latency_get(const stmdev_ctx_t *ctx, uint8_t *buff); int32_t lsm6dsm_tilt_threshold_set(const stmdev_ctx_t *ctx, uint8_t *buff); int32_t lsm6dsm_tilt_threshold_get(const stmdev_ctx_t *ctx, uint8_t *buff); int32_t lsm6dsm_tilt_src_set(const stmdev_ctx_t *ctx, lsm6dsm_a_wrist_tilt_mask_t *val); int32_t lsm6dsm_tilt_src_get(const stmdev_ctx_t *ctx, lsm6dsm_a_wrist_tilt_mask_t *val); int32_t lsm6dsm_mag_soft_iron_set(const stmdev_ctx_t *ctx, uint8_t val); int32_t lsm6dsm_mag_soft_iron_get(const stmdev_ctx_t *ctx, uint8_t *val); int32_t lsm6dsm_mag_hard_iron_set(const stmdev_ctx_t *ctx, uint8_t val); int32_t lsm6dsm_mag_hard_iron_get(const stmdev_ctx_t *ctx, uint8_t *val); int32_t lsm6dsm_mag_soft_iron_mat_set(const stmdev_ctx_t *ctx, uint8_t *buff); int32_t lsm6dsm_mag_soft_iron_mat_get(const stmdev_ctx_t *ctx, uint8_t *buff); int32_t lsm6dsm_mag_offset_set(const stmdev_ctx_t *ctx, int16_t *val); int32_t lsm6dsm_mag_offset_get(const stmdev_ctx_t *ctx, int16_t *val); int32_t lsm6dsm_func_en_set(const stmdev_ctx_t *ctx, uint8_t val); int32_t lsm6dsm_sh_sync_sens_frame_set(const stmdev_ctx_t *ctx, uint8_t val); int32_t lsm6dsm_sh_sync_sens_frame_get(const stmdev_ctx_t *ctx, uint8_t *val); typedef enum { LSM6DSM_RES_RATIO_2_11 = 0, LSM6DSM_RES_RATIO_2_12 = 1, LSM6DSM_RES_RATIO_2_13 = 2, LSM6DSM_RES_RATIO_2_14 = 3, } lsm6dsm_rr_t; int32_t lsm6dsm_sh_sync_sens_ratio_set(const stmdev_ctx_t *ctx, lsm6dsm_rr_t val); int32_t lsm6dsm_sh_sync_sens_ratio_get(const stmdev_ctx_t *ctx, lsm6dsm_rr_t *val); int32_t lsm6dsm_sh_master_set(const stmdev_ctx_t *ctx, uint8_t val); int32_t lsm6dsm_sh_master_get(const stmdev_ctx_t *ctx, uint8_t *val); int32_t lsm6dsm_sh_pass_through_set(const stmdev_ctx_t *ctx, uint8_t val); int32_t lsm6dsm_sh_pass_through_get(const stmdev_ctx_t *ctx, uint8_t *val); typedef enum { LSM6DSM_EXT_PULL_UP = 0, LSM6DSM_INTERNAL_PULL_UP = 1, LSM6DSM_SH_PIN_MODE = 2, } lsm6dsm_pull_up_en_t; int32_t lsm6dsm_sh_pin_mode_set(const stmdev_ctx_t *ctx, lsm6dsm_pull_up_en_t val); int32_t lsm6dsm_sh_pin_mode_get(const stmdev_ctx_t *ctx, lsm6dsm_pull_up_en_t *val); typedef enum { LSM6DSM_XL_GY_DRDY = 0, LSM6DSM_EXT_ON_INT2_PIN = 1, } lsm6dsm_start_config_t; int32_t lsm6dsm_sh_syncro_mode_set(const stmdev_ctx_t *ctx, lsm6dsm_start_config_t val); int32_t lsm6dsm_sh_syncro_mode_get(const stmdev_ctx_t *ctx, lsm6dsm_start_config_t *val); int32_t lsm6dsm_sh_drdy_on_int1_set(const stmdev_ctx_t *ctx, uint8_t val); int32_t lsm6dsm_sh_drdy_on_int1_get(const stmdev_ctx_t *ctx, uint8_t *val); typedef struct { lsm6dsm_sensorhub1_reg_t sh_byte_1; lsm6dsm_sensorhub2_reg_t sh_byte_2; lsm6dsm_sensorhub3_reg_t sh_byte_3; lsm6dsm_sensorhub4_reg_t sh_byte_4; lsm6dsm_sensorhub5_reg_t sh_byte_5; lsm6dsm_sensorhub6_reg_t sh_byte_6; lsm6dsm_sensorhub7_reg_t sh_byte_7; lsm6dsm_sensorhub8_reg_t sh_byte_8; lsm6dsm_sensorhub9_reg_t sh_byte_9; lsm6dsm_sensorhub10_reg_t sh_byte_10; lsm6dsm_sensorhub11_reg_t sh_byte_11; lsm6dsm_sensorhub12_reg_t sh_byte_12; lsm6dsm_sensorhub13_reg_t sh_byte_13; lsm6dsm_sensorhub14_reg_t sh_byte_14; lsm6dsm_sensorhub15_reg_t sh_byte_15; lsm6dsm_sensorhub16_reg_t sh_byte_16; lsm6dsm_sensorhub17_reg_t sh_byte_17; lsm6dsm_sensorhub18_reg_t sh_byte_18; } lsm6dsm_emb_sh_read_t; int32_t lsm6dsm_sh_read_data_raw_get(const stmdev_ctx_t *ctx, lsm6dsm_emb_sh_read_t *val); int32_t lsm6dsm_sh_cmd_sens_sync_set(const stmdev_ctx_t *ctx, uint8_t val); int32_t lsm6dsm_sh_cmd_sens_sync_get(const stmdev_ctx_t *ctx, uint8_t *val); int32_t lsm6dsm_sh_spi_sync_error_set(const stmdev_ctx_t *ctx, uint8_t val); int32_t lsm6dsm_sh_spi_sync_error_get(const stmdev_ctx_t *ctx, uint8_t *val); typedef enum { LSM6DSM_NORMAL_MODE_READ = 0, LSM6DSM_SRC_MODE_READ = 1, } lsm6dsm_src_mode_t; int32_t lsm6dsm_sh_cfg_slave_0_rd_mode_set(const stmdev_ctx_t *ctx, lsm6dsm_src_mode_t val); int32_t lsm6dsm_sh_cfg_slave_0_rd_mode_get(const stmdev_ctx_t *ctx, lsm6dsm_src_mode_t *val); typedef enum { LSM6DSM_SLV_0 = 0, LSM6DSM_SLV_0_1 = 1, LSM6DSM_SLV_0_1_2 = 2, LSM6DSM_SLV_0_1_2_3 = 3, } lsm6dsm_aux_sens_on_t; int32_t lsm6dsm_sh_num_of_dev_connected_set(const stmdev_ctx_t *ctx, lsm6dsm_aux_sens_on_t val); int32_t lsm6dsm_sh_num_of_dev_connected_get(const stmdev_ctx_t *ctx, lsm6dsm_aux_sens_on_t *val); typedef struct { uint8_t slv0_add; uint8_t slv0_subadd; uint8_t slv0_data; } lsm6dsm_sh_cfg_write_t; int32_t lsm6dsm_sh_cfg_write(const stmdev_ctx_t *ctx, lsm6dsm_sh_cfg_write_t *val); typedef struct { uint8_t slv_add; uint8_t slv_subadd; uint8_t slv_len; } lsm6dsm_sh_cfg_read_t; int32_t lsm6dsm_sh_slv0_cfg_read(const stmdev_ctx_t *ctx, lsm6dsm_sh_cfg_read_t *val); int32_t lsm6dsm_sh_slv1_cfg_read(const stmdev_ctx_t *ctx, lsm6dsm_sh_cfg_read_t *val); int32_t lsm6dsm_sh_slv2_cfg_read(const stmdev_ctx_t *ctx, lsm6dsm_sh_cfg_read_t *val); int32_t lsm6dsm_sh_slv3_cfg_read(const stmdev_ctx_t *ctx, lsm6dsm_sh_cfg_read_t *val); typedef enum { LSM6DSM_SL0_NO_DEC = 0, LSM6DSM_SL0_DEC_2 = 1, LSM6DSM_SL0_DEC_4 = 2, LSM6DSM_SL0_DEC_8 = 3, } lsm6dsm_slave0_rate_t; int32_t lsm6dsm_sh_slave_0_dec_set(const stmdev_ctx_t *ctx, lsm6dsm_slave0_rate_t val); int32_t lsm6dsm_sh_slave_0_dec_get(const stmdev_ctx_t *ctx, lsm6dsm_slave0_rate_t *val); typedef enum { LSM6DSM_EACH_SH_CYCLE = 0, LSM6DSM_ONLY_FIRST_CYCLE = 1, } lsm6dsm_write_once_t; int32_t lsm6dsm_sh_write_mode_set(const stmdev_ctx_t *ctx, lsm6dsm_write_once_t val); int32_t lsm6dsm_sh_write_mode_get(const stmdev_ctx_t *ctx, lsm6dsm_write_once_t *val); typedef enum { LSM6DSM_SL1_NO_DEC = 0, LSM6DSM_SL1_DEC_2 = 1, LSM6DSM_SL1_DEC_4 = 2, LSM6DSM_SL1_DEC_8 = 3, } lsm6dsm_slave1_rate_t; int32_t lsm6dsm_sh_slave_1_dec_set(const stmdev_ctx_t *ctx, lsm6dsm_slave1_rate_t val); int32_t lsm6dsm_sh_slave_1_dec_get(const stmdev_ctx_t *ctx, lsm6dsm_slave1_rate_t *val); typedef enum { LSM6DSM_SL2_NO_DEC = 0, LSM6DSM_SL2_DEC_2 = 1, LSM6DSM_SL2_DEC_4 = 2, LSM6DSM_SL2_DEC_8 = 3, } lsm6dsm_slave2_rate_t; int32_t lsm6dsm_sh_slave_2_dec_set(const stmdev_ctx_t *ctx, lsm6dsm_slave2_rate_t val); int32_t lsm6dsm_sh_slave_2_dec_get(const stmdev_ctx_t *ctx, lsm6dsm_slave2_rate_t *val); typedef enum { LSM6DSM_SL3_NO_DEC = 0, LSM6DSM_SL3_DEC_2 = 1, LSM6DSM_SL3_DEC_4 = 2, LSM6DSM_SL3_DEC_8 = 3, } lsm6dsm_slave3_rate_t; int32_t lsm6dsm_sh_slave_3_dec_set(const stmdev_ctx_t *ctx, lsm6dsm_slave3_rate_t val); int32_t lsm6dsm_sh_slave_3_dec_get(const stmdev_ctx_t *ctx, lsm6dsm_slave3_rate_t *val); /** * @} * */ #ifdef __cplusplus } #endif #endif /* LSM6DSM_DRIVER_H */ /************************ (C) COPYRIGHT STMicroelectronics *****END OF FILE****/